ML20198D068
| ML20198D068 | |
| Person / Time | |
|---|---|
| Site: | Fort Saint Vrain  |
| Issue date: | 05/14/1986 |
| From: | Bressler M, Kowal D, Torres T GENERAL ATOMICS (FORMERLY GA TECHNOLOGIES, INC./GENER |
| To: | |
| Shared Package | |
| ML20198D062 | List: |
| References | |
| 908813, TAC-61601, NUDOCS 8605230127 | |
| Download: ML20198D068 (264) | |
Text
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SUMMARY
A TITLE FINAL REPORT - FSV CRDOA HIGH TEMPERATURE O RaO APPROVAL LEVEL 2 b FUNCTIONAL TEST GDV&S O DESIGN DISCIPLINE SYSTEM 00C. TYPE PROJECT [0OCUMENT NO. ISSUE N0/LTR. M 12 RTE 1900 [ 908813 N/C QUALITY ASSURANCE LEVEL SAFETY CLASSIFICATION SEISMIC CATEGORY ELECTRICAL CLASSIFICATION Qal I FSV1 FSV1 IE APPROVAL PREP ^ ISSUE DATE DES RIPTION/ BY FUNDING APPLICABLE ENGINEERING QA CWBS NO. PROJECT PROJECT N/C
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REV l SH 29 30 31 32 33 34 35 36 37 38 40 44 39 41 42 43 45 l 46 47 48 49 50 51 52 53 54 55 56 REV l SH 1 2 3 4 5 6 7 8 9 10 22 28 11 12 13 14 15 16 17 18 19 20 21 23 24 25 26 27 PAGE i 0F 261 - h
908813 / N/C
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\ %. - Page ABSTRACT................................................ 1
1.0 CONCLUSION
S AND RECOMMENDATIONS......................... 2
2.0 INTRODUCTION
............................................ 4 30 SC0PE................................................... 5 4.0 0BJECTIVES.............................................. 6 4.1 Primary 0bjective.................................. 6 4.2 Secondary Objectives............................... 6 50 TEST ITEM DESCRIPTION................................... 8 51 CRDOA s/n 09....................................... 9 6.0 TEST RIG................................................ 11 6.1 Autoclave.......................................... 11 6.2 Controls........................................... 12 6.3 Helium Supply Source............................... 13 70 INSTRUMENTATION......................................... 15 71 Primary Data Gathering Data Acquisition System..... (*
, 72 Back EMF Data Acquisition System...................
15 18 73 Test instruments................................... 19 8.0 DISCUSS 10N.............................................. 23 8.1 Test Method and Program 0verview................... 23 8.2 Test Sequence...................................... 24 8.3 Test P.esu1ts....................................... 26 90 QUALITY ASSURANCE....................................... 35 10.0 DOCUMENTATION AND REC 0RDS.............................. 37
11.0 REFERENCES
............................................. 38 APPENDIX A Sample Data Package, Run 300-E4-022.............. A-1 APPENDIX B Nonconformance Reports........................... B-1 1 i
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908813 / N/C TABLES Page 71 EQUIPMENT LIST.......................................... 39 72 INSTRUMENTATION LIST.................................... 41 8.1 FILES CROSS REFERENCE................................... 42 1 8.2 DATA
SUMMARY
............................................ 43 8.3 BACK EMF SCRAM DATA
SUMMARY
............................. 45 ! 8.4 STEADY STATE RTD DATA................................... 46 O a I
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908813 / N/C FIGURES Page 51 Cutaway View of CRD0A................................... 47 52 CRDOA Prior to insertion into Autoclave................. 49 53 CRDOA Lifting Plate..................................... 50 5.4 CRDOA Access Panel...................................... 51 55 Control Rod Drive Mechanism............................. 52 56 CR0 Brake-Motor......................................... 53 57 CRD Position Potentiometer and Switches................. 54 6.1 Autoclave Drawing....................................... 55 6.2 Autoclave Graphite Core Before insulation............... 56 6.3 Autoclave Graphite Core After insulation................ 57 6.4 Autoclave Orifice Valve Shield.......................... 58 6.5 Autoclave Heater Controls............................... 59 6.6 Control Panel........................................... 60 6.7 Control and Electrical Schematics....................... 61 71 Data Gathering Data Acquisition System.................. 67 72 Data Reduction and Remote Monitoring Computer........... 68 73 Data Acquisition System Block Diagram................... 69 7.4 Back EMF Data Acquisition System........................ 70 75 Plotter Used to Measure Scram Duration.................. 71 0 76 Typical Scram Duration Data Plot........................ 7.7 Thermocouples Below closure Plate...................-- - 72 73 78 Shim Motor RTD and Thermocouples........................ 74 79 Cable Drum Housing Thermocouple......................... 75 7 10 Closure Plate RTD...................................... 76 7 11 Analytical Gas Chromatograph........................... 78 7 12 Moisture Monitor....................................... 79 8.1 Data Plots, Run AMB-B1-001............................... 80 8.2 Data Plots, Run 225-81-002............................... 91 8.3 Data Plots, Run 300-81-014............................... 104 8.4 Data Plots, Run 300-E15-033.............................. 117 8.5 Data Plots, Run AMB-El-034............................... 130 8.6 Scram Time vs Run Sequence............................... 143 8.7 Start Moment vs Run Sequence............................. 144 8.8 Shim Motor at Posttest inspection........................ 145 8.9 Questionable Control Rod Position Trace.................. 147 8.10 RTD Transient Performance............................... 148 8.11 Orifice Valve Area Temperature for Six Days............. 149 8.12 Orifice Valve Area Temperature vs Position.............. 150 8.13 Orifice Valve Area Temperature vs Purge Flow Rate....... 152 8.14 Time at Temperature..................................... 154 O
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908813 / N/C ( ABSTRACT
)
The intent of this test program was to demonstrate the operation of a Fort St Vrain control rod drive and orificing assembly at elevated temperatures. In particular, the performance of the motors, switches, temperature detection devices, position potentiometers and bearings were studied at temperature as high as 300 degrees Fahrenheit. A spare control rod drive, serial number 09, was placed within a test autoclave which simulated the reactor configuration with a heated graphite core column. The temperature of the orifice valve surroundings was maintained at about 730 degrees Fahrenheit. Clean, dry helium was the working fluid. The test program was comprised of soak periods at temperature followed by functional tests of scrams, control rod insertions and withdrawals, orifice valve motion from fully closed to fully opened and return, and functional checks of the reserve shutdown switch. The entire scheduled test program was completed without any apparent mechanical or electrical failures. The duration of scrams had been essentially constant throughout most of the test, but a slight, gradual increase of the order of one to two seconds was noticed near the end of the program. A posttest tear down and inspection showed a measured decrease in () the control rod drive shim motor stator insulation and visual signs of heat effects on some other components such as wire insulation, potting compounds, epoxy adhesive and nylon cable ties. Nevertheless, all phases of the high temperature functional test program were canpleted, and all design and safety-related functions were satisfactorily performed. j
908813 / N/C
1.0 CONCLUSION
S AND RECOMMENDATIONS
- 1. CRDOA s/n 09 successfully completed all phases of the high temperature functional test program. No major changes in the performance characteristics of any of the components were observed.
Following fourteen days of continuous exposure to a 300 degree Fahrenheit, clean, dry helium environment, CRDOA s/n 09 was able to perform all of its design and safety-related functions. Shim motor s/n 29, which was installed in CRDOA s/n 09, had damaged motor leads insulation repaired prior to receipt at GA for testing. Following completion of the test, inspection revealed a breakdown in the material used for the repair. Insulation on the lead wires away from the repaired area was found to be in good condition. Also, cracks were found in the motor stator insulation. It is uncertain whether these cracks developed prior to the test, during the test or both. Either of these insulation breakdowns would be sufficient to preclude further use of this motor in the reactor unless suitable repairs were made. Testing of CRDOA s/n 09 has demonstrated that all components of the control rod drive and orificing assembly can withstand long term continuous exposure to temperatures as high as 300 degrees Fahrenheit in clean, dry hellum. Only minor changes were seen in the performance characteristics of the components which were tested. All ( safety-related functions were properly performed throughout the entire test program. Accordingly, operation of the FSV reactor with CRD mechanism compartment ambient temperatures as high as 300 degrees is acceptable for clean, dry helium conditions. Continued operation at these temperatures for significant time durations will not result in the loss of ability to perform safety-related functions.
- 2. During scram testing at 300 degrees Fahrenheit, scram duration began to increase slightly and the starting moment concurrently decreased. These events and the posttest decrease in the motor lead wire to case resistance may be due to heat-related degradation.
3 The Resistance Temperature Detectors (RTD) which had been installed at FSV on the closure plate, shim motor and orifice valve motor tracked i the test thermocouples reasonably well once calibration and Installation effects were accounted for. Posttest ice point resistance measurements for all three units were within the manufacturer's specification tolerance.
- 4. The reserve shutdown system pressure switch actuation setting shifted from about 10 psi to 12.4 psi from pretest to posttest inspections, whereas 10 5 psi is the maximum allowable value.
lo
903813 / N/C s O 5 During two tests, the gas temperature in the upper housing compart-b ment fell below specified limits for short durations. This is believed to have a negligible effect.
- 6. During several tests, the gas temperature in the vicinity of the orifice valve fell below specified limits for extended periods. This was unavoidable due to the limitations of the autoclave heaters. The specified minimum temperature was 730 degrees Fahrenheit, and the lowest value encountered during testing was 713 degrees. Only during two out of thirty-two test runs did the average temperature fall below 720 degrees.
However, parts of the valve were hotter than the measured gas temperature. This discrepancy is believed to have a negligible effect. 7 The posttest resistance of one of the rod retract switches when closed was 0.14 ohm, which is slightly higher than that of a new switch, it is uncertain whether or not contact resistance increased during the test program.
- 8. The mechanical integrity of the CRDOA was not degraded due to high temperature operation, but at the conclusion of testing, the orifice valve drive gearing had become audibly noisy.
9 One of the two tandem control rod position potentiometers exhibited a calibration shift. It is uncertain whether this is attributable to the potentiometer or the test instrumentation. O 10. Although the RTD's performed acceptably well during the test, occasional calibrations would improve the reliability of the data. A more positive method of affixing the RTD's to the respective surfaces would be desirable.
- 11. If any additional high temperature testing is deemed to be desirable, then testing individual components in a small autoclave would be a logical approach. Such testing would be limited to motors, switches and potentiometers, because no other component showed heat effects.
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908813 / N/C
2.0 INTRODUCTION
During the operation of the Fort St Vrain (FSV) reactor, the temperatures of components in the upper portion of the control rod drive and orificing assembly (CRDOA) were measured and found to be j higher than,the temperatures postulated during the original design of the system. The higher temperatures were experienced in the area of the drive mechanisms located in the top of the refueling penetrations. An analysis of data taken at various power levels (ref. 11.1) indicated
, that the maximum temperature of the Control Rod Drive (CRD) motor could I be higher than 250 degrees Fahrenheit at 100% power operation with the orifice valve set at the minimum anticipated 10% open position. The ; average. temperature of the CRD motor during previous development tests was 215 degrees.
To assure that the control rods can be inserted at the high temperatures, a rod scram test has been performed on the mechanisms on a biweekly basis at FSV (ref. 11.2). In addition, the CRD motor temperature has been monitored, and if it were to exceed 250 degrees, or if the area helium temperature were to exceed 300 degrees, then the Station Manager is to be notified. i 4 Due to the possibility of the CRDOA operating temperature j exceeding that encountered during the earlier development test, it was
; decided to conduct a test to demonstrate that the assembly was capable i ,, / of performing all of its design functions after exposure to the maximum postulated temperature plus margin. This maximum postulated
! tee.pereture plus viergin has been defined as 300 degrecs Fahrenheit j (ref. 11.3). However, dus to the design modifications made to reduce i the tendency of high temperature primary coolant to migrate upward
- through the housing, this temperature is probably very conservative.
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908813 / N/C
T 30 SCOPE This document reports the results of a test performed to meet the requirements of a test specification and a test procedure, references 11.4 and 11 5, respectively. The test was performed using a spare FSV CRDOA, serial number 09, which arrived at the GA Technologies Experimental Engineering Test Tower on August 27, 1985 Upon check out and instrumentation, the CRDOA was installed in the facility autoclave which had been built in the 1960's for the explicit purpose of testing a prototype FSV CRDOA.
I The primary purpose of the test was to investigate the effects of elevated temperature on the safety-related features of the CRDOA, in particular, those components which could impede a control rod scram. A partial disassembly and inspection of selected electrical components concluded the test program. Since these components were not necessarily new, nor was there a laboratory-type pretest evaluation of their condition, the actual degree of performance degradation could not be determined for the most part. O i l i
908813 / N/C 4.0 OBJECTIVES O 4.1 PRIMARY OBJECTIVE The primary test objective was to determine whether or not the test CRD could perform a satisfactory scram after having been exposed to temperatures as high as 300 degrees Fahrenheit. A satisfactory scram is one in which the simulated control rods would travel the entire nominal 191 3 inch stroke in 152 seconds, or less. 4.2 SECONDARY OBJECTIVES Secondary objectives included monitoring the performance of selected components, the failures of which would not inhibit a satisfactory scram. In the event of such failures, these were to be noted, and the test was to be continued. Also, data parameters were to be measured and recorded to create a data bank for possible future analysis. 1 4.2.1 Back EMF Scram Obtain data during scrams using a CRD Back EMF Data Acquisition System (DAS) with hardware and software specified and set up by PSCo personnel. See reference 11.6. O 4.2.2 Data Scram . Obtain data during scrams using test instrumentstion and test DAS. This instrumentation had a slight influence on scram performance, so it had to be isolated from the motor circuit during the back EMF scrams. 4.2 3 Powered Control Rod Movement Obtain data during powered control rod movement. The rods were both inserted and withdrawn from the core. 4.2.4 Reserve Shutdown Switch Actuation i Obtain data during pressurization of the reserve shutdown system . hopper to indicate whether or not the pressure switch in the pressure ! supply line functioned properly. ! 4.2 5 Resistance Temperature Detectors Data Obtain comparative data as a function of temperature of the test , thermocouples versus FSV-installed resistance temperature detectors (RTD). Three RTD's had been attached to surfaces in the upper portion ) of the CRD. O i
i i l 908813 / N/C J 4.2.6 Orifice Valve Movement
- Obtain data during orifice valve movement for a complete cycle i from fully closed to fully open and return.
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908813 / N/C 50 TEST ITEM DESCRIPTION The test item has been described in the Installation, Operation, and Maintenance Manual (ref. 11 7) as follows: The nuclear core of the Fort St. Vrain Nuclear Generating Station is controlled by an arrangement of control rods, a reserve shutdown system, and orifice valves. The control rods and their drive mechanisms form the primary control system of the reactor, each rod movement resulting in a corresponding reactivity change. The function of the reserve shutdown system is to provide a backup reactor control system that is capable of safely shutting down the reactor to refueling temperature and keeping it suberitical for an extended period. The reserve shutdown system can also be used to augment the shutdown margin. The gas outlet temperature from different regions can be adjusted by orificing the coolant flow rate to each region by means of the orifice valve. The control rods, control rod drive mechanism, orifice valve mechanism, and reserve shutdown system are combined into a single unit contained within a cylindrical housing which also provides radiation and thermal protection to the equipment during reactor operation. The orifice valve, although not contained within the housing, is an p integral part of the unit and is attached to the lower portion of the V housing. The housing and the components centsined therein are located above the core within the refueling penetrations in the top head of the prestressed concrete reactor vessel (PCRV). The orifice valve, attached to the housing, is located in the plenum and supported by the top of the core. Access to the equipment is possible only after the reactor has been shut down. This single unit, comprised of the equipment listed above, is referred to as the control rod drive and orificing assembly (CRDOA). There are 37 refueling penetrations to match the 37 core regions of the Fort St. Vrain reactor. Each of these penetrations contains a control and orificing assembly. The three-fold purpose of these assemblies is (1) to control and safeguard the reactor by means of a number of control rods operated in pairs, each pair being controlled by one control rod drive mechanism; (2) to regulate and control the flow of coolant gas to each fuel region; and (3) to provide a reserve shutdown poison in the form of stored neutron absorbing material (boron carbide) which can be released by the operator, if required, and allowed to fall into channels provided in each core region. The upper section of the cylindrical housing contains the control rod drive mechanism mounted to the bottom of the closure plate. Directly below the control rod drive mechanism is the orifice control O mechanism, which is mounted above the radiation shield. The orifice valve is suspended below the shield housing and is connected to its
1 SaS313 / N/C 1 control mechanism by a long drive shaft / lifting rod assembly. The O overall control and orificing assembly is roughly 18 inches in diameter by 315 inches long. Electrical and gas purge and supply connections to i the three systems comprising the control and orificing assembly are i made at the top of the assembly and pass through the closure plate. j The housing has a flange approximately 45 inches below its top face, which fits into a counterbore in the refueling penetration. This i allows the assembly to be bolted into the penetration at this point. l The flange is in the form of a rotatable clamp ring that will i compensate for angular deviations of approximately plus or minus 5 degrees between the refueling penetrations and the core.
- The upper sections of the control rod guide tubes and the cable J guide tubes form an integral part of the radiation shield. The lower sections of the control rod guide tubes, to which the orifice valve is
; attached are joined to the upper sections at the lower end of the radiation shield, the joint being made by means of a telescopic, ! articulation coupling. This coupling allows both lateral and vertical
]' displacement of the reactor core and at the same time permits the guide tubes to maintain engagement with the top reflector blocks. The radiation shield is also penetrated by the orifice control connecting i rod. Figure 5 1 shows a cutaway view of a CRDOA, and Figure 5 2 shows a test CRDOA prior to installation into the autoclave. l The control rod drives are essentially electrically powered j J winches which raise and lower the control rods by means of flexible steel cables. The principal components of the control rod mechanism are the drive motor, motor brake, reduction gearing, rod position : i potentiometer, limit switches, limit switch cams, slack cable
! Indication device, duplex cable urum, control rod guide tubes, and 1/4 inch diameter suspension cables.
f The control rods are electrically controlled by the shim motor and i brake assembly. When energized and applled, the brake retains the control rods in a withdrawn position. When a scram is initiated, the brake is de-energized and released, allowing the rods to fall into the
- core under gravitational force. A capacitor array is pe manently connected to the motor circuit. When the motor is rotated under the influence of the falling rods, it functions as an induction generator supplying a capacitive-resistive load which limits the control rod i insertion velocity.
l l 51 CRDOA S/N 09 f The test CRDOA S/N 09 had seen limited service in the reactor, so
- it was radiologically quite clean. Prior to being shipped from FSV in
- August 1985, it had been used as a training device, and it was
! refurbished for the present test using the same procedures as those i used for units now in the core. Dummy weights, each weighting 124.5 . l pounds, were used in place of the actual control rods, which were O retained at FSV. The following table lists some of the pertinent components. i
908813 / N/C COMPONENT MODEL SERIAL NUMBER CRD shim motor Varo inc. D-2101, 20641 29 Orifice valve motor Superior Electric Type SS250-1150 7 CRD tandem pos. pot. Beckman Hetipot, 7603-1707-0, 8514 Orifice valve pos. pot. Beckman Helipot, 7603, 8530 RSS pressure switch Consol! dated Contr, 6607A, 2-99 W1272 Slack cable switch Honeywell 3HT1 8503 CRD rod in/out pos. Honeywell 3HT1 8450 The CRDOA was moved around the autoclave area with an overhead crane and a specially built lifting plate. This lifting plate can be seen attached to the CRDOA in Figure 5 3 The CRDOA is installed in the.open air work stand, which is next to the autoclave. Approximately 4 feet below the housing closure plate, there are four panels which allow access to the upper area compartment in which the pertinent components are located. One such panel is shown in Figure 5.4. In the center, the hellum purge supply 1ine exits the compartment via an expansion bellows. Some of the electrical wires at the left are connected to a resistance temperature detector (RTD), the purpose of which is to measure the compartment floor temperature near the orifice valve motor-drive mechanism mounting plate. Part of this mechanism can be seen behind the purge line bellows. In order to gain more complete access to the components in the upper area compartment, 32 lock-wired bolts are removed from top of the housing, separating it approximately four inches from the top. The , control rod drive mechanism, which is attached to the top closure plate, can then be raised and exposed. Figure 5 5 shows the closure plate supported by four spacers. The cable drum, brake-motor combination and tandem rod position potentiometers are in the center of the photo. A view of the brake-motor combination during posttest inspection in shown in Figure 5.6. A view of the tandem rod position potentiometers, rod position switches and cams is shown in Figure 5 7 i
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f
; 908813 / N/C 6.0 TEST RlG O.
[ The test rig was comirised of the autoclave, controls and helium j supply source. l 6.1 AUTOCLAVE i The autoclave, serial number E 268, was built in 1967 to withstand working pressures up to 100 psi and, also, full vacuum up to 600 degrees Fahrenheit wall temperature in the lower three of four basic sections.
- These sections envelop the heated graphite core, and, hence, would be
, subjected to the highest pressure boundary metal temperatures. The upper j section was built to a screwhat lower temperature and pressure design ! point, but in this area, the operating temperatures would be lower. Due to the intended use, however, the vessel has been legally restricted to a ! working pressure of 23 psi and a ilmiting wall temperature of 600 degrees Fahrenheit. i Figure 6.1 shows the autoclave pressure boundary, the ten-block, graphite core column, and several other features. Figures 6.2 and 6.3 show the graphite core before and af ter Installation of the lieaters and insulation, respectively, during assembly in 1967 Figure 6.4 shows the insulated shield which surrounds the CR00A orifice valve when installed.
, The heaters were separated into six Independently controlled zones. Zones 1 to 3 heaters transfer heat to the upper eight of the O ten graphite core blocks through direct contact. Zone 4 heaters are suspended from an annular ring above the orifice valve. These transfer i heat to the helium through convection and to the orifice valve and a j surrounding insulated heat shield through radiation. It would be a j
{ considerable effort to replace any of these heater elements should they ^ J burn out. Accordingly, a 1200 degree Fahrenheit limit was placed on 4 the sheath temperatures as measured by nearby thermocouples. Zones 5 ' and Sa are located at the top of the autoclave in order to control the j helium temperature in the CR00A housing compartment which is the l primary test variable. These heaters are affixed to the external surface of the autoclave, and they transfer their heat into the I pressure boundary which is restricted by law to 600 degrees. 1
- All heater elements were obtained from the Watlow Mfg. Co. of St.
i Louis, Missouri. i ! ZONE TYPE SIZE NO CURRENT / PHASE (Inches) (amps) l i 1 firerod cartridge 3/4 dia x 15 long 24 50 l 2 firerod cartridge 3/4 dia x 15 long 15 30 3 firerod cartridga 3/4 dia x 15 tong 15 29 4 firerod cartridge 3/4 dia X 32 long 9 26
- 5 mica strip 3 x 36 long 9 24 Sa mica band 24 dia x 2 wide 3 10 l
j O f - _-~ , _._._.- _ __~___ -._ - - . _ _ , . _ . _ . . . _ . _ _ _ . - - . _ . . . . _ . . _ . _ _ _ . , _ _ , . . _ . - - _ . - . - . _ _ _ . _ - - .
908813 / N/C 6.2 CONTROLS O Two control systems were used in the test; one for temperature control, the other for remote control of the CR00A systems. 6.2.1 Temperature Controls Each of the six autoclave heater zones was independently controlled. Thermocouples located in the respective zones were used for inputs into the controllers. For zones 1 through 5, inclusive, the sensor was fed into a Barber Colman Capacitrol model 472 set point controller. A second set of five nearby thermocouples was fed into Barber Colman Limitrol model 481 overtemperature limiters, so that if an out of limit temperature were sensed, then the affected zone heater would be turned off. In this case, the heaters would be shut down only in that zone in which an out of limit condition existed and all other zones would be unaffected. (see Figure 6.5) Other thermocouples, some within the heater zones and others at various locations such as the autoclave surface, etc., were fed into either one of two multipoint, continuous strip chart recorders. The primary function of these recorders was to shut down all heater power in the event that a preset limiting temperature anywhere in the system were exceeded. The zone Sa heater controller setup was somewhat different from that of the other five zones which made use of the equipment in place O since the 1967 prototype test. A 8arber Colman Capacitrol model 272P was installed for the present test, but without a zone overtemperature limiter. A representative zone Sa thermocouple was connected to one of the multipoint recorders for overtemperature protection, however. 6.2.2 CRDOA Controls The CRDOA was controlled remotely via a control panel (Figure 6.6) and connecting wiring which penetrated the autoclave approximately 48 feet above ground level. The control panel is the same one that was used in the 1967 prototype test, inspected and refurbished as required. Similarly, most of the facility wiring had remained in satisfactory condition, and it was usable without repair. One difference is that the model of preset indexer used to control the orifice valve movement was changed to a current model because the FSV-specific model was not obtainable. Instead, a Superior Electric Slo-Syn model SP 1538 S/N 08513 was used throughout the test program. During testing, the unit was operated at the slowest practical speed in the automatic mode which produced full travel from valve closed to open, or vice versa, in under nine minutes. The preset indexer, which was located outside the autoclave, was not being evaluated in the present test. The control panel was located in the ground-level control room adjacent to the Data Acquisition System (DAS) video monitor which displayed the current status of numerous, pertinent data paramenters. O The heater controllers were also nearby. The control panel was used to perform several functions, including: 908813 / N/C Engage or release the shim motor brake. Command control rod movement and direction. Command orifice valve movement and direction. Monitor selected data parameters displayed on panel meters. Control and electrical schematics are shown as Figure 6.7 6.3 HELlUM SUPPLY SOURCE The test working fluid was clean, dry helium supplied from a large volume tube skid, which was metered and measured on a helium supply control panel. The supply system source had been planned to be the facility recirculating purification loop. However, this loop was designed for intermittent operation and nearly continuous operation would have been required because of the high rate of contaminant outgassing ostensibly from the graphite core blocks. Accordingly, the gas supply was once through, and the tube skid was frequently I replenished. The closed loop purification loop was used to some extent to reduce the helium consumption. The tube skid volume was approximately 23,000 standard cubic feet 4 when pressurized to about 2,200 psi. The gas was obtained from the U.S. Bureau of Mines, Helium Field Operations Simi Valley, California plant. This high-purity helium was 99 997 percent pure helium, or better, by volume and was compressed through a 2-micron filter into containers Os acceptably free of contamination at Bureau plants. High-purity helium was guaranteed to contain not more than a total of 30 parts per million of impurities by volume of which Individual impurities were not to exceed the limitations set forth in the specification below. SPECIFICATION: HIGH-PURITY HELlUM meets purity requirements of MSFC-SPEC-364C or of MIL-P-27407 and Federal BB-H-il68b specifications as they may be amended to permit an oxygen impurity of not more than 3 ppm by volume. Its specification, in containers filled at Bureau plants, is: IMPURITY MAXIMUM CONCENTRATION ppm by volume Neon 23 Nitrogen 5 0xygen 3 Water vapor in tank cars or tube trailers 3 in standard cyclinders 8 Hydrogen 1 Hydrocarbons 1
908813 / N/C I The helium was transported from the Bureau of Mines plant to the test supply source tube skid via a tube trailer owned and operated by Liquid Carbonic industrial / Medical Corporation. Occasional spot checks of the gas purity using the facility moisture monitor and analytical gas chromatograph confirmed that the helium supplied to the autoclave was of high purity. O O 908813 / N/C 70 INSTRUMENTATION The test instrumentation was comprised of two computer-based Data Acquisition Systems (DAS), various sensors connected to the DAS, strip chart recorders to monitor additional temperatures, and instruments which required manual recording such as the moisture monitor and analytical gas chromatograph. Table 7 1 is a list of equipment. 71 PRIMARY DATA GATHERING DATA ACQUISITION SYSTEM The primary data gathering DAS employed a Compaq Deskpro 5 personal computer with a 30 megabyte hard disk and one floppy disk drive. Two monochrome video monitors with identical output displays, located near the control panel, were connected to the computer, and these showed real time data to the test operator and observors. A dot matrix printer and a built-in streaming tape back-up recorder were also part of the computer system. (see Figure 7 1) The computer has several unused slots in the chassis which allow installation of special purpose boards. Three of these were configured with single board analog and digital input / output systems (A/D boards), Data Translation model DT2805 and model DT707 Screw Terminal Panels. The latter serves as a mechanical interface between data source leads and the A/D boards. The versatile A/D boards can perform several 3 functions, and in the present test each board was used to accept up to eight differential direct current signals (i.e. signal minus local ground). The signals were converted to values of digital counts, recognizable to the host computer, and proportional to the values of the input signals. Input signals over a wide range of voltages can be accommodated by preselecting the appropriate software p.agrammable gains. On-Off signals, such as switch closures, were fed into the digital input / output terminals of the boards. 7 1.1 DAS Calibration Since the DAS was used for data parameter calibrations, it was necessary to calibrate the DAS itself. Reference standard voltages corresponding to each range were applied to the A/D boards, and the full scale span was adjusted to 4096 digital counts (a 12 bit device produces resolution of 2 raised to the 12 power = 4096). All boards used in the test were similarly calibrated, so differences among them were small, typically on the order of 1 to 2 counts, it had been intended to make no changes to the board configuration during the test, but on two occasions, boards were damaged and had to be replaced. The first failure occurred after the first test, which was prior to Installing the CRDOA into the autoclave, and the second failure was after completion of the test program, but prior to posttest calibration. This discrepancy is believed to have a negligible effect on the data and no effect on the subsequent conclusions. O I
908813 / N/C 7.1.2 Calibrations Using the DAS Primary data parameters were acquired via the DAS using pretest calibrations. An end to end calibration technique was used whenever practical. To implement an end to end calibration, the subject sensor and a reference standard are subjected to the same environment, and the sensor response is recorded as DAS output. The comparison between the reference standard input and the DAS ouput forms the basis of the calibration. For example, when calibrating a thermocouple, it is placed in an oven along with a reference standard which has an independent readout. The thermocouple would have been connected to the DAS through the identical route to be used during the test program. The DAS output in digital counts would be recorded as a function of oven temperature as determined by the reference standard. Thus, a number of output digital counts (or voltage) corresponds to an input reference standard temperature. There was an additional constraint on the thermocouple calibration. The temperature-voltage relationship for various types of thermocouples is well-known, so If the calibration results differed from It appreciably, then the thermocouple was faulty and, hence, discarded. An end to end calibration on a pressure transducer can be . performed by applying a pressure simultaneously to a test transducer and a reference standard guage and recording the output digital counts from the DAS. An and to end calibration on a displacement, such as control rod position, can be performed by recording output digital O counts obtained from a position potentiometer connected to the DAS as a function of displacement measured with a reference scale. In many cases, the calibration results are linear, and these are programmed into the data gathering computer codes as two point straight line curve fits. When the calibrations results are non-linear, then curve fitted equations are used in the codes. For example, the control 2 rod drive position, which is determined with a shaft-mounted potentiometer, is non-linear because the effective drum diameter decreases as the cable is played out. Some thermocouples, such as those Imbedded within the autoclave, could not be practically removed. In these instances, the sensor was assumed to function correctly, and it was separated from the sensing line as distant from the recording device as practical. Voltages corresponding to selected temperatures were fed into the sensing lines using a calibration voltage source, and the recorders or temperature controllers were adjusted to the source values. Also, shim motor voltages and currents were calibrated with the motor disconnected from the DAS and a dummy calibration circuit installed in its place. 7.1 3 Test instruments Calibrations Prior to the beginning of testing, the instruments ilsted in Table 7 2 were calibrated according to the methods described in Reference 11.8. A similar posttest calibration was also performed. Calibrations _ . _ ._ . _ _ _ _ _ _ _ _ _ - _ - _ _ ~_ _ _ . ._ - 4 908813 / N/C for one of two control rod position potentiometers and the reserve O * *d v t ar r tr d c r acceptance criteria tolerances; all others passed. iis tiv a c d d t8 a et e 1 There are two control rod position potentiometers on a common shaft. One of these, referred to as S (spare) in the data tabulations, { repeated pre and posttest calibrations virtually identically. The
! other, referred to as N (normal), appeared to have drifted by as much ; as four inches. The cause of this discrepancy may be attributed to j either the position potentiometer or the test instrumentation.
2 The pressure transducer was found to have drifted to a higher than ] actual indication by about 0 7 psi which represents a 3% error. This i drift is unrelated to the shift in the set point of the RSS switch i j which is discussed in Section 8. ! i l 7.1.4 Data Gathering and Transmission codes l i { Osta gathering was performed by first creating a new computer data ! file, then scanning the A/D input boards and converting the inputs to , engineering units using the pretest calibrations, and, finally, 1 recording to the file at a prescribed sampling rate. After closing the 4 file, a new file was opened for the next test sequence, and the l procedure repeated. The code was extensive since it performed many i functions, but it was straight-forward in that these functions were of ! a book-keeping nature, i.e., manipulating files, curve fitting, , l printing, plotting, etc. The final data was in raw form, without j analysis. j i l Test operating conditions were to be maintained constant over an
- extended time period, so it was necessary to monitor these conditions ,
around the clock. In particular, the helium gas temperature in the ' l area surrounding the control rod drive mechanism and, also, the orifice i valve were important test parameters. These and all system ' 4 temperatures were dependent upon such factors as Test Tower ambient i I temperature and air currents and utility line voltage variations. So, ' I in order to monitor important data parameters during non-working hours, 4 a data transmission code was developed and implemented. l i immediately prior to entering an unattended period, the data ! transmission code was selected. The computer was set up to j continuously sample all data parameters just as with the data gathering
- code. The computer was connected to a telephone modem through which the current data could be addressed by a remote computer having a similar modem and using a common data transmission format. One feature of this method was that the current data status could be interrogated ;
j by any one of several test monitors at any time. Another feature was i that alarm limits were programmed into the code, and whenever one such i limit was exceeded, then the computer would telephone the duty test
- monitor. If the monitor did not acknowledge the call after a !
, prescribed number of rings, then the computer would redlal the i A alternate monitor. The computer would alternately call each monitor U until it received an acknowledgement. i l i !_-~--.~.___...,_m -_._ __. _ , _ _ _ _
908813 / N/C The portable Compaq computer shown in Figure 7 2 was used to O ar dec 8 rd coa < < d c d d = deri 9 r'i"9 8 rs. #d it primary computer used for at-home monitoring (it is equipped with a the built in modem). The data gathering computer received its power through an uninterruptible power supply to prevent loss of contact due to a temporary power failure. This was important because a very short duration power interruption could download the computer program, but it took a 20 second power interruption to unlatch the autoclave heater power relays. Losing heater power for an extended period of time would quickly cause a loss of temperature which would.be regained very slowly after the heater power relays were reset once the condition was discovered. Figure 7 3 shows a block diagram of the DAS. 72 BACK EMF DAS l A special purpose DAS was selected by PSCo for use during selected scrams. The data gathered during this testing was to be used in the development of operability criteria for the CRDOA. The test setup and computer algorithms were provided by PSCo personnel, and these were treated as proprietary information. The data was acquired on a cassette tape which was sent to FSV for reduction and analysis. Only a few selected parameters were made available for real time information, i.e., pass / fall, peak moment, starting moment and average acceleration. See Reference 11.6. The DAS, which was comprised of equipment rented from Leasametric of Anaheim, California, was already calibrated when received. O Its major components included a Hewlett Packard HP-29826S computer with special purpose boards and an HP-3437A digital voltmeter. PSco supplied a printer and other ancilliary equipment to complete the system. Assembly, checkout, and operating Instructior.s also were provided. Figure 7.4 shows the DAS assembly located close to the autoclave penetration where it had been moved to reduce the. level of electrical noise that had affected it when it was located within the distant control room. i Scram duration was defined as the period between brake release and rod in, with switch closures identifying the respective events. The 1 Hewlett Packard model 7090 recording plotter shown in Figure 7 5 was used to determine scram time for all scrams. The switch closures are presented as vertical lines superimposed upon a reference control rod position trace. Figure 7.6 is a typical test data plot. The diagonal trace is rod position. The left-most vertical line, identified by 5 31V.0.090M, represents brake release, where xxxx0.090M denotes the start time base in minutes. On the right side of the figure, there are i several vertical lines, each one denoting an actuation of a rod in switch. The reason that there are more than one is due to the bounce, or yo-yo, of the simulated control rods at the bottom of the travel. ' The first switch closure occurred at xxxx2 346M, so the scram duration time was 135 36 seconds (2 346 - 0.090 minutes = 135 36 seconds). The resolution of the recorder time base was 0.18 seconds. l 18 - 1
; 908813 / N/C 7.3 TEST INSTRUMENTS O
7 3 1 Thermocouples The thermocouples used exclusively for both control and data were type K, Chromel/Alumel, which have a useful temperature range of about i- -300 to 1600 degrees Fahrenheit. Some of the thermocouples are shown j in Figures 7 7, 7.8 and 7 9 There are three, 1 / 16 inch diameter
! thermocouples shown in Figure 7 7 slightly below the closure plate at j the top of the photo. The uppermost of the three is sandwiched between
! two flat washers, and the assembly is bolted to make intimate contact I with the closure plate. This technique would cause the thermocouple to sense a temperature close to the closure plate metal temperature. l Of the other two thermocouples, one was used to sense the -200 assembly area temperature upon which the test set point conditions were based. These two thermocouples were connected to the computer, and
! these were part of the extensive data base. The other nearby thermo-l couple, also being in the -200 assembly area, sensed roughly the same j temperature. It was connected to a panel meter on the test operator's j control panel. It also served as a spare for the primary measurement, had
- It been needed.
Figure 7.8 shows two thermocouples and an RTO mounted on the
- control rod drive shim motor. Both thermocouples were held against the 1 motor case by a piece of phenolic clamped around it. The inner contour of the phenolic block matched the motor case diameter, and 1/16 inch diameter grooves were cut to accommodate the thermocouples. The block served to hold the thermocouples in contact with the motor case j surface, and it also insulated the thermocouples from the local helium i gas temperature. Without insulation, the thermocouple would sense a l temperature between the metal and gas temperatures. One of these was l
connected to the computer, the other to a panel meter. A similar installation of two thermocouples held against a j motor surface with a phenolic block was provided for the orifice valve ! motor. Here too, one of these was connected to the computer, the other j to a panel meter. t i A single thermocouple was placed on the floor of the upper area i compartment next to an RTD to provide a comparison between the two ! sensors. The orifice valve motor and gearing assembly is mounted on
- this floor close to the sensors. The thermocouple was covered by a l small piece of stainless steel shim stock, and the shim stock was l
coated with epoxy adhesive beyond its boundaries in order to hold it to i the floor. The epoxy thermally insulated the thermocouple from the
! gas. This thermocouple was connected to the computer also.
j Figure 7 9 shows a single thermocouple next to the cable drum housing. It was connected to one of the two multipoint recorders, the purpose of which was to track the time histories of selected i measurements and to shut off all autoclave heater power in the event j that any of the temperatures exceeded a specified set point. m__ _ _ _ _ _ _ _
908813 / N/C 7.3 2 Resistance Temperature Detectors (RTD) O The CRDOA was received from FSV with three resistance temperature detectors (RTD) installed in the upper housing compartment. These were Rosemount, model 118, 100 ohm, pure platinum wire sensors. Their purpose was to measure the metal temperatures of the housing closure plate, the control rod drive shim motor case, and the upper housing compartment floor. Each was affixed to the surface using fast curing epoxy cement, which may degrade somewhat at the peak test temperatures. Atthough the sensors were encapsulated in epoxy, the extent of thermal insulation between the sensors and the metal surfaces was found to be small. Unlike the three or four-wire electrical hook-up used at FSV, the RTD's were connected to the test readout device using two wires and making a lead wire resistance correction. Whereas these excellent RTD's are capable of accuracles better than one degree, the present method likely limits the accuracy to 1 - 2 degrees. A discrepancy of this magnitude is of little consequence for the purpose of its intended use in the FSV reactor and also for the comparison with test thermocouples during the present test. It is believed that there is a greater difference due to spacial location and mechanical installation. The control rod drive shim motor RTD is shown in the center of Figure 7.8, on the upper surface of the case. The epoxy joint held throughout the test, but the mass of epoxy had become discolored having O V turned from a golden honey color to a dark orange with traces of black. Figure 7 10a shows that the closure plate RTD had dropped away from the metal surface sometime during the test. Figure 7 10b is a close up view which shows that the failed glue joint is flat, i.e., the RTD dropped away from the surface rather than having peeled away. The time at which this separation occurred may be inferred from data which is discussed in Section 8. This mass of epoxy was dark orange too, but without any traces of black. The RTD on the compartment floor remained glued to the surface and had undergone the least amount of , discoloration of the three. During the posttest calibration of the RTD's (there had be'en no pretest calibration because it would have been necessary to remove them), the oven was raised to 420 degrees Fahrenheit and the epoxy took on the appearance of polished coal. 7 3.4 Control Rod Drive Motor Parameters Control rod drive brake-motor performance parameters were motor power, current, voitage, frequency and brake voitage and current. Some of these instruments affected the actual motor performance, so that in the critical Back EMF scram test, they were disconnected and Isolated from the system. They were reconnected for all other operations. 7.3 5 Reserve Shutdown Switch Differential Pressure Transducer The reserve shutdown switch differential pressure transducer was used to measure the pressure difference between the upper housing
908813 / N/C compartment c.nd the reserve shutdown hopper supply line. This is O. inally the same differential sensed by the reserve shutdown switch, but the sensing points were spatially separated. In a static system, there would be no difference in the sensed pressures, but with flow, there would by a difference dt.a to pneumatic lag. During pretest checkout with the hopper purge-vent ilne blocked, the switch actuated at the desired value of about 10 psi. During normal and test conditions, the blockage is replaced by a calibrated leak, allowing the supply gas to flow and producing a pneumatic lag between the switch and the test transducer. The magnitude of the sensed difference due to lag is a function of supply gas conditions, and it was typically about 5 psi during testing within the autoclave. It was very much higher during the posttest ambient check for some unknown reason. 736 Analytical Gas Chromatograph The Carle, model 111H, Analytical Gas Chromatograph (AGC) with a Houston Instruments Company B-5000 strip chart recorder is shown in Figure 7 11. A sample of certified calibration gas supplied by Matheson Gas Products was passed through the AGC, and a trace obtained with local peaks defining the concentration of constituent gases. Then a test g:: sample was passed through the AGC, and a comparison of the trace with & t of the calibration gas determined the concentration of test constituent gases. The Identifiable gases of interest were hydrogen, oxygen, nitrogen, carbon monoxide and carbon dioxide. Hydrogen, oxygen and nitrogen were present within the autoclave due to air and water desorbed from the graphite core. Oxygen may have been removed from the Iron oxide of the CRDOA housing. The carbon monoxide and carbon dioxide were products of the free oxygen interacting with the graphite Core. Data readings were obtained at least daily to assure that the level of total oxidants remained within established limits. There were sensing pick up points at three vertical locations on the autoclave, and there were seals between the autoclave and the housing which separated the environment into three separate zones. In the lower zone, continuous core outgassing produced increasing levels of carbon monoxide and carbon dioxide. The upper zone was most representative of the -200 assembly area, so this zone was used for the test reference. When it became apparent that the lower zone outgassing was going to proceed at an unacceptably high rate, the plan to recirculate the system helium from the bottom to the top to furnish purge flow, was abandoned. Instead, clean, dry gas from the tube skid was admitted to the upper zone for purge flow, and a like quantity was exhausted to atmosphere maintaining a constant pressure within the autoclave. During such operations, the AGC was used to confirm that the supply gas was clean. Also, the quantity of purge gas exhausted from the bottom O zone was sufficient to keep the gas fairly clean despite the outgassing. i 4 908813 / N/C 1 737 Moisture Monitor O Two moisture monitors were used during the test program to measure the level of moisture in the vicinity of the -200 assembly, initially i a 8eclunan Electrolytic Hygrometer, model no. 279, was used because it had the capability of operating down to around 1 PPMv. Its use was discontinued when its output readings became erratic. It was replaced j by an EGsG, model 660, Dew Point Hygrometer which was rellable and i consistent, but incapable of providing measurements in the 1 - 5 PPMv 3 range. A change notice to the test requirements was made which allowed a i higher level of both oxidants and moisture. The basis of this change was that in order to match reactor purity, the relative pressure levels of both the reactor and the autoclave should be considered. That is, , the partial pressures (or, number of contaminant molecules per unit
- volume) of the contaminant gases should be matched. With this relaxed requirement, the dew point hygrometer with an added stage of precooling became a viable alternative. See Figure 7 12.
The hygrometer output was in degrees, typically on the order of i -70 degrees Fahrenheit. Using this temperature, the autoclave pressure, and the well-known relationship between temperature and water 4 vapor pressure, the moisture level in PPMv was calculated. l 7.3.8 Helium Purge Flow Rate l Helium purge flow rate was measured with a common Brooks Rotameter l flow meter and controlled with a valve to provide between 2 - 5 pounds per hour of helium flow into the upper housing. In the reactor, purge
- flow is helpful in two ways; inhibiting heat transfer into the upper
- housing compartment, and inhibiting the migration of radiological contaminants into the compartment. In the test, purge flow was not
- required for these necessary functions, rather it complicated test operations and added cost. However, it was deemed desirable to simulate the reactor purge flows.
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908813 / N/C 1 8.0 DISCUSSION 8.1 TEST METHOD AND PROGRAM OVERVIEW The test program began with refurbishing the test facility to accommodate the test item CRDOA, S/N 09, which had been used as a training unit by PSCo personnel during their extensive CRD rework l operation in 1985 This particular unit was a logical candidate ! for the present test because it was radiologically quite clean, since it had limited service in the reactor. i After all systems had been checked out and the CRDOA was in place ; in the open autoclave, a complete test series was run. Following this 1 successful test on 11/23/85, the autoclave top flange was installed and l the autoclave was evacuated in preparation for back-filling with helium t and subsequent heat up. The heat up began on 11/27/85 The hellum j temperature in the upper housing compartment area was easily brought up
- to the first heated test point of 225 degrees Fahrenheit, but the desired 760 +/-30 temperature in the vicinity of the orifice valve was difficult to achieve. Ultimately, a layer of Insulation was placed around the autoclave near the orifice valve which reduced heat transfer out of this area, but adequate orJfice valve area temperature remained a problem throughout the program.
The rate of build up of moisture and contamination remained l unacceptably high for weeks, so the plan to recirculate the helium from the bottom of the autoclave to the purge line, with occasional usage of the facility helium purification loop, was abandoned in favor of a once through method. High purity helium was drawn directly from the tube skid and supplied to the purge flow line, while a like amount was exhausted to atmosphere. While expensive in terms of gas consumption, the purity of the entering gas was assured and, also, the tests could begin. The first test at elevated temperature was performed on i 12/26/85 The program was comprised of a' test series at upper area temperatures of 225, 250, 260, 270, 280, 290 and 300 degrees Fahrenheit. Once the temperature was stabilized, a test run sequence was performed, then after a soak period of 24 hours, an end of test run l sequence was performed. The temperature was then raised to the next higher temperature, and the procedure was repeated until 300 degrees i was reached. The soak period was two weeks at 300 degrees, and five pre-soak tests and fifteen post-soak tests were performed. Throughout.the entire period ofsthe heated tests, the temperature in the vicinity of the orifi,ce valve was to be constant; only the temperature in the upper housing area changed. The acceptable temperature variation in this area was +/- 10 degrees, and the system
- temperature was tightly controlled. So it was possible to set the temperature to 265 degrees, for example, perform the nominal 260 degree O
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4 908813 / N/C 8.0 DISCUSSION O 8.1 TEST METHOD AND PROGRAM OVERVIEW The test program began with refurbishing the test facility to accommodate the test item CRDOA, S/N 09, which had been used as a training unit by PSCo personnel during their extensive CRD rework operation in 1985 This particular unit was a logical candidate for the present test because it was radiologically quite clean, since it had limited service in the reactor. After all systems had been checked out and the CRDOA was in place in the open autoclave, a complete test series was run. Following this successful test on 11/23/85, the autoclave top flange was installed and the autoclave was evacuated in preparation for back-filling with helium and subsequent heat up. The heat up began on 11/27/85 The hellum temperature in the upper housing compartment area was easily brought up to the first heated test point of 225 degrees Fahrenheit, but the desired 760 +/-30 temperature in the vicinity of the orifice valve was difficult to achieve. Ultimately, a layer of insulation was placed around the autoclave near the orifice valve which reduced heat transfer out of this area, but adequate orifice valve area temperature remained a problem throughout the program. The rate of build up of moisture and contamination remained unacceptably high for weeks, so the plan to recirculate the helium from O the bottom of the autoclave to the purge line, with occasional usage of the facility helium purification loop, was abandoned in favor of a once through method. High purity helium was drawn directly from the tube skid and supplied to the purge flow line, while a like amount was exhausted to atmosphere. While expensive in terms of gas consumption, the purity of the entering gas was assured and, also, the tests could begin. The first test at elevated temperature was performed on 12/26/85 The program was comprised of a test series at upper area temperatures of 225, 250, 260, 270, 280, 290 and 300 degrees Fahrenheit. Once the temperature was stabilized, a test run sequence was performed, then after a soak period of 24 hours, an end of test run sequence was performed. The temperature was then raised to the next higher temperature, and the procedure was repeated until 300 degrees was reached. The soak period was two weeks at 300 degrees, and five pre-soak tests and fifteen post-soak tests were performed. Throughout the entire period of the heated tests, the temperature in the vicinity of the orifice valve was to be constant; only the
- temperature in the upper housing area changed. The acceptable temperature variation in this area was +/- 10 degrees, and the system temperature was tightly controlled. So it was possible to set the temperature to 265 degrees, for example, perform the nominal 260 degree 1
0 908813 / N/C l l tests and the 270 degree pre-soak test. Then the temperature could be () raised to 275 during the 270 degree soak period, and so forth. Thus, on several occasions, two tests were run on the same day, one right after the other, 8.2 TEST SEQUENCE All tests were conducted in a sequence which satisfied the stated requirements and objectives. 8.2.1 Assuring Test Conditions
, Prior to making a data run, the assigned technician measured the helium inventory moisture, oxidants and pressure to assure that conditions were satisfactory. The criteria were that there should be no more than 50 PPMv moisture, and 250 PPMv total oxidants (see Section 7 3 7). Also, the autoclave pressure was to be higher than ambient pressure by about 8 psi to assure proper operation of facility systems.
Once the tests at elevated temperature began, satisfactory helium l purity was maintained throughout the entire test duration. 8.2.2 Back EMF Scram The first test in the sequence was the Back EMF scram, so that
.O this was the first activity following a soak period. During this test, the shim motor test instrumentation which caused a small, but measurable, effect on motor performance was switched out of the circuit. A scram was performed using the instrumentation system which was specified and set up by PSCo personnel. A print out Informed the operator of either a preselected passed or failed condition. in the event of a failed condition, additional scrams were performed until a
- passed condition was achieved. Early in the program it was thought that failures may have been due, in part, to Test Tower electrical noise and the lights and autoclave heaters were turned off momentarily.
This did not appear to be the case, so that practice was discontinued. Occasional failures occurred, and no explanation is offered herein. l 8.2 3 Full Data Scram l Following a successful Back EMF scram, the test instrumentation was switched back into the circuit, the simulated control rods were raised to the rod out position, and a full data scram was performed. All data was obtained via the data gathering DAS, and it was written to a file exclusively for this particular scram. Scram time was obtained using a plotter for the full data scrams just as for the Back EMF scrams. 8.2.4 Control Rod Drive Shim Motor After the full data scram, the simulated control rods were raised O and the operator confirmed a " rod out" indication. The rods were then
908813 / N/C powered in until fully extended and a " rod in" indication was recorded. O The rods were raised and another " rod out" indication was recorded. A separate data file for this test was obtained via the DAS. The identifying sequence number of this data file would generally be one digit higher than that of the full data scram because the file numbers were automatically incremented. 8.2 5 orifice valve Movement Test The orifice valve motor was continuously powered by the preset indexer which was normally operated in the index mode. The valve was left in the fully closed position, except during the orifice valve movement tests. The operator confirmed that the valve was closed by noting a near zero indication on either the panel meter or the DAS video display (note: unlike the rod position, the orifice valve position was not monitored by switches). The valve was commanded open, and the full open position ( 6 inches is fully open) was reached in slightly less than nine minutes. This was the slowest practical speed. Then the valve was closed at the same rate. A data file was created for this test, and it was given a sequence number generally one digit higher than that of the full data scram. 8.2.6 RTD Resistances and Corresponding Thermocouple Temperatures Resistance readings of the three resistance temperature detectors (rtd) which were part of the CRDOA Installed equipment were made whenever convenient for the test operator to do so. Typically this would have been during the orifice valve movement when there were no tasks to perform other than to monitor conditions in general. The operator used a digital multimeter to measure the lead resistances at pairs of test points, and recorded these values on the data sheet along with the corresponding, near-by thermocouple temperatures obtained from the real time video display. 8.2 7 Reserve Shutdown Switch Pressurization Test The last test in a series was the Reserve Shutdown Switch pressurization test. A test operator applied helium to the RSS line with an 80 psi source. A second operator monitored the video display which showed the RSS line pressure as it built up from zero psid to what was needed to trigger the switch. As soon as the switch closure was observed, the controlling operator was directed to shut off the gas supply. A separate data file was written for this test also. 8.2.8 Test Data Package For each test series, a data package was maintained which contained scram time plots, approved back EMF data sheets, and an approved test data sheet which contained the following: O i 1
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- Test description and time of test O - DAS data file cross reference
- Autoclave gas purity and moisture level
- Pertinent temperatures and RTD resistances
- Names of participants
- Appropriate remarks, if any i
DAS files were written on a hard disk and also numerous floppy disks for convenience in data reduction. A hard copy tabulation of all files was printed, and selected parameters were plotted. These data are quite voluminous and were, therefore, omitted from this document. However, a sample of a data package is presented as Appendix A. The test series were identified by sequence numbers such as AMB-B1-001, 225-81-002, 300-E8-026, where the first three characters refer to the nominal tanperature, the next two characters refer to either the beginning or end of the soak period and the sequence number at those conditions, and the last three numbers Indicates the running total of all runs. For example, 300-E8-026 was the eighth test at the end of the 300 degree soak period, and it was chronologically the twenty-sixth test performed. The Back EMF data files were identified according to the method in I A use at FSV. An example is 0986012106 where, 09 refers to CRDOA s/n 09, V 86 01 21 is the the year, month and day, and 06 is the sequence number of Back EMF scrams performed on this date. Table 8.1 lists the run i schedule and data file cross reference. 8.3 TEST RESULTS The test program was completed as planned. The CRDOA performed j its primary safety function, a scram, whenever commanded to do so and at all specified temperatures. The first test performed was in anblent i temperature air, followed by two tests each at 225, 250, 260, 270, 280, 290 and twenty tests at 300 degrees Fahrenheit, all in a clean, dry helium environment. After these 33 tests which comprised the test i program, two additional scrams were performed at both 300 and 280 degrees, and a full data gathering test in ambient air was performed. The purpose of this additional testing was to investigate the cause of the gradual increase in scram time which occurred after the 300 degree soak period. The durations of back EMF scrams had increased from about 133 to 135 seconds, whereas 152 seconds is the maximum allowable value. An overview of the test results is found in Table 8.2. Selected data plots are shown in Figures 8.1 a through 8.5 m to compare performance at:
~
O 908813 / N/C
- Beginning and end of test program in ambient air (Figures 8.1 and
,O 8.5, respectively)
- Beginning ambient air test and first test in heated helium (Figures 8.1 and 8.2, respectively)
- Beginning and end of testing at 300 degrees (Figures 8.3 and 8.4, l respectively)
NOTE: In the following paragraphs, "x" denotes all integers from I to 5 For example, Figures 8.x a denotes 8.1 a, 8.2 a, 8.3 a, 8.4 a and 8.5 a. Figures 8.x a show the switch closures during full data scram operation, and Figures 8.x e show the switch closures during control rod shim operation. When the brake switch changed from the on to the off position, then the brake was released and a scram initiated. The rod retract and slack cable switches were not actuated during test operations, because of personnel safety considerations, but these functioned properly during pretest and posttest checkout. Figures 8.2 I through 8.5 I show the actuation of the reserve shutdown switch. The rod in and rod out switch closures depict the extremes of rod movement during scram and shim operations. In some cases, there are several rod in indications due to the bounce, or yoyo, at the end of a scram. Yoyos occurred only during some heated tests (in helium), but not after run = 300-E6-024. iO ria r 8.x a h c trei red a iti # r ti i=9 the two tandem position potentiometers (N - normal, S - spare). The
#- er results are identical except that there was a slight shift in the
] calibration for the " normal" potentiometer which apppears to have
; occurred between the pretest calibration and run 225-B1-002. The plots depart very slightly from straight lines.
During scrams the motor develops back EMF in each of the three phase windings. The voltage difference among the phases was two volts or less, but there was a noticeable difference due to time. Figures 8.x c show the voltages for one of these phases, phase two. Except for the starting voltage spike, 70 volts was the peak for both ambient air tests. Then for all heated helium tests, the voltage was constant at about 72 volts until 300-E3-021 when it gradually decreased to 68 volts I for 300-E15-033 (Figure 8.5 c). This behavior follows the trend of the scram time increase and the scram starting moment which is discussed in l the following sections, 8.3 1 and 8.3 2. When the control rods were moved, either during scram or shim operation, the indicated temperature in the upper housing compartment was lowered. This phenomenon is believed to be due to local gas currents produced by the rotating cable drum. The temperature increment was greater (about 7 - 8 degrees) early in the program than
- It was later on when it was reduced to about half that amount. See l
Figures 8.x d and g and also Section 8.3.5 i O l f
908813 / N/C I Rod position during shim operation is shown in Figures 8.x f. The ] ' traces appear to be well-behaved for all data, and these depart from straight lines in a manner similar to those for scrams. I There was evidence that control rod movement influenced the orifice valve area temperature. This may be attributed to the relocation of the relatively cool rods into the core area with attendant heat transfer from the valve to the rods. The temperature increment was small but important, because the orifice valve area temperature was usually close to the low side of the tolerance band. See Figures 8.x h. The power drawn by the CRD shim motor during shim operation is shown in Figures 8.x 1. The power increased by about 10 watts each time the rods were moved either in or out of the core. More power was required to withdraw the rods than to insert them. The required power - during both ambient air tests was the same, nominally 115 watts for insertion and 215 watts for withdrawal. The required power for the tests at temperature increased irregularly with time to nominally 150 and 245 watts. The orifice valve performed properly throughout the test program, although there was some difficulty encountered with the preset indexer which enables and powers the drive motor. Near the end of the program, it was necessary, on several occasions, to cycle the on-off switch in O order to properly achieve movement, and during posttest calibration, the indexer would no longer function in the automatic mode. Factory i repair was necessary. The test preset indexer is a facility component,
- unrelated to its reactor counterpart. The valve position was observed to influence the orifice valve area temperature. See Figures 8.x J and k, and Section 8.3.8.
The reserve shutdown switch functioned consistently throughout the test program until the final test in ambient air, AMB-El-034. The switch actuated between 14.0 - 15 2 psi, until the final test which required 23 5 psi. Prior to the first run, the switch was found to actuate at 10.1 psi, as specified. During the testing, the 4 - 5 psi increment above this value was attributed to pneumatic lag in the plumbing line which connacted the supply gas to the switch and also to the pressure transducer. During posttest component examinations, it t was found that the switch actuation presssure had changed to a l considerably higher value. This change appears to have occurred between tests 300-E15-03) and AMB-El-034. l Some other data parameters are not shown as figures herein because i these were non-changing, including: I
- Shim motor frequency during scrams was 77 hertz.
- Shim motor frequency during shims was 60 hertz.
i 1
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- Shim motor current during scrams was 0.12 - 0.13 amps for one O of the phases, and 0.18 - 0.19 for the other two.
- Brake voltage at rod out was 24 volts.
- Brake current at rod out was temperature dependent, below about 0.42 amps for tests in helium and about 0 54 amps in air.
- Shim motor voltage during shims was 104 - 106 volts.
8.3 1 Scram Time increase Figure 8.6 is a plot of scram time versus the sequential number of scrams from the beginning of testing. There are two sets of numbers; one for full data scrams, the other for scrams with some of the instrumentation removed because it contributed to the circuit Impedance. The latter is believed to be the more representative of reactor performance, and it was during these scrams that back EMF data
!.. were obtained using the FSV methodology. The specified maximum scram time was 152 seconds.
Scram time was constant at approximately 133 5 seconds until after the two week long, 300 degree soak period. Then there was a gradual increase to 135 3 seconds at the end of the period. Whether the scram passed or failed the back EMF acceptance criteria made no difference in scram time. After cooldown, the CRDOA was removed from the autoclave ' and placed into the air stand, a procedure in which some amount of a () bumping and Jarring could not be avoided. Then an additional scram was performed, and the scram time reverted to 133 5 seconds. Shown on the same figure are similar data for the full data i scrams, i.e., instrumentation added to the motor circuit. Note that j there are fewer full data scrams because there was only one scram per i test, whereas there were as many back EMF scrams as needed to achieve a passed condition. Early in the test period, at the lower temperatures, the full data scrams took approximately two seconds longer than the back EMF scrams, but the increment gradually decreased to less than one second. A value of 135 7 seconds was typical for all heated tests. It had been expected that the two sets of data would maintain a constant increment between them. As in the case of the back EMF scrams, the l full data scram time of the posttest anblent air test reverted to approximately the same as the pretest time, 137.4 seconds. j 8.3 2 Scram Starting Moment One of the three reduced data parameters obtained from the back i EMF scrams was the computed starting moment. This parameter is plotted versus run sequence in Figure 8.7 This plot is similar to that for ( scram time, having an essentially constant value until the 300 degree l tests followed by a gradual reduction. These results are consistent in I that a reduction in starting moment would logically produce lower rotational speeds and, hence, longer scram times. Table 8.3 summarizes (} all back EMF results. l l
_, ---. - -= _ - .. 908813 / N/C 8.3 3 Posttest Motor inspection Upon completion of the test program, the control rod drive shim motor was removed for inspection. It appeared to be undamaged except
- for the three electrical power leads which had locally failed Insulation.
The lead wires had previously been repaired, and appeared to be in good cond: tion at the beginning of the test. The material used to repair the damaged insulation did not hold up in the high temperature environment. Diwoloration was apparent and there was clear evidence that the material flowed while at high temperature. However, the Specification Control Drawing requires lead wires that are rated at 600 volts, 16 awg, 125 degrees Centigrade (257 Fahrenheit), with silicone insulation and glass braid cover. The resistances from each of the lead wires to the motor case was measured to be approximately 5000 ohms, which is very low compared to the minimum value of 1.0 megohms to which it was tested prior to departure from FSV, and very much lower than the 16,000 megohms of a new motor, serial number 116. Figure 8.8 shows the motor after disassembly. After the leads were encapsulated, the resistance from the leads to some areas of the stator exterior surface remained low, and further investigation revealed that there were several surface cracks. These cracks were local failures of the insulation, and whenever the resistance probe was placed upon one of these cracks, then low resistances were encountered. When the probe was placed away from the cracks, then the resistances were significantly higher. A lateral crack on the outer surface can be seen in Figure 8.8. Longitudinal l cracks were found on the inner surface. . 8.3.4 Abnormal Control Rod Position Plots During some test runs subsequent to 300-E5-023, the control rod l position plots were bumpy (see Figure 8.9) during both scrams and shim operation. There are two position potentiometers, and data for both were consistent. The ramifications of this finding were considered to be significant, so an extensive investigation of the cause was performed, but with limited success. One possibility for this behavior ' is bearing roughness, but this hypothesis was abandoned. The favored explanation is an instrumentation anomaly because: a) the bumps were never seen on the plotter used to measure scram time (see Figure 7 5); b) the bumps were never seen on a back EMF scram data file; c) the kinetics implied by the bumpy data is unlikely; d) a posttest potentiometer bench check could not replicate the suspect , data. During this bench check, twenty-five tests were performed, and only the second one of these exhibited anything even remotely resembling the suspect data traces. No valid conclusions may be drawn, but the cause of the bumpy position traces is probably due to instrumentation, possibly due to the O t "d a itio" a t " tie t r . mechanical component such as a bearing.
#d re c iv a ==i6'v d= == -
908813 / N/C 8.3 5 Effect of Insulation on Upper Part of Autoclave Early in the test program, it was noticed that the temperature in the upper housing compartment decreased by about 8 degrees whenever the control rods were being moved. See Figure 8.2 d, for example. It was believed that the mechanical motion of the cables, cable drum, etc., caused currents in the heretofore stagnant gas. Due to the arrangement of the heaters on the sides of the upper part of the autoclave, there was heat transfer from the CRDOA housing interior, through the top closure plate, and through the autoclave top flange, which was unheated. Therefore, the CRDOA housing interior was warmer than the ! top closure plate, which in turn was warmer than the autoclave top flange. So, if the housing case temperature could be brought closer to the interior gas temperature, the effect of rod movement on gas temperature would be reduced. To this end, R-4 insulation was wrapped around the top part of the autoclave, not including the upper-most heaters (zone 5). The desired ! effect was achieved. The decrease in temperature due to rod movement was cut in half (see, for example, Figure 8.3 d), and the problem of
- maintaining the helium area temperature within the +/- 10 degree tolerance band was essentially eliminated. The insulation was applied between tests 260-B1-006 and 260-El-007 8.3.6 RTD Results Table 8.4 lists a comparison of steady state RTD and nearby thermocouple temperature data. The RTD's were calibrated during posttest, and two of the three were found to agree with the manufacturer's temperature-resistance relationship, while the unit
- attached to the control rod shim motor did not. The latter was in
- error by fewer than ten degrees at 450 degrees Fahrenheit, and at lower temperatures the error was less. The measured ice point resistances for all three units were within the manufacturer's specified tolerance.
The results shown in the table were adjusted to reflect the calibration of the motor RTD, and the manufacturer's relationship was used for the others. in the case of the instruments mounted on the orifice valve motor mounting plate, the RTD temperatures tracked approximately five degrees cooler than those of the thermocouple. This difference is small and - may be due to differences in the temperatures of the respective mounting points. The closure plate thermocouple was placed in intimate contact with c the metal surface. The RTD, on the other hand, was encapsulated in a fairly large mass of quick curing epoxy cement which insulated the
- instrument from the metal surface. Two events occurred during the test program which are believed to have influenced the error between the two sets of instrument data
- a) insulation was placed around the top of the autoclave; b) the RTD, dropped away from the closure plate lower O err c -
l 908813 / N/C I For the first five heated tests, the top of the autoclave was
) uninsulated, and the temperature error was about 15 degrees. The l'
thermocouple measured the metal temperature more faithfully than did the RTD which was influenced by the surrounding gas temperature as well as the nearby wall. So, the thermocouple temperatures were lower than those of the RTD. As soon as the autoclave was insulated, the closure plate temperature was driven closer to the gas temperature, and the error decreased from 15 to 9 degrees. The error increased from 9 to 11 degrees subsequent to run 300-El-019, the point were the data would i imply that the RTD separated from the closure plate surface. 1 With the calibration correction made, the shim motor instruments agreed with no bias error, Just data scatter. A transient run was made to determine the magnitude of the thermal lag during motor operation. Accordingly, the rods were kept in continuous motion for a period of about twenty minutes to raise the temperature of the motor. It was expected that the thermocouple response would be almost immediate because of its small 1/16 inch diameter and intimate contact with the motor case. As shown in Figure 8.10, steady state tracking occurred in less than four minutes and the steady state tracking error was no more ' than five degrees. Of the three RTD's, the one attached to the shim motor was the most effective in performing its Intended function. Although this unit required calibration by virtue of damage or other factor such as it having been connected with three wires rather than four, it tracked the ambient gas temperature best, and, also, it directly measured the e O temperature of the most heat sensitive component. The closure plate RTD was subject to Installation effects, i.e., it was affected by the l closure plate metal temperature, and it was suseptible to becoming separated from the surface. The orifice valve motor mounting plate RTD indicated temperatures as much as forty degrees lower than the ambient gas temperature, due to heat conduction from the mounting plate to the relatively cool section of the housing below the plate. Also, this unit had to be removed from the surface whenever the -200 assembly was raised. When received from FSV, the glue joint was damaged and it peeled off the surface with no effort. Following the test, it had to be chiseled off. 8.3 7 Autoclave Orifice Valve Area Temperature Capability i The autoclave orifice valve area temperature was to be maintained within the tolerance band of 730 - 790 degrees Fahrenheit. This proved to be a problem due to the Ilmited heater capability. There was concern that operating the core heaters higher than the test maximum of 1200 degrees would likely cause some elements to burn out. The zone 4
- heaters which surrounded the orifice valve were on most of the time.
There was no way to maintain the desired temperature with heater power alone. So, insulation was placed around the autoclave personnel protection screen to cut down on heat transfer to the building l environment. This methe.d was, limited because the autoclave prer.sure I boundary was restricted by law to 600 degrees, and there was a 1200 () degree source within the autoclave, therefore some heat transfer was essential. l l l
908813 / N/C The orifice valve area temperature was affected by daily ambient air variations, and also service line voltage fluctuations (see Figure O 8.11). In fact, another high power consumption test program in the facility was shut down in order to achieve maximum temperature. The facility roll-up doors were kept closed in order to keep the building ambient temperature as high as possible. Nevertheless, the temperature dropped below the tolerance band on numerous occasions, and the testing was continued because there was no viable alternative.
- 8.3.8 Orifice Valve Area Temperature vs Valve Position The orifice valve area temperature was found to be dependent upon l valve position (see figure 8.3 k, for example). At the end of.the test !
program, some tests were performed to investigate this phenomenon. The sensing thermocouple was mounted at a point on the insulated shield which surrounds the orifice valve. It was postulated that the -
- guide tubes within the orifice valve which were in contact with the i nearly 1200 degree core, were hotter than any other part of the valve or its surroundings. Then, when the valve was opening, a point would be reached when the thermocouple would be in view of the guide tubes, and it would receive heat through radiation. Figure 8.12 a shows sensed temperature versus position. Temperature and position start to track one another at about one Inch of opening (1000 mils) and reaches
, a steady state effect at about two inches. s There were two such thermocouples in the same nominal position, but the exact locations were not recorded at autoclave assembly, and it was impractical to obtain this information at this time, it was further postulated that when these thermocouples were welded to the shield, there was little thought given to placing them both at exactly the same elevation. So, it was most likely that the temperature-position 1 relationship would be different. This proved to be the case, as can be seen from comparing the responses of the two thermocouples (see Figure 8.12 b). The environments of the orifice valves in the reactor and the test i autoclave are different because the high flow rate of the reactor primary coolant keeps the valve area temperature reasonabily constant by forced convection, while in the autoclave there is no primary coolant flow (only purge), and the heat transfer is due to radiation and natural circulation. In the test, it is probable that the valve exterior surface temperature was higher than what was attributed to it. ) 8.3 9 Effect of Purge Flow Rate on Orifice Valve Temperature if the hypothesis discussed in Section 8.3.8 were true, then changing the temperature of the guide tubes within the orifice valve would affect the area temperature measurement. Accordingly, two tests were conducted about an hour or so apart, one with the usual two pounds per hour of purge flow rate, and the other with no purge flow. Without purge flow to cool the guide tubes, the tubes would become warmer, and the indicated temperature would rise. This did occur. See Figure
- 8.13 1
908813 / N/C 8.3 10 Test Duration at Temperature The actual test duration at elevated temperatures is shown in Figure 8.14, which is based on the control rod shim motor thermocouple data. This parameter was selected because of the important effect of shim motor operation on scram performance. Conditions were maintained at an estimated 215 degrees Fahrenheit for an extended period of 800 hours during test start up. When the temperature was incrementally raised, the individual durations were each about 26 to 66 hours. Finally, the soak and test period at 300 degrees (based on the gas environment temperature) averaged 289 degrees for 390 hours. 8.3 11 Posttest Observations After the CRD0A was removed from the autoclave, several other posttest observations were made.
- The CRDOA had become noticeably more rusty.
- The orifice valve horizontal surfaces had collected magnetite dust and small particles.
- The orifice valve motor was acceptable.
- The orifice valve drive gearing had become noisy, as if it needed lubrication.
O - One of the switches contact resistance was 0.14 ohm which is slightly above the value of 0.01 ohm typical of a new unit. It is unknown whether or not this increase had occurred during the present test.
- There were signs of heat effects in the housing upper compartment area, such as, the nylon cable ties were discolored and inelastic and the wire markers were discolored.
l l 0
908813 / N/C 90 QUALITY ASSURANCE The test program was conducted according to the Quality Assurance Level 1 (QAL-1) requirements as defined in the GA Technologies Quality Assurance Manual, Reference 11 9, and, also, the Quality Assurance Program Document for the FSV Nuclear Generating Station, Reference 11.10. As such, test Instrumentation was calibrated with NBS traceable transfer standards, work operations on the CRDOA were performed according to approved, written travelers, tests were conducted to approved and controlled specifications, procedures and drawings by appropriately trained, qualified personnel, Nonconformance Reports were prepared and acted upon for all out of specifications conditions, and . extensive documentation for all test related information was required. A Quality Assurance Engineer was assigned to this program, and he < or his representative monitored all calibrations, work procedures, inspections and tests. A specially prepared Task Surveillance Plan was used to guide this effort. The Nonconformance Reports which were issued during the program are found in Appendix B.. Individual discrepancies are discussed below:
- The orifice valve would not open and close properly, so the interfering guide tube was abraded then coated.
- The orifice valve position potentiometer was damaged, so a new unit was obtained from FSV and installed without incident.
- The control rod cable had kinks. It was used as is without problems during the test, but a resolution as to suitability for reactor use must be made.
- The orifice valve drive shaft received minor damage at the connect point. It was used as is without problems during the test, but a resolution as to suitability for reactor use must be made.
- Some threads of the manual rod rewind tool were damaged, but there was no problem with its use during the test.
I - The Belleville washer stack up on the orifice valve drive shaft
- was incorrect upon receipt, but it was corrected prior to I
testing.
- The 32 bolts on the top of the CRDOA were torqued to 150 rather '
than 105 ft-lbs. These were retorqued and are usable.
- Several test instruments were calibrated to reduced ranges, so additional calibrations were performed.
- The upper housing compartment area temperature dropped below tolerance for short durations during two tests. Small temperature deviations of short durations are believed to have i negligible effect on overall performance.
O j
- - - . . - - , _ _ . - . - . . , _ _ , ~ - _ _ _ _ _
_ _ . - ~ . . . .- _ - - - - ._- _ -_ .. - - - -
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- The orifice valve area temperature dropped below tolerance on numerous occasions. There was little choice but to accept this
() condition as is, because maximum heater power was already used. Also, these deviations did not affect electrical components.
- Backup temperature calibration equipment was calibrated by a vendor to incorrect range, but it was usable.
- Posttest inspection found the shim motor brake current to be O.529 amp, which exceeded the 0 50 amp limit. However, this was unchanged from the as received condition.
- Posttest inspection found that the reserve shutdown system pressure switch actuated at 12.4 psi instead of the maximum acceptable value of 10 5 psi. This is acceptable for this test.
- One rod retract switch resistance in the closed position was 0.14 ohm rather than 0.01 ohm. This is acceptable for this test.
- Shim motor, s/n 29, power lead wire resistance to case was found to be about 5000 ohms rather than 10,000,000 ohms, during the posttest check. A replacement stator is required.
- One of two control rod position Indicators encountered a calibration shift of about 4 inches out of a 200 inch range.
This is acceptable, since it will not affect test conclusions.
- The reserve shutdown system pressure transducer calibration accuracy was about 5% rather than 1%. This is acceptable, since it will not affect test conclusions.
O
~
O i
l l 908813 / N/C ] 10.0 DOCUMENTATION AND RECORDS O More test data was obtained during the prcgram than is convenient to display in this report. A sample of one of the more than thirty data packages is presented in Appendix A. Data were acquired on the computer hard disk, and copied to floppy disks for convenience in creating hard copy, and also copied to the main GA Technologies computer archives for indefinite storage. These latter records are under the control of the FSV Project Office with cognizant responsibility of the Quality Assurance Division. The hard disk data were copied to streaming tape cassettes. These and the floppy disks will be stored in the Experimental Engineering facility. There are two groups of archive file names, one for tests and the other for the soak period between tests. These are:
- CRDTEST*CRDTEST.xxx; where xxx are the same data file numbers found in Table 8.1, and these range from 100 to 263 For example, 259 through 263, inclusive, refer to test 300-E15-033 File 259 was made during the back EMF scram, file 260 during the j , full data scram, 261 shim operation, 262 orifice valve operation, and file 263 during the reserve shutdown system check.
- CRDTEST* NIGHT.xx-xx; where xx-xx refers to the month and day of i the month. Since the test program began in December, 1985, the early files would be identified 12-25, for example. Later files, created in January, would be identified 01-05, for example.
, The prefix for the files found on the floppy disks and tape
! cassettes is CRDTEST. The suffix (extension) numbers also follow the 1 numbering system of Table 8.1. Back EMF data files were mailed to FSV as soon as these were , created. PSCo has total cognizance of these files. Backup tapes were i- made to protect against possible loss in transit, and these are to be erased. . Other test related material is found in laboratory notebooks 9035 j and 9166. ) i t 1 l . l
i 908813 / N/C i
11.0 REFERENCES
- C:)
- 1. GA Memo SAB:144:JVDB:81 " Correlation of FSV Control Rod Drive Motor Temperatures" by DelBene, J.V. and Follin, J. F., dated December 10, 1981. Transmitted to PSCo under GP-1283, December 22, 1981.
- 2. Final Safety Analysis Report, Updated, Rev. 2, Section 3.8.1.1.2.
3 GA Technologies letter GP-1830, dated March 4, 1983, Attachment A.
- 4. Test Specification, FSV Control Rod Drive and Orificing Assembly High Temperature Functional Test, 907769 Rev. B, January 20, 1986.
5 Test Procedure, FSV Control Rod Drive and Orificing Assembly High Temperature Functional Test, 907938, November 6, 1985 ) ! 6. Specification for Acquisition of Back-EMF During High Temperature i Functional Testing of CRD at GA Technologies, 908319, November 20,
- 1985 7 Installation, Operation, and Maintenance Manual for the Control and Orificing Assembly for the Fort St. Vrain Reactor,~ GA-9806, May 1977
- 8. CRDOA High Temperature Functional Test Calibration Procedures, EE-200 issue 2, March 4, 1986.
9 Quality Assurance Manual of GA Technologies, Quality Procedure no. 11, Test Control, Rev S, December 18, 1985
- 10. Quality Assurance Program Document - Fort St. Vrain Nuclear Generating Station, QAPD-1900, Issue 1, February 28, 1985 4
i I c O l l I
908813 / N/C TABLE 7.1 O EauteuenT L1ST ITEM MODEL IDENT No. Compaq computer Deskpro 4 GAC 35935 Data Translation 2805 127613-512 i A/D Input modules (3 each) 125141-507G Data Translation Dt707 -------- Terminal strips (3 each) Action instruments T650-0001 -------- Resistance-to current transducer (3 each) Scientific Columbus 3588 -------- Voltage-to-current transducer Scientific Columbus -------- ; Current-to-current transducer 4044 Scientific Columbus -------- power-to-current transducer XLWV-1K5A2 Action Instruments Frequency-to-current transducer T670-0007 REV D 032502 EC&G Dewpoint hygrometer 660 873 Carle Gas Chromatograph 111 H series S 16900 Omega Ice-point reference cell TRC-III CAC 35852 Houston instruments 35218-14 C7421-379 Omniscribe recorder Hewlett-Packard 7090a 2443A00833 O M r e
- ei sti 9 1 t m Beckman Electrolytic hygrometer 719 GA 2332 22027 Barber-Colman Thermocouple recorder 8061-25310 GA2332 61040 Barber-Colman Thermocouple recorder 8061-25310 GA2332 61054 Barber-Colman Temperature ontroller- 472 cspacitrol GEES 17934-1 GEES 17934-2 GEES 17934-3 GEES 17934-4 Barber-Colman Temperature controller 471 capacitrol TEC 16092 Barber-Colman Overtemperature limiter 481 limitrol CEES 17716 CEES 17934-6 CEES 17934-5 GEES 17934-7 Barber-Colman 0.ertemperature limiter 482 limitrol -----------
Statham pressure transducer PM399TC+25-350 Barber-Colman Temperature controller 272P capacitrol GA15243 Delta design Scientific oven MK2300 CA2332 52111 U.S. Gauge O to 30 psig TEC 28140 Vishay-Ellis Decade resistor 40 TEC 64179 Fluke Digital multimeter 8060A TEC 46104 ! Lufkin 50 foot tape measure ------ GAQC 133-1 ! Keithley Digital multimeter 179-20A GA 89253 ) i
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908813 / N/C TABLE 7.1 (continued) () EQUIPMENT LIST ITEM MODEL IDENT No. Hewlett-Packard Frequency counter 5314A TEC 16148 Transmation Minitemp calibrator 1069P A57695 Rosemont . Platinum Resistance Thermometer 162P TEC 67045 Fluke Digital multimeter 8520A TEC 46208 Brown & Sharge 14 in. vernier caliper ----- ------- Transmatian clexitester 1080 CAC 36025 Racal-Dana Digital multimeter 5001 TEC 46101 Matheson Calibration gas ------- certified to contain: 52 ppe (vol) CO2 76 ppm CD 1050 ppm H2 52 ppm N2 48 ppe 02 O O
O O O TABLE 7.2 INSTRUWENTATION t.IST DESCFIPTION OF DESCRIPTION CALIBRATED ACCURACY WEASUREMENT OF SENSOR RANGE X F.S.
----_=- - __ _=------ =___- . -___ =__ --
Rod position normal CRD position potentiometer e to 231 inches +/- 2 Rod position spare CRD position potentiometer e to 231 inches +/- 2 Orifice Valve position CRD position potentiometer 8 to 6 inches +/- 2 Brake voltage voltage divider e to 38 volts d.c. +/- 2 Brake current in-series shunt 8 to 1 amp d.c. +/- 2 Shim motor voltage 3-in-1 voltage transducer e to 146 volts +/- 2 (3 phases) (each phase measured) (a .c . r.m.s .) Shlm motor current 3-in-1 current transducer 8 to 3 emps a.c. +/- 2 (3 phases) (each phase measured) Shlm motor frequency frequency-to-current e to 18e Hertz +/- 1 transducer R.S.S. pressure Pressure transducer 8 to 25 psid +/- 3 CRD motor temperature Thermocouple 32 to 358 deg. F +/- 3 deg. F Hellum area tempe,rature Thermocouple 32 to 360 deg. F +/- 3 deg. F Closure plate temperature Thermocouple 32 to 358 dog. F +/- 3 deg. F Inlet Helium temperature Thermocouple 32 to 368 deg. F +/- 3 dog. F x- 0.V. motor temperature Thermocouple 32 to 360 deg. F +/- 3 deg. F 0.V. mount temperature Thermocouple 32 to 358 deg. F +/- 3 deg. F e Orlfice Valve temperature Thermocouple (well) 32 to 8ee dog. F +/- 6 deg. F Brake release Relay closure --- --- Rod in Switch closure --- --- Rod out Switch closure --- --- Slack cable Switch closure --- --- Rod retract Switch closure --- --- R.S.S. delta-pressure Switch closure --- --- w O CD w N 2' N O
908813 / N/C TABLE 8.1 FILES CROSS-REFERENCE SEE No. DATE FSV BEMF SCRAM SHIM 0.V. R.S.S. SOAKING
=== FILENAMES ARE CRDTEST.
AMB-81-001 11 86 0986112301 -- 100 101 102 103 225-B1-002 12 85 0986122601 -- 104 105 106 107 12-26. 225-El-003 12 85 0985122701 -- 108 109 110 111 0985122702 250-B1-004 12 85 0985122801 -- 112 113 114 115 12-28. 250-El-005 12 85 0985122901 116 117 118 119 120 260-B1-006 12 85 0985122902 121 0985122903 121 0985122904 121 122 123 124 125 12-29, 260-El-007 12/30/85 0985123001 126 127 128 129 130 270-B1-008 12/30/85 0985123002 131 132 133 134 135 12-30. 12-308. 270-El-009 12/31/85 0985123101 136 0985123102 136 137 138 139 140 280-B1-010 1/2/86 0986010201 141 142 143 144 145 01-02. 280-El-011 1/3/86 0986010301 146 0986010302 146 147 148 149 150 290-B1-012 1/3/86 0986010301 151 152 153 154 155 01-03. 01-04. 290-El-013 1 86 0986010401 156 157 158 159 160 300-B1-014 1 86 0986010601 161 162 163 164 165
- 300-B2-015 1 86 0986010602 166 167 168 169 170 Q 300-B4-017 1 86 0986010604 176 0986010605 176 177 178 179 180 01-06.
300-B5-018 1/6/86 0986010606 181 182 183 184 185 01-09 01-13 01-14. DA01-14. DB01-14. 01-15. 01-17 i 300-El-019 1 20 86 0986012001 186
- 0986012002 186 187 188 190 191
- 300-E2-020 1 86 0986012003 192 193 194 195 196 01-20 300-E3-021 1 86 0986012101 197 198 200 201 202 300-E4-022 1 86 0986012102 203 204 205 206 207 300-E5-023 1 86 0986012103 208 209 210 211 212
! 300-E6-024 1 86 0986012104 213 214 215 216 217 300-E7-025 1 86 0986012105 218 220 221 222 223
- 300-E8-026 1 86 0986012106 224 225 226 227 228 01-21 D01-22
! 300-E9-027 1/22/86 0986012201 229 230 231 232 233 300-E10-028 1/22/86 0986012202 234 ' 0986012203 234 235 236 237 238 i 300-E11-029 1/22/86 0986012204 239 240 241 242 243 300-E12-030 1/22/86 0986012205 244 0986012206 244 245 246 247 248 300-E13-031 1 86 0986012207 249 250 251 232 253 . 300-E14-032 1 86 0986122208 254 255 256 257 258 1 300-E15-033 1 86 0986122209 259 2FO 261 262 263 i AMB-El-034 1 30/86 0986013001 273 _/4 275 276 278 i
. _ _ _ _ _ _ _ _ _ . _ __ _ . _ _ _ _ _ _ _ _ _ _ . . _ _ . . . _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ . _ _ _ _ . _ _ . . ~ _ _ _ _ _ _ _ _ . . _ - -
O O O TABLE 8.2 DATA SUWWARY SEQ SCRAW OPERATION SCRAW TIME POWER SHIM OPERATIDN TEMPERATURE (DEG F.) NUMBER DATE NOW AMPS FULL BEWF BRAKE IN OUT VLT AWPERES RSS OV He CRD He CLO OV 0.V. YLT P1 P2 P3 DATA VLTS mA WATTS NOW P1 P2 P3 PSID WTR WTR IN PL WNT __ -- _- == __ _ ==___ AWB-B1-eel 11/23/85 69 .22 .18 .18 137.88 133.78 23.8 542 68 168 106 1.16 1.06 1.87 e 87 58 78 59 54 58 e 225-B1-062 12/26/85 71 .13 .19 .19 136.44 133.78 24.8 419 73 178 184 1.15 1.14 1.87 14.5 231 227 228 75 287 214 735 225-El-se3 12/27/85 7e .13 .19 .19 136.36 133.56 24.s 419 73 171 185 1.15 1.14 1.89 14.6 234 221 228 76 284 217 758 268-B1- G84 12/28/85 72 .13 .19 .19 136.26 133.56 24.s 485 71 171 185 1.14 1.12 1.e4 14.6 258 243 246 61 219 233 725 258-El-pe5 12/29/85 72 .13 .19 .19 136.26 133.56 24.8 406 68 166 184 1.12 1.18 1.83 14.5 254 246 258 129 223 235 735 268-B1-966 12/29/85 72 .13 .19 .19 135.98 133.38 24.0 399 78 167 184 1.13 1.18 1.84 14.1 261 259 256 244 234 243 738 268-El-se7 12/3e/85 72 .13 .19 .19 135.72 133.38 24.8 394 77 173 185 1.16 1.14 1.88 14.6 269 264 267 248 246 248 744 278-B1-Se8 12/3e/85 72 .13 .19 .19 135.72 133.38 24.0 393 79 175 185 1.17 1.15 1.10 14.5 269 265 269 237 248 248 743 em 278-El-se9 12/31/85 72 13 .19 .19 135.72 133.56 24.5 386 77 173 106 1.17 1.88 1.89 15.1 273 275 288 233 262 249 738 w a 288-B1-018 1/ 2/86 72 .13 .19 .19 135.96 133.38 24.8 386 79 174 185 1.17 1.12 1.89 15.8 274 277 281 234 264 258 736 288-El-811 1/ 3/86 71 .13 .19 .19 135.72 133.56 24.0 383 88 175 105 1.11 1.89 1.e4 15.8 277 283 285 274 268 253 733 296-B1-812 1/ 3/86 72 .13 .19 .19 135.72 133.56 24.8 282 88 176 105 1.17 1.13 1.89 14.7 278 286 288 296 278 254 735 296-El-013 1/ 4/86 71 .13 .19 .19 135.54 133.38 24.5 379 79 176 195 1.15 1.13 1.07 15.0 284 298 293 298 276 259 735 306-B1-814 1/ 6/83 72 .13 .19 .19 135.54 133.56 24.0 377 87 184 106 1.18 1.17 1.11 15.8 289 296 3ee 298 281 265 736 306-82-815 1/ 6/86 72 .13 .19 .19 135.54 133.74 24.8 375 83 179 106 1.16 1.15 1.89 15.1 289 296 381 381 281 265 734 306-83-816 1/ 6/86 72 .13 .19 .19 136.88 133.56 24.8 375 85 184 106 1.15 1.15 1.le 15.0 289 296 382 305 282 265 734 LD i See-B4-817 1/ 6/86 72 .13 .19 .19 135.54 133.56 24.8 375 86 183 186 1.17 1.17 1.11 15.8 298 297 383 396 282 266 737 306-B5-818 1/ 6/86 72 .13 .19 .19 135.54 133.74 24.0 375 86 181 185 1.14 1.15 1.18 15.2 291 297 383 305 282 267 736 -l 106 292 299 297 76 281 275 736 %s See-El-819 1/28/86 72 .13 .19 .19 135.72 133.74 24.8 388 87 183 1.19 1.18 1.12 14.9 388-E2-828 1/28/86 72 .13 .19 .19 135.72 133.74 24.8 375 9e 186 187 1.28 1.19 1.13 15.8 293 299 383 76 281 278 734 d[ n 1 i
O O O TABLE 8.2 (continued) DATA
SUMMARY
SEQ SCRAW OPERATIDN SCRAW TIME POWER SHIW OPERATIDN TEMPERATURE (DEC F.) NUW8ER DATE NOW AWPS FULL BEMF BRAKE IN DUT VLT AWPERES RSS OV He CRD Ho CLO OV 0.V. vL' P1 P2 P3 DATA VLTS mA WATTS NOW P1 P2 P3 PSID WTR WTR IN PL WNT
---------- -----.. . ...------- ------------- _____ = _______ __ _-- - ----- _- __ _ _ _ =_ __ _.
i 300-E3-921 1/21/86 F2 .13 .19 .19 135.72 133.92 24.8 377 82 178 106 1.16 1.14 1.89 14.8 291 297 298 66 279 268 726 388-E4-622 1/21/36 71 .12 .19 .18 135.72 134.92 24.8 376 87 182 106 1.18 1.17 1.11 14.7 298 298 See 67 279 268 725 306-E5-823 1/21/86 71 .12 .19 .19 135.72 134.10 24.8 376 88 183 196 1.18 1.16 1.12 14.8 291 298 381 72 288 269 725 306-E8-824 1/21/86 71 .12 .19 .18 135.72 134.28 24.8 375 85 181 105 1.17 1.15 1.18 14.9 291 299 295 72 288 269 726 ! 368-E7-825' 1/21/86 78 .12 .19 .19 135.72 134.1e 24.8 377 91 187 106 1.19 1.18 1.13 15.0 294 See 384 78 282 272 741 300-E8-826 1/21/86 71 .12 .19 .18 135.72 134.46 24.8 374 96 187 166 1.19 1.17 1.12 15.1 294 381 297 79 282 272 735 388-E9-827 1/22/86 69 .12 .19 .18 135.72 134.46 24.8 378 85 181 ISS 1.16 1.15 1.18 14.9 289 297 296 65 278 266 726
, 368-E18-828 1/22/86 69 .22 .18 .18 135.98 134.82 24.8 376 87 183 166 1.17 1.16 1.18 14.9 289 297 293 67 278 266 721 j; 368-E11-829 1/22/86 69 .12 .18 .18 135.98 135.96 24.0 377 88 187 166 1.17 1.16 1.18 15.0 289 297 293 69 279 266 725 i a 308-E12-838 1/22/86 68 .12 .18 .18 135.98 135.18 24.8 376 91 188 106 1.18 1.18 1.12 15.1 298 297 382 73 279 267 727 388-E13-831 1/22/86 68 .22 .18 .18 135.96 135.36 24.8 378 93 189 196 1.19 1.19 1.12 15.0 291 298 382 78 286 269 729 308-E14-032 1/22/86 69 12 .18 .18 135.98 135.18 24.8 376 91 187 166 1.17 1.17 1.11 15.1 291 3ee 296 79 288 269 728 388-E15-833 1/22/86 68 .12 .19 .18 135.96 135.36 24.8 375 93 189 106 1.19 1.19 1.12 15.1 293 See 297 79 281 278 736 AWB-Eel-834 1/30/86 69 .12 .19 .18 137.34 133.56 23.9 537 68 162 les 1.19 1.15 1.09 23.5 75 62 73 6e 68 68 59 NOTES: 1. OV WTR is the Orifice valve motor thermocouple.
He is the Upper housing component area thermocouple. CRD WTR is the Shim motor thermocouple. He IN is the inlet Helium thermocouple. (D CLO PL is the Closure Plate thermocouple. E$ OV WNT is the Orifice Motor Mounting plate thermocouple. oo 2. OV is the Orifice Valve Area thermocouple. Power reported during rod-in motion is value at approx 18 inches from rod-in. (( Power reported during rod-out motion is value at approx 175 inches indicated. %s
- 3. Scram voltages are ras voltages recorded at approx 175 inches indicated. z
- 4. Shim motor current values are during rod-in motion, approx le inches from rod-in. *s
- 5. * = not available, c)
- 6. Back-emf (BEWF) scram times are the ' passed' times only.
908813 / N/C
< TABLE 8.3 BACK-EMF SCRAM DATA
SUMMARY
SEQUENCE FILE P/F PEAK WOMENT START MOWENT ACCELERATION TIME NUMBER (IN-0ZS) (IN-0ZS) (RAD /SEC 2) (S) AMB-El-01 0985112301 P 6.51 18.68 109 133.70 225-B1-02 0985122601 P 6.58 19.15 111 133.70 225-El-03 0985122701 F 7.91 19.67 114 133.56 0985122702 F 7.32 19.43 113 133.74 0985122703 P 6.59 19.30 112 133.56 250-B1-04 0985122801 F 7.84 19.71 115 133.74 0985122802 P 6.38 20.60 120 133.56 250-El-05 0985122901 P 6.31 20.15 117 133.56 260-B1-06 0985122902 F 8.27 20.27 118 133.56 0985122903 F 7.39 19.61 114 133.38 0985122904 P 6.86 20.34 118 133.38 260-El-07 0985123001 P 6.81 20.16 117 133.38 270-B1-08 0985123002 P 6.65 19.57 114 133.38 270-El-09 0985123101 F 7.05 19.65 114 133.38 0985123102 P 5.78 20.67 120 133.56 280-B1-10 0986010201 P 5.81 - 20.45 119 133.38 280-El-11 0986010301 F 7.72 20.45 119 133.56 :
, 0986010302 P 5.64 20.37 118 133.56 '
l 290-81-12 0986010303 P 6.53 20.01 116 133.56 ~ 290-El-13 0986010401 P 6.25 19.95 116 133.38 O soo-81-14 oasaotosoi e 300-B2-15 0986010602 P 4.79 6.30 20.12 19.95 117 116 133.5. 133.74 300-B3-16 0986010603 P 5.92 20.15 117 133.56 300-B4-17 0986010604 F 8.20 20.08 117 133.56 0986010605 P 6.76 19.90 116 133.56 300-B5-18 0986010606 P 6.75 20.49 119 133.74 300-El-19 0986012001 PRE-TRIGGERED PRIOR TO SCRAM - NO DATA COLLECTED i 0986012002 P 5.91 19.75 115 133.74 300-E2-20 0986012003 P 5.97 20.12 117 133.74 300-E3-21 0986012101 P 6.13 20.60 120 133.92 300-E4-22 0986012102 P 5.78 19.68 114 133.92 . 300-E5-23 0986012103 P 6.42 19.68 114 134.10 300-E6-24 0986012104 P 5.87 19.33 112 134.28 300-E7-25 0986012105 P 6.14 19.34 112 134.10 300-E8-26 0986012106 P 5.96 19.46 113 134.46 300-E9-27 0986012201 P 5.50 19,77 115 134.46 300-E10-28 0986012202 F 7.30 18.77 109 134.64 0986012203 P 6.29 19.28 112 134.82 i 300-E11-29 0986012204 P 6.96 18.54 108 135.00 300-E12-30 0986012205 F 19.89 18.52 108 135.00 j 0986012206 P 5.85 18.56 108 135.18 300-E13-31 0986012207 P 5.54 18.43 107 135.36 300-E14-32 0986012208 P 6.16 17.88 104 135.18 l 300-E15-33 0986012209 P 6.02 18.53 108 135.36
. 300-E16-34 0986012301 P 5.87 17.50 102 135.18 280-E2-35 0986012401 P 6.24 18.44 107 135.36 AMB-El-36 0986013001 P 5.87 17.20 100 133.56 O
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. - - . - _ - =. .- -
i 908813 / N/C I l TABLE 8.4 STEADY-STATE RTD DATA
--- CLOSURE ----- ---0.V. PLATE---- -----ROD WOTOR --
SEllVENCE T/C RTD ERROR T/C RTD ERROR T/C RTD ERROR AMB-El-01 55 61 6 59 61 2 67 66 -1 225-81-02 207 228 21 213 211 -2 224 226 2 225-El-03 204 216 12 217 213 -4 221 222 1 250-B1-04 222 237 15 232 228 -4 240 241 1 250-El-05 226 240 14 235 232 -3 242 245 3 260-B1-06 236 250 14 243 240 -3 251 255 4 260-El-07 247 256 9 247 244 -3 267 268 1 270-81-08 250 259 9 248 244 -4 269 268 -1 i 270-El-09 263 270 7 251 245 -6 276 280 4 280-B1-10 264 271 7 249 245 -4 282 280 -2 280-El-11 268 276 8 252 248 -4 289 287 -2 290-81-12 271 279 8 254 249 -5 288 289 1 290-El-13 276 284 8 261 254 -7 287 294 7 300-B1-14 282 291 9 263 260 -3 296 300 4 300-B2-15 281 289 8 266 260 -6 300 302 2 300-B3-16 281 291 10 267 260 -7 300 302 2 300-B4-17 281 290 9 265 263 -2 303 326 23 300-B5-18 283 292 9 265 263 -2 301 302 1 300-El-19 281 288 7 271 265 -6 295 300 5 ( ]) 300-E2-20 282 293 11 270 265 -5 294 299 5 300-E3-21 , 278 295 17 269 263 -6 297 302 5 300-E4-22 278 289 11 269 263 -6 298 298 -0 300-E5-23 279 290 11 267 264 -3 302 299 -3 300-E6-24 281 292 11 268 265 -3 296 300 4 300-E7-25 281 292 11 272 267 -5 305 302 -3 300-E8-26 283 294 11 272 267 -5 298 303 5 l 300-E9-27 278 288 10 266 261 -5 301 297 -4 300-E10-28 279 288 9 265 263 -2 300 300 -0 l 300-E11-29 278 289 11 267 262 -5 303 299 -4 300-E12-30 280 290 10 269 262 -7 302 301 -1 300-E13-31 281 290 9 270 263 -7 303 299 -4 300-E14-32 281 291 10 271 264 -7 302 300 -2 300-E15-33 282 293 11 270 266 -4 294 298 4 AMB-El-036 61 65 4 65 62 -3 73 73 -0 NOTE- 1. CRD Wotor RTD calculated using post-testing calibration.
- 2. All RTD Results have lead resistance corrections of 0.5 ohm.
908813 / N/C NTR L AN RIFICING ASSEMBLY O PRIMARY CONTROL CLOSURE ROD DRIVE MECHANISM MOUNTING FLANGE LEAD SHIELD \ ORIFICE CONTROL BORONATED l' MECHANISM GRAPHITE SHIELD l %5 # 1 RESERVE GRANUL.1R SHUTDOWN GRAPHITE SYSTEM HOPPER N , SHIELD O KA0 WOOL
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908813 / N/C CONTROL ROD DRIVE MECHANISM d CABLE ANCHOR t. A SUPPORT b REDUCTION [ GEARING
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903813 / P/c O SCRAM operation from file C: CRDTEST.100 Brake ON (NOT SCRAM) Brake DFF (SCRAM) ROD Retract Not Retract ' SLACK Cable NOT 41ack E 5 RSS D-P O g not RSS
.u $ ROD IN NOT land In ROD JUT NOT Ro i aut AMB-Bi-001 switch closures 14: 47: 43 14: 51: 40 FIS 8.ia l
903813 / N/C O i SCRAM operation from file C: CRDTEST.100 200 7 190 , 180 170 T 160 -
\
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T 140 - O E 120 23o + T T b 110
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FIS 8.ib _ ,, . - , . _ , . - , . - - , ~ _ _ .-
908B13 / N/C O SCRAM operation from file B: CRDTEST.100 120 - --- - - - - 7 i 110 - T 100 T 90 T l
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908813 / N/C O SHIM aperation from file C: CRDTEST.101 200 j 190 , l 180 f , J 170 - 160 y - 150 140 i T 130 - T
- I @ 120 T 5 110 -
T b 100 t I z 90 - m 80 - I E T 70 7 '
$ 60 I 50 -
40 t 30 t 20 t 10 l 0 1
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FIG 8.if
908813 / N/C O SHIM operation from file C: CRDTEST.101 Brake ON (NOT SCRAM) Brake OFF (SCRAM) R00 Retract Not Retract O s'^ck cebie NOT slack E 5 RSS D-P Ru r not RSS M E R00 IN NOT Red In ROD OUT N(IT Rod Out C: CRDTEST.101 switch closures 14: 57: 49 15: 05: 36 FIG 8.ie
908813 / N/C O SCRAM operation from file C: CRDTEST.100 100 90 , 80 70 - - E 60 - w.-v:;.- ::. : --- - - - _-_ m . _
,m E
W 50 e g 40 e
- 30 20
+
10 l 0 AMB-Bi-001 He AREA TEMP (F) 14: 47: 43 14: 51: 40 : 1 I I FIS 8.id
908813 / N/C l O SHIM aperation from file C: CRDTEST.101 100 , 1 90 I 80 T I 70 - O _ E I 60 y
.-. ..: - -r : : : - -_::: ;;_.2 :^ :::_'::: _::; : -:,- 1: ,::: : ; .=;;; a = =
Sh i
$ 50 I
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- 30 - j j i
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$ 740 h
e 730 - 720 710 700 AMB-Bi-001 ORIFICE TEMP (F) 14: 57: 49 15:05: 36 h FIS 8.ih NO DATA AVAILABLE
908813 / N/C O OV operation from file C: CRDTEST.iO2 6500 6000 < 5500 5000 4500 4000 2 3 3500 3000 E 2500 o 2000 1500 - 1000 - 500 - 0 AMB-Bi-001 O V POSN (MIL) au FIG 8.11 I 908813 / N/C O l SHIM operation from file B: CRDTEST.101 250 I 240 230 1 220 . 210 ( 200 - f , 190 - 180 l I 170 1 Oa p 150 iso g 140 -
~ 130 E 120 -
I
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~ I g 100 f I un 90 - I g 8 T I a 70 --
60 - 50 I 40 - 30 I I 20 1 I 10 1
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I 14: 57: 49 15:05: 36 FIS 8.11
908813 / N/C O OV operation from file C: CRDTEST.iO2 100 90 , 80 70 - O _ 15 60 - I
$ 50 d
q 40 m
- 30 -
20
+
10 1 0 ' AMB-Bi-001 He AREA TEMP (F) 15: 17: 19 15: 37: 4i i I FIG 8.ik 908813 / N/C O SCRAM operation from file C: CRDTEST.iO4 Brake ON (NOT SCRAM) Brake OFF (SCRAM) ROD Retract -
~
Not Retract-
. SLACK Cable NOT slack E
E RSS D-P A u g not RSS
~ ~
HOD IN NOT hd h _ _ ROD OUT NOT Rod Out 225-81-002 switch closures 12: 38: 32 12 43:34 FIG 8.2a
- 91 -
908813 / N/C O l l l I l SCRAM operation from file C: CRDTEST.104 200 190 180 , 170 . 160 150 140 - _ Q 130 -
@ 120 -
g 110 2 100 - T z 90 + 5 80 E 70 g 60 50 40 30 20 10 q. 0
-10 225-B1-002 ROD POSN N (INCHES) i sa O e1. . 2,
908813 / N/C O SCRAM operation from file C: CRDTEST.iO4 120 110 , 100 - 90 - 80 G H u-.^^
' ' ^ ~" --
70 - - g a 60 - _.l cu
> 50 5
E 40 u 30 J 20 - 10 0
- -10 225-Bi-002 CRD MOTR V 2 (VOLTS) au FI6 8.2c
908813 / N/C O SCRAM operation from file C: CRDTEST.iO4 350 340 330 320 - 310 - Q 300 E 290 + - g 280 - 270 6 g 260 - g 250 - 240 -
~
230 - S ~ ~ #" l "~### '""--*- 220 - - 210 200
,g 225-Bi-002 He AREA TEMP (F)
FIG 8.2d l l 908813 / N/C l i O ; SHIM operation from file C: CRDTEST.iO5 Brake ON (NOT SCRAM) Brake OFF (SCRAM) ROD Retract Not Retract Q SLACK Cable NOT slack E E RSS D-P
!!u g not RSS d
E ROD IN NOT Red In
~
I ROD OUT NOT Rod Out 225-81-002 switch closures 12: 51: 0i 12: 58: 59 FIG 8.2e
908813 / N/C O SHIM operation from file C: CRDTEST.iO5
~--- -
200 -- 190 - 180 T 170 T 160 T 150 - t 140 - f Q 130 I Ui 120 T 110 - f ti 100 T z 90 T 3 80 t E 70 T 8 60 - T 50 T i 40 T 30 t 20 f l 10 -
}"
O
-10 225-Bi-002 ROD POSN N (INCHES) 12 52 59 12 51:01 FIS 8.2f
908813 / N/C O SHIM aparation from file C: CRDTEST.iO5 350 340 330 - 320 310 0 -. E 290 - 280 270 - h 260 g 250 240 230 220
- =.. :_ :_:__ z= g___.. __._ [
~
210 - 200 225-Bi-002 He AREA TEMP (F) O rz. ....
908813 / N/C O l SHIM operation from file C: CRDTEST.iO5 800 790 780 - 770 - O- E 760
- a. -
750 - w T m I- _ y, _
.q r #= ~ 'W 730 720
+
710 ' 7 225-Bi-002 ORIFICE TEMP (F) , , 1 O rza a an l
.~. , . _ S -
l l .. . -
908813 / N/C O SHIM operation frois file C: CRDTEST.105 250 j 240 - t
~=
230 - _ _ __ T 220 210 f~ ~~ T T 200 - T 190 - T 180 " T 170 " T Oap 150iso " T T y 140
~ 130 L ~ -
d T T 120 - T 110 - T g 100 T cn 90 " T g 80 T U 70 - T 60 - T 50 T 40 T T 30 T T 20 T 10 t t t 0 T
-10 225-Bi-002 CRD SYS PWR (WATTS)
O rI. . 21 _99 - m , w-,- , ,e ,- - , - - , -,-,n ,- - --.---
'O 908813 / N/C ! O OV operation from file C: CRDTEST.106 6500 - -- -- ------ 6000 5500 - 5000 4500 - O 4000 l 3 l 53500 3000 Bi E 2500 o 2000 1500 -
~
1000 500 0 l 225-Bi-002 0 V POSN (MIL) 12: 59: 34 13: 28: 19 i O g1. . 23
- 100 -
L
908B13 / N/c i I O ! l l OV operation from file C: CRDTEST.106 800 790 780 770 O_E 760 - b 750 " g 740
!h 730 -
+
720 710 7 225-Bi-002 ORIFICE TEMP (F)
,, , 3, 12:59:34 O ris a ==
- 101 -
s 9
908813 / N/C O RSS operation from file C: CRDTEST.107 Brake ON (NOT SCRAM) : Brake OFF (SCRAM) i ROD Retract ! Not Retract
. i SLACK Cable f:
NOT slack i E i C E RSS D-P O u g not RSS
$ ROD IN j NOT Red In
- l ROD OUT : I NOT Rod'Out
!i3: 46: 40 225-81-002 switch closures 13: 45: 39 13: 47: 20 FIS 8.21
- 102 -
908813 / N/C A
< U RSS operation from file C:CRDTEST.107 i
25 - 24 - g T 23 T 22 -- - T 21 - T 20 T 19 i T 18 i 17 T T hS$ T. 16 , 14.5 psid I 15 1 19- ;6: 40 Hrs. I i 14 f T cn s 13 12
- i T E 11 T y
e 10 i g 9i T T x ai 7} T
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6i S 4 i T
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2 - T i i T
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- 103 -
t 908813 / N/C i O i SCRAM operation from file C: CRDTEST.iS2 i Bra ke ON (NOT SCRAM) Brake DFF (SCRAM) R00 Retract ' i i Not Retract SLACK Cable ,
, NOT slack E ,
E RSS D-P g not RSS M - - E ROD IN l l NOT Rod In _. . F RDO OUT , i 1 NOT Rod Out i t i 300-81-014 switch closures FIS 8.3a 1
- 104 - '
908813 / N/C O SCRAM operation from file C: CRDTEST.162 200 190 J 180 " T 170 ~ T 160 T 150 ~ T 140 - 130 - I m 120 ~ T 110 I b 100 T z 90 " I di 80 - T E 70 60 - l T 50 J
^
40 l T 3 ~ T 20 - T 10 ~ T 0
-10 300-Bi-014 ROD POSN N (INCHES)
OR 18: 03 OR 13:28 O n. 8..
- 105 - O F
,_.,.,n- _ _ .
1
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.[
908813 / N/C x . A% O
/
r P' SCR M operation from file C: CRDTEST.162
~ ~ ~ ~
120 110 i
=
100 90 l 80 0 TR y 70 I rm: n"' ' '-' , _
- - - =W ::. - -
S
~
60,. N
> S0 E 40 T e
a I 30 - 20 10 0
-10 300-Bi-014 CRD MOTR V 2 (VOLTS)
OR 13: 28 02 it 03 O ria a se
- 106 -
. _ _ . , _ _ - , . . v . 'r--- . ., - - - - - --- --~ - - - ' '
l 908813 / N/C O i SCRAM operation from file C: CRDTEST.162 350 - 340 1 330 4 ' i ' 320 310 - o _E 3* 290 -
=mm==- ;"= % :
I I g 280 J
- 4 270 -
T g . : g 260 - T I o 250 T 240 - 230 - T t i 220 - T i 210 - l l 200 300-Bi-014 He AREA TEMP (F) 08: 18:03 l 08: 13: 28 O na s.3a
- 107 -
908813 / N/C O l SHIM operation from file b: CRDTEST.163 I Brake ON (NOT SCRAM) Brake OFF (SCRAM) ROD Retract Not Retract
. i O s'^cx caute !
NOT slack i E E RSS D-P 3" i g not RSS ' d _
! ROD IN NOT Red In ROD OUT 140T Rod Out 300-81-014 switch closures 08:20:44 08: 27:02
, FIS 8.3e
- 108 -
l
908813 / N/C O SHIM operation from file B: CRDTEST.163 200 ; 190 180 7 170 ? 160 -
-T 150 -
T 140 - T 130 T m 120 - T Y a 110
- r z 7 5 100 z 90 - T 5 80 + r E 70 - T 60 T g
50 - T 40 7 T 30 T 20 T i 10 T 0 7
.,10 300-81-014 ROD POSN N (INCHES)
O n. . 3, 109 - - r- , ,,,. - - , . - , e , -m , - - - - - ,a,, , , , , , , - - ,
908813 / N/C O SHIM operation from file b:CRDTEST.163 350 l 340 1 . 330
- l I I 320 ti 310 I ,
300 L O~ g ( '::= == l c.;z. ::'*z=,r r I 280 h ,. Pf ! 270 - d i g 260 - e 250 240 - 230 f 220
- l 210 -
200 300-Bi-014 He AREA TEMP (F) O ne e.20
- 110 -
e
908813 / N/C O SHIM operation from file b:CRDTEST.163 800 f 790 780 h I 770 0E 760 t i n 750 i l w 740 -
,f ? I 730 -
l 720 - 710 f 7 300-Bi-014 ORIFICE TEMP (F)
,,g.,,
08:20:44 i O " '"
- 111 -
1 l f) -
908813 / N/C O SHIM operation from file B:CRDTEST.163 250 ~~ 240 - 230 220 - f_ T T 210 T 200 T 190 - T 180 T 170 T Oap 150 iso
-) T T
}
y 140
~ 130 T @ 120
- i 110 -
i p 100 - f u) 90 T
- a 80 -
T E 70 T 60 - 7 i 50 T 40 T 30 i l 20 g I l 10 ; (
-10 O I l 300-81-014 CRD SYS PWR (WATTS) l O rz. . 31 112 -
908813 / N/C i 9 OV operation from file B: CADTEST.iS4 6500 6000 I 5500 T 5000 + l 4500 O 4000 - 3 3 3500 - ' 3000 - i 3i E 2500 + o 2000
- 1500 1000 500 -
0 300-Bi-014 0 V POSN (MIL) O na ..m ) - 113 - i r 7
908813 / N/C O I l l OV operation from file 8:CRDTEST.164 1
+
j 800 790 780 i 770 " O- E 760 + b 750 + d 740
- T E \
\
E I 730 720 710 700 300-Bi-014 ORIFICE TEMP (F) l O ex. .. =
- 114 - * - - - -- - - - - - -----.--,,,,,-,.y- _ , _ , , _ . ~ , . . , , , . , , . _ , , . _ _ _ , _ ,
908813 / N/C O RSS operation from file B: CRDTEST.165 Brake ON (NOT SCRAM) i i Brake OFF (SCRAM) i ROD Retract i Not Retract i
. i SLACK Cable l:
NOT slack i e. E RSS D-P 2o { g not RSS ; I d i E ROD IN j i NOT Red In : ROD OUT i NOT Rod Out 08: 457 46 300-Bi-014 switch closures 08: 45: 14 08: 46: 14 FIG 8.31
- 115 -
908813 / N/C O RSS operation from file B: CRDTEST.165 25 24 23 22 - - 21 - 20 19 - 18 - 17 - ~ 15.0 psid O e g is 15 Oe 45: 4e are. T
& 14 - -T m 13 s 12 - - @ 11 -
1 g 10 - 9 -
$ 7 7
8 T 5 T 4 3 -T 2 1 0 - -
-1 300-Bi-014 RSS DP PRESS (PSID)
O er. . 3. l
- 116 -
i
--n... - , . . , - ~ . . - - , . - - - , , . - . . - - . - - - - - - - - - - - - .
908813 / N/C O SCRAM operation from file B: CROTEST.260 Brak,e ON (NOT SCRAM) Brake OFF (SCRAM) ROD Retract Not Retract SLACK Cable NOT slack E E RSS D-P 2u
- g not RSS a
E ROD IN 1 MT bd h . RC'O OUT l NOT Rod out 300-E15-033 switch closures 13: 50: 11 13:59: 22 FIS 8.4a
- 117 -
i
908813 / N/C i O 1 4 ) SCRAN operation from file B: CRDTEST.280 200 iso d -- iso - - -- 170 ' ' T iso - i . 150 i 140 f i ' O 1-12o 1 1 110 " I T l t2 100 i t z so i
- so -
t I 70 " J l sof l
** i T
40 1 30 i: T T 20 f i 10 T 0 - "
^
10 300-E15-033 ROD POSN N (INCHES) , O ex. . 4. 118 - . e
.- , ,r- ., <=w --y.2a-y-y%--%--+,- - - - - -
n --w ww, y wyym---rw.y--e
908813 / N/C O SCRAM operation from file B: CRDTEST.260 120 110 - - - - 100 - 90 l t 80 Oa t i E' N 60 % !
> 50 i
l EE i E 40 ' . 30 20 - I 10 - 0
~i 300-E15-033 CRD MOTR V 2 (VOLTS) is: 50: 11 , , ,
i i Q FIG 8.4c
- 119 -
1.
908813 / N/C O SCRAM operation from file B: CRDTEST.260 350 340 j 330 320 - 310 T 300 :. 393;-f' ~ ' -- w;;;;4y ;;f' ~ C 290 - g 280 T
- l 270 0
g 260 - l g 250 240 - 230 - 220 - 210 - , 1 200 300-E15-033 He AREA TEMP (F) O r1. . 4.
- 120 -
at
908813 / N/C O SHIM operation from file b:CROTEST.261 4 Brake ON (NOT SCRAM) Brake OFF (SCRAM) ROD Retract Not Retract SLACK Cable
, NOT slack E
E RSS D-P
?u g not RSS U
R ROD IN NOT And In
~
ROD OUT 40T Rod Out 300-E15-033 switch closures 13 59: 47 14:07: 24 FIG 8.4e
- 1 21 -
908813 / N/C O SHIM operation from file B: CRDTEST.261 200 190 180 170 160 150 - 140 Q 130 m 120 h 110 s 100 z 90 3i 80 E 70 - g 60 - 50 - 40 - 30 - 20 10 0
-10 300-E15-033 ROD POSN N (INCHES) l 13: 59: 47 14: 07: 24 l
FIS 8.4f
- 122 -
e n
. - ._. = _ _ _ _ - - _ _ _ _ _ . _ . - . . - _ . - . - - _ _ _ _ _ _ _ _ _ _ _ _ - _ _ _ , _ _ _ _ _ _ _ _ _
908813 / N/C O SHIM operation from file B: CRDTEST.261 350 340 330 " 320 310 T 300 h^ _;;;z q : :za,_ % g 3 - E 290 " T
% 280 -
W 270 T T 260 I T, g 250 T I 240 - 7 230 7 l 220 - 210 " 200 300-E15-033 He AREA TEMP (F)
~
O gr. . 4,
- 123 -
908813 / N/C O SHIM operation from file B: CRDTEST.261 800 790 - - 780 " . 770 - Oc- 760 - c. 6 r 750 " k 740 730 pg,=^.:;
^
- A 720 "
{ 710 l 7 i 300-Ei5-033 ORIFICE TEMP (F) 13: 59: 47 ,4, ,7, ,, i Q FIS 8.4h i - 124 -
908813 / N/C O SHIM operation from file B: CRDTEST.261 290 - 280 270 260 - 250 - - -
- :--=
240 230 T 220 ' 210 , 200 - ; , O _m 190 180 i T
$ 170 -
T
$ 160 .
' I T
150 '
~
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@ 140 '
T S 130 - i m 120 ' T g 110 l
; T 100 -
T 90 ! T 80 - I T 70 $ i T 60 l 1 T 50 , l T 40 ! T 30 - 20 ' 10 - t t 0 T
-10 300-Ei5-033 CRD SYS PWR (WATTS) ,
O er. . 41
, 125 :
,w-, , , . - - ,,---~-m---mm--r-p---.--,...,.-.,-,ww,. .-#,y- - ---, , , . , _ , - - , . . -
- , . , - - ----,----m---- - - - .
908813 / N/C O OV operation from file 3: CRDTEST.262 6500 6000 5500 5000 - - 4500 - O _ 4000 T d i 35 3500 - - 3000 Bi E 2500 - - , o 2000 i 1500 - 1000 - " 500 - 0 300-E15-033 0 V POSN (MIL) 14: 07: 48 14: 25: 23 l O ns . 4i
' ' 126 -
e
.g---v -
y------w-- -
908813 / N/C O OV operation from file B: CRDTEST.262 800 790 - 780 770 Oc - 760 - . h* 750 - d - E 740 b 730 ' 720 -
+
710 300-E15-033 ORIFICE TEMP (F)
,, ,, ,3 14:07: 48 .
Q FIS 8.4k
- 127 - -
-___.___-__-._-,c , ., _ , . _ , , - - - , - - - - , _ , , _ . _ ,
.---,__._,____m. . - - _ - - _ _ , _ , _ . - . - , , _ , . _ .
908813 / N/C O RSS operation from file B: CRDTEST.263 Brake ON (NOT SCRAM) : i Brake OFF (SCRAM) i R00 Retract ! Not Retract i
. i SLACK Cable f:
NOT slack i E :- c. E RSS D-P l Mu . g not RSS l! U i
! ROD IN !
NOT Rnd In : ROD OUT i i NOT Rod Out i d4: 26: 15 300-E15-033 switch closures 14: 25: 45 14: 26: 50 FIG 8.41
- 128 -
908813 / N/C
't RSS operation fro. file b: crdtest.263 25 24 "
23 -- 22 - - 21 gn . . 19 18 17 15.3 psid O a is 14: as: is are. y 15
& 14 -
13 g y 12 - E 11 g 10 - 9 - a g 7 6 - 5 4 3 - 2 - 1 0
-1 300-E15-033 RSS DP PRESS (PSID)
O ere . 4.
- 129 -
I 908813 / N/c , O SCRAM operation from file B: CRDTEST.274 Br ake ON (NOT SCRAM) , Brake OFF ISCRAM) R00 Retract Not Retract' SLACK Cablo ; i
, NOT slack i E I E RSS 0-P !
A i g not RSS l a , d i
. P.GD IN i l
NOT Rod In i ROD OUT j NnT And out AMB-Ei-034 switch closures 08: 45: 56 08: 57: 17 FIG 8.5a
- 130 -
908313 / N/C O 1 SCRAM operation from file 8: CRDTEST.274
- - ~ ^ ' - - - ~ ~ ' - ~ ~ ' - - - - ~ ~ - ~ ~ - - ~ - - - - - - - - - ~-
200 r- . 190 180 , 170 160 150 I T 140 1 " 4 1 O i T E 120 - 110 t 100 I
= " I 80 1 T
70 t I g 60 y J 50 + T ! 40 T 30 . T 20 T 10 1 " 0
-10
^
AMB-Ei-034 ROD POSN N (INCHES) 02 45:56 02 57:17 O er. . 5. i
- 131 - . ,---o-w---c --- --- ,~-,----,--,,._e.-_.nc,. , _ , , , _ , _ - , , _ , _ _ , w,, , , , , _ ,___._._,,,,,,e.,,e.-._, .
y
r 908813 / N/C O v-5 9 SCRAM operation from file 8: CR0 TEST.274 120 ' -- - - - 110 100 90 '- so - - '- Os E'" N 60 "
> 50 " "
!E g 4o . . ..
$ so " "
20 "
- 10 0
^
10 AMB-Ei-034 CR0 MOTR V 2 (VOLTS) , O
- n. . .
1
- 132 -
-._n.. --.,.- , . ,, ,- ,,_.-- ,--- - . -_,. _ _,,,_.,,,. ,._,- _. ,,..__ - . _ - - , - - _ - - - - . , . , - . . , , , - - . - . - . _ , . . , . . - . - , _ - - ~ , - - - .
908813 / N/C O SCRAM operation from file B: CRDTEST.274
~'
140 130 " T 120 T f 110 100 T i O E so " 7 r l I g 70 - T so - _ _ - - _
...-..,.,-,....-..-------T 50 "
T 40 1 T { so " T 20 T "l i ! Oi T I
.so L.
AMB-Ei-034 He AREA TEMP (F) O gr. ..s.
- 133 -
,,v--- - , - . , -
,-,_,----g -, , ww,_,,..,n ------..w - - - - - - -~-w---e w- , ,.,,-- - ~----w
1 90E813 / N/C O > l l l t SHIM operation from file b:CROTEST.275 Brake ON (NOT SCRAM) Brake OFF (SCHAM) R00 Retract Not Retract .
~
O s'Acx caete
, NOT slack E
E RSS D-P 5 l g not RSS ! M -
! ROD IN
/
E ,od In l
~
ROD OUT f hot ned out AMB-Ei-034' switch closures 08: 57: 41 ' 09:05: 53 O FIS 8.5e
- 134 -
908813 / N/C O f SHIM operation from file b: CRDTEST.275 200 190 ' 180 170 " 180 150 -- g4o . . O 120 - 110 22 100 " " z 90 " s0 -- 70 g 80 -- 50 -- 40 " 30 " 20 " 10
~ -
0 "
-10
^
AMB-Ei-034 ROD POSN N (INCHES) O n. s.5, 135 -
.----v- - - , - - .
908813 / N/C O SHIM oporation fros fils b: CADTEST.275 90 3 J l 80 1 T l 70 h T I 60 N Err ^t l'U-~-
' - - #' l #'" ' '
i O b i 50 h T i r 40 I, T l MA T l 20 fi T 10 f T l O 1 J
-10 AMB-Ei-034 He AREA TEMP (F) 08:57:41 09: 05: 53 FIS 8.5g 136 -
-,w- - - v,.,----,-e _n.-...
908813 / N/C O i SHIM operation from file b:CRDTEST.275 90 i 80 -- 70 - 60 - g 50 " I T I I 40 " T l 8 30 - E 20 " 10 0 i -10 AMB-Ei-034 ORIFICE TEMP (F) 02 57:41 09: 05: 53 FIS 8.5h
- 137 - .
, y- -,
908813 / N/C l
- O SHIM operation fros file b: CADTEST.275 250 240 -- --
230 -- -- 220 1 -
^ ~"
T
~
210 200 1 1 f - 190 1 i 180 T 170 J O a ia - p 150 - g 140 - -
]
130 7+ - 120 , _- l 110 -
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m 100 " T m 90 t T gut 70
- T T
60 " T 50 -- - 40 - 30 - 20 1 -- 10 1 - t < 0 # -
-10 -
AMB-Ei-034 CR0 SYS PWR (WATTS) O rz. . 51
- 138 - -
-_ _ --.---.._.,e --s.
908813 / N/C O OV operation from file B: CRDTEST.276 8500 6000 5500 " " 5000 - 4500 " " O 4000 - " 3 3 3500 - " 3000 " " F5 E 2500 4 - o 2000 - " 1500 " 1000 " " 500 - -
=
0 :- AMB-Ei-034 0 V POSN (MIL) 09: OS: 10 09:38:05 FIS 8.5j l
- 139 -
e
908'813 / N/C O OV operation from file 8: CRDTEST.276 90 - - - - so - - - 70 - " So
^
z: :- . . .-- - - - - = = = = - - - - - ^: : = 0a 50 -- -- ga. l 30 - h l 5 20 -- -- 10 0 -
-10 AMB-Ei-034 ORIFICE TEMP (F) b FIS 8.5k 140 -
4
908813 / N/C RSS operation from file B: CRDTEST.278 Brake ON (NOT SCRAM) : i Brake OFF (SCRAM) j ROD Retract i Not Retract O s'^ck cabte i i NOT slack : E :
- c. -
5 RSS D-P ! nu - g not RSS ij M i a R00 IN i NOT Rod In : ROD OUT i i NOT Rod Out i dO: 36: 08 AMB-Ei-034 switch closures 10: 35: 36 10: 37: 05 FI6 8.51
- 141 -
908813 / N/C RSS operation from file B: CRDTEST.278 25 23.5 osid 24 i : 36: 08 Hrs. 23 22 .t - T 7 21 20 f T T 19 T 18 ,
~
T O a is I M 15 t
$ 14 4 I T
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-1 AMB-Ei-034 RSS DP PRESS (PSID) 10: 35: 36 10: 37: 05 j FIS 8.5m
- 142 -
908813 / N/C (3 %) NOMINAL TEST TEMPERATURE (Deg. F) AMS 225 250 260 270 290 290 300 2 WEEK SOAK 300 AMB 140 i i. . I 1 s . a 3 . . . . l .1 I . s . l
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- I O 33 Run Sequence FIG. 8.6
, SCRAM TIME VS. RUN SEQUENCE J
- 143 -
908813 / N/C NOMINAL TEST TEMPERATURE (Deg. F) AMB 225 250 260 270 280 290 300 2 WEEK SOAK 300 AMB 25 . . . . . . . . .
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-%? FIG. 8.8b g-.A .
FS: H _.. SHIM MUTUR AT POSI IEST INSPECTION r / sm m_um.e
- 146 -
908813 / N/C O SCRAM operation from file 8: CfEITEST.220 200 190 180 - ' 170 ' 160 ' 150 ' gg . .. O 130
~ 120 110 "
t1 100 ' z 90
$ 80 "
E 70 " ' 60 - l 50 " g .. 30 - 20
~
10 " l 0 "
-10 l ROD POSN N (INCHES) ;
12: 52: 24 13:00:04 ' 1 FIG. 8.9 QUESTIONABLE CONTROL ROD POSITION TRACE O
- 147 - ,
908813 / N/C D 250 . . . . . . . 240 .
........t.......\......................................:.......:................
u
.n ." -
. y .- .
..... ........s....... ...... .
T/C - - - - -
& 230- -
- ~
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u;
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c s. w RT
........./......
a_ r . .. 4 /. . . . . . . . m > as . . . . . . Q. . . . . . . . X 220 u; f......s.................s...... . .
~....... ......
.......*.......o...............
F- . . . . . . . . .
* .. . e . . . . .
........................r.......
4.0 ................., . . . . . . . . , . . . . . . . . ...... ........s....... u, . . . . . . . . .
-- 1 . . . . . . . . .
x 00 %. .
- ~
O m g . x uj
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~-
M. .*
.~
. - - M.-
*--A .
um 0 c 0%0 TIME (MIN.) FIG 8.10 RTD TRANSIENT PERFORMANCE
- 148 -
908813 / N/C O l l DV operation from file b;01-10 800 790 780 - I 770 - O @ 760 755 des f it 30:00 Ws. 733 g,, , 74g e., , 748 des f 18120:00 Ws.
; 748 deg1 12 20:00 Ws. 74 kg f 1R 30: 00 Ws. + : 12 20: 00 Ws. + '
_ it 25: 01 Ws. I 740 - e 730 - 735 des f 08 35:00 Ws. 734 des f 02 25:00 Ws.
%N .
m dog f L7 N 730 delf 720 - Ot 10: 00 Ws. Ot ! Ws. 710 - 01-06-86 01-07-86 01-08-86 _ 01-10-86 01-11-86 01-12-86 6 DAY PLOT OF 300 SOAK ORIFICE TEMP (F) FIG. 8.I1 O - 149 -
908813 / N/C O OV operation from file B: CRDTEST.266 800 6500 6000 790 5500 5000 770 4500 E 760 00 h H 750 q 3000 740 2500 E 730 M 2000 m 1500 720 1000 710 - 500 q 0 700 OV TEMP VERSUS OV POSN ORIFICE TEMP (F)0VPOSN (MIL) 09:00:31 11: 16: 21 FIG. 8.12a 0
- 150 -
1 908813 / N/C l DV operation from file B: CRDTEST.271 l 800 6500
" 6000
" 5500 780 -
" 5000 770 - "
4500 O E 760 .
" 4000 3500 h
750 - 3000 SEcole T/C
$ 740 - .
2500 l h 5 730 - " 2000 720 - TEST T/C
" 1000 710 - -
500 0 700 TC COMPARISDN TEST ORIFICE TEMP (F) 0 V POSN (MIL) FIG. 8.12b O
- 15i -
908813 / N/C O OV operation from file B: CRDTEST.265 800 6500 6000 790 -
'5500 780 -
'5000 770 -
4500 O E 7so . 4000 3500 ' 750 - 3000 , k740 - 2500 ' h I 730 - " 2000
'1500 720
'1000 710 -
500 700 . 0 WITH 2PPH PURGE ORIFICE TEMP (F) 0 Y POSN (MIL) 08: 19: 31 08:53:01 FIG. 8.13a O
- 152 -
908813 / N/C O OV operation from file B:CRDTEST 268 800 6500 6000 790 5500 780 - 5000 770 - 4500 O E 7s0 4000 n, 3500 g 750 3000 k 740 . 2500 h E 730 ' 2000 720 1000 710 500 700 0 NO PURGE ORIFICE TEMP (F) 0 V POSN DdIL) 12: 53:09 13: 16: 54 FIG. 8.13b O
- 153 -
(n J
\
^
300 i . . . . . . ; ;
.H
. . . . . . . :. . . . . . . .: . . . . . . . :. . . . . . . . :. . . . a . . : . . . . . . . : . . . . . . . . . . . . . . : . . . . . . . : . . g . . . .
- : : ;G : : :. LEGEND!. :
. . . .iHi . . . . .
F- .
- *A. 215# FOR Sd0 HRS
. . :E . . .
. . . . . . . . . ......:.......s.. . . . . .
o-.- ai .
......:.......s...........MQT.l.......s.......
l l l l
*8. 220$ FOR 27 HRS D - * - - - -
. . c. 2 e. FOR te HRS
......s..............r........s.............. .......s........
w
. c. .
1Rl l l *D. 253d. FOR Si. HRS
- E. 268F FOR 50 HRS
....... ... .. .......s.......
. . . . ......r........s...............r........s.......
8
- l l l l :F. 272R FOR Sq HRS
. . . . . . . . . q Hi..s......... . . . . . . . .
A 1 H. . i *
. G. 262F. FOR 20. HRS
. w
.............s........s.............r........s...............o........s........
. . . . . . o
. . . . . . . . . C3
- - - - m
. . . .- . . . H. 289P. FOR 391 HRS -
. . . . . . . . . w
* * * - 1 M I s
0 1500 z s TOTAL 1518 AT TE W FIG. 8.14 TIliE AT TEtfPERATURE
APPENDIX A 908813 / N/0 DATA SHEET FSV CONTROL ROD DRIVE AND ORIFICE ASSEMBLY HIGH TEMPERATURE FUNCTIONAL TEST O TEST DESCRIPTION DATE _(_/_dl/ILje, TIME Q___h :2d [30 Q 51 f___{ g h _300_ N! 1 DER _,,,.___ _Ts'i._0 _hy_g_331,}{_ A2. TEST ENG I NEER _ _f6,., Met.dtf___ _ _ h,3_=_. ,_ __ _.______ ____ _,_ ,. T ES1 TECHNICI ANS _'I,lp_titfy_QLinfict).g_ _%@m._. _ _ . _ ._ U.A. REPRESENT ATIVE _Q,__hegiff_t.g /lM_M.YEEf_.f__ _ TEST DATA i Shi el d T emper c.tur e , "7 21__ F ! CRD He. 1EhP_3pOf_F U.V. Autocl ave Pressure __,j,I_._I_____ Psi g He. moisture ,_]._i,_ PPM < He. T ot al o::i dan ts ____7____PPMv Scram ti me _Q3_._SL_Sec. He. Purge '-Flow Rate ____h ___PPH Bac k-EMF dat a f i l e name _ESlo_Oi_Mp1______ .__CRW[ef_.__1._0'i_ . RTD M1, Closure pl ate .f_E L M Z OHMS 1 C _st_7_f___ F_ RTD t!2,0.V. motor plate /f_0,;5f3 OHMS 2 TC _f.(,t___ F RTD (13,CRD Motor ,f_f(, M j", OHMS TC __R.jPf__ F 5: Scr.ams so required time - -
----- N- *N~~ ~ ~ ~ ~ 't Computer data iil e CRDTEST.,D,._
CRD Shim Motor .h Brake operate satisfactory -- ~ ~ ~ ~ ~ ~ ~
,/
Computer data fi1e CRDTEST. 1Qf 0.V. operates sat i sf ac t ory -----=----- Oh.
-------___,y____
Computer data file CRDTEST. ;L / R.S.S. operates satisfactory =-
~~~V~~~~
Computer data file CRDTEST. M_1 Rod-in switch operates satisfactory - - - _ _ _ ___ Rod-out switch operates sati sf actory -- ___V..___ Slack-cable switch operates satisfactory ----- _ FM _ __ Rod-retract switch operates satisf actory - _ _ _f4 h_ ___ REMARKS: @_h_*\$d__NA __V_Ie_gN_ht._moV.t. .e i\__dedt _ _ _ _c5MGsh_._Anko_htonL_m&_Tdsbes__b.et . AffA.hs
.h__d__M_WM.,_cb_usAX_dexst ,__qe__.h __egethed
_yte.9sd1 . -- = _ _ _ _ - -
* = OPERATES SATISFACTORY N/A= NOT APPLICABLE F = FAILURE TO OPERATE SATISFACTORY O A-1
Arracouc+rr E:> . 908813/N/C, 0- . BACK-EMF DATA ACQUISITION DATASHEET 3co - c4-our CRD S/N 09 DATE g/-#/-9 RUN NUMBER O,2 (consecutive from 01, on a daily basis) TIME (9d2/7 (24 hour clock) REGION /i41 (GA1 - air test chamber; GA2 - autoclave) TEMPERATURE M 'F (upperautoclave) MOTOR S/N 23 ROD POSITION /87' W (positional indication) REASON FOR TEST CRD ENVIRONMENTAL QUALIFICATION TEST (300 DEG. F) PERFORMED AT GA TECHNOLOGIES 5 TEST PERFORMED BY ///. W QA REPRESENTATIVE v
. (pejg(s o /a/00-l 31 N
% 6 O A-2
908813 / N/C O I R0D C0NDITION () CRD S/N 09 LOC HSF 860121 08:27 ROD POS 187 RUN 02 i CORE: INLET TEMP N/A MOISTURE N/A SCRAM LEN6TH: FULL END 300 SOAK 3cc - E4 -o LK 9 O CRD PASSED TEST STARTING MOMENT: 19.68 in-oza PEAK MOMENT: 5.78 in-ozs i AVERAGE ACCELERATION RATE: 114 rad /sec"2 f
'l O A-3
- t
,-,-._,,--.,---.-..-m-,y -,,-v.--- - . - - , - - - - - - - - - - -- . - - - - , - - - - - - - - . , . . . , - - , - - . -
; t O=U ' kn O li I :,!i !i ill ; I i!I M
2 5 3 . I,Ii i l,i ;' .
~
2 V ' 1 3 5 : f # : ' i1 i l l! ' ! : ; l. i l
. 4 0
1 -
. L t
We S T 7 D 5 R. _ c 3
/
O V 0 . 0V 0O 40 L E V E V L 0 - 0V 0O
. . V 8780 O 80 .
M 0 N0 0 A4V 0M J : 0 . 0V 80V31 0 1 00O 2 . . : D . 0u _ : 6OE 5o - E M I G : + _ M 9M _ 0 2I : STI R s _ 9 :TST RE _ 0 5 EELTG - _ 4GGSA - G _ : I NFTEI o V 8RAFORRA 0TROTPT 1 O 3 5
. ! 'I :i . ( l l! jl ,!- !; i !!
e . s gL" La b Q M 2 2 3 2 V ' 1 3 J. V O 9 30f 3 2h Q . l
- sTb 4 6 (A ETi 0 b.
a 9 0 3c0 h O V 0 0V 00 40 L E V E V L 0 - 0V 00
. . V 80 O1 8
.38 M 0 :
0 7N _ V 0M 2A 0 .0V :J 0V31 08 00 .001
. . :O . 2 80E 5 :
M E M : I G : M8 0 : STI RI 1 9 ST RET : 0 EELTG 3 GSA - GG3 NFTEI I :
, AFORRR8
_ V R0TPTT0 1 3 O 5 _ ? u,
NOTES TO TABULATION
- 1. THIS F ECGF AM iS FOR FILE NUMBERS 27 DN... 908813 / N/C r~x
! ,) 2. CRD ss FREQUENCi WHEN READINGS ARE VAllD DNLY VOLTAGE IS APFLIED
- 3. OFEN THERMDCOUPLES READ -999
- 4. DATA FOR VOLTAGE, CURRENT,FREO, POWER MAY OR MAY NOT EE AVAILABLE DURING A SCRAM (DUE TO BACK-EMF MEASUREMENT...SEE LOG) ,
- 5. POWER RECORDED IS SYSTEM POWER AND INCLUDES APPROX 59.1 WATTS DRAWN BY TRANSDUCERS,FRE0 &
VOLTAGE DROPPING RESISTORS...ETC. c: CRDTEST.203
\
U v _ A-6 >
_~ . c CRDTEST.203 DATE 01-21-1986 PAGE 1 )' 908813 / N/C - SCAN . TIME RDD POSN SWITCH PWR FREQ VOLTS AMPS ----8 RAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS aADC SW 1 08:26:19 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 2 08:26:24 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 3 08:26:29 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 4 08:26: 34 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 375
- 5 08:26: 39 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 6 08:26:44 191 187 + 3 128 0 0 0 0.00 0.00 0.00 24.0 375
- 7 08:26:49 191 187
- 3 128 0 -0 0 -0.00 0.00 -0.00 24.0 376
- 8 08:26:54 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 9 08:26:59 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 375
- 10 08:27:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 e 11 08:27:09 191 187 + 3 12B 0 0 0 0.00 0.00 -0.00 24.0 376
- 12 08:27:14 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 376
- 13 09:27:19 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 376
- 14 08:27: 24 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 376
- 15 08:27:29 188 184 3 112 0 0 0 0.00 0.00 -0.00 0.0 -1 16 08:27:34 180 176 3 108 0 0 0 -0.00 0.00 -0.00 0.0 -1 17 09:27:39 172 168 3 110 0 0 0 0.00 0.00 -0.00 0.0 -1 18 08:27: 44 164 160 3 113 0 0 0 0.00 0.00 -0.00 0.0 -1 19 08:27:49 157 153 3 107 0 0 0 0.00 0.00 -0.00 0.0 -1 20 08:27:54 149 145 3 101 0 0 0 -0.00 0.00 -0.00 -0.0 -1 21 08:27:59 141 137 3 107 0 0 0 0.00 0.00 -0.00 0.0 -1 22 08:28:04 134 130 3 109 0 0 0 0.00 0.00 -0.00 0.0 -1
~ 23 08:28: 09 126 123 3 110 0 0 0 0.00 0.00 -0.00 0.0 -1 24 08:28:14 119 115 3 110 0 0 0 0.00 0.00 -0.00- 0.1 -1 25 08:28:19 112 108 3 107 0 0 0 0.00 0.00 -0.00 0.0 -1 26 08:28:24 104 101 3 110 0 0 0 0.00 0.00 -0.00 0.0 -1 27 08:28:29 97 94 3 113 0 0 0 -0.00 0.00 -0.00 -0.0 -1 I
/ 28 08:28:34 90 86 3 114 0 0 0 0.00 0.00 -0.00 0.0 -1 29 08:28:39 83- 79 3 110 0 0 0 0.00 0.00 -0.00 0.0 -1 30 08:28: 44 76 72 3 108 0 0 0 -0.00 0.00 -0.00 -0.0 -1 31 08:28: 49 68 66 3 114 0 0 0 0.00 0.00 -0.00 -0.0 -1 32 08:28:54 61 58 3 110 0 0 0 0.00 0.00 -0.00 0.0 -1 33 08:28:59 55 52 3 105 0 0 0 -0.00 0.00 -0.00 -0.0 -1 34 08:29:04 48 45 3 108 0 0 0 0.00 0.00 -0.00 0.0 -1 2 35 08:29:09 41 38 3 107 0 0 0 0.00 0.00 -0.00 0.0 -1
' 36 08:29:14 34 32 3 117 0 0 0 0.00 0.00 -0.00 0.0 -1 37 08:29:19 28 25 3 128 0 0 0 -0.00 0.00 -0.00 -0.0 -1 38 08:29:24 21 19 3 110 0 0 0 0.00 0.00 -0.00 0.0 -1 39 08:29:29 14 12 3 114 0 0 0 -0.00 0.00 -0.00 -0.0 -1 40 08:29:34 8 6 3 106 0 0 0 -0.00 0.00 -0.00 -0.0 -1 41 08:29:39 1 -0 3 107 0 0 0 0.00 0.00 0.00 0.0 -1 1 42 08:29: 44 -2 -3
- 3 105 0 0 0 -0.00 0.00 -0.00 -0.0 -1 43 08:29:49 1 -1 3 110 0 0 0 -0.00 0.00 0.00 -0.0 -1 44 08:29:54 1 -1 3 112 0 0 0 -0.00 0.00 -0.00 0.0 -1 45 08:2Y 59 -1 -2 + 3 111 0 0 0 0.00 0.00 -0.00 0.0 -1 46 08:30:04 0 -2
- 3 107 0 0 0 0.00 0.00 -0.00 -0.0 -1 47 08:30:09 1 -1 3 107 0 0 0 -0.00 0.00 0.00 0.0 -1 48 08:30:14 0 -2
- 3 106 0 0 0 0.00 0.00 -0.00 0.0 -1 49 08:30:19 0 -2
- 3 107 0 0 0 -0.00 0.00 -0.00 -0.0 -1 i 50 08:30:24 0 -2 + 3 113 0 0 0 -0.00 0.00 0.00 0.0 -1 51 08:30:29 0 -1
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381 *
-; 52 08:30:34 4 2 211 60 106 105 104 1.04 1.09 1.0/ 0.0 -0 + 53 08:30:39 9 7 229 60 105 105 104 1.05 1.09 1.07 0.0 0 *
'54 08:30:44 14 12 229 61 106 105 104 1.04 1.09 1.07 -0.0 0 *
() 55 09:30: 49 19 !? 230 61 106 105 104 1.04 1.09 1.07 0.0 -0 + A-7
c:CRDTEST.203 DATE 01-21-1986 .PAGE 2 SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW ("'g 56 08:30:54 24 22 230 60 106 104 104 !.05 ,1.09 1.07 0.1 -0
- x_ ,/ 57 08:30:59 29 27 231 60 106 105 104 1.04 1.09 1.06 0.0 0
- 58 08:31:04 34 32 231 60. 106 105 104 1.05 1.10 1.06 0.0 0
- 59 08:31:09 39 37 231 60 105 105 104 1.04 1.10 1.06 0.0 0
- 60 08:31:14 44 42 232 60 105 105 104 1.04 1.09 1.06 0.0 5 * ,
61 08:31:19 49 47 232 60 106 105 104 1.04 1.09 1.06 0.0 0 + ! 62 08:31:24 54 52 232 61 106 105 104 1.04 1.09 1.06 0.0 -0 '* 63 08:31:29 59 57 232 60 105 105 104 1.05 1.10 1.06 -0.0 4 '* 64 08:31:34 65 62 232 60 106 '105 104 1.04 1.10 1.06 0.0 0
- 65 08:31:39 70 67 234 60 106 105 104 1.05 1.10 1.07 0.0 -0 e 66 08:31: 44 76 72 234 60 106 104 105, 1.05 1.10 1.07 0.0 -1
- 67 108:31 89 81 78 234 60 106 104 104 1.04 1.09 1.06 0.0 -0
- 68 03:31: 04 86 83 234 60 106 104 104 1.05 1.10 1.07 0.1 1
- 69 68:31:59 92 88 234 60 106 104 105 1.05 1.10 1.07 0.1 -1
- 70 208:32: 04 97 94 235 60 106 105 104 1.05 1.10 1.06 0.0 0
- 71 08:32:09 102 99 235 60 106 105 104 1.05 1.10 1.07 0.0c -0
- 72 08:37:14 108 104 234 60 106 104 105 1.05 1.10 1.07 0.1 -1
- 73 08:32:19 113 110 235 60 106 105 104 1.05 1.10 1.06 0.0 0
- 74 05:32:24 119 115 236 60 106 104 105 '1.05 1.10 1.06 0.0 -1
- 75 08:32:29 124 121 237 60 106 104 104 1.05 1.10 1.07 0.1 -1
- 76 08:32:34 130 3
126 237 60 105 105 104 1.05 1.10 1.07 0.1 -1
- 77 08:32:39 135 132 236 61 105 105 104 1.05; 1.10 1.07 0.1 -1
- 78 08:32: 44 141 137 237 60 105 105 104 1.05 1.10 1.0) 0.1 -1
- 79 08:32:49 147 143 238 60 105 105 104 1.05 1.10 1.07 0.1 -1
- B0 08:32:51 152; 149 238 60 105 105 104 1.05 1.10 1.06 0.1 -0
- 81 08:32:59 -158 155 238 60 105 105 104 1.05 1.10 1.06 0.0 -0
- 238 105 105 104 1.05 1.10 1.07 0.1 -1
- B2 08:33:04 ' 163 160 61
/ 83 08:33:09- 169 105. 239 60 105 105 104 1.05 1.10 1.07 0.1 -1 s- 84 08:33: 14 175 171 239 60 105 105 104 1.05 1.10 1.07 0.1 -l
- B5 08:33:19 181 177 238 60 105 105 104 1.05 1.10 1.07 0.1 -1
- 86 08:33:24 187 183 239 60 105 105 104 1.05 1.10 1.06 0.1 -1 a 87 08:33:29 191 187
- 26 128 0 0 0 0.00 0.00 0.00 24.0 383
- 88 08:33:34 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 89 08:33:39 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 382
- 90 08:33: 44 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 91 08:33:49- 191 187
- 3 126 0 0 0 0.00 0.00 -0.00 24.0 381
- 92 08:33:54 191 187
- 3 127 0 0 0 0.00 0.00 -0.00 24.0 381
- 93 08:33:59 191 18.7
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 380
- 94 08:34:04 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 380
- 95 08:34:09 1191 187
- 3 128 0 0" 0 -0.00 0.00 -0.00 24.0 380
- 96 08:34:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 97 08:34:19 191 187
- 3 12F 0 0 0 0.00 0.00 -0.00 24.0 379
- 98 08:34:24 191 187 * ! si ' O O O 0.00 0.00 -0.00 24.0 379
- 99 08:34:29 191 187 * '. 14 0 0 0 0.00 0.00 0.00 24.0 379
- 100 08:34:34 1"r1 187
- i 12e 0 O O 0.00 0.00 -0.00 24.0 379
- 101 08:34:39 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 102 08:34:44 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 103 08:34:40 .191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 378
- 104 .08:34:54 '191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 378
- 105 '08:34:59 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 378
- 106 08:35:04 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 378
- 107 08:35:09 191 167
- 3 128 0 0 0 0.00 0. 0'O -0.00 24.0 378
- 108 08:35:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 378 +
109 08:35:19 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 378
- I) 110 08:35:24 191 187
- 3 120 0 0 0 -0.00 0.00 0.00 24.0 37B
- v A-8
i c CRDTEST.203 DATE 01-21-1986 PABE 3 908813 / N/C SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW 111 08:35:29 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 377 *
("N s 112 08:35:34 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 377
- 113 08:35:39 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 377
- 114 08:35:44 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 377
- 115 08:35:49 191 187
- 3 128 0 0 O 0.00 0.00 0.00 24.0 377
- 116 08:35:54 191 187
- 3 128 0 0' '
O 0.00 0.00 -0.00 24.0 377
- 117 08:35:59 191 187
- 3 120 0 0- 0 -0.00 0.00 -0.00 24.0 377-
- 118 08:36:04 191 187
- 3 128 0 -0: 0 -0.00 0.00 -0.00 24.0 377
- 119 08:36:09 191 187
- 3 128 0 0; O -0.00 0.00 -0.00 24.0 377
- 120 08:36:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 377
- 121 08:36:19 191 187 + 3 128 0 'O O -0.00 0.00 -0.00 24.0 377
- 122 08:36:24 191 187
- 3 128 0 e0 0 0.00 0.00 -0.00 24.0 377
- 123 08:36:29 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 377 +
124 08:36:34 191 187
- 3 128 0 ,-0 0 -0.00 0.00 -0.00 24.0 377
- 125 08:36:39 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 :24.0 377
- 126 08:36:44 191 187
- 3 128 0. 0 0 -0.00 0.00 -0.00 24.0 376
- 127 08:36:49 191 187
- 3 128 0- 0 0 0.00 0.00 -0.00 24.0 377
- 120 08:36:54 191 187
- 3 128 6 0 0 0.00 0.00 -0.00 24.0 376
- 129 08:36:59 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 376
- 130 08:37:04 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 377 e 131 08:37:09 191 187
- 3 128 .
0 0 0 0.00 0.00 0.00 24.0 377 e 132 08:37:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 376
- 133 08:37:19 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 376
- 134 08:37:24 191 187
- 3 128 ' O O O -0.00 0.00 -0.00 24.0 377
- 135 08:37:29 191 187
- 3 124 0 0 0 0.00 0.00 0.00 24.0 376
- 136 08:37:34 191 187
- 3 118 0 0 0 0.00 0.00 -0.00 24.0 376 +
137 08:37:39 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 376
- 3 122 0.00 0.00 0.00 24.0 377
- O 138 08:37:44 191 187 0 0 0 139 08:37:49 191 187
- 3 124 0 0 0 0.00 0.00 0.00 24.0 376
- 140 08:37:54 191 187
- 3 118 0 0 0 -0.00 0.00 -0.00 24.0 376 e 141 08:37:59 191 187
- 3 123 0 0 0 0.00 0.00 -0.00 24.0 376
- 142 08:38:04 191 187
- 3 117 0 0 0 -0.00 0.00 -0.00 24.0 377
- 143 08:38:09 191 187 + 3 123 0 0 0 -0.00 0.00 -0.00 24.0 376
- 144 08:38:14 191 187
- 3 125 0 0 0 -0.00 0.00 0.00 24.0 376
- 145 08:38:19 191 187
- 3 121 0 0 0 0.00 0.00 -0.00 24.0 377 +
146 08:38:24 191 187
- 3 117 0 0 0 -0.00 0.00 -0.00 24.0 377 *
, 147 08:38:29 191 187
- 3 119 0 0 0 -0.00 0.00 -0.00 24.0 376
- 148 08:38:34 191 187
- 3 116 0 0 0 0.00 0.00 -0.00 24.0 376 e 149 08:38:39 191 187
- 3 119 0 0 0 0.00 0.00 -0.00 24.0 376
- 150 08:38:44 191 187 * ,
3 115 0 0 0 -0.00 0.00 -0.00 24.0 376
- 151 08:38:49 191 187
- 3 121 0 0 0 0.00 0.00 -0.00 24.0 376 +
152 08:38:54 191 187
- 3 122 0 0 0 -0.00 0.00 -0.00 24.0 376
- 4 O
, A-9 9
c CRDTEST.203 DATE 01-21-1986 PAGE 1 88 /* /C
- SCAN TIME RSS DV-PDS SWITCHES ----------------- TEMPERATURES ----------------
(HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. fN 1 08:26:19 -0.4 0.07 66 300 2B0 290/ 267 290 726 ( 2 08:26: 24 -0.4 0.12 67 300 278 2891 269 291 725 3 08:26:29 -0.4 0.10 66 301 279 288/ 269 289 725 4 08:26:34 -0.4 0.11 66 301 278 289/ 270 290 725 5 08:26:39 -0.4 0.11 66 299 278 289/ 269 291 725 6 OP:26:44 -0.4 0.11 67 300 279 290/ 270 291 726 7 08:26: 49 -0.4 0.09 66 301 279 288/ 269 289 726 8 08:26:54 -0.4 0.10 66 301 278 288/ 270 290 727 9 08:26:59 -0.4 0.10 66 300 278 288/ 270 289 727 to 08:27:04 -0.4 0.07 65 301 280 289/ 267 289 727 11 08:27:09 -0.4 0.08 65 301 280 288/ 267 288 727 12 08:27:14 -0.4 0.08 65 301 280 288/ 268 288 727 13 08:27:19 -0.4 0.07 65 300 280 290/ 267 289 726 14 08:27:24 -0.4 0.07 65 301 280 289/ 267 288 728 15 08:27:29 -0.4 0.08 66 302 2B0 288/ 268 288 728 16 08:27:34 -0.4 0.08 66 301 280 289/ 268 288 728 17 08:27:39 -0.4 0.06 66 299 280 289/ 267 289 727 18 08:27:44 -0.4 0.07 65 298 280 289/ 267 288 727 19 08:27:49 -0.4 0.07 66 298 280 289/ 268 289 726 20 08:27:54 -0.4 0.09 66 298 279 288/ 269 289 726 21 08:27:59 -0.4 0.07 66 298 280 289/ 267 289 726 22 08:2B:04 -0.4 0.07 65 298 280 289/ 267 289 726 23 08:28:09 -0.4 0.08 66 298 280 288/ 268 289 725 24 08:28:14 -0.4 0.07 66 297 280 290/ 267 290 725 25 08:28:19 -0.4 0.07 65 297 280 289/ 267 289 723 26 08:28:24 -0.4 0.09 66 298 280 289/ 268 289 723 27 08:28:29 -0.4 0.09 66 297 279 288/ 269 289 724 t) 28 08:28:34 -0.4 0.07 66 297 280 289/ 267 290 724 \/ 29 08:28:39 -0.4 0.08 66 298 280 289/ 267 289 724 30 08:28:44 -0.4 0.08 66 297 279 289/ 268 290 724 31 08:28: 49 -0.4 0.10 67 296 278 289/ 269 291 725 32 08:28:54 -0.4 0.07 65 297 279 288/ 267 289 725 33 08:28:59 -0.4 0.08 66 298 279 289/ 268 290 725 34 08:29:04 -0.4 0.07 66 296 280 290/ 267 291 725 35 08:29:09 -0.4 0.07 66 297 280 290/ 267 291 725 36 08:29:14 -0.4 0.09 66 298 279 289/ 268 290 726 37 08:29:19 -0.4 0.09 66 297 278 288/ 269 291 723 38 08:29:24 -0.4 0.07 66 297 280 289/ 267 290 724 39 08:29:29 -0.4 0.09 66 297 279 288/ 268 291 724 40 08:29:34 -0.4 0.11 67 296 278 289/ 270 293 725 41 08:29: 39 -0.4 0.11 67 295 278 290/ 269 293 724 42 08:29:44 -0.4 0.10 66 297 278 289/ 269 291 725 43 08:29:49 -0.4 0.10 67 298 278 289/ 270 292 724 44 08:29:54 -0.4 0.11 67 29B 27o 290/ 269 293 723 45 08:29:59 -0.4 0.10 67 299 279 291/ 268 293 723 46 08:30:04 -0.4 0.10 66 300 278 289/ 269 292 722 47 08:30:09 -0.4 0.11 68 300 278 290/ 269 293 723 48 08:30:14 -0.4 0.10 67 299 278 291/ 269 294 724 49 08:30:19 -0.4 0.10 67 300 278 289/ 270 293 723 50 08:30:24 -0.4 0.10 67 300 278 291/ 270 294 724 51 08:30:29 -0.4 0.10 67 299 278 291/ 269 294 724 52 08:30:34 -0.4 0.08 66 297 279 291/ 267 293 724 53 08:30:39 -0.4 0.10 67 298 278 290/ 270 293 725 54 08:30:44 -0.4 0.10 67 296 279 291/ 268 294 725 55 08:30:49 -0.4 0.08 66 296 279 291/ 267 293 725 [')) A. A-10
c CRDTEST.203 DATE 01-21-1986 PABE 2 SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR D.V. 56 08:30:54 -0.4 0.07 66 296 280 291/ 267 293 726 O' 57 08:30:59 -0.4 0.10 66 295 278 291/ 268 294 725 58 08:31:04 -0.4 0.09 67 295 279 291/ 268 295 726 59 08:31:09 -0.4 0.11 67 296 278 290/ 270 294 725 60 08:31:14 -0.4 0.10 67 296 278 291/ 269 295 724 61 08:31:19 -0.4 0.10 67 296 279 291/ 268 295 724 62 08:31:24 -0.4 0.07 66 296 280 290/ 267 294 '23
/
63 00:31:29 -0.4 0.10 67 295 278 290/ 269 295 723 64 08:31:34 -0.4 0.10 66 276 279 290/ 268 295 723 65 08:31:39 -0.4 0.07 66 296 279 291/ 267 294 723 66 0B:31: 44 -0.4 0.07 65 297 280 290/ 267 293 723 67 08:31:49 -0.4 0.07 66 295 279 291/ 267 295 723 68 08:31:54 -0.4 0.07 66 296 280 290/ 267 294 723 69 08:31:59 -0.4 0.07 65 297 280 289/ 267 293 724 70 08:32:04 -0.4 0.09 67 295 279 291/ 268 296 723 71 08:32:09 -0.4 0.07 66 296 280 291/ 267 296 723 72 0B:32:14 -0.4 0.07 65 296 280 290/ 267 294 724 73 08:32:19 -0.4 0.09 67 295 279 291/ 268 296 722 74 08:32:24 -0.4 0.07 65 296 280 290/ 267 295 723 75 08:32:29 -0.4 0.07 65 297 280 289/ 267 294 724 76 08:32:34 -0.4 0.08 65 298 280 288/ 268 293 723 77 08:32:39 -0.4 0.10 66 298 279 289/ 269 294 723 78 08:32: 44 -0.4 0.07 65 29B 280 288/ 267 294 724 79 08:32:49 -0.4 0.09 66 297 279 288/ 269 294 722 80 08:32:54 -0.4 0.11 67 297 278 289/ 270 296 723 81 08:32:59 -0.4 0.11 68 296 278 290/ 270 297 724 . 82 08:33:04 -0.4 0.09 65 298 279 288/ 269 294 723 I'~) B3 08:33:09 -0.4 0.10 66 297 278 289/ 270 296 722 84 08:33:14 -0.5 0.09 66 298 280 288/ 268 295 723 85 08:33:19 -0.4 0.10 66 298 279 288/ 269 295 722 86 08:33:24 -0.4 0.10 66 297 278 289/ 270 296 722 87 '08:33:29 -0.5 0.07 66 297 280 289/ 267 296 723 88 08:33:34 -0.4 0.09 65 299 279 289/ 268 295 722 89 08:33:39 -0.4 0.11 67 299 279 289/ 270 297 723 90 08:33:44 -0.4 0.10 67 299 278 290/ 270 298 724 91 08:33:49 -0.4 0.11 67 299 278 291/ 269 299 723 92 08:33:54 -0.4 0.10 66 300 278 289/ 270 297 723 93 08:33:59 -0.4 0.10 67 299 278 291/ 269 299 724 94 08:34:04 -0.4 0.10 67 299 278 291/ 269 298 723 95 08:34:09 -0.4 0.10 67 300 278 - 289/ 269 297 723 96 08:34:14 -0.4 0.11 68 300 278 291/ 270 298 723 97 08:34:19 -0.4 0.10 67 299 279 291/ 268 298 724 98 08:34:24 -0.4 0.09 67 300 280 291/ 267 297 724 99 08:34:29 -0.4 0.11 67 300 278 290/ 270 298 723 100 08:34:34 -0.4 0.10 67 299 278 291/ 268 298 724 101 08:34:39 -0.4 0.07 66 301 280 289/ 268 295 725 102 08:34:44 -0.4 0.08 66 299 279 290/ 267 296 721 103 08:34:49 -0.4 0.10 67 299 279 291/ 268 298 721 104 08:34:54 -0.4 0.09 67 299 279 291/ 268 297 722 105 08:34:59 -0.4 0.09 66 299 279 291/ 268 297 723 106 08:35:04 -0.4 0.11 67 300 278 290/ 270 296 721 107 08:35:09 -0.4 0.10 67 300 278 290/ 269 297 721 108 08:35:14 -0.4 0.10 67 299 279 291/ 268 297 723 109 08:35:19 -0.4 0.10 67 300 278 289/ 270 296 723 () fs 110 08:35:24 -0.4 0.10 67 300 278 290/ 270 296 722 A-11
c CRDTEST.203 DATE 01-21-1986 PAGE 3 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-!N He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. /~N til 08:35:29 -0.4 0.11 67 300 278 290/ 269 297 724 \_- 112 08:35:34 -0.3 0.11 66 300 279 291/ 269 297 724 113 08:35:39 -0.4 0.10 67 301 278 289/ 270 296 724 114 08:35: 44 -0.4 0.11 67 299 278 290/ 269 296 725 115 08:35:49 -0.4 0.11 68 300 278 290/ 270 296 725 116 08:35:54 -0.4 0.10 67 299 279 291/ 269 296 726 117 08:35:59 -0.4 0.10 67 300 278 289/ 270 295 725 118 08:36:04 -0.4 0.10 67 300 279 289/ 270 294 725 119 08:36:09 -0.4 0.10 67 301 278 289/ 270 295 723 120 08:36:14 -0.4 0.08 66 301 280 289/ 268 293 724 121 08:36:19 -0.4 0.10 66 301 278 289/ 269 294 723 122 08:36:24 -0.4 0.11 67 300 279 290/ 270 295 723 123 08:36:29 -0.4 0.11 67 300 278 290/ 269 296 724 124 08:36: 34 -0.4 0.10 67 301 278 289/ 270 294 725 125 08:36: 39 -0.4 0.11 68 300 27B 290/ 270 296 725 126 08:36:44 -0.4 0.10 68 299 279 291/ 269 296 725 127 08:36:49 -0.4 0.10 67 299 279 291/ 268 296 723 128 08:36:54 -0.4 0.11 67 300 279 290/ 270 295 724 129 08:36:59 -0.4 0.10 67 299 278 291/ 268 296 725 130 08:37:04 -0.4 0.09 66 301 279 289/ 269 293 725 131 08:37:09 -0.4 0.10 67 301 279 289/ 270 294 724 132 08:37:14 -0.4 0.11 67 300 278 290/ 269 295 724 133 08:37:19 -0.4 0.11 6P 299 279 290/ 270 296 724 134 08:37:24 -0.4 0.09 66 301 279 289/ 269 293 724 135 08:37:29 -0.4 0.11 67 301 279 289/ 270 294 725 136 08:37:34 -0.4 0.11 67 300 279 290/ 269 295 724 137 08:37:39 -0.4 0.10 67 299 279 291/ 269 295 724
) 138 08:37:44 -0.4 0.10 67 301 278 289/ 269 294 722
['\-2 139 08:37: 49 -0.4 0.11 67 300 278 290/ 270 294 723 140 08:37:54 -0.4 0.11 67 299 279 291/ 269 295 724 141 08:37:59 -0.4 0.10 67 299 279 291/ 269 295 724 142 08:38:04 -0.4 0.10 66 301 279 289/ 269 293 724 143 08:38:09 -0.4 0.10 66 301 278 289/ 269 293 725 144 08:38:14 -0.4 0.10 67 301 278 289/ 270 293 725 145 08:38:19 -0.4 0.08 66 301 280 289/ 268 292 724 146 08:38:24 -0.4 0.08 65 302 279 289/ 268 292 722 147 08:38:29 -0.4 0.09 66 301 279 289/ 269 293 721 148 08:38:34 -0.4 0.10 66 301 279 289/ 269 293 722 149 08:38:39 -0.4 0.07 65 301 280 289/ 267 291 720 150 08:38:44 -0.4 0.07 66 301 280 289/ 268 291 720 151 08:38:49 -0.4 0.08 65 301 279 289/ 268 291 720 152 08:38:54 -0.4 0.09 66 301 279 289/ 269 292 720 O A-12
NOTES TO TABULATION .
- t. THIS PROGRAM IS FOR FILE NUMBERS 27 ON...
- 2. CRD FREQUENCY READINGS ARE VALID ONLY WHEN VOLTA 6E IS APPLIED
- 3. OPEN THERM 0CDUPLES READ -999
- 4. DATA FOR VOLTABE, CURRENT, FRED, POWER MAY OR MAY NOT BE AVAILABLE DURIN6 A SCRAM (DUE TO BACK-EMF MEASUREMENT...SEE LOG)
- 5. POWER RECORDED IS SYSTEM POWER AND INCLUDES APPRDI 59.1 WATTS DRAWN BY TRANSDUCERS,FREQ &
VOLTAGE DROPPING RESISTORS...ETC. c CRDTEST.204 O J O j O A-13 s
, - - - . - - . - ,.-n - _ .,, _ , . _ _ . - . _ . . , , , , , ..-.-,,,.,,,,.,,.y-- . w,,, ,
c CRDTEST.208 DATE 01-21-1986 PABE 1 908813 / N/C SCAN TIME ROD PDSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS; N S DUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW ("N 1 08:39:41 191 187
- 3 126 0 0 0 0.00 0.00 -0.00 24.0 376 *
\_-) 2 08:39:42 191 187
- 3 121 0 0 0 0.00 0.00 -0.00 24.0 376
- 3 08:39:42 191 187
- 3 122 0 0 0 0.00 0.00 -0.00 24.0 376
- 4 08:39:43 191 197
- 3 119 0 -0 0 -0.00 0.00 -0.00 24.0 376
- 5 08:39:44 191 187 + 3 119 0 0 0 0.00 0.00 0.00 24.0 376
- 6 08:39: 44 191 187
- 3 117 0 0 0 -0.00 0.00 -0.00 24.0 376
- 7 08:39:45 191 187
- 3 121 0 0 0 -0.00 0.00 -0.00 24.0 376
- 8 08:39:45 191 187
- 3 119 0 0 0 0.00 0.00 -0.00 24.0 376
- 9 08:39:46 191 187 + 3 121 0 0 0 -0.00 0.00 -0.00 24.0 376
- 10 08:39:46 191 187
- 3 117 0 0 0 0.00 0.00 -0.00 24.0 376
- 11 08:39: 47 191 187 + 3 125 0 0 0 0.00 0.00 -0.00 24.0 376 +
12 08:39:48 191 187.
- 3 125 0 0 0 -0.00 0.00 -0.00 24.0 376 e 13 08:39:48 191 187
- 3 126 0 0 0 0.00 0.00 0.00 24.0 376
- 14 08:39:49 191 187
- 3 123 0 0 0 0.00 0.00 -0.00 24.0 376
- 15 08:39:49 191 187
- 3 120 0 0 0 -0.00 0.00 0.00 24.0 376
- 16 08:39:50 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 376
- 17 08:39:51 191 187
- 3 123 0 0 0 0.00 0.00 -0.00 24.0 376
- 18 08:39:51 191 187
- 3 121 0 0 0 -0.00 0.00 0.00 24.0 376
- 19 08:39:52 191 187 + 3 118 0 0 0 0.00 0.00 -0.00 24.0 376
- 20 08:39:52 191 187
- 3 116 0 0 0 -0.00 0.00 -0.00 24.0 376
- 21 08:39:53 191 187
- 3 119 0 0 0 0.00 0.00 -0.00 24.0 376
- 22 08:39:53 191 187
- 3 121 0 0 0 0.00 0.00 -0.00 24.0 375
- 23 08:39:54 191 187 + 3 125 0 0 0 -0.00 0.00 -0.00 24.0 376 +
24 08:39:55 191 187
- 3 124 0 0 0 -0.00 0.00 0.00 24.0 376
- 25 08:39:55 191 187
- 3 121 0 0 0 0.00 0.00 -0.00 24.0 376
- 26 08:39:56 191 187 + 3 121 0 0 0 -0.00 0.00 -0.00 24.0 376
- 27 08:39:56 191 187
- 3 123 0 0 0 0.00 0.00 -0.00 24.0 376 *
- 3 122 0 0.00 0.00 0.00 24.0 376 *
() \- 28 29 08:39:57 191 08:39:58 191 187 187
- 3 120 0
0 0 0 0 -0.00 0.00 -0.00 24.0 376
- 30 08:39: 58 191 187 + 3 120 0 0 0 0.00 0.00 -0.00 24.0 376
- 31 08:39:59 191 187
- 3 118 0 0 0 0.00 0.00 -0.00 24.0 376
- 32 08:39:59 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 376
- 33 08:40:00 191 187
- 3 122 0 0 0 -0.00 0.00 -0.00 24.0 376
- 34 08:40:01 191 187
- 3 118 0 0 0 0.00 0.00 -0.00 24.0 376
- 35 08:40:01 191 187
- 3 118 0 0 0 -0.00 0.00 0.00 24.0 376
- 36 08:40:02 191 187
- 3 121 0 0 0 0.00 0.00 -0.00 -0.0 -1
- 37 08:40:02 191 186
- 3 123 0 0 0 -0.00 0.00 -0.00 0.0 -1 38 08:40:03 190 186 3 93 0 0 0 -0.00 0.00 -0.00 0.0 -1 39 08:40:04 190 185 3 92 0 0 0 0.00 0.00 -0.00 0.0 -1 40 08:40:04 188 185 3 90 3 5 3 0.00 0.00 -0.00 0.0 -1 41 08:40:05 188 184 -3 84 70 69 68 0.13 0.19 0.18 0.0 -1 42 08:40:05 187 183 -3 79 77 78 76 0.14 0.21 0.20 0.1 -1 43 08:40:06 186 182 -3 77 69 70 68 0.12 0.19 0.19 0.0 -1 44 08:40:07 185 181 -3 77 70 71 69 0.13 0.19 0.19 0.1 -1 45 08:40:07 184 180 -3 77 72 72 70 0.13 0.19 0.19 0.0 -1 46 08:40:08 183 180 -3 77 70 71 69 0.12 0.19 0.18 0.1 -1 47 08:40:08 182 178 -3 77 71 71 69 0.12 0.19 0.18 0.0 -1 48 08:40:09 181 178 -3 77 72 72 70 0.13 0.19 0.19 0.1 -1 49 08:40:09 181 177 -3 77 71 71 69 0.13 0.19 0.19 0.0 -1 50 08: 40:10 179 176 -3 77 71 72 70 0.13 0.19 0.19 0.0 -1 51 08:40:11 179 175 -3 77 72 72 71 0.13 0.19 0.19 0.0 -1 52 08:40:11 178 174 -3 77 71 71 70 0.12 0.19 0.19 -0.0 -1 53 08:40:12 177 173 -3 77 71 71 70 0.12 0.19 0.18 0.0 -1 54 08:40:12 176 172 -3 77 70 71 69 0.12 0.19 0.18 0.0 -1 55 08:40:13 175 171 -3 77 70 70 69 0.12 0.19 0.18 -0.0 -1 (J) m.
A-14
c CRDTEST.204 DATE 01-21-198h PABE 2 g p , , SCAN TIME ROO POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW T 56 08:40:14 174 171 -3 77 70 71 69 0.13 0.19 0.19 0.0 -1 {s ms/ 57 08: 40:14 174 169 -3 77 71 71 69 0.13 0.19 0.19 0.0 -1 58 08:40:15 172 169 -3 77 72 72 70 0.13 0.19 0.19 0.0 -1 59 08:40:15 172 168 -3 77 72 72 70 0.13 0.19 0.19 0.0 -1 60 08:40:16 170 167 -3 77 72 72 70 0.13 0.19 0.19 0.0 -1 61 08:40:16 170 166 -3 77 70 70 69 0.12 0.19 0.18 0.0 -1 62 08:40:17 169 165 -3 77 72 72 70 0.13 0.19 0.19 0.0 -1 63 08:40:18 168 164 -3 77 71 71 69 0.13 0.19 0.19 0.0 -1 64 08:40:18 167 164 -3 77 70 71 69 0.12 0.19 0.19 0.0 -1 65 08:40:19 166 162 -3 78 71 72 70 0.13 0.19 0.19 0.0 -1 66 08:40:19 165 162 -3 78 70 72 69 0.13 0.19 0.19 0.1 -1 67 08:40:20 165 161 -3 77 71 71 70 0.12 0.19 0.19 -0.0 -1 68 08: 40:20 163 160 -3 77 71 71 70 0.13 0.19 0.19 0.0 -1 69 08:40:21 163 159 -3 77 71 71 70 0.13 0.19 0.19 0.0 -1 70 08:40: 22 162 158 -3 77 71 71 69 0.13 0.19 0.19 0.1 -1 71 08:40:22 161 157 -3 77 70 71 69 0.13 0.19 0.19 -0.0 -1 72 08:40:23 160 157 -3 77 70 71 69 0.13 0.19 0.19 0.1 -1 73 08:40:23 159 156 -3 77 70 71 69 0.12 0.19 0.19 0.0 -1 74 08:40:24 158 155 -3 77 70 70 69 0.12 0.19 0.18 -0.0 -1 75 08:40:25 157 154 -3 77 71 71 70 0.13 0.19 0.19 0.0 -1 76 08:40:25 156 153 -3 77 70 71 69 0.12 0.19 0.19 0.1 -1 77 08:40: 26 156 152 -3 77 71 71 69 0.12 0.19 0.18 0.0 -1 78 08:40:26 154 151 -3 77 71 71 70 0.13 0.19 0.18 0.0 -1 79 08:40:27 154 150 -3 77 70 71 69 0.13 0.19 0.18 0.0 -1 80 08:40:28 153 149 -3 77 71 71 69 0.13 0.19 0.19 0.0 -1 81 08:40:28 152 148 -3 77 69 70 68 0.12 0.19 0.18 0.0 -1 82 08:40:29 151 148 -3 78 71 71 69 0.12 0.19 0.19 -0.0 -1 83 08:40:29 150 146 -3 77 71 72 70 0.12 0.19 0.19 0.0 -1 O\ 84 08:40:30 149 146 -3 77 70 71 69 0.12 0.19 0.19 0.0 -1 85 08:40:31 149 145 -3 77 71 71 69 0.12 0.19 0.18 -0.0 -1 86 08:40:31 147 145 -3 77 70 70 69 0.12 0.19 0.18 0.0 -1 87 08: 40:32 147 143 -3 77 71 71 70 0.13 0.19 0.19 0.0 -1 88 08:40:32 146 143 -3 77 69 70 6B 0.12 0.19 0.19 0.0 -1 89 08:40:33 145 142 -3 77 69 71 68 0.12 0.19 0.18 0.1 -1 90 08:40:33 144 141 -3 77 71 71 69 0.12 0.19 0.19 -0.0 -1 91 08:40:34 144 140 -3 77 70 71 69 0.12 0.19 0.18 0.0 -1 92 08: 40:35 142 139 -3 77 71 71 69 0.12 0.19 0.18 0.0 -1 93 08:40:35 142 138 -3 77 71 71 69 0.13 0.19 0.18 0.0 -1 94 08:40:36 140 137 -3 77 71 71 69 0.12 0.19 0.18 0.0 -1 95 08:40:36 140 136 -3 77 71 71 69 0.12 0.19 0.18 0.0 -1 96 08:40:37 139 136 -3 77 70 70 69 0.12 0.19 0.18 -0.0 -1 97 08:40:38 138 135 -3 77 70 71 69 0.13 0.19 0.19 0.1 -1 98 0B:40:38 137 134 -3 77 69 70 68 0.12 0.19 0.19 -0.0 -1 99 08:40:39 137 133 -3 78 69 70 68 0.12 0.18 0.18 0.0 -1 100 08:40:39 135 132 -3 77 70 71 69 0.12 0.19 0.19 -0.0 -1 101 08:40:40 135 131 -3 77 71 71 69 0.12 0.19 0.18 0.0 -1 102 08: 40:40 134 130 -3 77 70 70 69 0.13 0.19 0.18 0.0 -1 103 08:40:41 133 130 -3 77 70 70 69 0.13 0.19 0.18 0.0 -1 104 08:40:42 132 129 -3 77 70 70 69 0.13 0.19 0.19 -0.0 -1 105 08:40:42 131 128 -3 77 69 70 68 0.12 0.18 0.18 0.0 -1 106 08:40:43 130 127 -3 77 69 70 68 0.12 0.19 0.19 -0.0 -1 107 08:40:43 129 126 -3 77 70 71 69 0.12 0.19 0.19 0.0 -1 108 08:40:44 129 125 -3 77 70 70 69 0.12 0.19 0.18 -0.0 -1 109 08:40:44 127 125 -3 77 70 70 69 0.12 0.19 0.18 0.0 -1
-3 0.1 -1
() 110 08:40:45 127 124 77 70 70 69 0.13 0.19 0.18 A-15
c CRDTEST.204 DATE 01-21-1986 PAGE 3 908813 / N/C SCAN TIME ROD FOSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS sADC SW r~' 111 08:40:46 126 122 -3 77 69 70 68 0.12 0.19 0.19 0.0 -1 (m,)g 112 08:40:46 125 122 -3 77 70 71 69 0.13 0.19 0.19 0.0 -1 a 113 08:40:47 124 121 -3 78 70 70 69 0.12 0.19 0.18 0.0 -1 114 08:40:48 123 120 -3 77 70 70 69 0.13 0.19 0.18 0.0 -1 115 08:40:48 122 119 -3 77 70 71 69 0.13 0.19 0.19 0.0 -1 116 08: 40:49 122 118 -3 77 69 70 68 0.12 0.18 0.18 0.0 -1 117 08:40:49 120 118 -3 77 69 70 68 0.12 0. fB 0.18 0.0 -1 110 08:40:50 120 116 -3 77 69 69 68 0.12 0.18 0.18 0. 0~ -1 119 08:40:50 119 116 -3 77 70 70 69 0.12 0.19 0.18 -0.0 -1 120 08:40:51 118 115 -3 77 70 70 69 0.13 0.19 0.18 0.0 -1 121 08:40:52 117 114 -3 77 69 70 68 0.12 0.19 0.19 -0.0 -1 122 08: 40:52 117 113 -3 77 69 70 68 0.12 0.19 0.18 0.1 -1 123 08:40:53 116 112 -3 77 69 70 68 0.12 0.19 0.18 -0.0 -1 124 08:40:53 115 112 -3 77 69 70 68 0.12 0.18 0.18 0.0 -1 125 08:40:54 114 110 -3 77 70 70 69 0.13 0.19 0.18 0.0 -1 126 08: 40:55 113 110 -3 77 70 70 68 0.13 0.19 0.19 0.1 -1 127 08:40:55 112 109 -3 77 69 70 68 0.12 0.18 0.18 0.0 -1 128 08:40:56 111 108 -3 78 69 70 68 0.12 0.19 0.18 -0.0 -1 129 08:40:56 111 107 -3 77 70 70 68 0.12 0.19 0.18 0.0 -1 130 08:40:57 110 106 -3 77 70 70 68 0.12 0.19 0.18 -0.0 -1 131 08:40:57 109 106 -3 77 69 70 68 0.12 0.18 0.18 0.0 -1 132 08:40:58 108 105 -3 77 69 70 68 0.12 0.19 0.19 -0.0 -1 133 08:40:59 107 104 -3 78 69 70 68 0.12 0.18 0.18 0.0 -1 134 08:40:59 106 103 -3 77 70 70 68 0.12 0.19 0.18 -0.0 -1 135 08:41:00 105 102 -3 77 69 69 68 0.12 0.18 0.18 0.0 -1 136 08:41:00 105 101 -3 77 70 69 68 0.12 0.19 0.18 0.0 -1 137 08: 41:01 104 101 -3 77 70 70 68 0.12 0.19 0.18 0.0 -1 138 08:41:02 103 100 -3 77 69 69 67 0.12 0.18 0.18 0.0 -1
.]
m- 139 08:41:02 102 99 -3 77 70 70 68 0.12 0.19 0.19 0.1 -1 140 08:41:03 101 98 -3 77 69 70 68 0.12 0.19 0.18 -0.0 -1 141 08:41:03 100 98 -3 77 68 69 67 0.12 0.18 0.18 0.0 -1 142 08:41:04 100 96 -3 77 69 70 68 0.12 0.19 0.18 0.0 -1 143 08:41:05 99 96 -3 77 69 69 68 0.12 0.18 0.18 0.0 -1 144 08:41:05 98 95 -3 77 70 70 68 0.12 0.19 0.18 0.0 -1 145 08:41:06 97 94 -3 77 69 69 68 0.12 0.18 0.10 0.0 -1 146 08:41:06 96 93 -3 77 69 70 68 0.12 0.19 0.18 0.0 -1 147 08:41:07 95 92 -3 77 69 69 67 0.12 0.18 0.18 0.1 -1 148 08:41:08 95 91 -3 77 69 69 67 0.12 0.18 0.18 -0.0 -1 149 08:41:08 93 91 -3 77 69 69 68 0.12 0.19 0.18 0.0 -1 150 08:41:09 93 90 -3 77 69 70 68 0.12 0.18 0.18 0.0 -1 151 08:41:09 92 89 -3 77 70 69 68 0.12 0.19 0.18 -0.0 -1 152 08:41:10 91 88 -3 77 69 69 67 0.12 0.18 0.18 0.1 -1 153 OB:41:11 90 87 -3 77 68 69 67 0.12 0.18 0.18 -0.0 -1 154 08:41:11 89 87 -3 77 68 69 67 0.12 0.18 0.18 0.1 -1 155 08:41:12 89 86 -3 77 67 68 66 0.12 0.18 0.18 0.0 -1 156 08:41:12 88 85 -3 77 68 69 67 0.12 0.18 0.18 0.1 -1 157 08:41:13 87 84 -3 77 70 70 68 0.12 0.19 0.18 0.0 -1 158 08:41:13 86 83 -3 77 69 69 68 0.12 0.18 0.18 0.0 -1 159 08:41:14 85 82 -3 77 68 69 67 0.12 0.18 0.18 0.0 -1 160 08:41:15 84 82 -3 78 69 70 68 0.12 0.19 0.19 -0.0 -1 161 08:41:15 84 81 -3 77 68 69 67 0.12 0.18 0.18 0.0 -1 162 08:41:16 83 80 -3 77 69 69 68 0.12 0.18 0.18 -0.0 -1 163 08:41:16 82 79 -3 77 68 69 67 0.12 0.18 0.18 0.0 -1 164 08:41:17 81 78 -3 77 69 69 68 0.12 0.19 0.18 -0.0 -1 165 08: 41:18 81 78 -3 77 69 69 68 0.12 0.18 0.18 0.1 -1 (} A-16
c CRD1EST.204 DATE 01-21-1986 PA8E 4 88 3 / N/C SCAN TIME ROD POSN SWITCH PWR FRED VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW 166 08:41:18 80 77 -3 77 68 69 67 0.12 0.18 0.18 -0.0 -1 (~N 167 08:41:19 79 76 -3 77 68 70 67 0.12 0.18 0.18 0.1 -1 ( 168 08:41:19 78 75 -3 77 68 69 67 0.12 0.18 0.18 -0.0 -1 169 08:41:20 77 75 -3 78 68 69 67 0.12 0.1B 0.18 0.0 -1 170 08:41:20 76 73 -3 77 68 69 67 0.12 0.18 0.18 0.0 -1 171 08:41:21 75 73 -3 77 68 68 67 0.12 0.18 0.18 0.0 -1 172 08:41:22 75 72 -3 77 67 68 66 0.12 0.1B 0.18 -0.0 -1 173 08:41:22 74 71 -3 77 67 68 66 0.12 0.18 0.18 0.0 -1 174 08:41:23 73 70 -3 77 70 70 68 0.12 0.19 0.18 -0.0 -1 175 08: 41:23 72 70 -3 77 69 69 68 0.12 0.18 0.18 0.0 -1 176 08:41: 24 72 69 -3 77 68 69 67 0.12 0.18 0.18 0.0 -1 177 02:41:25 70 68 -3 77 68 6B 67 0.12 0.18 0.18 0.0 -1 178 08:41:25 70 67 -3 77 68 69 67 0.12 0.18 0.18 0.1 -1 179 08:41:26 69 66 -3 77 68 69 67 0.12 0.18 0.18 -0.0 -1 180 08:41:26 68 66 -3 77 68 68 66 0.12 0.18 0.18 0.1 -1 181 08: 41:27 67 65 -3 77 68 68 67 0.12 0.18 0.18 0.0 -1 182 08:41:27 67 64 -3 77 68 68 67 0.12 0.18 0.18 0.1 -1 183 08:41:28 66 63 -3 77 68 68 66 0.12 0.18 0.18 0.0 -1 184 08:41:29 65 62 -3 77 69 69 68 0.12 0.18 0.18 0.0 -1 185 08:41:29 64 61 -3 77 69 69 67 0.12 0.18 0.18 0.0 -1 186 08:41:30 63 61 -3 77 68 69 67 0.12 0.18 0.18 0.0 -1 187 08:41:31 63 60 -3 77 68 69 67 0.12 0.18 0.18 0.0 -1 188 08:41:31 61 59 -3 77 67 68 66 0.12 0.18 0.18 0.0 -1 189 08:41:32 61 58 -3 77 67 69 66 0.12 0.18 0.18 0.0 -1 190 08:41:32 60 57 -3 77 67 68 66 0.12 0.18 0.18 0.0 -1 191 -08:41:33 59 56 -3 77 68 68 66 0.12 0.18 0.18 0.0 -1 192 08: 41:33 58 56 -3 77 68 68 67 0.12 0.18 0.18 0.0 -1 FN 193 08:41:34 58 55 -3 76 68 68 67 0.12 0.18 0.18 0.0 -1 vs 194 08:41: 35 57 54 -3 77 68 68 67 0.12 0.18 0.18 -0.0 -1 195 08: 41:35 56 53 -3 77 68 69 67 0.12 0.18 0.1B 0.1 -1 196 08:41:36 55 52 -3 77 67 68 66 0.12 0.18 0.18 -0.0 -1 197 08:41:37 53 51 -3 77 67 68 66 0.12 0.18 0.18 0.0 -1 198 08:41:38 53 50 -3 77 67 68 66 0.12 0.18 0.18 0.0 -1 199 08: 41:38 51 49 -3 77 68 68 67 0.12 0.18 0.18 0.0 -1 200 08:41:39 51 4B -3 77 68 68 67 0.12 0.18 0.18 0.1 -1 201 08:41:40 50 47 -3 77 68 67 66 0.12 0.18 0.18 -0.0 -1 202 08:4,1:40 49 47 -3 77 68 68 66 0.12 0.18 0.10 0.1 -1 203 08:41:41 49 46 -3 77 67 68 66 0.12 0.18 0.18 -0.0 -1 204 08:41:41 48 45 -3 77 66 67 65 0.12 0.18 0.18 0.1 -1 205 08: 41:42 47 44 -3 77 67 68 66 0.12 0.18 0.18 -0.0 -1 206 08: 41:42 46 44 -3 77 68 69 67 0.12 0.18 0.18 0.1 -1 207 08:41:43 46 43 -3 77 68 68 66 0.12 0.18 0.18 -0.0 -1 208 08:41:44 45 42 -3 77 68 68 67 0.12 0.18 0.18 0.0 -1 209 08: 41:44 44 41 -3 77 68 68 66 0.12 0.18 0.18 0.0 -1 210 08:41:45 43 41 -3 77 67 67 66 0.12 0.18 0.18 0.0 -1 211 08:41:45 42 40 -3 77 68 69 67 0.12 0.18 0.18 0.0 -1 212 08:41:46 41 39 -3 77 67 68 66 0.12 0.18 0.18 0.0 -1 213 08:41:47 41 38 -3 77 67 68 66 0.12 0.18 0.18 -0.0 -1 214 08:41:47 40 38 -3 77 68 68 67 0.12 0.18 0.18 0.0 -1 215 08:41:48 39 37 #-3 76 68 68 66 0.12 0.18 0.17 0.0 -1 216 08:41:48 38 36 -3 77 67 67 66 0.12 0.18 0.18 0.0 -1 217 08:41:49 38 35 -3 76 67 67 66 0.12 0.18 0.17 0.1 -1 218 08:41:49 37 34 -3 77 67 67 66 0.12 0.18 0.18 0.0 -1 219 08:41:50 36 34 -3 77 67 68 66 0.12 0.18 0.18 0.0 -1 220 08:41:51 35 33 -3 77 67 67 66 0.12 0.18 0.18 0.0 -1 (V'T A-17
c CRDTEST.204 DATE 01-21-1986, PABE 5 j SCAN TIME ROD POSN SWITCH PWR FRED VOLTS AMPS ----BRAKE---- (HRS) N S DUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mALC SW (~N 221 08:41:51 35 32 -3 77 67 68 66 0.12 0.18 0.17 0.0 -1 (m,) 222 08:41:52 33 31 -3 77 67 67 66 0.12 0.18 0.18 0.0 -1 223 08:41:53 33 30 -3 77 67 67 65 0.12 0.18 0.18 0.1 -1 224 08:41:53 32 30 -3 77 67 68 66 0.12 0.18 0.18 0.0 -1 225 08:41:54 31 29 -3 77 67 68 66 0.12 0.18 0.18 0.0 -1 226 08:41:54 30 28 -3 77 66 67 65 0.12 0.18 0.18 -0.0 -1 227 08:41:55 30 27 -3 77 67 68 65 0.12 0.18 0.18 0.1 -1 228 08:41:55 29 26 -3 76 67 67 65 0.12 0.18 0.17 0.0 -1 229 08: 41:56 28 26 -3 78 67 67 65 0.12 0.18 0.17 0.0 -1 230 08:41:57 27 25 -3 77 67 67 66 0.12 .0.18 0.17 -0.0 -1 231 08:41:57 27 24 -3 77 68 68 66 0.12 0.18 0.17 0.0 -1 232 0'3:41:58 26 23 -3 77 67 68 66 0.12 0.18 0.18 -0.0 -1 233 08:41:58 25 23 -3 77 67 67 66 0.12 0.18 0.18 0.0 -1 234 08: 41:59 24 22 -3 77 67 67 66 0.12 0.18 0.18 -0.0 -1 235 08: 41:59 23 21 -3 77 66 67 65 0.12 0.18 0.18 0.0 -1 236 08:42:00 23 20 -3 77 67 68 66 0.12 0.18 0.18 -0.0 -1 237 08:42:01 22 20 -3 77 66 66 65 0.11 0.18 0.17 0.0 -1 238 08:42:01 21 19 -3 77 66 66 65 0.11 0.18 0.17 -0.0 -1 239 08:42:02 20 18 -3 77 67 67 66 0.12 0.18 0.17 0.0 -1 240 08:42:03 20 17 -3 76 67 67 66 0.12 0.18 0.17 0.0 -1 241 08:42:03 19 17 -3 77' 67 67 66 0.12 0.18 0.17 0.0 -1 242 08:42:04 18 16 -3 76 67 67 66 0.12 0.18 0.17 0.0 -1 243 08:42:04 17 15 -3 77 67 67 66 0.12 0.18 0.18 0.0 -1 244 08:42:05 17 15 -3 77 66 67 65 0.12 0.18 0.17 0.0 -1 245 08:42:05 16 14 -3 77 66 67 65 0.12 0.18 0.18 0.2 -1 246 08:42:06 15 13 -3 77 66 67 65 0.12 0.18 0.18 0.0 -1 247 08:42:07 14 12 -3 77 66 67 64 0.12 0.18 0.18 0.0 -1 248 08:42:07 14 12 -3 77 67 68 66 0.12 0.18 0.18 0.0 -1 x- 249 08:42:08 13 11 -3 77 67 67 65 0.12 0.18 0.18 0.0 -1 250 08:42:08 12 10 -3 77 66 67 65 0.12 0.18 0.18 0.0 -1 251 08:42:09 11 9 -3 77 66 67 65 0.12 0.18 0.18 -0.0 -1 252 08:42:10 11 9 -3 77 65 66 64 0.12 0.18 0.17 0.0 -1 253 08:42:10 to 8 -3 77 66 67 65 0.12 0.18 0.18 0.0 -1 254 08:42:11 9 7 -3 77 65 66 64 0.12 0.18 0.17 0.0 -1 255 08:42:11 8 6 -3 77 65 66 64 0.12 0.17 0.17 0.0 -1 256 08:42:12 0 5 -3 77 65 66 64 0.12 0.18 0.17 0.0 -1 257 08:42:13 7 5 -3 77 64 65 63 0.11 0.17 0.17 0.0 -1 258 08:42:13 6 4 -3 77 64 65 63 0.11 0.17 0.17 0.1 -1 259 08:42:14 5 3 -3 76 62 62 61 0.11 0.16 0.16 0.0 -1 260 08: 42:14 4 3 -3 76 59 59 58 0.10 0.16 0.15 0.1 -1 261 08:42:15 4 2 -3 78 55 55 54 0.10 0.14 0.14 0.0 -1 262 08:42:16 3 1 -2 77 48 49 47 0.09 0.13 0.13 0.1 -1 263 08:42:16 2 0 -1 76 41 42 41 0.07 0.11 0.11 -0.0 -1 264 08:42:17 1 -1 0 76 32 32 32 0.06 0.09 0.08 0.0 -1 265 06:42:17 1 -1 1 75 17 17 17 0.03 0.05 0.04 0.0 -1 266 08:42:18 0 -2
- 2 77 4 4 4 0.01 0.01 0.01 0.0 -1 267 08:42:15 -1 -3
- 3 100 0 0 1 0.00 0.01 0.00 0.0 -1 268 08:42:19 -1 -3
- 3 109 0 0 0 0.00 0.00 0.00 0.0 -1 269 08:42:20 -2 -3
- 3 117 0 0 0 0.00 0.00 0.00 0.0 -1 270 08:42:20 -2 -3
- 3 116 0 0 0 0.00 0.00 -0.00 0.0 -1 171 08:42:21 -3 -3
- 3 115 0 6 0 0.00 0.00 -0.00 0.1 -1 272 08:42:21 -2 -3
- 3 116 0 0 0 0.00 0.00 -0.00 0.1 -1 273 08: 42:22 -2 -3 + 3 110 0 0 0 0.00 0.00 0.00 -0.0 -1 274 08:42:23 -2 -3
- 3 112 0 0 0 0.00 0.00 0.00 0.0 -1
() 275 08:42:23 -1 -3
- 3 117 0 0 0 0.00 0.00 0.00 -0.0 -1 A-18
1 c CRDTEST 204 LATE 01-21-1986 PAGE 6 908813 / N/C SCAN TIME RDD FOSN SWITCH PWR FRED VOLTS AMPS ----BRAKE---- i (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW 276 08:42:24 -1 -3
- 3 120 0 0 0 0.00 0.00 0.00 0.1 -1 Of 277 08:42:25 -0 -2
-2 e
3 124 3 123 0 0 0 0 0 0.00 0.00 -0.00 0.00. 0.00 -0.00 0.0 0.0
-1
-1 278 08:42:25 -0 279 08:42:26 0 -1
- 3 118 0 0 0 0.00 0.00 -0.00 0.1 -1 280 08:42:26 1 -1 3 121 0 0 0 0.00 0.00 -0.00 0.1 -1 281 08:42:27 1 -0 3 120 0 0 0 0.00 0.00 -0.00 0.1 -1 282 08:42:28 1 0 3 122 0 0 0 0.00 0.00 -0.00 0.1 -1 283 08:42:28 2 0 3 122 0 0 0 0.00 0.00 -0.00 0.0 -1 284 08:42:29- 2 0 3 119 0 0 0 0.00 0.00 -0.00 0.1 -1 285 08:42:29 2 0 3 119 0 0 0 0.00 0.00 -0.00 0.0 -1 286 08:42:30 2 3 115 0 0 0 0.00 0.00 -0.00 0.0 -1 287 08:42:31 2 -0 3 111 0 0 0 0.00 0.00 -0.00 0.0 -1 28B 08:42:31 1 -0 3 111 0 0 0 0.00 0.00 -0.00 0.1 -1 289 08:42:32 1 -1 3 115 0 0 0 0.00 0.00 -0.00 0.0 -1 290 08:42:32 1 -1 3 118 0 0 0 -0.00 0.00 -0.00 0.0 -1 291 08:42:33 0 -1
- 3 124 0 0 0 0.00 0.00 -0.00 0.1 -1 292 ;08:42:34 0 -2
- 3 115 0 0 0 -0.00 0.00 0.00 -0.0 -1 293 08:42:34 -0 -2 e 3 113 0 0 0 0.00 0.00 -0.00 0.0 -1 294 08:42:35 -0 -2
- 3 119 0 0 0 0.00 0.00 -0.00 0.0 -1 295 08:42:36 -1 -2 e 3 117 0 0 0 0.00 0.00 -0.00 0.0 -1 296 08:42:36 -1 -3
- 3 119 0 0 0 0.00 0.00 -0.00 -0.0 -1 297 08:42:37 -1 -2 e 3 120 0 0 0 0.00 0.00 -0.00 0.0 -1 298 08:42:37 -1 -3
- 3 118 0 0 0 0.00 0.00 -0.00 -0.0 -1 299 08:42:38 -1 -2
- 3 120 0 0 0 0.00 0.00 -0.00 0.1 -1 300 08:42:39 -0 -2 + 3 117 0 0 0 0.00 0.00 -0.00- 0.0 -1 301 08:42:39 -0 -2
- 3 113 0 0 0 0.00 0.00 0.00 0.0 -1 302 08:42:40 -0 -2 + 3 118 0 0 0 0.00 0.00 -0.00 0.0 -1 303 08:42:40 0 -2
- 3 118 0 0 0 0.00 0.00 -0.00 -0.0 -1 I 304 08:42:41 0 -2
- 3 121 0 0 0 0.00 0.00 -0.00 0.0 -1 305 08:42:42 0 -2
- 3 118 0 0 0 0.00 0.00 -0.00 0.0 -1 306 08:42:42 0 -1
- 3 117 0 0 0 0.00 0.00 -0.00 0.0 -1 307 08:42:43 1 -1
- 3 118 0 0 0 -0.00 0.00 -0.00 -0.0 -1 308 08:42:43 1 -1 3 118 0 0 0 0.00 0.00 -0.00 0.0 -1 309 08:42:44 1 -1 3 115 0 0 0 0.00 0.00 -0.00 0.0 -1 310 08:42: 45 1 -1 3 117 0 0 0 0.00 0.00 -0.00 0.0 -1 311 08:42: 45 1 -1 3 118 0 0 0 0.00 0.00 -0.00 0.0 -1 312 08:42:46 1 -1 3 115 0 0 0 -0.00 0.00 -0.00 -0.0 -1 313 08:42:46 0 -1 3 115 0 0 0 0.00 0.00 -0.00 0.0 -1 314 08:42: 47 1 -1 3 115 0 0 0 0.00 0.00 -0.00 0.0 -1 315 08:42: 48 1 -1 3 114 0 0 0 -0.00 0.00 0.00 0.0 -1 316 08:42:48 0 -l
- 3 116 0 0 0 0.00 0.00 -0.00 0.1 -1 317 08:42:49 0 -1
- 3 114 0 0 0 0.00 0.00 0.00 0.0 -1 318 08:42:49 0 -1
- 3 114 0 0 0 0.00 0.00 -0.00 0.0 -1 319 08:42:50 0 -2
- 3 111 0 0 0 0.00 0.00 -0.00 -0.0 -1 320 08:42:51 0 -1
- 3 115 0 0 0 0.00 0.00 -0.00 0.1 -1 321 08:42:51 0 -2
- 3 119 0 0 0 0.00 0.00 -0.00 0.0 -1 322 08:42:52 0 -1
- 3 115 0 0 0 0.00 0.00 -0.00 0.0 -1 323 08:42:52 0 -1
- 3 119 0 0 0 0.00 0.00 -0.00 0.0 -1 324 08:42:53 0 -1
- 3 117 0 0 0 0.00 0.00 -0.00 0.1 -1 325 08:42:54 0 -2
- 3 119 0 0 0 -0.00 0.00 -0.00 -0.0 -1 326 08:42:54 0 -1
- 3 116 0 0 0 0.00 0.00 -0.00 0.0 -1 327 08:42:55 0 -1
- 3 114 0 0 0 0.00 0.00 -0.00 0.1 -1 328 08:42:55 0 -2 + 3 114 0 0 0 0.00 0.00 -0.00 0.0 -1 329 08:42:56 0 -1
- 3 117 0 0 0 0.00 0.00 -0.00 0.0 -1
() 330 08:42:57 0 -1
- 3 116 0 0 0 0.00 0.00 -0.00 0.1 -1 A-19
c CRDTEST.204 DATE 01-21-1986 PAGE 7 908813- / N/C SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 2 1 2 3 VOLTS mADC SW r~N 331 08: 42:57 0 -2 e 3 116 0 0 0 -0.00 0.00 0.00 -0.0 -1
\ 332 08:42:58 0 -1
- 3 114 0 0 0 0.00 0.00 -0.00 0.0 -1 333 08:42:59 0 -2
- 3 113 0 0 0 0.00 0.00 0.00 -0.0 -1 334- 08:42:59 0 -1
- 3 113 0 0 0 0.00 0.00 -0.00 0.1 -1 335 08:43:00 0 -2
- 3 117 0 0 0 0.00 0.00 -0.00 -0.0 -1 i
336 08:43:00 0 -1
- 3 114 0 0 0 0.00 0.00 -0.00 0.1 -1 337 08:43:01 0 -2
- 3 114 0 0 0 0.00 0.00 -0.00 0.0 -1 338- 08:43:02 0 -1
- 3 110 0 0 0 0.00 0.00 -0.00 0.1 -1 339 08:43:02 0 -2
- 3 112 0 0 0 0.00 0.00 -0.00 -0.0 -1 340 08:43:03 0 -1
- 3 117 0 0 0 0.00 0.00 -0.00 0.0 -1 341 08:43:03 0 -2
- 3 118 0 0 0 -0.00 0.00 0.00 0.0 -1 342 08:43:04 0 -1
- 3 114 0 0 0 0.00 0.00 -0.00 0.0 -1 343 08:43:05 0 -2 + 3 116 0 0 0 0.00 0.00 -0.00 0.0 -1 344 08:43:05 0 -2
- 3 117 0 0 0 0.00 0.00 -0.00 0.0 -1 345 08:43:06 0 -2
- 3 116 0 0 0 -0.00 0.00 0.00 0.0 -1 346 08:43:06 0 -1
- 3 120 0 0 0 0.00 0.00 -0.00 0.1 -1 347 08:43:07 0 -2
- 3 117 0 0 0 0.00 0.00 -0.00 0.0 -1 348 08:43:08 0 -1
- 3 116 0 0 0 0.00 0.00 -0.00 0.0 -1 349 08:43:08 0 -2 + 3 115 0 0 0 -0.00 0.00 -0.00 -0.0 -1 350 08:43:09 0 -1
- 3 114 0 0 0 0.00 0.00 -0.00 0.0 -1 351 08:43:09 0 -2 + 3 110 0 0 0 0.00 0.00 -0.00 0.0 -1 352 08:43:10 0 -1
- 3 118 0* 0 0 0.00 0.00 -0.00 0.0 -1 353 08:43:11 0 -1
- 3 114 0 0 0 0.00 0.00 -0.00 0.0 -1 354 08:43:11 0 -1
- 3 114 0 0 0 0.00 0.00 -0.00 0.0 -1 355 08:43:12 0 -1
- 3 111 0 0 0 0.00 0.00 -0.00 0.1 -1 356 08:43:12 0 -1
- 3 116 0 0 0 0.00 0.00 -0.00 0.0 -1 357 08:43:13 0 -2
- 3 111 0 0 0 0.00 0.00 -0.00 -0.0 -1
/ 358 08:43:14 0 -1
- 3 116 0 0 0 0.00 0.00 -0.00 0.0 -1
(-T / 359 08:43:14 0 -2
- 3 112 0 0 0 0.00 0.00 -0.00 0.0 -1 360 08:43:15 0 -2
- 3 115 0 0 0 -0.00 0.00 -0.00 -0.0 -1 361 08:43:15 0 -1
- 3 114 0 0 0 0.00 0.00 -0.00 0.0 -1 362 08:43:16 0 -2
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 382
- 363 08:43:17 0 -1
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 382 +
364 08:43:17 0 -1
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 365 08:43:18 0 -1 + 203 114 104 103 102 1.35 1.37 1.31 0.1 -1
- 366 08:43:19 1 -1 187 73 106 105 104 1.05 1.09 1.08 0.0 -0
- 367 08:43:19 2 -0 190 64 106 105 105 1.05 1.09 1.08 0.1 -1
- 360 08: 43:20 2 1 195 61 105 105 104 1.05 1.09 1.07 0.0 0
- 369 08:43:20 3 1 201 62 106 105 104 1.05 1.08 1.07 0.0 -0
- 370 08:43:21 4 2 206 61 105 105 104 1.05 1.09 1.07 0.0 -0
- 371 08:43:22 4 2 211 61 106 105 104 1.05 1.09 1.07 -0.0 0
- 372 08:43:22 5 3 216 60 106 105 105 1.05 1.09 1.07 v.1 -1
- 373 08:43:23 5 4 220 60 106 105 104 1.05 1.09 1.07 0.0 -0
- 374 08:43:23 6 4 222 60 105 105 105 1.05 1.09 1.07 0.1 -1
- 375 08:43:24 6 5 224 60 106 105 104 1.05 1.09 1.07 0.0 -0 e 376 08:43:25 7 5 226 60 105 105 104 1.05 1.09 1.07 0.1 -1
- 377 08:43:25 8 6 227 62 106 104 104 1.05 1.08 1.07 0.0 -0
- 378 08:43:26 8 6 228 60 105 105 105 1.05, 1.09 1.07 0.1 -1
- 9 228 60 106 105 104 1.05 1.09 1.07 0.0 -0 *
.379 08:43:26 7 380 08: 43:27 10 7 229 60 105 105 104 1.05 1.09 1.07 0.1 -1
- 381 08:43:28 10 8 229 60 105 105 104 1.05 1.09 1.07 0.0 -0 +
382 08: 43:28 11 9 229 60 105 105 104 1.05 1.09 1.07 0.1 -1
- 383 08:43:29 11 9 229 60 105 105 104 1.05 1.09 1.07 0.0 -0
- 384 08: 43:29 12 10 229 60 105 105 104 1.05 1.09 1.07 0.1 -1
- l
() 385 08:43:30 12 10 229 60 105 105 104 1.05 1.09 1.07 0.1 -0 *
- A-20
c CRDTEST.204 DATE 01-21-1986 PABE 8 gg 3 j j SCAN TIME ROD POSN SWITCH PWR FRED VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW T 386 08:43:31 13 11 229 60 105 105 105 1.05 1.09 1.07 0.1 -1 * . ) 387 08: 43:31 14 11 229 60 105 105 104 1.05 1.09 1.07 0.1 -1
- 388 08:43:32 14 12 229 60 105 105 104 1.05 1.09 1.07 -0.0 0 +
389 08:43:32 15 13 229 60 105 105 104 1.05 1.09 1.06 0.0 -0
- 390 08: 43:33 15 13 230 60 106 105 104 1.05 1.09 1.07 0.0 0
- 391 08:43:35 17 15 230 61 106 104 105 1.05 1.09 1.07 0.0 -1 a 392 08:43:35 18 15 230 60 105 105 104 1.05 1.09 1.07 0.1 -1
- 393 08:43:36 18 16 230 60 106 104 105 1.05 1.09 1.07 0.1 -1 a 394 08:43:37 19 17 230 60 105 105 104 1.05 1.09 1.07 0.1 -1 +
395 08:43:37 19 17 230 60 106 104 105 1.04 1.09 1.07 0.1 -1
- 396 08:43:38 20 18 230 61 105 105 104 1.05 1.10 1.07 0.1 -1
- 397 08:43:38 21 19 230 61 105 105 104 1.04 1.09 1.06 0.1 -0
- 398 08:43:39 22 19 230 60 105 105 104 1.05 1.10 1.07 0.1 -1
- 399 08: 43:40 22 20 230 60 105 105 104 1.05 1.10 1.06 0.1 -0
- 400 08:43:40 23 20 230 60 105 105 104 1.05 1.10 1.07 0.1 -1
- 401 08:43: 41 23 21 230 60 105 105 104 1.04 1.09 1.06 0.1 -0 a 1.05 1.10 1.07 0.1 -1
- 402 08:43:41 24 21 230 60 105 105 104 403 08:43: 42 24 22 230 60 105 105 104 1.05 1.10 1.06 0.0 -0
- 404 08:43:43 25 23 230 60 106 105 104 1.04 1.09 1.06 0.0 -0
- 4 ',
08:43:43 26 23 230 60 105 105 104 1.05 1.10 1.07 0.0 -0
- 406 08:43:44 26 24 230 60 105 105 104 1.04 1.09 1.06 -0.0 0
- 407 08:43:45 27 25 230 60 105 105 104 1.05 1.10 1.07 0.0 -0
- 408 08:43:45 27 25 231 60 106 105 104 1.04 1.10 1.06 -0.0 0
- 409 08:43:46 28 26 231 60 105 105 104 1.05 1.10 1.06 0.1 -0 +
410 08:43:46 29 26 231 60 106 105 104 1.05 1.10 1.07 -0.0 0
- 411 08:43:47 29 27 231 60 105 105 104 1.05 1.10 1.06 0.0 -0 a 412 08:43:48 30 28 230 60 106 105 104 1.04 1.10 1.07 0.0 0
- 0.0 -1 O
s_- 413 414 08:43:48 08:43:49 31 31 28 29 231 231 60 60 106 106 104 105 105 104 1.05 1.10 1.05 1.09 1.07 1.07 0.0 4
- 415 08:43:49 32 29 231 60 106 104 105 1.05 1.09 1.07 0.0 -1
- 30 231 60 106 105 104 1.04 1.09 1.06 0.0 -0
- 416 08:43:50 32 33 30 231 60 106 104 105 1.05 1.09 1.07 0.1 -1
- 417 08:43:51 106 105 104 1.04 1.09 1.06 0.0 -0
- 418 08:43:51 33 31 231 60 419 08:43:52 34 32 231 60 106 104 105 1.05 1.09 1.07 0.0 -1 35 32 232 60 105 105 104 1.05 1.10 1.06 0.1 -1
- 420 08:43:52 36 33 232 60 106 104 105 1.05 1.09 1.07 0.0 -1
- 421 08:43:53 36 33 231 61 105 105 104 1.05 1.10 1.07 0.1 -1
- 422 08:43:54 423 08:43:54 37 34 232 60 106 104 105 1.05 1.09 1.07 0.1 -1
- 105 105 104 1.05 1.10 1.07 0.1 -1
- 424 08: 43:55 37 35 231 60 106 104 105 1.04 1.09 1.07 0,1 -0
- 425 08: 43:55 38 35 231 60 426 08:43:56 39 36 232 61 105 105 104 1.05 1.10 1.07 0.1 -1 427 08:43:57 39 37 232 61 106 105 104 1.04 1.09 1.06 0.0 -0 a 40 37 232 60 105 105 104 1.05 1.10 1.07 0.1 -1
- 428 08:43:57 429 08:43:58 40 38 232 60 105 105 104 1.05 1.10 1.07 0.0 -0 a 232 60 106 105 105 1.05 1.10 1.07 0.1 -1
- 430 08:43:58 41 38 431 08:43:59 41 39 232 60 105 105 104 1.05 1.10 1.07 0.1 1
- 60 105 105 104 1.05 1.10 1.07 0.1 -1
- 432 08: 44:00 42 40 232 433 08: 44:00 43 40 232 60 105 105 104 1.05 1.10 1.07 0.0 -0 60 106 105 105 1.05 1.10 1.07 0.1 -1
- 434 08:44:01 44 41 232 44 232 60 105 105 104 1.05 1.10 1.07 0.1 -1
- 435 08:44:02 41 436 08:44:02 44 42 232 61 106 105 104 1. 0'- 1.10 1.06 -0.0 3
- 437 08:44:03 45 43 232 60 105 105 104 1. 03 1.10 1.07 0.0 -0
- 438 08:44:03 46 43 232 61 105 105 104 1. I'5 1.10 1.06 0.0 0
- 439 08: 44:04 47 44 233 60 105 105 104 1.05 1.10 1.07 0.1 -1 *
() 440 08:44:05 47 45 233 60 105 105 104 1.05 1.10 1.07 0.0 0
- A-21
, c CRDTEST 204 DATE 01-21-1986 PAGE 9 SCAN TIME ROD PDSN SWITCH PWR FRED VOLTS AMPS ----BRAKE----
(HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW 441 08:44:05 48 45 232 60 105 105 104 1.05 1.10 1.06 0.1 -1
- ss,e 442 08: 44:06 48 46 232 60 105 105 104 1.05 1.10 1.07 0.0 0
- 443 08: 44:07 49 47 232 60 105 105 104 1.05 1.10 1.07 0.1 -1
- 444 08:44:07 50 47 232 60 105 105 104 1.05 1.10 1.06 0.0 0
- 445 08:44:08 50 48 232 61 106 105 104 1.05 1.10 1.07 0.0 4
- 446 08:44:08 51 49 232 61 105 105 104 1.05 1.10 1.07 0.0 0 +
447 08: 44:09 51 49 232 61 106 105 104 1.05 1.10 1.07 0.0 0
- 448 08:44:10 52 50 232 61 105 105 104 1.05 1.10 1.06 0.0 0
- 449 08:44:10 53 50 232 61 10A 105 104 1.05 1.10 1.07 0.0 -0
- 450 08:44: 11 53 51 232 60 105 105 104 1.05 1.10 1.07 0.1 -0
- 451 08:44: 11 54 52 232 60 106 105 104 1.05 1.10 1.07 -0.0 0
- 452 08: 44: 12 55 52 233 60 106 105 105 1.05 1.10 1.07 0.1 -1
- 453 08:44:13 55 53 233 60 106 105 105 1.05 1.10 1.07 0.0 -0
- 454 08:44:13 56 53 233 60 106 105 105 1.05 1.10 1.07 0.1 -1
- 455 08:44:!4 57 54 233 60 106 105 104 1.04 1.10 1.07 0.0 -0
- 456 08:44:14 57 54 232 60 105 105 104 1.05 1.10 1.07 0.1 -1
- 457 08:44:15 58 55 233 60 106 105 105 1.05 1.10 1.07 0.1 -0
- 458 08:44:16 59 56 233 60 106 105 105 1.05 1.10 1.07 0.1 -1 +
459 08:44:16 59 57 233 60 106 105 105 1.05 1.11 1.08 0.0 -O
- 460 08:44:17 60 57 234 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 461 08:44:17 60 58 234 60 105 105 104 1.06 1.11 1.08 0.1 -1
- 462 08:44:18 61 58 235 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 463 08:44:19 61 59 235 60 105 105 104 1.06 1.11 1.08 0.1 -1
- 464 08:44:19 62 59 235 60 106 105 105 1.06 1.11 1.00 0.1 -1
- 465 08:44:20 63 60 235 60 105 105 104 1.d6 1.11 1.08 0.0 -0
- 466 08:44:20 64 61 235 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 467 08:44:21 64 61 235 61 105 105 104 1.06 1.11 1.08 0.1 4
- 1.08 0 *
/}
's -
468 08: 44:22 469 08: 44:22 65 65 62 63 235 234 61 60 106 105 105 105 104 104 1.06 1.06 1.11 1.11 1.08
-0.0 0.0 -0
- 470 08:44:23 66 63 235 60 106 105 104 1.06 1.11 1.07 0.0 4
- 471 08:44:23 67 64 235 60 105 105 105 1.06 1.11 1.08 0.1 2
- 472 08:44:24 67 65 236 60 106 105 104 1.06 1.11 1.08 -0.0 0
- 473 08:44: 25 68 65 235 60 105 105 104 1.06 1.11 1.07 0.1 -1
- 474 08:44:25 68 66 235 60 106 105 104 1.06 1.11 1.08 0.0 3
- 475 08:44:26 69 66 236 61 106 105 105 1.06 1.11 1.08 0.1 -1
- 476 08:44:27 70 67 235 60 105 105 104 1.06 1.11 1.08 0.0 -0
- 477 08:44:27 70 68 236 61 106 105 104 1.06 1.11 1.0B 0.0 5
- 478 08:44:28 71 69 236 60 106 105 104 1.06 1.11 1.08 0.0 0
- 479 08:44:28 72 69 236 60 106 105 105 1.06 1.11 1.08 0.0 -0
- 480 08:44:29 72 70 235 60 106 105 104 1.06 1.11 1.08 -0.0 0 +
481 08: 44:30 73 70 236 61 106 105 105 1.06 1.11 1.08 0.1 -1 + 482 08:44: 30 73 71 235 61 106 105 104 1.06 1.11 1.07 0.0 0
- 483 08:44:31 75 72 236 60 106 105 105 1.06 1.11 1.00 0.0 -0 e 484 08: 44:31 75 72 236 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 485 08:44:32 76 73 236 60 106 105 105 1.06 1.11 1.08 0.0 -1
- 486 08:44:33 76 73 236 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 487 08:44:33 77 74 236 60 106 105 105 1.06 1.11 1.08 0.0 -1
- 488 08: 44:34 78 75 236 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 489 08: 44:34 79 75 236 61 106 105 105 1.06 1.11 1.08 0.1 -1
- 490 08:44:35 79 76 236 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 491 08:44:36 79 77 236 61 106 105 104 1.06 1.11 1.07 0.0 0
- 492 08:44: 36 80 77 236 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 493 08: 44:37 81 78 236 60 106 105 104 1.06 1.11 1.08 0.0 -0
- 494 08:44: 37 82 78 237 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 495 08:44:38 82 79 236 60 106 105 104 1.06 1.11 1.08 0.0 0 *
(} A-22
c CRDTEST.204- DATE 01-21-1986 PAGE 10 908813 / N/C SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS'aADC SW i 496 08:44:39 83 80 237 60 106 105 105 1.06 1.11 1.08 0.1 -1
- Et 497 08:44:39 83 81 236 60 105 105 104 1.06 1.11 1.08 0.0 -0 e 498 08:44:40 84 B1 237 60 106 105 105 1.06 1.11' 1.08 0.1 -1
- 499 08:44:40 85 82 236- 60 105 105 105 1.06 1.11 1.08 0.1 -0 e 500 08:44:41 85 83 236 60 106 105 104 1.05 1.11 1.07 -0.0 0 +
501 08:44:42 86 83 236 60 105 105 104 1.06 1.11 1.0B 0.0 -0 e . 502 08:44:42 87 84 236 60 106 105 104 1.06 1.11 1.07 0.0 0 e 503 08:44:43 87 84 237 60 105 105 105 1.06 1.11 1.08 0.1 -1
- 504 08:44:43 88 85 237 60 106 105 104 1.06 1.11 1.08 -0.0 0
- 505 08: 44:44 BB B6 236 60 105 105 104 1.06 1.11 1.0B 0.1- -1
- 506 08:44:45 89 87 237 60 106 105 104 1.06 1.11 1.08 0.0 5
- 507 08:44:45 90 B7 237 60 105 105 104 1.06 1.11 1.08 0.1 4
- 500 08:44:46 90 88 237 60 106 105 105 1.06 1.11 1.06 -0.0 0
- 509 08:44:46 91 BB 237 60 106 105 105 1.06 1.11 1.00 0.1 -1 e
~510 08:44:47 92 89 237 60 106 105 105 1.06 1.11 1.08 -0.0 0
- 511 08:44:48 93 89 237 60 106 105 105 1.06 1.11 1.08 0.0 -1
- 512 08:44:48' 93 90 236 60 105 105 105 1.06 1.11 1.0B 0.1 -1
- 513 08:44: 49 94 91 237 60 106 105 104 1.06 1.11 1.08 0.0 0 e 514 08:44:50 94 92 237 60 106 105 105 1.06 1.11 1.08 -0.0 0 e 515 08:44:50 95 92 237 60 106 105 105 1.06 1.11 1.08 0.1 -0
- 516 08:44:51 96 93 237 60 106 105 105 1.06 1.11 1.0B 0.1 -1
- 517 08:44:51 97 93 237 60 106 105 105 1.06 1.11 1.08 0.0 -1
- 518 -08:44:52 97 94 237 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 98 95 237 60 106 105 105 1.06 1.11 1.0B 0.0 -0
- 519 08:44:53 520 08:44:53 98 95 237 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 521 08:44:54 99 96 237 60 106 105 105 1.06 1.11 1.08 0.0 -0 e 522 08:44:54 100 97 237 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 237 60 106 105 105 1.06 1.11 1.08 0.0 -0 e
. O 523 524 525 08:44:55 08: 44:56 08:44:56 101 101 102 97 98 99 237 237 60 60 106 106 105 105 105 104 1.06 1.06 1.11 1.11 1.08 1.08 0.1 0.1
-1
-0 e
526 08:44:57 103 99 23B 60 106 105 105 1.06 1.11 1.00 0.1 -1 e 527 08:44:57 103 100 237 60 106 105 104 1.06 1.11 1.08 0.0 -0 * ! 528 08:44:58 104 101 23B 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 529 08:44: 59 104 102 237 60 106 105 104 1.06 1.11 1.08 0.1 -0 e 237 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 530 08:44:59 105 102 531 08:45:00 105 103 237 60 105 105 105 1.06 1.12 1.08 0.0 -0 e 532 08:45:01 106 103 237 60 106 105 105 1.06 1.11 1.00 -0.0 0 e 533 08:45:01 107 104 237 60 106 105 104 1.06 1.11 1.08 0.0 -0 e 534 08:45:02 108 105 237 60 106 105 105 1.06 1.11 1.00 -0.0 0
- 535 08:45:02 108 105 238 60 106 105 104 1.06 1.11 1.08 0.0 -0 e
- 536 08
- 45:03 109 106 239 60 106 105 105 1.06 1.11 1.0B 0.0 0 e 537 08:45:04 109 107 238 60 106 105 104 1.06 1.12 1.08 0.0 -0 e 538 08:45:04 110 107 238 60 106 105 104 1.06 1.11 1.08 -0.0 0
- 2- 539 08:45:05 111 108 238 60 105 105 105 1.06 1.12 1.08 0.1 -1
- 540 08:45:05 111 109 238 60 106 105 105 1.06 1.11 1.08 -0.0 0 +
541 08:45:06 112 109 238 60 105 105 105 1.06 1.12 1.0B 0.1 3 e 542 08:45:07 113 110 238 60 106 105 105 1.06 1.11 1.08 0.0 -0 e 543 08:45:07 114 110 238 60 106 105 105 1.06 1.11 1.08 0.0 -0 e 544 08:45:08 114 til 237 60 106 105 105 1.06 1.11 1.00 0.0 0 e 545 08:45:08 115 112 23B 60 106 105 105 1.06 1.11 1.08 0.1 1
- 546 08:45:09 116 113 23B 60 106 105 105 1.06 1.11 1.08 -0.0 5
- 1.08 0.1 -1
- 547 08:45:10 117 113 239 60 106 105 105 1.06 1.11 548 08:45:10 117 114 239 60 106 105 105 1.07 1.12 1.08 0.1 -1 106 105 105 1.06 1.12 1.08 0.1 -1
- 549 08: 45:11 118 115 239 60
() 550 08:45:12 118 115 239 60 106 105 104 1.06 1.12 1.08 0.1 -0
- A-23
c CRDTEST.204 DATE 01-21-1986 PA8E 11 908813 / N/C SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW 1.06 1.11 1.08 0 * () (_,/ 551 552 08: 45:12 119 08: 45:13 120 116 116 238 239 60 60 106 106 105 105 105 105 1.06 1.11 1.08
-0.0 0.1 -1
- 553 0B:45:13 121 117 238 60 106 105 105 1.06- 1.11 1.08 0.0 2
- 554 08:45:14 121 118 239 60 106 105 105 1.06 1.11 1.08 0.0 -1
- 555 08:45:15 122 119 239 60 106 105 105 1.06 1.11 1.08 -0.0 3 +
556 08:45:15 123 119 239 60 106 105 105 1.06 1.12 1.08 0.1 ~1
- 557 08:45:16 123 120 239 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 55E 08:45:16 124 120 239 60 106 105 105 1.06 1.11 1.08 0.0 -1
- 559 08: 45:17 125 121 239 60 106 105 105 1.06 1.12 1.08 0.1 -l
- 560 08:45:18 126 122 239 60 106 105 105 1.06 1.11 1.08 0.0 -1
- 239 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 561 08:45:18 126 122 562 08:45:19 127 123 239 60 106 105 105 1.06 1.11 1.08 0.0 -0 e 563 08:45:19 128 124 239 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 564 08:45:20 128 125 239 60 105 105 104 1.06 1.12 1.0B 0.0 -0
- 565 08: 45:21 129 125 239 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 566 08:45:21 129 126 239 60 105 105 105 1.06 1.11 1.08 0.1 -1
- 239 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 567 08:45:22 130 127 568 08:45:23 130 128 239 60 106 105 104 1.06 1.11 1.08 0.1 2
- 569 08: 45:23 131 128 239 61 106 105 105 1.07 1.12 1.08 0.1 -1
- 570 08:45:24 132 129 239 61 106 105 104 1.06 1.12 1.08 0.0 -0
- 571 08:45:24 133 129 239 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 572 08:45:25 133 130 239 60 106 105 104 1.06 1.12 1.08 0.1 -0
- 573 08:45:26 134 131 239 60 106 105 105 1.06 1.12 1.08 -0.0 0
- 574 08:45:26 134 131 239 60 106 105 104 1.06 1.12 1.08 0.0 -0
- 575 08: 45:27 135 132 239 60 106 105 105 1.06 1.11 1.08 -0.0 0
- 576 08:45:27 13e 133 239 60 106 105 104 1.06 1.12 1.08 0.0 0
- 577 08:45:28 137 133 239 60 106 105 105 1.06 1.11 1.08 0.0 0
- 0.0
() \_/ 578 579 08:45:29 137 08:45:29 138 134 135 239 240 60 60 106 106 105 105 104 105 1.06 1.06 1.12 1.11 1.08 1.08 -0.0
-0 0
- 580 08:45:30 139 135 240 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 581 08:45:30 140 136 240 60 106 105 105 1.06 1.11 1.08 0.0 -0
- 140 137 1.06 1.11 1.08 0.1 -1
- 5B2 08:45:31 239 60 106 105 105 533 08:45:32 141 137 239 60 106 105 10' 1.06 1.11 1.08 0.0 -0
- 584 08: 45:32 142 138 239 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 585 00: 45:34 143 140 240 60 106 105 104 1.06 1.12 1.08 0.0 4
- 586 08:45:35 144 141 239 60 106 105 105 1.06 1.11 1.08 -0.0 0 e 587 08:45:35 145 141 240 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 588 08:45:36 145 142 240 60 106 105 104 1.06 1.12 1.08 0.1 -0 e 589 08:45:36 146 143 240 60 106 105 105 1.06 1.12 1.08 -0.0 0
- 590 08:45:37 147 144 240 60 106 105 104 1.06 1.12 1.08 0.0 -0
- 591 08:45:38 148 144 239 60 106 105 105 1.06 1.12 1.08 0.0 0
- 240 60 106 105 104 1.06 1.12 1.08 0.1 -0
- 592 08:45:38 148 145 593 08:45:39 149 146 239 61 106 105 105 1.06 1.12 1.08 -0.0 0
- 594 08: 45:39 150 146 239 61 105 105 104 1.06 1.12 1.08 0.1 -0 e 595 08: 45:40 150 147 239 61 106 105 104 1.06 1.12 1.08 0.0 1
- 151 147 239 60 106 105 105 1.06 1.11 1.08 0.0 -1
- 596 08:45:41 597 08:45:41 152 148 240 60 106 105 105 1.06 1.12 1.08 0.0 0
- 598 08:45:42 153 149 240 60 106 105 105 1.06 1.11 1.08 0.0 -1
- 599 08:45:42 153 150 240 60 106 105 104 1.06 1.12 1.08 -0.0 5
- 241 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 600 08:45:43 154 150 601 08:45:44 154 151 240 60 106 105 105 1.06 1.11 1.08 -0.0 0 e 602 08:45:44 155 152 240 60 106 105 105 1.06 1.11 1.08 0.1 4
- 603 08:45: 45 156 153 240 60 106 105 104 1.06 1.11 1.07 0.0 3
- 604 08:45: 45 157 153 240 60 106 105 105 1.06 1.12 1.08 0.1 4 *
~
605 08:45:46 157 154 240 60 106 105 105 1.06 1.11 1.00 0.1 -1 * [v) A-24
c CRDTEST.204 DATE 01-21-1986 PAGE 12 gg p j SCAN TIME ROD POSN SWITCH PWR FRED VOLTS AMPS ----BRAKE---- (HRS) N S DUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW 606 08:45: 47 158 154 240 60 106 105 105 1.06 1.12 1.08 0.1 -1 * (r ,w) 607 08:45:47 159 155 241 61 106 105 105 1.06 1.12 1.08 0.1 -1 e 608 08:45: 48 160 156 240 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 609 08:45:48 160 156 241 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 610 08:45:49 161 157 241 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 611 08:45:50 161 158 240 60 105 105 104 1.06 1.11 1.07 0.1 1 e 612 08:45:50 162 159 240 60 106 105 104 1.06 1.12 1.08 0.0 0 *
, 613 08:45:51 163 159 240 60 105 105 104 1.06 1.12 1.07 0.1 2 * < 614 08:45:51 163 160 240 60 106 105 104 1.06 1.12 1.07 0.0 0 e 615 08:45:52 164 161 240 60 105 105 104 1.06 1.12 1.07 0.1 -0 e 616 08:45:53 165 161 240 60 106 105 104 1.06 1.12 1.07 -0.0 -0 e 617 08:45:53 166 162 241 60 105 105 104 1.06 1.12 1.08 0.1 -1
- 618 08:45:54 166 163 241 60 106 105 104 1.06 1.11 1.07 0.0 0
- 619 08:45:55 167 163 241 60 106 105 105 1.06 1.11 1.08 0.0 -1
- 620 08:45:55 167 164 241 60 106 105 104 1.06 1.12 1.07 0.0 -0
- 621 08:45:56 168 164 241 60 106 105 105 1.06 1.11 1.07 0.1 -1
- 622 08:45:56 169 166 241 60 106 105 105 1.06 1.11 1.07 0.0 0
- 623 08:45:57 170 166 241 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 624 08:45:58 170 167 241 60 106 105 104 1.06 1.12 1.07 0.0 -0
- i 625 08:45:58 171 167 241 60 106 105 105 1.06 1.11 1.08 0.1 -0 e 626 08:45:59 172 168 241 60 106 105 104 1.06 1.12 1.08 0.0 0
- 627 08:45:59 173 169 241 60 106 105 105 1.06 1.12 1.08 0.0 -1 e 628 08:46:00 174 169 241 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 629 08:46:01 174 170 241 60 106 105 105 1.06 1.12 1.08 0.0 -1
- 630 08:46:01 175 171 241 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 631 08:46:02 176 172 241 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 632 08: 46:03 176 172 241 60 106 105 105 1.06 1.12 1.08 0.1 -1 e 60 106 105 105 1.06 1.11 1.08 0.0 -0 *
/~T 633 08:46:03 177 173 241 (m) 634 08:46:04 178 174 241 60 106 105 105 1.06 1.11 1.08 0.1 -1 635 08:46:04 178 174 241 60 105 105 104 1.07 1.12 1.07 0.1 -1 e 636 08:46:05 179- 175 241 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 637 08:46:06 180 176 241 60 105 105 104 1.07 1.12 1.08 0.1 -1
- 638 08:46:06 180 176 241 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 639 08:46:07 181 177 241 60 105 105 104 1.06 1.12 1.07 0.1 -0
- 640 08:46:07 182 178 241 60 106 105 105 1.07 1.12 1.00 0.1 -1
- 641 08:46:08 182 179 241 60 105 105 104 1.07 1.12 1.08 0.1 -1
- 642 08:46:09 183 179 242 60 106 105 105 1.06 1.12 1.08 0.1 -l
- 643 08:46:09 184 180 241 60 105 105 104 1.06 1.12 1.07 0.1 -0
- 644 08:46:10 184 181 241 60 106 105 104 1.06 1.12 1.07 -0.0 0 e 645 08:46:10 185 182 241 60 106 105 104 1.06 1.12 1.07 0.0 0
- 646 08:46:11 186 182 241 60 106 105 105 1.06 1.12 1.08 0.0 0
- 647 08:46:12 187 183 241 63 106 105 104 1.06 1.12 1.07 0.0 1 e 648 08:46:12 187 184 241 61 106 105 105 1.06 1.12 1.08 0.0 -0
- 649 08:46:13 188 184 241 61 106 105 104 1.06 1.12 1.07 0.0 0
- 650 08:46:13 189 185 242 60 106 105 105 1.06 1.12 1.08 0.0 -0
- 651 08:46:14 190 185 242 60 106 105 105 1.06 1.11 1.07 0.1 -l
- 652 08:46:15 190 186 242 61 106 105 105 1.06 1.12 1.08 0.0 -0
- 653 08:46:15 191 187
- 183 64 6 6 7 0.05 0.05 0.05 24.0 382
- 654 08:46:16 191 187
- 78 112 1 1 1 0.00 0.01 0.00 24.0 382
- 655 08: 46:16 191 187
- 37 126 0 0 0 0.00 0.00 0.00 24.0 382
- 656 08:46:17 191 187 + 18 120 0 0 0 0.00 0.00 0.00 24.0 382 e 657 08:46:18 191 187
- 10 120 0 0 0 0.00 0.00 0.00 24.0 382
- 658 08:46: 18 191 187
- 6 128 0 0 0 0.00 0.00 0.00 24.0 382
- 659 08: 46:19 191 187
- 5 120 0 0 0 0.00 0.00 0.00 24.0 3B2
- 660 08:46: 20 191 187 e 4 128 0 0 0 0.00 0.00 0.00 24.0 382 *
(} A-25
c CRDTEST.204 DATE 01-21-1986 PAGE 13 908813 / N/C SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW 661 08:46: 20 191 187
- 4 128 0 0 0 0.00 0.00 0.00 24.0 382 *
( 662 08:46:21 191 187
- 4 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 663 08:46: 21 191 187 + 3 128 0 0 0 0.00 0.00 0.00 24.0 382
- 664 08:46:22 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 665 08:46:23 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 382
- 666 08:46:23 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 667 08:46: 24 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 382
- 668 08:46:24 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 669 08:46:25 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 670 08:46:26 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 671 08:46:26 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 672 08:46:27' 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 673 08:46:27 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 674 08:46:28 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 382
- 675 08: 46:29 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 676- 08:46:29 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 677 08:46:30 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 673 08:46: 31 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 679 08:46:31 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 381
- 680 08:46:32 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 681 08:46:32 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 682 08:46:33 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 382
- 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 683 08: 46:34 191 684 08:46:34 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 685 08:46:35 191 187
- 3 128 0 0 0 'O.00 0.00 0.00 24.0 381
- 686 08: 46:35 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 687 08:46:36 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381 *
/T 688 08:46:37 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381 *
\s / 689 08: 46:37 191 187 + 3 128 0 0 0 -0.00 0.00 -0.00 24.0 381 690 08:46:38 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 381 691 08:46:38 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 692 08:46: 39 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 693 08:46:40 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 694 08:46:40 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 695 08: 46:41 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 696 08:46:41 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 381
- 697 08:46:42 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 381
- 698 08:46:43 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 381
- 699 08:46:43 191 107
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 381
- 700 08:46:44 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 380
- O A-26
c CRDTES,T.204 DATE 01-21-1986 PA8E 1 SCAN TIME RSS DV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. 1 08:39:41 -0.4 0.07 66 301 280 290/ 267 291 724 2 08:39: 42 -0.4 0.07 66 301 280 290/ 267 292 723 3 08:39:42 -0.4 0.10 66 299 279 291/ 268 294 723 4 08:39:43 -0.4 0.10 67 301 279 289/ 269 292 723 5 08:39:44 -0.4 0.12 67 300 278 290/ 270 293 723 6 08:39:44 -0.4 0.07 66 302 280 289/ 268 291 723 7 08:39:45 -0.4 0.10 67 300 278 291/ 269 294 723 18 08:39:45 -0.4 0.08 66 300 280 291/ 267 293 723 9 08:39:46 -0.4 0.09 67 299 279 291/ 267 293 723 10 .08:39: 46 -0.4 0.08 66 302 280 289/ 268 291 723 11 08:39:47 -0.4 0.10 67 300 279 291/ 268 294 722 12 08:39:48 -0.4 0.07 66 301 280 290/ 267 291 722 13 08:39:48 -0.4 0.11 67 300 278 290/ 270 293 722 14 08:39:49 -0.4 0.07 66 302 280 289/ 267 291 722 15 08:39:49 -0.4 0.10 67 301 278 289/ 270 292 722 16 08:39:50 -0.4 0.07 66 300 280 291/ 267 292 723 17 08:39:51 -0.4 0.10 67 299 279 291/ 268 294 723 18 08:39:51 -0.4 0.10 67 301 278 289/ 269 292 722 19 08:39:52 -0.4 0.09 67 299 279 291/ 268 294 722 20 08:39:52 -0.4 0.10 67 300 278 289/ 269 292 721 21 08:39:53 -0.4 0.07 66 300 280 291/ 267 292 722 22 08:39:53 -0.4 0.11 67 300 278 291/ 269 294 722 23 08:39:54 -0.4 0.09 66 301 279 289/ 268 291 722 24 08:39:55 -0.4 0.10 67 301 279 290/ 270 293 722 25 08:39:55 -0.4 0.08 65 301 280 289/ 267 291 722 26 08:39:56 -0.4 0.10 67 300 278 290/ 270 293 722 27 08:39:56 -0.4 0.07 66 300 280 291/ 267 293 723 28 08:39:57 -0.4 0.10 67 299 279 291/ 269 294 722 x 29 08:39:58 -0.4 0.09 66 301 279 289/ 268 291 723 30 08:39:50 -0.4 0.10 67 299 279 291/ 269 294 723 31 08:39:59 -0.4 0.08 66 301 280 289/ 268 291 723 32 08:39:59 -0.4 0.08 66 299 279 291/ 267 293 722 33 08:40:00 -0.4 0.10 67 301 279 289/ 270 293 722 34 08:40:01 -0.4 0.09 67 299 279 291/ 268 293 722 35 08:40:01 -0.4 0.10 67 301 278 289/ 270 292 722 36 08:40:02 -0.4 0.09 67 300 280 292/ 268 294 722 37 08:40:02 -0.4 0.09 66 301 279 289/ 268 291 723 38 08:40:03 -0.4 0.11 68 300 278 291/ 270 294 722 39 08: 40:04 -0.4 0.07 65 301 280 289/ 267 291 723 40 08:40:04 -0.4 0.10 67 300 278 291/ 270 294 723 41 08: 40:05 -0.4 0.08 66 301 280 289/ 268 291 723 42 08:40:05 -0.4 0.10 67 299 279 292/ 268 294 723 43 08:40:06 -0.4 0.07 66 301 280 289/ 267 290 723 44 08:40:07 -0.4 0.10 68 299 279 292/ 268 294 723 45 08:40:07 -0.4 0.07 66 300 280 290/ 267 291 723 46 08:40:08 -0.4 0.09 67 299 279 292/ 268 294 723 47 08: 40:08 -0.4 0.08 66 301 280 289/ 267 291 723 48 08:40:09 -0.4 0.10 67 298 279 292/ 268 294 723 49 08:40:09 -0.4 0.07 66 300 280 289/ 267 291 723 50 08:40:10 -0.4 0.11 68 299 278 291/ 270 294 723 51 08:40:11 -0.4 0.07 66 300 280 290/ 267 291 724 52 08:40:11 -0.4 0.11 68 299 278 290/ 270 293 723 53 08: 40:12 -0.4 0.08 66 299 200 289/ 266 291 723 54 08:40:12 -0.4 0.11 67 297 278 291/ 268 294 723 55 08:40:13 -0.4 0.10 66 299 279 289/ 268 291 723 (} A-27
c CRDTEST.204 DATE 01-21-1986 PA8E 2 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. rg 56 08:40:14 -0.4 0.11 68 297 279 291/ 269 294 723
' ( ,) 57 08:40:14 -0.4 0.07 66 299 280 290/ 267 291 724 58 08:40:15 -0.4 0.11 68 298 278 291/ 270 294 723 59 08:40:15 -0.4 0.07 66 298 280 291/ 267 292 724 60 08:40:16 -0.4 0.11 68 298 278 291/ 269 294 723 61 08: 40:16 -0.4 0.07 65 299 280 290/ 267 291 723 62 08:40:17 -0.4 0.09 67 297 279 291/ 267 293 724 63 08:40:18 -0.4 0.08 66 299 280 289/ 268 290 724 64 08:40:18 -0.4 0.10 67 297 279 291/ 268 294 723 65 08: 40:19 -0.4 0.08 66 299 279 289/ 268 291 724 66 08:40:19 -0.4 0.09 68 297 279 292/ 268 294 724 67 08:40:20 -0.4 0.08 66 299 279 289/ 268 291 724 68 08:40:20 -0.4 0.10 68 296 279 292/ 268 294 724 69 08:40: 21 -0.4 0.09 66 299 279 289/ 268 291 724 70 08: 40:22 -0.4 0.10 67 297 279 291/ 268 294 724 71 00:40:22 -0.4 0.10 66 299 279 289/ 269 291 724 72 08:40:23 -0.4 0.00 67 297 279 292/ 268 294 725 73 08:40:23 -0.4 0.07 66 299 280 289/ 267 291 725 74 08:40:24 -0.4 0.10 67 298 278 289/ 269 292 725 75 0B:40:25 -0.4 0.10 67 296 279 292/ 268 294 724 76 08:40:25 -0.4 0.09 68 296 278 291/ 268 294 725 77 08:40:26 -0.4 0.07 66 298 280 290/ 267 291 725 78 08:40:26 -0.4 0.10 68 296 279 291/ 268 294 724 79 08:40:27 -0.4 0.07 66 298 280 290/ 267 291 724 80 08:40:28 -0.4 0.11 68 297 279 291/ 270 294 723 81 08: 40:28 -0.4 0.07 66 298 280 290/ 266 291 724 82 08:40:29 -0.4 0.10 67 298 278 290/ 270 293 723 83 08:40:29 -0.4 0.07 66 299 280 289/ 268 291 724 s 84 08:40:30 -0.4 0.10 68 296 279 291/ 269 294 724 85 08:40:31 -0.4 0.08 66 299 279 289/ 269 291 724 86 08:40:31 -0.4 0.12 67 296 278 291/ 269 294 723 87 08:40:32 -0.4 0.07 66 298 280 290/ 267 291 724 88 08:40:32 -0.4 0.11 68 297 278 291/ 270 293 724 89 00:40:33 -0.4 0.08 66 297 279 291/ 267 293 724 90 08:40:33 -0.4 0.11 68 298 278 290/ 270 293 723 91 08:40:34 -0.4 0.07 66 298 280 291/ 267 292 724 92 08:40:35 -0.4 0.11 68 297 278 291/ 269 294 723 93 08:40:35 -0.4 0.07 66 297 280 291/ 267 292 723 94 08:40: 36 -0.4 0.11 68 296 278 290/ 270 293 722 95 08:40:36 -0.4 0.07 66 298 280 291/ 267 292 723 96 08:40:37 -0.4 0.11 67 298 278 289/ 270 292 723 97 08:40:38 -0.4 0.07 66 297 279 291/ 267 293 723 98 08: 40: 38 -0.4 0.08 66 298 279 289/ 268 291 723 99 08:40:39 -0.4 0.07 66 297 280 291/ 266 292 723 100 08:40:39 -0.4 0.09 67 298 279 289/ 269 292 723 101 08:40:40 -0.4 0.08 66 296 280 291/ 267 293 723 102 08:40:40 -0.4 0.09 66 298 279 289/ 268 291 723 103 08:40:41 -0.4 0.10 67 296 279 291/ 268 294 723 104 08:40:42 -0.4 0.09 67 298 279 289/ 269 291 723 105 08:40:42 -0.4 0.10 68 296 278 291/ 268 294 723 106 08:40:43 -0.4 0.11 67 297 278 290/ 270 293 723 107 08:40:43 -0.4 0.09 67 296 279 292/ 268 294 723 108 08: 40: 44 -0.4 0.09 66 298 279 289/ 268 291 723 109 08:40:44 -0.4 0.11 67 296 278 291/ 260 294 723 /~'\ 110 08:40:45 -0.4 0.10 67 296 279 292/ 265 294 724 V
A-28
c CRDTEST.204 DATE 01-21-1986 PA8E 3 908813'/ N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. 111 08: 40:46 -0.4 0.07 66 298 280 289/ 267 291 724 O 112 08:40:46 113 08: 40:47
-0.4
-0.4 0.10 0.11 68 68 296 296 278 278 291/ 269 291/ 269-294 294 723 723 114 08:40:48 -0.4 0.07 66 297 280 290/ 267 291 724 115 08:40:48 -0.4 0.10 68 296 278 292/ 268 294 724 116 08:40:49 -0.4 0.06 66 297 280 290/ 267 291 725 117 08:40:49 -0.4 0.10 68 296 278 291/ 269 294 724 6 118 08:40:50 -0.4 0.07 66 298 280 290/ 267 291 725 I
119 08:40:50 -0.4 0.11 67 297 278 289/ 270 292 724 120 08:40:51 -0.4 0.08 66 297 280 291/ 267 292 725 121 08:40:52 -0.4 0.09 66 298 279 289/ 268 291 724 122 08:40:52 -0.4 0.08 67 296 280 292/ 267 293 725 4 123 08:40:53 -0.4 0.09 66 298 279 289/ 269 291 725 4 124 08:40:53 -0.4 0.08 67 296 279 292/ 267 -293 725
. 125 08:40:54 -0.4 0.07 66 298 280 289/ 268 291 725 126 08:40:55 -0.4 0.10 67 296 279 292/ 268 294 725 127 08:40:55 -0.4 0.07 66 299 280 289/ 267 291 725 128 08: 40:56 -0.4 0.11 67 297 278 290/ 270 293 725
, 129 08:40:56 -0.4 0.07 66 298 280 291/ 267 292 726 4 130 08:40:57 -0.4 0.10 67 298 279 289/ 269 292 726 131 08:40:57 -0.4 0.07 66 297 280 291/ 267 292 726 i 132 08:40:58 -0.4 0.10 67 298 279 290/ 269 292 726 133 08:40:59 -0.4 0.07 66 297 280 291/ 267 293 726 134 08:40:59 -0.4 0.09 66 298 279 289/ 268 291 726 135 08:41:00 -0.4 0.09 66 296 279 291/ 267 293 726 136 08:41:00 -0.4 0.09 66 298 279 289/ 268 291 726 137 08:41:01 -0.4 0.11 68 296 278 291/ 269 294 725 , 138 08:41:02 -0.4 0.07 66 298 280 289/ 26B 291 725 ' \ 139 08:41:02 -0.4 0.10 67 296 279 291/ 268 294 725 140 00:41:03 -0.4 0.10 67 297 279 289/ 269 292 725 141 08:41:03 -0.4 0.11 68 295 278 291/ 269 294 725 142 08:41:04 -0.4 0.09 66 298 279 289/ 268 291 726 143 08:41:05 -0.4 0.11 68 295 278 291/ 269 294 725 144 08:41:05 -0.4 0.07 66 297 280 290/ 267 291 726 145 08:41:06 -0.4 0.11 68 295 278 291/ 269 294 725 146 08: 41:06 -0.4 0.08 66 296 280 291/ 267 292 726 l 147 08:41:07 -0.4 0.08 67 296 279 291/ 267 293 725 148 08:41:08 -0.4 0.10 67 298 279 289/ 269 292 725 149 08:41:00 -0.4 0.11 68 296 278 290/ 270 293 725 150 08:41:09 -0.4 0.07 66 296 280 291/ 267 292 725 151 08:41:09 -0.4 0.10 67 297 278 289/ 269 292 724 1 152 08:41:10 -0.4 0.07 66 296 280 291/ 267 292 725 153 08:41:11 -0.4 0.08 66 29B 279 289/ 268 291 725 154 08: 41:11 -0.4 0.08 67 296 279 292/ 267 293 725 155 08:41:12 -0.4 0.07 66 297 280 289/ 267 291 725 156 08:41:12 -0.4 0.08 67 295 279 292/ 267 294 725 157 .08: 41:13 -0.4 0.08 66 297 280 290/ 267 291 726 158 C8:41:13 -0.4 0.10 68 295 279 292/ 269 294 725 1 159 06: 41:14 -0.4 0.07 66 297 280 290/ 267 291 726 160 08: 41:15 -0.4 0.10 67 297 278 290/ 270 293 725 161 08:41:15 -0.4 0.06 66 297 280 290/ 267 292 725 , 162 08:41:16 -0.4 0.10 66 297 279 289/ 269 292 725 L 163 08:41:16 -0.4 0.08 67 296 280 291/ 267 293 725 164 08: 41:17 -0.4 0.10 67 298 279 289/ 269 292 725 i () 165 08:41: 18 -0.4 0.07 66 296 280 291/ 267 293 725 i A-29 i
c CRDTEST.204 DATE 01-21-1986 PAGE 4 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-1N He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. 166 08: 41: 18 -0.4 0.08 66 298 279 289/ 268 291 724 O 167 08:41:19 168 08:41:19
-0.4
-0.4 0.08 0.09.
67 66 296 297 279 279 292/ 267 289/ 269 293 291 725 724 169 08:41:20 -0.4 0.11 68 296 278 292/ 269 294 724 170 08:41:20 -0.4 0.08 66 298 279 289/ 268 291 724
.171 08:41:21 -0.4 0.11 68 296 279 292/ 269 294 724 172 08:41:22 -0.4' O.10 67 297 278 289/ 269 292 723 173 08:41:22 -0.4 0.10 68 295 278 292/ 269 294 724 174 08:41:23 -0.4 0.09 66 298 279 289/ 268 291 724 175 08:41:23. -0.4 0.12 68 296 278 291/ 269 294 724 176 08:41:24 -0.4 0.07 66 297 280 290/ 267 291 724 177 08:41:25 -0.4 0.11 67 296 278 290/ 270 293 724 178 '08: 41:25 -0.4 0.08 66 296 279 291/ 267 293 724 179 08:41:26 -0.4 0.10 68 297 278 290/ 270 293 724
'180 08:41:26 -0.4 0.09 67 296 279 292/ 267 294 724 181 08:41:27 -0.4 0.11 68 296 278 291/ 270 294 724 182 08:41:27 -0.4 0.09 66 296 280 291/ 267 293 724 183 08:41:28 -0.4 0.11 68 296 278 291/ 270 294 724 184 08:41:29 -0.4 0.08 66 296 280 292/ 267 293 724 ;
185- 08:41:29 -0.4 0.09 66 298 279 289/ 268 291 724 186 08:41:30 -0.4 0.11 68 295 278 292/ 269 294 724 187 08:41:31 -0.4 0.07 66 296 280 291/ 267 292 725 188 08:41:31 -0.4 0.10 68 296 278 291/ 270 294 724 189 08:41:32 -0.4 0.06 66 297 280 290/ 267 292 724 190 08:41:32 -0.4 0.10 68 295 278 291/ 268 294 723 191 08:41:33 -0.4 0.07 66 296 280 291/ 267 292 723 192 08:41:33 -0.4 0.11 67 295 278 291/ 269 294 722 193 08:41:34 -0.4 0.07 66 296 280 290/ 267 291 723 0 '194 -08:41:35 -0.4 0.10 67 297 296 279 280 289/ 269 291/ 267 292 293 723 723 195 08:41:35 -0.4 0.07 66 196 08:41:36 -0.4 0.08 66 297' 279 289/ 269 291 723 197 08: 41:37 -0.4 0.10 68 294 278 291/ 269 294 723 198 08:41'3B -0.4 0.07 66 295 280 291/ 266 292 723
'199 08:41: 38 -0.4 0.12 68 294 278 291/ 270 294 723 200 08:41:39 -0.4 0.08 67 295 280 291/ 267 293 724 201 08:41:40 -0.4 0.10 67 296 278 289/ 269 292 723 202 08:41:40 -0.4 0.08 66 295 280 291/ 267 292 724 203 08:41:41 -0.4 0.09 66 297 279 289/ 269 291 724 204 08: 41:41 -0.4 0.07 67 295 279 291/ 267 293 724 205 08:41:42 -0.4 0.10 66 296 278 289/ 269 292 723 206 08:41:42 -0.4 0.07 66 295 280 291/ 267 292 724
.207 08:41:43 -0.4 0.09 66 296 279 289/ 268 291 724 200 08:41:44 -0.4 0.09 67 295 279 291/ 267 293 723 209 08:41:44 -0.4 0.08 66 297 280 289/ 268 291 722 210 08:41:45 -0.4 0.11 68 295 276 291/ 269 294 722 211 08:41:45 -0.4 0.08 66 297 280 289/ 268 291 722 212 08:41:46 -0.4 0.11 68 295 278 291/ 270 294 721 213 08:41:47 -0.4 0.08 66 297 279 289/ 268 291 722 214 08:41:47 -0.4 0.11 68 295 278 291/ 270 294 722 215 08:41:48 -0.4 0.08 66 297 279 289/ 268 291 722 216 08:41:48 -0.4 0.12 68 295 278 291/ 269 294 722 217 08:41:49 -0.4 0.07 66 296 280 290/ 267 291 722 218 08:41:49 -0.4 0.10 67 294 278 291/ 268 294 721 219 08:41:50 -0.4 0.07 66 296 280 290/ 267 292 722
() 220 08: 41:51 -0.4 0.11 68 295 278 291/ 269 294 721 A-30
c:CRDTEST.204 DATE 01-21-1986 PAGE D SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-!N He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. r~x 221 08:41:51 -0.4 0.07 66 296 280 290/ 267 291 722 (,,) 222 08: 41:52 -0.4 0.11 68 295 278 291/ 269 294 722 223 08:41:53 -0.4 0.07 66 295 280 291/ 266 292 722 224 08:41:53 -0.4 0.11 68 295 278 291/ 269 294 722 225 08:41:54 -0.4 0.07 66 296 279 290/ 267 291 723 226 08:41:54 -0.4 0.09 67 297 279 289/ 269 292 723 227 08:41:55 -0.4 0.07 66 295 280 291/ 266 293 723 220 08:41:55 -0.4 0.08 66 297 279 289/ 268 291 723 229 08:41:56 -0.4 0.07 66 296 280 291/ 267 292 723 230 08:41:57 -0.4 0.09 67 297 279 289/ 269 292 723 231 08:41:57 -0.4 0.08 66 296 280 291/ 267 292 723 232 08:41:58 -0.4 0.09 66 297 279 289/ 268 291 723 233 08:41:58 -0.4 0.10 68 295 278 291/ 269 294 723 234 08:41:59 -0.4 0.09 66 297 279 289/ 269 291 723 , 235 08:41:59 -0.4 0.11 68 295 278 292/ 269 294 723 l 236 08:42 00 -0.4 0.08 66 297 279 289/ 268 291 723 237 08: 42:01 -0.4 0.11 67 296 278 290/ 270 294 723 238 08:42:01 -0.4 0.09 66 297 279 289/ 269 191 724 239 08: 42:02 -0.4 0.11 68 295 278 291/ 269 294 723 240 08:42:03 -0.4 0.08 66 298 279 289/ 268 291 723 241 08:42:03 -0.4 0.11 68 295 278 291/ 269 294 722 242 08:42:04 -0.4 0.08 66 296 280 290/ 267 291 723 243 08:42:04 -0.4 0.11 68 295 279 292/ 269 294 723 244 08:42:05 -0.4 0.07 66 296 280 291/ 267 292 724 245 08:42:05 -0.4 0.10 68 295 278 292/ 268 294 723 246 08:42:06 -0.4 0.06 66 297 279 290/ 267 291 724 247 08:42:07 -0.4 0.09 68 295 279 292/ 268 294 723 248 08:42:07 -0.4 0.07 66 297 280 290/ 267 291 724 k's N 249 0B:42:08 -0.4 0.10 67 296 278 291/ 269 293 722 250 08:42:00 -0.4 0.07 66 297 280 290/ 267 291 723 251 08:42:09 -0.4 0.10 67 297 278 289/ 269 292 722 252 0B:42:10 -0.4 0.07 66 297 280 290/ 267 291 723 253 08:42:10 -0.4 0.10 68 296 278 290/ 270 293 723 254 08:42:11 -0.4 0.08 66 297 279 289/ 268 291 723 255 08:42:11 -0.4 0.10 68 295 278 291/ 268 294 723 256 08:42:12 -0.4 0.07 66 297 280 289/ 267 291 723 257 08.42:13 -0.4 0.11 68 295 278 291/ 270 294 723 250 08:42:13 -0.4 0.08 66 295 279 291/ 267 293 723 259 08:42:14 -0.4 0.11 68 295 278 291/ 270 294 723 260 08:42:14 -0.4 0.08 66 295 280 291/ 267 293 724 261 08:42:15 -0.4 0.11 68 295 278 291/ 270 294 723 262 08:42:16 -0.4 0.09 67 294 279 292/ 267 293 724 263 08:42:16 -0.4 0.10 67 297 279 289/ 269 292 724 264 08:42:17 -0.4 0.11 68 295 278 291/ 270 294 723 265 08: 42:17 -0.4 0.07 66 296 280 290/ 267 291 724 266 08:42:18 -0.4 0.10 68 296 278 291/ 269 294 723 267 08:42:18 -0.4 0.08 66 297 279 289/ 267 291 723 268 08:42:19 -0.4 0.07 66 297 280 289/ 268 291 724 269 08:42:20 -0.4 0.08 66 296 280 290/ 267 291 724 270 08:42:20 -0.4 0.07 66 296 280 290/ 267 292 724 271 08:42:21 -0.4 0.09 67 295 279 292/ 268 294 724 272 08: 42:21 -0.4 0.09 67 295 279 291/ 268 294 723 273 08:42:22 -0.4 0.10 68 296 278 290/ 269 293 723 274 08:42:23 -0.4 0.11 68 296 278 291/ 269 294 723 () 275 08: 42:23 -0.4 0.10 68 297 278 290/ 270 293 722 A-31
c CRDTEST.204 ,DATE 01-21-1986 PAGE 6 908813 / N/C SCAN TIME RSS DV-POS' SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. s 276 08:42:24 -0.4 0.10 68 296 278 291/ 269 294 722 277 08:42:25 -0.4 0.07 66 301 280 290/ 267 291 722 278 08:42:25 -0.4 0.08 67 297 279 291/ 267 293 722 279 08: 42:26 -0.4 0.08 67 296 279 292/ 268 293 722 280 08:42:26 -0.4 0.09 67 296 279 292/ 267 293 723 281 08:42:27 -0.4 0.09 67 296 279 292/ 267 293 723 282 08:42:28 -0.4 0.08 67 297 280 292/ 267 293 723 283 08:42:28 -0.4 0.09 67 297 280 292/ 267 293 724 284 08:42:29 -0.4 0.07 67 297 280 291/ 267 293 724 285 08:42:29 -0.4 0.08 67 297 279 291/ 267 293 724 286 08:42:30 -0.4 0.08 66 299 279 289/ 268 291 724 287 08:42:31 -0.4 0.07 66 299 280 290/ 267 291 724 288 08:42:31 -0.3 0.08 67 298 279 292/ 267 293 724 289 08:42:32 -0.4 0.07 66 299 280 290/ 267 291 724 290 08:42:32 -0.4 0.07 66 298 280 291/ 266 292 724 291 08:42:33 -0.4 0.09 67 298 279 292/ 268 294 724 292 08:42:34 -0.4 0.10 67 299 278 289/ 269 292 724 293 08:42:34 -0.4 0.09 67 298 279 292/ 268 294 724 294 08:42:35 -0.4 0.07 66 299 280 291/ 267 292 724 295 08:42:36 -0.4 0.07 66 299 280 290/ 267 292 724 296 08:42:36 -0.4 0.09 66 300 279 289/ 269 291 724 297 08:42:37 -0.4 0.07 66 299 280 290/ 266 292 724 298 08:42:37 -0.4 0.10 67 301 279 289/ 269 292 724 299 08:42:38 -0.4 0.09 67 299 279 292/ 267 293 725 300 08:42:39 -0.4 0.08 66 300 279 289/ 267 291 724 30,1 08:42:39 -0.4 0.10 68 299 278 291/ 269 294 724 302 08:42:40 -0.4 0.07 66 300 280 291/ 267 292 725 303 08:42:40 -0.4 0.10 67 300 279 289/ 269 292 724 O- 304 08:42:41 -0.4 0.07 0.08 66 300 280 279 291/ 267 289/ 268 292 291 724 725 305 08:42:42 -0.4 66 301 306 08:42:42 -0.4 0.09 67 299 280 291/ 267 293 725 307 08:42:43 -0.4 0.09 67 301 279 289/ 268 291 724 308 08:42:43 -0.4 0.10 67 299 279 292/ 268 294 724 309 08:42:44 -0.4 0.07 66 300 280 290/ 267 291 724 310 08:42:45 -0.4 0.12 67 299 278 291/ 269 294 724 311 08:42:45 -0.4 0.07 66 300 280 290/ 267 292 724 312 08:42: 46 -0.4 0.10 67 301 279 289/ 269 292 724 313 08:42:46 -0.4 0.09 67 299 279 292/ 268 294 724 314 08:42:47 -0.4 0.07 66 301 280 290/ 267 291 724 315 08:42:48 -0.4 0.11 68 300 278 291/ 270 294 723 316 08:42:48 -0.4 0.07 66 300 280 291/ 267 293 724 317 08:42:49 -0.4 0.10 67 299 278 291/ 269 294 723 318 08:42:49 -0.4 0.07 66 300 280 290/ 267 291 724 319 08:42:50 -0.4 0.09 65 301 279 289/ 268 291 724 320 08:42:51 -0.4 0.08 67 299 279 291/ 267 293 724 321 08:42:51 -0.4 0.08 66 301 200 289/ 268 291 724 322 08: 42:52 -0.4 0.10 68 299 279 291/ 268 294 724 323 08:42:52 -0.4 0.07 66 300 280 291/ 266 292 724 324 08:42:53 -0.4 0.08 67 299 279 291/ 267 293 724 325 08: 42:54 -0.4 0.09 66 301 279 289/ 269 292 724 326 08:42:54 -0.4 0.10 68 299 279 292/ 268 294 724 327 08:42:55 -0.4 0.07 67 300 280 291/ 267 292 724 328 08:42:55 -0.4 0.11 67 300 278 291/ 269 293 724 329 08:42:56 -0.4 0.10 68 299 278 291/ 269 294 724 () 330 08:42:57 -0.4 0.08 66 300 280 291/ 267 293 724 A-32
c CRDTEST.204 DATE 01-21-1986 PAGE 7 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V.
. 331 08:42:57 -0.4 0.11 67 301 278 290/ 269 292 724
} s,/ 332 08:42:58 -0.4 0.10 67 299 278 291/ 269 294 724 333 08:42:59 -0.4 0.10 67 301 278 290/ 269 292 724 334 08:42:59 -0.4 0.08 66 299 279 291/ 267 293 723 335 08:43:00 -0.4 0.09 67 301 279 290/ 269 292 724 336 08:43:00 -0.4 0.08 67 299 279 292/ 267 293 724 337 08:43:01 -0.4 0.08 66 301 280 289/ 268 291 724 33B 08:43:02 -0.4 0.08 66 299 279 291/ 267 293 724 339 08:43:02 -0.4 0.09 67 301 279 289/ 269 292 724 340 08:43:03 -0.4 0.07 66 300 280 291/ 267 292 725 , 341 08:43:03 -0.4 0.10 68 300 278 291/ 270 294 725 342 08:43:04 -0.4 0.09 67 299 279 291/ 267 293 725
- 343 08
- 43:05 -0.4 0.10 68 299 278 291/ 269 294 725
! 344 08:43:05 -0.4 0.08 66 301 279 289/ 268 291 725 4 345 08:43:06 -0.4 0.11 68 299 278 291/ 269 293 725 346 08:43:06 -0.4 0.08 67 299 279 291/ 267 294 725 347 08:43:07 -0.4 0.11 68 300 278 290/ 270 293 724 l 348 08:43:08 -0.4 0.10 67 299 279 291/ 268 294 724 349 08: 43:08 -0.4 0.09 66 301 279 289/ 268 291 725 350 08:43:09 -0.4 0.10 67 299 279 292/ 268 294 725 351 08: 43:09 -0.4 0.08 66 301 280 289/ 268 291 725 352 08:43:10 -0.4 0.10 68 300 278 291/ 269 294 724 353 08:43:11 -0.4 0.07 66 301 280 291/ 267 292 725 354 08:43:11 -0.4 0.10 67 299 278 291/ 268 294 724 355 08:43:12 -0.4 0.08 66 300 280 291/ 267 292 725 356 08:43:12 -0.4 0.09 67 299 279 292/ 268 294 724 357 08:43:13 -0.4 0.10 67 301 278 289/ 269 292 724 Q 358 08:43:14 -0.4 0.10 68 299 279 291/ 268 294 724
' \./ 359 08:43:14 -0.4 0.08 66 302 280 289/ 268 291 725 ,
360 08:43:15 -0.4 0.10 67 301 279 290/ 270 292 725 361 08:43:15 -0.4 0.07 66 300 279 290/ 265 291 725 362 08:43:16 -0.4 0.11 67 300 278 290/ 269 293 725 290/ 267 363 08:43:17 -0.4 0.07 66 301 280 292 725 364 08:43:17 -0.4 0.10 67 300 279 291/ 269 294 725
- 365 08
- 43:18 -0.4 0.07 66 300 280 291/ 267 293 725 366 08:43:19 -0.4 0.08 67 299 279 291/ 267 293 725 I 367 06:43:19 -0.5 0.07 66 300 280 290/ 267 292 725 368 08:43:20 -0.5 0.11 67 299 278 291/ 269 293 724 369 08:43:20 -0.4 0.09 67 298 279 291/ 268 294 725 370 08:43:21 -0.5 0.11 67 299 278 290/ 270 293 724 371 08:43:22 -0.4 0.09 67 298 279 291/ 268 294 725 372 08:43:22 -0.5 0.07 65 300 200 289/ 267 291 726 373 08:43:23 -0.5 0.08 66 298 280 291/ 267 293 725 374 08:43:23 -0.5 0.07 65 299 280 289/ 267 290 725 375 08:43:24 -0.5 0.07 66 298 279 291/ 267 293 725 i 376 08:43:25 -0.5 0.08 65 299 280 289/ 268 290 725 377 08:43:25 -0.5 0.07 66 298 280 291/ 267 293 725
) 378 08:43:26 -0.5 0.07 65 299 280 289/ 267 290 725
- 379 08
- 43:26 -0.5 0.07 66 298 279 291/ 267 293 725 4
380 08:43:27 -0.5 0.08 65 300 280 289/ 268 290 725 . 381 08:43:28 -0.4 0.11 67 299 278 289/ 270 292 724 l 382 08:43:28 -0.5 0.08 65 299 280 289/ 268 290 725 383 08:43:29 -0.5 0.10 67 299 279 289/ 270 292 725 8 384 08:43:29 -0.5 0.09 66 299 279 289/ 268 290 725
- 385 08
- 43:30 -0.5 0.11 67 298 278 290/ 270 293 725
[} A-33 1
c CRDTEST.204 DATE 01-21-1986 PAGE 8 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-1N He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. r~3 386 08:43:31 -0.5 0.07 65 299 280 289/ 267 291 726 (,,/ 387 08:43:31 -0.5 0.10 67 298 279 ' 289/ 269 291 726 388 08:43:32 -0.4 0.10 68 297 279 291/.769 294 726 389 08:43:32 -0.5 0.11 68 298 278 290/ 270 293 726 390 08:43:33 -0.4 0.10 67 297 279 292/ 268 294 725 391 08:43:35 -0.5 0.07 66 298 280 291/ 267 292 726 392 08:43:35 -0.5 0.10 66 299 279 289/ 269 291 725 393 08:43:36 -0.4 0.07 66 298 280 291/ 267 291 726 394 08:43:37 -0.5 0.08 66 299 280 289/ 268 290 726 395 08:43:37 -0.5 0.07 66 297 280 291/ 267 293 726 396 08: 43:38 -0.5 0.09 65 299 279 289/ 268 290 725 397 08:43:38 -0.5 0.11 67 298 278 290/ 270 293 725 398 08: 43:39 -0.5 0.10 66 299 279 289/ 268 291 725 399 08:43:40 -0.4 0.11 67 298 278 290/ 270 293 725 400 08: 43: 40 -0.5 0.10 66 299 279 289/ 269 291 725 401 08:43:41 -0.4 0.11 67 298 278 290/ 270 .293 725 402 08:43:41 -0.5 0.10 66 299 279 289/ 269 291 725 403 08:43:42 -0.4 0.11 67 297 278 290/ 270 293 725 404 08: 43:43 -0.5 0.07 67 296 280 291/ 267 , 294 726 405 08:43:43 -0.5 0.11 67 297 278 290/ 270 293 726 406 08:43: 44 -0.5 0.10 67 296 278 291/ 268 294 726 407 08:43:45 -0.5 0.11 67 298 279 289/ 270 292 726 408 08: 43:45 -0.5 0.09 67 296 279 291/ 268 294 726 409 08:43: 46 -0.5 0.11 67 298 278 290/ 270 293 726 410 08:43:46 -0.5 0.10 68 296 279 291/ 269 295 726 411 08:43:47 -0.5 0.11 67 298 278 290/ 270 293 726 412 08:43:48 -0.5 0.08 67 296 279 291/ 267' 294 726 0.07 65 297 280 290/ 266 292 727 (} \_/ 413 08:43:48 414 08:4*.41
-0.5
-0.5 0.08 67 296 279 292/ 268 294 727 415 08: 43:49 -0.5 0.07 65 297 280 290/ 267 292 727 416 08:43:50 -0.5 0.08 67 296 280 292/ 267 294 727 417 08:43:51 -0.5 0.07 66 297 280 '290/ 267 292 727 418 08:43:51 -0.5 0.08 66 295 279 291/ 267 4 294 726 419 08:43:52 -0.5 0.07 65 297 280 290/ 266 293 727 420 08:43:52 -0.5 0.10 66 298 279 289/ 269 292 726 421 08:43:53 -0.5 0.07 65 297 280 290/ 267 . 292 727 422 08:43:54 -0.5 0.09 66 298 279 289/ 268 291 726 423 08:43:54 -0.4 0.07 66 296 280 291/ 267 292 726 424 08:43:55 -0.5 0.10 66 298 279 289/ 268 291 726 425 08:43:55 -0.5 0.07 66 296 280 291/ 267 293 727 426 08:43:56 -0.5 0.07 65 298 280 289/ 267 291 727 427 08:43:57 -0.4 0.07 66 296 280 291/ 267 294 727 428 08:43:57 -0.5 0.09 66 298 279 289/ 268 291 726 429 08:43:58 -0.5 0.11 67 297 278 289/ 270 293 726 430 08:43:58 -0.5 0.07 66 297 280 289/ 267 291 726 431 08:43:59 -0.5 0.10 66 298 279 289/ 269 292 725 432 08:44:00 -0.5 0.09 66 298 280 289/ 268 291 725 433 08:44:00 -0.5 0.11 67 297 278 289/ 270 293 725 434 08:44:01 -0.5 0.07 65 297 280 290/ 267 292 726 435 08:44:02 -0.5 0.10 66 298 279 289/ 269 292 726 436 08:44:02 -0.5 0.10 68' 295 278 291/ 269 296 725 437 08:44:03 -0.5 0.10 67 297 278 289/ 270 293 726 438 08: 44:03 -0.5 0.10 68 296 278 291/ 269 295 727 439 08:44:04 -0.5 0.09 66 298 279 289/ 269 291 727 440 08: 44: 05 -0.4 0.11 67 296 278 291/ 269 294 726
(} A-34 i
c CRDTEST.204 DATE 01-21-1986 PAGE 9 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V.
-s 441 08: 44:05 -0.5 0.10 67 297 278 289/ 269 293 727
' ' 442 08:44:06 -0.5 0.03 67 296 278 291/ 269 295 727 443 08:44:07 -0.5 0.10 66 298 279 289/ 269 291 727 444 08: 44:07 -0.4 0.10 67 296 278 291/ 270 295 726 445 08: 44:08 - 0.1 0.08 67 296 279 291/ 267 295 727 446 08:44:08 -0.5 0.11 67 296 278 290/ 270 294 727 447 08:44:09 -0.4 0.09 67 296 279 291/ 268 295 726 448 08:44:10 -0.5 0.11 67 296 278 291/ 270 295 726 449 08:44:10 -0.5 0.09 67 296 279 291/ 268 295 727 450 08:44:11 -0.5 0.11 6B 297 278 290/ 270 293 726 451 08: 44:11 -0.5 0.09 67 296 279 292/ 268 296 727 452 08:44:12 -0.5 0.07 65 297 280 290/ 267 292 727 453 08:44:13 -0.5 0.07 66 296 280 291/ 267 294 726 454 08:44:13 -0.5 0.07 66 297 280 289/ 267 292 727 455 08:44:14 -0.4 0.07 66 296 280 291/ 267 294 727 456 08:44:14 -0.5 0.08 66 298 280 289/ 268 292 727 457 08:44:15 -0.4 0.07 66 296 280 291/ 267 294 727 450 08:44:16 -0.5 0.07 65 298 280 289/ 267 292 727 459 08:44:16 -0.5 0.07 66 296 279 291/ 267 294 727 460 08: 44:17 -0.5 0.08 65 298 280 289/ 267 291 726 461 08:44:17 -0.5 0.11 67 298 279 289/ 270 293 726 462 08: 44:18 -0.5 0.07 65 298 280 289/ 268 292 727 463 08:44:19 -0.5 0.11 67 298 278 289/ 269 293 727 464 08: 44:19 -0.5 0.09 66 298 279 289/ 268 292 728 465 08:44: 20 -0.4 0.11 67 298 278 290/ 270 294 727 , 466 09:44: 20 -0.5 0.08 66 298 280 289/ 268 292 727 467 08:44:21 -0.5 0.10 66 298 279 289/ 269 293 727 468 08:44:22 -0.4 0.10 67 295 278 291/ 268 296 727 Os 469 08:44:22 -0.5 0.11 67 298 279 289/ 270 294 727 470 08:44:23 -0.5 0.11 67 296 278 291/ 270 295 727 471 08:44:23 -0.5 0.10 67 298 279 289/ 269 293 727 472 08:44:24 -0.4 0.10 67 296 278 291/ 268 296 727 473 08:44: 25 -0.4 0.10 67 298 278 289/ 269 293 727 474 08:44:25 -0.4 0.10 6B 296 278 291/ 269 296 727 475 08:44:26 -0.4 0.07 65 298 280 290/ 267 293 727 476 08: 44:27 -0.5 0.11 67 297 278 289/ 270 294 727 477 08:44:27 -0.4 0.11 67 296 278 291/ 270 296 726 478 08:44:28 -0.5 0.04 67 296 278 291/ 270 296 726 479 08:44:20 -0.5 0.09 67 296 279 291/ 267 295 727 480 08: 44:29 -0.5 0.10 68 296 278 291/ 268 296 726 481 08:44:30 -0.5 0.07 66 296 200 291/ 267 294 727 482 08: 44:30 -0.5 0.11 67 296 278 290/ 270 295 726 483 08: 44: 31 -0.5 0.07 67 296 280 291/ 267 295 726 484 08:44:31 -0.5 0.07 65 298 280 289/ 267 292 727 485 08:44:32 -0.5 0.07 66 296 280 291/ 267 294 727 486 08:44:33 -0.5 0.08 66 299 280 289/ 268 292 726 487 08:44: 33 -0.5 0.07 66 297 280 291/ 267 294 727 488 08:44:34 -0.5 0.09 66 298 280 289/ 268 292 726 1 489 08:44:34 -0.4 0.07 66 297 280 291/ 267 294 727 490 08:44:35 -0.5 0.09 65 298 280 289/ 268 293 728 491 08:44:36 -0.5 0.11 68 296 278 291/ 270 295 727 492 08:44:36 -0.5 0.10 66 298 279 289/ 269 293 727 493 08:44:37 -0.4 0.11 67 297 278 290/ 270 295 727 494 08: 44:37 -0.5 0.09 66 299 279 289/ 268 293 728 () 495 08: 44:38 -0.5 0.11 68 297 278 290/ 270 295 727 A-35
ceCRDTEST.204 DATE 01-21-1986 PAGE 10 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) , DP SW (IN.) SC RR He-1N He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. r~' 496 00:44:39 -0.5 0.09 66 298 279 289/ 268 292 728 497 08:44: 39 -0.3 0.11 67 298 278 290/ 270 295 727 4 9 B* 08:44:40 -0.5 0.08 66 298 280 289/ 268 253 727 499 08:44:40 -0.5 0.10 67 298 279 289/ 270 294 727 500 08:44: 41 -0.5 0.10 67 296 279 291/ 268 297 727 501 08:44:4? -0.4 , 0.10 67 297 278 289/ 270 294 727 502 08:44:42' -0.5 0.10 68 296 278 291/ 270 297 727 503 08:44:43 -0.5 0.10 66 298 279 289/ 269 294 726 504 08:44:43 -0.0 0.10 68 295 279 292/ 269 297 726 505 08: 44:44 -0.4 0.10 67 297 279 289/ 270 293 726 506 08:44:45 -0.5 0.10 68 296 27C 291/ 269 296 725 507 08: 44:45 -0.5 0.10 67 297 279- 289/ 269 294 725 4 508 08:44:46 -0.4 0.10 67 295 278 291/ 268 297 725 509 08:44:46 -0.5 0.07 66 296 200 291/ 267 295 726 510 08:44:47 -0.4 0.10 67 295 278 291/ 269 296 725 511 08:44:48 -0.5 0.07 66 296 280 291/ 267 295 726 512 08:44:48 -0.5 0.10 66 297 279 289/ 269 294 725 513 08: 44:49 -0.5 0.11 68 296 278 291/ 270 296 726 514 08:44:50 -0.5 0.10 67 295 278 291/ 269 296 726 515 08:44:50 -0.4 0.07 66 296 280 291/ 267 295 726 S16 08:44:51 -0.5 0.09 66 298 279 289/ 268 293 727 517 08:44:51 -0.5 0.07 66 297 280 291/ 267 294 727 51B 08:44:52 -0.5 0.08 66 298 280 289/ 268 293 726 519 08: 44:53 -0.4 0.07 67 297 280 291/ 267 295 726 520 08:44:53 -0.5 0.08 66 298 280 289/ 268 293 726 521 08:44:54 -0.4 0.07 67 296 280 291/ 268 296 726 522 08:44: 54 -0.5 0.08 65 298 280 289/ 267 293 726 (,\-- 523 08:44:55 -0.5 0.07 16 6 296 279 291/ 267 296 725 524 08:44:56 -0.5 0.09 66 298 280 289/ 268 293 725 525 08:44:56 -0.5 0.11 67 297 278 289/ 270 294 725 526 08:44:57 -0.5 0.09 65 298 279 289/ 268 293 725 527 08: 44: 57 -0.4 0.11 67 297 278 289/ 270 295 725 528 08:44:58 -0.5 0.10 66 298 279 289/ 268 294 725 529 08: 44:59 -0.4 0.12 67 296 278 290/ 270 295 725 530 08:44:59- -0.5 0.08 66 298 280 289/ 267 293 725 531 08:45:00 -0.5 0.11 67 297 278 289/ 270 295 725 532 08:45:01 -0.5 0.10 67 296 279 291/ 268 297 726 533 08: 45:01 -0.4 0.11 68 297 278 290/ 270 296 726 534 08:45:02 -0.5 0.09 67 296 279 292/ 268 297 726 535 08:45:02 -0.5 0.11 67 298 27B 289/ 270 295 726 536 08:45:03 -0.4 0.09 67 296 279 292/ 268 297 726 537 08:45:04 -0.5 0.11 67 297- 278 289/ 270 296 726 538 08:45:04 -0.5 0.10 68 296 279 291/ 269 297 726 539 08:45:05 -0.5 0.10 66 298 279 289/ 269 294 726 540 08:45:05 -0.4 0.10 67 296 278 291/ 268 297 726 541 08:45:06 -0.5 0.10 67 298 279 289/ 269 294 726 542 08:45:07 -0.4 0.10 48 296 279 291/ 269 297 726 543- 08:45:07 -0.4 0.07 66 296 280 292/ 267 296 726
.544' 08:45:08 -0.5 0.10 67 295 279 291/ 268 297 726 545 08t45:08 -0.5 0.07 66 296 280 291/ 267 295 727 546 08:45:09 -0.5 0.10 67 296 278 292/ 269 297 726 547 08:45:10 -0.4 0.07 65 297 280 290/ 267 294 726 1 546 08:45:10 -0.5 0.09 66 298 280' 289/ 268 293 726 549 08:45:11 -0.5 0.10 66 298 279 289/ 269 294 725 '
() 550 09:45:12 -0.5 0.11 67 297 278 289/ 270 296 725 A-36 u s o
c:CRDTEST.204 PAGE 11 DATE 01-31-1986 908813 / N/C SCAN TIPE RSS DV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-!N He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. 551 00:45:12 -0.5 0.09 67 295 279 291/ 268 297 725 Q(m/552 08:45:13 -0.5 0.07 65 257 280 290/ 267 294 725 553 08:45:13 -0.5 0.08 67 295 279 292/ 268 297 725 554 00:45:14 -0.5 0.07 66 297 280 291/ 267 295 725 555 08:45:15 -0.4 0.10 68 295 279 292/ 269 29B 724 556 08:45:15 -0.5 0.07 66 297 280 290/ 267 295 725 557 00: 45:16 -0.5 0.09 66 298 279 2B9/ 268 294 725 559 0B:45:16 -0.4 0.08 66 296- 280 291/ 267 296 725 559 08:45:17 -0.5 0.08 65 298 280 289/ 268 294 724 560 08:45:18 -0.5 0.07 66 297 280 291/ 266 295 724 561 08:45:18 -0.5 0.08 66 298 279 289/ 268 294 724 562 08:45:19 -0.5 0.07 67 296 280 291/ 267 296 724 563 08:45:19 -0.5 0.07 66 298 280 290/ 267 294 725 564 08:45:20 -0.5 0.11 67 297 278 289/ 270 296 724 565 08:45:21 -0.5 0.07 66 298 280 289/ 268 294 724 566 08: 45:21 -0.5 0.10 67 298 279 289/ 270 295 724 567 08:45:22 -0.5 0.08 65 298 280 289/ 267 294 724 568 08:45:23 -0.5 0.11 67 297 278 290/ 270 296 723 569 08:45:23 -0.5 0.0B 66 298 279 209/ 268 294 723 570 08:45:24 -0.5 0.11 67 297 278 290/ 270 296 723 571 08:45:24 -0.5 0.07 66 298 280 2B9/ 267 294 724 572 08:45:25 -0.5 0.11 67 297 278 289/ 270 296 724 573 08:45:26 -0.5 0.10 67 295 278 292/ 269 298 724 574 08:45:26 -0.5 0.11 67 297 278 289/ 270 296 724 575 08:45:27 -0.5 0.10 68 295 278 291/ 269 29B 724 576 08:45:27 -0.5 0.11 68 296 278 290/ 270 297 724 577 08:45:28 -0.5 0.09 67 295 279 292/ 268 298 724 ! 578 08:45:29 -0.5 0.11 68 297 278 290/ 270 297 724 579 08:45:29 -0.5 0.09 67 296 279 292/ 268 298 724 580 08:45:30 -0.5 0.07 65 297 280 290/ 267 295 724 581 08:45:30 -0.5 0.07 66 295 279 291/ 267 297 724 582 08:45:31 -0.5 0.07 65 297 280 290/ 267 295 724 583 08: 45:32 -0.5 0.09 67 295 279 291/ 268 298 724 584 08:45:32 -0.5 0.07 65 298 280 290/ 267 294 724 585 08:45:34 -0.4 0.11 68 297 278 290/ 270 297 723 586 08:45:35 -0.5 0.09 67 296 278 292/ 268 298 723 587 08:45:35 -0.5 0.07 66 298 280 289/ 268 295 723 5BB 08:45:36 -0.5 0.11 67 297 278 290/ 270 297 722 4 589 00: 45:36 -0.5 0.10 68 295 279 291/ 269 298 722 590 08:45:37 -0.5 0.12 67 297 278 289/ 270 296 722 591 08:45:38 -0.5 0.09 67 295 279 291/ 268 298 722 592 08:45:30 -0.5 0.11 67 296 278 290/ 270 297 723 593 08:45:39 -0.4 0.09 67 296 279 292/ 268 298 723 594 08:45:39 -0.5 0.11 67 297 278 289/ 270 296 723 595 08:45:40 -0.5 0.10 67 296 278 291/ 269 298 723 596 08:45:41 -0.5 0.07 66 296 280 291/ 267 296 723 597 08:45:41 -0.5 0.09 67 296 279 291/ 268 298 723 598 00:45:42 -0.5 0.07 66 296 280 291/ 267 296 723 599 08:45:42 -0.5 0.10 68 296 278 291/ 269 299 723 600 08:45:43 -0.5 0.07 66 297 280 290/ 267 296 723 601 08:45: 44 -0.5 0.10 67 296 279 292/ 268 298 723 602 08: 45:44 -0.5 0.07 66 297 280 291/ 267 296 723 603 08:45:45 -0.4 0.11 67 296 278 291/ 269 298 722 604 08:45:45 -0.5 0.07 66 296 280 291/ 267 296 722 () 605 08:45:46 -0.5 0.07 66 298 280 289/ 268 295 723 A-37
c:CRDTEST.204 DATE 01-21-1986 PAGE 12 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V.
<~ 606 08:45:47 -0.5 0.07 66 297 280 291/ 267 296 723 k_,') 607 08:45: 47 -0.5 0.08 66 298 280 289/ 268 294 722 600 08:45:48 -0.5 0.07 65 297 280 290/ 267 296 723 609 08: 45:48 -0.5 0.09 66 298 279 289/ 269 295 723 610 08:45: 49 -0.5 0.07 66 297 280 290/ 267 296 723 611 08: 45:50 -0.5 0.10 67 297 279 289/ 269 296 722 612 08:45:50 -0.5 0.11 67 296 278 291/ 269 298 722 613 00:45:51 -0.5 0.10 66 298 279 289/ 269 296 722 614 08: 45:51 -0.5 0.11 68 296 278 291/ 270 296 721 615 08:45:52 -0.5 0.11 67 297 278 289/ 270 297 721 616 08:45:53 -0.5 0.10 67 295 278 291/ 269 299 721 617 08:45:53 -0.5 0.10 67 297 279 289/ 269 296 722 618 08:45:54 -0.5 0.11 68 296 278 291/ 270 299 722 619 08:45:55 -0.5 0.07 66 296 280 291/ 267 297 723 620 08:45:55 -0.4 0.10 67 295 278 292/ 269 299 723 621 08:45:56 -0.5 0.07 66 297 200 290/ 267 296 723 622 06:45:56 -0.5 0.09 67 295 279 292/ 268 299 723 623 08:45:57 -0.5 0.07 65 297 280 290/ 267 296 723 624 08:45:58 -0.4 0.10 67 295 278 291/ 269 299 723 625 08:45:58 -0.4 0.07 66 296 280 291/ 267 297 723 626 08: 45:59 -0.5 0.10 68 296 278 291/ 269 299 723 627 08:45:59 -0.5 0.07 66 296 280 291/ 267 296 724 628 08:46:00 -0.5 0.08 65 297 280 289/ 268 295 724 629 08:46:01 -0.4 0.07 66 295 280 291/ 267 297 724 630 08:46:01 -0.5 0.07 66 297 280 289/ 268 295 724 631 08:46:02 -0.5 0.07 66 296 280 291/ 267 296 723 632 08:46:03 -0.5 0.08 66 298 280 289/ 268 295 723 633 08: 46:03 -0.4 0.08 67 296 280 292/ 268 298 724 O' ' 634 08:46:04 -0.5 0.07 66 296 280 290/ 267 296 724 635 0B:46:04 -0.5 0.10 66 296 278 289/ 269 296 722 636 08:46:05 -0.5 0.07 66 297 280 290/ 267 295 723 637 08:46:06 -0.5 0.10 66 297 279 289/ 269 296 722 638 08:46:06 -0.5 0.07 65 297 280 289/ 267 295 723 639 08:46:07 -0.5 0.11 67 297 27B 289/ 270 297 723 640 08:46:07 -0.5 0.07 65 297 280 289/ 267 295 723 641 08: 46:00 -0.5 0.10 66 297 279 289/ 269 296 723 642 08:46:09 -0.5 0.07 65 29B 280 289/ 267 295 723 643 08:46:09 -0.5 0.11 67 297 278 290/ 270 298 723 644 08:46:10 -0.4 0.09 67 296 279 292/ 268 299 723 645 08: 46:10 -0.4 0.11 67 296 278 291/ 270 298 723 646 08:46:11 -0.5 0.09 67 295 279 292/ 268 299 723 647 08:46:12 -0.4 0.10 67 296 278 291/ 269 299 722 648 08:46:12 -0.5 0.07 66 296 280 292/ 267 298 722 649 0B:46:13 -0.5 0.11 68 296 278 291/ 270 299 722 650 08:46:13 -0.5 0.09 67 296 279 292/ 268 299 722 651 08:46:14 -0.5 0.07 65 297 280 290/ 267 296 722 652 08:46:15 -0.5 0.08 66 295 279 291/ 267 298 722 653 08: 46:15 -0.5 0.07 66 297 280 290/ 267 296 723 654 08:46:16 -0.5 0.09 67 296 280 291/ 268 299 722
~ 655 08: 46:16 -0.4 0.07 66 297 280 291/ 267 297 723 656 05:46:17 -0.5 0.10 68 296 278 291/ 269 299 722 657 08:46:18 -0.4 0.10 67 296 279 291/ 269 299 723 658 00: 46:18 -0.4 0.10 67 29B 279 290/ 269 297 723 659 08:46:19 -0.4 0.10 67 298 278 291/ 270 299 723
/ 'N 660 00: 46: 20 -0.4 0.09 66 297 279 291/ 267 298 723 V
A-38
c CRDTEST.204 DATE 01-21-1986 PAGE 13 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-1N He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. 661 08:46: 20 -0.4 0.10 67 297 279 291/ 268 299 723 ("')/ (,s 662 08:46:21 -0.4 0.08 67 298 280 291/ 267 29B 723 663 08:46:21 -0,4 0.10 67 298 278 290/ 270 298 722 664 08:46:22 -0.4 0.07 66 298 280 291/ 267 298 723 665 08:46:23 -0.4 0.11 67 298 278 290/ 269 298 722 666 08:46:23 -0.4 0.09 67 298 280 292/ 268 299 722 667 08:46:24 -0.4 0.11 67 299 278 290/ 269 299 721 668 08:46:24 -0.4 0.08 66 29B 279 291/ 267 298 722 669 08: 46:25 -0.4 0.07 66 300 280 290/ 267 296 722 670 08:46:26 -0.4 0.0B 66 298 279 291/ 267 298 722 671 08:46:26 -0.4 0.07 66 299 280 291/ 267 297 722 672 08:46:27 -0.4 0.10 67 29B 278 291/ 269 299 722 673 08:46:27 -0.4 0.10 67 299 278 291/ 268 299 721 674 08:46:28 -0.4 0.10 67 300 278 290/ 270 298 721 675 08:46:29 -0.4 0.10 67 299 279 291/ 268 299 721 676 08:46:29 -0.4 0.07 66 300 280 290/ 267 296 722 677 08:46:30 -0.4 0.07 66 299 280 291/ 267 298 722 678 08:46:31 -0.4 0.07 66 301 280 290/ 267 296 722 679 08:46:31 -0.4 0.10 67 299 279 291/ 268 299 722 680 08:46:32 -0.4 0.08 66 300 280 291/ 267 298 722 681 08:46:32 -0.4 0.07 66 301 280 290/ 267 296 722 682 08:46:33 -0.4 0.08 66 301 279 289/ 268 296 722 683 08: 46:34 -0.4 0.10 67 299 279 291/ 268 299 722 684 08:46:34 -0.4 0.07 65 301 279 289/ 267 296 722 685 08:46:35 -0.4 0.09 66 301 279 289/ 269 297 722 686 08:46:35 -0.4 0.08 65 301 280 289/ 267 296 722 687 08:46:36 -0.4 0.09 66 301 279 2B9/ 268 296 722
/~N 688 08: 46:37 -0.4 0.08 66 300 280 291/ 267 297 722 689 08:46:37 -0.4 0.09 66 301 278 289/ 269 296 721 690 08:46:38 -0.4 0.08 66 300 280 292/ 267 298 722 691 08:46:38 -0.4 0.09 66 301 279 289/ 269 296 722 692 08:46:39 -0.4 0.11 68 300 279 291/ 270 299 721 693 08:46:40 -0.4 0.10 67 301 27B 289/ 270 298 721 694 08:46:40 -0.4 0.10 67 300 279 291/ 268 299 721 695 08:46:41 -0.4 0.07 66 301 280 289/ 267 296 722 696 08:46:41 -0.4 0.10 67 301 279 289/ 270 297 722 697 08:46:42 -0.4 0.09 66 302 279 289/ 269 296 722 698 08:46:43 -0.4 0.10 67 301 278 290/ 270 298 722 699 08:46:43 -0.4 0.09 66 302 279 289/ 269 297 722 700 08:46:44 -0.4 0.12 67 300 278 290/ 270 299 721 O
A-39
.. .- . . . . . - . - - - - _ - - . . _ _ ~. . - - . . . . .
NOTES TO TABULATION 908813 / N/C
- 1. THIS PROGRAM IS FOR FILE NUMBERS 27 ON...
'2. CRD FREQUENCY READIN6S ARE VALID ONLY WHEN VOLTAGE IS APPLIED
- 3. OPEN THERM 0CDUPLES READ -999
- 4. DATA FOR VOLTAGE, CURRENT,FREQ,PDWER MAY OR l
MAY NOT BE AVAILABLE DURING A SCRAM (DUE TO BACK-EMF MEASUREMENT...SEE LO6)
- 5. POWER RECORDED IS SYSTEM POWER AND INCLUDES
! APPROX 59.1 WATTS DRAWN BY TRANSDUCERS,FREQ h VOLTAGE DROPPING RESISTORS...ETC. i
- c
- CRDTEST.205 4
O t
- O A-40
---n.---- .. -, .,- , - , - , . , . - - - , - - , ,.,w. - - - . 7---,-.- e, -. w.- -. ,, - - - - - , -
~
c CRDTEST.205 DATE 01-21-1986 PAGE 1 908813 / N/C SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ ! 2 3 1 2 3 VOLTS mADC SW s 1 08:47:17 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 379 e s,) 2 08:47:17 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 379
- 3 08:47:18 191 187
- 3 .128 0 0 0 0.00 0.00 -0.00 24.0 379
- 4 08:47:19 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 5 08:47:19 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 6 08:47:20 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 7 08:47:20 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 379
- 8 08:47:21 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 9 08:47:23 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379 +
10 08:47:23 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 11 08:47:24 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 12 08:47:24 191 187
- 3 120 0 0 0 0.00 0.00 0.00 24.0 379
- 13 08:47:25 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 14 08:47:25 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 15 08:47:26 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 16 08:47:27 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 17 08: 47:27 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379 e 18 08:47:28 191 1B7
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 19 08:47:28 191 187 + 3 128 0 0 0 -0.00 0.00 -0.00 24.0 379
- 20 08:47:29 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 21 08: 47:30 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 379
- 22 08:47:30 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 23 08:47:31 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 24 08: 47:31 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 379
- 25 08:47:32 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 26 08:47:32 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 27 08:47:33 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 379 *
\ 28 08:47:34 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 379
- 29 08:47:34 191 187
- 3 125 0 0 0 -0.00 0.00 -0.00 24.0 379
- 30 08:47:35 191 186 171 91 106 105 105 1.18 1.16 1.12 0.1 -1
- 31 08:47:35 190 186 150 70 106 106 105 1.17 1.15 1.11 0.0 -0
- 144 63 107 105 105 1.17 1.16 1.11 0.1 -1
- 32 08:47:36 189 185 33 08:47:36 188 184 141 61 106 106 105 1.18 1.16 1.11 0.0 3
- 34 08:47:37 108 184 139 61 107 105 105 1.17 1.16 1.11 0.1 -1
- 35 08:47:38 187 183 138 61 106 106 105 1.18 1.15 1.11 0.0 0
- 36 08:47:38 186 ,182 138 61 106 105 105 1.17 1.15 1.11 0.1 -0
- 37 08:47:39 185 182 138 61 106 106 105 1.18 1.16 1.11 0.0 -0
- 38 08:47:40 185 181 138 60 107 105 105 1.17 1.16 1.11 0.1 -1
- 39 08:47:40 184 180 138 60 106 106 105 1.17 1.15 1.11 0.0 0
- 40 08: 47:41 183 179 139 60 106 106 105 1.18 1.16 1.11 0.0 -0
- 41 08:47:41 183 179 139 60 106 106 105 1.18 1.16 1.11 0.0 -0
- 42 08:47:42 182 178 139 60 106 106 105 1.17 1.15 1.11 0. 0 -0
- 43 06:47:42 182 177 138 60 107 106 105 1.17 1.16 1.11 0.4 -1
- 44 08:47:43 180 177 139 60 106 106 105 1.18 1.16 1.11 0.0 0
- 45 08:47: 44 180 176 139 60 107 105 105 1.17 1.16 1.11 0.1 -1 +
46 08:47: 44 179 176 138 60 106 106 105 1.18 1.16 1.11 -0.0 0 + 47 08:47:45 179 174 138 60 107 106 105 1.17 1.16 1.11 0.1 -1
- 48 08:47:45 178 174 139 60 106 106 105 1.18 1.16 1.11 0.0 0 +
49 08:47:46 177 173 139 60 107 105 105 1.17 1.16 1.11 0.1 -1
- 50 08: 47:47 176 173 139 60 106 106 105 1.18 1.16 1.11 -0.0 0
- 51 08:47:47 176 172 139 60 107 106 105 1.17 1.16 1.11 0.1 -1
- 52 08:47:48 175 171 140 60 106 106 105 1.18 1.15 1.10 0.0 0
- 140 60 107 105 105 1.17 1.16 1.11 0.1 -1
- 53 0B:47:48 174 170 54 08:47:49 173 170 139 60 106 106 105 1.18 1.16 1.11 0.0 -0
- 139 60 107 106 105 1.17 1.16 1.10 0.1 -1 *
, 55 08:47:49 173 169 \- A-41
l c:CRDTEST.205 DATE 01-21-1986 , PABE 2 908813 / N/C SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW 56 08: 47:50 172 169 139 60 106 106 105 1.18 1.16 1.11 0.0 0
- 1.18 1.16 1.11 0.1 -1
- O' 57 08:47:51 172 167 58 08: 47:51 171 167 139 139 60 60 107 106 106 106 105 105 1.18 1.16 1.11 -0.0 0
- 59 08:47:52 170 166 138 60 107 105 105 1.17 1.15 1.11 0.1 -1
- 60 08:47:52 169 166 139 60 106 106 105 1.18 1.16 1.11 0.0 0
- 61 08:47:53 169 165 139 60 107 106 105 1.18 1.16 1.12 0.1 3
- 62 08: 47:54 168 165 140 60 106 106 105 1.18 1.16 1.11 -0.0 0
- 63 08:47:54 168 163 140 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 64 08:47: 55 167 163 140 60 106 106 105 1.18 1.16 1.12 -0.0 0
- 65 08:47:55 166 162 140 60 107 106 105 1.18 1.16 1.12 0.1 -1
- 66 08:47:56 165 162 140 60 106 106 105 1.18 1.16 1.11 0.0 0
- 67 08:47:56 165 161 140 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 6B 08:47:57 164 160 140 60 106 106 105 1.18 1.16 1.11 0.0 4
- 69 08:47:58 164 159 140 60 107 106 105 1.18 1.16 1.12 0.1 -1
- 70 08:47:58 162 159 140 61 106 106 105 1.18 1.16 1.11 -0.0 1
- 71 08:47:59 162 158 140 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 72 08:47:59 161 158 140 60 106 106 105 1.18 1.16 1.11 0.0 2
- 73 08: 48:00 161 157 140 60 107 105 105 1.18 1.16 1.12 0.1 -1
- 74 08:48:01 160 157 140 60 106 106 105 1.18 1.16 1.11 -0.0 0
- 75 08:48:01 159 155 140 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 76 08:48:02 158 155 140 60 106 106 105 1.18 1.17 1.11 0.0 -0 *
! 77 08:48:03 158 154 140 60 106 106 105 1.18 1.16 1.12 0.1 -0
- 78 08:48:03 157 154 140 60 106 106 105 1.18 1.16 1.11 0.0 0
- j 79 08:48:04 157 153 141 60 106 106 105 1.18 1.16 1.11 0.1 -0
- 80 08:48:04 155 152 140 60 106 106 105 1.18 1.16 1.11 0.0 0
- 81 08:48:05 155 151 141 60 107 106 105 1.18 1.17 1.12 0.1 -1 * ~
82 08:48:05 154 151 141 60 107 106 105 1.18 1.17 1.11 0.0 -0
- 83 08:48:06 154 150 141 60 107 106 105 1.18 1.16 1.11 0.1 -1
- l 84 08:48:07 153 149 141 60 107 106 105 1.18 1.16 1.11 0.0 -1
- 85 08:48:07 153 148 141 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 86 08:48:08 151 148 141 60 106 106 105 1.18 1.17 1.11 0.0 -0
- 87 08:48:08 151 147 141 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 88 08:48:09 150 .147 141 60 106 106 105 1.18 1.16 1.11 0.0 -0
- 89 08:48:10 150 146 - 141 60 -106 106 105 1.18 1.16 1.12 0.0 -0
- 90 08:48:10 149 145 140 60 106 106 105 1.18 1.16 1.11 0.0 -0
- 91 08:48:11 148 145 141 60 106 106 105 1.18 1.16 1.12 0.0 -0
- 92 08: 48:11 147 144 141 60 106 106 105 1.18 1.16 1.11 0.0 0
- 93 08:48:12 147 143 141 60 106 106 105 1.18 1.16 1.11 0.1 -0
- 94 08:48:12 146 143 141 60 106 106 105 1.18 1.17 1.11 0.0 0
- 95 08: 48:13 146 142 141 60 107 106 105 1.17 1.16 1,11 0.1 4
- 96 08:48:14 145 141 141 60 106 106 105 1.18 1.16 1.10 0.0 -0
- 4 97 08: 48:14 144 140 141 60 107 106 105 1 18 1.17 1.11 0.1 -1
- 98 08:48:15 143 140 141 60 107 106 105 1.18 1.17 1.11 0.0 -0
- 99 08: 48:15 143 139 141 60 107 10e 105 1.18 1.16 1.11 0.1 -1 *
,- 100 08: 48:16 142 139 141 60 106 106 105 1.18 1.16 1.11 0.0 -0
- 101 08:48:17 142 138 141 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 102 08:49:17 141 137 141 60 106 106 105 J.18 1,17 1.11 0.0 -0
- 103 08:48:18 140 137 141 61 106 106 105 1.18 1.16 1.12 0.0 -0
- 104 08: 48:18 139 136 142 60 107 106 105 1.18 1.16 1.11 0.1 -0 *
!= 105 08:48:19 139 136 142 61 106 106 105 1.18 1.16 1.12 -0.0 0
- I 106 08:48:19 138 135 142 60 107 106 105 1.18 1.16 1.11 0.0 -0
- 107 08: 48:20 137 134 142 60 106 106 105 1.18 1.16 1.11 0.0 -0
- 108 05:48:21 137 133 141 60 106 106 105 1.18 1.16 1.11 0.0 -0
- 109 08:48:21 136 133 142 60 106 106 105 1.*7 1.16 1.12 -0.0 0
- 110 08:4B:22 135 132 142 60 107 106 105 1.18 1.17 1.11 0.1 -1 *
[ A-42 1
c CRDTEST.205 DATE 01-21-1986 PABE 3 908813 / N/C SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS H2 1 2 3 1 2 3 VOLTS mADC SW 111 08:48:23 135 131 141 60 106 106 105 1.18 1.16 1.12 0.0 -0
- l'_"%s112s) 08:48:23 134 130 141 60 107 106 105 1.18 1.16 1.11 0.1 -1 +
113 08:48:24 133 130 142 60 106 106 105 1.18 1.16 1.11 -0.0 0 e 114 08:48:24 133 129 142 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 115 08:48:25 132 129 142 60 106 106 105 1.18 1.16 1.11 0.0 0
- 116 08:48:25 131 128 142 60 107 106 105 1.17 1.16 1.11 0.1 -1 +
117 08:48:26 130 127 142 60 106 106 105 1.18 1.16 1.11 0.0 0 e 116 08:4B:27 130 126 142 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 119 08:48:27 129 126 142 60 106 106 105 1.18 1.17 1.11 0.0 -0
- 120 08:48:28 129 125 142 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 121 08:48:28 128 125 141 60 107 106 105 1.18 1.17 1.11 0.1 -0
- 122 08:48:29 127 124 142 60 107 106 105 1.18 1.17 1.12 0.1 -1 +
123 08:48:30 126 123 141 60 106 106 105 1.18 1.17 1.11 0.0 1
- 124 08:48:30 126 122 142 60 107 106 105 1.17 1.16 1.11 0.1 -1
- 125 08:48:31 125 122 142 60 106 106 105 1.18 1.17 1.11 0.0 5
- 126 08:48:31 125 121 142 60 106 106 105 1.18 1.16 1.11 0.0 -0
- 127 08:48:32 124 121 142 60 106 106 105 1.18 1.17 1.11 0.0 0
- 128 08:48:32 123 120 142 60 106 106 105 1.18 1.16 1.11 0.0 -0
- 129 08: 48:33 122 120 142 60 106 106 105 1.18 1.16 1.11 0.0 1
- 130 08:48:34 122 119 142 60 106 106 105 1.18 1.16 1.12 0.0 -0 * '
131 08:48:34 121 118 142 60 106 106 105 1.18 1.17 1.11 0.0 0
- 132 08:48:35 121 117 142 60 106 106 105 1.18 1.16 1.11 0.0 -0
- 133 08:48:35 120 117 142 60 106 106 105 1.18 1.17 1.11 0.0 -0 e 134 08:48:36 119 116 142 60 106 106 106 1.18 1.16 1.11 0.0 -0
- 135 08: 48:37 119 115 142 60 107 106 105 1.18 1.17 1.11 0.1 -1 e 136 08:48:37 118 115 142 60 106 106 106 1.18 1.17 1.12 0.0 -0
- 137 08:48:38 118 114 142 60 107 106 105 1.17 1.16 1.11 0.1 -1 *
~
138 08:48:38 117 113 142 60 107 106 105 1.18 1.17 1.12 0.1 -1 139 08:48:39 116 113 142 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 140 08:48:39 116 112 143 60 107 106 105 1.18 1.16 1.11 0.1 -0
- 141 08:48:40 115 111 143 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 142 08:48:41 114 til 142 60 106 106 105 1.18 1.17 1.11 0.0 0
- 143 08: 48:41 113 110 142 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 144 08:48:42 112 110 142 60 106 106 105 1.18 1.17 1.11 0.0 0
- 145 08:48:42 112 109 143 60 107 106 105 1.18 1.17 1.11 0.1 -1 +
146 08:48:43 111 109 143 60 106 106 105 1.18 1.17 1.11 -0.0 1
- 147 08:48:44 til 107 143 60 107 106 105 1.18 1.17 1.11 0.1 -1 e 148 08:48: 44 110 107 143 60 107 106 105 1.18 1.17 1.11 0.1 -0
- 149 08:48:45 110 106 143 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 150 08:48:45 108 106 143 60 106 106 105 1.18 1.17 1.11 0.0 3
- 151 08:48:46 108 105 143 60 106 106 105 1.18 1.17 1.12 0.1 -0
- 152 08:48:47 107 104 143 60 106 106 105 1.18 1.17 1.11 0.0 0
- 153 08:48:47 107 103 143 60 107 106 105 1.18 1.17 1.12 9,1 -1 * ,
154 08: 48: 48 106 103 143 60 106 106 105 1.18 1.16 1.11 -0.0 0
- 155 08:4B:48 106 102 143 60 107 106 105 1.18 1.17 1.12 0.1 -1 +
156 08:4B:49 105 102 143 60 106 106 105 1.19 1.17 1.12 -0.0 0
- 157 08:48:49 104 101 143 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 158 08:48:50 103 101 143 60 106 106 105 1.18 1.17 1.11 0.0 5 +
159 08: 48:51 103 100 143 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 160 08:48:51 102 99 143 60 107 106 105 1.18 ?.17 1.11 0.0 -0 *
, 161 08:48:52 102 98 144 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 162 08:48:52 101 98 143 60 106 106 105 1.18 1.17 1.11 0.1 -0
- 163 08:48:53 100 97 143 60 107 106 105 1.18 1.17 1.11 0.1 -1 +
164 08:48:54 99 97 143 60 106 106 105 1.19 1.17 1.11 0.0 -0
- lT
\s/
165 08:48:54 99 96 143 60 106 106 105 1.18 1.16 1.12 0.0 -0
- i A-43
c CRDTEST.205 DATE 01-21-1986 PAGE 4 908813 / N/C SLAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMFS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW ("sg 166 08:48:55 98 95 143 60 107 106 105 1.18 1.17 1.11 0.0 -0 * % ,/ 167 08:48:55 98 95 143 60 106 106 105 1.18 1.16 1.11 -0.0 0
- 168 08:48:56 97 94 143 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 169 08:48:56 96 93 143 60 106 106 105 1.18 1.17 1.12 0.0 0
- 170 08:48:57 95 93 143 60 106 106 105 1.18 1.17 1.11 0.0 -0
- 171 08: 48:58 95 92 143 60 106 106 105 1.18 1.16 1.11 -0.0 0
- 172 08:48:58 94 91 143 60 107 106 105 1.18 1.17 !.11 0.1 -1
- 173 08:48:59 94 91 143 60 106 106 105 1.18 1.16 1.11 0.0 0
- 174 08:48:59 93 90 143 60 106 106 105 1.18 1.17 1.11 0.0 3
- 175 08:49:00 92 90 143 60 106 106 105 1.18 1.16 1.11 0.0 0
- 176 08:49:01 92 89 143 60 107 106 105 1.18 1.17 1.12 0.1 -0
- 177 08:49:01 91 89 143 60 106 106 105 1.18 1.16 1.11 -0.0 0
- 178 08: 49:02 91 87 143 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 179 08:49:02 90 87 144 60 106 106 105 1.18 1.16 1.11 -0.0 0
- 180 08:49:03 90 86 144 60 107 106 105 1.18 1.16 1.11 0.1 -1 +
181 08:49:04 88 86 144 60 106 106 105 1.18 1.16 1.11 0.1 1
- 182 08:49:04 88 85 145 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 183 08:49:05 87 85 144 60 107 106 105 1.18 1.17 1.11 0.1 -0
- 184 08:49:05 B6 84 144 60 106 106 105 1.18 1.17 1.11 -0.0 1 a 185 08:49:06 86 83 144 60 107 106 105 1.1B 1.17 1.11 0.1 -1
- 186 08:49:07 B5 82 144 60 107 106 105 1.18 1.17 1.12 0.1 -1
- 187 08:49:07 85 82 144 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 188 09: 49:08 84 81 144 60 107 106 105 1.18 1.16 1.11 0.1 2
- 189 08:49:08 83 81 144 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 190 08:49:09 83 80 144 60 106 106 105 1.18 1.17 1.11 -0.0 0
- 191 08:49:10 82 79 144 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 192 08:49:10 81 79 144 60 106 106 105 1.18 1.17 1.11 0.0 -0 *
('] \~/ 193 08:49:11 194 08: 49:11 81 80 78 78 144 144 60 60 107 106 106 106 105 105 1.18 1.19 1.17 1.17 1.11 1.11 0.1 0.0
-1
- 0
- 195 08:49:12 80 77 144 61 107 106 105 1.18 1.17 1.11 0.1 -1
- 196 08:49:13 79 76 144 62 107 106 105 1.18 1.17 1.11 0.0 -0
- 197 08:49:13 79 75 144 61 107 106 105 1.18 1.17 1.11 0.1 -1
- 198 08: 49:14 77 75 144 60 106 106 105 1.18 1.17 1.11 0.0 -0
- 199 08:49:14 77 74 145 60 106 106 105 1.18 1.16 1.11 0.0 0
- 200 08: 49:15 76 74 144 60 106 106 105 1.18 1.17 1.11 0.0 -0
- 201 08:49:15 76 73 144 60 106 106 106 1.18 1.16 1.11 0.0 -0
- 202 08:49:16 75 73 145 60 107 106 105 1.19 1.17 1.11 0.0 2
- 203 08:49:17 74 72 145 60 106 106 105 1.19 1.17 1.11 -0.0 0
- 204 08:49:17 74 71 145 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 205 08:49:18 73 71 145 62 106 106 105 1.19 1.17 1.11 -0.0 0
- 206 08: 49:16 73 70 145 60 107 106 105 1.18 1.17 1.11 0.1 -1 +
207 08:49:19 72 69 145 59 106 106 105 1.18 1.17 1.11 -0.0 0
- 20B 08:49:19 72 69 145 60 107 106 105 1.18 1.17 1.12 0.1 -1
- 209 08:49:20 71 68 145 60 106 106 106 1.18 1.16 1.11 0.0 0
- 210 08:49:21 70 67 145 60 107 106 105 1.18 1.17 1.11 0,1 -1
- 211 08:49:21 69 67 144 60 106 106 105 1.15 1.16 1.11 -0.0 0 4 212 08:49:22 69 66 145 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 213 08:49:22 68 66 145 60 106 106 105 1.29 1.17 1.11 -0<0 0
- 214 08: 49:23 68 65 145 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 215 08:49: 24 67 64 145 60 107 106 105 1.18 1.17 1.11 0.0 -1
- 216 08:49:24 67 64 145 60 107 106 105 1.18 1.17 1.12 0.1 -1 +
217 08:49:25 66 63 145 60 106 106 105 1.1B 1.17 1.11 0.0 -0
- 218 08:49:25 65 62 145 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 219 08: 49:26 64 62 144 60 107 106 105 1.18 1.17 1.11 0.1 -0 *
() 220 08: 49:27 64 61 144 60 106 106 105 1.19 1.17 1.11 0.0 -0
- A-44
c CRDTEST.205 DATE 01-21-1986 PACE 5 SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW 63 60 145 60 107 106 106 1.18 1.16 1.11 0.1 -0 *
/~^g 221 08:49:27 \ ,/ 222 08:49:28 63 60 145 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 223 08:49:28 62 59 145 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 224 08:49:29 61 59 145 60 106 106 105 1.18 1.16 1.11 0.0 0
- 225 08:49:30 61 58 145 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 226 08:49:30 60 57 145 60 106 106 105 1.18 1.17 1.11 0.0 0
- 227 08:49:31 60 57 145 60 107 106 105 1.18 1.17 1.11 0.1 -1 e 228 08:49:31 59 56 145 60 106 106 105 1.19 1.17 1.11 0.0 0
- 58 55 145 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 229 08:49:32 230 08:49:32 57 55 145 60 106 106 105 1.19 1.17 1.11 0.0 0
- 107 106 106 1.18 1.16 1.11 0.1 -0
- 231 08:49:33 57 54 145 60 232 08:49:34 56 54 145 60 106 106 105 1.18 1.16 1.11 0.0 0
- 233 08:49:34 56 53 145 60 107 106 105 1.18 1.17 1.12 0.1 -1
- 234 08:49:35 55 53 145 60 106 106 105 1.18 1.17 1.11 -0.0 0
- 235 08:49:35 55 52 145 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 236 08:49:36 54 52 145 60 106 106 105 1.18 1.16 1.11 -0.0 0
- 53 51 145 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 237 08:49:37 53 50' 145 60 107 106 105 1.18 1.17 1.11 0.1 -0
- 238 08:49:37 239 08:49:38 52 49 145 60 107 106 105 1.18 1.17 1.12 0.1 -1 e 240 08:49:38 51 49 145 60 107 106 105 1.18 1.17 1.11 0.1 -1 e 241 08: 49:39 51 48 145 60 107 106 105 1.1B 1.17 1.11 0.1 -1
- 107 106 105 1.18 1.17 1.11 0.0 -0
- 242 08:49:39 50 48 145 60 60 107 106 105 1.18 1.17 1.12 0.1 -1
- 243 08: 49:40 50 47 145 244 08:49:41 49 46 145 60 107 106 105 1.18 1.17 1.11 0.1 -0
- 245 08:49:41 48 46 145 60 106 106 105 1.18 1.16 1.11 0.0 0
- 246 08:49:42 48 45 146 60 107 106 105 1.18 1.17 1.11 0.0 -0
- 247 08:49:42 47 45 146 60 106 106 105 1.18 1.17 1.11 -0.0 0
- 248 08:49:43 47 44 146 60 107 106 105 1.18 1.17 1.11 0.1 -1 *
{'% 249 08:49:44 46 44 146 60 106 106 105 1.18 1.17 1.11 0.0 0
- 45 43 145 60 107 106 105 1.18 1.16 1.11 0.0 -0
- 250 08:49:44 251 08:49:45 45 43 145 60 106 106 105 1.18 1.17 1.11 -0.0 0
- 44 42 145 60 107 106 105 1.18 1.17 1.11 o.1 -0
- 252 08:49:45 253 08:49:46 43 41 145 60 106 106 105 1.18 1.16 1.11 -0.0 5
- 254 08:49:46 43 40 146 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 255 08:49:47 42 40 145 60 106 106 105 1.18 1.16 1.11 -0.0 0
- 256 08:49:48 42 39 145 60 107 106 105 1.17 1.16 1.11 0.1 -1 e 257 08:49:48 41 38 145 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 258 08:49:49 40 38 145 60 107 106 105 1.18 1.16 1.11 0.1 -0
- 259 08:49:49 40 37 145 60 106 106 105 1.18 1.16 1.11 -0.0 0
- 260 08:49:50 39 37 145 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 261 08:49:51 38 36 145 60 106 106 105 1.18 1.17 1.11 0.0 -0
- 107 106 105 1.18 1.16 1.11 0.1 -1
- 262 08:49:51 38 35 145 60 263 08:49:52 !7 35 146 60 107 106 105 1.18 1.17 1.11 0.0 -1
- 264 08:49:52 37 34 146 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 265 08:49:53 36 34 146 60 107 106 105 1.18 1.17 1.11 0.0 -0
- 266 08:49:54 36 33 146 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 267 08:49:54 35 33 146 60 107 106 105 1.18 1.17 1.11 0.1 -0
- 268 08:49:55 35 32 146 60 107 10b 105 1.17 1.16 1.11 0.1 -1
- 269 08:49:55 34 31 147 60 106 106 105 1.18 1.17 1.11 0.0 -0
- 270 08:49:56 33 31 146 60 106 106 105 1.18 1.16 1.11 0.0 0
- 271 08:49:56 33 30 146 60 107 106 105 1.18 1.17 1.11 0.0 -0
- 272 08:49:57 32 30 146 60 106 106 105 1.16 1.16 1.11 -0.0 0
- 273 08: 49:58 31 29 146 60 106 106 105 1.18 1.17 1.11 0.0 -0
- 274 08:49:58 31 29 146 60 106 106 106 1.18 1.16 1.12 0.0 4 *
() 275 08:49:59 30 28 147 60 107 106 105 1.18 1.17 1.11 0.0 -0
- A-45
1 csCRDTEST.205 DATE 01-21-1986 PAGE 6 gg j j SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S DUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW g 276 08:49:59 29 27 146 60 106 106 105 1.18 1.16 1.11 -0.0 0 e 277 08:50:00 29 26 146 60 107 106 105 1.18 1.16 1.11 0.1 -1
- s/
278 08:50 01 28 26 146 60 106, 106 106 1.18 1.16 1.11 0.0 4
- 279 08:50:01 28 25 147 60 107 106 105 1.18 1.17 1.11 0.1 -1 +
280 08:50:02 27 25 147 60 106 106 105 1.18 1.17 1.12 -0.0 0
- 281 08:50:02 27 24 146 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 282 08:50:03 26 24 147 60 106 106 105 1.18 1.16 1.11 0.0 0
- 283 08:50:04 26 23 146 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 284 08:50:04 25 23 146 60 106 106 105 1.18 1.16 1.11 -0.0 0
- 285 08:50:05 24 22 146 60 107 106 105 1.18 1.17 1.11 0.1 -1 +
286 08:50:05 24 21 146 60 107 106 105 1.18 1.17 1.11 0.0 -0
- 287 08:50:06 23 21 146 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 288 08:50:07 22 20 147 60 107 106 105 1.18 1.17 1.11 0.1 -0
- 289 08:50:07 22 20 147 61 107 106 105 1.18 1.17 1.11 0.1 -1
- 290 08:50:08 21 19 147 60 106 106 105 1.18 1.16 1.11 0.0 -0
- 291 08:50:08 21 18 147 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 292 08:50:09 20 18 147 60 106 106 105 1.18 1.16 1.11 0.0 2
- 293 08:50:09 19 18 147 60 106 106 105 1.18 1.17 1.12 0.0 -0
- 294 08:50:10 19 17 147 60 106 106 105 1.18 1.17 1.11 0.0 0
- 295 08:50:11 18 16 147 60 107 106 105 1.18 1.16 1.11 0.1 -0
- 296 08:50:11 18 15 147 60 .06 106 105 1.18 1.17 1.11 0.0 -0
- 297 08:50:12 17 15 147 60 116 106 106 1.18 1.16 1.11 0.1 -0
- 298 08:50:12 16 14 147 60 IL 6 106 105 1.18 1.17 1.11 -0.0 0
- 299 08:50:13 16 14 147 60 197 106 105 1.18 1.16 1.11 0.1 -1
- 300 08:50:14 15 13 147 60 106 106 105 1.18 1.16 1.11 0.1 1
- 301 08:50:14 15 12 147 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 302 08:50:15 14 12 147 60 107 106 105 1.18 1.17 1.11 0.0 -0
- 303 08:50:15 13 11 147 60 107 106 105 1.18 1.17 1.11 0.1 -1
- O- 304 08:50:16 13 11 147 60 106 106 105 1.18 1.17 1.11 0.0 -0
- 305 08:50:17 12 10 147 60 107 106 105 1.18 1.16 1.11 0.1 -1 306 08:50:17 12 10 146 60 106 106 105 1.18 1.17 1.11 0.0 0
- 307 08:50:18 11 9 147 60 107 106 105 1.18 1.17 1.11 0.1 -1
- 308 08:50:18 to 9 147 60 106 106 105 1.19 1.17 1.11 0.0 1
- 309 08:50:19 10 8 147 60 106 106 105 1.18 1.16 1.11 0.1 -0
- 310 08:50:19 9 7 147 60 106 106 105 1.18 1.16 1.11 0.0 0
- 311 08:50:20 9 7 147 60 106 106 106 1.18 1.16 1.11 0.0 -0 +
312 08:50:21 8 6 148 60 106 106 105 1.18 1.16 1.10 0.0 0* 313 08:50:21 7 6 148 60 106 106 105 1.18 1.16 1.11 0.0 -0
- 314 08:50:22 7 5 148 60 106 106 105 1.18 1.16 1.11 0.0 0 +
315 08:50:22 6 5 148 60 106 106 105 1.17 1.16 1.11 0.1 -0
- 316 08:50:23 6 4 149 60 107 106 105 1.18 1.16 1.11 0.1 -1
- 317 08:50:24 5 3 150 60 107 106 105 1.17 1.16 1.10 0.1 -1
- 318 08:50:24 5 3 151 60 107 106 105 1.17 1.16 1.10 0.0 -0
- 319 08:50:25 4 2 153 60 107 106 105 1.16 1.15 1.10 0.1 -1
- 320 08:50:25 4 1 156 60 106 106 105 1.16 1.15 1.09 0.0 -0
- 321 08:50:26 3 1 158 60 107 106 105 1.15 1.14 1.09 0.1 -1
- 322 08:50:26 3 0 162 60 106 106 105 1.15 1.14 1.08 0.0 -0
- 323 08:50:27 2 0 165 60 106 106 105 1.15 1.14 1.08 0.0 -0
- 324 08:50:28 1 -1 169 60 106 106 105 1.14 1.13 1.07 0.0 -0
- 325 08:50:28 0 -1 174 60 106 106 105 1.13 1.13 1.07 0.0 -0
- 326 08:50:29 1 -2
- 97 82 1 1 2 0.01 0.02 0.01 24.0 382
- 327 08:50:29 0 -2
- 44 119 0 0 1 0.00 0.01 0.00 24.0 382
- 328 08:50:30 0 -2
- 21 124 0 0 0 0.00 0.00 0.00 24.0 382
- 329 08:50:31 0 -2
- 12 128 0 0 0 0.00 0.00 0.00 24.0 382 *
/~'T 330 08:50:31 0 -1
- 7 127 .0 0 0 0.00 0.00 0.00 24.0 382
- V A-46
c CRDTEST.205 DATE 01-21-1986 PAGE 7 gg j j
. SCAN TIME ROD POSN SWITCH PWR FRED VOLTS AMPS ----BRAKE----
(HRS) N S DUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW 331 0B:50:32 -2
- 0.00 0.00 0.00 24.0 382 *
('"} 1 5 128 4 128 0 0 0 0 0.00 0.00 0.00 24.0 381 * \m / 332 08:50:32 0 -1 0 0 333 08:50:33 0 -2
- 4 128 0 0 0 0.00 0.00 0.00 24.0 381
- 334 08:50:34 0 -1
- 4 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 0 -2
- 3 128 0 0 0 0.00 0.00 0.00 24.0 381
- 335 08:50:34 336 08:50:35 0 -1
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 337 08:50:36 0 -1
- 3 128 0 0 0 0.00 0.00 0.00 24.0 381
- 338 08:50:36 0 -1
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 339 08:50:37 1 -2
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 382
- 340 08:50:37 0 -1
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 381
- 341 08:50:38 0 -2
- 3 128 0 0 0 0.00 0.00 0.00 24.0 382
- 342 08:50:39 0 -1
- 3 128 1 1 2 0.99 1.50 2.31 0.0 -0
- 343 08:50:39 1 -1 192 85 106 105 105 1.07 1.12 1.10 0.0 -1
- 344 08:50:40 1 -0 192 68 106 105 105 1.07 1.12 1.09 0.0 -0
- 345 08:50:40 2 0 197 62 106 105 105 1.07 1.12 1.09 0.0 -1 +
346 08:50:41 3 1 202 61 106 105 105 1.06 1.11 1.08 0.0 -0
- 3 208 60 107 105 105 1.06 1.11 1.08 0.1 -0
- 347 08:50:42 1 348 08:50:42 4 2 213 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 349 08:50:43 4 3 218 60 107 105 105 1.06 1.12 1.08 0.1 -1
- 5 3 222 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 350 08:50:43 351 08:50:44 6 4 225 60 107 105 105 1.06 1.11 1.08 0.0 -0
- 352 08:50:44 6 4 228 60 106 105 105 1.07 1.12 1.08 0.~ 1 -1
- 353 08:50:45 7 5 230 60 107 105 105 1.06 1.12 1.08 0.1 -0
- 354 08:50:46 7 5 232 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 355 08:50:46 8 6 232 61 107 105 105 1.06 1.11 1.08 0.0 -0
- 356 08:50:47 9 6 232 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 357 08:50:48 9 7 233 60 106 106 105 1.06 1.12 1.08 0.1 -1
- 358 08:50:48 10 8 233 60 106 105 105 1.06 1.12 1.08 0.1 -1
- f' 359 08:50:49 10 8 233 60 106 105 105 1.07 1.12 1.08 0.1 3
- 360 08:50:49 11 9 234 60 106 105 105 1.06 1.12 1.00 0.1 -1
- 361 08:50:50 12 9 233 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 362 08:50:51 12 10 233 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 13 233 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 363 08:50:51 11 364 08:50:52 13 11 233 61 106 105 104 1.06 1.12 1.08 0.0 0
- 365 08:50:52 14 12 234 60 106 106 105 1.06 1.12 1.07 0.1 -1
- 366 08:50:53 14 13 234 61 106 105 104 1.06 1.12 1.08 0.0 4
- 367 08:50:54 15 13 234 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 368 08:50:54 16 14 234 60 106 106 104 1.07 1.12 1.0B 0.0 -0
- 369 08:50:55 17 14 234 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 370 08:50:55 17 15 234 62 106 105 104 1.06 1.12 1.08 0.0 3
- 371 08:50:56 18 15 234 60 106 105 105 1.07 1.12 1,08 0.1 -1
- 372 08:50:57 18 16 233 61 106 105 105 1.06 1.11 1.08 -0.0 6
- 373 08:50:57 19 17 234 60 107 105 105 1.06 1.12 1.08 0.0 -0
- 374 08:50:58 19 18 234 60 106 105 104 1.06 1.12 1.07 0.0 2 +
375 OR:50:59 20 18 234 61 106 105 105 1.06 1.12 1.08 0.0 -0
- 376 08: 50:59 21 19 234 61 106 105 105 1.06 1.11 1.07 -0.0 0
- 377 08:51:00 21 19 234 60 106 105 105 1.06 1.11 1.08 0.1 -0 * ,
378 08:51:01 22 20 234 60 106 105 104 1.06 1.12 1.08 0.0 0
- 379 08:51:01 22 21 234 60 106 105 105 1.06 1.11 1.08 0.0 0
- 380 08:51:02 23 21 234 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 381 08:51:02 24 22 234 60 107 105 105 1.06 1.11 1.08 0.0 -0
- 382 08:51:03 24 22 234 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 383 08:51:04 25 23 234 60 107 105 105 1.06 1.12 1.08 0.0 -0
- 384 08:51:04 26 23 234 60 106 105 105 1.07 1.12 1.08 0.1 -1 *
() 385 08:51:05 26 24 234 60 107 105 105 1.06 1.12 1.08 0.0 -0
- A-47
c CRDTEST.205 DATE 01-21-1986 PABE 8 908813 / N/C SCAN TIME ROD POSN SWITCH PWR FRED VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW s 386 08:51:05 27 24 234 60 106 105 105 1.06 1.12 1.08 0.1 -1 * (~'/ (,, 387 08:51:06 27 25 235 60 106 105 105 1.06 1.12 1.08 0.0 -0
- 388 08:51:07 28 26 236 60 106 105 105 1.07* 1.12 1.08 0.1 -1 .*
389 08:51:07 29 26 235 60 106 106 105 1.07 1.12 1.08 0.1 -1
- 390 08:51:08 29 27 235 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 391 08:51:08 30 27 235 60 106 106 105 1.06 1.12 1.08 0.1 -0
- 392 03:51:09 30 28 235 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 393 08:51:10 31 29 236 60 106 105 104 1.06 1.12 1.08 0.0 0
- 394 08:51:10 32 29 235 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 395 08:51:11 32 30 235 60 106 106 104 1.06 1.12 1.08 0.0 -0
- 396 08:51:11 33 31 235 60 106 105 105 1.06 1.11 1.08 0.0 -0
- 397 08:51:12 33 31 235 60 106 105 104 1.06 1.12 1.07 0.0 0
- 39B 08:51:13 34 32 236 60 107 105 105 1.06 1.11 1.08 0.0 -0
- 399 08:51:13 35 33 235 60 106 105 105 1.06 1.12 1.08 0.0 0
- 400 08:51:14 35 33 236 60 106 105 105 1.06 1.12 1.08 0.0 -1 +
401 08:51:14 36 34 235 60 106 105 105 1.06 1.12 1.08 -0.0 0
- 402 08:51:15 37 34 236 60 107 105 105 1.06 1.12 1.08 0.0 -0
- 403 08:51:16 37 35 235 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 404 08:51:16 38 36 235 60 106 105 104 1.06 1.12 1.07 0.0 0
- 405 08:51:17 38 36 235 60 106 105 105 1.06 1.12 1.07 0.0 0
- 406 08: 51:18 39 37 236 60 106 105 105 1.06 1.12 1.08 0.0 -0
- 407 08:51:18 40 37 236 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 408 08:51:19 41 38 236 60 106 105 105 1.06 1.12 1.07 0.0 -0
- 409 08:51:19 41 38 236 60 106 105 105 1.06 1.11 1.08 0.1 -1
- 410 08:51:20 42 39 236 60 107 105 105 1.06 1.12 1.08 0.0 -0 +
411 08:51:21 43 40 235 60 106 105 105 1.06 1.12 1.07 0.1 -1
- 412 08:51:21 43 40 235 60 106 105 104 1.07 1.12 1.07 0.1 -0 *
/~ 413 08:51:22 44 41 236 60 106 105 105 1.07 1.12 1.08 0.1 -1 * \~ h' 414 08:51:22 44 42 236 60 106 105 105 1.07 1.12 1.08 0.1 -0
- 415 08:51:23 45 42 235 61 106 105 105 1.07 1.12 1.08 0.1 -1
- 416 08:51:24 45 43 236 61 106 105 104 1.06 1.12 1.07 0.0 -0
- 417 08:51:24 46 43 236 61 106 105 105 1.07 1.12 1.08 0.1 -1
- 418 08:51:25 47 44 236 61 106 105 104 1.07 1.12 1.07 0.1 -1
- 419 08:51:26 47 45 236 61 106 105 105 1.06 1.11 1.07 -0.0 0
- 420 08:51 26 48 45 235 61 106 105 104 1.06 1.12 1.07 0.1 -0
- 421 08:51:27 48 46 236 61 106 105 104 1.06 1.12 1.07 0.0 -0
- 422 08:51:27 49 47 236 60 105 105 104 1.06 1.11 1.07 0.1 -1
- 423 08:51:28 50 47 236 60 106 105 104 1.06 1.12 1.07 -0.0 0
- 424 08:51:29 50 48 236 60 105 105 104 1.07 1.12 1.07 0.1 -0
- 425 08:51:29 51 49 235 60 106 105 104 1.06 1.11 1.07 0.0 0
- 426 08:51:30 52 49 235 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 427 08:51:30 52 50 235 60 106 105 104 1.06 1.11 1.07 0.J 0
- 428 08:51:31 53 50 236 62 106 105 105 1.06 1.12 1.08 0.1 -0
- 429 08:51:32 53 51 236 61 106 105 104 1.06 1.12 1.0/ -0.0 0
- 4J0 0B:51:32 54 51 236 60 106 105 105 1.06 1.12 1.07 v.0 -0
- 431 08:51:33 55 52 236 60 106 105 105 1.06 1.12 1.07 0.0 0
- 432 08:51:33 56 5! 236 60 106 105 105 1.06 1.11 1.07 0.0 -1
- 433 08:51:34 56 54 236 60 106 105 104 1.06 1.11 1.07 -0.0 0
- 434 08:51:35 57 54 236 60 106 105 105 1.06 1.11 1.07 0.0 4
- 435 08:51:35 57 55 236 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 436 08:51 36 58 55 236 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 437 08:51:36 58 56 236 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 438 0B:51:37 59 56 237 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 439 08:51:38 60 57 237 60 105 105 104 1.07 1.12 1.07 0.1 -1 *
'() 440 08:51:38 60 SB 237 61 106 105 104 1.07 1.12 1.07 0.0 -0
- A-48
.c CRDTEST.205 DATE 01-21-1986 PAGE 9 gg
, j j .
SCAN TIME ROD POSN SWITCH PWR FRED VOLTS AMPS ----BRAKE---- (HRS) N S DUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW 441 08:51:39 61 59 237 61 106 105 104 1.06 1.12 1.07 -0.0 0
- k's- 442 08:51:40 62 59 237 60 106 105 105 1.07 1.12 1.08 0.0 -1
- 443 08:51:40 62 60 237 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 444 08:51:41 63 61 236 60 106 105 104 1.07 1.12 1.07 0.0 0
- 445 08:51:41 64 61 237 60 106 105 105 1.07 1.12 1.07 0.1 3 +
446 08:51:42 64 62 236 60 106 105 104 1.06 1.12 1.07 0.0 0
- 447 08:51:43 65 62 236 60 106 106 104 1.06 1.12 1.07 0.1 -0
- 448 08:51:43 65 63 236 60 106 105 105 1.06 1.12 1.07 -0.0 0
- 449 08:51:44 66 63 236 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 450 08:51:44 67 64 237 60 106 105 104 1.06 1.12 1.07 -0.0 0
- 451 08:51:45 68 65 238 60 106 105 105 1.07 1.12 1.08 0.0 -1
- 452 08:51:46 68 66 237 60 106 105 105 1.06 1.12 1.07 -0.0 0
- 453 00:51:46 69 66 237 60 106 105 105 1.07 1.12 1.07 0.0 -1
- 454 08:51:47 69 67 237 60 106 105 104 1.06 1.12 1.07 0.0 -0
- 455 08:51:47 70 67 237 60 106 105 105 1.07 1.12 1.0B 0.1 -1
- 456 08:51:48 71 68 237 60 106 105 105 1.06 1.12 1.07 -0.0 0
- 457 08:51:49 71 60 237 60 106 105 105 1.06 1.12 1.07 0.0 -1
- 458 08:51:49 72 69 237 60 106 105 104 1.06 1.12 1.07 0.0 -0
- 459 08:51:50 73 70 237 60 106 105 105 1.07 1.12 1.0B 0.0 -1
- 460 08:51:50 73 70 238 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 461 05:51:51 74 71 237 60 106 105 105 1.06 1.12 1.07 0.1 -1
- 462 00:51:52 74 71 238 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 463 08:51:52 75 72 238 61 106 105 105 1.07 1.12 1.08 0.1 -1
- 464 08:51:53 76 73 238 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 465 08:51:53 76 73 237 60 107 105 105 1.06 1.12 1.07 0.0 -0
- 466 08:51:54 77 74 238 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 467 08:51:55 77 75 237 60 106 105 104 1.07 1.12 1.07 0.1 -0 *
("N 468 08:51:55 78 75 237 60 106 105 105 1.07 1.12 1.07 0.1 -1 *
\-- 469 08:51:56 79 76 237 61 106 105 104 1.07 1.12 1.07 0.0 0
- 470 08:51:56 79 77 238 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 471 08:51:57 80 78 238 61 106 105 104 1.06 1.12 1.07 0.0 0
- 472 08:51:58 81 78 238 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 473 08:51:58 01 79 238 62 106 105 104 1.07 1.12 1.07 0.0 0
- 474 08:51:59 82 79 238 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 475 0B:51:59 83 80 238 61 106 105 104 1.06 1.12 1.07 0.0 0
- 476 08:52:00 84 81 238 60 106 105 105 1.06 1.12 1.07 0.0 -0
- 477 08:52:01 84 81 238 60 106 105 105 1.06 1.12 1.07 0.0 -0
- 478 08:52:01 85 82 23B 60 106 105 105 1.06 1.12 1.07 0.1 -1
- 479 08:52:02 85 83 237 60 106 105 104 1.06 1.12 1.07 0.0 0
- 460 08:52:03 86 83 238 60 106 105 105 1.06 1.12 1.07 0.0 -0
- 481 08:52:03 87 84 238 60 106 105 104 1.06 1.12 1.07 0.0 0
- 482 08:52:04 87 85 238 60 106 105 105 1.06 1.11 1.07 0.0 -0
- 483 08:52:05 85 85 238 60 106 105 105 1.06 1.12 1.07 0.1 -1 * ,
484 08:52:05 89 36 238 60 106 105 105 1.06 1.12 1.07 0.0 -0
- 485 08:52:06 90 86 738 60 106 105 105 1.06 1.11 1.07 0.1 -1
- 486 08:52:06 90 87 238 50 106 105 105 1.06 1.11 1.07 0.0 -0
- 487 08:52:07 91 88 238 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 488 08:52:06 92 BB 238 60 106 105 105 1.06 1.12 1.07 0.0 -0
- 489 08:52:08 92 89 238 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 490 08:52:09 93 90 238 60 106 105 105 1.06 1.12 1.07 0.0 -0
- 491 08:52:09 94 90 238 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 492 08:52:10 94 91 238 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 493 08:52:11 95 91 235 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 494 08:52:11 95 92 238 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 495 96 93 238 106 105 105 1.06 1.12 1.08 0.1 -1 *
-( ) 00:52:12 61 A-49
c:CRDTEST.205 DATE 01-21-19Bh PABE 10 908813 / N/C SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S DUT IN WATTS HZ 1 2 3 1 2 3 VOLTS aADC SW 1.07 1.12 1.07 -1 *
~
% 496 08:52:12 96 94 238 60 106 105 105 0.1 497 08:52:13 97 94 238 60 106 105 105 1.06 1.12 1.07 0.1 -1
- 498 08:52:14 98 95 239 60 106 105 105 1.06 1.12 1.07 0.1 -1
- 499 08:52:14 98 96 238 60 106 105 104 1.06 1.12 1.07 0.0 0
- 500 08:52:15 99 96 238 60 106 105 105 1.07 1.12 1.07 0.1 -1
- l 501 08:52:15 100 97 237 60 106 105 104 1.06 1.12 1.07 0.0 -0
- 502 08:52:16 100 97 238 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 503 08:52:17 101 98 239 60 106 105 104 1.06 1.12 1.07 0.0 0
- 504 08:52:17 102 98 239 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 505 08:52:18 102 99 239 60 106 105 104 1.06 1.12 1.07 0.1 -0
- 506 08:52:18 103 100 239 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 507 08:52:19 104 101 239 60 106 105 104 1.06 1.12 1.07 0.0 -0 a 508 08:52:20 104 101 238 60 106 105 105 1.06 1.12 1.07 -0.0 0
- 509 08:52:20 105 102 239 60 106 105 104 1.06 1.12 1.07 0.1 -0
- 510 08:52:21 106 103 238 61 106 105 104 1.06 1.12 1.07 -0.0 0
- 511 08:52:21 106 103 238 61 106 105 104 1.07 1.12 1.07 0.0 0 e 512 08:52:22 107 104 238 60 106 105 105 1.06 1.12 1.07 0.0 0
- 513 08:52:23 108 105 239 60 106 105 104 1.07 1.12 1.07 0.0 -0
- 514 08:52:23 108 106 239 60 106 105 104 1.06 1.12 1.07 -0.0 0
- 515 08:52:24 109 106 239 60 106 105 105 1.07 1.12 1.07 0.0 -1
- 516 08:52:25 110 107 239 60 106 105 104 1.06 1.12 1.07 0.0 -0
- 517 08:52:25 Ill 107 239 60 107 105 105 1.06 1.12 1.07 0.0 -0
- 518 08:52:26 111 108 239 60 106 105 104 1.06 1.12 1.07 0.0 3
- 519 08:52:26 112 108 239 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 520 08:52:27 112 109 239 62 106 105 104 1.06 1.12 1.07 -0.0 0
- 521 08:52:28 113 110 239 61 106. 105 105 1.07 1.12 1.07 0.0 -1
- 522 08:52:28 114 til 239 61 106 105 104 1.06 1.12 1.07 0.0 -0
- f~} 523 08:52:29 115 111 239 60 106 105 105 1.07 1.12 1.08 0.0 -1 *
' - ' 524 08:52:29 115 112 239 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 525 08:52:30 116 112 239 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 526 08:52:31 117 113 240 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 527 08:52:31 117 114 240 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 528 08:52:32 118 114 240 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 529 08:52:32 119 115 239 60 106 105 105 1.06 1.12 1.08 0.0 -1
- 530 08:52:33 119 116 239 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 531 08:52:34 119 117 239 60 106 105 104 1.06 1.12 1.07 0.1 2
- 532 08:52:34 120 117 239 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 533 08:52:35 121 118 239 60 105 105 104 1.07 1.12 1.07 0.1 -1
- 534 08:52:35 122 118 239 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 535 08:52:36 122 119 239 60 106 105 104 1.06 1.12 1.07 0.1 -0
- 536 08:52:37 123 120 240 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 537 08:52:37 124 121 240 60 105 105 104 1.06 1.12 1.07 0.1 -1
- l 538 08:52:38 125 121 240 60 106 105 105 1.07 1.12 1.07 0.1 -f
- 539 08:52:38 125 122 240 60 105 105 104 1.06 1.11 1.07 0.0 -0
- 540 08:52:39 126 123 239 60 106 105 104 1.06 1.12 1.07 -0.G 0 5 541 08:52:40 126 123 240 60 105 105 104 1.07 1.12 1.07 0.1 -1
- 542 08:52: 40 127 124 239 60 106 105 104 1.06 1.12 1.07 0.0 0
- 543 08:52:41 128 125 239 60 105 105 104 1.06 1.11 1.07 0.1 -0 * ,
544 08:52:41 128 125 239 60 106 105 104 1.06 1.12 1.07 0.0 -0
- 545 08:52:42 129 126 240 60 105 105 104 1.07 1.12 1.07 0.0 -0
- 546 08:52:43 130 127 240 60 106 105 104 1.06 1.11 1.07 0.0 6
- 547 08:52:43 131 127 240 60 106 105 105 1.06 1.11 1.07 0.1 -1
- 548 09:52:44 131 128 240 60 106 105 104 1.06 1.11 1.07 0.0 0
- 549 08:52:45 132 129 240 60 106 105 105 1.06 1.11 1.07 0.1 -1 *
() 550 08:52:45 133 130 240 62 106 105 104 1.06 1.12 1.07 0.0 0
- A-50
c CRDTEST.205 DATE 01-21-198b PA8E 11
. 908813 / N/C SCAN TIME ROD POSN SW1TCH PWR FREQ VOLTS AMPS ----BRAKE----
(HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW 551 08:52: 46 134 130 240 61 106 105 105 1.06 1.11 1.07 0.0 -0 * ('_/} s 552 08:52:46 134 131 240 61 106 105 104 1.06 1.12 1.07 -0.0 0
- 553 08:52:47 135 131 240 60 106 105 105 1.06 1.11 1.08 0.1 -0
- 554 08:52:48 135 132 239 60 106 105 104 1.06 1.12 1.07 0.0 0
- 555 08:52:48 136 133 240 60 106 105 105 1.06 1.11 1.08 0.1 -0
- 556 08:52:49 137 133 240 60 106 105 105 1.06 1.11 1.07 0.1 -1
- 557 08:52:49 138 134 240 60 106 105 105 1.06 1.12 1.07 0.1 -0
- 558 08:52:50 138 135 240 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 559 08:52:51 139 135 240 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 560 08:52:51 140 136 241 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 561 08:52:52 140 137 240 60 106 105 105 1.06 1.11 1.07 0.1 -0
- 562 08:52:53 141 137 240 60 106 105 105 1.06 1.12 1.07 0.1 -1
- 563 08:52:53 141 138 240 60 106 105 104 1.07 1.12 1.07 0.1 -0
- 564 08:52:54 142 139 240 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 565 08:52:54 143 140 240 60 106 105 104 1.07 1.12 1.07 0.0 -0 e 566 08:52:55 144 140 240 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 567 08:52:56 144 141 240 60 106 105 104 1.06 1.12 1.07 0.0 -0 e 568 08:52:56 145 141 241 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 569 08:52:57 146 142 241 60 106 105 105 1.06 1.12 1.07 0.1 -0
- 570 08:52:57 147 143 241 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 571 08:52:58 147 144 241 60 106 105 104 1.07 1.12 1.07 0.1 5
- 572 08:52:59 148 145 241 60 106 105 104 1.07 1.12 1.07 -0.0 0
- 573 08:52 59 148 145 241 60 106 105 104 1.07 1.12 1.07 0.1 3
- l 574 08:53:00 149 146 240 60 106 105 105 1.07 1.12 1.07 -0.0 0
- 575 08:53:01 150 146 240 60 106 105 104 1.06 1.12 1.07 0.0 0
- 576 08:53:01 151 147 240 60 106 105 105 1.06 1.12 1.07 0.0 0
- 577 08:53:02 151 148 241 60 106 105 104 1.07 1.12 1.07 0.0 0
- f') 578 08:53:02 152 149 241 62 106 105 105 1.06 1.12 1.07 -0.0 0 *
\/ 579 08:53:03 153 149 242 62 106 105 105 1.07 1.12 1.07 0.1 -1
- 580 08:53:04 153 150 241 61 106 105 105 1.06 1.12 1.07 0.1 -0
- 581 08:53:04 154 150 241 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 582 08:53:05 155 151 241 60 106 105 105 1.07 1.12 1.08 0.0 1
- 583 08:53:05 155 152 241 59 106 105 105 1.06 1.12 1.07 0.1 -1
- 584 08:53:06 156 153 241 60 106 105 105 1.06 1.12 1.07 0.0 -0
- 585 08:53:07 157 153 241 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 586 08:53:07 157 154 241 60 105 105 104 1.07 1.12 1.07 0.0 -0
- 587 08:53:08 158 155 241 60 106 105 105 1.06 1.11 1.07 0.0 -0 e 588 08:53:09 159 155 241 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 589 08:53:09 100 156 242 60 106 105 105 1.06 1.12 1.08 0.1 -1
- 590 08:53:10 160 157 241 60 105 105 104 1.07 1.12 1.07 0.0 -0
- 591 08:53:10 161 157 242 60 106 105 105 1.07 1.12 ;.08 0.1 -1
- 592 08:53:11 162 158 241 60 105 105 104 1.07 1.12 1.07 0.1 -1
- 593 08:53:12 163 159 241 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 594 08:53:12 163 160 242 60 105 105 104 1.07 1.12 1.07 0.0 -0
- 595 08:53:13 164 160 241 60 10( 105 104 1.06 1.12 1.07 0.0 0
- 596 08:53:13 164 161 241 60 105 105 104 1.07 1.12 1.07 0.0 -0
- 597 08:53:14 165 162 241 60 106 105 104 1.05 1.12 1.47 0.0 1
- 598 08:53:15 166 162 241 62 106 105 104 1.06 1.12 1.07 0.1 2
- 599 08:53:15 167 163 241 61 106 105 104 1.06 1.12 1.07 -0.0 0
- 600 08:53:16 167 164 242 60 105 105 104 1.07 1.12 1.07 0.1 -1
- 601 08:53:16 168 164 242 60 106 105 104 1.07 1.12 1.07 0.0 0
- 602 08:53:17 169 165 242 61 106 105 105 1.06 1.11 1.07 0.1 -1
- 603 08:53:18 169 166 241 61 106 105 105 1.06 1.12 1.07 0.0 0
- 604 08:53:18 170 166 242 60 106 105 105 1.07 1.12 1.07 0.0 -1 *
() 605 08:53:19 171 167 242 60 106 105 104 1.06 1.12 1.07 -0.0 0
- A-51
c CRDTEST.205 DATE 01-21-1986 PA8E 12 908813 / N7C SCAN TIME ROD POSN SWITCH PWR FRED VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS aADC SW
~'
606 08:53:19 172 167 242 60 106 105 105 1.07 1.12 1.07 0.1 -1
- s 607 08:53:20 172 169 242 60 106 105 105 1.06 1.12 1.07 0.0 -0
- 608 08:53:21 173 169 242 60 106 105 105 1.06 1.11 1.08 0.0 -1
- 609 08:53:21 174 170 243 60 106 105 105 1.06 1.12 1.07 0.0 0
- 610 08:53:22 175 170 242 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 611 0P: 53:22 175 171 242 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 612 08:53:23 176 172 242 60 106 105 105 1.07 1.11 1.07 0.1 -1
- 613 08:53:24 177 173 243 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 614 08:53:24 177 173 242 60 106 105 105 1.07 1.12 1.0B 0.1 -1
- 615 08:53:25 178 174 242 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 616 08:53:25 179 175 242 60 106 105 105 1.07 1.12 1.08 0.0 -1
- 617 08:53:26 179 175 242 60 106 105 105 1.07 1.12 1.08 0.1 -1
- 618 08:53:27 180 176 242 60 106 105 104 1.07 1.12 1.07 0.0 0
- 619 08:53:27 181 177 242 61 106 105 105 1.07 1.12 1.08 0.1 -1
- 620 08:53:28 181 178 242 61 106 105 104 1.06 1.12 1.07 0.0 -0 e 621 08:53:28 182 178 242 61 106 105 105 1.07 1.12 1.07 0.1 -1
- 622 08:53:29 183 179 243 61 106 105 104 1.07 1.12 1.07 0.0 0
- 623 08:53:30 183 180 243 61 106 105 104 1.07 1.12 1.07 0.0 0
- 624 0B:53:30 184 180 243 60 106 105 105 1.06 1.12 1.07 0.1 1
- 625 08:53:31 185 181 242 60 106 105 105 1.07 1.12 1.07 0.1 -1
- 626 08:53:32 186 182 242 60 106 105 104 1.07 1.12 1.07 0.1 2
- 627 08:53:32 186 183 242 60 106 105 104 1.06 1.12 1.07 -0.0 0
- 628 08:53:33 187 183 242 60 106 105 104 1.07 1.12 1.07 0.1 0
- 629 08:53:33 188 184 242 60 106 105 105 1.06 1.11 1.07 0.0 -0
- 630 08:53:34 188 185 242 60 106 105 104 1.06 1.12 1.07 0.0 -0
- 631 08:53:35 189 185 242 62 106 105 105 1.06 1.11 1.07 0.1 -0
- 632 08:53:35 190 186 243 62 106 105 104 1.07 1.12 1.07 0.0 3
- 633 08:53:36 191 187
- 242 62 101 97 94 0.78 0.79 0.63 24.0 381 *
(' ~' 634 08:53:36 191 187
- 112 91 1 1 1 0.01 0.01 0.01 24.0 381
- 635 08:53:37 191 187
- 50 121 0 0 0 0.00 0.00 0.00 24.0 381
- 636 08:53:38 191 187
- 24 112 0 0 0 0.00 0.00 0.00 24.0 381
- 637 08:53:38 191 187
- 13 119 0 0 0 0.00 0.00 0.00 24.0 381
- 638 08:53:39 191 187
- 8 114 0 0 0 0.00 0.00 -0.00 24.0 381
- 639 08:53:39 191 167
- 6 121 0 0 0 0.00 0.00 0.00 24.0 381
- 640 08:53: 40 191 187
- 5 116 0 0 0 0.00 0.00 0.00 24.0 381
- 641 08:53: 41 191 187
- 4 111 0 0 0 0.00 0.00 0.00 24.0 381
- 642 08:53:41 191 187
- 4 115 0 0 0 0.00 0.00 -0.00 24.0 381
- 643 08:53:42 191 187
- 4 113 0 0 0 0.00 0.00 -0.00 24.0 381
- 644 08:53: 43 191 187
- 4 118 0 0 0 0.00 0.00 -0.00 24.0 381
- 645 08:53:43 191 187
- 3 122 0 0 0 -0.00 0.00 -0.00 24.0 381
- 646 08:53:44 191 187
- 3 121 0 0 0 0.00 0.00 -0.00 24.0 381
- 647 08:53:44 191 187
- 3 123 0 0 0 0.00 0.00 -0.00 24.0 381 *
, 648 08:53:45 191 187
- 3 124 0 0 0 0.00 0.00 -0.00 24.0 381
- 649 08:53:46 191 187
- 3 122 0 0 0 0.00 0.00 -0.00 24.0 381
- 650 08:53:46 191 187
- 3 122 0 0 0 0.00 0.00 -0.00 24.0 300
- 651 08:53:47 101 187
- 3 124 0 0 0 0.00 0.00 -0.00 24.0 381
- 652 08:53: 47 191 187
- 3 122 0 0 0 0.00 0.00 -0.00 24.0 381
- 653 08:53:48 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 380
- 654 08:53:49 191 187
- 3 116 0 0 0 0.00 0.00 -0.00 24.0 381
- 655 08:53:49 191 187
- 3 118 0 0 0 0.00 0.00 -0.00 24.0 380
- 656 08:53:50 191 187
- 3 121 0 0 0 0.00 0.00 -0.00 24.0 380
- 657 08:53:50 191 187 + 3 121 0 0 0 0.00 0.00 -0.00 24.0 380
- 658 08:53:51 191 187
- 3 119 0 0 0 0.00 0.00 -0.00 24.0 380
- 659 08:53:52 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 300 *
() 660 08:53:52 191 187 3 114 0 0 0 0.00 0.00 -0.00 24.0 381 A-52
c CRDTEST.205 DATE 01-21-1986 PABE 13 908813 / N/C SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S DUT IN WATTS -HZ 1 2 3 1 2 3 VOLTS mADC SW e- 661 08:53:53 191 187
- 3 112 0 0 0 0.00 0.00 -0.00 24.0 381 *
- - k m,}e 662 08:53:54 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 380
- 663 08:53:54 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 380
- 664 08:53:55 191 187
- 3 118 0 0 0 0.00 0.00 -0.00 24.0 380 *
! 665 08:53:55 191 187
- 3 120 0 0 0 -0.00 0.00 -0.00 24.0 380 e 666 08:53:56 191 187
- 3 119 0 0 0 0.00 0.00 -0.00 24.0 380
- l 667 08:53:56 191 187
- 3 119 0 0 0 -0.00 0.00 -0.00 24.0 380 * '
668 08:53:57 191 187
- 3 118 0 0 0 -0.00 0.00 -0.00 24.0 380 *
.i, i 1- 'u A-53 i i
c CRDTEST.205 DATE 01-21-1986 ' ' PAGE 1 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. 1 08:47:17 -0.4 0.10 67 300 278 291/ 270 298 723 O' 2 08:47:17 -0.4 0.09 65 301 300 279 278 289/ 268 291/ 270 295 298 723 723 3 08:47:18 -0.4 0.11 67 4 00:47:19 -0.4 0.07 66 302 280 289/ 268 295 723 5 08:47:19 -0.4 0.10 66 300 278 290/ 270 297 723 6 08:47:20 -0.4 0.07 66 301 280 290/ 267 296 724 7 08:47:20 -0.4 0.11 67 300 278 290/ 270 297 723 8 08:47:21 -0.4 0.07 66 301 280 290/ 267 296 723 9 08:47:23 -0.4 0.07 66 301 280 289/ 267 295 723 10 08:47:23 -0.4 0.11 67 300 278 291/ 269 298 722 11 08: 47:24 -0.4 0.07 66 301 280 290/ 267 295 723 12 08:47:24 -0.4 0.11 67 300 278 290/ 270 298 722 13 08:47:25 -0.4 0.08 65 301 280 290/ 267 295 723 14 08:47:25 -0.4 0.10 67 300 278 291/ 269 298 723 15 08:47:26 -0.4 0.08 66 300 280 291/ 267 297 723 16 08:47:27 -0.4 0.10 67 299 279 292/ 269 298 723 17 08:47:27 -0.4 0.08 66 301 280 289/ 268 295 723 18 08:47:28 -0.4 0.08 66 300 279 292/ 267 297 723 19 08:47:28 -0.4 0.10 67 301 278 289/ 269 296 723 20 08:47:29 -0.4 0.10 67 299 279 291/ 268 298 723 21 08:47:30 -0.4 0.10 67 300 278 290/ 270 297 723 22 08:47:30 -0.4 0.09 66 300 280 292/ 268 297 724 23 08:47:31 -0.4 0.09 67 299 279 291/ 267 297 724 24 08:47:31 -0.4 0.09 66 301 279 289/ 269 295 724 25 08:47:32 -0.4 0.09 67 299 279 292/ 268 298 723 26 08:47:32 -0.4 0.07 66 302 280 289/ 268 295 724 27 08:47:33 -0.4 0.11 67 300 278 291/ 270 297 723 28 08:47:34 0.08 66 302 280 289/ 268 295 723 O' 29 08:47:34
-0.4
-0.4 0.10 67 300 278 289/ 270 297 722 30 08: 47:35 -0.4 0.07 66 301 280 291/ 267 296 722 31 08:47:35 -0.5 0.12 68 301 279 290/ 270 297 722 32 08:47:36 -0.4 0.07 65 301 280 290/ 267 295 721 33 08:47:36 -0.5 0.11 67 301 279 289/ 270 297 721 34 08:47:37 -0.5 0.07 65 301 280 290/ 267 295 721 35 08:47:38 -0.5 0.11 67 300 278 290/ 270 297 721 36 08:47:38 -0.5 0.07 66 300 280 292/ 267 297 722 37 08:47:39 -0.4 0.09 67 299 279 292/ 268 297 722 38 0B:47:40 -0.5 0.07 65 301 280 289/ 267 295 722 39 08:47:40 -0.5 0.11 67 299 278 290/ 270 2v7 721 40 08:47:41 -0.5 0.09 67 299 279 291/ 267 297 722 41 08:47:41 -0.5 0.12 67 299 278 290/ 270 297 722 42 08:47: 42 -0.4 0.0) 67 298 279 292/ 267 297 722 43 ?bi47: 42 -0.5 0.09 66 300 279 289/ 268 2?5 722 44 08:47:45 -0.4 0.10 67 298 279 292/ 268 298 722 45 08:47:44 -0.4 0.07 66 299 280 290/ 267 295 722 46 08:47:44 -0.5 0.10 68 298 275 292/ 268 298 722 47 08:47:45 -0.4 0.08 66 300 280 289/ 268 295 723 48 08:47:45 -0.4 0.10 67 298 279 292/ 268 298 723 49 08:47:46 -0.4 0.07 66 299 280 290/ 267 295 723 50 08:47:47 -0.4 0.10 67 29B 278 292/ 248 298 722 51 08:47:47 -0.4 0.08 65 299 280 289/ 268 295 722 52 08: 47:48 -0.5 0.12 67 29B 278 291/ 269 297 722 53 08:47:48 -0.5 0.07 66 299 280 290/ 267 295 722 54 08: 47:49 -0.5 0.12 67 298 278 290/ 270 297 722
() .55 08:47: 49 -0.4 0.08 66 299 280 289/ 268 295 722 A-54
c CRDTEST.205 DATE 01-21-1986 PAGE 2 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V.
'"% 56 08: 47:50 -0.5 0.11 67 297 278 290/ 270 298 721 57 08:47:51 -0.5 0.08 66 299 280 289/ 268 295 722 58 08:47:51 -0.5 0.10 67 296 278 292/ 269 298 722 59 08: 47:52 -0.5 0.06 65 298 280 290/ 267 296 722 60 08:47:52 -0.4 0.11 68 297 278 291/ 270 298 721 61 08:47:53 -0.4 0.07 66 297 280 291/ 267 296 721 62 08:47:54 -0.4 0.10 67 297 278 291/ 268 29B 721 63 08:47:54 -0.4 0.07 65 298 280 290/ 266 295 722 64 08:47:55 -0.5 0.10 67 297 278 291/ 269 298 722 65 08: 47:55 -0.5 0.07 66 298 280 290/ 267 295 722 66 08:47: 56 -0.5 0.12 67 297 278 290/ 270 297 721 67 0B:47:56 -0.5 0.07 66 29B 280 290/ 267 295 722 68 08:47:57 -0.5 0.11 67 298 278 289/ 270 297 721 69 08:47:58 -0.5 0.07 65 298 280 289/ 267 295 722 70 08:47:58 -0.4 0.11 68 297 278 291/ 269 298 721 71 00: 47:59 -0.5 0.09 66 298 279 289/ 268 295 722 72 08: 47:59 -0.5 0.12 67 296 278 290/ 269 297 721 73 08:48:00 -0.5 0.07 65 298 280 290/ 267 296 722 74 08:48:01 -0.5 0.10 67 296 279 291/ 269 298 721 75 08:48:01 -0.4 0.07 65 298 280 290/ 267 295 722 76 08:48:02 -0.5 0.11 67 297 279 289/ 270 297- 721 77 0B: 48:03 -0.5 0.08 66 296 280 291/ 267 297 722 78 08:48:03 -0.5 0.11 67 296 278 290/ 270 298 722 79 08:48:04 -0.4 0.07 66 296 280 292/ 267 297 723 80 08: 48:04 -0.5 0.11 67 296 278 291/ 270 298 722 81 08:48:05 -0.5 0.07 65 297 280 290/ 267 296 723 82 08:48:05 -0.5 0.11 67 297 278 289/ 269 296 722 / '
83 00:48:06 -0.5 0.07 66 297 280 291/ 267 296 723 84 08: 48:07 -0.4 0.10 66 298 279 289/ 269 296 722 85 08:48:07 -0.5 0.07 65 298 280 290/ 267 295 723 86 08:48:08 -0.5 0.12 67 297 278 290/ 270 297 722 87 08:48:08 -0.4 0.07 66 297 280 291/ 267 296 722 8B 08:48:09 -0.5 0.11 67 297 279 290/ 270 297 721 89 08:48:10 -0.5 0.08 67 296 279 291/ 267 297 721 90 08: 48:10 -0.5 0.11 67 297 279 290/ 270 298 722 91 00:48:11 -0.5 0.09 67 296 279 292/ 268 298 722 92 08:48:11 -0.5 0.11 67 296 278 291/ 270 298 722 93 08:48:12 -0.4 0.08 66 296 280 291/ 267 297 723 94 08:48:12 -0.5 0.11 68 296 278 291/ 270 298 722 95 08: 48:13 -0.5 0.07 66 297 280 291/ 267 297 723 96 08:48:14 -0.5 0.11 67 297 278 289/ 270 297 723 97 OE 48:14 -0.5 0.07 65 297 280 290/ 267 296 723 98 08:48:15 -0.5 0.10 66 297 279 289/ 269 296 723 99 08: 48:15 -0.5 0.07 65 298 280 290/ 267 276 723 100 08:48:16 -0.5 0.12 67 297 279 290/ 270 291 721 101 08:48:17 -0.4 0.07 65 298 280 290/ 267 296 722 102 08: 48:17 -0.5 0.10 67 297 278 289/ 269 297 721 103 08: 48:18 -0.4 0.09 67 296 279 292/ 267 298 722 104 08:48:18 -0.5 0.10 67 298 279 289/ 270 297 722 105 08: 48:19 -0.4 0.10 68 296 278 292/ 269 299 722 106 08: 48:19 -0.5 0.11 67 297 278 289/ 269 297 722 107 08:48:20 -0.5 0.09 67 296 279 292/ 268 298 722 108 08: 48:21 -0.5 0.11 67 297 279 289/ 270 297 722 109 08:48:21 -0.5 0.10 67 296 279 291/ 269 299 721 () 110 08:48:22 -0.5 0-10 66 297 279 289/ 269 296 721 A-55
c CRDTEST.205 DATE 01-21-1986 PAGE 3 908813 / N/C SCAN TIME RSS DV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. f'~s 111 08:48:23 -0.4 0.09 67 295 279 292/ 268 299 721 \ss) 112 08:48:23 -0.5 0.06 65 297 280 290/ 267 296 721 113 08:48:24 -0.5 0.10 68 295 278 292/ 268 299 722 114 08:48:24 -0.5 0.07 65 296 280 290/ 267 296 722 115 08:48:25 -0.5 0.09 67 295 279 292/ 268 298 721 116 08: 48:25 -0.5 0.07 65 297 280 290/ 267 296 721 117 08:48:26 -0.5 0.09 67 296 279 292/ 268 298 721 118 08:48:27 -0.5 0.06 65 297 280 290/ 267 296 721 119 08:48:27 -0.5 0.11 67 297 278 290/ 270 298 720 120 08:48:28 -0.4 0.07 65 297 280 290/ 266 296 722 121 08:48:28 -0.5 0.10 66 297 278 289/ 269 297 721 122 08:48:29 -0.5 0.07 66 297 280 290/ 267 297 722 123 08: 48:30 -0.5 0.11 67 297 278 289/ 270 297 722 124 08:48:30 -0.5 0.07 66 298 280 289/ 267 296 723 125 08:48:31 -0.5 0.11 67 297 278 289/ 270 298 722 126 08:48:31 -0.4 0.07 66 296 279 292/ 267 298 722 127 08:48:32 -0.5 0.11 67 296 278 290/ 270 298 722 128 08:48:32 -0.4 0.09 67 296 279 292/ 268 299 722 129 08:48:33 -0.5 0.11 67 297 278 289/ 270 298 721 130 08:48:34 -0.5 0.08 67 296 279 291/ 267 298 721 131 08:48:34 -0.5 0.11 67 296 278 290/ 270 298 720 132 08:48:35 -0.5 0.08 67 296 279 292/ 268 298 721 133 08:48:35 -0.5 0.11 67 297 278 290/ 270 298 721 134 08:48:36 -0.4 0.07 67 296 279 292/ 267 298 722 135 08:48:37 -0.5 0.07 66 298 280 289/ 267 296 722
,136 08:48:37 -0.4 0.08 66 296 279 292/ 267 298 722 137 08:48:33 -0.5 0.07 65 298 280 289/ 267 296 723 T 138 08:48:38 -0.5 0.07 66 297 280 291/ 267 298 723
(/ x- 139 08: 48:39 -0.5 0.09 66 298 279 289/ 268 297 723 140 08:48:39 -0.5 0.07 66 297 280 291/ 267 298 723 141 08:48:40 -0.4 0.08 66 298 280 289/ 268 296 723 142 08:48:41 -0.4 0.11 68 296 278 291/ 270 299 722 143 08:48:41 -0.5 0.10 66 298 279 289/ 269 297 722 144 08:48:42 -0.4 0.11 67 296 278 291/ 270 299 722 145 08:48:42 -0.5 0.00 66 298 279 289/ 268 296 722 146 08:48:43 -0.4 0.11 68 296 278 291/ 269 299 722 147 08: 48:44 -0.5 0.06 65 297 280 290/ 267 296 723 148 05:48:44 -0.5 0.10 66 297 279 289/ 269 297 722 149 08:48:45 -0.5 0.07 65 298 280 289/ 268 296 723 150 08:48:45 -0.4 0.11 68 296 278 291/ 270 299 723 151 08:48:46 -0.4 0.08 66 296 279 291/ 267 298 723 152 08:48:47 -0.4 0.12 68 296 278 291/ 270 299 723
!!! 08:4B:47 -0.5 0.06 65 297 280 290/ 267 297 724 154 08:4B:48 -0.5 0.10 67 296 278 291/ 268 299 723 155 08:48:48 -0.4 0.07 65 297 280 290/ 267 197 724 156 08:48:49 -0.4 0.10 67 296 279 291/ 268 299 724 157 08:48:49 -0.5 0.07 65 298 280 289/ 267 297 724 158 03:48:50 -0.5 0.11 67 297 278 289/ 270 298 723 159 08:48:51 -0.4 0.07 65 297 280 290/ 267 296 724 160 08:48:51 -0.5 0.11 67 297 278' 289/ 269 298 723 161 08:48:52 -0.5 0.07 65 297 280 289/ 267 296 723 162 08:48:52 -0.5 0.11 67 296 278 290/ 270 299 723 163 08:48:53 -0.5 0.07 65 297 280 290/ 267 296 724 164 08:48:54 -0.5 0.11 67 296 278 289/ 270 298 723
() 165 08:48:54 -0.4 0.0B 66 295 279 292/ 267 299 724 A-56
c:CRDTEST.205 DATE 01-21-1985 PA8E 4 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-1N He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. (i (,s/ 166 167 08:48:55 0B:48:35
-0.5
-0.4 0.11 0.10 66 68 296 245 278 278 289/ 270 291/ 268 298 299 723 723 168 08:48:56 -0.3 0.10 66 297 279 289/ 269 298 723 169 08:48:56 -0.4 0.10 67 295 279 292/ 268 300 724 170 08:48:57 -0.5 0.11 67 297 278 289/ 270 298 724 171 08:48:58 -0.5 0.10 67 295 278 291/ 268 300 724 172 08:48:58 -0.4 0.10 66 297 279 289/ 269 298 723 173 08:48:59 -0.4 0.11 68 296 278 291/ 270 300 723 174 08:48:59 -0.5 0.11 67 297 279 290/ 270 299 722 175 08:49:00 -0.4 0.11 67 296 278 291/ 269 300 722 176 08:49:01 -0.4 0.07 66 296 280 291/ 267 299 723 177 08:49:01 -0.5 0.10 67 295 278 291/ 268 300 723 178 08:49:02 -0.4 0.06 66 297 280 290/ 267 298 723 179 08:49:02 -0.4 0.10 67 295 278 291/ 269 301 723 180 08:49:03 -0.4 0.07 66 297 280 291/ 267 298 723 181 08:49:04 -0.5 0.11 67 297 278 289/ 270 299 723 182 08:49:04 -0.4 0.07 66 297 280 290/ 267 298 724 183 08:49:05 -0.5 0.10 67 297 279 289/ 269 298 723 184 08:49:05 -0.5 0.11 67 296 278 291/ 269 300 723 185 08: 49:06 -0.5 0.07 65 297 280 290/ 267 297 723 186 08:49:07 -0.5 0.07 65 297 200 290/ 267 297 723 187 108:49:07 -0.4 0.10 66 297 278 289/ 269 298 723 188 08:49:08 -0.4 0.07 66 296 280 291/ 267 299 723 189 08: 49:08 -0.4 0.10 66 297 279 2B9/ 269 298 723 190 08:49:09 -0.5 0.11 67 296 278 291/ 269 300 722 191 08:49:10 -0.5 0.08 66 298 279 289/ 268 297 723 192 08:49:10 -0.5 0.11 67 297 278 290/ 270 299 722
(" 193 08:49:11 -0.5 0.08 66 298 279 289/ 268 297 722 N 194 08:49:11 -0.4 0.11 67 297 278 290/ 270 300 722 195 08:49:12 -0.4 0.07 65 297 280 289/ 267 297 722 196 08:49:13 -0.5 0.10 67 297 278 290/ 270 299 721 197 08:49:13 -0.4 0.06 65 297 280 290/ 267 298 722 198 08:49:14 -0.5 0.10 67 297 278 290/ 270 300 722 199 08:49:14 -0.5 0.09 67 296 279 292/ 268 300 722 200 08:49:15 -0.5 0.12 67 297 278 289/ 270 299 722 201 08:49:15 -0.4 0.09 66 296 279 292/ 268 299 722 202 08:49:16 -0.5 0.11 67 296 278 299/ 270 299 722 203 08:49:17 -0.5 0.10 67 295 278 291/ 268 300 722 204 08:49:17 -0.5 0.09 66 298 279 289/ 269 298 722 205 08:49:18 -0.4 0.11 67 29b 278 291/ 269 300 722 206 08:49:18 -0.5 0.07 66 297 280 290/ 267 298 722 207 08:49:19 -0.4 0.11 67 296 278 291/ 267 301 722 ' 208 08:49:19 -0.5 0.07 66 296 280 291/ 267 298 723 209 08: 49:20 -0.4 0.09 67 296 279 292/ 268 301 722 210 08:49: 21 -0.4 0.07 66 297 220 290/ 267 298 722 211 08: 49:21 -0.4 0.10 67 295 279 292/ 265 300 721 212 _08:49: 22 -0.4 0.07 65 296 280 291/ 267 298 722 213 08:49:22 -0.4 0.11 67 295 278 291/ 269 301 721 214 08:49:23 -0.3 0.07 66 297 280 290/ 267 298 722 215 08:49:24 -0.4 0.10 66 297 279 289/ 269 299 722 216 08: 49:24 -0.4 0.07 66 296 280 291/ 267 298 722 217 08: 49:25 -0.5 0.11 66 296 278 289/ 270 299 722 218 08:49:25 -0.4 0.06 66 296 280 290/ 267 298 722 219 08:49:26 -0.5 0.11 67 296 279 289/ 270 299 722 () 220 08: 49:27 -0.5 0.11 67 296 278 290/ 270 300 721 A-57
c CRDTEST.205 DATE 01-21-1986 PAGE 5 908813 / N/C SCAN TIME RSS DV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-1N He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. ("'g 221 08:49:27 -0.5 0.07 66 296 280 292/ 267 299 721 \,,/ 222 08:49:28 -0.5 0.09 66 297 279 289/ 268 298 721 223 08:49:28 -0.5 0.10 66 297 279 289/ 269 298 721 224 0B:49:29 -0.5 0.11 68 295 27B 291/ 270 301 722 225 08:49:30 -0.4 0.10 67 297 279 289/ 269 299 722 226 08:49:30 -0.5 0.11 67 295 278 291/ 269 300 721 227 08:49:31 -0.5 0.09 66 297 279 2B9/ 268 298 722 228 08: 49:31 -0.5 0.11 67 295 278 291/ 270 300 722 229 08:49:32 -0.5 0.07 65 297 2B0 289/ 268 298 722 230 08:49:32 -0.4 0.12 68 295 278 291/ 269 301 722 231 08:49:33 -0.5 0.08 66 295 280 291/ 267 299 722 232 08:49:34 -0.5 0.11 68 296 278 291/ 270 300 721 233 08:49:34 -0.5 0.07 65 296 280 291/ 267 299 721 234 08:49:35 -0.5 0.10 67 295 278 292/ 269 301 721 235 08:49:35 -0.4 0.06 66 297 280 291/ 267 299 722 236 08:493.'u -0.5 0.11 67 295 278 292/ 269 301 722 237 08:49:37 -0.5 0.07 65 297 280 290/ 267 298 722 238 08:49:37 -0.5 0.11 67 296 278 289/ 269 299 722 239 08:49:38 -0.5 0.06 66 295 280 290/ 267 299 722 240 08:49:38 -0.4 0.10 67 297 279 289/ 269 299 722 241 08:49:39 -0.5 0.07 66 297 280 289/ 267 298 722 242 08:49:39 -0.5 0.11 67 296 278 290/ 270 300 721 243 08:49:40 -0.4 0.07 66 297 280 290/ 267 298 722 244 08: 49:41 -0.5 0.11 66 297 279 289/ 269 299 721 245 08:49:41 -0.4 0.10 67 295 279 292/ 268 301 722 246 08:49:42 -0.5 0.10 67 296 279 289/ 269 299 723 247 08:49:42 -0.4 0.10 67 295 278 291/ 269 301 723 /~'\ 248 08:49:43 -0.4 0.10 66 297 279 289/ 269 299 723 k- / 249 08:49: 44 -0.4 0.13 67 295 278 291/ 270 301 723 250 08:49:44 -0.5 0.10 66 296 278 289/ 269 299 723 251 08:49:45 -0.5 0.11 67 295 278 291/ 269 301 723 252 08:49:45 -0.4 0.10 66 297 279 289/ 269 299 724 253 08:49:46 -0.4 0.11 67 295 278 291/ 269 301 724 254 08:49:46 -0.4 0.07 66 297 280 290/ 267 298 724 255 08:49:47 -0.5 0.10 68 295 278 292/ 269 301 724 256 08:49:48 -0.4 0.07 66 297 280 291/ 267 299 724 257 08:49:48 -0.5 0.07 66 297 280 290/ 267 299 724 258 08:49:49 -0.5 0.10 66 296 279 289/ 269 299 723 259 08: 49:49 -0.5 0.10 68 295 279 292/ 269 302 723 260 08:49:50 -0.4 0.06 66 296 280 290/ 267 299 724 261 08:49:51 -0.5 0.11 67 297 278 269/ 270 300 724 262 08:49:51 -0.5 0.07 65 297 280 290/ 266 299 724 263 08:49:52 -0.4 0.10 66 297 279 289/ 269 300 724 264 08:49:52 -0.5 0.07 65 296 280 291/ 266 299 724 265 08:49:53 -0.5 0.11 67 297 278 290/ 270 300 724 266 08: 49:54 -0.5 0.07 65 297 280 290/ 267 299 724 267 08: 49:54 -0.4 0.10 66 297 278 289/ 269 299 723 268 08:49:55 -0.5 0.06 66 297 280 291/ 267 299 724 269 08:49:55 -0.5 0.11 67 296 278 290/ 270 301 723 270 08:49:56 -0.4 0.09 67 295 279 292/ 268 301 723 271 08:49:56 -0.5 0.11 67 297 278 289/ 269 299 723 272 -08:49:57 -0.5 0.10 68 295 278 291/ 268 301 724 273 08: 49:58 -0.5 0.12 6B 297 278 290/ 270 301 724 274 08: 49:58 -0.4 0.09 67 295 279 292/ 268 301 724 08: 49:59 -0.5 0.11 67 296 278 289/ 270 300 723 ()_275 A-58
c CRDTEST.205 DATE 01-21-1986 ' ' PAGE 6 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V.
/~'g 276 08:49:59 -0.4 0.10 67 295 279 291/ 269 301 724 (s / 277 08:50:00 -0.5 0.07 65 298 279 289/ 267 298 723 278 08:50:01 -0.4 0.09 67 295 279 292/ 268 301 724 279 08:50:01 -0.4 0.07 65 297 280 290/ 267 299 724 280 08:50:02 -0.4 0.10 67 295 279 292/ 268 301 723 281 08:50:02 -0.5 0.07 66 297 280 291/ 266 299 723 282 08:50:03 -0.4 0.10 67 296 279 292/ 268 301 723 283 08:50:04 -0.5 0.06 65' 297 280 290/ 267 299 722 284 08:50:04 -0.4 0.11 67 295 278 292/ 269 302 .722 285 08:50:05 -0.5 0.07 66 296 280 291/ 267 299 722 286 08:50:05 -0.5 0.10 67 297 278 289/ 270 300 722 287 08:50:06 -0.5 0.07 66 297 280 290/ 267 299 722 288 08:50:07 -0.5 0.10 67 297 278 289/ 269 300 722 289 08:50:07 -0.5 0.07 66 298 280 289/ 26B 299 723 290 08:50:08 -0.5 0.11 67 296 278 290/ 270 301 722 291 08:50:08 -0.5 0.07 66 298 280 290/ 267 299 723 292 08:50:09 -0.5 0.11 67 296 278 289/ 270 300 722 293 08:50:09 -0.4 0.08 67 295 279 292/ 267 301 723 294 08:50:10 -0.5 0.11 67 296 278 291/ 270 302 723 i 295 08:50:11 -0.4 0.07 66 296 280 291/ 267 300 723 296 08:50:11 -0.4 0.11 67 296 278 290/ 269 301 723 297 08:50:12 -0.5 0.08 67 296 279 291/ 267 301 723 298 08:50:12 -0.4 0.10 68 295 278 292/ 269 302 722 299 08:50:13 -0.5 0.06 66 297 280 290/ 267 299 723 300 08:50:14 -0.5 0.10 67 296 278 289/ 270 301 722 301 08:50:14 -0.5 0.07 65 297 279 289/ 267 299 723 302 08:50:15 -0.5 0.10 66 296 278 289/ 269 300 722
[ 303 304 08:50:15 08:50:16
-0.4
-0.5 0.07 0.11 66 67 297 296 280 278 290/ 267 290/ 270 299 301 723 722 305 08:50:17 -0.5 0.07 65 297 279 289/ 267 299 722 306 08:50:17 -0.5 0.11 67 296 278 290/ 270 301 723 307 08:50:18 -0.5 0.07 66 298 280 289/ 268 299 723 308 08:50:18 -0.4 0.12 68 296 278 291/ 270 302 723 309 08:50:19 -0.5 0.07 66 296 279 292/ 267 301 723 e 310 08:50:19 -0.5 0.12 68 296 278 291/ 270 302 723 311 08:50:20 -0.4 0.08 67 295 279 292/ 267 301 723 312 08:50:21 -0.5 0.11 68 296 27E 291/ 270 302 723 313 08:50:21 -0.5 0.08 66 296 279 291/ 26! 301 723 314 08:50:22 -0.5 0.11 68 296 278 291/ 270 302 723 315 08:50:22 -0.5 0.07 66 296 279 291/ 267 301 723 316 08:50:23 -0.5 0.09 66 297 279 289/ 269 300 722 317 08:50:24 -0.4 0.06 66 297 280 290/ 267 299 723 318 08:50:24 -0.5 0.10 66 297 278 289/ 269 300 722 319 08:50:25 -0.5 0.06 65 297 280 290/ 267 300 723 320 08:50:25 -0.5 0.12 67 296 278 290/ 270 301 723 321 08:50:26 -0.4 0.07 65 297 280 290/ 267 299 723 322 08:50:26 -0.5 0.11 67 297 279 290/ 270 301 723 323 08:50:27 -0.5 0.08 67 295 279 292/ 267 302 724 324 08:50:28 -0.5 0.11 67 296 278 289/ 269 301 723 325 08:50:28 -0.5 0.12 67 295 279 291/ 268 302 723 326 08:50:29 -0.4 0.09 66 297 279 289/ 269 300 723 327 08:50:29 -0.5 0.10 66 296 278 289/ 269 300 723 328 08:50:30 -0.5 0.08 66 298 280 290/ 267 299 723 329 08:50:31 -0.4 0.09 66 298 279 289/ 269 300 723
() 330 08:50:31 -0.4 0.07 66 297 280 291/ 267 300 723 A-59
c CRDTEST.205 DATE 01-21-1986 PAGE 7 SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-1N He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. 0.08 66 298 279 289/ 268 299 723 /~} 331 08:50:32 -0.4 291/ 269 303 723 (m/ 332 0B:50:32 -0.4 0.10 67 296 278 333 08:50:33 -0.4 0.10 67 298 278 290/ 270 301 722 334 08:50:34 -0.4 0.09 67 297 279 291/ 268 302 723 335 08:50:34 -0.4 0.10 67 298 278 290/ 270 301 722 336 08:50:35 -0.4 0.08 67 298 279 291/ 267 301 723 337 08:50:36 -0.4 0.11 67 298 278 291/ 270 303 722 338 08:50:36 -0.4 0.07 66 298 279 291/ 267 301 723 339 08:50:37 -0.4 0.09 66 299 279 289/ 269 300 722 340 08:50:37 -0.4 0.08 66 298 279 291/ 267 301 723 341 08:50:38 -0.4 0.08 66 300 279 290/ 268 300 723 342 08:50:39 -0.4 0.08 67 298 279 291/ 268 303 723 343 08:50:39 -0.5 0.07 66 299 280 291/ 267 300 724 344 08:50:40 -0.5 0.09 67 298 279 292/ 268 303 ,724 345 08:50:40 -0.5 0.07 66 299 280 291/ 267 301 725 346 08:50:41 -0.5 0.11 67 297 27B 292/ 269 303 724 347 08:50:42 -0.5 0.07 66 299 280 292/ 267 302 724 348 08:50:42 -0.5 0.08 66 299 279 289/ 268 299 723 349 08:50:43 -0.5 0.07 66 298 280 291/ 267 301 724 350 08:50:43 -0.5 0.08 65 299 280 289/ 267 299 724 351 08:50:44 -0.5 0.07 66 298 279 292/ 267 302 724 352 08:50:44 -0.5 0.09 65 299 279 289/ 268 299 724 353 08:50:45 -0.4 0.07 66 297 280 291/ 267 301 724 354 08:50:46 -0.5 0.07 65 299 280 289/ 267 299 724 355 08:50:46 -0.5 0.07 66 297 279 291/ 267 302 724 356 08:50:47 -0.5 0.08 66 299 280 289/ 268 299 724 357 08:50:48 -0.5 0.11 67 299 278 290/ 270 301 725 /~'\' 358 08:50:48 -0.5 0.07 66 299 280 289/ 267 299 725
/ 359 08:50:49 -0.5 0.10 67 299 278 289/ 269 300 724 360 08:50:49 -0.5 0.07 66 299 280 289/ 268 299 725 361 08:50:50 -0.5 0.10 67 298 278 289/ 269 301 724 362 08:50:51 -0.5 0.07 65 298 280 291/ 267 300 725 363 08:50:51 -0.5 0.09 - 66 299 279 289/ 269 299 725 364 08:50:52 -0.4 0.11 68 297 278 291/ 269 303 724 365 08:50:52 -0.5 0.10 67 298 278 289/ 269 301 724 366 08:50:53 -0.5 0.10 68 297 278 291/ 270 303 724 367 08:50:54 -0.5 0.07 65 298 280 290/ 267 299 724 368 06:50:54 -0.5 0.11 67 298 278 290/ 270 301 723 369 08:50:55 -0.5 0.10 67 298 278 289/ 269 300 723 370 08:50:55 -0.4 0.11 68 297 278 291/ 269 303 723 371 09:50:56 -0.5 0.10 67 299 279 289/ 269 300 724 372 0815c: 57 -0.5 0.10 68 296 279 292/ 269 303 724 373 08:50:57 -0.4 0.08 66 297 280 291/ 267 301 724 374 08:50:58 -0.5 0.10 67 297 27B 291/ 270 303 724 375 08:50:59 -0.4 0.08 67 296 279 292/ 266 302 724 376 08:50:59 -0.5 0.10 68 296 278 292/ 269 303 724 377 08:51:00 -0.4 0.07 6e 257 280 291/ 267 301 724 378 08:51:01 -0.5 0.11 67 297 278 291/ 270 303 724 379 08:51:01 -0.5 0.09 67 296 279 292/ 268 303 724 380 08:51:02 -0.5 O.07 66 298 280 290/ 267 300 724 381 08:51:02 -0.5 0.08 67 296 279 292/ 267 302 724 382 08:51:03 -0.5 0.07 66 298 280 290/ 267 299 724 383 08:51:04 -0.5 0.08 67 296 279 292/ 267 302 724 384 08:51:04 -0.5 0.08 66 299 280 289/ 268 299 725
() 385 08:51:05 -0.4 0.07 67 297 280 291/ 267 302 725 A-60
c CRDTEST.205 DATE 01-21-1986 PAGE 8 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.1 SC RR He-1N He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. 386 08:51:05 -0.5 0.07 65 298 280 289/ 267 299 725 t }/ 387 08:51:06 -0.4 0.07 66 296 279 292/ 267 303 725 388 08:51:07 -0.5 0.08 66 299 280 289/ 268 300 725 389 08:51:07 -0.5 0.10 67 297 278 289/ 270 301 724 390 08:51:08 -0.5 0.08 66 299 279 289/ 268 299 725 391 08:51:08 -0.5 0.11 67 298 278 290/ 270 302 725 392 08:51:09 -0.5 0.10 66 298 279 289/ 269 300 725 393 08:51:10 -0.4 0.11 68 296 278 291/ 270 303 725 394 08:51:10 -0.5 0.10 66 298 279 289/ 269 300 725 395 08:51:11 -0.4 0.11 67 296 278 290/ 270 302 725 396 08:51:11 -0.5 0.07 66 296 279 292/ 267 303 726 397 08:51:12 -0.4 0.10 68 296 279 292/ 269 303 725 398 08:51:13 -0.5 0.07 66 296 279 292/ 267 302 724 399 08:51:13 -0.5 0.09 67 295 279 292/ 268 303 725 400 08:51:14 -0.5 0.07 66 296 280 291/ 267 301 725 401 08:51:14 -0.4 0.10 67 296 279 292/ 269 303 725 402 08:51:15 -0.5 0.07 66 296 279 291/ 267 302 725 403 08:51:16 -0.5 0.09 66 298 279 289/ 268 300 724 404 08:51:16 -0.5 0.11 68 296 278 291/ 270 303 723 405 08:51:17 -0.4 0.09 67 295 279 292/ 268 303 724 406 08:51:18 -0.5 0.08 67 295 279 291/ 267 303 724 407 08:51:18 -0.5 0.08 66 298 280 2B9/ 268 300 724 408 08:51:19 -0.5 0.07 66 296 280 292/ 267 302 724 409 08:51:19 -0.5 0.08 65 297 280 290/ 267 300 724 410 08:51:20 -0.4 0.07 66 296 279 291/ 267 302 724 411 08:51:21 -0.5 0.09 66 298 279 289/ 268 300 724 412 08:51:21 -0.5 0.11 67 297 278 289/ 270 3^1 724 / ' 413 08:51:22 -0.5 0.07 65 297 280 289/ 267 299 724 \ 414 08:51:22 -0.5 0.10 67 297 279 289/ 269 301 723 415 08:51:23 -0.5 0.08 66 297 280 289/ 268 300 723 416 08:51:24 -0.5 0.11 67 296 278 290/ 270 302 723 417 08:51:24 -0.5 0.08 66 297 280 289/ 268 300 723 418 08:51:25 -0.5 0.11 66 297 278 289/ 269 301 723 419 08:51:26 -0.5 0.10 67 296 279 292/ 268 303 723 420 08:51:26 -0.5 0.11 67 297 278 290/ 270 302 723 421 08:51:27 -0.5 0.10 67 296 278 291/ 269 303 723 422 08:51:27 -0.5 0.10 66 298 279 289/ 269 301 723 423 08:51:28 -0.4 0.10 67 296 278 291/ 268 303 723 424 08:51:29 -0.5 0.11 67 298 278 289/ 270 301 723 425 08:51:29 -0.4 0.10 67 296 278 291/ 269 303 723 426 08:51:30 -0.5 0.10 66 298 279 289/ 269 301 723 427 08:51:30 -0.5 0.11 68 296 278 291/ 270 303 723 428 08:51:31 -0.5 0.07 66 296 279 291/ 267 302 723 429 08:51:32 -0.4 0.10 68 296 279 291/ 269 303 723 430 08:51:32 -0.5 0.07 66 296 280 291/ 267 302 724 431 08:51:33 -0.5 0.09 67 295 279 292/ 269 303 723 432 08:51:33 -0.5 0.07 66 297 280 291/ 267 301 724 433 08:51:34 -0.5 0.10 67 295 278 292/ 268 304 723 434 08:51:35 -0.5 0.07 66 296 280 291/ 267 301 724 435 08:51:35 -0.5 0.09 66 298 279 289/ 269 301 723 436 08:51:36 -0.5 0.07 66 298 280 290/ 267 300 724 437 08:51:36 -0.5 0.10 66 298 279 289/ 269 301 723 438 08:51:37 -0.5 0.07 65 297 280 290/ 267 301 724 439 08:51:38 -0.5 0.10 67 297 278 289/ 269 301 723 08:51:38 -0.5 0.11 67 297 27B 290/ 270 302 723 ( ) 440 A-61
c CRDTEST.203 DATE 01-21-1986 PAGE 9 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. (" \s,T 441 08:51:39 -0.4 0.10 67 295 278 292/ 268 303 723
/ 442 00:51:40 -0.5 0.07 66 297 280 291/ 267 301 723 443 08:51:40 -0.5 0.10 67 298 279 289/ 269 301 723 444 08:51: 41 -0.5 0.11 68 296 278 291/ 270 303 722 445 08:51:41 -0.5 0.10 67 298 279 289/ 270 301 723 446 08:51:42 -0.4 0.11 68 296 278 291/ 270 303 723 447 08:51:43 -0.4 0.11 67 297 278 290/ 270 302 723 448 08:51:43 -0.4 0.10 67 296 278 291/ 269 304 723 449 08:51:44 -0.5 0.10 67 298 278 290/ 270 302 723 450 08:51:44 -0.5 0.10 67 296 278 291/ 269 304 723 451 08:51:45 -0.5 0.07 66 297 280 291/ 267 301 724 452 08:51:46 -0.4 0.10 67 295 278 291/ 269 304 723 453 08:51:46 -0.4 0.07 66 296 280 291/ 267 302 723 454 08:51:47 -0.4 0.10 68 295 278 291/ 269 303 723 455 08:51:47 -0.5 0.06 65 297 280 290/ 267 301 723 456 08:51:48 -0.5 0.10 67 295 278 291/ 268 304 723 457 08:51: 49 -0.5 0.07 66 296 280 291/ 267 302 723 458 08:51:49 -0.4 0.10 67 295 278 291/ 269 303 723 459 08:51:50 -0.5 0.07 66 297 200 '291/ 266 301 723 460 08:51:50 -0.5 0.08 66 298 280 289/ 268 300 723 461 08:51:51 -0.5 0.07 66 297 280 290/ 266 301 723 462 08:51:52 -0.5 0.09 66 298 280 289/ 268 300 723 463 0B:51:52 -0.5 0.07 66 298 280 290/ 267 301 723 464 08:51:53 -0.5 0.10 66 298 279 289/ 269 301 722 465 08:51:53 -0.4 0.07 67 296 280 291/ 267 303 722 466 08:51:54 -0.5 0.07 66 298 280 289/ 267 300 722 467 08:51:55 -0.5 0.11 67 297 278 290/ 270 303 721 0.09 298 279 289/ 269 301 721
(^) \- 468 469 08:51:55 08:51:56
-0.5
-0.5 0.11
' 66 68 296 278 291/ 270 303 721 470 08:51:56 -0.5 0.10 67 298 279 289/ 269 301 722 471 08:51:57 -0.5 0.10 68 296 278 291/ 270 304 722 472 08:51:58 -0.5 0.10 66 298 279 289/ 269 301 722 473 08:51:58 -0.5 0.11 68 296 278 291/ 270 304 722 474 08:51:59 -0.5 0.10 66 298 279 289/ 269 301 722 475 08:51:59 -0.5 0.11 67 296 278 291/ 269 304 722 476 08:52:00 -0.5 0.0B 67 296 279 292/ 267 303 722 477 08:52:01 -0.4 0.09 66 295 279 291/ 267 303 721 478 08:52:01 -0.5 0.07 66 297 280 291/ 266 301 722 479 08:52:02 -0.5 0.10 68 297 278 291/ 270 304 722 480 08:52:03 -0.4 0.08 67 296 279 292/ 267 303 722 481 08:52:03 -0.5 0.11 68 297 278 291/ 270 304 722 482 08:52:04 -0.5 0.08 67 296 279 291/ 268 304 721 483 08:52:05 -0.5 0.07 66 298 280 290/ 267 301 721 484 08:52:05 -0.4 0.08 66 297 280 292/ 267 303 721 485 08:52:06 -0.5 0.07 65 298 280 290/ 267 300 720 486 08:52:06 -0.5 0.08 66 296 279 292/ 267 303 721 487 08:52:07 -0.5 0.07 66 298 280 290/ 267 301 721 488 0B:52:08 -0.5 0.08 66 296 280 292/ 267 303 721 489 08:52:08 -0.5 0.07 66 297 280 290/ 267 301 721 490 08:52: 09 -0.4 0.0E 67 296 277 292/ 268 304 722 491 08:52:09 -0.5 0.07 65 297 280 290/ 267 300 722 492 08:52:10 -0.5 0.10 66 298 279 289/ 269 301 722 493 08:52:11 -0.5 0.07 65 296 280 290/ 267 301 722 494 08:52:11 -0.5 0.09 66 298 279 289/ 268 301 722 I% 495 08:52:12 -0.5 0.07 66 297 280 290/ 267 301 722
\_J ,
A-62
c CRDTEST 20D DATE 01-21-1986 PAGE 10 SCAN TIME RSS OV-POE SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. 496 08:52:12 -0.5 0.09 66 298 279 289/ 269 301 722 (s~s
,,/
)
497 08:52:13 -0.5 0.07 66 297 280 291/ 267 302 723 498 08:52:14 'O.5 0.09 66 298 280 289/ 268 301 723 499 08:52:14 -0.4 0.12 67 296 278 291/ 270 304 722 500 08:52:15 -0.5 0.09 66 298 279 289/ 269 301 722 501 08:52:15 -0.5 0.11 67 296 278 290/ 270 303 723 502 08:52:16 -0.5 0.09 66 298 280 289/ 268 301 723 503 08:52:17 -0.4 0.11 67 296 278 291/ 270 304 722 504 08:52:17 -0.5 0.09 66 298 279 289/ 268 301 723 505 08:52:18 -0.5 0.10 67 298 279 290/ 270 303 723 506 08:52:18 -0.5 0.09 66 298 280 289/ 268 301 723 507 08:52:19 -0.4 0.11 67 296 278 290/ 270 303 722 508 08:52:20 -0.5 0.09 67 295 279 292/ 268 304 723 509 08:52:20 -0.5 0.11 67 297 278 290/ 270 303 722 510 08:52:21 -0.5 0.10 68 296 278 292/ 269 304 723 511 08:52:21 -0.5 0.11 68 296 278 291/ 270 304 723 512 08:52:22 -0.5 0.10 67 296 279 292/ 268 !04 723 513 08:52:23 -0.5 0.11 68 297 278 290/ 270 303 723 514 08:52:23 -0.5 0.10 67 296 278 291/ 268 304 723 515 08:52:24 -0.5 0.07 66 297 280 291/ 267 302 724 516 08:52:25 -0.5 0.10 68 296 278 292/ 269 305 723 517 08:52:25 -0.5 0.07 66 296 280 292/ 267 303 723 518 08:52:26 -0.4 0.10 68 296 278 292/ 269 304 723 519 08:52:26 -0.5 0.07 66 297 280 291/ 267 302 724 520 08:52:27 -0.4 0.10 67 295 278 292/ 269 304 723 521 08:52:28 -0.5 0.07 66 297 280 291/ 267 303 723 522 08:52:28 -0.4 0.11 68 296 278 292/ 269 304 723
/ 'N 291/ 266 523 08:52:29 -0.5 0.07 65 297 280 302 723
- 524 08:52:29 -0.5 0.08 66 298 280 289/ 268 301 723 525 08:52:30 -0.5 0.07 66 296 280 291/ 267 302 723 526 08:52:31 -0.5 0.08 66 298 280 289/ 2A8 301 723 527 08:52:31 -0.4 0.06 66 297 280 291/ 267 302 724 520 05:52:32 -0.5 0.10 66 297 280 289/ 268 301 723 529 08:52:32 -0.4 0.07 66 296 280 291/ 267 302 724 530 08:52:33 -0.5 0.08 66 298 280 289/ 268 301 724 531 08:52:34 -0.5 0.11 68 297 278 290/ 270 304 723 532 08:52:34 -0.5 0.08 66 298 279 289/ 268 301 723 533 08:52:35 -0.4 0.12 67 297 278 290/ 270 303 723 534 08:52:35 -0.5 0.07 65 298 280 289/ 267 301 723 535 08:52:36 -0.5 0.11 67 297 278 290/ 270 303 723 536 08:52:37 -0.5 0.09 66 298 280 289/ 268 301 723 537 08:52:37 -0.5 0.10 67 298 278 290/ 270 302 723 538 00:52 30 -0.5 0.07 65 297 280 289/ 267 301 724 539 08:52:38 -0.5 0.11 67 297 27 f, 290/ 270 303 723 540 08:52:39 -0.5 0.10 68 296 272 292/ 269 305 724 541 08:52:40 -0.5 0.10 67 298 278 289/ 270 302 723 542 08:52: 40 -0.4 0.11 67 296 278 291/ 269 304 723 543 08:52:41 -0.5 0.11 67 297 278 290/ 270 303 723 544 08:52:41 -0.5 0.10 67 296 278 292/ 269 304 723 545 08:52:42 -0.5 0.10 67 297 278 289/ 269 303 723 546 08:52:43 -0.5 0.10 68 296 278 292/ 270 304 723 547 08:52:43 -0.4 0.07 66 296 280 291/ 267 303 724 548 08:52:44 -0.4 0.09 67 296 279 292/ 268 304 723 549 08:52: 45 -0.5 0.07 66 296 280 291/ 267 302 723
() 550 08:52:45 -0.5 0.11 68 296 278 291/ 270 304 723 A-63
c:CRDTEST.205 DATE 01-21-1986 ' PAGE ' 11 908813 / N/C SCAN TIME RSS DV-POS SWITCHE5 ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR he-IN He-ARFA CLOSURE OV-MTR/MNT CRD-MTR 0.V. 551 08:52: 46 -(45 0.07 66 296 280 292/ 267 303 724 k],/ 552 08:52:46 -0.5 0.10 67 295 278 292/ 269 304 723, 553 08:52:47 -0.4 0.07 66 296 280 292/ 267 303 724 554 08:52:48 -0.5 0.11 68 296- 278 291/ 270 304 723 555 08:52:48 -0.4 0.07 66 296 280 291/ 267 303 723 556 08:52:49 -0.4 -0.07 66 ??8 280 290/ 267 301 720 557 08:52:49 -0.4 0.07 66 296 280 292/ 267- 303 724 558 08:52:50 -0.5 0.07 65 298 280 289/ 267 301 724 559 03:52:51 -0.4 0.06 65 297 280 291/ 267 302 724 560 08:52:51 -0.5 0.09 66 298 279 289/ 268 301 724 561 08:52:52 -0.5 0.07 66 296 279 292/ 267 304 724 562 08:52:53 -0.5 1.07 66 298 280 290/ 267 301 723 563 08:52:53 -G.4 0.11 67 297 278 290/ 269 303 723 564 08:52:54 -0.4 0.09 66 298 279 289/ 26E 301 723 565 08:52:54 -0.4 0.11 67 297 278 290/ 270 304 723 566 08:52:55 -0.5 0.08 66 298 280 289/ 26B 301 l724 567 08:52:56 -0.4 0.11 o6 B 297 278 291/ 270 304 i723 568 08:52:56 -0.5 0.08
~66 298 280 289/ 268 301 724 569 08:52:57 -0.5 0.07 66 296 280 291/ 267 303 723 570 08:52:57 -0.5 0.07 ^65 298 280 289/ 268 301 723 571 08:52:58 -0.5 0.11 68 297 2/8 290/ 270 303 722 572 06:52:59 -0.4 0.10 67 296 278 292/ 268 309 723 573 08:52:59 -0.4 0.10 68 297 27B 290/ 270 3Q'4 723 574 48:53: 00 -0.5 0.10 67 296 278 292/ 268 J05 722
- 575 08:53:01 -0.5 0.11 68 296 278 291/ 270 -304 722 576 08:53:01 -0.4 0.09 67 -296 279 292/ 268 ,' 304 723
. 577 08:53:02 -0.5 0.11 67 296 278 291/ 270, 304- 723 578 08:53:02 -0.4 0.09 67 296 1279 292/ 268 305 723
^{hx/ 579 08:53:03 -0.5 0.07 66 298 280 290/ 167 301 724 580 08:53:04 -0.4 0.08 67 296 280 11 267 303 724 581~08:53:04 -0.5 0.07 65 297 280 29,9/
28 267 301 724 l 582 08:53:05 -0.4 0.07 66 296 280 ' 292/ 267 303 724
- 583 08
- 53:05 -0.5 0.08 _
66 298 280 289/ 267 301 724 l 584 OB:53:06 -0.4 0.07 67 296 279 292/ 267 304 724 I 5B5 08:53:07 -0.5 0.07 65 297 280 289/ 267 301 724 586 08:53:07 -0.5 0.11 ' 67 298 278 290/ 270 303 724 587 08:53:08 -0.4 0.07 67 296 280 292/ 267 304 724 588 08:53:09 -0.5 0.07 65 297 280 289/ 267 301 724 589 08:53:09 -0.5 0.07 66 297 200 290/ 267 302 724 590 08:53:10 -0.5 0.11' 67 298 278 289/ 270 303 724 591 08:53:10 -0.5 0.07 66 298 280 290/ 267 301 724 592 08:53:11 -0.4 0.10 67 298 279 289/ 269 302 724 593 08:53:12 -0.5 0.07 66 298 280 290/ 267 302 724
+ 594 08:53:12 -0.5 0.10 67 298 279 290/ 270 303 724 595 08:53:13 -0.5 0.10 68 296 278 291/ 270 305 723 596 08:53:13 -0.5, 0.10 67. 297 278 289/ 270 303 723 597 08:53:14 -0.4 0.10 67 296 278 291/ 269 305 723 598 08:53:15 -0.5 - 0.11 .' 67 297 278 290/ 270 304 723 599 08:53:15 -0.5 0.10 68 296 279 292/ 268 305 723 600 08:53:16 -0.5. 0.11 67 298- 279 290/ 270 303 724 601 08:53:16 -0.5 f;.10 , 68 296 '278 291/ 269 305 724 602 08:53:17 -0.4 0.07 66 296 280 291/ 267 303 72A 603 08:53:18 -0.5 0.10 67 296 279 292/ 268 305 724 604 08:53:18 -0.5 0.07 66 296 280 291/ 266 303 725
() 605 03:53:19 -0.4 0.09 67 295 279 291/ 268 305 724 A-64
+
_ _ _ _ - k
c CRDTEST.205 DATE 01-21-1986 PA8E 12 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DF SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. 7
-~ 606 08:53:19 -0.5 0.07 65 297 280 290/ 267 302 725
\ 607 08:53:20 -0.4 0.09 67 295 279 292/ 268 305 724 608 08:53:21 -0.5 0.06 66 297 280 291/ 267 303 724 609 08:53:21 -0.4 0.09 67 295 279 292/ 268 305 723 610 08:53:22 -0.5 0.07 65 297 280 290/ 267 301 724 611 08:53:22 -0.5 0.10 66 298 279 289/ 268 302 724 612 08:53:23 -0.5 0.07 65 298 280 291/ 267 302 725 613 08:53:24 -0.5 0.10 66 298 279 289/ 269 302 724 614 08:53:24 -0.5 0.07 66 298 280 290/ 267 302 725 615 08:53:25 -0.5 0.10 66 298 279 289/ 269 302 724 616 08:53:25 -0.4 0.07 66 297 280 291/ 267 303 725 617 08:53:26 -0.5 0.09 66 299 280 289/ 268 302 724 618 08:53:27 -0.5 0.11 67 296 278 291/ 270 304 723 619 08:53:27 -0.5 0.09 66 298 279 289/ 269 303 724 620 08:53:28 -0.5 0.11 67 297 278 291/ 270 304 723 621 08:53:28 -0.5 0.09 66 298 279 289/ 269 302 722 622 08:53:29 -0.4 0.11 68 296 278 291/ 270 305 722 623 08:53:30 -0.4 0.10 68 296 279 293/ 268 305 723 624 08:53:30 -0.5 0.07 66 296 280 291/ 267 303 723 625 08:53:31 -0.5 0.08 66 298 280 289/ 267 301 723 626 08:53:32 -0.4 0.11 67 297 279 290/ 270 304 723 627 08:53:32 -0.4 0.10 68 295 279 291/ 268 306 723 628 08:53:33 -0.5 0.11 67 297 278 290/ 270 304 723 629 08:53:33 -0.5 0.08 67 295 279 292/ 267 305 723 630 08:53:34 -0.5 0.10 68 296 278 292/ 269 305 723 631 08:53:35 -0.4 0.07 66 296 280 291/ 267 304 723 632 08:53:35 -0.4 0.11 67 297 278 290/ 270 304 723 0.10 67 295 279 292/ 268 305 723 fN-633 634 08:53:36 08:53:36
-0.5
-0.5 0.08 66 296 280 291/ 267 304 724 635 08:53:37 -0.4 0.08 67 296 279 291/ 268 304 724 636 08:53:38 -0.4 0.08 66 296 280 292/ 267 304 724 637 08:53:38 -0.4 0.10 67 296 279 292/ 269 305 723 638 08:53:39 -0.4 0.07 66 297 280 291/ 267 303 723 639 08:53:39 -0.4 0.10 68 297 278 291/ 269 305 722 640 08:53:40 -0.4 0.10 67 297 278 291/ 268 305 722 641 08:53:41 -0.4 0.10 67 297 278 291/ 269 305 721 642 08:53: 41 -0.4 0.07 66 299 280 291/ 267 303 722 643 08:53:42 -0.4 0.08 66 300 280 290/ 268 302 722 644 08:53:43 -0.4 0.07 65 300 280 290/ 267 302 722 645 08:53:43 -0.4 0.08 66 300 279 289/ 268 302 722 646 08:53: 44 -0.4 0.08 66 299 280 292/ 267 304 723 647 08:53:44 -0.4 0.07 66 300 280 290/ 267 303 723 648 08:53:45 -0.4 0.09 67 298 279 292/ 26B 305 723 649 0B:53:46 -0.4 0.0B 66 299 280 291/ 267 304 723 650 08:53: 46 -0.4 0.10 68 299 278 291/ 269 305 723 651 08:53:47 -0.4 0.08 66 299 280 292/ 267 304 723 652 08:53:47 -0.4 0.07 66 300 280 290/ 267 303 723 653 08:53:48 -0.4 0.09 67 299 280 292/ 267 304 724 654 08:53:49 -0.4 0.07 66 299 280 291/ 267 303 724 655 08:53:49 -0.4 0.10 68 299 278 291/ 270 305 723 656 08:53:50 -0.4 0.09 66 299 279 292/ 267 304 724 657 08:53:50 -0.4 0.11 68 299 278 291/ 269 305 723 658 08:53:51 -0.3 0.10 67 299 279 292/ 268 305 724 659 08:53:52 -0.4 0.08 67 299 280 292/ 267 305 724
() 660 08:53:52 -0.4 0.08 66 301 280 289/ 268 302 724 A-65
_ - . = . . . . - . . c CRDTEST.205 DATE 01-21-1986 PAGE 13 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. j 661 08:53:53 -0.4 0.09 66 301 279 289/ 269 303 723 662 08:53:54 -0.4 0.09 67 299 279 292/ 268 305 723 663 08:53:54 -0.4 0.07 66 301 280 291/ 267 303 723 664 08:53:55 -0.4 0.07 67 300 280 292/ 267 304 723 665 08:53:55 -0.4 0.10 67 300 278 290/ 270 303 722 666 08:53:56 -0.4 0.07 66 301 200 290/ 267 302 722 667 .08:53:56 -0.4 0.09 66 301 279 289/ 269 303 722 668 08:53:57 -0.4 0.10 67 301 278 290/ 270 303 722 l 1 i i O - 1 + I i a k A-66
c 1 NOTES TO .T A B U1_ A T I O N 908813 / N/C
- 1. THIS PROGRAM IS FOR FILE NUMBERS 27 ON...
- 2. CRD FREQUENCY READINGS ARE VALID ONLY WHEN VOLTABE.IS APPLIED
- 3. OPEN THERMDCOUPLES READ -999
- 4. DATA FOR VOLTAGE, CURRENT,FREQ, POWER MAY OR MAY NOT BE AVAILABLE DURING A SCRAM (DUE TO BACK-EMF MEASUREMENT...SEE LOG)
- 5. POWER RECORDED IS SYSTEM POWER AND INCLUDES i APPRDX 59.1 WATTS DRAWN BY TRANSDUCERS,FREQ &
VOLTAGE DROPPINS RESISTORS...ETC. c: CRDTEST.2O6 i O 1 1 t t O A-67
c CRDTEST.206 DATE 01-21-1986 PAGE 1 908813 / N/C SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S DUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW r ~g 1 08:54:19 191 187 + 3 120 0 0 0 0.00 0.00 -0.00 24.0 379
- t/
m 2 08:54:24 191 187
- 3 124 0 0 0 0.00 0.00 -0.00 24.0 378
- 3 08:54:29 191 187 *
- 3 115 0 0 0 0.00 0.00 -0.00 24.0 378
- 4 08:54:34 191 187
- 3 114 0 0 0 0.00 0.00 -0.00 24.0 378
- 5 08:54:39 191 187
- 3 115 0 0 0 0.00 0.00 -0.00 24.0 378
- 6 08:54: 44 191 187
- 3 117 0 0 0 0.00 0.00 -0.00 24.0 378
- 7 08:54:49 191 187
- 3 119 0 0 0 0.00 0.00 -0.00 24.0 378
- 8 08:54:54 191 187 4 3 119 0 0 0 0.0J 0.00 -0.00 24.0 378
- 9 08:54:59 191 187
- 3 115 0 0 0 0.00 0.00 -0.00 24.0 378
- 10 08:55:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 377 +
11 08:55:09 191 187
- 3 118 0 0 0 0.00 0.00 -0.00 24.0 377
- 12 0B:55:14 191 187
- 3 119 0 0 0 0.00 0.00 -0.00 24.0 377
- 13 08:55:19 191 187
- 3 126 0 0 0 0.00 0.00 -0.00 24.0 377
- 14 08:55:24 191 187
- 3 119 0 0 0 -0.00 0.00 -0.00 24.0 377
- 15 08:55:29 191 187 + 3 114 0 0 0 0.00 0.00 -0.00 24.0 377 e 16 08:55:34 191 187
- 3 115 0 0 0 0.00 0.00 -0.00 24.0 377 e 17 08:55:39 191 187
- 3 118 0 0 0 0.00 0.00 -0.00 24.0 377
- 18 08:55: 44 191 187
- 3 115 0 0 0 -0.00 0.00 -0.00 24.0 376 e 19 08:55: 49 191 187
- 3 116 0 0 0 0.00 0.00 -0.00 24.0 376
- 20 08:55:54 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 376
- 21 08:55:59 191 187
- 3 126 0 0 0 0.00 0.00 0.00 24.0 376
- 22 08:56:04 191 187
- 3 126 0 0 0 0.00 0.00 -0.00 24.0 376
- 23 08:56:09 191 187
- 3 126 0 0 0 -0.00 0.00 -0.00 24.0 376
- 24 08:56:14 191 187
- 3 128 0 -0 0 -0.00 0.00 -0.00 24.0 376
- 25 08:56: 19 191 187
- 3 126 0 0 0 -0.00 0.00 -0.00 24.0 376
- 26 08:56:24 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 376
- 27 08:56:29 191 187
- 3 125 0 0 0 0.00 0.00 -0.00 24.0 375 *
(' s-28 29 08:56:34 08:56:39 191 191 187 187 3 128 3 128 0 0 0 0 0 0
-0.00 0.00 0.00 0.00 0.00 -0.00 24.0 24.0 375 375 30 08:56:44 191 187
- 3 125 0 0 0 0.00 0.00 -0.00 24.0 376
- 31 08:56:49 191 187
- 3 127 0 -0 0 0.00 0.00 -0.00 24.0 375
- 32 08:56:54 191 187
- 3 127 0 0 0 -0.00 0.00 0.00 24.0 375
- 33 08:56:59 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 34 08:57:04 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 376
- 35 08:57:09 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 376
- 36 08:57:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 37 08:57:19 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 38 08:57:24 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 39 08:57:29 191 IB7
- 3 128 0 -0 0 -0.00 0.00 0.00 24.0 375
- 40 08:57:34 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 41 08:57:39 191 187
- 3 125 0 0 0 0.00 0.00 -0.00 24.0 375
- 42 08:57:44 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 43 08:57:49 191 187
- 3 128 0 -0 0 0.00 0.00 -0.00 24.0 375
- 44 08:57:54 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 45 08:57:59 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 46 08:58:04 191 187
- 3 120 0 0 0 -0.00 0.00 -0.00 24.0 375
- 47 08:58:09 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 48 08:58:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 49 08:58:19 191 187
- 3 120 0 0 0 -0.00 0.00 -0.00 24.0 375
- 50 08:58:24 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 375
- 51 08:58:29 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375 * ,
52 08:58:34 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- I 53 08:58:39 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 374
- 54 08:58:44 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- Ii O
55 08:58:49 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- A-68
c:CRDTEST.206 DATE 01-21-1986 PA2E ,2 gg , j , SCAN TIME RDD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS eADC SW 56 08:58:54 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- k'_)s 57 08:58:59 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 5B 08:59:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 59 08:59:09 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 60 08:59:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 61 08:59:19 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 62 08:59:24 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 63 08:59: 29 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 64 08:59:34 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 65 08:59:39 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 66 0B:59:44 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 67 08:59:49 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 68 08:59: 54 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 69 08:59:59 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 70 09:00:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 71 09:00:09 191 187
- 3 12B 0 0 0 0.00 0.00 -0.00 24.0 374
- 72 09:00:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 73 09:00:19 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 74 09:00:24 191 1B7
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 75 09:00: 29 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 76 09:00:34 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 77 09:00:39 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 375
- 78 09:00:44 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 79 09:00:49 191 187
- 3 128 0 -0 0 0.00 0.00 -0.00 24.0 375
- 80 09:00:54 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 81 09:00:59 191 187
- 3 12B 0 0 0 0.00 0.00 -0.00 24.0 375
- 82 09:01:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 *
- 24.0 374
- f)/
N-s 83 B4 09:01:09 191 09:01:14 191 187 187
- 3 128 3 128 0
0 0 0 0 0 0.00 0.00 0.00 0.00
-0.00
-0.00 2 ". 0 374
- 85 09:01:19 191 187
- 3 128 0 0 0 0.00 0.00 -0.0^ 24.0 375
- 86 09:01:24 191 187
- 3 128 0 0 0 0.00 0.00 -0 s0 24.0 374
- 87 09:01:29 191 187
- 3 12B 0 0 0 0.00 0.00 -G.00 24.0 374
- 88 09:01:34 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 89 09:01:39 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 90 09:01:44 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 91 09:01:49 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 92 09:01:54 191 1B7
- 3 128 0 -0 0 -0.00 0.00 -0.00 24.0 374
- 93 09:01:59 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 94 09:02:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 95 09:02:09 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 96 09:02:14 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 374
- 97 09:02:19 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 98 09:02:24 IM 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 99 09:02:29 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 374
- 100 09:02:34 191 187
- 3 128 0 0 0 0.00' O.00 0.00 24.0 374
- 101 09:02:39 191 187
- 3 128 0 -0 0 0.00 0.00 -0.00 24.0 374 a 102 09:02:44 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00' 24.0 374
- 103 09:02:49 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 104 09:02:54 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 105 09:02:59 191 187
- 3 128 0 0 0 -0.00- 0.00 -0.00 24.0 374
- 106 09:03:04 191 187 + 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 107 09:03:09 191 187 + 3 128 0 0 0 0.00 0.00 0.00 24.0 374
- 108 09:03:14 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 109 09:03:19 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 *
() 110 09:03:24 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- A-69
c CRDTEST.206 DATE 01-21-1986 PABE 3 gg j SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW (~' 111 09:03:29 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 *
(-) 112 09:03:34 191 187
- 3 128 3 128 0
0 0 0 0 0 0.00 0.00 -0.00 0.00 0.00 -0.00 24.0 24.0 374 374 113 09:03:39 191 187 114 09:03:44 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 115 09:03:49 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 116 09:03:54 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 374 e 117 09:03:59 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 374
- 118 09:04:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 119 09: 04:09 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 e 120 09:04:14 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 121 09:04:19 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 122 09:04:24 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374 +
123 09:04:29 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 124 09:04: 34 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 +
125 09:04:39 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 126 09:04:44 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 127 09:04:49 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 120 09:04:54 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 129 09:04:59 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 130 09:05:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 e 131 09:05:09 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 132 09:05:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 133 09:05:19 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 134 09:05:24 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 374
- 135 09:05:29 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 136 09:05:34 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0, 374
- 137 09:05:39 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 374
- 138 09:05:44 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 *
(/ x-T 139 09:05:49 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 +
140 09:05:54 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 141 09:05:59 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 142 09:06:04 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 374
- 143 09:06:09 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 374 +
144 09:06:14 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 145 09:06:19 191 187
- 3 128 0 0 0 0.40 0.00 0.00 24.0 374 +
146 09:06:24 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 +
147 09:06:29 191 187
- 3 12B 0 0 0 -0.00 0.00 0.00 24.0 374 e 148 09:06:34 191 187 + 3 128 0 0 0 -0.00 0.00 0.00 24.0 374 e 149 09:06:39 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 150 09:06:44 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 151 09:06:49 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 374
- 152 09:06:54 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 374
- 153 09:06:59 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 374
- 154 09:07:04 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 374 e 155 09:07:09 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 374 e 156 09:07:14 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 374
- 157 09:07:19 191 187 + 3 128 0 -0 0 -0.00 0.00 -0.00 24.0 374
- 158 09:07:24 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 374
- 159 09:07:29 191 187 + 3 128 0 0 0 0.00 0.00 0.00 24.0 374
- 160 09:07:34 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 161 09:07:39 191 187 + 3 128 0 0 0 0.00 0.00 0.00 24.0 374
- 162 09:07:44 191 187
- 3 120 0 0 0 0.00 0.00 0.00 24.0 374
- 163 09:07:49 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 164 09:07:54 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 373 *
() 165 09:07:59 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 374
- A-70
c CRDTEST.206 DATE 01-21-1986 PABE 4 908813 / N/C . SCAN 7IME ROD POSH SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S DUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW
, 166 09:08:04 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 167 09:0G:09 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 168 09:08:14 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 374
- 169 09:08:19 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 374
- 170 09:08:24 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374 e 171 09:08:29 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 172 09:08:34 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 374 +
173 09:08:39 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 e 174 09:0B:44 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 175 09:08:49 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 374
- 176 09:08:54 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 177 09:08:59 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 374
- 178 09:09:04 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 374 +
179 09:09:09 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 180 09:09:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 181 09:09:19 191 187 + 3 12B 0 0 0 0.00 0.00 -0.00 24.0 374
- 182 09:09:24 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 183 09:09:29 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 184 09:09: 34 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 e 185 09:09:39 191 187
- 3 120 0 0 0 -0.00 0.00 -0.00 24.0 374
- 186 09:09:44 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 374
- 187 09:09:49 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 188 09:09:54 191 187
- 3 12B 0 0 0 -0.00 0.00 -0.00 24.0 374 e 189 09:09:59 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 374
- 190 09:10:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 +
191 09:10:09 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 192 09:10:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 *
(~T 193 09:10:19 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 *
\- / 194 09:10:24 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 195 09:10:29 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 196 09:10:34 191 187
- 3 125 0 0 0 -0.00 0.00 0.00 24.0 374
- 197 09:10:39 191 187
- 3 127 0 0 0 -0.00 0.00 -0.00 24.0 374
- 198 09:10:44 191 187
- 3 122 0 0 0 -0.00 0.00 -0.00 24.0 375
- 199 09:10:49 191 187
- 3 123 0 0 0 -0.00 0.00 -0.00 24.0 374
- 200 09:10:54 191 187
- 3 128 0 -0 0 -0.00 0.00 -0.00 24.0 374 +
201 09:10:59 191 187
- 3 123 0 0 0 0.00 0.00 -0.00 24.0 374
- 202 09:11:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 203 09:11:09 191 187
- 3 127 0 0 0 0.00 0.00 -0.00 24.0 374
- 204 09:11:14 191 187
- 3 126 0 0 0 0.00 0.00 -0.00 24.0 374
- 205 09:11:19 191 187
- 3 125 0 0 0 0.00 0.00 -0.00 24.0 374
- 206 09:11:24 191 187
- 3 127 0 0 0 0.00 0.00 -0.00 24.0 374
- 207 09:11:29 191 187
- 3 124 0 0 0 0.00 0.00 -0.00 23.9 374
- 208 09:11:34 191 187 + 3 126 0 0 0 0.00 0.00 -0.00 24.0 374
- 209 09:11:39 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 210 09:11:44 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 211 09:11:49 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 e 212 09:11:54 191 187
- 3 124 0 0 0 0.00 0.00 -0.00 24.0 375
- 213 09:11:59 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 214 09:12:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 215 09:12:09 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 216 09:12:14 191 187
- 3 124 0 0 0 -0.00 0.00 0.00 24.0 375
- 217 09:12:19 191 187
- 3 127 0 0 0 0.00 0.00 -0.00 24.0 374
- 218 09:12:24 191 187
- 3 122 0 0 0 0.00 0.00 -0.00 24.0 375
- 219 09:12:29 191 187
- 3 123 0 0 0 -0.00 0.00 -0.00 24.0 375 *
() 220 09:12:34 191 187
- 3 123 0 0 0 -0.00 0.00 -0.00 24.0 375
- i A-71
c CRDTEST.206 DATE 01-21-1986 PABE- 5 88 / /C SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLT 5 mADC SW f~s 221 09:12:39 191 187
- 3 122 0 0 0 -0.00 0.00 -0.00 24.0 375 *
(s ) .222 09:12: 44 191 187
- 3 126 0 0 0 0.00 0.00 -0.00 24.0 375
- 223 09:12:49 191 187
- 3 120 0 0 0 0.00 0.00 0.00 24.0 375
- 224 09:12:54 191 187
- 3 124 0 0 0 -0.00 0.00 -0.00 24.0 374
- 225 09:12:59 191 187
- 3 122 0 0 0 0.00 0.00 -0.00 24.0 374
- 226 09:13:04 191 187
- 3 121 0 0 0 0.00 0.00 -0.00 24.0 375
- 227 09:13:09 191 187
- 3 122 0 0 0 0.00 0.00 -0.00 24.0 375
- 228 09:13:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 229 09:13:19 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 230 09:13:24 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 231 09:13:29 191 187
- 3 128 0 -0 0 -0.00 0.00 -0.00 24.0 374 +
232 09:13:34 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 375
- 233 09:13:39 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 374
- 234 09:13:44 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 e 235 09:13:49 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 236 09:13:54 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 237 09:13:59 191 187 a 3 128 0 0 0 0.00 0.00 0.00 24.0 374
- 238 09:14:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 239 09:14:09 191 187
- 3 128 0 -0 0 -0.00 0.00 -0.00 24.0 375
- 240 09:14:14 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 241 09:14:19 191 187
- 3 12B 0 0 0 0.00 0.00 -0.00 24.0 374
- 242 09:14:24 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 243 09:14:29 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374 +
244 09:14: 34 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 245 09:14: 39 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 246 09:14:44 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 247 09:14:49 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 374
- 248 09:14:54 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 *
(~')N Nm 249 09:14:59 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 374
- 250 09:15:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 251 09:15:09 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 252 09:15:14 191 IB7
- 3 128 0 -0 0 -0.00 0.00 0.00 24.0 374
- 253 09:15:19 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 254 09:15:24 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 255 09:15:29 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 256 09:15:34 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 257 09:15:39 191 .87
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 258 09:15:44 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 259 09:15:49 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 260 09:15:54 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 375
- 261 09:15:59 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 262 09:16:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 263 09:16:09 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 264 09:16:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 265 09:16:19 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 v 266 09:16:24 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 267 09:16:29 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 268 09:16:34 191 187
- 3 125 0 0 0 -0.00 0.00 -0.00 24.0 375
- 269 09:16:39 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 270 09:16:44 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 271 09:16:49 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 272 09:16:54 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 273 09:16:59 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 274 09:17:04 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 275 09:17:09 191 -0.00 24.0 374 *
(} 187 + 3 120 0 0 0 0.00 -0.00 A-72 j
t i c CRDTEST.206 DATE 01-21-1986 PAGE 6 4- . - 908813 / N/C 1 SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- l (HRS) N S OUT IN WATTS HI 1 2 3 1 2 3 VOLTS sADC SW i 276 09:17:14 191 187 a 3 128 0 0 0 0.00 0.00 -0.00 24.0 374 e
- p\sj 277' 09
- 17:19 191 187. e 3 128 0 0 0 0.00 0.00 -0.00 .24.0 374
- i 278 09:17:24 191 187 * *3 128 0 0 0 -0.00 0.00 -0.00 24.0 375 e
; 279 09:17:29 191 187 e 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375 e 280 09:17:34 191 187
- 3 128 0 -0 0 -0.00 0.00 -0.00 24.0 375 e
.i s a 1 4 1 I 1 I i I j I t t ! A-73 1 L y- n-p w w +--%--w,- .yw ,#,mw,%-~,-.----w-r-3r---,w, ,-m. - -ww n ,- ,-.w- wmm--,w.- ,-
c CRDTEST.206 -DATE 01-21-1986 PAGE 1 9088ti / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. fS 1 08:54:19 -0.4 0.07 66 300 280 291/ 267 302 723 - (_) 2 08:54:24 -0.4 0.10 67 299 278 291/ 269 304 722 3 08:54:29 -0.4 0.09 67 299 279 292/ 268 304 723 4 08:54: 34 -0.4 0.08 67 300 280 292/ 267 303 723 5 08:54: 39 -0.4 0.10 67 299 279 292/ 268 304 722 6 08:54:44 -0.4 0.09 67 299 279 292/ 268 304 721 7 08:54:49 -0.4 0.08 66 300 280 291/ 267 302 722 0 08:54:54 -0.4 0.07 66 301 280 290/ 267 301 722 9 08:54: 59 -0.4 0.07 66 300 280 291/ 267 302 723 10 08:55:04 -0.4 0.07 66 301 280 291/ 267 302 724 11 08:55:09 -0.4 0.09 67 299 279 292/ 267 303 723 12 08:55:14 -0.4 0.07 66 301 280 291/ 267 301 724 13 08:55:19 -0.4 0.07 65 301 280 289/ 267 299 724 14 08:55:24 -0.4 0.09 66 301 279 289/ 269 300 724 15 08:55:29 -0.4 0.07 66 301 280 290/ 267 300 725 16 08:55:34 -0.4 0.08 66 301 279 289/ 268 299 725 17 08:55:39 -0.4 0.10 66 301 279 289/ 269 299 725 18 08:55: 44 -0.4 0.10 68 301 278 290/ 270 301 724 19 08:55:49 -0.4 0.09 66 301 279 289/ 269 299 724 20 08:55:54 -0.4 0.10 67 301 278 276/ 269 300 725 21 08:55:59 -0.4 0.10 67 300 278 290/ 270 301 724 22 08:56: 04 -0.4 0.07 66 301 280 290/ 267 299 725 23 08:56:09 -0.4 0.09 66 301 279 289/ 268 299 724 24 08:56:14 -0.4 0.10 66 301 279 290/ 269 299 723 25 08:56:19 -0.4 0.10 67 301 278 290/ 270 300 722 26 08:56:24 -0.4 0.00 65 302 280 289/ 268 298 723 27 08:56:29 -0.4 0.09 67 301 279 290/ 269 299 723 f' 28 08:56:34 -0.4 0.10 67 301 279 290/ 270 299 724 A- 29 08:56:39 -0.4 0.10 68 301 278 291/ 270 300 724 30 08:56:44 -0.4 0.09 66 301 279 289/ 269 298 725 31 08:56:49 -0.4 0.10 66 301 279 290/ 269 299 724 32 08:56:54 -0.4 0.11 68 300 278 290/ 270 300 728 33 08:56:59 -0.4 0.11 68 300 278 291/ 270 300 724 34 08:57:04 -0.4 0.09 66 302 280 289/ 268 298 723 35 08:57:09 -0.4 0.09 66 302 279 289/ 268 298 723 36 08:57:14 -0.4 0.07 66 301 280 290/ 267 297 724 37 08:57:19 -0.4 0.0B 66 302 280 290/ 268 298 724 38 08:57:24 -0.4 0.09 66 302 279 289/ 269 297 724 39 08:57:29 -0.4 0.10 67 301 279 290/ 269 298 724 40 08:57:34 -0.4 0.07 66 302 280 290/ 267 297 725 41 08:57:39 -0.4 0.08 66 302 280 289/ 268 297 724 42 08:57:44 -0.4 0.09 67 301 279 290/ 269 298 724 43 08:57:49 -0.4 0.10 67 301 279 290/ 269 298 724 44 08:57:54 -0.4 0.08 66 302 280 289/ 268 297 725 45 08:57:59 -0.4 0.00 66 302 279 290/ 269 297 725 46 08:58:04 -0.4 0.09 67 301 279 289/ 269 297 725 47 08:58:09 -0.4 0.07 66 301 200 290/ 267 297 725 48 08:58:14 -0.4 0.07 66 302 280 290/ 268 296 724 49 08:58:19 -0.4 0.10 66 301 279 289/ 269 297 725 50 08:58:24 -0.4 0.11 67 301 279 290/ 270- 298 724 51 08:58:29 -0.4 0.09 67 301 280 289/ 269 297 723 52 08:58:34 -0.4 0.10 67 301 278 290/ 269 297 724 53 08:58:39 -0.4 0.10 68 300 278 291/ 270 298 724 54 08:58:44 -0.4 0.10 68 299 279 291/ 269 299 725 55 08:58:49 -0.4 0.10 67 300 278 290/ 270 298 724 (/ T A-74
c CRDTEST.206 DATE 01-21-1986 PABE 2 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-1N He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. 56 08:58:54 -0.4 0.10 68 300 278 291/ 269 299 725 ('} Nr s 57 08:58:59 -0.3 0.10 67 299 279 292/ 268 299 724 58 08:59:04 -0.4 0.10 68 300 278 290/ 270 298 724 59 08:59:09 -0.4 0.13 68 299 279 291/ 269 299 724 60 08:59:14 -0.4 0.18 68 299 279 292/ 268 298 724 61 08:59:19 -0.4 0.25 68 300 279 290/ 270 298 725 62 08:59:24 ro.4 0.30 68 300 279 291/ 269 299 725 63 08:59:29 -0.4 0.36 68 299 279 291/ 268 298 725 64 08:59:34 -0.4 0.40 67 300 280 291/ 267 297 726 65 08:59:39 -0.4 0.48 68 300 279 292/ 269 298 722 66 08:59:44 -0.4 0.53 67 300 280 291/ 268 29B 723 67 08:59:49 -0.4 0.57 66 300 280 291/ 267 297 725 68 08:59:54 -0.4 0.64 66 301 280 290/ 267 296 725 69 08:59:59 -0.4 0.70 67 300 280 291/ 267 297 725 70 09:00:04 -0.4 0.76 67 300 280 291/ 268 297 726 71 09:00:09 -0.4 0.00 66 301 280 291/ 267 296 727 72 09:00:14 -0.4 0.87 67 300 280 291/ 268 298 728 73 09:00:19 -0.4 0.93 67 301 280 291/ 267 297 728 74 09:00:24 -0.4 1.00 66 301 280 290/ 267 295 728 75 09:00:29 -0.4 1.06 66 301 280 289/ 267 294 729 76 09:00:34 -0.4 1.11 66 301 280 290/ 267 295 730 77 09:00:39 -0.4 1.19 66 301 280 289/ 268 294 730 78 09:00:44 -0.4 1.26 66 301 279 289/ 268 294 730 79 09:00:49 -0.4 1.33 66 302 279 289/ 269 295 730 80 09:00:54 -0.4 1.37 66 301 280 289/ 268 294 730 81 09:00:59 -0.4 1.44 67 301 280 289/ 26B 294 731 82 09:01:04 -0.4 1.46 67 300 280 291/ 267 297 732 ( \/ B3 84 09:01:09 09:01:14
-0.4
-0.4 1.53 1.59 66 66 300 301 280 280 290/ 267 290/ 266 295 295 732 733 85 09:01:19 -0.4 1.67 66 301 280 288/ 268 294 733 86 09:01:24 -0.4 1.71 66 300 280 291/ 267 296 733 87 09:01:29 -0.4 1.78 66 301 280 289/ 267 294 733 88 09:01:34 -0.4 1.85 66 301 280 288/ 267 294 734 89 09:01:39 -0.4 1.92 66 302 279 288/ 268 294 734 90 09:01:44 -0.3 1.96 66 301 280 289/ 267 294 735 91 09:01: 49 -0.4 2.04 66 301 280 289/ 268 294 736 92 09:01:54 -0.4 2.11 67 301 279 289/ 269 295 736 93 09:01:59 -0.4 2.18 67 301 279 289/ 269 295 736 94 09:02:04 -0.4 2.19 68 300 279 291/ 268 297 737 95 09:02:09 -0.4 2.29 67 302 279 288/ 268 294 736 96 09:02:14 -0.4 2.35 67 301 279 288/ 269 294 735 97 09:02:19 -0.4 2.40 66 302 280 289/ 268 294 737 98 09:02:24 -0.4 2.48 67 301 279 288/ 269 294 737 99 09:02:29 -0.4 2.53 67 301 279 289/ 269 295 739 100 09:02:34 -0.4 2.59 68 301 279 289/ 270 296 739 101 09:02:39 -0.4 2.66 67 302 280 288/ 269 294 740 102 09:02:44 -0.4 2.71 68 301 279 289/ 270 296 740 103 09:02:49 -0.4 2.76 68 300 278 290/ 269 296 738 104 09:02:54 -0.4 2.79 68 299 279 290/ 268 296 739 105 09:02:59 -0.4 2.87 68 300 279 290/ 270 296 739 106 09:03:04 -0.4 2.92 68 300 278 290/ 269 296 73B 107 09:03:09 -0.4 3.01 67 301 279 289/ 270 294 737 108 09:03:14 -0.4 3.04 68 300 279 290/ 269 296 737 109 09:03: 19 -0.4 3.09 68 299 280 291/ 268 296 737
() 110 09:03:24 -0.4 3.15 66 301 280 290/ 267 294 737 A-75
c CRDTEST.206 DATE 01-21-1986 PA8E 3 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. til 09:03:29 -0.4 3.21 67 300 780 291/ 267 295 737 (\_/"') 112 09:03:34 -0.4 3.28 66 301 280 289/ 267 294 738 113 09:03:39 -0.4 3.36 66 302 280 288/ 268 293 735 114 09:03:44 -0.4 3.44 67 302 279 288/ 269 293 735 115 09:03:49 -0.4 3.48 66 302 280 288/ 268 293 735 116 09:03:54 -0.4 3.56 67 301 279 288/ 269 294 734 117 09:03:59 -0.4 3.59 68 300 279 290/ 270 296 733 118 09:04:04 -0.4 3.68 67 301 279 288/ 269 293 735 119 09:04:09 -0.4 3.72 67 300 278 289/ 270 295 734 120 09:04: 14 -0.4 3.76 68 299 279 290/ 269 296 734 121 09:04:19 -0.4 3.81 68 300 280 291/ 268 295 735 122 09:04:24 -0.4 3.88 68 299 279 290/ 269 296 735 123 09:04:29 -0.4 3.92 68 300 280 291/ 268 296 736 124 09:04:34 -0.4 3.99 67 300 280 290/ 267 294 736 125 09:04:39 -0.4 4.06 67 302 281 289/ 267 293 736 126 09:04:44 -0.4 4.12 67 300 280 290/ 268 295 736 127 09:04:49 -0.4 4.17 67 300 280 290/ 267 294 735 120 09:04:54 -0.4 4.24 66 301 280 289/ 267 293 735 129 09:04:59 -0.4 4.32 67 301 280 289/ 267 293 735 130 09:05:04 -0.4 4.35 67 300 280 290/ 267 295 734 131 09:05:09 -0.4 4.41 66 300 280 290/ 267 294 734 132 09:05:14 -0.3 4.48 68 299 279 290/ 268 295 734 133 09:05:19 -0.4 4.53 68 300 279 290/ 268 295 735 134 09:05:24 -0.4 4.59 67 301 280 290/ 267 294 735 l 135 09:05:29 -0.4 4.65 66 301 280 290/ 267 293 735 136 09:05:34 -0.4 4.73 68 300 279 291/ 269 295 733 137 09:05:39 -0.4 4.78 68 300 279 290/ 268 295 734 138 09:05:44 -0.4 4.85 68 300 279 290/ 268 295 734 139 09:05:49 -0.4 4.89 67 300 280 290/ 267 294 735 140 09:05:54 -0.4 4.97 68 300 279 290/ 269 295 735 141 09:05:59 -0.4 5.02 68 300 279 291/ 268 295 735 142 09:06:04 -0.4 5.08 68 300 279 290/ 260 295 734 143 09:06:09 -0.4 5.17 68 300 278 289/ 270 294 733 144 09:06:14 -0.4 5.22 68 300 279 289/ 269 295 733 145 09:06:19 -0.3 5.28 68 299 279 290/ 268 295 733 146 09:06:24 -0.4 5.33 68 299 279 290/ 268 295 733 147 09:06:29 -0.4 5.42 68 301 278 289/ 270 294 733 148 09:06:34 -0.4 5.47 68 300 278 289/ 269 294 733 149 09:06:39 -0.3 5.52 68 300 279 290/ 269 295 733 150 09:06:44 -0.4 5.58 68 300 279 290/ 269 295 735 151 09:06:49 -0.4 5.65 68 301 279 289/ 270 294 734 152 09:06:54 -0.4 5.72 68 300 278 289/ 270 294 734 153 09:06:59 -0.4 5.77 68 300 279 290/ 269 295 734 154 09:07:04 -0.4 5.82 67 301 279 288/ 269 292 733 155 09:07:09 -0.4 5.89 68 300 279 289/ 270 294 733 156 09:07:14 -0.4 5.93 68 300 278 289/ 270 294 732 157 09:07:19 -0.4 5.96 67 302 279 288/ 269 292 731 158 09:07:24 -0.4 5.99 68 301 279 288/ 270 293 732 159 09:07:29 -0.4 6.02 68 300 278 289/ 269 294 732 160 09:07:34 -0.4 6.00 68 300 279 290/ 268 794 734 161 09:07:39 -0.4 6.02 68 300 279 289/ 270 293 734 162 09:07:44 -0.4 6.02 68 300 278 289/ 270 294 735 163 09:07:49 -0.4 6.02 68 300 279 289/ 270 294 735 164 09:07:54 -0.4 5.97 69 299 279 290/ 268 294 734 I () 165 09:07:59 -0.4 5.92 68 301 279 289/ 270 294 735 l 1 A-76
c CRDTEST.206 DATE 01-21-1986 PABE 4 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-1N He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. 5.86 68 300 279 294 734 ('S A/ m 166 167 09:08:04 09:08:09
-0.4
-0.4 5.79 68 299 279 289/ 270 290/ 269 294 735 168 09:08:14 -0.4 5.73 68 301 279 288/ 270 293 735 169 09:08:19 -0.4 5.68 68 300 279 289/ 270 294 735 170 09:08:24 -0.4 5.61 68 300 279 289/ 269 294 735 171 09:08:29 -0.4 5.54 68 300 279 290/ 268 294 734 172 09:08:34 -0.4 5.50 68 300 279 289/ 269 294 735-173 09:08:39 -0.4 5.43 68 300 279 289/ 270 294 735 174 09:08:44 -0.4 5.36 68 299 279 290/ 268 294 734 175 09:08:49 -0.4 5.30 68 300 279 290/ 268 294 735 176 09:08:54 -0.4 5.26 68 301 279 288/ 270 292 734 177 09:08:59 -0.4 5.19 68 301 279 288/ 269 292 733 178 09:09:04 -0.4 5.10 67 301 200 289/ 267 292 735 179 09:09: 09 -0.4 5.05 67 302 280 288/ 267 291 735 180 09:09:14 -0.4 4.99 66 301 280 288/ 267 291 735 181 09:09:19 -0.4 4.95 67 302 279 288/ 268 291 734 182 09:09:24 -0.3 4.86 67 301 280 288/ 267 291 735 183 09:09:29 -0.4 4.82 67 302 280 290/ 267 291 735 184 09:09:34 -0.4 4.77 67 302 280 288/ 26B 291 735 185 09:09:39 -0.4 4.72 67 302 279 288/ 269 291 734 186 09:09:44 -0.3 4.63 67 301 280 288/ 267 291 735 187 09:09:49 -0.4 4.58 67 302 280 288/ 268 291 735 188 09:09:54 -0.4 4.53 67 302 280 288/ 265 291 735 189 09:09:59 -0.3 4.48 68 301 279 288/ 269 292 735 190 09:10:04 -0.4 4.39 67 301 280 288/ 267 291 736 191 09:10:09 -0.4 4.34 67 302 280 288/ 267 291 734 192 09:10:14 -0.4 4.29 67 302 280 288/ 268 291 735 193 09:10:19 -0.4 4.21 67 301 280 288/ 267 291 736 O- 194 09:10:24 -0.4 4.15 67 302 280 288/ 267 291 737 195 09:10:29 -0.4 4.12 67 302 280 287/ 268 291 736 196 09:10:34 -0.4 4.05 67 302 279 288/ 269 291 734 197 09:10:39 -0.4 3.98 67 302 280 288/ 268 291 735 198 09:10:44 -0.4 3.94 67 302 279 288/ 268 290 734 199 09:10:49 -0.4 3.88 68 302 279 288/ 269 291 735 200 09:10:54 -0.4 3.82 68 301 279 288/ 269 292 736 201 09:10:59 -0.4 3.74 67 302 280 288/ 268 290 735 202 09:11:04 -0.4 3.68 67 302 280 288/ 267 290 735 203 09:11:09 -0.4 3.59 68 301 280 289/ 267 292 735 204 09:11:14 -0.4 3.53 67 301 280 289/ 267 291 736 205 09:11:19 -0.4 3.49 66 302 280 288/ 267 290 737 206 09:11:24 -0.4 3.44 66 302 280 288/ 268 290 738 207 09:11:29 -0.4 3.35 67 301 280 289/ 267 291 738 200 09:11:34 -0.4 3.30 67 301 280 288/ 267 291 737 209 09:11:39 -0.4 3.27 67 302 280 288/ 268 290 738 210 09:11:44 -0.4 3.22 68 301 279 287/ 269 290 736 211 09:11:49 -0.4 3.12 67 301 280 288/ 267 291 737 212 09:11:54 -0.4 3.08 67 302 280 288/ 268 290 736 213 09: 11:59 -0.4 3.04 68 301 279 287/ 269 291 737 214 09: 12:04 -0.4 2.94 67 301 280 288/ 267 291 738 215 09:12:09 -0.4 2.89 67 301 280 288/ 267 290 738 216 09:12:14 -0.4 2.86 67 302 279 288/ 269 290 738 217 09:12:19 -0.4 2.80 68 302 279 288/ 269 291 738 218 09:12:24 -0.4 2.72 67 302 280 287/ 268 290 737 219 09:12:29 -0.4 2.67 68 302 280 287/ 269 290 737 287/ 269
() 220 09:12:34 -0.4 2.61 68 302 279 291 738 A-77
6 c CRDTEST.206 DATE 01-21-1986 PACE 5 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS)- DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V.
/~'T 221 09:12:39 -0.4 2.55 68 302 279 288/ 269 291 738
\s / 222 09:12: 44 -0.4 2.48 67 302 280 287/ 268 290 738 223 09:12: 49 -0.4 2.43
- 68 302 279 288/ 269 291 738 224 09:12:58 -0.4 2.37 68 301 279 287/ 270 291 739 225 09:12:59 -0.4 2.30 69 300 279 290/ 270 293 736 226 09:13:04 -0.4 2.25 67 302 280 287/ 268 289 737 227 09:13:09 -0.4 2.19 67 301 279 287/ 269 291 737 228 09:13:14 -0.4 2.12 66 302 280 287/ 268 290 738 229 09:13:19 -0.4 2.07 67 302 279 287/ 268 290 738 230 09:13:24 -0.4 2.01 68 301 279 288/ 270 291 739 231 09:13:29 -0.4 1.94 68 301 279 288/ 270 292 737 232 09:13:34 -0.3 1.89 68 301 279 288/ 269 291 738 233 09:13:39 -0.4 1.83 69 301 279 289/ 270 293 738
, 234 09:13:44 -0.4 1.75 69 300 279 289/ 269 293 737 235 09:13:49 -0.4 1.67 68 300 280 289/ 268 293 738 236 09:13:54 -0.4 1.64 69 301 279 288/ 270 292 737 l 237 09:13:59 -0.3 1.57 69 300 279 289/ 270 293 737 238 09:14:09 -0.3 1.51 69 300 279 288/ 270 293 736
- 239 09
- 14:09 -0.4 1.46 68 301 279 288/ 270 291 736 240 09:14:14 -0.3 1.40 68 301 279 287/ 270 291 735 f 241 09:14:19 -0.4 1.34 69 301 279 288/ 270 292 735 i 242 09:14:24 -0.4 1.27 69 300 279 289/ 270 293 734 243 09:14:29 -0.4 1.22 6B 301 279 288/ 270 291 733 244 09:14:34 -0.4 1.15 69 300 279 289/ 270 292 732 245 09:14:39 -0.3 1.08 68 300 279 289/ 269 293 731 i
246 09:14:44 -0.4 1.02 69 300 279 289/ 269 293 729 247 09:14:49 -0.3 0.98 69 301 279 288/ 270 292 730 289/ 269 ^ I'\ 248 09:14:54 249 09:14:59
-0.3
-0.3 0.90 0.84 69 69 300 300 279 279 289/ 269 293 293 728 728 250 09:15:04 -0.4 0.80 68 301 279 287/ 269 291 728 251 09:15:09 -0.4 0.74 69 301 279 288/ 270 291 728 252 09:15:14 -0.3 0.68 69 301 279 288/ 270 292 727 253 09:15:19 -0.4 0.61 68 302 280 287/ 269 290 727 254 09:15:24 -0.4 0.55 68 302 279 287/ 269 290 725 255 09:15:29 -0.4 0.50 69 301 279 288/ 270 291 726 256 09:15:34 -0.4 0.44 69 301 279 289/ 270 292 725 257 09:15:39 -0.4 0.36 68 302 279 287/ 269 290 724 250 09:15:44 -0.4 0.31 68 302 279 287/ 269 290 724 259 09:15:49 -0.4 0.26 68 301 279 287/ 270 291 724 260 09:15:54 -0.4 0.21 68 301 279 288/ 270 291 724 261 09:15:59 -0.4 0.14 67 302 280 287/ 268 289 723 262 09:16:04 -0.4 0.10 67 301 280 287/ 268 289 722 4 263 09:16:09 -0.4 0.08 68 302 280 287/ 268 289 721
- 264 09
- 16:14 -0.4 0.07 67 301 280 289/ 267 290 722 j 265 09:16:19 -0.3 0.07 67 301 280 288/ 267 290 722 266 09:16:24 -0.4 0.07 67 301 280 287/ 267 289 721 267 09:16:29 -0.4 0.07 68 302 280 287/ 268 289 722 260 09:16:34 -0.3 0.07 68 300 280 289/ 267 291 723 269 09:16:39 -0.3 0.07 68 301 281 289/ 267 291 723 270 09:16: 44 -0.3 0.07 68 301 280 288/ 267 290 722 271 09:16:49 -0.4 0.07 68 301 280 288/ 267 290 723 272 09:16:54 -0.3 0.08 68 300 280 289/ 267 291 722 273 09:16:59 -0.3 0.08 68 300 280 289/ 267 292 724 274 09:17:04 -0.4 0.11 69 300 279 288/ 270 292 724 f-s 275 09:17:09 -0.3 0.10 69 300 279 289/ 270 292 724
(,j 1 A-78 l
j .- c CRDTEST.206 DATE 01-21-1986 PABE 6 , , 908813 / N/C i SCAN TIME RSS DV-POS SWITCHES ----------------- TEMPERATURES ---------------- 4 (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. ) 276 09:17:14 -0.3 0.10 69 300 279 289/ 269 292 725 i 277 09:17:19 -0.3 0.11 69 300 279 289/ 269 292 725 278 09:17:24 -0.4 0.10 68 301 279 287/ 269 290 725 279 09:17:29 -0.4 0.10 68 302 279 287/ 269 290 725 280 09:17:34 -0.3 0.10 68 301 279 288/ 269 290 725 t J I l j 4 i i
- O 1
5 i e i ) } h !O i k . A-79 i l i 4
NOTES TO TABULATION l 908813 / N/C
- 1. THIS PROGRAM IS FOR FILE NUMBERS 27 ON...
- 2. CRD FREQUENCY READINGS ARE VALID ONLY WHEN VOLTAGE IS APPLIED
- 3. OPEN THERMOCOUPLES READ -999
- 4. DATA FOR VOLTAGE, CURRENT,FREQ, POWER MAY OR MAY NOT BE AVAILABLE DURING A SCRAM (DUE TO BACK-EMF MEASUREMENT...SEE LOG)
- 5. POWER RECORDED IS SYSTEM POWER AND INCLUDES APPROX 59.1 WATTS DRAWN BY TRANSDUCERS,FREQ &
VOLTAGE DROPPING RESISTORS...ETC. c: CRDTEST.207 0 O A-80
c CRDTEST.207 DATE 01-21-1986 PAGE 1 908813 / N/C SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMP 5 ----BRAKE---- (HRS) N 5 DUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW 1 09:18:01 191 187 3 120 0 0 0 0.00 0.00 -0.00 24.0 374 * (\ 2 09:18:01 191 187 + 3 120 0 0 0 0.00 0.00 -0.00 24.0 374
- 3 09:18:02 191 187
- 3 120 0 0 0 -0.00 0.00 0.00 24.0 375
- 4 09:18:03 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 375
- 5 09:18:03 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 6 09:18:04 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 7 09:18:04 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 8 09:18:05 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 9 09:18:06 191 187
- 3 128 0 0 0 0.00' O.00 -0.00 24.0 375
- 10 09:18:06 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375 e 11 09: 18:07 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 12 09:18:07 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 13 09:18:08 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 14 09:18:08 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 375
- 15 09:18:09 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 16 09:18:10 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 17 09:18:10 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 375
- 18 09:18:11 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 19 09:18:11 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 20 09: 18:12 191 167
- 3 120 0 0 0 -0.00 0.00 -0.00 24.0 375
- 21 09:18:12 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 e 22 09:18:13 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 23 09:18:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 24 09:18:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 25 09:18:15 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 +
26 09:18:15 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 27 09:18:16 191 187 + 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 28 09:18:17 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- x 29 09:18:17 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 30 09:18:18 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 a 31 09:18:18 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 32 09:18:19 191 187
- 3 128 0 -0 0 -0.00 0.00 -0.00 24.0 375
- 33 09: 18:19 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 34 09:18:20 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 35 09:18:21 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 375 *
* -0.00 36 09:18:21 191 187 3 128 0 0 0 0.00 -0.00 24.0 375
- 37 09:18:22 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 38 09:18:22 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 39 09:18:23 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 375
- 40 09:18:24 191 187
- 3 120 0 0 0 -0.00 0.00 0.00 24.0 375
- 41 09:18:24 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 42 09:18:25 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 43 09:18:25 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 44 09:18:26 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 45 09:18:27 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 46 09: 18:27 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 47 09:18:28 191 187 + 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 48 09:18:28 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 375
- 49 09:18:29 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 50 09:18:29 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 51 09:18:30 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 52 09:18:31 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 53 09:18:31 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 375
- 54 09:18:32 191 107 + 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375 *
/~'T 55 09:18:32 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- V A-81
i c:CRDTEST.207 DATE 01-21-1986 PAEE 2 p p SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S DUT IN WATTS HZ 1 2 3 1 2 3 VOLTS sADC SW 56 09:18:33 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- O,s 57 09:18:34 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 58 09:18:34 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 59 09:18:35 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 60 09:18:35 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 375 e 61 09:18:36 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 62 09: 18:36 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 63 09:18:37 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 1 64 09:18:38 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 65 09:18:38 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 66 09:18:39 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 67 09:18:39 191 187
- 3 128 0 -0 0 -0.00 0.00 -0.00 24.0 375
- 68 09:18:40 191 187
- 3 120 0 0 0 -0.00 0.00 -0.00 24.0 374
- 69 09:18:40 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 70 09:18:41 191 187 + 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374
- 71 09:18:42 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 72 09:18:42 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 +
73 09:18: 43 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 74 09:18:43 191 187
- 3 128 0 -0 0 -0.00 0.00 -0.00 24.0 375
- 75 09:18:44 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 375
- 76 09:18:45 191 187 + 3 120 0 0 0 -0.00 0.00 -0.00 24.0 375
- 77 09:18: 45 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 78 09:18:46 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 79 09:18:46 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 374
- 80 09:18:47 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- B1 09:18:48 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 374
- 82 09:18:48 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 83 09:18:49 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374 *
\ 84 09:18:49 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 85 09:18:50 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 86 09:18:50 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- B7 09:18:51 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 88 09:18:52 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 89 09:18:52 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 375
- 90 09:18:53 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 375
- 91 09:18:53 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 92 09:18:54 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 93 09:18:55 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 94 09:18:55 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 95 09:18:56 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 375
- 96 09:18:56 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 97 09:18:57 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 374
- 98 09:18:57 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 99 09:18:58 191 187
- 3 120 0 0 0 -0.00 0.00 0.00 24.0 375 e 100 09: 18:59 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 375
- 101 09:18:59 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 e 102 09:19:00 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 375
- 103 09:19:00 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 e 104 09:19:01 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 +
105 09:19:02 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 106 09:19:02 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 107 09: 19:03 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 108 09:19: 03 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 374
- 109 09:19:04 191 IB7 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 *
() 110 09:19:05 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- A-82
c:CRDTEST.207 DATE 01-21-1985 PA8E 3 908813 / N/C SCAN TIME ROD POSN SWITCH PWR FRED VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS sADC SW w 111 -09:19:05 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 +
\_ 112 09:19:06 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375 e 113 09:19:06 191 187
- 3 128 0 0- 0 0.00 0.00 -0.00 24.0 375
- 114 09:19:07 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 375 +
115 09:19:08 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 116 09:19:08 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 374 +
117 09:19:09 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 e 110 09:19:09 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375 e 119 09:19:10 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 120 09:19:11 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 375
- 121 09:19:11 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 375 a 122 09:19:12 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 123 09:19:12 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 124 09:19:13 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 376
- 125 09:19:13 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 126 09:19:14 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 127 09:19:15 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 128 09:19:15 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 129 09:19:16 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 374
- 130 09:19: 16 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375 +
131 09:19:17 1*1 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 132 09:19:17 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 133 09:19:18 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- l 134 09:19:19 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- 135 09:19:19 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 e 136 09:19:20 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 137 09:19:20 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 138 09:19:21 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- O- 139 09:19:22 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375 e 140 09:19:22 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 141 09:19:23 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 e 142 09:19:23 191 187
- 3 128 0 0 0 -0.00 0.00 0.00 24.0 375
- 143 09:19:24 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 144 09:19:24 191 187
- 3 120 0 0 0 -0.00 0.00 0.00 24.0 375
- l 145 09:19:25 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 146 09:19:26 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 147 09:19:26 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 +
148 09:19:27 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 374
- l 149 09:19:27 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 150 09:19:28 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 a 151 09:19:29 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 152 09:19:29 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 375 e l
153 09:19:30 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 154 09:19:30 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 155 09:19:31 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 156 09:19:32 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 157 09:19:32 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 158 09:19:33 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 159 09:19:33 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 +
160 09:19:34 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 375
- 161 09:19:35 191 187 + 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- l 162 09:19:35 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 163 09:19:36 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 375
- 164 09:19:36 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 165 09:19:37 191 187 + 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375 *
(} A-83
c CRDTEST.207 "ATT 01 .1-1986 PAGE 4 908813 / N/C SCAN TIME ROD POSN SWITCH PWR FREQ VOLTS AMPS ----BRAKE---- (HRS) N S OUT IN WATTS HZ 1 2 3 1 2 3 VOLTS mADC SW 166 09:19:37 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375 *
("N% 167 s) 09:19:38 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375 e 16B 09:19:39 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 169 09:19:39 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 170 09:19:40 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375 e 171 09:19:40 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375
- 172 09:19:41 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 173 09:19:42 191 187
- 3 128 0 0 0 -0.00 0.00 -0.00 24.0 375 +
174 09:19:42 191 187
- 3 128 0 0 0 0.00 0.00 0.00 24.0 375 +
175 09:19:43 191 187
- 3 12B 0 0 0 0.00 0.00 -0.00 24.0 374
- 176 09:19:43 191 187
- 3 120 0 0 0 0.00 0.00 -0.00 24.0 375 +
177 09:19:44 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 178 09:19:44 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 179 09:19:45 191 187 n 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 180 09:19:46 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- 181 09: 19: 46 191 187
- 3 128 0 0 0 0.00 0.00 -0.00 24.0 375
- O
.O A-84
c CRDTEST.207 DATE 01-21-1986 PABE 1 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-1N He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. N 1 09:18:01 -0.3 0.10 69 299 279 290/ 268 292 726 ( ,) 2 09:18:01 -0.3 0.09 69 300 280 290/ 268 292 726 3 09:18:02 -0.4 0.09 68 302 279 288/ 269 290 725 4 09:18:03 -0.4 0.08 69 300 280 290/ 267 292 726 5 09:18:03 -0.3 0.'10 69 300 279 289/ 269 292 725 6 09:18:04 -0.4 0.07 68 302 280 288/ 268 289 726 7 09:18:04 -0.3 0.11 69 300 279 289/ 269 292 725 8 09:18:05 -0.4 0.07 67 301 280 289/ 267 290 726 9 09:18:06 -0.3 0.09 69 299 280 290/ 268 292 726 to 09:18:06 -0.3 0.10 69 301 279 288/ 270 291 725 11 09:18:07 -0.4 0.08 68 300 280 290/ 267 291 726 12 09:18:07 -0.4 's.10 69 300 279 289/ 269 292 725 13 09:18:0B -0.3 0.09 69 300 280 290/ 268 293 727 14 09:18:08 -0.3 0.10 69 301 279 288/ 270 291 726 15 09:18:09 -0.4 0.07 68 301 280 289/ 267 290 726 16 09:18:10 -0.4 0.09 6B 300 280 290/ 268 292 726 17 09:18:10 -0.4 0.10 69 301 279 288/ 270 291 725 18 09:18:11 -0.3 0.07 68 300 280 289/ 267 291 726 19 09:18:11 -0.4 0.09 69 300 280 290/ 268 292 726 20 09:18:12 -0.4 0.10 68 301 279 288/ 269 290 725 21 09: 18:12 -0.4 0.08 68 300 280 289/ 267 291 726 22 09:18:13 -0.4 0.10 68 301 279 288/ 270 290 725 23 09:18:14 -0.4 0.09 69 300 280 290/ 268 292 725 24 09:18:14 -0.3 0.10 69 301 279 289/ 270 291 725 25 09:18:15 -0.3 0.08 68 300 280 290/ 267 291 725 26 09:18:15 -0.4 0.09 68 300 280 290/ 268 292 725 27 09:18:16 -0.4 0.09 68 302 280 288/ 269 289 725 f'] 28 09:18:17 -0.3 0.09 69 300 279 290/ 268 292 725 x' 29 09:18:17 -0.4 0.11 69 301 279 288/ 270 291 724 30 09:18:18 -0.3 0.08 68 300 280 290/ 267 291 724 31 09:18:18 -0.4 0.10 69 299 279 289/ 269 292 723 32 09:18:19 -0.4 0.09 68 301 279 288/ 269 290 723 33 09:18:19 -0.3 0.09 69 300 279 290/ 268 292 723 34 09:18:20 0.5 0.08 68 302 280 288/ 268 289 723 35 09:18:21 3.6 0.09 69 299 280 290/ 268 292 724 36 09:18:21 5.4 0.10 68 301 279 288/ 269 290 724 37 09:18:22 7.5 0.10 69 300 279 289/ 270 292 724 38 09:18:22 9.0 0.09 69 299 280 290/ 268 292 723 39 09:18:23 9.7 0.10 69 300 279 288/ 270 291 723 40 09:18:24 10.4 0.10 69 301 279 28B/ 270 291 722 41 09:18:24 10.8 0.08 69 300 280 290/ 267 291 723 42 09:18:25 11.1 0.10 69 301 279 288/ 270 291 723 43 09:18:25 11.5 0.07 68 301 280 289/ 267 290 724 44 09:18:26 11.7 0.10 69 299 279 289/ 269 292 724 45 09:18:27 12.0 0.09 68 301 280 288/ 269 290 724 46 09:18:27 12.3 0.10 69 299 279 290/ 269 292 724 47 09:18:28 12.5 0.09 68 301 280 288/ 269 290 724 48 09:18:28 12.8 0.11 69 300 279 289/ 270 291 724 49 09:18:29 13.1 0.07 68 300 280 289/ 267 2?0 725 50 09:18:29 13.3 0.09 69 299 280 290/ 268 292 725 51 09:18:30 13.5 0.08 68 301 280 288/ 269 289 725 52 09:18:31 13.8 0.07 68 300 280 289/ 267 290 725 53 09:18:31 13.9 0.10 69 299 279 288/ 270 291 725 54 09:18:32 14.1 0.09 69 300 200 288/ 269 290 726 [ j 55 09:18:32 14.3 0.11 69 298 279 290/ 269 292 725 V A-85
, c CRDTEST.207 DATE 01-21-1986 PABE 2 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V. 0.07 289/ 267 725 r) (, / 56 09:18:33 14.5 57 09:18:34 14.7
- 0.10 68 69 299 298 280 279 290/ 269 291 292 725 58 09:18:34 14.9
- 0.08 68 300 280 288/ 268 289 726 59 09:18:35 15.0
- 0.07 68 299 280 289/ 267 290 '726 60 09:18:35 14.9
- 0.11 69 299 279 289/ 270 292 726 61 09:18:36 14.9
- 0.07 68 299 280 288/ 267 289 726 62 09:18:36 14.6
- 0.10 69 297 279 290/ 268 292 725 63 09:18:37 13.9
- 0.07 68 298 280 289/ 267 291 726 64 09:18:38 11.4
- 0.07 68 298 280 289/ 267 290 727 65 09: 18:38 9.5
- 0.10 70 298 279 289/ 270 292 727 66 09:18:39 8.8
- 0.07 67 299 280 288/ 268 289 727 67 09:18:39 8.1 0.10 69 299 279 288/ 270 290 727 68 09:18:40 7.5 0.10 69 297 279 290/ 269 292 727 69 09:18:40 7.0 0.07 68 299 280 289/ 267 290 727 70 09:18:41 6.5 0.10 69 298 279 289/ 270 292 726 71 09: 18:42 6.0 0.07 67 299 280 288/ 267 289 727 72 09:18:42 5.6 0.10 69 299 279 289/ 270 291 727 73 09:18:43 5.2 0.07 68 299 280 288/ 268 289 727 74 09:18:43 4.8 0.09 68 299 279 28B/ 269 290 726 75 09:18:44 4.4 0.07 67 299 280 288/ 268 289 726 76 09:18:45 4.1 0.10 69 299 279 288/ 269 290 725 77 09:18:45 3.8 0.10 69 299 279 289/ 270 291 725 78 09:18:46 3.6 0.07 68 298 280 289/ 267 290 726 79 09:18:46 3.3 0.10 69 298 279 289/ 269 292 726 80 09:18:47 3.1 0.07 68 300 280 288/ 268 289 727 81 09:18:48 2.8 0.11 69 298 279 289/ 270 291 727 82 09:18:48 2.6 0.09 68 299 279 288/ 269 290 727 2.4 0.10 284/ 270 292 O 83 84 85 09:18:49 09:18:49 09:18:50 2.2 2.0 0.08 0.10 69 68 69 295 300 298 279 280 279 288/ 268 290/ 268 289 292 727 727 727 86 09:18:50 1.8 0.07 67 300 280 288/ 268 289 727 87 09:18:51 1.6 0.10 69 298 279 290/ 269 292 727 88 09:18:52 1.4 0.08 67 300 280 288/ 268 289 727 B9 09:18:52 1.3 0.08 69 299 280 290/ 268 291 726 90 09:18:53 1.1 0.11 69 299 279 289/ 270 291 726 91 09:18:53 1.0 0.07 68 299 280 289/ 267 290 726 92 09:18:54 0.9 0.09 69 298 280 290/ 268 292 726 93 09:18:55 0.8 0.09 68 300 280 288/ 269 289 727 94 09:18:55 0.7 0.07 68 300 280 289/ 267 289 727 95 09:18:56 0.5 0.10 69 300 279 288/ 270 291 726 96 09:18:56 0.4 0.07 67 300 280 289/ 267 289 726 97 09:18:57 0.3 0.11 69 298 279 290/ 269 292 726 90 09:18:57 0.3 0.06 67 300 280 288/ 267 2B9 725 99 09:18:58 0.2 0.10 69 299 279 289/ 270 292 725 100 69:18:59 0.1 0.08 68 299 280 290/ 267 291 726 101 09:18:59 0.1 0.08 68 299 280 290/ 267 291 725 102 09:19:00 0.0 0.10 69 300 279 288/ 270 291 726 103 09:19:00 -0.0 0.07 67 301 281 289/ 267 289 726 104 09:19:01 -0.1 0.10 69 299 279 290/ 268 292 726 105 09:19:02 -0.1 0.07 67 300 280 288/ 267 289 726 106 09:19:02 -0.2 0.10 69 299 279 290/ 269 292 725 107 09:19: 03 -0.2 0.07 68 301 280 288/ 268 289 726 108 09:19:03 -0.2 0.09 68 299 200 290/ 268 292 725 109 09:19:04 -0.3 0.07 67 301 280 288/ 268 289 726
() 110 09:19:05 -0.3 0.10 69 300 279 288/ 270 291 726 A-86
c CRDTEST.207 DATE 01-21-1986 PA8E 3 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V.
, 111 09:19:05 -0.3 0.07 68 301 280 288/ 267 289 726 N.
112 09:19:06 -0.3 0.09 68 301 280 288/ 269 290 727 113 09:19:06 -0.3 0.07 67 301 281 209/ 267 209 727 114 09:19:07 -0.3 0.11 69 300 279 289/ 270 291 727 115 09:19:00 -0.3 0.07 68 301 280 289/ 267 290 727
; 116 09:19:08 -0.7 0.10 69 300 279 289/ 270 292 727 117 09:19:09 -0.3 0.08 68 302 280 288/ 268 289 728 118 09:19:09 -0.3 0.10 69 301 279 288/ 270 290 727 119 09:19:10 -0.3 0.11 69 300 279 290/ 269 292 727 j 120 09:19: 11 -0.3 0.08 '68 302 280 288/ 268 289 728 121 o09:19:11 -0.4 0.11 69 300 279 289/ 270 291 727 122 09:19:12 -0.3 0.08 67 301 280 288/ 267 289 720
; 123 09:19:12 -0.3 0.10 69 301 279 288/ 270 291 727 i 124 09:19:13 -0.4 0.07 67 301 280 288/ 268 289 727 125 09:19:13 -0.3 0.10 68 301 279 288/ 270 290 727 l 126 09:19:14 -0.4 0.07 68 300 280 289/ 267 290 727 127 09:19:15 -0.4 0.11 69 299 279 290/ 269 292 726 120 09:19:15 -0.4 0.08 68 301 280 288/ 267 289 727 129 09:19:16 -0.4 0.10 69 299 279 290/ 269 292 727 130 09:19:16 -0.4 0.07 67 301 280 208/ 267 289 727 131 09:19:17 -0.4 0.10 69 300 279 289/ 270 292 727 132 09:19:17 -0.4 0.08 69 300 280 290/ 267 291 727 133 09:19: 10- -0.4 0.08 68 300 280 290/ 267 290 72o 134 09:19:19 -0.4 0.11 69 300 279 289/ 270 292 726 135 09:19:19 -0.3 0.07 68 300 280 290/ 267 291 727 136 09:19:20 -0.3 0.10 69 299 279 290/ 268 292 727 137 09:19:20 -0.4 0.07 68 301 280 288/ 267 289 727 O 138 09:19:21 139 09:19:22 -0.4
-0.4 0.09 0.00 68-68 300 301 280 280 290/ 268 288/ 269 292 289 727 727 140 09:19:22 -0.4 0.10 69 300 279 289/ 270 291 726 141 09:19:23 -0.4 0.07 67 301 280 288/ 268 289 727 142 09:19:23 -0.4 0.10 69 301 279 288/ z70 291 726 143 09:19:24 -0.3 0.07 67 301 280 288/ 268 289 726
, 144 09:19:24 -0.4 0.10 69 301 279 288/ 270 291 726 I 145 09:19:25 -0.4 0.07 67 301 280 28B/ 267 209 726 146 09:19:26 -0.4 0.10 69 300 279 289/ 270 291 725 147 09:19:26 -0.3 0.07 67 301 280 289/ 267 289 726 148 09:19:27 -0.4 0.11 69 300 279 289/ 269 292 726 149 09:19:27 -0.4 0.07 68 300 280 290/ 267 291 726 150 09:19:28 -0.4 0.09 68 299 280 290/ 268 292 727 151 09:19: 29 -0.4 0.10 69 301 279 288/ 269 290 727 290/ 268 152 09:19:29 -0.4 0.09 69 299 279 292 726 153 09:19:30 -0.4 0.07 67 301 280 288/ 268 289 726 154 09:19:30 -0.3 0.10 69 299 280 291/ 268 292 727 155 09:19:31 -0.3 0.08 68 302 280 288/ 269 289 727 156 09:19:32 -0.4 0.10 69 301 279 288/ 270 290 726 157 09:19:32 -0.3 0.07 67 301 280 289/ 267 289 726 158 09:19:33 -0.4 0.10 69 301 279 288/ 270 291 726 159 09:19:33 -0.3 0.07 67 301 280 288/ 267 289 726 160 09:19:34 -0.4 0.10 69 301 279 288/ 270 291 725 161 09:19: 35 -0.4 0.07 67 301 280 288/ 267 289 726 162 09:19:35 -0.4 0.09 68 302 279 288/ 269 289 725 163 09:19: 36 -0.3 0.10 69 300 279 289/ 270 291 725 164 09:19:36 -0.4 0.09 60 302 279 288/ 269 290 725
() 165 09:19:37 -0.4 0.10 69 300 2/9 289/ 270 291 725 A-87
c:CRDTEST.207 DATE 01-21-1986 PAGE 4 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- TEMPERATURES ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V.
/ - 166 09:19:37 -0.4 0.08 67 302 280 288/ 268 289 725 \ 167 09:19:38 -0.4 0.09 68 302 280 288/ 269 289 725 168 09:19:39 -0.4 0.07 68 300 280 289/ 267 289 725 169 09:19:39 -0.4 0.10 69 300 279 289/ 270 292 724 170 09:19:40 -0.4 0.09 68 301 279 288/ 269 289 724 171 09:19:40 -0.4 0.11 69 300 279 289/ 270 292 724 172 09:19:41 -0.3 0.09 69 299 280 290/ 268 291 724 173 09:19:42 -0.3 0.10 69 300 279 289/ 270 291 724 174 09:19:42 -0.3 '0.10 69 299 279 290/ 268 292 725 175 09:19:43 -0.4 0.10 69 299 279 290/ 269 292 725 176 09:19:43 -0.4 0.07 68 301 280 289/ 267 289 726 177 09:19: 44 -0.3 0.07 68 301 280 289/ 267 290 726 178 09:19: 44 -0.3 0.10 69 300 279 290/ 269 292 725 179 09:19:45 -0.4 0.08 68 300 280 289/ 267 290 725 100 09:19:46 -0.3 0.08 68 300 280 290/ 267 291 726 181 09:19:46 -0.4 0.10 69 301 279 288/ 270 290 725 O)
L O A-88 i
NOTES TO -TABULATION 908813 / N/C
- 1. This Program is for data collected by OVERNITE.???
O- s ,
- 2. OPEN THERMOCOUPLES READ -999
- 3. THE DATE ON THE SYSTEM DOES NOT UPDATE WHEN MIDNITE IS PASSED... .THE START DATE IS CORRECT, DATES WILL BE CORRECTED FROM THE START DATE.
- 4. normal output is for temperatures only...
___________________ __==---=.__________.._ ______..._____________________.. O1-22 O E
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01-22 DATE 01-22-1986 PAGE 1 908813 / N/C SCAN TIME RSS OV-POS SWITCHES -----=--
= ------ T EMP E RAT URES ----------------
(HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/rf4T CRD-MTR 0.V. 0 21:55:01 -0.4 -0.10- 80 302- 279 294/ 270 294 737 1 22:00:01 -0.4 0.10 79 303 279 293/ 270 294 737 2 22:05:00 -0.4 0.10 79 304 280 291/ 268 292 738
-3 22:10:01 -0.4 0.11 79 303 279 292/ 269 293 734 4 22:15:00 -0.4 0.11 79 303 '280 292/ 268 292 736 5 22:20:01 -0.4 0.10 79 303 279 293/ 270 294 736 ,
6 22:25:00 -0.4 0.10 78 304 280 291/ 268 291 738 7 22:30:01 -0.4 0.10 80 302 279 293/ 270 294 739 8 22:35:00 -0.4 0.11 79 303 280 292/ 269 293 736 9 -22:40:01 -0.4 0.08 79 303 280 293/ 268 293 737 10 22:45:00 -0.4 0.10 80 303 279 293/ 269 294 735 11 22:50:00 -0.4 0.11 79 303 279 291/ 268 292 736 12 22:55:00 -0.4 0.11 79 303 280 291/ 268 292 737 13 23:00:01 -0.4 0.10 78 303 280 291/ 267 291 738 14 23:05:00 -0.4 0.10 78 303 280 291/ 267 292 738 15 23:10:00 -0.4 0.10 78 304 280 291/ 267 291 735 16 23:15:00 -0.4 0.10 78 304 280 291/ 267 291 738 17 23:20:01 -0.3 0.10 78 304 280 290/ 267 291 739 18 23:25:00 -0.4 0.08 78 303 280 291/ 266 291 735' 19 23:30:00 -0.3 0.07 78 303 280 291/ 267 292 738 20 23:35:00 -0.4 0.07 78 303 280 291/ 267 292 737 21 23:40:01 -0.4 0.08 79 301 279 293/ 269 294 736 22 23:45:00 -0.4 0.10 78 303 280 290/ 266 291 737 23 23:50:00 -0.4 0.07 79 302 278 292/ 267 293 735 24 23:55:00 -0.3 0.10 78 303 279 291/ 267 292 738 25 24:00:00 -0.3 0.10 78 303 279 290/ 267 291 738 26 00:05:01 -0.3 0.09 80 301 278 292/ 269 294 735 27 00:10:00 -0.3 0.11 78 i302 279 290/ 267 292 735 28 00:15:00 -0.3 0.07 79 302 280 291/ 267 292 735 29 00:20:00 -0.4 0.10 78 303 280 290/ 266 291 738 30 00:25:00 -0.3 0.11 79 303 279 290/ 267 291 737 31 00:30:00 -0.3 0.09 78 303 280 290/ 266 290 738 32 00:35:00 -0.3 0.10 78 303 279 289/ 266 291 739 33 00:40:00 -0.3 0.11 78 303 280 290/ 267 291 737 34 00:45:01 -0.3 0.07 79 302 279 , 291/ 267 292 734 35 00:50:00 -0.3 0.07 80 301 279 291/ 267 293 737 36 00:55:00 -0.3 0.10 79 303 279 289/ 266 291 732 37 31:00:00 -0.3 0.09 80 301 278,. 291/ 268 293 734 38 01:05:00 -0.3 0.08 79 301 279 291/ 267 292 735-39 01:10:01 -0.3 0.11 79 302 279 290/ 267 291 736 40 01:15:01 -0.3 0.07 79 301 279 291/ 267' 292 734 41 01:20:00 -0.3 0.08 79 301 278 291/ 267 293 735 42 01:25:00 -0.3 0.07 "78 302 279 290/ 265 291 735 43 01:30:00 -0.3 0.10 78 303 279 289/ 265' 290 735 44 01:35:00 -0.3 0.10 79 301 279 291/ 268 '293 737 45 01:40:01 -0.3 0.08 78 302 280 289/ 265 250 732 46 01:45:01 -0.3 0.07 78 302 279 290/ 266 291 734 47 01:50:00 -0.3 0.10 77 303 s 279 289/ 265 290 737 48 01:55:00 -0.3 0.09 76 303 - 280 289/ 265 291 737 49 02:00:00 -0.3 0.10 77 302 1 280 289/ 266 291 734 50 02:05:00 -0.3 0.08 76 303 / 279 288/ 265 289 734 51 02:10:01 -0.3 0. ! 0' 76 303 279 289/ 265 290 735 52 02:15:01 -0.3 0.12. 77 301 278 290/ 267 292- 735
-0.3 O 53 02:20:00 54 02:25:00 -0.4 C .10 0.07 78 77 301 302 278 279 291/ 267 289/ 265 292 291 733 733 A-90
01-22' DATE 01-22-1986 PAGE 2 908813 / N/C SCAN TIME RSS OV-POS SWITCHES ----------------- T EM P E RAT U R E S ---------------- (HRS) DP SW (IN.) SC RR He-IN He-AREA CLOSURE OV-MTR/MNT CRD-MTR 0.V.
'O 55 02:30:00 -0.3 0.11 77 301 278 290/ 267 292 733 56 02:35:00 -0.3 0.!! 76 302 279 289/ 266 291 734 57 02:40:01 -0.4 0.11 76 302 279 289/ 266 291 735 58 02:45:00 -0.3 0.10 77 301 278 291/ 267 292 732 59 02:50:00 -0.3 0.10 76 302 279 290/ 266 291 734 60 02:55:00 -0.3 0.08 76 303 279 289/ 264 290 734 61 03:00:00 -0.4 0.07 76 302 279 290/ 265 291 733 62 03:05:00 -0.3 0.10 77 301 278 290/ 267 292 731 63 03:10:01 -0.4 0.08 77 301 279 290/ 266 291 732 64 03:15:01 -0.4 0.10 75 302 279 288/ 265 290 730 65 03:20:00 -0.3 0.07 77 301 279 289/ 265 291 733 66 03:25:00 -0.3 0.11 76 301 278 290/ 266 292 729 67 03:30:00 -0.4 0.08 76 301 278 290/ 265 291 730 68 03:35:00 -0.4 0.11 75 302 279 288/ 265 290 732 69 03:40:01 -0.4 0.11 75 302 279 288/ 265 290 731 70 03:45:00 -0.4 0.0f 76 300 278 290/ 267 293 728 71 03:50:00 -0.4 0.11 76 302 278 289/ 266 291 730 72 03:55:00 -0.4 0.09 76 301 278 290/ 267 292 733 73 04:00:00 -0.4 0.07 76 301 279 289/ 265 291 733 74 04:05:00 -0.4 0.11 76 302 279 288/ 265 291 734 75 04:10:01 -0.4 0.08 75 302 279 288/ 264 290 732 76 04:15:00 -0.4 0.10 77 300 278 290/ 267 292 732 77 04:20:00 -0.4 0.10 75 301 278 288/ 264 290 729 78 04:25:00 -0.4 0.10 75 301 278 289/ 266 291 733 79 04:30:00 -0.4 0.09 76 300 278 290/ 266 292 729 80 04:35:00 -0.4 0.10 75 302 279 288/ 264 290 733 04:40:01 0.07 75 302 279 288/ 264 290 730 O 81 82 83 04:45:01 04:50:00
-0.4
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-0.4 0.07 0.07 76 75 301 301 278 279 290/ 265 289/ 264 292 290 732 727 84 04:55:00 -0.4 0.10 75 300 278 290/ 266 292 732 85 05:00:00 -0.4 0.10 74 302 279 288/ 265 290 731 86 05:05:00 -0.4 0.08 75 300 278 290/ 266 292 729
+ 87 05:10:00 -0.4 0.07 74 301 278 289/ 265 291 730 SS sis.5:6. -;.- s..; 75 301 278 288/ 265 290 732 89 05:20:00 -0.4 0.08 74 302 279 288/ 264 289 732 90 05:25:00 -0.4 0.09 75 300 278 289/ 266 292 732 91 05:30:00 -0.4 0.09 73 302 279 287/ 263 289 727 92 05:35:00 -0.4 0.07 75 301 278 289/ 264 290 729 93 05:40:01 -0.4 0.08 75 300 277 290/ 266 292 729 94 05:45:01 -0.4 0.09 75 300 278 289/ 266 291 729 95 05:50:00 -0.4 0.10 74 301 278 288/ 265 290 731 96 05:55:00 -0.4 0.10 75 301 278 289/ 245 291 729 97 06:00:00 -0.4 0.08 74 300 277 290/ 266 292 729 98 06:05:00 -0.4 0.06 75 301 278 289/ 264 291 731 99 06:10:00 -0.4 0.09 74 302 279 287/ 264 289 731 100 06:15:00 -0.4 0.08 74 302 279 287/ 263 289 729 101 06:20:00 . 4 0.09 73 302 278 287/ 263 289 730 102 06:25:00 -0.4 0.10 74 301 278 288/ 264 290 733 103 06:30:00 -0.4 0.07 74 302 279 287/ 263 289 729 104 06:35:00 -0.4 0.06 74 301 278 288/ 264 290 733 105 06:40:00 -0.4 0.07 75 301 278 289/ 265 291 728 106 06:45:00 -0.4 0.10 74 301 278 287/ 263 289 731 107 06:50:00 -0.4 0.07 75 300 278 289/ 264 291 728 108 06:55:00 -0.4 0.07 74 201 279 288/ 263 289 728 Os 109 07:00:00 -0.4 0.10 74 301 273 288/ 264 290 730 A-91
~;
01-22 DATE 01-22-1986 PAGE 3 908813 / N/C SCAf4 TIME RSS P/-POS SWITCHES ----------------- TEMPERATURES ---------------- fm (HRS) DP SW ( !?4. ) SC RR He-!f4 Re-AREA CLOSURE OV-MTR/tf4T CRD-MTR 0.V. V 110 07:05:00 -0.4 - 0.09 74 302 278 287/ 263 289 732 111 07:10:00 -0.4 0.09 75 300 277 288/ 265 291 730 112 07:15:00 -0.4 0.09 75 300 277 289/ 265 291 729
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San Diego, CA 92138
SUBJECT:
NonconformanceReport10229) and 10230 (GTP-315) y
Dear Mr. Rosenberg:
The subject Nonconfonnance Reports have been reviewed and I agree with the dispositions as indicated on the telecopy received. i : 4 Very truly yours, o>,, J. R. Reesy, S ff Assistant Special Projects JRR:pa O B-2
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SUBJECT:
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Dear Mr. Rosenberg:
The subject Nonconfonnance Reports have been reviewed and I agree with the dispositions as indicated on the telecopy received.
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