ML20116A290
ML20116A290 | |
Person / Time | |
---|---|
Site: | North Anna |
Issue date: | 09/23/1992 |
From: | VIRGINIA POWER (VIRGINIA ELECTRIC & POWER CO.) |
To: | |
Shared Package | |
ML18153D160 | List: |
References | |
RTR-REGGD-01.097, RTR-REGGD-1.097 NP-2653, NUDOCS 9210290300 | |
Download: ML20116A290 (886) | |
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CONCEPTUAL ENGINEERING REPORT STATION TURNOVER NO./IR NO.: NP-2653 STATION NAME/ UNIT NO.: NORTH ANNA POWER STATION / UNITS 1&2 PROJECT TITLE: REGULATORY. GUIDE 1.97 ISOLATION DEVICES QUALITY CLASSIFICATION: SAFETY RELATED SYSTEMS AFFECTED: CN, FW, LM, MS, P-250, RC PREPARING ORGANIZATION: NES, I&C Engineering DATE: SEPTEMBER 18, 1992 ,
PREPARED BY: Robert J. Atkinson M - -
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REVIEWED BY: ".h%%M
/ 9- /8 - 92__.
PREPARER'S SUPERVISOR: !/ii[/ , OJ f ['ll-PROJECT ENGINEER: y _ 72/ 92-PROJECT ENGINEERING SUPERVISOR: t.A> . 1 L-r -
j u APPROVED BY: bevo,W L _ de m eyyt 9/23l92 O
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TABLE OF CONTENTS 1.0 EXECUTIVE
SUMMARY
, . . . . . . . . . . . . . . . . . . 4 2.0 STATEHENT OF PROBLEM . . . . . . . . . . . . . . . . . . 4 3.0 GEFERAL DESCRIPTION . . . . . . . . . . . . . . . . . . 4 3.1 P-250 COMPUTER , . . . . . . . . . . . . . . . . . 5 3.2 ANALOG INPUT , . . . . . . . . . . . . . . . . . . 8 3.3 DIGITAL INPUT . . . . . . . . . . . . . . . . . . . 9 3.4 ANALOG MULTIPLEX RELAY CARD (AM) . . . . . . . . . 10 3.5 VOLTAGE TO FREQUENCY CONVERTER (VIDAR) . . . . . . 11 3.6 COMPUTER INTERFACE CARD (NCI) . . . . . . . . . . . 11 3.7 INDICATORS . . . . . . . . . . . . . . . . . . . . 11 3.8 ISOLATORS (7300 NLP Cards) . . . . . . . . . . . . 12 3.9 ERFCS MUX POINTS . . . . . . . . . . . . . . . . . 12 3.10 CONNECTIONS AND WIRING . . . . . . . . . . . . . . 13
4.0 BACKGROUND
. . . . . . . . . . . . . . . . . . . . . . 16 5.0 ANALYSIS . . . . . . . . . . . . . . . . . . . . . . . . 17 5.1 EFFECTS OF FAULTS ON THE INSTRUMENTATION LOOPS . . 19 5.2 SINGLE FAILURE CRITERION . . . . . . . . . . . . . 20 5.2.1 FAULT ANALYSIS . . . . . ., . . . . . . . . . . 20 5.2.1.1 FAULTS ON BALANCE OF PLANT ANALOG INPUTS . 20 5.2.1.2 FAULTS ON CATEGORY 1 AND 2 ANALOG INPUTS . 2 .'
5.2.1.3 FAULTS WITHIN THE P-250 COMPUTER . . . . . 23 5.3 REDUNDANCY , . . . . . . . . . . . . . . . . . . . 25 5.4 PHYSICAL SEPARATION . . . . . . . . . . . . . . . . 26
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5.5 SAMPLE SYSTEM FAILURE MODE . . . . . . .. . . . . 26 i'
- 6. 0. -RECOMMENDATIONS . . . . . . . . . . . . . . . . . .. . 27 6.1 RECOMMENDATION . .. . . . . . . . . . . . . . . . . 27 7.0 COMMITMENTS . . . . . . . . . . . . . . .. . . . . . . 28
8.0 REFERENCES
. . . . . . . . . . . . . . . . . . . . . . . 29 9.0 EXHIBITS . . . . . . . . . . . . . . . . . . . . . . .. 31 9.1 EXHIBIT A, Computer Input List . . . . . . . . . . . 31 9.2 EXHIBIT B, 7300 Loop Components . . . . . . . . . . 31 -
9.3 EXHIBIT C, P-250 General Description . . . . . . . . 31 9.4 EXHIBIT D, Standard Process I/O System, TP014 . . . 31 9.5 EXHIBIT E, A/D Conversion System . . .. . . . . . . 32 9.6 EXHIBIT F, Equipment Layout and Bill of Materials . 32 9.7 EXHIBIT G, Cable Diagrams . . . . . . . . . . . . . 33 1
33 9.8 EXHIEIT H, Wiring Drawings . . . . . . . . . . . . .
l 9.9 EXHIBIT I, 7300 Loop Diagrams . . . . . . . . . . . 33 l
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1.0 EXECUTIVE
SUMMARY
Nuclear Regulatory Commission (NRC) unresolved item URI 89 01, indicated that the P-250 computer and the Category 1 and 2 indication loops do not meet the requirements of Regulatory Guide 1.97 (RG 1.97). Virginia Power's Nuclear Electrical Engineering Department (NEE) has analyzed the potential of the indication loops being af fected by the faults postulated by the NRC. Based upon this analysis, Virginia Power has determined that no tredible single fault caj. propagate into the Category _
1 and 2 indication loops from the computer or its non-safety related inputs. The interface between the co'.puter meets the f ull intent of the Reg. Guide with the exception of 1-CN-L-100B, and 2-CN-L-200B which will be spared out to be consistent with the level of separation offered to the other computer inputs.
2.0 STATEMENT OF PROBLEM e As a result of a R. G. 1.97 review in response to NRC unresolved issue URI 89-11-01, approximately 45 P-250 computer points per unit have been identified as not having qualified electrical isolation from their associated safety-related control channe? ,
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as required be R.G. 1.97.
3.0 GENERAL DESCRIPTION The following section is presented as a synopsis of the basic components associated with the P-250 and the Westinghouse 7300 Process Control System. This information will provide a basis for understanding the Analysis provided in Section 5.0. If more detailed information is required, see Exhihits 9.1 through 9.9 of this report.
O < f iI e:ro197\p250. naps \tne2.rv2> 4 PROJECT NP-2653
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3.1 P-250 COMPUTER The Prodac P-250 computer is a process control computer capable of analyzing various plant digital and analog- !
parameters. The computer which consists of an -Analog Input / Output system (I/0), Digifc1 I/0, niin -Central Processing Unit (CPU) and a memory storage 1, nit (RAD)1, provides alarms, controlled outputs and process indication to the plant operators. The CPU receives.'U information from the analog and digital sampling subsystems: These subsystems are completely separate from each other 2. The digital' input is directly sensed by the CPU whereas the analog input -is .
processed to convert it from a voltage input to a frequency proportional to the voltage and then into a digital output to the CPU. The computer is also able .to provide output.
capabilities. The Analog and Digital Output - subsystems are completely separate from the input systems.
The P-250 computer system uses several different types of panels to house and provide a connection point for the I/O control cards. A description of these panels is provided l
3 l
below:
I A-Panel, A-Panels contain Word and Channel selection cards and interface circuitry for the Analog Input subsystem.
D-Panel, D-Panels contain: Word and Channel selection cards for the Contact . Closure output, Analog Output subsystems, channel- buffer cards for
-contact closure input subsystems and interface circuit cards for all direct channel peripheral devices.
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1 I-Panel, The I-Panel contains the circuitry for :the Interrupt Scan System.
Q-Panel, Q-Panels contain multiplexer circuit cards for the Multiplexed Contact Closure Input Subsystems. i These cards control the Analog Multiplex Relay
- Cards. The panel also may hold Interrupt-Filter cards for conditioning external interrupts.
X-Panel, X-Panels contain the process interface cards for the Analog Input, Analog Output and Contact Closure Output Subsystens.
Y-Panel, The Y-Panel contains the circuitry for the I/ O Coupler System which. interfaces with the CPU.
The P-250 computer system consists of five main cabinets and several terminal stations. The cabinets are arranged in-a side by side configuration. The - arrangement (from left to right) is as follows; the External Memory (RAD) cabinet,-the Central Processing Unit (CPU), Input / Output (abinets 00, 01 and 02'. The analog inputs are located. in Cabinet 01 and Cabinet _025 . The computer is supplied with 208 Volt 3 phase,'
power. This power is' fed into the bottom of Cabinet- 00 directly into a distribution box located in the rear of the cabinet. From the distribution box, 208 Volt 3-phase power i.4 -
fed into the adjacent CPU Cabinet'. Any disruption in the 208 volt power supply to the-CPU results in the fail safe (open relay) operation of the relay multiplexer system 7 . This fail safe operation totally isolates all analog inputs from the P-250 computer. The distribution box also serves as the central
- power supply for_the 120 volt internal cabinet power system for the computer. This 120 Volt system is the source of.. power O < file
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to the VIDAR's, as well as the 5, 10, 15 and 48 Volt DC power
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supplies.
The ar ' )g input system is composed of three completely separate celay multiplexer sampling systems consisting of three Voltage to Frequency Converters (VIDAR) and their associated control components'. The VIDAR3 receive analog inputs from only one analog point at a time'U. The sampling of the analog points is controlled by a " Word and Bit" selection process. The " Word" and " Bit" process is controlled b'j the use of Word Driver (WD) and a Channel Driver (CD)
Cards. The computer determines which point it wants to sample. It will then use a " Word" command to select which Analog Multiplex (AM) Card it wants to sample and shut the
" Bus Guard" contact The computer will then select, by use of a " Bit", one of seven analog inputs that are fed into the AM ,
Card. By closure of these two separate wetted mercury contacts on the AM Card, the analog point is then connected d to the VIDAR. Failure of either of the controlling " Word" or
" Bit" cards or their controlling signals will prevent any analog point from being connected to the VIDAR". Once the analog signal is connected to the VIDAR, the VIDAR will
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convert the analog voltage into a frequency proportional to that voltage. The frequency output of the VIDAR will then be checked, corrected (if necessary) and scaled in accordance with the requirements of the individual point. The scaling is required since the VIDAR can sense a number of voltage ranges. The scaled frequency will then be converted into a digital signal and outputed to the CPU 12 ,
The system also is provided with a "Out of Range" or overrange alarm subroutine. The CPU has built in scanning subroutines that analyze the analog inputs. Should one of the inputs go into an over-range condition, then the computer O
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will alarm and,a printout on the data logger will indicate that the point is " Unreliable". The computer will then ignore point until the point returns to its normal range or it is taken out of scan by v.ne operator.
A detailed description of the Analog a r.d Digital input circuits are provided belcw' 3.2 ANALOG INPCI The Analog Inputs to the .3-250 computer enter the back planos ,
of Cabinets 01 and 02 by two different methods. The first method is used by the inputs from the NSSS 7300 Process Control Racks. These inputs are located on the back plane of' Cabinet 02 in Cabinet Zones 1, 2, 3 and 4 13 Thas method uses a NUCANNA type plug to connect to a 56 pin ELCO (56E) connector. Each 7300 Process Control Rack supplies a different NUCANNA connection to a ELCO connector. The inputs from the ELCO connector . re then direct wired using preformed cable assembles to one or two Analog Multiplex (AM) Card (s)".
The individual ELCO connection will only feed one or both of these cards. Since the cable assemblies from the ELCO Connector are pre-formed there are no other inputs-from any other ELCO plug to these cardsD. This ensures that only connections from one NSSS Process Control rack is~inputed on a AM Card. The AM Cards' are all located =in "X1" Panels. These panels provide slots for each card and the connection points to the VIDAR, control power and other CPU controlled interfaces. The Cards that control the " Word" and " BIT" selection ("CD", "WD") as well'as the VIDAR output process Cards are located in a separate "A" Panel. These Cards, "TB",
"AN", "GC", "AD', "OM", "SK" and "I/O" are all discussed..in Exhibit E" of this report.
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The second method of connecting the Analog Inputs to the computer is by use of terminal strips. These terminal strips are located on the back plane of cabinets 01 and 02.
Normally, fourteen individual analog input cables are landed on two 16 point terminal strips. Two of the connection points on each terminal strip are kept as unused spare connections'6 Some terminal strips do not use all cf the available connections. Any connections not used as analog inputs are left as spare points. The connections from these terminal strips are then split between two AM Cards". Each AM Card has __
only seven possible input connections, thus the terminal strips will support only two AM Cards. As in the case of the analog inputs from the ELCO Connectors, each AM Card is connected to one VIDAR circuit.
3.3 DIGITAL INPUT The inputs to the Digital I/O of the computer are located on the back plane of Cabinet 00 and 02. The digital inputs located in Cabinet 02 are located in Cabinet Zone 5, 6, 7 and 8 18 These inputs are connected to terminal strips similar to the terminal strips used for the analog inputs. The inputs are connected from the terminal strips direct ly to their associated 2CB4 Cards. These cards consist of a series of 14 identical circuits and are located in a "D" type panel. The "D" Panel provides the same function as the analog "X" panel.
There are no connections (except power supplies) between the "X" and "D" panels. Analog AM Cards will not be found in an "D" panel nor will 2CB4 cards be located in "X" panels. The CPU directly interrogates the 2CB4 cards and processes their input 20, O < file:rg197\p250.napa\ type 2.rv2> 9 PROJECT NP-2653
NOTE: Cabinet 00 only contains Digital Inputs and Outputs.
Cabinet 01 only contains Analog inputs. However, Cabinet 02 contains both types of inputs, but they are physically and-electrically separated from each other 21 Cabinets 00 and 02 also contains some Contact Closure Output (CCO) Cards. These .
cards are the output relays for circuits that require the computer to cycle some associated component. These cards consists of seven sets of relays that are individually controlled by the computer22 Their wiring and control is' completely separate from the Digital and Analog Input circuits 23 Cabinet 00 also contains some Analog Output (A$)
Cards. These cards are similar to the Digital Output Cards with the exception that their output is a controlled voltage as determined by the computer. The Ao Cards are located in a separate "X" panel 24 The A$ Cards control circuitry ~ are ecmpletely separate from any other circuits 25 ,
Since the digital and anal'og systems are completely separate from each other and the focus of this report is on the analog inputs from the NSSS ' Process Control Racks, no further reference to the digital sample system will be made.
3.4 ANALOG MULTIPLEX RELAY CARD (AM)
The AM G01 series Card consists of a series of seven identical sample relay circuits and one me. ster " bus guard" relay circuit. The relays are used to connect- the. analog sample point to the Voltage to Frequency Converter (VIDAR).
The card has a-master output relay that connects the card-to the VIDAR. Once the output relay-is shut then the computer selects which of the seven analog points it wants to sample and shuts the associated relay. The relays are rated for 500-volts AC (peak), 2 amps continuous current with the ability O < file:rg197\p250. naps \ type 2,rv2> 10 PROJECT NP-2653
to withstand a 5 amp surge. The relays are also rated at 1000 VAC RMS, for. coil to contact breakdown.
3.5 VOLTAGE TO FREQUENCY CONVERTER (VIDAR)
The VIDAR Voltr.go to Frequency Converter (V/FC) is a special j purpose unit designed to -provide a output frequency i proportional to the input DC voltage. The VIDAR unit normally samples seven input voltage ranges from 0-10 millivolts to 0- l 10 volts. However, the unit is capable of withstanding a .l continuous 120 VAC RMS or 120 VDC input on any range without damage. This unit senses a voltage frcm a analog input and converts it to a frequency proportional to the voltage by use of a Voltage Controlled Oscillator.
-l 3.6 COMPUTER INTERFACE CARD (NCI)
O The NCI Card is used in the Process Control System as L-high impedance interface between the indication loop and the P-250 Computer. This card provides 3 0,000 . ohms of resistance to i limit fault currents that could develop on the indication loop output. l 3.7 INDICATORS ;
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The indicators associated with the RG 1.97 Type "A" Variables ;
are all identified as Weschler type VX-252, edge type meters, refer to exhibit number Bl. Thes2 meters are designed specifically for use in Nuc? ear Power Plants. According to the manufacturers specification. sheet these meters- are capable of withstanding instantaneous overload of 35 times their normal AC and 100 times their normal DC operating' voltages. The meters at NAPS are ranged to read 0-100% full O < file:rg197\p250. naps \ type 2.rv2' 11 PROJECT NP-2653
r scale on a 0-10 VDC input. Therefore, the meters will with v stand a 1000 VDC or a 350 VAC surge.
3.8 ISOLATORS (7300 NLP Cards)
All of the indicators are isolated from the protection loops by use of a qualified 7300 Isolator and Loop-?ower Supply, Style 2837A12, G series. These NLP Cards provide isolated r .ad non-isolated outputs. All of the indication loops associated with RG 1.97 Type "A" variables are supplied from the " Isolated" output of the NLP Card. Therefore, no perturbation on the indication side of the NLP Card _ can affect the Protection side of the loop.
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3.9 ERFCS MUX POINTS O The Emergency Response Facility Computer System (ERFCS)-
interface with the indication loop is -through a validyne model BA-332 Buffer Amplifier, refer to exhibit number 12.
This amplifier is commonly known as the input MUX and it will be denoted as such through out the remainder of this discussion. The MUX design specifications are to accept a maximum 12 Volt AC or DC input. The MUX- uses a high impedance differential operational amplifier (OP-AMP) input n.easuring system. This input system has an operating (power on) input impedance of 22 Megohms. The input impedance limits
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input currents to less than 6 micro-amps at 115 volts.
According to tha MUX specification, this high input impedance will allow the MUX Card to withstand a momentary voltage of 115V without damage.
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3.10 CONNECTIONS AND WIRING v
P-250 Internal Cabling: The cabling inside of the P-250 computer that is associated with the analog inputs is all rated at 300 volts.
Cabling from the P-250 to the Process Control Racks: The cables connecting the Process Control Racks to the P-250 !
computer are all either NGA-98 or NGB-35 type cables. The NGA- j l
98 cable is a 32 conductor, 18 AWG, 600V cable. The NGB-35 cable is a 2 conductor, 1: AWG, 300 volt cable. These cables would be expected to see voltages ranging from 0 to 10 volts.
The P-250 is a high impedance, voltage sensing system. The input impedance ranges from 1.0 Meg-Ohm per milli-volt up to l a maximum of 1000 Meg-Ohms, depending on the input voltage. l This input impedance can drop to a minimum of 1000 ohms under overload conditions. This coupled with the NCI Card and AM1 Card resistance would therefore, limit any system currents to very small levels.
Tables 1 and 2 are provided as a listing of all connected loops. To examine the individual loops and their components, refer to Exhibit I, Loop Drawings.
TABLE 1 LIST OF AFFECTED CATEGORY 1 LOOPS sn1BOL ' PDESCRIPT[ lh0P. .SYSl VIDAR ' CARD'. DRAWING P0498A RCS WIDE RANGE PRESSURE RCPT 1403 RC 1 Ltd NA-DWad)07D70 LO400A S/G *A* NARROW RANGE LEVEL LT 1474 FW 1 LDS NA DW-6007D07 1A403A S/G *A* WIDE RANGE LEVEL LT 1477 FW I Ll6 NA-DW-6008D09 LO420A S/G *B' NARROW RANGE LEVEL LT-1434 FW 1 IA8 NA DW-6007D07 O < file:rg197\p250. naps \ type 2.rv2> 13 PROJECT NP-2653
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SYMILOL APDESCRIPT LOOP .6YS VIDAR CARD DRAWING -~
LO140A S/G *C' NARROW RANGE LEVEL LT 1494 FW l LOS NA DW4007 DOS LD4SDA PRESSURIZER LEVEL LT 1459 RC 1 128 NA DW4007D14 L2600A CONDENSATE STORAGE TANK A LT CN-100A CN 1 N13 NA DW-73S2D55 L2601A CONDENSATE STORAGE TANK B LT-CN-100B CN 1 Nid NA-DW 7332D55 P0400A S/G 'A' STFAM OUTLET PRESS 17 1474 MS 1 LO7 NA-DW4007D31 PG420A S/G *B* STT.AM OUTLET PRESS 1T 1484 hts . 1 LO7 NA DW4007D31 PD440A S/G *C' STEAM OLTTLET PRESS PT-1494 MS 1 LD7 NA-DW4007D32 P1000A CONTAINMENT PRESSURE IT LM-100A LM 1 l'37 NA DW-73S2D10 T040r2A RC COLD LEG 'A' TEMP RC TE 1410 RC 1 LD7 NA DW-6007D13 T0419A RC liOT LEG *A* TEMP RC-TE-1413 RC 1 LO6 NA DW-6007D13 LO401A S/G *A* NARROW RANGE LEVEL LT 1475 FW 2 LO1 NA DW-6007D23 LD421A S/G *B* NARROW RANGE LEVEL LT 14&5 FW 2 141 NA DW 0007D23
( LO423A S/G *B* WIDE RANGE LEVEL LT-1437 FW 2 109 NA-DW-600SD45 L0441A S/G *C' NARROW RANGE LEVEL LT 1495 FW 2 L01 NA-DW4007D24
- LO4SIA PRESSURIZER LEVEL LT-1460 RC 2 LDI NA DW-6007D30 i
l l PO401A S/G *A* STEAM OUTLET PRESS IrT-1475 MS 2 Lil NA-DW4007D54 l
PO421A S/G *B* STEAM OLTTLET PRESS IT-3485 ' MS 2 Lil NA DW-6007D54 I
PO441A S/G 'C' STEAM OUTLL'T PRESS PT-1495 MS 2 Lil NA-DW 6007D55 T0426A RC COLD LEG *B* TEMP RC-TE-1420 RC 2 LO3 NA DW 6007D29 TG439A RC liOT LEG *B* TEMP RC-TE-1423 RC 2 LD4 NA DW-6007D29 l LO402A S/G *A* NARROW RANGE LEVEL LT-3476 FW 3 M07 NA-DW-6007D41 i
l l 1.0422A S/G *B* NARROW RANGE LEVEL LT 1486 FW 3 MOS NA-DW-6007D42 1
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SYMllOL APDESCRIIT LOOP $YS . VIDAR CARD DRA%1NG IS442A S/G *C" NARROW RANGE LEVEL LT 1496 FW 3 MOS NA-DW4007D43 LD443A S/G 'C' WIDE RANGE LEVEL LT+1 97 IV 3 M04 NA-DW 600SD59 LD482A PRESSURIZER LEVEL LT 1461 RC 3 MOS NA DW4007D4S PO402A S/G *A* STEAM OLTTLET PRESS l'T1476 MS 3 M06 NA-DW-6007D64 i
PO422A S/G "IP STEAM OUTLET PRESS PT-1436 MS 3 M06 NA DW4007D64 P0442A S/G "C' STEAM OUTLET PRESS I'T1496 MS 3 M06 NA DW4007D65 P0409A RCS WIDE RANGE PRESSURE RCfr-1402 RC 3 M09 NA DW-6007D10 P1002A CONTAINMENT PRESSURE frr LM 100C IAI 3 E01 NA-DW-7382D26 T(446A RC COLD LEG "C" TEMP RC TE-1430 RC 3 M02 NA-DW-6007D46
- ll)459A RC llOT LEG "C' TEMP RC TE 1433 RC 3 M01 NA DW4007D46 g
TABLE 2 LIST OF AFFECTED CATEGORY 2 LOOPS
' SYMBOL 5 APDESCRIPT -- -LOOP SYS) VIDAR J 1 CARDI :- DRAWING -
F012SA MAKE UP FLOW FT-ll22 CH I L16 NA-DW4003D25 F0134A LE1DOWN }LX FLOW 1T 1150 CH 1 Ll6 NA DW-6008D19 F0405A MAIN STEAM FLOW FT-1474 MS 1 LOS NA-DW-6007D53 F0425A MAIN STEAM FLOW FT-1454 MS 1 LOS NA DW4007D55 L0ll2A VCT TANK LEVEL LT-ill5 Cl! I L15 NA-DW4007D31 R0029A COND, AIR EJECTOR RAD. MON. SVIll RM i L15' ll715-RM-029 F0445A MAIN STEAM FLOW FT 1494 MS 2 Lil NA DW-6007DS9
- Caid is located in Cabinet 01
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The : review .also identified three digital inputs to' the computer from the PORV Position circuitry. These digital inputs have : interposing relays between themselves and the computer. Therefore they meet the isolation criterion. Table 3 lists the points and their references.
TABLE 3 LIST OF DIGITAL IN"UTS SYNBOIJL i1,00P DESCRIPTibh (b"1WINGi Y4126D PORV POSmON IND. A-1 !!715-WIS401 Y4127D PORV POSmON IND. B-1 1l?!S-W. 412 Y4130D PORV PvSmON IND, C-1 Il715-W1S@3
4.0 BACKGROUND
The basis of this analysis is the Regulatory Guide 1.97, category 1, Criterions. numbered 2 and 9, " Redundancy" and
" Interfaces" respectively. These requirements for.the " Design and Qualification Criteria for Instrumentation" of Regulatory.
Guide 1.97, Revision 3 are as follows: .
Note: Criterion 2 " Redundancy" does not apply to Category 2 variables.
g Criterion 2, Redundancy "No single failure within the acciden n unitoring instrumentation, its auxiliary supporting features, or its-power sources. concurrent with the failures- that are a condition or result of a specific accident shonld prevent operators from being presented the information necessary for
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\ them to' determine'the safety status of the plant-and-to bring.
the plant to and maintain it in a safe ~ condition following that accident. Where failure of one accident monitoring channel results in information ambiguity (that is, the redundant displays disagree) that could lead operators co defeat or fail to accomplish a safety related function, additional information should be provided to allow-- the operators to deduce the actual conditions in the plant. This may be accomplished by providing additional independent channola of information of the same variable (addition of identical channel) or by providing an independent channel to monitor a ditferent variable that bears a i.. nn relationship to the multipie channels (addition of a-diverse channel).
Redundant or diverse channels- should be. electrically independent and. physically separated from each other and from equipment-not classified important to safety in accordance ,
with Regulatory Guide- 1.75, " Physical Independence of Electrical Systems," up to and including any isolation device.
l Within each redundant division of a safety system, redundant monitoring channels are not needed except for-steam generator level instrumentation-in two loop plants."
l Criterion 9, Interfaces "The transmission of signals for ather use should be'tbrough isolation devices that are designated as part of the monitoring instrumentation and that meet the prov1aions of this document."
l l 5.O ANALYSIS-l The- analysis has determined-. that the requirements for-Criterion 2, " Redundancy", of the Reg. Guide are being met.
l Adequate isolation is provided betwecn the Reactor Protection
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and the Indication circuits. The 7300 Process Control System-provides Leach l o o p ._ o f the Reactor Protection ' sets with a qualified Nuclear Loop Power (NLP) supply. card 26 This NLP Card provides a ' qualified isolated output- between the Reactor Protection Circuits and the indication loops.
Additionally, the Reg. Guide 1.97 requirement that "No single failure wit in either the accident monitoring instrumentation, .j its auxiliary supporting features..." is being met by the P-250 computer interface system.
Finally, Criterion 9 requires that additional isolation be-installed to prevent control functjJns from interfering with- ,
f the Category 1 and 2 instrumentation. The interaction between the P-250 computer and the indication loops is such that no credible accident would cause a complete system failure.
Therefore, the installed circuitry meets the intent of the Reg. Guide.
The following is a summary of five reasons why this analysis has determined that the P-250 computer meets the intent of the Reg. Guide.
- 1. Any fault on the instrumentation loops, whether in the Control loop or in-the P-250 interface would not propagate into the Protection channel.
26 The Reg. Guide states that no single failure will cause the operators to be provided false or conflicting information.
The analysis indicates that multiple failures would have to .
occur prior to any failure of the P-250 interface system.
O <fite:rg197\p250. naps \ type 2.rv2>- 18 PROJECT NP-2653
< ~- a 2 _ , - , ., , ._.-.,r ,n. , , - . . ,
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- 3. The P-?.50 computer analog conversion and sampling system is divided into'three redundant sampling subsystems. Each of these three subsystems has an separate channel of Category 1 instrumentation associated with it, refer to Table 1.
Therefore, no single failure in one of the subsystems will cause any affects in the other two subsystems Category 1 inputs.
- 4. The P-250 computer interfaces between the Analog and Digital I/O subsystems are completely separate. The computer samples the three VIDAR Voltage-to-Frequency Converters, (V/FC) and the Digital Inputs through completely separate subsystems.
- 5. The P-250 computer is e "Fatil-safe" type system. The computer is designed so that the sample relays are a
" Energize to Operate" type system. Failure within the O computer or its power supplies wl 1 causa all Analog
'0 sampling-relays to remain oprn, thus fully isolating the computer from all of its Analog inputs.
5.1 EFFECTS OF FAULTS ON THE INSTRUMENTATION LOOPS Any fault on the instrumentation _ loops, whether in the control loop or in the P-250 interface would not propagate .
into the Protection channel. All loops associated 'with Protection Channels, have qualified isolators between the Control loop and the Protection loop. This isolation meets the requirements of IEEE 279-1971, " Criteria for Protection-Systems for Nuclear Power Generating Stations", sections 3.2, " Single Failure Criterion"-and section 3.7 " Control and Protection System Interaction".
O < file:ro197\p250. naps \ type 2.rv2> 19 PROJECT NP-2653
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v 5.2 SINGLE FAILURE CRITERION Regulatory Guide 1.97 requires that no single failure will cause the operators to be provided f alsa or - conflicting information. The analysis indicates that multiple f ailures would have to occur prior to any failure of the P-250 interface system. The following is an analysis of the-potential faults that can occur and ~ their impact on the Category 1 and 2 indication loops.
5.2.1 FAULT ANALYSIS Based on a review of the P-250 and associated instrumentation, control and protection circuits the following faults are considered credible; faults that occur on the analog inpuus to the P-250 from Balance of Plant Equipment; faults on the cabling between the Process Control Racks and the P-250 computer, and faults within the P-250 itself. Each of these fault types will-be discussed below.
5.2.1.1 FAULTS ON BALANCE OF PLANT ANALOG INPUTS The first fault to be examined is an open circuit condition on the input. There are three basic types of analog inputs.
These consist of Voltage, Current and Temperature inputs. An open circuit condition on an input would simulate a very high impedance, zero voltage, load on the input. Depending upon the type of input, an open circuit ~ condition would cause-either a-zero (no voltage sensed) or a high "Out of Range"- -
(for RTD circuits) indication on the output of the VIDAR27, This condition would not inject signals into any other
-circuit without the failure of several of the multiplexer relays.and bus guard relays as well as the failure-of the
< file:rg197\p250. naps \ type 2.rv2, 20 PROJECT NP-2653
safeguard cir uits built into the computerra. .
Descriptions of-these circuits are.provided in the General Description section of this report. The contacts on the AM1-Cards are-wetted mercury switches. These contacts are in actuality liquid Mercury and are not subject to contact-welding. The multiplexer and bus guard relays located on the AM1 Cards,_
are rated at 2 amps continuous, 5 amps surge, 500 volts,1000-Vac coil to contact breakdown and 2000-x 10 6 operations 29, Since the VIDAR is a high impedance voltage sensing inst'rument, the currents woul6 be negligible 30 Thetafore, since this accident scenario would require multiple failures of diverse systems, it is not considered credible.
The second f ault is a short circuit. This scenario is exactly like the open cirpuit analysis as described above. The only difference is that the RTD related signals perceived by_the .
VIDAR as either zero or "Out of Range" high for an open circuit would have their computer sensed indication reversed.
The voltage or current sensed circuits would still perceive
- a zero voltage input and thus a VIDAR output frequency
! corresponding to the input. Therefore, no plausible accident .
scenario of this type would impact the Reg._ Guide 1.97 Category 1 and 2 circuits.
The final fault-in this analysis is a ground condition with_
' This scenario involves two a high voltage present.
possibilities. The first=is that the VIDAR would sense an actual common mode high voltage. The VIDAR is designed and-protected from this possibilityH. The high impedance-circuitry associated with the VIDAR would limit any currents -
to less than the ratings of the AM1 Card, Bus Guard and Multiplexer Relays. Thus the fault would not propagate into, any other circuitry without the failure of' multiple relays. '
The second fault is that a normal mode voltage would be
, O < f I L e : rg197\p250. rmps\ type 2. rv2> 21 PROJECT NP-2653 1
introduced on-the VIDAR bus. A normal mode voltage is a connected voltage source that is not connected to ground.
This voltage source raises the potential of the' circuitry to its level. This possibility is also addressed in the technical manual for the VIDAR. The-VIDAR is capable of withstanding a constant 120 Vac with no detrimental effects ,
on-the VIDAR32 The only method of connecting a high voltage to the Reg. Guide, Category 1 and 2 circuits would be for multiple relay failures to occur such that a connection between the source of high voltage and the category 1-and 2 circuits were to occur. This would require multiple failures within several circ i. Therefore, since this accident-scenario would requiva multiple failures it is not considered credible.
5.2.1.2 FAULTS ON CATEGORY 1 AND 2 ANALOG INPUTS This analysis is similar to the analysis of the Balance of Plant ci rcuitry . However, one important additional factor needs to be identified. The methodology used by the plant in determining the cable tray arrangements precludes any instrumentation catling- from -being run with any high voltage cabling, refer to NAPS Specification NAS-1012. Consequently, the potential of any high voltage being introduced into these circuits is extremely remote. A short or open circuit condition on the output of an NCI Card (Computer Interface) would have no impact on the operation of the indication loop.
The open circuit condition would simulate the normal expected high impedance condition for this circuit. A short circuit.
would at worst' case introduce a 0.333 milliamp current (10 volts maximum loop isolator output /30,000 ohms of resistance on the NCI Card).. This current is far less than the 30 milliamp rating of the loop power supply 33 The 7300 Process Control system uses a 0-10 Volt DC signal to the indication l O < file:rg197\p250. nap \ type 2.rv2> 22 PROJECT NP-2653 l
1 1
and control circuits. The loop power supply will output a voltage within the 0-10 VDC. range independent of the current output, provided the current does not exceed 30 milli-ampsM.
Therefore, the additional current burden of 0.333 milli-amps-is considered as insignificant. Since this-accident scenario I would require multiple failures it is not considered credible.
5.2.1.3 FAULTS WITHIN THE P-250 COMPUTER l
There exist five credible faults associated with the P-250 computer. These faults consist of; open and short circuit conditions on the common VIDAR bus; voltages being introduced onto the common VIDAR bus; failure of the VIDAR itself, and l faults within the computer CPU. These faults will be addressed below.
l The first scenario involves either open or short circuit.
conditions on the common VIDAR bus. Neither of the conditions
[ would cause failure of the Category one circuits since no conditions that have not alread; been analyzed in the two -
preceding sections exist. The only difference would be that all the VIDAR sampled points would be sensed as a zero voltage condition. Therefore, the output of the VIDAR would be a frequency equivalent to 0.0 volts for all sampled points.
.The third condition examines the potential that voltages could be introduced on the common bus from the power supplies located in the computer cabinets. These power supplies consist of 120 VAC, 5, 10, 15 and 48 VDC35 The most limiting condition would be if 120 VAC were to be injected upon the
-common VIDAR bus. This condition would cause the VIDAR to go into'an overrange condition for all its sample' points. .A O < f i t e : rs197\p250.napa\ type 2. rv2> 23 PROJECT NP-2653
subroutine within the computer system requires a internal self calibration of the VIDAR circuitry every 15 seconds.
Should a high voltage be present during this calibration routine, the computer would be unable to calibrate itself. A failure to calibrate would result in the computer placing the VIDAR out of service and will actuate an associated alarm.
Therefore, the computer would stop sampling all points 36 Even though 120 volts associated with the affes. ed VIDAR could potentially be introduced into the Category 1 and 2 loops one point at a time as the computer completes its _
sampling sweep, a review of all the components within the indication loops has determined that no affect on the components within tne loop would be observed. This is based upon the premise that the P-250 sampling rate would only connect the VIDAR circuit to the loop for one sampling cycle of less than 20 milliseconds 37 .
The failure of a VIDAR would have ne impact on the category 1 and 2 loops. The VIDAR does not in itself provide any means of injecting a signal into the analog loops. Therefora, no affect on the analog inputs is expected by the VIDAR failure 38, The final fault to be ana'.yzed is a f ault within the computer CPU. CPU faults could affect the analog sampling system in three ways. The first would be a complete failure of the CPU.
Since the computer CPU controls the sampling routines this e fault would stco all sampling. All the relay multiplexer inputs would be deenergized and the computer would isolate itself from all of its Digital and Analog inputs. The second fault wc...id be if the CPU failed such that errant sampling messages were to be presented to the multiplex circuits. This scenario would entail points being sampled at random and not in an orderly manner. "he analog input system will sample any O <f I t e:r9197\p250.rms\ type 2.rv2> 24 PROJECT NP-2653
_._ -__,_ _ _ _ .. _ _ .._ - ._.-_.__m . _ _ -
point that the computer instructs it to. The disorder causert by the CPU fault may cause scaling and CPU input errors but-will not affect the analog inputs in any way. This is based on the fact that the sampling rates and all correction programs are controlled by the CPU and are independent 'of the- i analog input. The final scenario would envision the computer trying to sample multiple points at one time. This is not credible since the computer can only address a single " Word" l and " Bit" at a time'. 3 l
5.3 REDUNDANCY l
The P-250 computer analog conversion and sampling system is divided into three separate sampling . subsystems. Each of ;
these three subsystems has a separate channel of Category 1 l instrumentation associated with it, refer to Table 1.
Therefore, no single failure in one of the subsystems will cause any affects in the other two subsystem Category 1 -1 inputs.
The three JIDAR's located 'fithin the P-250' Analog Input system' are completely separate. The redundant Reg. Guida 1.97, Category 1 indications are divided between the three VIDAR's. The failure af one complete VIDAR circuit would not affect the other two circuits. However, the failure of a VIDAR will cause the eventual shutdown of the computer. This would cause the cessction of all analog sampling associated with the other two VIDARs. The analysis further concludes that should a credible fault occur on one of the VIDAR busses and propagate into the' control _ loops no degradation of the components within those ' oops would occur 42, 3. detailed description of the operation of the P-250 computer is provided in the General Description section of this Type-2 report. Therefore, NES recommends no action is to be taken O < file:rg197\p250. naps \ type 2.rv2> 25 PROJECT NP-2653
() with the exception.of sparing out the-two Condensate Storage Tank level indication analog inputs.
In addition, the digital inputs to the P-250 computer are completely separated, physically 7d electrically from the ,
analog inputs. This. isolation will prevent any faults in the digital sampling system from impinging upon the analog sampling syst 3. Refer to section 3.2 " General Description" for a explanation of the P-250 computer.
5.4 PHYSICAL SEPARATION The P-250 computer interfaces bets.en the Analog and Digital 1/0 subsystems are completely separate. The computer samples the three VIDAR Voltage-to-Frequency Converters, (V/FC) cnd the Digital Inputs through completely separate subsystems.
Therefore, each Analog sampling system and its associated
() components are a stand alone unit and is separate and isolated from the other subsystems within the P-250 computer.
5.5 SAMPLE SYSTEM FAILURE MODE q
The P-250 computer is a " Fail- safe" type system'3 The computer is designed so that the sample relays are required to " Energize to operate". Failure within the computer or its
- power supplies will cause all sampling relays to remain open, thus fully isolating the computer from all of its inputs.
NOTE: All referer.c* within this document are to Unit 1. The analysis is also va y a for Unit 2 since Unit 2 is a duplicate of Unit 1.
t lO < file:rg197\p250. naps \ type 2.r s2> 26 PROJECT NP-2653 l
l t- ,_ , _ . .
6,0 RECOMMENDATIONS 6.1 RECOMMENDATION l
l Two computer points 1-CN-L-100B and 2-CN-L-200B should be I spared and their points removed from the computer Scan ;
program. Those inputs are from the redundant Condensate Storage Tank levels 1-CN-L-100A, 1-CN-L-100B, 2-CH-L-200A and ,
2-CN-L-200B. The redundant inputs to the computer are l connected to VIDAR 1 of their respective P-250 computer. Even l though the inputs are associated with the same VIDAR, the inptats are located on different Analog Multiplex (AM) Cards within the P-250 computer. Th1 pnysical and electrical separation between the two inputs on each Units P-250 computer will not be violated without multiple failures within the computer. However, to be consistent with the physical and electrical separation provided by the computer to the other P-250 inputs, these points will be spared out. Additionally, the leads connecting the NCI Card to the P-250 within the 7300 Process Control racks and tr. leads located in the P-250 will also be liftad and spared out in their respective racks.
O < tite:rs19P.p250. raps \ type 2.rv2> 27 PROJECT NP-2653
TANK LEVEL 7M CABINET in TERMINAL STRIP T 250 TERMINAL STRIP DRAWINGS 1 CN-tr100D 1 El CD 25C TBL 1 0147 TBK 10 TBL 2 0147 TBN@
NA DW 7ACD$$
SilEET 2 TBl:3 0147 TBN 10 j,y,3 ( p.pg, 2-CN tr200fs 2-El-CB-23C TBJ 16 0147 TBK.10 I TBF17 0147 TBK 09 NA.DW.7kCDS$
SilEET 2 TBris 0147 TBN 10 7.0 COMMITMENTS
- 1. Letter, Serial Number 90-672, Request from the NRC for additional information on implementation of the guidelines provided in RG 1.97.
- 2. Virginia PoweT response letter to NRC Letter 90-672, da:ed December 19, 1990. This letter, from W. L. Stewa rt , I outlines tne Virginia Power decision to provide isolat: 7n between the P-250 computer and the RG 1.97 indication.
- 3. Letter, Serial Number 91-685, dated November 6,1991, from the NRC to Virginia Power. This letter confirms the NRC acceptance of the proposed Virginia Power solution to the potential P-250 Computer and RG 1.97 indicator isolation, as outlined in the Virginia Power response to NRC Letter 90-672.
O < files o197\p250. naps \ type 2.rv2> 28 PROJECT NP-2653
1 4
- 4. Virginia Power internal Corporate Commitment Tracking Number 01-91-0308-001. This item will track the l development of the Type 2 report for this issue.
l
0.0 REFERENCES
The following is a list of superscript cross-references. These cross-references are meant to be a guide in reviewing the contents of this report. The description section will provide a list of applicable exhibits and sections within the exhibits.
FOOTNOTE DESCRT.PTION 1 Refer to C2 2 Eefer to C2, page 13, 15"17; D1; E2; E3; G4; Gil; G12; G13; H5; H6 3 Refer to D1, page 6 Refer _to D1; F1; F2; F3 O 4 5 Refer to F2; F3 6 Refer to G5; G6; G8; G9; G10 7 Refer to C2, page 4 8 Refer to G5; G8; G9; G10 9 Refer to G4, page 2; E2 10 Refer to E3; E17
, 11 Refer to E3; E7; E15; E17 12 Refer to E2; E3; C1 13 Refer to D1; F3; G4; G13; H5 14 Refer to G4; F3; G6; H5 15 Refer to F3; G1; G4; G13; H5; F4 16 Refer to F2; F3; G1; G2; G3; G4; G12; G13; F4 17 Refer to G4; G12; G13 18 Refer to F1; F3 19 Refer to D4 O < f i t u rg197\p250. naps \t ype2.rv2> 29 PROJECT NP-2653
._. _ _ _ . . _ _ _ . . . _ . 2 . . _ _ . - ,
' 20 Refer to C2, page 12, 13; D4; F1; F3; G4 21 Lefer to C2, page 12, 13; D4; F1; F3; G4 22 Refer to G4; D5 23 Refer to G4; DS; 24 Refer to F1 25 Refer to C2, page 17; D6; G4 26 Refer to Exhibit I, loop drawings 27 Refer to E21; G1; G2; G3; F2, page 5 28 Refer to E1; E2; E3; E21; E6; E9; E19 29 Refer to E20 30 Refer to E17 31 Refer to E17 32 Refer to E17, page 1 33 Refer to B3, page 5 34 Refer to B3, page 4, 5 35 Refer to G5; G8; G9; G10; G6, D2, pages 1-5 (Actual power supply Voltages are slightly different than
{'"]
l those listed in Exhibit D2) 36 Refer to E18, page 9 37 Refer to C2, page 15; B1, page 3; B3, page 5; B4, l
page 7 ,
( 38 Refer to E17 h/
l 39 Refer to E2, pale 3 l 40 Refer to F2, page 2, 5; G4 41 Refer to Table 1, Taolo 2; A1 42 Refer to Exhibit B for component descriptions 43 Refer to C2, page 4 t i
< f I t e : rg 197tp250. rmpr. st ype2. rv2> 30 PROJECT NP-2653
9.0 EXHIDITS 110TE : These Exhibits are presented in such a manner so as to clarify the information introduced in this report. They are a portion of the information available that was deemed important to the discussions in the Type 2 report. The Westinghouse Vendor Manuals should be consulted for any additional information.
9.1 EXHIBIT A, Computer Input List --
A1. Analog Input Points A2. Bill of Material for All Inputs 9.2 EXHIDIT B, 7300 Loop Components Bl. Westinghouse /Wechsler VX-252 Indicator B2. Westinghouse 7300 System 11CI Card B3. Westinghouse 7300 System NLP Card B3. Validyne Model BA332-Q2 Buffer Amplifier 9.3 EXHIBIT C, P-250 General Description C1. P-250 Continuous Analog Scan Program Description C2. General Description of P-250 Computer 9.4 EXHIDIT D, Standard Process I/O System, TP014 Dl. I/O Description D2. I/O Coupler D3. Scan Interrupts {
D4. Digital Inputs D5. Contact Closure Output (CCO) Subsystem D6. Analog Outputs
< f I L e r ro197\p250.rups\t rpe2.rv2> 31 PROJECT NP-2653
. J
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O 9.5 EXHIBIT E, A/D Conversion System ;
l El. Introduction E2. System Description E3. System Operation E4. AD Card E5. AM Card E6. AN Card E7. CD Card E8. GC Card E9. I/O Card E10. OM Card Ell. RT Card E12. RV Card E13. SK Card E14. TD Card
() E15.
E16.
WD Card XT Card E17. V/FC Unit (VIDAR) ,
E18. Software E19. Connection Information E20. C. P. Clare Relay Information and Westinghouse AM Relay Specification 9.6 EXHIBIT F, Equipment Layout and Bill of Materials F1. Cabinet 00 Equipment Layout F2. Cabinet 01 Equipment Layout F3. Cabinet 02 Equipment Layout F4. Connector Specifications LO <fileirg197\p250. naps \ type 2.rv2= 32 PROJECT NP-2653
l 9.7 EXHIBIT G, Cable Diagrams 1
G1. Analog Connection Diagrams G2. Milli-Amp to Volt 'onverter i G3. RTD Bridge Connect.on Drawings G4. Cabinet Wiring Diagrams GS. Cabinet Power Cable Connection Diagrams G6. Cable Type Drawing G7. Test Cable List G8. Cabinet 00 Power Cable Diagram G9. Cabinet 01 Power Cable Diagram G10. Cabinot 02 Power Cable Diagram Gil. Cabinet 00 Cable List G12. Cabinet 01 Cable List G13. Cabinet 02 Cable List .
9.8 EXHIBIT H, Wiring Drawings V(~'T j Hl. Power Jumpers H2. A/D System Calibration Wiring 11 3 . Interrupt Assignments H4. Miscellaneous Wiring List HS. NUCANNA to AM card Wiring List H6. RTD Card to Cold Junction Box (CJB) List 9.9 EXHIBIT I, 7300 Loop Diagrams I
<fite:rs197sp250.napsstype2.rv2> 33 PROJECT NP-2653 i
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.01 2 43 070 07 T2474A TE CW 103D 1 T8 CDSR 18 CIRC W1R OUT 2A T C01 2 43 070 08 T2477A TE CV 1030 4 T8 CDSR 18 CIRC WTR OUT 20 i C01 2 43 070 09 T2721A TE BC 119A BRG CLNG PMP A MTR STATOP T C01 2 43 070 to T0152A fPARE SPARE C01 2 43 070 11 10182A TE/1129 RCP2 SEAL WTR 1 CUT C01 2 43 070 12 T2491A TE $W 113A SERVICE WTR PMP A MTR STATOR T C01' 2 43 070 13 T0730A TE.RS.157A. OUT RECIRC SPkY PP A MTR STR T CO2 2 43 071 07 T0436A TE/14278 RCP2 MTR LOWER THRUST WRG T ,
CO2 2 43 071 08 T0453A TE/1438A RCP3 MTR UPPER RADIAL BRG T l CO2 2 43 071 09 T0456A TE/14378 RCP3 MTR LOWEk THRUST BRG T t CO2 2 43 071 10 T2004A TE SD 112A RENTR DRAlW REC TK 1A OUT T 43 I CO2 2 071 11 T2023A TE SD 101C T8 MolST SEPARAT 1C DRAIN T CO2 2 43 071 12 72034A TE SD 112C RENTR DRAIN RfC TK 1C DUT T .
CO2 2 43 071 13 T1051A TE LV 1005 N1 LEVEL WST DAN TK 28 i I
C03 2 43 070 00 12400A TE CW 102A TB CNDLSR 1A CIRC WTR INLET 1-T C03 2 43 070 01 T2420A TE CW 102C TB CNDNSR 18 CIRC WTR INLET 1 1
- C03 2 43 070 02 T2430A TE CW 10$A CIRC VTR PMP A MTR STATOR T C03 2 43 070 03 T2451A TE CV 1034 2- TB CDSR 1A CIRC WTR OUT is T s C03 2 43 070 04 T2454A TE CV 1038 1 TB CDS2 1A CIRC VTR OUT 2A T ;
C03 2 43 070 05 T2457A TE CW 103D.4 18 CDSR 1A CIRC WTR DUT 2D T C03' 2 43 070 06 T2471A TE CW 103C 2 TB CDSR 18 CIRC WTR 001 18 i C04 2 43 071 00 T2740A 1 CC TE 173A P!PE PEN COOLING COILS (A)
C04 2 43 071 01 T2750A TE SW 108A SERVICE WATER PUMP DISCM NOR IT 2 43 071 02 T5644A TE CC 213e CONT No.2 Alt CIRC Nx s CW CUT T J4 2 43 071 03 T5663A TE CC 257B No.2 NEUT SNLD TK NXS CW DUT T
% 2 43 071 04 T0413A TE/1418A RCP1 MTR UPPER RADIAL DRG T-Cu4 2 43 071 05 T0416A TE/14179 -RCP1 MTR LOWER THRUST BRG T ,
C04 2 43 071 06 T0433A TE/1428A RCP2 MTR UPPER RADIAL BRG T C05 2 42 072 07 T2823A TE MS 115P EXCITER COOLER Alt IN 2 T. 3 C05 2 42 072 08 T7801A TE MS 215 A NO.2 CsN STAT COIL DISCH GAS if .
C05 2 42 072 09 T7807A TE MS 2150 No.2 GEN STAT C0!L DISCH GAS TT C05 2 42 0T2 10 T7820A TE MS 21$ L No.2 EXCITER COOLER Alt DUT if
. C05 2 42 0 72 11 70418A TE FW 111A STM GEN A FEED WTR IN T
.C05 2 42 0 72 12 70438A TE FW*111 5 STM GEN R FEED WTR IN T C05 2 42 0 72 13 T0458A TE*FW 111 C STM GEN C FEED Wik IN T C06 2 42 073 07 T1040A TE LM 100 20 CONTAINMENT Alt 20 1 C06 2 42 0 73 08 T1043A . MT LM 100-3 CONTAINMENT DEWPT C06 2 42 0 73 09 T1047A TE HV 1225 A $NROUD A AIR CUT T C06, 2 42 073 -10 16047A TE HV 2225 A SHROUD A AIR CUT T (UNIT 2 , C06 2 42 073 11 T0729A TE FP 1202 FIRE PMP MTR STATR T C06 2 42 0 73 12 T4014A TE AM1175 BATTERT ROOM NO.2 T C06 2 42 0 73 13 T4015A- TE AM117C BATTERT ROOM Wo. 1 T C07 - 2 42 0 72 00 -T2500A TE*CN 120A TB CDSR 1A HOTWELL T C07 - 2- - 42 OT2 01 T2510A TE CN 1208 TB CDSR il NOTWELL'.T C07 2 42 0 72 02 T2526A TE*CN 144C CONDENMTE PMP 1C SUCil0N T C07 2 42 072 03 T2801A TE MS 115A GEN STATOR C0ll DISCH GAS 1 1 C07 2 42 072 04 .T2804A TE MS 1150 GEN STATOR C0!L DISCH GAS 4 7 ,
-C07' 2 42 072 05 T2811A TE MS 115G GEN COLD H2 GAS 1 T 2 42 072 06 T2820A TE MS 115L E* CITER COOLER AIR OUT 1.T 0 07 l .- p.,,T MOMMM L ONLY .
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$02T BY CARD LOCATION - August 4, 1972 TARD hTION_ CABINET CONW $6E WORD CHANNEL BIT AP SYMBOL INSTRUMENT NUM AP DESCRIPfl0N - .08 2 42 073 00 70087A $ PARE C08 2 42 0 73 - 01 10090A SPARE C06 2 42 073 02 T1003A TE+LM 100 4 CONTAINMENT AIR 4 i C08 2 42 0 73 03 T1006A TE*LM 100 7 CONTAINMENT Alt 7 1 C08 2 42 073 04 T1009A TE*LM 100 10 CONTAINMENT AIR 10 i C08 2 42 0 73 05 T1012A TE LM 100 13 CONTAINMENT AIR 13 i C06 2 44 073 06 10154 TE LM 100 16 CONTAINMENT AIR 16 i C09 2 43 074 07 T10v.A TE LM*100 5 CONTAINMENT Alt 5 i C09 2 43 074 08 T1007A TE LM 100 8 CONTAINMENT Alt 8 1 CD9 2 43 074 09 T1010A TE LM 100 11 CONTAINMENT AIR 11 T C09 2 43 074 10 - 710134 TE LM 100 14 CONTAINMENT Alt 14 1 j C09 2 43 074 11 T1016A TE *LM 10017 - CONTAINMENT AIR 17 i C09 2 43 074 12 T1036A TE LM 100 19 CONTAINMENT AIR 19 T C09 2 43 074 13 11041A - MT*LM+100 6 CONTAINMENT DEWPT 67 C11 2 43 0 74 00 10088A- SPARE-C11 2 43 074 01 T2501A TE CN*121 CONDEN$ ATE PMP DISCH HDR T C11 2 43 074 02 T2505A TE*SD 131A DRAIN C00LER 5A DRAIN T C11r 2 43 074 03 T2541A SPARE -
C11 2 43 0 74 04 T2$47A $ PARE j C11 2 43 074 05 - T2550A TE CN 128 FLA$N EVAP CONDEN$ OUT T ' C11 2 43 074 06 T2564A TE CN 102B DRAIN COOLER 1B CONDENs IN T C13 2 42 076 07 T5636A TE CC 246A RCPA CLNG WTR SPLT HDR.T (UNIT 2) ') C13 2 42 076 08 T5643A TE CC 213A CONT No.2 Alt CIRC HK A CW CUT T l O i3 2 42 076 09 T5662A TE CC 257A No.2 NEUT $MLD ft NRA CW OUT T . i 13 2 42 076 10 11050A TE LW 100A Hi LEVEL WST DRN TK 2A T 13 2 42 076 11 T1053A TE*tW 102B LO LEVEL WET TK 36 1 C13 2 42 076 12 70151A TE GM105 GENERATOR 9U$$ COOLING DUCT T C13 2 42 076 13 T0181A TE/1132 RCP1 SEAL WTR 1 OUT C15 2 42 076 00 T0611A TE CC 1508 RNR PMP S SEAL MX CLNG hit CUT T .; l C15 2 42 076 01 10632A - TE CC 141A RCPA UP SRG L0 MX CLNG *.TR 00T T C15 2 - 42 076 02 10638A TE*CC 1708 COMP CLNG PMP O MTR STATOR T C15 2 - 42 076 , 03 10643A TE CCs113A CONT AIR CIRC HK A CLNG W QUT T i C15- 2 42 076 04 70651A TE CC 1428 RCPS STATOR CLNG WTR CUT T1 ! Cil 2 42 076 05 706634 TE CC 157B NEUT SHLD TK MX $ CLWG VTR 007 T i C15 2 42 076 06 - 10672A TE CC+141C RCPC UP DRG LO MX CLNG WTR DUT T D01 1 43 060 07 V8003A CJ52 RfD1 001 1 43 060 ' 08 v80044- C0KouTER RM #1 TEMP D01 2 47 050 07 T7803A TE MS 215 C No.2 GEN STAT COIL DISCH gas 3T D01; 2 47 050 08 T78094 TE Ms 2155 NO.2 GEN STAT C0ll DISCH GAS 9T 001 2 47 0$0 09 T2202A TE ES 113A LP HX 6A STM T 001 2 47 050 10 T2212A TE*ES 112A LP hX 5A STM T 4 001 2 . 47 050 11 T2222A TE ES 104A LP MX 4A STM T 001 .2 47- 0$0 12 T2232A TE Es 103A LP HX 1A_STM T
- 001 -2 47 - 050 .13 T2241A TE CN 139A_ LP HK 2A CONDENs OUT T . 002 1 43 061 07 T2048A TE MS-111K 1 - GEN BRG EXCITER END DIL DRAIN T 002 1 43 061 OS - 120494 TE*MS 111L 1 EXCITER BRG OIL DRAIN T .
002 1' 43 061 09 T2050A TE CH 101A 1 CHARGE PP.A MOTOR INNER BRG 002 1 43 061 10 T2053A- TE-MSq11M TB LUBE Clt C00LER CIL IN T
*C2 43 061 T2054A SPARE T/C 1 11 SPARE INFOitMATION -
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$02f BY CAPD LOCA110N August 6, 1992 "' RD AP $YMBOL th51RUMENT NUM AP DESCRIP110W NiloN CABihEt CowN 56E WORD CHAhhEL Bli . V ..................................................................................................................... ..
s02 1 43 061 12 12055A ff CH 101A 2 CHARGE PP.A M0109 OUTER BRG D02 1 43 061 13 Y4078A $ PARE $ PARE 1/C INPV1 D02 2 47 051 07 12301A TE CN 1398 LP NX 2B CONDENS OUT 1 002 2 47 051 08 12304A TE CN 1408 FEED Vit PMP is $UCT T D02 2 47 051 09 12311A 1E FW 1108 HP HX 1B FEED WATER DUT 1 002 2 47 051 10 12331A T E
- FW 1578 FD W1R PMP A OTBD MTR STATOR Y 002 2 47 051 11 T2334A TE FW-157E FD VTR PMP C thBD MTR STATOR 1 D02 2 47 051 12 T2376A TE 50 ii18 NP HTR DRAlh PMP 1B D15CH T 002 2 47 051 13 T2391A TE $D 132B HP HTR DRM PMP 18 MTR $1A10R t 003 2 47 050 00 T1044A MT LM 100 4 CONTAINMENT DEWPT 4T D03 2 47 050 01 11048A TE HV 1225 B $HROUD B Alt OUT T 003 2 47 050 02 16048A TE*HV 2223 B $HROUD B AIR OUT T (UNif2) 003 2 47 050 03 12802A TE MS 1158 GEN $1ATOR C0ll DISCH GA$ 2 T 003 2 47 050 04 12805A TE MS 115E GEN $1A10R Call D!$CH GA$ 5 1 003 2 47 050 05 12812A 1E MS 115H GEN COLD H2 GA$ 2 1 003 2 47 050 06 T2821A TE MS 115M EXCITER COOLER AIR 007 2 T 0 04 1 43 061 00 T2041A TE MS 111C 1 18 BRG 1 OIL DRAIN 1 D04 1 43 061 01 12042A TE MS 1110 1 TB BRG 2 OIL DRAIN 1 004 1 43 061 W 12043A TE MS 111E 1 fB BRG 3 Olt DRAIN T 004 1 43 061 03 T2044A TE-MS 111F-1 18 BRG 4 Oll DRAIN 1 004 1 43 061 04 12045A TE MS 111G-1 fB BRG 5 OIL DRAIN 1 004 1 43 061 05 T2046A TE MS 111H 1 TB BRG 6 OIL DRAIN T 04 1 43 061 06 T2047A TE MS 111J 1 GEN BRG TB END Oil DRAIN 1 4 2 47 051 00 12244A TE CN-140A FEED VfR PMP 1A $UCT T b4 2 47 051 01 T2251A TE FW 110A HP HX 1A FEED WATER OUT T 4 2 47 051 02 T2262A 1E ES 113B LP HX 6B STM i 004 2 47 051 03 T2272A TE ES 1128 LP MX $8 STM T 004 2 47 051 04 12276A TE CN 145A LP HX 4A CONDENS OUT T 0 04 2 47 051 05 T2282A TE*ES 1048 LP HX 4B STM T 004 2 47 051 06 T2292A TE E$-1038 LP HX 3B STM T D05 1 42 062 07 T2341A 1E*FW 156C 2 FD VTR PMP B INSD MTR OTBD BRG T 005 1 42 062 08 T2342A TE FW 1560-1 FD VTR PMP B OTBD MTR INBD BRG 1 005 1 42 062 09 12343A TE FW-156D 2 FD VTR PMP B 0180 Mit OTBD Br. T DO5 1 42 062 10 T2350A TE FW-156E 1 FD VTR PMP C INSD MTR INBD BRG T D05 1 42 062 11 T2351A TE FW 156E 2 FD VTR PMP C INSD MTR OTBD BRG T 005 1 42 062 12 T2352A TE FW 156F 1 FD VTR PMP C 01BD MTR IHBD BRG T 005 1 42 062 13 T2353A TE FW 156F 2 FD VTR PNP C OTBD MTR CTBD BRG 1 005 2 46 052 07 T2002A TE $0-101A 18 MolST SEPARAT 1A DRAIN T 005 2 46 052 08 12012A TE SD 101B 18 Molsi $EPARAT 18 DRAIN T 005 2 46 052 09 T2032A TE $D 1010 TB MIST SEPARAT 10 DRAIN T 005 2 46 052 to T2200A TE-CN dO6A LP HX 6A CONDEN$ IN T 005 2 46 052 11 T2210A TE*CN 131A LP HX 5A CONDENS IN I D05 2 46 052 12 T2220A TE-CN 1334 LP MX 4A CONDENS IN T 005 2 46 052 13 T2230A TE CN 135A LP HX 3A CONDEN$ IN T 006 1 42 063 07 Y4065A TE CH 102C-2 CHARGING PMP 1C PMP 0180 BRG T 006 1 42 063 08 Y4066A TE CH 102C 3 CHARGING PMP 1C PMP THR BRF T DG6 1 42 063 09 T4067A $ PARE SPARE T/C INPUT 006 1 42 063 10 Y4068A SPARE SPARE T/C INPUT 06 1 42 063 11 v4069A $ PARE SPARE T/C INPui v INF0F%ATl0N P.B. 3 ONLY
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-to:lf BT CARD LOCAfl0W August 4. 1992 Oh CABlhET COhw $6E WORD CHAkhEL Blf AP STMBOL INSTRUMENT NUM AP DESC 'Pfl0N s06 1 42 063 12 T2511A tt CN 142A 1 COND PMP 1A MTR THR BRG T DCa 1 42 063 13 T2512A TE CN 142A 2 COND PMP 1A MTR CulDE BRG T 006 2 46 053 J7 T2290A TE CN 1358 LP HX 38 CONDENS IN T 006 2 w 053 08 T2300A TE CW.137B LP HX 28 CONDENS IN T j D06 2 46 053 09 T2303A TE SD 109B HP HX 28 DRAIN T 006 2 46 053 10 T2310A TE FW 1099 HP HX 18 FEED WATER IN T 006 2 46 053 11 T2330A TE FW 157A FD WTR PMP A INBD MTR STATOR T 006 2 46 053 12 T2333A TE FW 157D FD WTR PMP B OTBD MTR STATOR T l I
D06 2 46 053 13 T2375A TE SD 111A HP HTR DRAIN PMP 1A Dl?CH T 007 1 42 062 00 T2316A TE FW 156A 1 FD WTR PMP A INBD MTR INBD BRG T 007 1 42 062 01 T2317A TE FW 156A 2 FD WTR PMP A INBD MTR OTBD BRG T ] 007 1 42 062 02 T2318A TE FW 1568 1 FD vfR PMP A OTBD MTR INBD BRG T_ j D07 1 42 062 03 T2319A TE FW 1568 2 fD VTR PMP A CTBD MTR OTBD BRG T D07 1 42 062 04 T2326A TE FW 158A 1 AUX FEED PMP 3A MTR INBD BRG.T 007 1 42 062 05 T2327A TE FW 158A*2 AUX FEED PMP 3A MTR OTBD BRG T 007 1 42 062 06 T2340A TE FW 156C 1 FD WTR PMP 3 INBD MTR 'lNBD BRG T 007 2 46 052 00 10412A TE/14188 RCP1 MTR STATOR WINDING T 007 2 46 052 01 10415A TE/1419 RCP1 MTR LOWER RADIAL BRG T 007 2 46 052 02 70432A TE/14289 RCP2 MTR STATOR WINDING T 007 2 46 052 03 T0435A TE/1429 RCP2 MTR LOWER RADIAL BRG T , 007 2 46 052 04 10452A TE/14388 RCP3 MTR STATOR WINDING T D07 2 46 052 05 70455A TE/1439 RCP3 MTR LOWER RADIAL BRG T 007 2 46 052 06 T0920A SPARE SPARE RfD
/ $ 1 42 063 00 T2386A TE FW 1588 1 AUX FEED PMP 3B MTR INB0 BAG T l
Q3 1 42 063 01 T2387A TE FW 1588 2 AUX FEED PMo 38 MTR OTBD BRG T l '3 1 42 063 02 T4060A TE CH 102A*3 CHARGING PMP 1A PMP THR BRG T l' 008 1 42 063 03 T4061A TE CH 1028 1 CHARGING PMP 1B PMP INB0 BAG T l 008 1 42 063 04 T4062A TE CH 1028 2 CHARGING PMP 1B PMP OTBD BRG T l 008 1 42 063 05 T4063A TE CH 1028 3 CHARGING PMP 1B PMP THR BRG T 008 1 42 063 06 T4064A TE CH 1028 1 CHARG!NG PMP 1C PMP INBD BRG T DOS 2 46 053 00 T2240A. TE CN 137A LP HX 2A CONDENS IN T 008 2 46 053 01 T2243A TE ES 102A HP HX 2A STM T 008 2 46 053 02 T2250A TE FW 109A HP HX 1A FEED WATER IN T 008 2 46 053 03 T2253A TE 50 110A HP HX 1A DRAIN T D08 2 46 053 04 T2260A TE CN 1068 LP HX 68 CONDENS IN T 008 2 46 053 05 T2270A TE*CN*131B LP HX 50 CONDENS'IN I , DOS 2 46 053 06 T2280A *E CN 1338 LP HX 48 CONDENS IN T
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D09 1 43 064 07 10693A TE RM 1018 2 RNR PP S MTR L0 BRG T 009, 1 43 064 08 T2090A TE CH-101C 1 CHARGE PP.C MOTOR INNER BRG 009 1 43 044 09 T2u94A TE CH 101C 2 CHARGE PP.C MOTOR CUTER BRG
.D09 1 43 064 10 T7061A TE-MS 211C 2 TB BRG 1 METAL T (UNIT 2)-
D09 1 43 064 11 T7062A TE-MS-211D 2 TB BRG 2 METAL T (UNIT 2) 009 1 43 064 12 T7063A' TE-Mf 211E 2 TB BRG 3 METAL ! (UNIT 2) 009 1 43 064 13 T7064A TE MS 211F*2 TB BRG 4 METAL T (UNIT 2) 009 2- 47 054 07 T4109A SPARE SPARE MA INPUT 009 2 47 054 08 T4110A SPARE SPARE MA INPUT D09 2 47 054 09 T4111A SPARE SPARE MA INPUT 009 2 47 054 10 T4112A SPARE SPARE MA INPUT 9 2 47 054 11 T4113A SPARE SPARE N6RMADON LM l Page 4 ONty
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SCRT BY CARD LOCAfl0N August 4, 1902 fD , WORD' CHANNEL BIT AP SYMBOL INSTRUMENT Ntm AP DESCRIPTION Q TION CABlWET CONN $6E
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.,09 2 47 054 12 V4114A $ PARE SPARE MA INPUT 009 2 47 054 13 v4115A $ PARE $ PARE MA INPUT 010 1 43 065 07 Y4081A $ PARE SPARE T/C lhPUT +
D10 1 43 065 08 Y4082A $ PARE SPARE T/C IkPUT D10 1 43 065 09 Y4083A SPARE SPARE T/C INPUT 010 1 43 065 10 Y4084A SPARE $ PARE T/C INPUT 010 1 43 D65 11 Y4085A SPARE $ PARE T/C INPUT 010 1 43 065 12 Y4086A . SPARE SPARE T/C INPUT , 010 1 43 065 13 Y4087A SPARE SPARE T/C INPUT 011 1 43 064 00 -70617A TE CC 169A*1 COMP CLNG PMP A MTR INBD BRG T D11 1 43 064 01 70618A TE CC 169A 2 COMP CLNG PMP A MTR OUTBD BRG T
- 011 1 43 064 02 T0622A TE CC 16951 COMP CLNG PMP B MTR INBD BRG T.
011 1 43 064 03 70623A TE CC 1698 2 COMP CLNG PMP B MTR 00TBD BRG T - 011 1 43 064 04 T0690A TE RH 101A 1- RHR PP A MTR UP BRG T , 011 1 43 064 05 70691A TE RH 101A 2 RHR PP A MTR LO BRG T' D11 1 43 064 06 10692A TE RM 10181 RNR PP B MTR UP BRG T l l- 011 2 47 054 00 T2394A TE SD 058 LP NfR DRN PMP 28 MTR STATOR T l Dit 2 47 054 01 12544A SPARE I ~ 011 2 47 054 02 Y4030A $ PARE SPARE FOR PASTR COMMON l 011 2 47 054 03 Y4031A $PME _ SPARE FOR PASTR COMMON l 011 2 47 .s4 04 Y4032A SPARE $ PARE FOR PA$1R COMMON
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_D11 2 47 054 05 Y4033A SPARE $ PARE FOR PASTR-COMMON 2 47 054 06 Y4108A SPARE SPARE MA INPUT-11 1
't 1 43 065 00 T7065A TE MS 211G 2 TB BRG 5 NE1AL T (UNIT 2) 12 1 43 065 01 T7066A TE MS 211H 2 TB BRG 6 METAL T (UNIT 2) 2 1 43 065 02 TT067A TE MS 211J 2 GEN TD END BRG METAL T 012 1 43 065 03 T7068A TE MS 211K 2 CEN BRG EXCITER END METAL T D12 1 43 065 04 TT069A TE MS 211L 2 EXCITER BRG METAL T 012 1 43 065 05 Y407YA SPARE SPARE T/C INPUT 012 1 43 065 04 Y4080A SPARE '$ PARE T/C INPUT 013 1 42 066 07 T25634 TE 50 1.t48 2 LP HTR DRN PMP 28 MTR LO BRG T 013 '1 42 066 08 T2538A -TE SD 133A 1 NP NTR DRN PMP 1A MTR THR BRG T D13 1 42 066 09 T2589A TE 50 133A 2 MP MTR DRN PMP 1A MTR L0 BRG T 013 1 42 066 to T2594A TE $0 13381 HP MTR DRN PMP 18 MTR THR BRG T D13 1 42 066 11 T256A TE $0 1338 2 HP WTR DRN PMP 18 MTR LO BRG T 013 1 42 066 12 T2597A TE 80 133C 1 HP HTR DRM PMP 1C MTR THR BRG T D13 1 42 OM 13 T2598A TE 80 133C 2 MP NTR DRN PMP 1C MTR LO BRG T , - D13 2 46 056 07 v4101A $ PARE SPARE MA INPUT 013 , 2 46 056 08 v4102/. SPARE . SPARE MA INPUT 013 2 46 056 09 Y4103A $ PARE $ PARE MA INPUT D13 2 46 056 10 T4104A SPARE SPARE MA INPUT 'D13. 2 46 056 11 T4105A- $ PARE- $2ARE MA INPUT D13 2 46 056 12 .Y4106A SPARE SPARE MA INPUT 013 - 2 46 056 13 Y4107A .$ PARE SPARE MA INPUT 015 1 42 066 no T2521A TE CN 1428 1 COWD PMP 1B MTR THR BRG T 015 1 42 066 Ci T2522A TE CN 1428 2 COND IMP 1B MTR GUIDE BRG T
_ D15 1 42 066 02 T2531A TE CN 142C 1 COND PMP iC MTR THR BRG T
. 015 - 1 42 066 03 T2532A TE CN 142C 2 COND PMP 1C MTR GUIDE BRG T 5 1 42 066 04- T2552A TE SD 134A 1 LP HTR DRN PMP 2A MTR UP BRG T; P.e. 5 INFORMATl0N ONLY , -, , . . - . . ., .~.- ,
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l 802T Bf CARD LOCAfl0N- August 4,1972 ON CABINET CONN $6E WORD CHANNEL SIT AP SYMBOL IkSTRUMENT NUM AP DESCRIPfl0N , s15 1 42 066 05 T2553A .E SD 1343 1 LP MTR DRW PMP 28 MTR UP BRG T " 015 1 42 066 06 ftS62A TE SD 134A 2 LP NTR DRN PMP 2A MTR LO BRG T 015 2 46 056 00 T2390A TE 80 132A MP NTR DRN PMP 14 MTR STATOR T - D15 ' 2 46 056 01 T2393A !E SD 135A LP HTR DRN PMP 2A MTR STATOR T D15 2 46 056 02 72397A TE FW 159A AUX FD PMP 3A MTR $1ATOR T D15 2 46 056 03 Y2800A ASM 1 MfDROGEN PURITY D15 2 46 056 r". v4M3A SPARE SPARE MA thPUT , 015 2 46 056 05 Y4099A SPARE SPARE MA INPUT 015 2 46 056 06 v4100A SPARE SPARE MA INPUT E01 1 43 050 07 P5423A PQ fW 2006 STM CEN B FEEDWATER lb P (UNIT 2) E01 1 43 050 08 Y4023A SPARE SPARE FOR PASTR Co w
- E01 i 43 050 09 V4024A SPARE SPARE FOR PASTR CCMMON E01 1 43 050 10 Y4025A SPARE SPARE FOR PASTR COMMON E01 1 43 050 11 P1002A PQ LM 100C CONTAINMENT 3P E01 1 43 050 12 P1004A PQ LM 1000 CONTAINMENT 4P E01 1 43 050 13 P1011A PT LM 101B CONTAINMENT PRfSSURE B i E02 1 43 051 07 Y4028A 113 TB1 9 10 RADIAL GATE 2 POSITION RADIAL GATE 3 POSITION I E02 1 43 051 08 Y4029A 113T51+11 12 E02 1 43 051 09 P539CA PD/2446 TB FIRST STAGE 1 P (UNif 2)
E02 1 43 051 10 Y2061A P0/V8 13 15 TS BRG 1 VISRATION E02 1 43 051 11 Y2062A PD/V8 14 15 TB SRG 2 VIStAfl0N E02 - 1 43 051- 12 Y2063A P0/V8 16 15 Te sRG 3 Vltteil0N E02 1 43 051 13 Y20644 PD/V8 17 19 T8 BRG 4 VlBRAfl0K h3 1 43 050 00 Y8022A CALIBRATION VOLTAGE +10V NO3 - 1 43 050 01 YB021A CALIBRATION VOLTJ.GE 10V 03 1 43 050 02 Y8020A CAL!b4AT10N VOLTAGE OV E03 1 43 050 03 05340A UNIT GENERATOR Gross MW (UNIT 2) E03 1 43 050 04 F5423Y FD/2487s STM GEN 2 FEED Wit IN 1 F (UN 2) E03 1 43 050 05 L5400A LD/2474 STM GEN 1 NAR RNQ 3 L (UNIT 2) E03 1 43 050 06 L5440A LD/2494 STM GEN 3 NAR RNG 1 L (UNIT 2)' E04 1 43 051 00 ROM 1Y RM-RMS 152 NEW FUEL STORAGT OMS 152) ! E04 1 43 051 01 R s24Y RM-RMS 155' DICONTAMINAf!ON AMEA (kMS155) l E04 1 43 051 02 R0027Y RM RMS-i;5 LA80" MORY AREA (RMS158) l E04 1 43 051 03 R0030Y RM LW 111 LIQUID WASTE CLARiflED (W111 E04 1 43 051 04 R0033T RM vG 104 VENTILAfl0N GAS StACE. (VG1C4) E04 1 43 051 05 Y4026A LD SW201A RESERVoll: STAtlou O EL l E04 1 43 051 06 V4027A 113 TB1 7 5 RADIAL GATE 1 PostiloN E05 1 42 052 07 A0020Y RM PMS 151 DECONTAMINAfl0N BUILDIhc RMS151 1 A2 052 08 R0023Y RM RMS 154 AUX BLDG CONTPOL AREA h MS154) E05' E05 1 42 052 DV R00267 RM RMS 157 MAIN CONTROL ROOM AREA (RMS157) E05 1 42 052 to R0029Y RM SV 121 CONDENSER All 3JECTOR (SV121) , PROCESS VENT CAS (GM102) ; E05 1 42 052 11 20032Y RM cW 102 E05 1 42 052 12 R0035Y RM SS 123 STM GEN BLOWDOWN 8 ($$123) E05 1 42 052 13 00400A PRES $URIZER HTR 0 E06 1 42 053 J7 Y2601A 113 f81 5 6 SKIMER GATE 2 POS E06 1 42 053 08 Y2603A 113 TB1 1 2 RESERV0lR DAM LEVEL E06 1 42 053 09 Y4009A TE AM113 Rtm DRIVE R00M T E06 1 42 053 10 Y4010A TE AM114- AUX FW PUMP MOUSE T 06 1 42 053 11 Y4011A TE-AM115 SAFEGUARD AREA EKH FAN T l
-- Page 6 INFORuiATl0N ONLY
7 ;; -y -n - - - - ~ - - -
.n -- -
T SORT BY _ CARD LOCATION August 4.-.1992 4
**RD TION CABIk!T CONN 56E W3RD CHANNEL BIT .AP SYMBOL INSTRUMENT NUM AP DESCRIPTION . .. ............ ........................ ................................. ................s............................... j .06 1 42 053 12 Y4012A TE AM116 CABLE TUNNEL AREA T .E06 1 42 053 13 Y40"A TE AM117A BATTERY ROOM No. 4 i E07 1 42 052 00 V801u CAllBRAfl0N VOLTAGE +10V-E07 1 42 052 01 Y8011A CALIBRATION VOLTAGE 10V -
COT 1 42 052 02 V8010A CAtlBRAT10N VOLTAGE OV E07 ' 1 42 052 03 Y2600A 113 181 3 4 SKIMMER GATE 1 POS E07 1 42 052 05 P1003A SPARE SPARE E07 1 42 052 06 P1010A PT LM-101A -CONTAINMENT PRS $$URE A , E08 1 42 053 00 Y2000A -TB SPEC E08 1 42 053 01. Y2002A PD/CERP33 34 TB CA$ LNG EXPANSION E08 1 42 053 02 Y2004A PD/DE4950 DlFF EXPANSION HP END-
- E06 1 42 053 03 Y2005A PD/DE! M 4 DIFF EXPANSION GEN END E08 1 42 053 04 Y2006A P0/RA13 14 .TB ROTOR ECCENTRICTY E08 1 42 053 05 Y2007A PD/CERP25 26 TB ROTOR POO! TION EOS 1 42 053 06 Y2014A TB CONTROL VALVE POS LIMIT ST PT j E09 1 43 054 07 T0654A TE CC 1408 RCPB $> - -'JD HY CLNG UTR CUT T E09 1 L3 054 CL 10658A- TE CC-1438 RCPB STATOR CLNG WTR CUT T2 E09 1 43 054 09 TL665A TE NS 101A- NEUT SHLD TK COOLER CUT 1 T E09 1 43 054 10 10673A TE CC-144C RCPC LO BRG LO HX CLNG WTR CUT T E09 1 43 054 11 TD676A TE CC 146C RCPC CLNG WTR SUPPLY HDR T i
E09 1- 43 054 12 70681A TE CC 142C RCPC STF. TOR CLNG WTR CUT T1 E09 1 43 054 13 T0695A TE RN 100A RHR AP A MTR STATOR T E11 1 43 054 00 T0601A TE CC 147 RNR PMP AND LTDWN HX SPLY HDR T
'1 1 43 054 01 T0607A SPARE SPARE RfD 11 1 43 054 02 70621A TE CC 170A COMP CLNG PMP A MTR STATOR T- '1 1 43 054 03 T0633A TE CC 144At RCPA LO BAG L0 MX CLNG WTR QUT T E11 1 43 054 04 10639A TE CC 143A RCPA STATOR CLNG WTR 007 T2 E11 1 43 054 05 T0644A TE CC 1138 CONT AIR CIRC HX B CLNG W OUT T E11 1 43 054 06 T0652A TE CC 141R RCP6 UPSRG L0 MX CLNG WTR CUT T E13 1 42 056 - 07 T2680A TE CW 1050 CIRC WTR PMP ft MTR STATOR T E13 1 42 056 08 T2504A Tli CN 102A DRAIN COOLER 1A CONDEW1 IN T E13 1 42 056 09 - T2540A SPARE --
E13 1 42 056 10 : T2543A SPARE E13 1 42 056 11 T2546A SPARE E13 1 42 056 12 T2549A TE CN 126 FLASH EVAP CONDMS IN T-E13 1 42 056. 13 T2580A TE CN 143A COND PMP 1A MTR STATOR T i; E15 1 42 056 00 T2432A TE-CW 105C CIRC WTR PMP C MTR STATOR T I E15 1 42 056 01 T2450A TE CW 103A4 TB CDSR 1A CIRC WTR CUT 1A T i E15 1 42 056 02 T2453A TE CV 103A 4 TB CDSR 1A CIRC WTR OUT 10 T l E15' 1 42 056 03 T2456A TE-CW-1038 3 -TI, CDSR 1A CIRC WTR OUT 2C T E15 1 42 056 - 04 T2470A TE-CV-103C 1 TB CDSR 18 CIRC WTR CUT 1A T E15 1 42 056 05 T2473A TE CW-103C-6 -TB CDSR 18 CIRC WTR CUT 10 T-E15 1 42 056 06 T2476A TE-CV-1030 3 TB CDSR 18 CIRC WT* OUT 2C T [- L F01 1 55 040 07 Y2068A P0/VB-22 23 GENERATOR BRG 8 V!BRATION l .F01 1 55 040 08 Y2069A PD/V8 24 23 EXCITER BRG V!BRATION l' 701 1 55 040 09 R0022Y PM RMS 153 FUEL P!T BRIDGE (RMS153) l' F01 1 55 040 10 R0025Y. RM RMS 156 -SAMPLE ROOM AREA (RMS156) !. F01 1 55 040 11 R0028Y RM RMS 160 CONTAINMENT CAS (RMS160) p 01- 1 55 040 12 R0031Y RM SS-122 STM GEN BLOWDOWN A (SS122) INFORMATl0N P.. 7 E ONLY p
S0;ti BY CARD LOCAtl0N August 4, 1992 ARD WORD CHANNEL WIT AP SYMBOL INSTRUMENT NUM AP DESCRIPfl0N g jtTION CABINET CONN 56E -. U ............................................................ ........................................................... r01 1 55 040 13 R0034T RM RMS 159 CONTAINMENT PART (RMS159) F02 1 55 041 07 T2565A TE SD 131B DRAIN COOLER 58 DRAIN T F02 1 55 041 08 T25?0A TE CN 1438 COND PMP 1B MTR STATOR T F02 1 55 041 09 10153A SPARE SPARE F02 1 55 041 10 10183A TE/1126 RCP3 SEAL WTR 1 001 F02 1 55 041 11 10417A TE/1131 RCP1 LOWER SEAL WTR BRG T 702 1 55 041 12 T0437A TE/1128 RCP2 LOWER SEAL W1R BRG T F02 1 55 041 13 10457A TE/1125 RCP3 LOWER SEAL WTR BRG T F05 1 55 04U 00 T8002A CALIBRATION VOLTAGE +10V F03 1 55 040 01 YB001A CALIBRATION VOLTAGE 10V F03 1 55 040 02 T8000A CAllBRATION VOLTAGE OV F03 1 55 040 03 Y2001A TB SPEED REFERENCE F03 1 55 040 04 Y2065A P0/V8 18 19 TB BRG 5 vlBRATION F03 1 55 040 05 Y2066A P0/V8 20 19 TB BRG 6 V!BPATION F03 1 55 040 06 Y2067A PD/V8-21 23 GENERATOR BRG 7 VIBRAfl0N F04 1 55 041 00 T2506A TE-CN 144A CONDENSATE PMP 1A SUCTION T F04 1 55 041 01 T2516A TE-CN 1448 CONDENSATE PMP 1B SUCTION T
- 55 041 03 T2502A TE*CN 123 GLAND SEAL CDSR CONDENS IN T F04 F04 1 55 041 03 T2535A TE CN 143C COND PHP 1C MTR STATOR T F04 1 55 041 04 T2542A SPARE F04 1 55 041 05 T2545A SPARE F04 1 55 041 06 T2548A SPARE F05 1 55 042 07 T2475A TE CW 103D 2 TB CDSR 18 CIRC JTR CUT 28 T
,O15 1 55 042 08 T2741A 1-CC TE-1738 PIPE PEN COOLING ColLS (B)
( JS 1 55 042 09 T2751A TE SW-1038 SERVICE WATER PUMP DISCH HDR 2T 35 1 55 042 10 T5645A TE CC 213C CONT No.2 AIR CIRC HX C CV OUT T F05 1 55 042 11 T5656A TE CC 246B RCPB CLNG WTR SPLY HDR T (UNIT 2) F05 1 55 042 12 T0921A SPARE SPARE RfD F05 1 55 042 13 T0731A TE-RS 1578 OUT RECIRC SPRY PP B MTR STR T F06 1 55 043 07 T2492A TE SV-113B SERVICE WTR PMP B MTR STATOR T F06 1 55 043 08 T0414A TE/1417A RCP1 MTR UPPER THRUST BRG T F06 1 55 043 09 T0434A TE/1427A RCP2 MTR UPPER THRUST BRG T F06 1 55 043 10 T0454A TE/1437A RCP3 MTR UPPER THRUST BRG T F06 1 55 043 11 T0089A SPARE F06 1 55 043 12 Y4046A TRANS PANEL GEN VOLTS F06 1 55 043 13 Y4047A TRANS. PANEL GEN AMPS F07 1 55 042 00 T2731A TE-BC-119B BRG CLNG PMP B MTR STATOR T F07 1 55 042 01 T2401A TE CW 102B TB CNONSR 1A CIRC WTR INLET 2 i F07, 1 55 042 02 T2421A TE CW-102D TB CNONSR 1B CIRC UTR INLET 2 T F07 1 55 %2 03 T2431A TE CW 1058 CIRC WTR PHP B MT;I STATOR T F07 1 55 042 04 T2452A TE CW 103A-3 TB CDSR 1A CIRC WTR CUT 1C T F07 1 55 042 05 T2455A TE-CW 1038 2 TB CDSR 1A CIRC WTR CUT 28 T F07 1 55 042 06 T2472A TE CW 103C-3 TB CDSR 18 CIRC WTR CUT 1C T F08 1 55 043 00 T2324A TE-CN 140C FEED VTR PMP 1C SUCT T F08 1 55 043 01 T2332A TE FW 157C FD WTR PMP B INBD MTR STATOR T F08 1 55 043 02 T2335A TE FW-157F FD WTR PMP C OTBD MTR STATOR T F08 1 55 043 03 T2377A TE SD*111C HP HTR DRAIN PMP 1C DISCH T F08 1 55 043 04 T2392A TE SD-132C HP HTR DRN PMP 1C MTR STATOR T 08 1 55 043 05 T2396A T* FW-1598 AUX FD PMP 3B MTR STATOR T Page 8 INFORMATl0N ONLY I
SCAT BY CARD LOCATION August 4, 1992 (GRD AP SYMBOL INSTRUMENT NUM AP DESCRIPTION ( 710N CABINET CONN 56E WORD CHANNEL Bli
.08 1 55 043 06 T2487A TE SW 115 SERV WTR PMP SCREENWELL STATOR T F09 i $$ 044 07 T1052A TE LW 102A LO LEVEL WST TK 3A T F09 1 55 044 08 T2024A TE SD 112B RENTR DRAlW REC TK 18 OUT T F09 1 $$ 044 09 T2040A TE SD 112D RENTR DRAlu REC TK 10 OUT T F09 1 55 044 10 Y4048A SPARE F09 1 $$ 044 11 Y4049A SPARE F09 1 55 044 12 Y4v50A SPARE F09 1 55 044 13 Y4051A SPARE SPARE DC VOLTAGE INPUT F10 1 55 045 07 T4119A SPARE SPARE MA INPUT F10 1 T' 045 08 Y4120A SPARE SPARE MA INPUT F10 1 55 045 09 Y4121A SPARE SPARE MA INPUT F10 1 55 045 10 Y4122A SPARE SPARE MA INPUT F10 1 55 045 11 Y4123A SPARE SPARE MA INPUT F10 1 55 045 12 Y4124A SPARE SPARE MA INPUT F10 1 55 045 13 V4125A SPARE SPARE MA INPUT F11 1 55 044 00 T2803A TE-MS 115C GEN STATOR Coll DISCH GAS 3 T F11 1 55 0/d 01 T2806A TE-MS 115F GEN STATOR C0ll DISCH GAS 6 T F11 1 55 044 02 T2815A TE MS 115J GEN WARM H2 CAS 1 T F11 1 55 044 03 T2822A TE MS 115N EXCITER COOLER AIR IN 1 T F11 1 55 044 04 T7805A TE MS 215 E NO.2 GEN STAT Coll DISCN CAS ST F11 1 55 044 05 T7813A TE MS 215U No.2 GEN STAT Coll DISCH GAS 11T F11 1 55 044 06 T7821A TE MS 215 M NO.2 EXCITER COOLER AIR CUT 2T F12 1 55 045 00 P2010A PT LO 100 TB BRG PMP HDR P 2 1 55 045 01 P2099A SPARE SPARE (A2 1 55 045 02 P2800A ASM-2 MTDROGEN P 2 1 5~ 045 03 P2801A SPARE SPARE F12 1 55 045 04 Y4116A- SPARE SPARE MA INPUT F12 1 55 045 05 Y4117A SPARE SPARE MA INPUT F12 1 55 045 06 Y4118A SPARE SPARE MA INPUT F13 1 55 046 07 Y4052A SPARE SPARE DC VOLTAGE INPUT F13 1 55 046 08 T2807A TE MS 1150 GEN STATOR COIL DISCH GAS 7 T r13 1 55 046 09 T2808A TE MS 115R GEN STATOR COIL DISCH GAS 8 T l F13 1 55 046 10 T2809A TE MS-115$ GEN STATC8t Coll DISCH GAS 9 T I $3 1 55 046 11 T2810A TE-MS 1157 CEN STAf0R C0!L DISCH GAS 10 T l- ) .3 1 55 046 12 T2813A TE MS 1150 GEN STATOR C0ll DISCH GAS 11 T-F;3 1 55 046 13 T2814A TE-MS 115V CEN STATOR Call DISCH GAS 12 7 J06 1 44 043 07 T2018A TE-MS 112A 1 STM CHEST A DEEP STM T
[ J06 1 44 043 08 T2019A TE-MS-112A 2 STM CHEST B DEEP STM T J06 , 1 44 043 09 T2025A TE MS 112N 2 LP TB 2 EXHAUST T J06 1 44 043 10 T2026A TE MS 112L 2 LP TB 2 CYL INLET T J06 1 44 043 11 T2027A COMPUTER RAD AMBIENT T J06 1 44 043 12 T2028A TE-MS-112K 2 LP TB 2 X0VER PIPE T J06 1 44 043 13 T2035A COMPUTER CPU AMBIENT T I J07 1 44 042 00 10710A TE FP-1201 1 FIRE PMP MTR UPR BRG T J07 1 44 042 01 70720A TE-FP 1201 2 FIRE PMP MTR LWR BRG T J07 1 44 042 02 Y4095A SPAnE SPARE T/C IN UT J07 1 44 042 03 T0740A TE RS 158A 1 OT REclRC SPRY PP A MTR RD BRG T J07 1 44 042 04 T0741A TE RS-1588-1 OT RErlRC SPRY PP B MTR RD BRG T 17 1 44 042 05 T0750A TE-RS 158A 2 of RECIRC SPRT PP A MTR TH BRG T Q/ Page , INFORMATl0N ONLY l
~ _ $0'1T BY CARD LOCAfl0N August 4, 1972 ,m .ARD ls 4 BIT AP SYMBOL INSTRUMENT NUM AP DESCRIPT! W ATION CABINET CONN 56E WORD CHANNEL ,07 1 44 042 06 70751A TE RS 1588 2 07 REClRC SPRY PP B MTR TH BRG T J08 1 44 043 00 T2005A TE MS 112N 1 LP TB 1 EXHAUST T J08 1 44 043 01 T2006A TE MS 112L-1 LP TB 1 CYL INLET T JOS 1 44 043 02 T2007A SPARE SPARE J08 1 44 043 03 T2008A TE MS 112K 1 LP TB 1 X0VER PIPE T JOB 1 44 043 04 T2014A TE MS 112C IMPULSE CHAMBER METAL T JOS 1 44 043 05 T2015A TE-MS 112D IMPULSE CHANDER STEAM T J08 1 44 043 06 T2016A SPARE SPARE JO9 1 44 044 07 T20/5A TE CN 146A COND PUMP 1A LUBE OIL RESVR JO9 1 44 044 DS T2076A TE CN 1468 COND PUMP 18 LUBE OIL RESVR J09 1 44 044 09 T2077A TE CN 146C COND PUMP 1C LUBE OIL RESVR J09 1 44 044 10 T2078A SPARE SPARE T/C JO9 1 44 044 11 T2083A TE MS-111A 1 TB THR BRG FR FACE METAL 1 T JO9 1 44 044 12 T2081A TE-MS 111A 2 TB THR BRG FR FACE METAL 2 T l JO9 1 44 G*4 13 T2082A TE MS-111A 3 TB THR BRG FR FACE METAL 3 1 i J10 1 44 045 07 T7080A TE MS 211A 1 No.2 TB THR BRG FR FACE METAL li ;
I J10 1 44 045 08 T7082A TE-MS 211A 3 NO.2 TB THR BRG FR FACE METAL 3T J10 1 44 045 09 T 7*%A TE-MS 2118 1 NO.2 TB THR BRG RR FACE METAL if J10 1 44 045 10 T7086A TE MS 2118 3 NO.2 TB THR BRG RR FACE METAL 31 J10 1 44 04:i 11 Y4096A SPARE SPARE T/C INPUT J10 1 .4 045 12 Y4097A SPARE SPARE T/C INPUT J10 1 44 045 13 T4126A SPARE SPARE T/C INPUT J11 1 44 044 00 T2036A TE-MS 112E HP CYL BASE MID SPAN T 11 1 44 044 01 T2037A TE MS 112F NP CYL COVER MID-SPAN T i 11 1 44 044 02 T2038A TE MS 1128 1 STM CHEST A SHALLOW STM T l 11 1 44 044 03 T2039A TE MS 1128 2 STM CHEST B SHALLOW STM T J11 1 44 044 - 04 T2051A TE MS 111A 5 TB THR BRG FR FACE OIL DRAIN T J11 1 44 044 05 T2052A TE MS 1118 5 TB THR BRG REAR FACE CIL DRAIN T l J11 1 44 044 06 T20$9A TE-MS 112J HP TB BASE 2 GOV. END T J12 1 44 045 00 T2083A TE MS 111A-4 TB THR BRG FR FACE METAL 4 T J12 1 44 045 01 T2084A TE MS 1118-1 TB THR ORG REAR FACE METAL 1 T J12 1 44 045 02 T2085A TE MS 1118-2 TB THR B M REAR FACE METAL 2 T l I J12 1 44 045 03 T2086A TE-MS-1118 3 TB THR BRL REAR FACE METAL 3 7 TE MS-1118 4 TB THR BRG REAR FACE METAL 4 T ( J12 1 44 Ot.5 04 T2087A i J12 1 44 045 05 T2096A TE-MS 112C TB HP CYL COVER GOV. END T I J12 1 44 045 06 T2097A TE-MS 112H TB HP BASE'1 GOV. END T J13 1 44 046 07 T0922A SPARE SPARE T/C i J13 1 44 046 08 T0923A SPARE SPARE T/C l J13 1 44 046 09 10924A SPARE SPARE T/C ( J13' 1 44 046 10 T0925A SPARE $ PARE T/C J13 1 44 046 11 Y4092A SPARE SPARE T/C INPUT J13 1 44 046 12 Y4093A SPARE SPARE T/C INPUT l J13 1 44 046 13 Y4094A COMPUTER ROOM TEMP J14 1 44 047 07 70024A SPARE J14 1 44 047 08 70027A SPARE J14 1 44 047 09 T0030A SPARE , .J14 1 44 047 10 70033A SPARE J14 1 44 047 11 T0036A SPARE ji4 1 44 047 12 T0039A SPARE INFORMTION
~
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50%T BY CARD 1,0 CAT 10N August 4, 1992
,.-.'RD i
BIT 4? SYMBOL INSTRUMENT NUM AP DESCRIPfl0N ( TION CARINET CONN 56E WORD CHANNEL 44 047 13 T0042A SPARE
.e4 1 44 046 00 10045A SPARE J15 1 44 046 01 10048A SPARE J15 1 44 D46 02 70051A SPARE J15 1 J15 1 44 046 03 Y4088A SPARE SPARE T/C INPUT J15 1 44 046 04 Y4089A SPARE SPARE T/C INPUT J15 1 44 046 05 v4090A SPAN! SPARE T/C INPUT J15 1 44 046 06 v4091A SPARE SPARE T/C INPUT 44 D47 00 10003A SPARE J16 1 44 047 01 T0006A SPARE J16 1 44 047 02 T0009A SPARE J16 1 44 D47 03 TL312A SPARE J16 1 44 047 04 T0015A SPARE J16 1 44 047 05 T001CA SPARE J16 1 44 047 06 T0021A SPARE J16 1 K01 023Z03 53 050 08 10612A TY CC 151 EX LTON HX CLNG WTR OUT T K01 023ZO3 53 050 09 F2501Y FQ-CN 107 CONDENSATE PMP'iMCH HOR F 023Z03 53 050 10 P2501A PQ CN-100 CONDENSs.s PMP GCH HDR P K01 i 'J1 023203 53 050 11 P2500A PQ-CN-101A TB CDSR 1A VACLW K01 023ZO3 53 050 12 P2510A PQ CN-101B TB CDSR 1B VACUUM K01 023203 53 050 13 Y2042A SPARE SPARE BOP NUCANA K01 1 53 070 07 V8001A CJB1 RTD 1 53 070 08 V8002A CJB1 RTD1 ,K01 1 / '1 1 53 070 09 V8501A CJB1 RTD3 UNIT 2 1 1 53 070 10 V8502A CJB1 RTD4 UNIT 2 2 023Z10 53 051 07 P2006A PQ MS-110-2 MP TURBINE SHELL 2P K02 023210 53 051 08 T2011A TT MS 102-1 TB MOIST SEPARAT 18 STM OUT T K02 023Z10 53 051 09 T2031A TV MS 102 2 TB MOIST SEPARAT 1D STM OUT T K02 023Z10 53 051 10 T0498A TE MS103 MAIN STEAM SUPPLY HDR T K02 023Z10 53 051 11 T0641A TT NS 100 NEUT SHLD TK COOLER CUT T K02 023210 53 051 12 Y2018A SPARE SPARE DC VOLTAGE INPUT K02 023Z10 53 051 13 Y2019A SPARE SPARE DC VOLTAGE INPUT Lo2 1 53 071 07 T2063A TE-MS 111E-2 TB BRG 3 METAL T K02 1 53 071 08 T2064A TE-MS 111F 2 TB BRG & METAL T K02 1 53 071 09 T2065A TE-MS 111G-2 TB BRG 5 METAL T K02 1 53 071 10 T2066A TE-MS 111H-2 TB CRG 6 METAL T K02 1 53 071 11 T2067A TE MS-111J 2 GEN TB END BRG METAL T K02 1 53 071 12 T2068A TE MS 111K 2 GEN BRG EXCITER !ND METAL T K02 , 1 53 0 71 13 T2069A TE MS 111L-2 EXCITER BRG METAL T K03 023Z03 53 050 00 F0450Y FQ AS 101 AUXILIARY STEAM FLOW K03 023Z03 53 050 01 T0615A TY CC 100 L, WIT 1 CLNG WTR HX DISCH HDR T K03 023203 53 050 02 Y2011A TY CC-167 RECIRC AIR CLNG C0!L OUT T K03 023203 53 050 03 Y2012A TY CC-172 PRI DRN TRANSFER TANK CLR CUT T K03 023203 53 050 04 Y2013A TY MS 111N TB LUBE OlL COOLER Cll OLTT T K03 023Z03 53 050 05 70637A TY*CC 148A RCPA CLNG WTR DISCH HDR T K03 023ZO3 53 050 06 70657A TY-CC 1488 RCPB CLNG VTR DISCH HDR T K03 023Z03 53 050 07 10677A TY :C 148C RCPC CLNG WTR DISCH HDR T K04 023210 53 051 00 P2001A PQ MS-106 TB M0!ST SEPARAT 1A & 1B OUT P Fit 023Z10 53 051 01 P2021A PQ-MS-107 TB HOIST SEPARAT 1C & 1b CUT P U
Page 11 INFORMATION ONLY l
-. .. - - . .. - -- - ~ _ - . - -n-. . . ~ -- -~a-- . ~~-
SORT BY- _ CARD LOCAT]0N August 4, 1992 ? e j { #ARD , AP DESCRIPfl0N
.\ TION CABINET CONN 56E WORD' CHANNEL BIT AP. SYMBOL INSTRUMENT NUM 04 023210 -53 051 C2 P2003A' Po-MS 108A TB RENTR 1A AND 1B SIM IN P - K04 023Z10 53 051 03 P2020A PQ MS 1088 TB RENTR 1C AND 10 STM IN P K04 023Z10 53 051-- 04 ' T20014 TY MS 101 1 TB MolST SEPARAT.1A STM OUT T K04 023Z10 53 051 05 T2021A TY MS 101 2 TB MolST SEPARAT 1C STM OUT T K04- 023Z10 53 051 06 P2005A PQ MS*110 1 HP TURBINE $ HELL 1P K04 1 53 071 00 T2824A TE-MS 117B GEN SEAL OIL AIR SIDE OUT T.
K04 1 53 071 01 T2825A TE MS 117D GEN SEAL clL H2 SIDE OUT T K04 1 53 071 02 T2826A TE MS 117A GEN SEAL CIL AIR SIDE IN 1 K04 1 53 071 03 T2827A TE MS 117C - GEN SEAL Cll N2 SIDE IN T K04 1 53 071 04 Y4077A SPARE . SPARE T/C INPUT K04 53 071 05 .T2061A TE-MS 111C 2 TB BRG 1 METAL T K04 1 53 071 06 T2062A TE MS 1110 2 TB BRG 2 METAL T-K05 023201 52 052 07 Y2036A SPARE SPARE DC. VOLTAGE INPUT K05 - 023Z01 52 052 08 Y2037A SPARE- SPARE BOP NUCANA K05 023Z01 52 052 09 Y2038A SPARE SPARE BOP NUCANA KOS 023Z01 52 052 10 Y2039A SPARE SPARE 80P NUCANA K05 023Z01 52 052 11 Y2040A SPARE SPARE BOP NUCANA K05- 023Z01 52 052 12 Y2041A SPARE SPARE BOP NUCANA K05 023Z01 52 052 13 Y20104 $ PARE SPARE BUP NUCANA K05 1 52 072 07 T2488A TE-SV 116-1 SERV WT PMP SCkEENWELL UP BRG T K05 1 52 072 08 T2489A. TE SW 116 SERV WTR PMP SCREENWELL LO BRG T-K05 1 52 072 09 T2493A TE 5W 114A 1 SERVICE WTR PMP A MTR UP BRG.T' K05 1 52 072 10 T2494A TE SW 114A 2 SERVICE WTR PMP A MTR LO BRG T 3 1 52 072 11 T2495A TE SW 1140-1 -SERVICE WTA PMP B MTR UP BRG T 1 52 0 72 12 T2496A TE SW 1148 2 SERVICE WTR PMP B MTR LO BRG T' , 05 1 52 072 13 Y4057A TE-$0-233C 3 HP HTR DRM PMP 1C MTR UPGD BRG l K06 023207 52 053 07 P2295A PQ4W-158 STE GEN FEED PMPS DISCH NOR P . K06 023Z07 52 053 = 08 -P2000A- PQ MS-102 MAIN STM SUPPLY HDR P K06 023Z07 52 053 09 P2016A PQ C 105A TB MOIST SEPERAT 1A STM IN P ! K06 023207 52 053 10 P2017A PQ MS 1058. TB MolST SEPARAT 1B STM IN P K06 023207 52 053 11 P2018A PQ MS 105C TB MOIST SEPARAT 1C STM IN P K06 023207 52 053 12 P2019A PQ MS 105D TB MOIST SEPARAT 1D STM IN P K06 023Z07 52 053 13 Y2017A SPARE' SPARE DC VOLTAGE INPUT K06 1 52 073 07 '0022A SPARE K06 1 52 0 73 08 T0025A SPARL
, K06 1 52 0 73 09 T0028A- SPARE K06 1 .52 073 10 T0031A SPARE K06 1 52 0 73 11 T0034A- SPARE 52 T0037A SPARE - K06 - 1 0 73 12 K06' 1 52 0 73 13 T0040A. SPARE K07 023Z01 52 052 00 P1000A PQ LM 100A CONTAINMENT IP K07 023Z01 52 052 01 T06354 TE-CC-145A RCPA THERM BARR CLNG WTR CUT T K07 023Z01 52 052 02 T0655A TE CC 1458 RCPB THERM BARR CLNG WTR CUT T-K07 023Z01 52 052 03 T0675A TE CC 145C RCPC THERM BARR CLNG WTR 00T T K07 023201 52 052 04 Y2033A SPARE SPARE DC VOLTAGE INPUT K07 023201 52 052 05 'Y2034A SPARE SPARE DC VOLTAGE'!NPUT K07 023201 52 052 06 T2035A SPARE- SPARE OC VOLTAGE INPUT K07 1 52 072 00 T0043A SPARE
- 1. T0046A-07 52 0 72 01 SPARE
~ Page 12 INFORIMTION .
ONLY w - - - w- wr -v ,-
$02T BY CARD LOCATION August 4, 1"92 1RD Bli AP SYMBOL INSTRUMENT NUM AP DESCRIPTION
( Ail 0N CABINET CONN 56E WORD CHANNEL K07 1 52 072 02 10049A SPARE K07 1 52 072 03 T20$6A TE-CH-1018 1 CHARCE PP.B MOTOR INNER BRG K07 1 52 072 04 T2057A TE-CH 101B-2 CHl.RGE PP.B MOTOR OUTER BRG l K07 1 52 072 05 Y4055A TE SD-233A-3 HP HTR DRN PMP 1A MTR UPGD BRG K07 1 52 .072 06 Y4056A TE SD-2338 3 HP HTR DRN PMP 18 MTR UPGD BRG LP HX 5A SHELL P i K00 023207 52 053 00 P2212A PQ ES 104A K08 023207 52 053 01 P22724 PQ-ES 104B LP HX 58 SHELL P K08 023207 52 053 02 P2202A PQ-ES 105A LP HX 6A SHELL P K03 023207 52 053 03 P2262A PQ ES 1058 LP HX 6B SHELL P K08 023Z07 52 053 04 PO403A PQ FW 100A STM GEN A FEEDWATER IN P K08 023207 52 053 05 P0423A PQ FW-1008 STM CEN B FEEDWATER IN P K08 023207 52 053 06 PO443A PQ FW 100C STM GEN C FEEDWATER IN P 1 K08 1 52 073 00 T0001A SPARE l K08 1 52 073 01 70004A SPARE l l K08 1 52 073 02 70007A SPARE K08 1 52 073 03 T0010A SPARE l K08 1 52 073 04 70013A SPARE K08 1 52 073 05 10016A SPARE K08 1 52 073 06 T0019A SPARE K09 023Z16 53 054 07 F2547Y SPARE K09 023Z16 53 054 08 P2504A SPARE K09 023Z16 53 054 09 P2503A SPARE A 09 023Z16 53 054 10 L2504A LQ-SD illa DRAIN RCVR 2A L 9 023Z16 53 054 11 L2514A LQ-SD-111B DRAIN RCVR 2B L 09 023Z16 53 054 12 L2524A LQ SD-111C MSR DRAIN RCVR L J9 023Z16 53 054 13 Y2032A SPARE SPARE DC VOLTAGE INPth K09 1 53 074 07 - T2700A TE BC 118A-1 BRG CLNG PMP A MTR INBD BRG T K09 1 53 074 06 T2701A TE BC 118A-2 BRG CLNG PMP A MTR CUTBD BRG T K09 1 53 074 09 T2710A TE BC-1188*1 BRG CLNG PMP B MTR INBD BRG T K09 1 53 074 10 T2711A TE BC-1188 2 BRG CLNG PMP B MTR OUTBD BRG T K09 1 53 074 11 Y4074A SPARE SPARE T/C INPUT K09 1 53 074 12 Y4075A SPARE SPARE T/C INPUT K09 1 53 074 13 Y4076A SPARE SPARE T/C INPUT K10 1 53 075 07 70023A SPARE K10 1 53 075 08 T0026A SPARE K10 1 53 075 09 T0029A SPARE K10 1 53 075 10 T0032A SPARE K10 1 53 075 11 70035A SPARE K10 1 53 075 12 T0038A SPARE K10 1 53 075 13 T0041A SPARE K11 023Z16 53 054 00 P2215A PQ-SD 108A HP HTR DRAIN PMP 1A DISCH P K11 023216 53 054 01 P2265A PQ SD 1088 HP HTR DRAIN PMP 18 DISCH P K11 023Z16 53 054 02 P2325A PQ-SD 108C HP HTR DRAIN PMP 1C DISCH P K11 023Z16 53 054 03 P2506A PQ-50-133A LP HTR DRN PMP 2A DISCH P K11 023216 53 054 04 P2566A PQ SD-1338 LP HTR DRN PHP 28 DISCH P K11 023216 53 054 05 F2545Y SPARE K11 1 53 074 00 T0044A SPARE K11 1 53 074 01 T0047A SPARE 11 1 53 074 02 T0050A SPARE u/ INFORMATION ONLY
~
Page 13 l l
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$C3T BY CARD LDCATION:
August 4? 1972 DN ~ CABINET CONN $6E WORD CHANNEL' BIT AP SYMBOL INSTRUMENT NUM AP DESCRIPTION 611 1 53 074- 03 Y4070A SPARE SPARE T/C INPUT K11. 1- 53 074 04 Y4071A. $ PARE SPARET/CINPUTb ;
- K11. 1 53 074 05 V4072A $ PARE SPARE T/C INPUT Kit - 1 53 074 06' v4073A SPARE SPARE T/C INPUT K12 1- 53 0 75 00. T0002A $ PARE ' K12 1 53 0 75 01 T0005A SPARE . K12 1 53 075 02 70008A SPARE K12 1 53 0 75 03 T0011A $ PARE K12- 1 53 075 04 T0014A $ PARE 'K12 1 53 0 75 05 T0017A SPARE ' K12 1 53 075 06 T0020A -SPARE K13 023214 52 056 07 F2014Y FO SD 105A TB RENTR 1A DRAIN F ~ K13 023Z14 52 056 08 F2015Y FQ SD 105B TB RENTR 1B DRAIN F K13 023214 52 056 09 F2016Y FQ SD 105C TB RENTR 1C DRAIN F K13 023Z14 52 056 10 F2017Y FQ SD-105D TB RENTR 10 DRAIN F K13 023Z14 52 056 11 P2203A PQ $D*100A HP HX 2A DRAIN RCVR TK P:
K13 023214 52 056 12 P2263A PQ SD 1000 HP HX 2B DRAlW RCVR TK P K13 023214 52 J56 13 P2323A PQ+50 100C MotST SEPARAT DRAIN RCVR TK P -
. K13- 1 52 076 07 T2447A TE CV 1048 3 CIRC WTR PMP B MTR L0 GD BRG T K13- 1 ~ 52 076 08 T2448A TE CW 104C-3 CIRC WTR PMP C MTR LO GD BRG T-K13 1 52 076 09 .T2681A TE CW 1040 1 CIRC WTR PMP D MTR UP THR BRG T' K13' 1 52 076 10 T2682A TE CW-1040 2 CIRC WTR PMP D MTR UP GD BRG T '13. 1 52 076 11 .T2683A TE-CV 1040 3 CIRC WTR PMP D MTR LO GD BRG T 3 1 52 076 12 V4058A TE-CN 102A 1- CHARGING PMP 1A PMP INBD BRG T.
3 1 52 C76 13 Y4059A -TE CH-102A 2 CHARGING PMP 1A PMP OTBD BRG T 5 52 056 00 F2203Y FQ SD 100A HP HTR ORAIN PMP 1A DISCH F K13 023214 52 056 01 F2263Y FO so 1000 'HP HTR ORAIN PMP 18 DISCM F
- K15 023Z14 52 056 02 F2323Y FQ SD 100C HP HTR DRAIN PMP 1C DISCH F K15- 023Z14 52 056 03 F2506Y FG SD-101A- LP HTR DRAIN PMP 2A Di$CN F K15.. 023214 52 056 04 F2566T FQ SD 101B .LP HTR DRAIN PMP 28 DISCH F K15 023214 52 056 05 F2253Y Fo SD 102A HP HX 1A ORAIN F K15 023Z14 52 056 06 F2313T FO sD 1028. HP HX 18 DRAIN F K15' 023Z16 53 054 06 . F2542Y SPARE 'K15 1 52 076 00 = T2435A .TE CW 104A 1 CIRC WTR PMP A MTR UP THR BRG T K15 1 52 076 01 T2436A TE CW-1048 1 CIRC WTR PMP B MTR UP THR BRG T -
K15 1 52 076 02 T2437A TE CW 104C 1 CIRC WTR PMP C MTR UP THR BRG T K15 '1 52 076 03' T2438A TE CW 104A 2 CIRC VTR PMP A MTR UP GD BRG T ' K15 .1 52 076 04 T2439A TE*CW-1048 2 CIRC WTR PMP B MTR UP GD BRG T:
- K15 , i 52 076 05 T2440A TE CW 104C 2 CIRC WTR PMP C MTR UP GD BRG T K15 1 52 076 06 T2446A TE CW 104A-3 CIRC WTR PMP A MTR L0 GD BRG T LC1- 023YD3 47 060 07 Y9028A SPARE NUCANA. INPUT--
LO1 023YO3 47 060 08 -Y9029A SPARE NUCANA INPUT
.LO1 023YO3 47 060 09 F0441Y FD/1435 RCL3 2 F . LO1 023T03 47- 060 10 .Lo401A- LD/1475 STM GEN 1 NAR RNC 2 L L LO1 023YO3 47 060 11 LO421A LD/1485 STM GEN 2 NAR RNG 2 L l~ LO1 023YO3 47 060 12 LO441A . LD/M95 STM GEN 3 NAR RNG 2 L LO1- -023YO3 47 060 13 LO481A LD/1460 PRESSURIZER 2 L LO2 -023Y10 47 061 02 T0480A TD/1453 2 PRESSURIZER WTR T 2 023Y10 47 061 09 P0142A PD/1121 CHARG PMP DISCH HDR P Page 14-INFORioATION ONLY u _ _ _ _ _
,e, , . .. --. -- . . - - . . - . - . . - - . ..- - .. - - - - . . . .
SORT BY
~
CARD LOCAfl0N August 4, 1992'
'# RD . . TION CABINET CONN 56E' WORD -CHANNEL BIT AP SYMBOL INSTRUMENT NUM 'AP DESCRIPTION 602 -- 023Y10 47 061 10 Y9031A SPANE NUCANA JNPUT-LD2 :023Y10' 47 061= 11. .F0110A FD/1113A BORIC ACID TO BLEND SYSTEM F 4 LO2 023T10 47 061 12 F0111A FD/1114A PR GRADE V FLOW TO BLEND SYS LO2 023Y10. 47 061 13 P0139A PD/1117 VOLUME CONTROL TANK P LO3 023YO3 47 060 00 10426A 10/1420 RCL2 WIDE RNG COLD LEG T , LO3 - 023YO3 47 060 01 F0401Y F0/1415 RCL1 2 F LO3 . 023YO3 47 060 02 (0421Y FD/1425 RCL2'2 F ,
LO3 023Y03 47 060 03 Y9027A SPARE huCANA INPUT LO3 023YO3 47 060 04 T0427A TD/1422B RCL2 OVERPWR DT 1 SP LO3 023YO3 47 060 05 T0430A 70/1422C RCL2 OVERTEMP DT 1 SP . LO3 ' 023YO3 47 060 06 PO481A P0/1456 PRESSURIZER 2 P LO4 023Y02 47 061 00 Y9030A' SPARE NUCANA INPUT
~ LO4 - 023YO2 47 061 01 10439A TD/1423 RCL2 WlDE RNG HOT LEG T +
LO4 023YO2 47 061 03 Y9032A SPARE NUCANA INPUT LD4 023YD2 47 061 04 Y9033A SPARE NUCANA.lWPUT LO4 023YO2 47 061 05 Y9034A SPARE NUCANA lNPUT l LO4 023YD2 47 061 06 Y9035A SPARE NUCANA INPUT
' LO5 023Y05 46 062 07 F0423Y FD/14878 STM GEN 2 FEED WTR IN 1 F
!- LOS 023YO5 46 062 08 F0425Y FD/1484B STM GEN 2 STM OUT 1 F LOS 023YO5 46 062 09 P0398A PD/1446 TB FIRST STAGE 1 P LOS 023YO3 46 062 10 F0403Y FD/14778 STM GEN 1 FEED WTR IN 1 7 LO5 023Y05 46 062 11 F0405Y FD/14748 STM GEN 1 STM OUT I F
%03 - 023YO5 46 062 12 79039A SPARE NUCANA INPUT 5 023YO5 46 062 13 Y9040A SPARE NUCANA INPUT 06 - 023Y01 46 063 07 F0400Y FD/1414 RCL1 1 F 6 023YO1 46 063 08 F0420Y FD/1424 RCL2 1 F LO6 023Y01 46 063 09 F0440Y FD/1434 RCL3 1 F LO6 023Y01 46 063 10 T0419A -TD/1413 RCL1 WIDE RNG HOT LCG T LO6 023YO1 46 - 063 11 70407A TD/14128 RCL1 DVERPWR DT 1 SP.
LO6 OZ3Y01 46 063 12 70410A 'TD/1412C RCL1 OVERTEMP DT 1 SP
-LO6 023Y01 46 063 13 Y9041A SPARE NUCANA INPUT LO7 023YO4 46 062 00 T0406A TD/1410 RCL1 WIDE RNG COLD LEG T LO7 023YO4 46 062 01 Y9036A SPARE NUCANA INPUT LO7 .. 023YO4 46 062 02 Y9037A SPARE NUCANA INPUT LO7 023YO4 46 062 03 Y9038A- ! SPARE NUCANA INPUT LO7 023YO4 46 062 04 PO400A P0/1474 STM GEN 1 STM OJT 1 P - LO7 023YO4 46 062 05 PC420A P0/1484 STM GEN 2 STM OUT 1 P -
LO7 023YO4 46 Ot2 06 PO440A PD/1494 STM GEN 3 STM OUT 1 P LO8 , 023YO1 46 063 00 LO400A LD/1474 'STM CEN 1 NAR RNG 1 L LOS 023Y01 46 063 01 LO420A LD/1464 STM GEN 2 NAR RNG 1 L
- LO8 -' 023Y01 46 063 02_ 70403A TD/1412A RCL1 1 DT - LO8 023YO1 46 063 03 T0400A TD/1412D' RCL1 1.TAVG - LO8 023T01 46 063 04 LO440A LD/1494 STM GEN 3 NAR RNG 1 L L08 023YO1 46 063 05 -LO480A LD/1459 PRESSURIZER 1 L 'LO8 023Y01 46 063 06 P0480A P0/1455 PRESSURIZER 1 P-LO9 023Y11 47 064 10 P0127A FE1124 RCP3 SEAL WTR'INJ FLOW LO9 023Y11 47 064 11 L0423A LD/1487 STM GEN 2 WIDE RNG L LO9 023Y11 47 064 12 Y9042A SPARE NUCANA INPUT N 023Y11 47 064 13 PO484A PD/1445A PRESSURIZER 5 P Pese 15 INFORMATION-ONLY
502T BY CARD LDCATIDN August 6, 1992 GARD AT10N CABlWET CONN 56E WORD CHANNEL Bli AP SYMBOL INSTRUMENT NUM AP DESCRIPT1Dh L10 023Y12 47 065 07 Y9047A SPARE NUCANA INPUT L10 023Y12 47 065 08 TD422A 70/1421 P.CL 2 NAR RANG TCOLD L10 023Y12 47 065 09 704D4A T0/14118 RCL1 2 DT L10 023Y12 47 065 10 TD401A TD/1411A RCL1 2 TAVG L10 023Y12 47 065 11 TD497A TD/1409 RCL HIGHEST DT(AUCTIDNEER) L10 023Y12 47 D65 13 TD402A TD/1411 RCL 1 NAR RANG TCOLD L11 023YO6 47 064 00 F D445Y FD/14948 STM GEk 3 STM OUT 1 F L11 023YD6 47 0 64 01 PD401A PD/1475 STM CEN 1 STM OUT 2 P L11 023YD6 47 064 02 PD421A PD/1485 STM GEN 2 STM DUT 2 P L11 023YD6 47 064 03 PO441A PD/1495 STM GEN 3 STM OUT 2 P L11 023YO6 47 064 04 TD443A TD/1432A RCL3 1 DT L11 023YD6 47 064 05 TD440A 70/14320 RCL3 1 TAVG L11 023YO6 47 064 06 F D443Y FD/14978 STM GEN 3 FEED WTR IN 1 F L12 023YO7 47 065 00 Y9043A SPARE NUCANA INPUT L12 023YO7 47 065 01 Y9044A SPARE NUCANA INPUT L12 023YO7 47 065 02 Y9045A SPARE NUCANA INPUT L12 023YO7 47 065 03 P0399A PD/1447 TB FIRST STAGE 2 P L12 023YO7 47 D65 04 F D404Y FD/14768 STM GEN 1 FEED WTR IN 2 F L12 023YO7 47 065 05 FD4D6Y FD/1475B STM GEN 1 STM OUT 2 F L12 023YD7 4T D65 06 Y9G46A SPARE NUCANA INPUT L13 023Y12 46 066 07 PD483A PD/1444A PRES $URIZER 4 P L13 023Y12 46 066 D8 F0483A PD/14448 PRESSURIZER SPRAY CONT 1 DEMAND
-113 023Y12 46 D66 D9 F0484A PD/1444C PRESSURIZER SPRAY CONT 2 DEMAkD f\ 3 '.13 023Y12 023Y12 46 46 D66 D66 10 11 TD421A TD499A TD/14214 70/1408 RCL2 2 TAVG RCL HIGHEST TAVG(AUCT!DNEER) l 13 023Y12 46 066 12 TD442A TD/1431 RCL 3 NAR KANG TCOLD l
L13 023Y12 46 D66 13 Y9048A SPARE NUCANA INPUT l L14 PD498A PD/1403 RCL SYSTEM 1P L14 023Y11 46 D67 Do Y9050A SPARE MUCANA INPUT L14 023Y11 46 D67 09 Y9051A SPARE NUCANA INPUT L14 023Y11 46 D67 10 Y9C52A SPARE NUCANA INPUT L14 023Y11 46 067 11 Y9053A SPARE NUCANA INPUT L14 023Y11 46 067 12 Y9054A SPARE NUCANA INPUT L14 023Y11 44 D67 13 Y9055A SPARE KUCANA INPUT l l L15 023YD8 46 D66 03 P0131A FE1130 RCP1 SEAL WTR INJ FLOW l L15 023YDa 46 066 D4 LO112A LD/1115 VOLUME CONTROL TANK L ! L15 023YD8 46 066 05 T0126A TD/1123 REGENER HX CHARG OUT T l L15 023Y08 46 066 D6 T0127A TD/1140 RECENER NX LETDOWN OUT T L16 OZ3YD9 46 D67 D3 P0129A FE1127 RCP2 SEAL WTR INJ FLOW L16 023YO9 46 067 D4 F0134Y FD/1150 LETDOWN HX LETDOWN OUT F L16 023YD9 46 067 05 L D403A LD/1477 STM GEN 1 WIDE RNG L L16 023YC7 46 067 06 F0128Y FD/1122 CHARG PMP DISCH HDR F M01 023Y02 51 040 07 TD459A 10/1433 RCL3 WIDE RNG HO) LEG T M01 023Y02 51 D40 08 Y9005A SPARE NUCANA INFUT Mot 023YD2 51 D40 09 Y90D6A SPARE NUCANA INPUT M01 023YO2 51 D40 10 Y9007A SPARE NUCANA INPUT M01 023Y02 51 040 11 Y9008A SPARE NUCANA INFUT M01 023YO2 51 040 12 Y9009A SPARE NUCANA INPUT
/'~*(11 023YO2 51 D40 13 Y9010A SPARE NUCANA INPUT (v)
Page 16 INFORMTION (314LY
SORT BY= CARD LOCATION _. Augusf.6,-1992 l PARD .
,! 4T10N CABINET CONw 56E WORD CHANNEL BIT - AP SYMBOL -INSTRUMEN1 NUM AP DESCRIPil0N ' ~ ......................................................................................................................... , 01 1 -- 54 040 07 *0025A , CONT R00 BNK D GROUP 1.POS N02- ' M01 - 1 54 040 - 08 C0028A CONT ROD BWK D GROUP 1 POS P08 - K01_ 1 54 040 09 C0031A . CONT A00 BNK D GROUP 2 POS K10 001 1 54 040 10 C0035A C ROD BNK A GROUP 1 POS J13 -~
Moi- 1 54 040 11 C0038A SD R00 BNK A. GROUP 2 POS C07 M01 1 54 040 12 C0041A ~ SD K^A BNK $ GROUP 1 POS EDS M01 1 54 040 13 .C0044A SD ROD BNK $ GROUP 1 POS LOS
~ M02 .023YO4 51 041 07 10446A TD/1430 RCL3 WIDE RNG COLD LEG T M02 023Y04 51 041 08 TD443A TD/1422A RCL2 1 DT N02 023YO4 51. 041 09 T0420A T0/1422D RCL2 1 TAVG N02 023YD4 51 041 10 Y9011A SPARE NUCANA INPUT M02 023Y04 51 041 11 Y9012A SPARE NUCANA INPUT 1 M02 023YO4 51 041 12 Y9013A SPARE NUCANA INPUT - M02 023YO4 $1 041 13 Y9014A SPARE NUCANA INPUT N02 1 54 041 07 C5031A CONT R00 BNK D ib 2 POS K10 UN 2 M02 1 54 041 09' V4034A SPARE =$ PARE FOR PASTR COMMON M02 1 54 041 10 Y4035A SPARE SPARE FOR PASTR*CCMMON M02 1 54 041 11 L5480A LD/2459 PRESSURIZER 1 L (Uwli 2) i M02 1 54 041 12 T5440A T0/24320 RCL3 1 TAVG (UNIT 2)'.
M02~ 1 54 041- 13 T5443A TD/2432A RCL3 1 DT (UNIT 2) M03 023T10 51 040 00 T0482A- TD/1450 PRESSURIZER SURGE LINE T ,
- M03 023Y10 51 040 01 T0630A TE RH 1604 RESIDUAL HEAT PMP 1 DISCH T 023Y10 51 040 c2 Y9000A SPARE NUCAMA INPUT
_-fM03 ' f 13 - 023Y10 51 040 03 19001A SPARE NUCANA INPUT-
- 03 023T10 51 040 04 19002A SPARE NUCANA INPUT 13 023T10 51 040 05 Y9003A SPARE NUCANA INPUT MO3 023T10 51 040 06 Y9004A SPARE NUCANA INPUT M03 1- 54 040 00 C0003A CONT R0D BNK A GROUP 1 POS K14 M03 1 54 040 01 C0006A CONT ROD BNK A GROUP 2 POS 806 -
M03 1 54 040 02 C00094 CONT ROD BNK B GROUP 1 POS F04 M03 - 1 54 040 04 C0012A CONT RCD BNK B GROUP 1 POS M06 M03 1 54 040 04 .C0015A CONT R00 BNK B GROUP 2 POS F12 ( 03 1 54 040 05 C0019A CONT ROD BWK C GROUP 1 POS M12 M3 1 54 040 06 C0022A CONT ROD BNC C GROUP 2 POS F08 M04 .023Y13 51 041 00 PO496A PD/1464 5TM LINE HOR 1 P M04 023Y13 51 041 01 LO483A TD/1459 PRES $URIZER LVL CONTROL'SP
- M04 023Y13 51 041 02 LO4434 LD/1497 -STM CEN 3 WIDE RNG L N04 023Y13 51 041 03 T0424A 70/14218 RCL2 2 DT M04 , 023Y13 51 041 04 70441A TD/1431A RCL3 2 TAVG - M04 023Y13 51 041 05 70496A TD/1408F RC TREF I
M04 023Y13 51 041 06 T0444A - TD/14318 RCL3 2 DT
- M04 1 54 041 00 C0047A SO ROD BNK B GROUP 2 POS JO9 M04 1 54 041 01 C0062A PL ROD BNC A GROUP 1 POS M12 M04- 1 54- 041 02 C5019A CONT RCD BNK C GR 1 POS M12 UN 2 M04 - 1 54 041 03 C5022A- CONT R00 BNK C GR 2 POS F08 UN 2 M04 L 1 54 -041 04 C5025A ' CONT R00 BNK D GR 1 POS H02 UN 2
.M04 1 54 041 05 C5027A CONT RCD BNK 0 GR 1 POS W14 UN 2 L. M04 - 1 54 041 06 C5029A CONT R00 BNK D GR 2 POS F06 UN 2 l@iNIM l' d 023YO5 51 042 07 Y9016A ONLY Page 17
SORT BY CARD LOCATION August 4, 1992 [ D RD (.
.floN CABINEs CONN 56E WORD CHANNEL BIT AP SYMBOL INSTRUMENT NUM AP DESCRIPTION d05 023YD5 51 042 08 Y9017A SPARE NUCANA INPUT MO5 023Y05 51 0 42 09 Y9018A SPARE NUCANA INPUT PRESSURI2ER 3 P I K03 023YO5 51 042 10 PO482A PD/1457 1 M05 023Y05 51 042 11 LO422A LD/1486 STM GEN 2 NAR RNG 3 L l M05 023Y05 51 042 13 LO482A LD/1461 PRESSUR?tER 3 L l M05 1 54 042 07 N0063A TE LM 200-6 CONTAINM 5 NT AIR 6 TEMP (UNIT 2)
MOS 1 54 042 08 N0079A SPARE SPARE , 1 MOS 1 54 042 09 N0087A SPARE SPARE l 005 1 54 042 10 N0002A IN CORE MOVABLE DETECTOR B FLUX MOS 1 54 042 11 N0005A IN CORE MOVABLE DETECTOR E Flux ! M05 1 54 042 12 44036A SPARE . SPARE FOR PASTR COMMON l MOS 1 54 042 13 v2811A 500 KV BUS VOLTAGE M06 023Y07 51 043 07 F0426Y FD/1485B STM GEN 2 STM OUT 2 F 506 023Y07 51 043 06 F0444Y FD/14968 STM GEN 3 FEED WTR IN 2 F l M06 023YO7 51 043 09 70446Y FD/14958 STM GEN 3 STM CUT 2 F i M06 023YO7 51 043 10 P0402A P3/1476 STM GEN 1 STM OUT 3 P K06 023Y07 51 043 11 PO422A PD/1486 STM GEN 2 STM OUT 3 P C06 023YO7 51 043 12 PO442A P0/1496 STM GEN 3 STM OUT 3 P K06 02IYO7 51 043 13 F0424Y FD/14868 STM GEN 2 FEED VTR IN 2 F MCS
, 54 043 07 N5046A NM/2430 PWR RNG 3 BOT DETECTOR Q (UNT 2)
M06 1 54 043 08 N5051A NM/243F PWr RNG CHANNEL 3 0 (UNIT 2) M06 1 54 043 09 N5052A NM/244F PWR RNG CHANNEL 4 Q (UNIT 2) 1 54 043 10 Y0001A SPARE [go6ps 1 54 043 11 P1001A PQ LM 1008 CONTAINMENT 2P U.06 1 54 043 12 F2243Y FT SD-110A LP MX 6A DRAIN F M 1 54 043 13 F2303Y FT SD 110B LP HX 68 DRAIN F M07 023YO6 51 042 00 F0402Y FD/1416 RCL1 3 F M07 023YO6 51 042 01 F0422Y FD/1426 RCL2 3 F M07 023YO6 51 042 02 F0442Y FD/1436 RCL3 3 F N07 023YO6 51 042 03 LO402A LD/1476 STM GEN 1 NAR RNG 3 L M07 023YO6 51 042 04 T0447A TD/14328 RCL3 OVERPWR OT 1 SP l M07 023YO6 51 042 95 70450A TD/1432C RCL3 OVERTEMP DT 1 SP M07 023YO6 51 042 06 Y9015A TD/451-1 PRESSURIZER VTR T MOT 1 54 042 00 N0088A SPARE SPARE I M07 1 54 042 01 N0080A MT LM-200-6 CONTAINMENT DEWPY 6T (UNil 2) M07 1 54 042 02 N0061A TE LM 200-4 CONTAINMENT AIR 4 TEMP (UNIT 2) M07 1 54 042 03 N0077A TE LM 200-20 CONTAINMENT AIR 20 TEMP (UNIT 2) l M07 1 54 042 04 N0085A SPARE SPARE N07 1 54 042 05 N0090A SPARE SPARE l- M07 1 54 042 06 N0082A MT LM 200-3 CONTAINMENT DEWPT 1T (UNIT 2) M08 023Y13 51 043 00 f9019A RC 1490 RfD BYPASS FLOW LOOP 1 MC3 023Y13 51 043 01 Y9020A RC 1491 -RTD BYPASS FLOW LOOP 2 i M08 023Y13 51 043 02 Y9021A RC 1492 RTD BYPASS FLOW LOOP 3 MC3 023Y13 51 043 03 Y9022A L1462 COLD PRESSURI2ER LEVEL MOS 023Y13 51 043 04 Y9023A SPARE NUCANA INPUT N08 023Y13 51 043 05 Y9024A SPARE NUCANA INPUT M08 023Y13 51 043 06 Y9025A SPARC NUCANA INPUT [ MOS 1 54 043 00 N0032Y NM32F SOURCE RNG DETECTOR 2 LOG Q I C38 1 54 043 01 N0035Y NH35B INTERM RNG CETECTOR 1 LOG Q \ \v* INFORMATION Page 18 Om l
, .~ - - _- - - . - . . - , . ~~ . -
SORT BY-- CARD LOCAT10N August 4 1992 _ 7 08 - 1 54 043 02 N0045A NM/143C ~ PWR RNG CH 43 (0UAD 1) 10P DET C n08 > 1 54 043 03 N0046A NM/143D PWR RNG CH 43 (0UAD 1) 80T DET 0 MOS 1 54 043 04 N0051A NM/143F PWR RNG CHANNEL 3 0-MOS 1 54 - 043 05 N0052A N4/144F PVR RNG CHANNEL 4 0 MOS 1 54 .043 06 N50454 NM/243C PWR RNG 3 TOP DE*ECTOR 0 (UNT 2) K09 023Y08 51 044 07 T0485A TD/1471 -PRESSURIZER RELIEF TANK T i
$;09 023Y08 51 U44 08 PO499A PD/1402 -RCL SYSTEM 3P M09 023Y08 _51 044 09 LO485A LD/1470 PRESSURIZER RELIEF TANK L -j M09 023Y08' 51 044 10 P0485A PD/1472 PRES $URIZER RELIEF TANK P M09 023Y08 51 044 11 70483A TD/1451 PRESSURIZER SPRAY WTR A IN T M09 023Y08 51 044 12 70484A TD/1452 PRESSUR!ZER SPRAY Wik 8 IN T-M09 023Y08 51 044 13 Y9026A SPARE NUCANA INPUT N09 1 54 044 07 Y4041A '$ PARE . SPARE DC VOLTAGE INPUT M09 1 54 044 08 F2505Y FT SD 109A DRAIN C00LER 5A DRAIN F N09 1 54 044 09 F2550Y SPARE i ' M09 1 54 044 10 F2551Y SPARE l M09 1 54 044 11 F2552Y SPARE M09 1 54 044 12 F2553Y SPARE i M09 1 54 044 13 F2565Y FT SD 1098 DRAIN COOLER 58 DRAIN F l M10 023YO9 51 045 07 T0481A TD/1454 PRESSURIZER STM T l
M10 023YO9 51 045 08 T0627A TE-RH 1606 RESIDUAL HX OUT LOOP 1 7 811 0 023YO9 51 045 09 70626Y FD/1605 RESIDUAL HX HDR F
' si10 023Y09 51 045 10 10145A 7D/1144 LETDOWN HX LETDOWN CONTROL OUT T-0 023YO9 51 045 11 T0122A TD/1139 EXCESS LETDOWN HX LETDOWN OUT T ta0 023YO9 51 045 12 P0135A P0/1145 LETDOWN HX LETDOWN OUT P 10 023T09 51 045 13 70140A TD/1116 VOLUME CONTROL TANK T M10 1 54 -045 07 T2273A- TE SD 1058 LP HX $8 DRAIN T M10 1 54 045 08 T2278A TE CN 1458 LP HX 48 CONDENS OUT T M10 1 54 ' 045 09 T2283A- TE SD 1048 LP HX 48 DRAIN T M10- 1 54 045 10 T2293A TE-SD 1088 LP HX 38 DRAIN T M10 - 1 54 045 11 T2302A TE ES 1028 HP XX 28 STM T' M10 1 54 045 12 T2305A TE ES 1018' HP HX 18 STM T l
L ' M10 1 54 045 13 T2312A TE SD 1108 HP HX 18 DRAIN T M11- 1 54 044 00 F5443Y FD/24978 STM GEN 3 FEED WTR IN 1 F (UN 2) M11' 1 54 044 01 L5420A LD/2484 STM GEN 2 NAR RNG 1 L (UNIT 2) M11 1 54 044 02 P5443A PC FW 200C GTM GEN C FEEDWATER IN P (UNIT 2) M11 1 54 044 03 Y4037A SPARE SPARE FOR PASTR-C0hMON M11 1 54 ' 044 04 Y4038A RSS A RSS XFMR A OVERLOAD M11, 1 54 044- 05 Y4039A RSS 8 RSS XFMR 8 OVERLOAD Mit 1 54 044 06 Y4040A EP RST C -RSS XFMR C OVERLOAD-M12 -1 54 045 00 T2203A TE SD 113A LP HX 6A DRAIN T M12 - 1 54 045 01 -T2213A TE SD 105A LP HX 5A DRAIN T f M12 1 54 045 02 T2223A TE SD-104A LP HX 4A DRAlW,7 I M12 - 1. 54 045 .03 T2233A TE SD-108A LP HX 3A DRAIN T __M12 1 54 045 04 T2242A TE SD-109A HP HX 2A DRAIN T M12- 1 54 045 05 T2252A TE-ES 101A HP HX 1A STM T M12 1 54 045 06 T2263A TE SD-1138 LP HX 68 DRAIN T l M13 023205 51 046 07 P2508A- PQ ES 101B FLASH EVAP RECIRC HTR IN 2 P 3- 023Z05 51 046 08 P2222A. PC ES 102A LP HX 4A STM P INFORIAATION Page 19 ONLY L
SC2T BY CARD LOCATION August 4, 1992
/'
k ,j/_RD nTIDN CABINET C0=W 56E WORD CHANNEL Bif AP SYMBOL INSTRUMENT NUM AP DESCRIPflDN d13 023205 51 046 09 P2282A PQ ES-1028 LP MX 45 STM P M13 023205 51 046 10 P2223A PQ-ES 103A LP MX 3A STM P M13 023205 51 046 11 P2292A PQ ES-1038 LP MX 38 STM P M13 023205 51 04 6 12 Y2015A L1-DG 101 PRIMART DRAlWS TRANS. TANK LEVEL M13 023205 51 046 13 Y2016A SPARE SPARE DC VOLTAGE INPUT mil 1 54 D46 07 T0653A TE CC 144B RCPB LODRG LO MX CLNG W1R DUT T M13 1 54 D46 08 T0656A TE-CC 1468 RCPB CLNG WTR SUDPLY HDR T M13 1 54 046 09 TD662A TE CC 157A NEUT SHLD TK HX A CLNG WTR OUT T M13 1 54 046 10 10666A TE-NS 1018 NEUT SHLD TK COOLER OUT 2 i M13 1 54 D46 11 TD674A TE CC 140C RCPC SHROUD HX CLNG WTR DUT T x13 1 54 D46 12 TD682A TE CC-143C RCPC STATOR CLNG WTR DUT T2 x13 1 54 046 13 T0696A TE RM 1008 RHR PP 5 MTR STATOR T M14 023212 51 047 07 Y2025A SPARE SPARE DC VOLTAGE INPUT M14 023Z12 51 D47 08 Y2026A SPARE SPARE DC VOLTAGE INPUT n14 023212 51 D47 09 Y2027A SPARE SPARE DC VOLTAGE INPUT M14 023Z12 51 047 10 Y202SA SPARE SPARE DC VOLTAGE INPUT M14 023Z12 51 D47 11 Y2029A SPARE SPARE DC VOLTAGE INPUT M14 023212 51 047 12 Y2030A SPARE SPARE DC VOLTAGE INPUT M14 023Z12 51 94 7 13 Y2031A SPARE SPARE DC VOLTAGE INPUT M14 1 54 047 07 T1045A MT-LM-100 5 CONTAINMENT DEWPT ST M14 1 54 D47 08 11D49A TE HV 1225 C SHROUD C AIR CUT T n14 1 54 047 09 16049A TE HV 2225 C SHROUD C AIR OUT T (UNIT 2) 54 047 10 Y4D42A SPARE SPARE DC VOLTAGF INPUT g .q14 1 ( A4 1 54 047 11 Y4043A SPARE SPARE DC YOLTAGE INPUT
\ -i14 1 54 D47 12 Y4044A SPARE SPARE DC VOLTAGE INPUT 14 1 54 047 13 V4045A SPARE SPARE DC VOLTAGE INPUT 215 023205 51 046 00 P2244A PQ CN 150A FEED WTR PMP 1A SVCTION P M13 023205 51 D46 41 P2245A PQ CN-tSOS FEED WTR PMP 18 SUCTION P A15 023Z05 51 046 D2 P2246A PQ-CN-150C FEED WTR PMP 1C SUCTION P MIS 023205 51 046 03 F1000A FIT-CV-150 SPARE ~
M15 023205 51 046 04 P2250A PQ ES 100A HP HX 1A STM P 15 023Z05 51 046 05 PZ310A PQ ES 1006 HP HX 18 STM P M15 023205 51 046 06 P2507A PQ-ES 101A FLASH EVAP RECIRC HTR IN 1 P M15 1 54 046 00 TD606A SPARE SPARE RfD M15 1 54 046 01 T0610A TE-CC 150A RHR PMP A SEAL HX CLNG WTR 00T T M15 1 54 046 02 TD631A TE CC 142A RCPA STATOR CLNG WTR 00T T1 M15 1 54 D46 03 TD634A TE CC 140A RCPA SHROUD HX CLNG WTR DUT T M15 1 54 D46 04 T0636A TE-CC 146A RCPA CLNG WTR SUPPLY HDR T M15, 1 54 046 05 TD640A TE-CC 166 CONT AIR CIRC HX CLNG V HDR IN T M15 1 54 046 06 TD645A TE CC 113C CONT AIR CIRC HX C CLNG W OUT T M16 023212 51 047 00 P2242A PQ-ES 114A HP HX 2A STM P M16 023212 51 D47 01 P2302A PQ-ES-1148 HP MX 2B STM P M16 OZ3Z12 51 047 02 Y2020A MT-LM-100-1 CONTAINMENT DEWPolNT 1T N16 023212 51 047 D3 Y2021A SPARE SPARE DC VOLTAGE INPUT M16 023212 51 047 D4 Y2022A SPARE SPARE DC VOLTAGE INPUT M16 023Z12 51 047 05 Y2023A SPARE SPARE 016 023212 51 047 06 Y2024A SPARE SPARE DC VOLTAGE INPUT
,,; 141 6 1 54 047 00 T1002A TE LM 100-3 CONTAINMENT AIR 3 T ji6 54 047 01 T1005A TE-LM 100 6 CONTAINMENT AIR 6 i
[V 1 Page 20 INFORidTION ONLY
/
SORT BY CARD LOCATION August'4, 1992 ( { tARD ATION' CABINET:- CONN 56E - WORD: CHANNEL- -BIT AP SYMBOL INSTRUMENT NUM .AP DESCRIPTlON-d16 1 54 047 02 T1008A TE-LM 100 9 CONTAINMENT AIR 9 i N16 1 . 54 047 03 T1011A' TE LM 100 12 CONTAINMENT AIR 12 T-M16 1 54 - 047 04 T1014A TE LM 100 15 CONTAINMENT AIR 15 T t R16 ~ 1 54 047 05 T1017A TE LM 10018 CONTAINMENT AIR-18 T M16 1 54 047 06 T1042A MT-LM 100 2 CONTAINM?NT DEWPT 2T MOS 023YO5 51 042 12 LO442A LD/1496 STM GEN 3 NAR RNG 3 L- 1 N01 1 53 060 07- C00244 CONT ROD BNK C GROUP 2 POS K08 N01- 1 53 060 08 C0027A CONT R00 BNK D CROUP 1 POS N14 N01 1 53- 060 09 C0030A CONT ROD BNK D GROUP 2 POS F10' N01 1 53 060 10 C0034A SD ROD BNK A GRCUP 1 POS C09 K01 1 53 060 11 C0037A SD ROD BNC A GROUP 2 POS J03
- N01 1 53 060 12 C0040A CD ROD BNK A GROUP 2 POS N09 N01 1 53 060 13 C0043A SD 200 BNK B GROUP 1 POS L11 - NO2 1 53 061 07 C5028A CONT R00 c!K D GR 1 POS P08 UN 2 se02 - 1 53 061 08 C5030A -CONT RCD BNK D GR 2.POS F10 UN 2-NO2 1 53 061 09 C5032A CONT ROD BNK D GR 2 POS K06 UN 2 -
NO2 - 1 53 061 10 PO497A SPARE SPARE N02 1 53 061 11 v4016A TE AM117D BATTERT ROOM NO. 3 T l NO2 1 53 061 '12 Y4017A TE-AM121 R$ PMP HOUSE T l NO2 1 53 -061 13 Y4018A SPARE SPARE FOR PASTR* COMMON NO3 1 53 060 00 C0002A CONT ROD BNK A GROUP 1 POS 810 K03 . 1 53 060 01 C0005A CONT RCD BNK A GROUP _ 2 POS K02 NO3 _ 1 53 060 02 C0008A -CONT A00 BNK A GROUP 2 POS P10 03 - 1 53 060 03 C0011A CONT ROD BNK B GROUP 1 POS K12
.03 1 53 060 04 C0014A CONT ROD BNK B GROUP 2 POS D06 03 1 53 -060 05 C0018A CONT R00 BNK C GROUP 1 Pos D12
- NO3 1 53 060 06 C0021A- CONT ROD BNK C GROUP 2 POS H06 s
~~N04 1 53 061 00 C0046A SD RCD BNK B GROUP 2 POS G09 N04 ' 1 53 .061 01 C0061A PL ROD BNK A GROUP 1 POS 006 '-
N04 - 1 53 061 02 C0064A PL RCD BMK A GROUP 1 POS N06 N04 1 53 061 03 C5018A- CONT ROD BNK C GR 1 POS D12 UN 2 N04 1 53 061 04 C5021A_ CONT ROD BNK C GR 2 POS N06 UN 2
'N04- 1. 53 061 05 C5024A CONT ROD BNK C GR 2 POS K08 UN 2 -
N04 1 53 061 06 C5026A CONT ROD BNK D GR 1 POS 808 UN 2 N05 1 52 062 07 C0020A- CONT ROD BNK C GROUP 1 POS N04 N05 '1 52 062 08 C0023A - CONT ROD BNK C GROUP 2 POS N10 NOS- 1 52 062 09 C0026A CONT ROD BNK D G40UP 1 POS B08 N05- 1 52 062 10 -C0029A CONT ROD BNK D GROUP 2 POS F06 t05, 1 52 062 11 C0032A CONT @ BNK D GROUP 2 POS K06 -
. NOS 1 .52 062 12- C0033A SD RCD BMK A GROUP 1 POS GQ3 ,
K05 1 52 062 13 C0036A SD ROD BNK A GROUP 1 PCs NOT t06 1 -52 063 07 C5020A CONT RCD BNK C GR 1 POS N04 UN 2 N061 1 52 063 08 C5023A CONT RCD BNK C GR 2 PCs H10 UN 2 N06 1 52 063 09 c2801A GEN REACTIVE POWER N06- 1 52 063 to c2802A SPARE FOR LATER USE K06 1 52 063 11 Q2803A_ r-ARE FOR LATER USE K06 1 52 063 12 P5403A PQ FW 200A STM GEN A FEEDWATER IN P (UNIT 2) N06 1- 52 063 13 - F5403" ~FD/2477B STM GEN 1 FEED WTR IN 1 F (UN 2) vo7 1 52 062 00 C0001A CONT ROD BNK A GROUP 1 POS F02-A Page 21 INFORMATION ONLY
SC2T BY CARD LOCATION August 4, 1992 g / ARD
,Afl0N CABINET CONN 56E WORD CHANNEL Blf AP SYMBOL INSTRUMENT NUM AP DESCRIPfl0N N07 1 52 062 01 C0004A CONT R00 BNK A GROUP 1 POS P06 N07 1 52 062 02 C0007A CONT R00 BNK A GRCRJP 2 POS F14 t07 1 52 062 03 C0010A CONT Ri.0 SNK B CRCUP 1 POS 010 N07 1 52 062 04 C0013A CONT R00 BNK B CROUP 2 POS K04 N07 1 52 062 05 C0016A CONT R00 BNK B GROUP 2 POS M10 K07 1 52 062 06 C0017A CONT RCO BNC C GROUP 1 POS D04 N08 1 52 063 00 COC39A SD RCD BNK A GROUP 2 POS G13 N08 1 52 063 01 C0042A SD RCO BWK B GROUP 1 POS Ett N08 1 52 D63 02 C0045A SD R00 SNK B GROUP 2 POS G07 208 1 52 063 03 C0048A SD R00 SNK B GROUP 2 POS J07 EOS 1 52 063 04 C0060A PL R00 BNK A GROUP 1 POS N04 N08 1 52 063 05 C0063A PL R W BNK A GROUP 1 POS MOS NC3 1 52 063 06 C5017A CONT RCD BNK C GR 1 POS D04 U:: 2 N09 1 53 064 07 N0070A TE-LM 200 13 CONTAINMENT AIR 13 TEMP (UNIT 2)
N09 1 53 064 08 N0091A SPARE SPARE N09 1 53 064 09 N0083A MT LM-200 4 CONTAlWMENT DEVPT 4T (UNIT 2) 209 1 53 064 10 Y4019A TE AM118 COMP COOL PPS AREA T N09 1 53 064 11 P5480A P0/2455 PRE!SURIZER 1 P (UNIT 2) N09 1 53 064 12 T5420A TD/24220 RCL2 1 TAVG (UNIT 2) t09 1 53 064 13 15423A TD/2422A RCL2 1 DT (UNIT 2) x10 1 53 065 07 N5049A NM/241F PVR RNG CHANNEL'1 Q (UNIT 2) 210 1 53 065 08 N5050A WM/242F PWR RNG CHANNEL 2 Q (UNIT 2) g io 1 53 065 09 Y4020A TE-AM119 INSTRU AIR COMPRESSOR AREA T ( ,10 1 53 065 10 Y4021A TE AM120 SERVICE WATER PP AREA T k-fe10 1 53 065 11 T4022A SPARE SPARE FOR PASTR COMMON 11 0 1 53 065 12 N0001A IN CORE MOVABW DETECTOR A FLUX N10 1 53 065 13 N0004A IN CORE MOVABLE DETECTOR D FLUX N11 1 53 064 00 N0072A TE.LM 200 15 CONTAINMENT AIR 15 TEMP (UNIT 2) N11 1 53 064 01 N0064A TE-LM 200-7 CONTAINMENT AIR 7 TEMP (UNIT 2) W11 1 53 064 02 N0068A TE LM 200-11 CONTAINMENT AIR 11 TEMP (UNIT 2) M11 1 53 064 03 N0089A SPARE SPARE M11 1 53 064 04 N0081A MT LM 200-2 CONTAINMENT DFWPT 2T (UNIT 2) N11 1 53 064 05 N0074A TE-LM-200 17 CONTAINMENT AIR 17 TEMP (UNIT 2) N11 1 53 064 06 N0066A TE-LM 200 9 CONTAINMENT AIR 9 TEMP (UNIT 2) N12 1 53 065 00 N0031Y WM31F SOURCE RNG DETECTOR 1 LOG Q
%12 1 53 065 01 N0036Y NM368 INTERM RNG DETECTOR 2 LOG Q N12 1 53 065 02 N0043A NM/142C PWR RNG CH 42 (QUAD 2) TOP DET Q N12 1 53 065 03 N0044A NM/142D PWR RNG CH 42 (QUAD 2) BOT DET Q N12 1 53 065 04 N0050A NM/142F PWR RNG CHANNEL 2 Q M12 1 53 065 05 N5043A NM/242D PWR RNG 2 TOP DETECTOR Q (UNT 2)
N12 1 53 065 06 N5044A NM/242D PWR RNG 2 BOT DETtL C Q (UNT 2) 213 1 52 066 07 N0078A SPARE SPARE N13 1 52 066 05 N0086A SPARE SPARE N13 1 52 066 09 N0075A TE-LM-200 18 CONTAINMENT AIR 18 TEMP (UNIT 2) N13 1 52 066 10 N0067A TE LM-200-10 CONTAINMENT AIR 10 TEMP (UNIT 2) N13 1 52 066 11 N0071A TE LM 200 14 CONTAlWMENT AIR 14 TEMP (UNIT 2) 213 1 52 066 12 2600A LQ-CN-200A CONDENSATE STORACE TK LEVEL A N13 1 52 066 13 00340A UNIT GENERATOR GROSS MW 14 1 52 067 07 N5042A NM/2410 PWR RNG 1 BOT DETECTOR Q (UNT 2) v P 22 INFORMATION ONLY I
, . _ > . .m .
SCAT BY CARD LOCAfl0N , AugVst4[1992
'f);ARD .T10N- CA81 NET- CONN 56E - WORD CHANNEL BIT AP SYMBOL- 1N11RUMENT NUM AP DESCRIPfl0N a141 1 52 ' 067. 08 N5047A NM/244C PWR RNG 4 TOP DETECTOR Q (UNT 2)
N14 1 52 067_ 09 _ N5048A NM/244D PWR RNG & Bof DETECTOR Q (UNT 2) N14 1 52 067 10 L2601A LQ-CN 2006 'CONDEN$ ATE STORAGE TK LEVEL B N14 1 52' 067 - 11.. T5676A= - TE CC 246C RCPC CLNG WTR $ PLY HDR T (UhlT2)- N14 1 52 067 12 15400A TD/24120 RCL1 1 TAVG (UNIT 2)
- W14 1 52- 067 13 15403A - TD/2412A RCL1'1 DT-(UNIT 2)
N15 1 52 066- 00 N0060A TE LM 200 3 CONTAINMENT AIR 3 TEMP (UNIT 2) N15 1 52 066 - 01 N0076A TE LM 200 19 CONTAINMENT AIR 19 TEMP (UNIT 2)
-N15 1 52 066 02 N0084A MT LM 200 5 CONTAINMENT DEWPT ST (UNIT'2) ,
N15 1 52 066 03 N0073A - . TE-LM 200 16 CONTAINMENT AIR 16 TEMP (UNIT 2) N15 .1 52 066 04 - N0065A TE LM 200 8 CONTAINMENT Alt 8 TEMP (UNIT 2, ; N15 1 52 066 - 05 N0069A TE LM 200 12 CONTAINMENT AIR 12 TEMP (UNIT 2) N15- 1 52 066 06 - N0062A ' TE LM 200 5 CONTAINMENT AIR 5 TEMP (UNIT 2) N16 1 52 067 00 N0041A NM/141C PWR RNG CH 41 (QUAD 4) TOP DET 0
~
067 PWR RNG CH 41 (QUAD 4) 80T DET Q N16 1 52 01 N0042A NM/1410 N16 1 52 067 02 N0047A NM/144C PWR RNG CH 44 (QUAD 3) TOP DET Q N16- 1- 52 067 03 N0048A NM/144D PWR RNG CH 44 (QUAD 3) BOT DET Q M16 1 52 067 04 N0049A NM/141F PWR RNG CHANNEL 1 0-- N16 1 52 067 05 N0003A IN CORE MOVABLE DETECTOR C FLUX M16 - 1 52 067 06 N5041A- NM/241C PWR RNG 1 TOP DETECTOR Q (UNT 2) 2 . O a f
- j. -
l-l- rs INFORMATION e 23 ONLY.
+p ,-a .a- ---- m
l O APPENDIX A BILL OF M ATERI AL O INFORIAATloN ONLy _ O A-1 TPSl57
9 BILL OF MATERIAL 1 Four Loop Nuclear Steam Supply System Comr> uter System for Virginia Electric and Power Compant North Anna I
.y item 1 1 - Westinghouse PRODAC 250 silicon solid state, integrated circuit, general-purpose, high-speed digital process control computer for real-time operation including:
- Control, anthmetic and input / output units e Magnetic Cere Working Memory,32.768 .vords,17 bits each, including parity
- Computer power supplies (intenal)
- Fixed-head Disc Memory with average access time of 17.5 msec. 750.000 words, 17 bits each, including parity e Central Computer Power Distribution Panel e Computer cabinets to house all of the above Item 2 1 - Analog input Processor to accommodate relay drivers, multiplex panels, and point relays for 1,112 inputs, with a scan rate of 120 points per second, to include:
e 245 - Thermocouple inputs, to include:
- 1) Cold-Junction box terminations
- 2) Cold-junction box provided with RTD for temperatu'; measurements e 234 - RTD inputs from the plant, to include:
- 1) RTD terminations
- 2) RTD bridges
- 3) Power supplies for grounded and ungrounded RTD's e 57 - D-C milliamp inputs, to include:
- 1) Terminations
! 2) Shunt resistors O TPS157 A-2 1
l
@ l --
- 412 - Low-level d c inputs, to include terminations
\')
- 75 - Option L inputs. to include termir, ions _
- 6 ISD cold-junction box RTD'r
- 9 - ISD calibration voltages INFogIM Tioty
- 62 - spres ogg
- 12 - Not available points which are not addressable item 3 1 - Digital Contact Input Processor, including digital contact input power supply, to accommodate:
- Necessary digital contact inputs from Operator's Control Panel and miscellaneous computer functions e 336 - Non multiplexed digital contact inputs from the plant, to include terminations item 4 "
p I - Digital Interrupt Processor, including power supply, to accommodate: (
- Necessary digitalinterrupt inputs from typewriters, Operator's Control Panel, and miscellaneous computer functions
- 224 - Digital bi-directionalinterrupt inputs, to include terminations
- 64 - Filtered digital pulse interrupt inputs (not to exceed 200 pps),
to include terminations Itern 5 1 - Digital Contact Output Processor, to include:
- Necessary digital contact closure outputs for Operator's Control Panel, typewriter, and miscellaneous computer functions
- Necessary digital contact closure outputs for four analog outputs, with power supplies, for trend recorders supplied by Westinghouse NES
- Necessary digital contact-closure outputs for two visual displays of six windows, mounted on the Operator's Control Panel
- 14 - Contact-closure outputs with terminations
(% q.) A-3 TPSl57 i
item 6 Computer cabinetts) to house items 2. 3. 4, and 5 above 9 item 7 1 - Operator's Four- Module Console. including:
- 1 - Output typewriter for operational functions. IBM Model 735.
15 characters per sec. with color shift and tab
+ 1 - Output typewriter for logging functions, IBM Model 735,15 characters per sec, with color shift and tab and with snap-on paper positioner to handle roller-towel log paper __
- I - Output typewriter for trending functions, IBM Model 735,15 ,
characters per sec, with color shift and tab
+ 3 - Console modules for mounting the three output typewriters listed above (these three output typewriters and the input / output type-writer listed under item 9,and the auxiliary typewriter listed under Item i 1. are interchangeable)
- 1 - Module for mounting Operator's Control Panel, to include:
34 - Function pushbuttons 4 - Subfunction pushbuttons 4 - Action pushbuttons 18 - Alphabetic keyboard pushbuttons 12 - Numeric keyboard pushbuttons 7 - Lamp indicators ~ 1 - Switch lock 2 - Visual displays of six windows, including power supply for digital display lights. Each window consists of 12 characters. One visual display will show only numeric data, and the other will display alphanumeric , information.
- 1 - Set ofinterconnecting signal cables to connect Operator's Control Panel, typewnters, and visual displays to computer item 8 1 - CRT Display System including:
- 1 - 23 in. Electrohome CRT monitor with symbol capacity of 21 rows of 50 characters per row
- 1 - Westinghouse WAND System digital-to-video converter TPS157 A-4
@ l * - Pushbutton Keyboard Module, to include:
(] LJ 1 6 - Thurnbwheels 30 - Function pushbuttons 3 - Action pushbuttons
- 1 - Set ofinterconnecting signal cables to connect CRT Puchbutton Keyboard Panel to computer NfDRt Item 9 44T10At L Y l - Programmer's Console, including:
- 1 - IBM Model 735 input / output typewriter, with color shift and tab e 1 - Paper-tape punch,60 characters per sec
- 1 - Paper-tape reader,60 characters per sec
- I - Set ofinterconnecting signal cables to connect Programmer's l Console to computer
- 1 - Desk, stand, and turret for mounting the first three units above C) Item 10
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1 - Set of pre printed log sheets item 11 1 - Auxiliary Logger Module, including an output typewriter for operation functions, IBM Model 735,15 characters per sec, with color shift and tab A-5/6 TPS157
W
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APPENI.,1X B ADDRESSABLE POINT LIST Ust Explanation .. .. .. .. . ...... ..... . . B to B-16 Analog Values . . . . . .. .... ....... . .. ... ... .. B-17 to - B-ll2 Digital Values . . . .. . ... .. . ......... . .. B-ll3 to B-148 Constants . . . .... ........ ,. .. .. .. . . . . . B-149 to B-162' Calculated Values ..... ..... . .. .. .. . . . . . . . . . B- 163 to B-181 l INFORMATION (], ONLY n\q! B-1 TPSIS7
COMPUTER INPUT OUTPUT LIST EXPLANATIONS Note O The number nreceeding each explanation corresponds to the number sho..n on the input-output sheets over each heading.
- 1. APSYMBOL (6 columns)
Addressable Point Symbol, a unique combination of up to six alphanumeric characters (left justi-fied), one of which must be alphabetic. This symbol is used by the operator for addressing a point, and it is used as identification or L,_ reference in typedeut or displayed messages. The AP Symbol may be constructed in any suitable systematic manner. The AP Symbols established follow the pattern shown below: Operator address: X2010 C where: _X_ indicates the type of variable, the first two numerals indicate the plant system the second two numerals indicate the serial No. of the input on that system O C, indicates the type of function performed by the computer on the varbble The codes for X and C were cbosen as shown below:
.1 C - Conductivity, Cluster, Concentration F - Flow L - Level
( N - Nuclear P - Pressure Q - Power R - Radiation U - Computed Values T - Temperature Y - Miscellaneous V - Voltage K - Constant TPSl28 B-2
L @ o d t A - Analog input instantaneous Converted Value D - Digitalinput Status F - Function-Weighted Average K - Constant L - Pulse Accumulation or Integration N - Running Average R - Rate S - Smoothed Average fgpOat T - Time-Weighted Average ONty MTION U - Computed Value V - Time Average C - Miscellaneous
- 2. AP DESCRIPTION (32 columns)
Addressable Point Description; the English (or any other language) description of any addressable variable or constant, maximum 32 characters,left justified. This description is used in alarm, and in certain other Operator Console messages.
- 3. TYPE OF LIMIT '
(I column) Indicates whether High Low or Set-Point Deviation type alann limit checking is to be used. H = High Low Type S = Set-Point Deviation
- 4. HIGH ALARM LIMIT OR SET POINT _
(7 columns) Either the value (if fixed) or the address (if variable) of the high alarm limit or the set point. If the value is specified, a decimal point must be included. Unsigned quantities are assumed positive;(-) sign should be shown (e.g.,30.,30.00,-200.2). Position of characters should be right justified, if the address is specified, the applicable AP Symbol should be used. Note if this field is left blank, the computer program will assume that there is no limit and will not include space for future addition oflimits. O i B-3 TPSl28
- 5. low ALARM LIMIT OR DEVI ATION LIMIT (7 columns) @
Either the value (if fiuu) or the address (if vanable) of the low alarm limit or of the deviation limit. Same requirements apply as for high alarm limit (refer to 4., above)
- 6. INCREMENT (6 columns)
Either the value (if fixed) or the address (if vanable) of the seven increments the computer will use to re alarm a variable if it has exceeded its regular alarm limit. RIGHT JUSTIFIED, MUST INCLUDE DECIM AL POINT.
- 7. ALARM LIMIT DEADBAND INDEX (2 columns)
A number from 0 to 31 indicating the required deadband around the alarm limits. The number represents the deadband in %/2, i.e.,0 = 0%,1 - 1/2%,2 - 1%, etc.
- 8. HIGH OUT-OF RANGE INDEX (2 columns)
A number from 0 to 31 indicating the entry to 4 tble where the high out-of-range values are listed. High Out of Range Value Index % of A/D Full Scale XX See remarks
-- To be supplied by CID 00 No high out of-range required 01 104 02 101 03 73 04 44 05 61 06 68 07 41 08 120 09 64
- 10 85 11 76 12 22 13 55 O
TPSl28 B-4
t
- 9. LOW OUT-OF-RANGE INDEX
./ i
/ (2 columns)
A number 0 to 31 indicating the entry to a table where the low out-of range v.ilues are listed, Low Outef-Range Value index % of A/D Full Scale XX See remarks To be supplied by CID 00 - No low out of-range required 01 4 02 1 J3 -1 04 -4 05 -20 INFO,yI 06 -85 MTton onty 07 -55
- 10. A/D GAIN (I column)
Specifies the required gain for the sensor. It provides:
- 1. Two input ranges for the 30 pps analog subsystem 0= 5V 1 = 250 mV
- 2. Seven input ranges for the 40 pps analog subsystem 2 = 210 mV 4 = 25 mV 6 = 2500 mV 8 = 110 V 3 = 220 mV 5 = 2103 mV 7 = 21 V
- 11. DECIMAL POINT (1 column)
Specifies the number of characters (0 to 5) to be printed right of the decimal point. A dash (-) in this field indicates a special case.
- 12. SYSTEM (2 columns)
Specifies the plant system from where a particular variable has originated. The following symbols are used: AC- Auxiliary Coolant CV- Chemical and Volume Control AS- Air Systems (Instrument and Service Air) CW- Circulating Water CD- Coridensate Water EL - Electrical CL - Cooling Water EX- Excitation B-5 TPSl28
FW - Feedwater GE - Electrical Generator HX - Heater Exchanger (Feed and Condensate Water) IS - Isolation Valve Seal Water System MI - Miscellaneous RC - Reactor Coolant RE - Reactor RM - Radiation Monitoring SG - Steam Generator SI - Safety Injection SS - Sampling System TB - Turbine VS - Ventilation System V!D - Waste Disposal
- 13. INSTRUMENT IDENTIFICATION (12 columns)
Identifies the, input with plant instrumentation lists diagrams, LEFT JUSTIFIED.
- 14. DERIVED FROM' (1 column)
Y - Signal is derived from instrument channel S - Separate channel I - Signalis used on an indicator R - Signalis used on a recorder B - Signalis used oa both recorder and indicator
- 15. CALIBRATION (I column)
Indicates calibradon curve requirements of the input signal: L - Linear N - Non linear conversion performed by Scan program 1 - Conversion performed by other programs TPS128 B-6
- 16. SENSOR TYPE _
( (2 columnd Indicates type of senaor output signal at computer terminations CA - Chromel Alumel T/C CC - Copper-Constantan T/C H - Iligh D C Voltage Non Thermocouple > 1 V. < 10 V 111 - liigh D C Voltage > 10 V IC - Iron Constantan T/C L - Low D-C Voltage Non Thermocouple 50 mV or less MA - D-C Milliamp T1 - 10-Ohm Copper RTD T2 - 100-Ohm Copper RTD T3 - 100-Ohm Platinum RTD T4 - Nickel RTD (Cune NR 226) LT - Low D-C Voltare Thermocouple not to be included in Computer Cold Junction Box Teminations TS - 120 Ohm Nickel RTD T6 - 100 Ohm @ 32*F Platinum RTD INFORgDON T7 - Platinum RTD gg Y TS - Nickel RTD (Curve NR 227) H2 - A-C Voltage T9 - 100 Ohm Platinum RTD (NOK. TS - 50 Ohm @ 0*C Platinun. RTD k TA - 120 Ohm Platinum RTD l TB - NI RTD 226 Ohm @ O'C (MEi i CK - Chromel Constantan T/C
- 17. PARALLELING (I column)
Indicates if paralleling is required at the computer: P = Paralleling required N = No paralleling rec,uired l lO B-7 TPSl28
}
- 18. GP9UND LOCATION (2 coh:mns) indicates the plan area where the sensor is grounded:
AR - Auxiliary Rachs CB - Control Board TB - Turbine GE - Lenerator RE - Reactor CO - Containment CD - Condensate Water FW - Feedwater RT - Reactor Trip Relay Racks IC - In Core Instrumentation Racks AC - Auxiliary Coolant RB - Reactor Trip Breaker Racks WT - Water Treatment Plant CW - Circulating Water DP - Diesel Plant TS - Transformer Station
-.- - Sensor ungrounded
- 19. CABLE NO. IF MULTICONDUCTOR (2 columns)
Specifies the cable code number to relate group ofinputs to the same cable. (--indicates that individual single pair cable is used)
- 20. SENSOR OUT - LOW (5 columns)
Low value of single range, corresponding to the low value of the measurement range. RIGHT JUSTIFIED.
- 21. SENSOR OUT - HIGH (5 columns)
High value of signal output range, corresponding to the high value of the measurement range. RIGHT JUSTIFIED. O TPSl28 B-8
- 22. SENSOR OUTPUT - UNITS _
(2 columr's t MA - Milhamp MV - Milhvolt V - Volt OM - Ohm
- 23. CONVERTED V ALUE - LOW (6 columns)
Low value of measurement range, normally correspond to the ow value of signal output range. RIGitT JUSTIFIED.
- 24. CONVERTED VALUE - Hl_Gil (6 columns)
High value of the measurement range, normally correspond to the high value of signal output range. RIGliT JUSTIFIED.
- 25. CONVERTED VALUE - ENGINEERING UNITS (6 columns)
The engineering unit of the measurement range. LEFT JUSTIFIED. Th[bM14% ( are shown below: ONty i l AMP Amperes BAR Bar Gage DEGC Degree Centigrade DEFG Degree Fahrenheit DKCM Deka Counts / Minute l GPM Gallen/ Minute l IN Inches l INHG Inch Mercury INHGA inch Mercury Atsolute INW Inch Water KBH Kilo Pound / Hour I;BM Kilo Pound / Minute l KW Kilowatt l MVA Mega Volt Amp l MVAR Megavar PC Percent l PSIG Pound / Square Inch Gage PSIGM Pound / Square loch Gage / Minute VOLT Volt MRH Milliroentgens/ Hour l O
- B-9 TPSl28
PSI Pound / Square Inch MWil Megawatt /llour Kwll Kilowatt / flour INL inch Linear MA Milliamp MCAMP Micro Amperes DKCS Deka Cour;ts/Second LPS Liters /Second CM Centimeters KGS Kilogram /Second BARA Bar Absolute MMilG Millimeters of Mer:ury TMIN Turns / Minute RPM Revolutions / Minute M3S Cubic Meters /Second KV Kilovolt MMilo Micro MilO MW Megawatt ( INWV Inch Water Vacuum MilO MHO CMW Centimeter Water CPS Cycle /Second KGSCM Kilogram / Square Centimeter Gage KGli Kilogram /Ilour M311 Cubic Meter / flour MM Millimeters MTR Meters MM11GA Millimeters of Mercury Absolute MVARil Megavar/ flour TPil Ton /ilour PSIA Pound / Square Inch Absolute LBil Pound /11our MM110CM Micro MilO Per Centimeter Pil pH PPB Parts Per Billion PPM ' ' Parts Per Million BTULB BTU / Pound, Enthalpy BTULBF BTU /LB *F Enthropy BlJFKWil BTU /KWilR,11 eat Rate LBFT3 Pound /cu ft., density of steam FT Feet KAMP Kilo Amperes FT3 Cubic Feet FT311 Cubic Feet /liour O TPS128 B-10
. . _ ~_ -_ _ . -. _ _ - .
l (. 26. SCAN FREQUENCY INDEX ;
\ (I column) .
A number 0 to 9 specifying the selected scan frequency for scanning and/or limit checking for l the point. The scan frequencies are a, fellows: Index $can Freq~ency , O Isec 1 2 see l 2 4 sec 3 8 sec 4 16 sec , 5 32 see I 6 64 see i 1 l
- 27. SENSOR CONDITIONING REQUIREMENTS l
(1 column) Indicates requirements for sensor conditiorung: i C - Copper Constantan T/C D - Transducer E - Transducer and Current Transformer - 11 - Voltage Signal < 3 Volts with isolation (3 1 - Iron Constantan T/C Q J - Voltage Output < $ Volts Generated by a low MA D C Shunt and Isolation Amplifier K - Voltage Output < 5 Volts Generated by a Series Resistor and Isoiation Amplifier I L - Chromel Alumel T/C M - Voltage Output < S Volts N - Same as J with Series Resistor for Isolation R - MA DC Shunt S - MA D C Shunt with Series Resistors for Isolation T - RTD V - Rectifier with Voltage Dividers for A C Signals
%'- Voltage DMders for Signal > S Volts DC INFOWm Z - Voltage Signal < S Volts. Signal Attenuation and IshlNbrY B - Voltage < 5 Volts with Isolation Resistors - No Requirements Specified 1 - Auxiliary Contact 2 - External Contact Pulse Accumulator 3 - External Pulse Signal Accumulator 4 - Pulse Signal Generator 5 - Contact Pulse Generator 6 - Contact Pulse 7 - Pulse Signal P - Chromel-Constantan T/C %.)
B-11 TPS128 l
- 28. ANNUNCI ATOR WINDOW GROUP CODE NO (3 columns)
Specifies the annunciator window number which has to be energized by a computer CCO if the input is in alarm condition. ( A "-- ~' means no window number associated with this input.)
- 29. RESPONS8B!I.lTY (1 colurnn)
Defines secspe of supply responsibility for sensor and sensor conditioning equipment. W - Westinghouse Nuclear Energy Systems ! A - Architectural Engineer j C - Custorner B - Brown, Boveri Company M - Mitsubishi Atomic Power industry
- 30. POST-TRIP REVIEW (I column)-
1 - Shows input participation in Post-Trip Review program - Input Group One 2 - Input Group Two B - Both input groups (-)- No participation
- 31. PROCESS REQUIREMENTS (I column)
(-)- No process requirements X - See remarks for information S - Square root function P - Pressure and Temperature Compensation 1 - Square Root Value and Square Root Value compensatic,n for temperature 2 - Square Root Value and Square Root Vslue compensated for temperature and pressure 3 - Pressure compensated 4 - Temperature compensated O TPS128 B-12
s-
- 32. DEVICE STATUS O
(6 columns plus 2 blank spaces) i Describes the device status which corresponds to the contact status (heading 33). The deuce statua or the opposite as specified in field 36 is add d to the AP Description and will become part of the print out. LEFT JUSTlFIED. (A "- " means not applicable.)
- 33. CONTACT STATUS (I column) l Indicates the contact status (0 = open ! = closed) corresponding to the Device Status.
- 34. TYPE OF INPUT (1 column) i Indicates the type of digitalinput:
D - Non multiplexed CCI M - Multiplexed CCI B - Bidirectionalinterrupts INFOR/WA ONLy Tl0N P - Unidirectionalinterrupt (contact pulse)
- 35. NON- ALARM STATUS (I column) '
Indicates the status of the contact in the non-alarm status if the contact is to be included in the periodic alarm check. I O - Contact is open in the non-alarm state
! - Contact is closed in the non alarm state
(-)- Not applicable
- 36. STATUS DESCRIPTION INDE1 (2 columns)
This index (0-31) specifies the two states of a contact. Each index refers to a pair of up to 1 ' eight character mnemonics describing the status of the input for both contact open and closed l conditions. l u i O B-13 TPSI28
Status Descr. Contact Status l*f** O (Opent 1(Closed)
-- Not Applicable 01 OP CL 02 NT TR TR 03 SET RESET 04 NT SEL SEL 05 RESET SET 06 TR NT TR 07 DROP NT DROP 08 NT DROP DROP 09 CL NT CL 10 NT CL CL 11 CL OP 12 NORM 111 13 NTlit til 14 NORM LO 15 ,
NT LO LO 16 OK NT OK 17 ON OFF 18 OFF ON 19 NT OP OP 20 NO TRBL TRBL 21 NT MOVE MOVE 22 LO NORM 23 STOP RUN 24 HI NOT111 25 111 NORM The status description is used for periodic contact alarming. The mnemonic is printed following the AP Description,
- 37. PERIODIC ALARM (1 column)
Specifies if the contact is to be included in the Periodic Alarm Checking program: Y - included N - Not included (.)- Not applicable O TPSl28 B-14
g 38. SEQUENCE OF EVENTS ( (I colurnn) Specifies if the contact is to be included in the Sequence of Events program: also specifies if only the alarm condition of the contact is to be recogruzed: l I 1 - Print only the alarm condition ! O - Print both alarm and returned to-normal condition l (-)- Input is not to be included in the sequence of events. '
- 39. Pf.Si, (1 column)
Indicates if the input is included in the Reactor Protection System Monitoring program. I Y - Included N - Not included
- 40. PLANT TYPE (1 2,3, and 4 Loop Plants)
INFORIMTION (4 columns) ONLy References the input to the standard master 1/O list: r M - Under I.,2,3 , and 4. loop plant columns indicates that input is included in the ( standard scope for that type of plant (-)- Indicates the opposite as above X - Indicates that input is used for a particular plant scope that differs from the standard plant scope
- 41. REMARKS '
(variable columns) Additional information related to an addressable point.
- 42. ALARM SUPPRESSED (I column)
An alarm is suppressed when its associated equipment is not operating, or the process indicates that an alarm at this time would have no significance: Y - Alarm suppression included N - No alarm suppression included O B-15 TPSl28
- 43. USED-IN LOG, dI columrr) ;,
L - Indicating input used in normallog S - Indicates input used in speciallog N - Input not in any los i
- 44. CALCULATION REQUIREMENTS I Y - Indicates input participation in the calculations N - Indicates no input participation in the calculations
- 45. VALUE Value of Addressable Constants 6 '
O O B-16
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ANALOG VALUES ///fQgj ;, , OtVt y U4WO www.ewwwwwwwwwwwwwwwwe-wwwwwwwwwww e OWU 000000000000000000000000000000000 O 4O07 mmmmmmonmmmmmmmmmmmmmmmmemmmmmmmm e CP okO in in en m in to to en er to 80 sn er en en to in an to en in in en er in to to to en en an en in JOT 000000000000000000000000000000000 m w&O NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN TOW 000000000000000000000000000000000 N 047O 4444444444 44444444 444444444 44 4 4 44 OW40 00000000000000000000000000000000O I e e e e e e e ..e e e .e e e e e o e e a . . ..... W 000000000000000000000000000000000 4 g wwwwwwwwwwwwwwwwwwwwweswwwewwwwww U
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N04DN4404OND44N04NN4DmomNmemDOOD OwwCOOwwOnwoOOwwowwoOOwoOOHOOwwo k D V 1 W E k i k O V E W D 1 1: ODEElkIVIDIlakVVm o MMMMMMMMMMMMMMMMMMMMMMMMMMMMMM*A*AO ODDDDDDDDDDDDDDDDDDDDDDDDDDDDDDD 11111111111111111111111111111111M D wwwwmNNNwwwwNNNNwwwwNNNNwwwwNNNNA Z 0 w 11111111111111111111111aia1111aaw 33333333333333333333333333333333 i H 00000000D0000000D00D00000000000Da > ( 3 TT2TTTTTTTTTT&TTTTTTTTTTTTTTTTTT3 m 000000000000000000000000000000000 N T T . O <<<<<<<<mmmm22mmWUUUUUUUOOOOOOOOO l M W VVVVVVVVVVVVVVVVVVVVVVVVVVVVVVWVW D 722772277272ZZZ277277272777ZZ77Z OSDDSSD22SDDDVSDDEDSEDOSSSEDDSDDV
% 7 < 000000000000000000000000000000002 OcoconocDonnonDDDonocDDonDDDDDDD TTTTTTTT&TTTTTTTETTT&TTTTTTTTTETO n &>>>HHHHH>>>>>>>>>HHHHHHH>>>>>kHW 7222222272227Z2ZZZZZZZZZZZZZZZZZ DDDDDDeDoeooDDtDDrDooDDDrDDDDDDDD UUUUUUUUUUUUUUUUUUJUUUJJUJUUUUUOM J 444 444 44 444 44 44444 444444444444444 D w N M 4 tn 4 N e m O w N m e tn e N m m o w N m 4 0 4 N m m O H N m w 2 OOOOOOOOOswwwwewwwwNNNNNNNNNNmmmm dar O00000000000000000000000000000000 24> 000000000000000000000000000000000 > M UUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUU B-17 TPS157
Aff ANALOG VALUES (Cont'd) I gsenn wwwwwwwwwwwwwwwwweewewnewwwwweees
- M laf U nonnnnnnnnonnononnnnnnnnnnnnonnon n<OO7 mmommmmWWmWWmmmmmmmmomOOmWWmmmmmm ~ ~O .n .n m in .n .n .n .n .n .n m in in m in .n in .n .n .n in .n .n in m in in .n .n .n in .n .n Jon onnonnnOnennonnnnonnnnnonnnnonnno m wWd NNNNNNNNNNNNNNANNNNNNNNNNNNNNNNNN Ton nnnnnnnnnnnnonnonnnononnnonnnnonn I hm*ZO $44444 4444 44 4444 44 444 4 44 44 4 4 4 4 4 4 4 OW<O 000000000000000000000000000000000 r . . . . . . . . . . . . . . . . . . . . . ............
W 000000000000000000000000000000000
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m Te e e . e . . . e e e e . e e . e e e . e . . e . e e . . e e e . . Onw OnnOnnOOOnnOOnnnnnnnnOCOOOnelOOOOO m J4E wwwwwwwwwwwwwwwwwwwwwwewwwwwwesww Jw 6 9 3 9 9 9 9 9 f t t I e t 0 0 0 0 9 9 t t t t 9 9 9 0 t t t t 9
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W <<<<<<<2DDDDDDV<<<<<YYYvVVvvVVvvv 3 2 777777 7Z7777 vvvvvvvvvvvvvvvvvvvvomstonenenenn 1 7777 777 777 7 7 7 77 7 7 777
- sensemosommernemencroconoconococo t DDDnDCDDDrnn coconocococonococcoaxx2222x22Tx22 nnnunnnnnnvunnnnnnnn TxTwxxxTxaxrTaxTTTTT----N-- ~~~~--
zzzzzzzzzz777 c o c o o o o o o o o o o o O J J J J J D D P D D O L D I, t D D E AMAWAAmA'A'A*AAAAZ11113UUUUUJJUJUUUU J <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<< D s in e h e m o w N m 4 :n e s e n e m m 4 N e n n d m m s in e h m m w T mmmmmM4 4 44 4 4 4 4 4@4Ce@ ewMNNNNNNNNNOI
<1r O00n000000000000000000000no00000n r4> O O O O O O O O n O n O n n n O O O O n o m m m in n m m m m m m m > m UUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUU O
TPS157 B-18 l t
I i INFORMATION W ; ONLY ANALOG VALUES (Cont'd) U.wn
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HFb44&Owww NNN MMM wmWwF zzzil<*aaarrrraaarrrrasantrrxsamr noommIwuuueHH>UUUwekHUUUF>Fe32240 UUU U J 2 7 T 'A *A m m T P Y m m m T T Y T m m m 'A 4 11 7U J o <<<<<<<<< <<<<< <<<<<<<<<<<44 44 4444 w O n a m n e m e n w N m e m e o w N m e m e 44 n w4 N44m 4 m o n n .e e n mmm-wNMODOOOOONNNNNNN,4444
<ar Onow-wwe< 44444444-444 4 4 m e, m N O r=> 4 4 44 4eo t -- , > m mmmOOnnOOnnnOOOOnOnonOOOOOOOOnOOM vuuuuuuuuuuuuuuuuuwuuuuuuuuuuuuau B-19 TPSI$7-
W~ AN ALOG VALUES (Cont'd) U<wn nuasemeeemeseenaeesee""-eesee" Hee e n tal U .*-wwew-e-w-wweatumrueeeeeeees-* ewe-M 04007 m m m m m m m m m m m m m m m c r e m o m e m f* fo m t e m m m m m e m Cwn wen O O e Oeee O O eeeeee 000OnO eeeeee nO00O e-eeee r' O s' O 2O O 2 r,r4 Os2 r n4r O4O 4o O4 J o rt m ->t3 HeMHHamennenmaeamenmaa""amweedema TOW t#OnnonnOnnnnnnnonnnnnnnonnnnnonnn h m470 44444 44 444 4 44 4 4a4 4 444 4 44 444 4444 44 OW<O 000000000000000000000000000000000 I e e e e e e e .. .. .e4 e e e e e e e . . . . . . e e e e W m tD m m O W O O O O O O O O o NNNNeNOOO mmOOOOOOOOOmmmmmm 4 E -we-ONOWNmmmNN Ann U n
/
e IF e . . . . . . ......................... OW- n9OOOOOOOOOOOOOOcnOncOrNN eN 6 @ in m m tw m eeNNN4N m J4I J-
<J IF e . . . . . . ....... e . . . . . . . . e . . . . . .. -T- n O O O O n O O O O O O O O O m m O O O O O O ^ O n te n O n m o 4 I<T m m m tn in n m m O m m O O m ww666645000 45NOOOOOrnOOm66Sch Ja mmmmbmSbm6boch mom <J w we swm m>>aw IIII IIIIIIIIIIIIIIII1 JIIIJ 1 1 17 III n --
NNN 777 333 a a. A u u--- A u I I I I laaa H U U UT U Ekkk U , a m a mowm- u am-~~ w - - -I z z .t z 7 H O O O 20 W ~~~~70777JJJJ J e I- ra<<<<- --- v-mm J
~ wuuuuw m uu<<u* xann<r O e > 0 a e "mWN J k 0 0 0 0 W n ws~n>*n3373 T rY 7 1 4 777Z -o 7J3 O - v----auuaauno a2- < muO ax2 2r27/a/
m x <<<<<r r r < rneW--e-or macocJ xax x U w x x x x 17~~ z a 7-- 7 a a m a x-4 O m --rs v w m Joooo r saantrzor W 74474 471x7 J-J Dor <444x74WWT<<<-* YYYYJM A A A *777 E 7 o ><D'Jo-Y7-YY- 7 e----<co<oo<sJ<uai<<<<J < < 1111DY e n' 9 MeedwN 1 4 Y Y Te nT
< t rxrro<<como<rc>>>wwwWro u 7FrHe on ce PU a' w W m m m W U 777 77777 -11111 x at a 1 a w a u. a a a. w a <MWAAwa<waW*W7-TT *xxxxIrIIIIIo-Immmmmmm-I IWwek 7*O 7 7T S3335 o 7 7< <<<----< trrJtrrrr F er**WWF OTtrt1Salaaac71JJJDoOL2aH Jr--*IarIJIIJoJaua rrrroJama>rawam a
o
-e 4 in o n m m m m m m m - in e ru -n s n - m m o o m m m ru n - m m o
- r O----04 moo-mnon4 4 4mmmme<Om4 mmmmmmmm4 4 -OcOOm4 e4 4 44 4
<1r x<> O e ru OO ruOmOm m m m m mmmmeummmm mN m m m rumn m. m w ru ru m ru ru m o e m 0 0 O o n n > w auauuuwwuwuwausanuawuuuaauuJJJJaa - . . . . 1 TPS157 : B-20
(
.s AN ALOG VALUES (Cont'd) OD'A T10N s ONty LJ<&n weewwwwwwwwww-wwwwswwwwwwwwewwwww w nWo -wwwwwwwwwwwNNN wwwwwwwww . . . . N n, N n<OO7 mmmemmammmmemwa mammwwwww mmeemm W DHO dee2 2 .t est eade we 22 2 42 422 44 4 2 4 d e2 JDK 000000000000000 0000000000000000 m wkd wwwwwwwwwwwwwww wwwwNNNNNmmmmmmm TDW OnnonnnnonnnOnn nnnnewwwwwwwwwww hm47O #44444444 e#44 4 4 444 4444 444 44 4444 OW<O 000000000000000 0000000000000000 E .. . . . . . . . . . . e e . e e . ewwwww . . .
4 W T MMMMMmmMMMMMNNN MMMMe e . e *C000 . N* N. N. U OOew
/ nn ~
y> e . . . . . . . . . . . . . . e e e .ANNNA . e . m O rr - in in m in in in m ru N N N 4 C O n it' in to N e e . e eoOOO. m. ine m e J4 T J-NN4NNN4wwww4 NNNw # # 9 9 6 4 P e
<J EH . . . . e e . . . . . . . . . . . . . . e .e . . e . . . . .
MT~ OnmDOoWO900N444 4 74T NSWhh5mW44452mm OOOONNNNNOOOOW40 NNNC Jw OOmm
< J OOww VD mH>aW IIII217TIIIIII I IT1XITIlIIIIIIIIJ1 xxxxx aaa 33333 NNN JJJJJ k m a a kt ~~> 3333 1 ~~~ MDUOW wJ 22Z 0333 JV 333~TTTTTDDDDO33 D2 w w w elDDDDDJJJJ 2 >>>WH WTT JJ JJJ T4 JJJWUUUUUwNwNODO D J WW w Nm eNP J ~WWWWW HHH H O O 7
Ok www?>>HHHT3TTUUU 1 3373332 UW DWWWWWDDDDWWW
~
7/TZ22T w J 333wnOOOOHHHHHHH 777 N 7 TT TTI JJJJJJJ UUUUWWW U W W >W T TTTJWWWWWWWWWOOO JJJJJHHHH M TTOTTT3sNmJTM D> W < <=<<<= NNU TTTwDasETWWWWEW1 3 27Y272E TTTTY Y 7227) > >>>
<< <<<OOOODDD wD>
WWAWATT ADDDDD3033 1
< NNNmmM9999NN>>7 wNMNTTErr777 7wHN mmmmmuUm m TTTT 2222727 T&TTTTT< 7277WWWWW 000 WWWWWWW33333 7 WWW372 TTTWWET2/2 DDDD33 D A m A m A 7 7 3 WTTsI 3 D D A D D D D D J J T T T Y T MMmmMwa WUUUUUTTWW 7 ELEEEEW 444444T4 4EET4 HHHHHHHTTTTTTTm11wwwT7/??2DD/
AWMAmmW 1111130 TAWWMW1-~~~~AWww111 2 1 33Hw 4 x2T1 J V D <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<< wNmneNmnwNmc4 4 4 0 w o n n o w N m d in w N in e w N m
<kX NNN#
44 4 444444 44 4memmenwNDOON#wOOOOOmmmm4 44 4DDDD4444 4COOOOOOOOOOO *4 T4h f > W OOOOOOOOOOCONNNNNmOO4OOOOOOOOOOOO JJJJJJJJJJJJJJJ JJJJJJi2224 /2AZZ?2 B-21 TPSIS7
2 3 e 5 6 7 8 91311 a 1 ~ % 03 A 3 T Y HI LS EA HI Le D 3 a C; VPA
" AP P ALARM ALARM AN ST OT 3E R LIMIT INCREM DD RG RG N C 3 SYMBOL A9 DESCRIPTION E LIMIT N0044A Fww HNG 2 e0T DETECTOR Q H 5. -.5 .2 04 *3 34 8 2 1 :
H 5 .5 .2 04 13 04 8 2 1 N0045A FaR HNG J TOP DETECTOR G 2 04 13 34 82 1 N0046A Hwk <NG J ouT DETECTER u H 5. .5 N0047A par HNG 4 TOP DETECTOR Q H 5 .5 +2 04 13 04 82 1 H 5 *e5 .2 04 13 04 82 1 N0048A PwR HNG 4 00T DETECTOR G W 3 04 13 04 3 1 1 N0049A par HNG CHANNEL 1 9 VAR -3. H VAR -3 3. 04 13 34 31 1 N3053A FwM HNG CHANNEL 2 Q W 3. 04 13 06 8 1 1 A0051A par HNG CHANNEL 3 Q VAR 3 N0052A PwR <NG CHANNEL 4 Q H VAR 3. 3 04 13 04 8 1 1 N0060A IN CORE FIKED DETECTOR FLUX H13A H 1 .5 .03 04 31 04 7 1 1 g N0061A IN CORE' FIXED DETECTOR FLUX H136 H 1 .5 .03 04 31 04 71 1 E "3062A IN C3HE FIXED DETECTOR FLUX H13C H 1 .5 .03 04 31 34 71 1 5 N0063A IN CUME FIXED DETECTOR FLUX M130 H 1 .5 .03 04 31 34 71 I 1 .5 ,03 04 31 34 7 1 1 N 7 'OO64A IN CUME F I AED DETECTOR FLUX LilA W .5 03 04 31 34 71 1 E 1 o
" N3065A IN CURE FIXED DETECTOR FLUX L116 H .03 04 31 34 7 1 1
- 1. .5 N0066A IN CORE F IXED UFTECTOR FLUX L11C H .03 04 31 34 71 1 8 1 .5 N0067A IN CURE FIXED DETECTOR FLUX Li1D W ,.5 .03 04 31 34 7 1 1 3
1 N0068A IN CURE FIXED DETECTOR FLUX NQ8A H .5 .03 04 31 34 7 1 1 6 1 N0069A IN CURE FIXED DETECTSR FLUX NOBB H N0070A IN CURE FIXED DETECTOR FLUX N08C H 1 .5 33 04 31 34 7 1 1 N0071A IN CORE FIXED DETECTOR FLUX N080 H 1 ,5 03 04 31 34 71 1 N0072A IN CURE FIXED DETECTOR FLUX LO5A H 1 .5 .03 04 31 34 71 1 N0073A IN CUNE FIXED DETECTOR FLUX LOSB H 1 ,5 03 04 31 34 71 1 1 =.5 .03 04 31 0* 7 1 1 N0074A IN C3RE FIAED DETECT 8R FLUX LOSC H -.5 03 04 31 34 7 1 1 1 N0075A IN CURE F IxED DETECTOR FLUX LO50 N .5 03 04 31 34 71 1 1 N0076A IN CURE FIXED DETECTOR \ FLUX HO3A W N00774 IN C3RE FIXED DETECT 9R FLUX H03B H 1 .5 .03 04 31 34 7 1 1 N007BA IN CORE FIXED DETECTOR FLUX HO3C H 1 ,5 .03 04 31 04 7 1 1 N0079A IN CONE FIXED DETECTOR FLUX H03D H 1 -.5 03 04 31 04 7 1 1 1 .5 03 04 31 34 71 I N0080A IN C3RE FIKED DETECTOR FLUX E05A H N0081A IN CORE FIXED DETECTOR FLUX E056 H 1 -.5 .03 04 31 34 71 1 N0082A IN C5WE FIXED DETECTOR FLUX EOSC H 1 .5 .03 04 31 34 7 1 1 N0083A IN CURE FIXED DETECTOR FLU / F.0SD H 1 .5 .03 04 31 34 7 1 1 9 9 e
1 lll 5$ _2[L* 2 b 52
,z#8 <#E" _P[-- E F:*
O
- AR 3 !11112 1111 111 11111111 1 1 111111 1 111 1 3EC 1111111 12222?222222211 111 1111 1111 1
3 A DG N 77777777S88888888888BB88888838888 1 9 SiG 44 4 4 44 4 44 4 44 44 4 4 4 444 4e4 44 4 4 6 4 44 1 4 LeR 323330030330330333003D3303303303D 8 ITG 11111111333333333333111111111 1111 HSR 333333331111111111113333333333333 7 B AN D 444 44 4444 444 4 44 4 444444 4 4 44 4 4 4 4 4 4e DEAD 00000000000000000003000000033300D M 3333333355555555 . e . . . e . . . . . . . . . . . E 000000001111111133333330305500000 6 R . = . . . . . . . . 1 01 1 55555 C 1 N I MT . . . . . . , . . . . . . . . . . 5 SR I LAM 5555555555555555.33332223035503030 e . = .
* . - = = . = . - - - - - . - - + - 111121 - - 00000 LI - - 66656 AL MT . . . . . . . . . . . . . . . .RRRR . . . . . . . . . . . ,.
IR I 1111111155555555AAAA 0003300000000 4 HAM vVVV3009603000000 LI 1113 56644454 AL 3 11111 . O 3T YPE
- HHHHwHHw>wHHHwHwwwwHwWHHHHW* HHHH A6CDA6C0) ) ) ) ) ) ) 1 8888l11122222222 00O0l111 PPP CCLCELEETTTTTTT T NNNNNNNN) ) ) ) FFF X xXxxXXX UUUUUUUU2222FFF UuUuUUUU( ( ( ( ( ( ( ( I I I LLLLLLLL TTTTDDD FFFFFFFFQQGGUQuQI III P P NNNNRRR RRRRRRRRRRHRRRRRUUUUTTTT N N OOOOOOOOOOeOOOOS( ( ( ( wWWUPP PPPIP O TTTTTTTTTTTTTTTT S I CCCCCCCCCCCCCCCC9o00LLL <R 123R1 T EEEEEEEEEEEEEEEE AA ANNDPP E w TTTTTTTTT TTTTTTT1234EEE=AH I TTTT I EEEEEEEEEEEEEEEE SSSeT 1FUUUAU 2 H DDDDDDDDDDDDUDDDLLLL D H SSS =B C EEEEHHHTLCEE O S DDDDDDDDPTPTPTPT NNNNTTTEMSGGMMMLM E EEEEEEEEO5ScO5ecNNNNNNNLRI A ATTTET U xxxKxxxxT eI eT 5T cA A A A I I I T UT I 5SSk S I! ! II lII HHHHRRHxN SS F F FFF FFFF112233* 4LCCCYY Y HOW 1 1i A2 A 66S CMTT EEEEEEEEGGGGGGGGGGGGAAAN PSSNNN NN RRRRRRRHNNNNNNNNNNNNLLLaE RHEEEEE 5OUUcOO5HHHNHHHHHHHH uMuI I U u O b L-CCCCCCCC 321DURFF H P TTTLAT T MMMMM NNNNNNNN w H. aw H RwWH wH aH we H RadR CCCEM-w R w Po8T II I II I I I FFPwFPvPPPFPHHHLVLT 1 SSSSs L AAA AA AAAAAA 4 AA A A A AAA A A A A AAA A A AA A A B 45678931123456739012791592e931230 1 B 88888R994 4 4444 4 445552233349900002 APM 3000000000300000000011111l334 44 44 RAY O0000003555555555555 00300g00OOO0O V S NNNNNNNNNNNNNN$ N N N N a' PPPPPoPD PPP9P O
cb" i}
.ll)!illll
W~ ANALOG VALUES (Cont'd) u .e y n w - w .4 w w .4 .4 4 w w .-. e .4 e .* a 4 .. 4 s e .4 w w e
- w .*
w O w LJ .4*wwww.4Hw4ww-* .4 m m m tu m m m .4 m w w - - tv n N
.4 O <OO7 mmmmmmmmememem mmWmemmmmmwmmmmmm e
n OHO $4 e 4 4 4e4 444 4 4 4 en e e e e eeee ee ee e n e Jon onnnOOnonOnnrO nnnOnccnnr.mnororn 0 -FM wwwwwwwwwwwwwe wwwwewwwwwwwwwwww TOW 00n000000000nn n00000n00n00n00nn om47O 4444 44 44 44 44 44 4 4444 4NN4444 44444 OW<O 00000000000000 00000000000000000 r * = = = . e . . . . . . e . . . . . emme . . . .mo e . W OOOOOOOOOOOONO OOOONO.4MOOOmm*O00 4 & mWWWWWWmmmmm N Oeee e e *memNNew-w U e 2 re o e e e e e e e e e e e e . . e e e e e mmo e e e e e o e e oWM nOOOOOOnOOOOmO nmmmmm@@OOOnnnnon [ m J4r O0000004 4444 eO W ww w J~ 4@m4@@mwwwww e e NN 4J NNNNN 33 l Is =
- e = e . . e . . . . e . .. e e . *4 4 e . . . . e *
- e wW- 000000000000m0 000W0044000000000 4 14T OOOOOOOwwwwe o Ow e emeewanOOOwoon J- 44m444mmmmmm 4 O mmmmmon mmm 4J wwwwwwwNNNNN w m 3DH www mFF1W IIIIIIIIIIIIIITIIITTI TTI I2 13 II III a
> 111 31 o zzz 1 z ---
1 1 T-t aa w rrt z z z 1 wm r err 7 11-a11- 4 a+F mm'A o s w ww m
- NmWwNME H 2724 na 41U r w w w a ancemwN www a HHHHkke w J mmI w - an< nan < -a o mm s JJarrs N T DD3DODIna111J 111m1Wu>doJJ 444 u O O wwss wmmmexrarzwwxxxx m trwrrrwwNm4Wx na 4 1114 4 110wd4 i W WWWFHkW Till 11 WWIaal l O MAk AAAkYYYYYTO77 kw ****344 Wad a a w a s a x - - t z z "r z r 7 z w m w w w w m a m 1 mmmmmmuwwwwww a s a a w a is as 77r 4 ~~~~~~wxTwrrrrrrrtwx--iss-zz?zzzzxxxxxxze emzz777z7nwnsx mmm aWWWaww 333333- >~~~~~~~m-IxW3-~~
DDDDDDDwWAm'AAJAWM4 4 4 4 4 4 4 DW33YnnD mmmmmm ex rerswruzrarrmtrr rrrrrrrawawwwr4 4 J2222222-n~nnnnnxxx11 xn1aunemenvadsva1xenn A m m 'A A 'A *A l a 1 1 1 1 A A 'A T U U U U J U u r w - I IHwF
- J d 1 4 4 4 <44 44 44 4444 44 4 4 44 44 444 4 << <<<
o wmmnwmmOwmmemesemnemmenenwnmonoom w z mmN444 4memememmmmOnnOOwwOnOOOwwww
<ar 4 4444 444 4 44 44 444000000n000000000 x4> OOOOOOnOOOnnOOOOOwwwwwwemmmmmmmmm > m ananaaaaananasaanaaansaaaaaaaaaaa TPSIS7 B-24
i l
- 1 INFORMw u.
ANALOG VALUES (Cont'd) ONLy l u4 tr n w w v. og w e w - w w w w w w w w w w w e - w w .4 4 e ce w w e w e - i ce OWW ru es N e m fu m es m N nt at N ne N N ru e m m N es N ru ru w m ne m m w m m w 0 4 0 t9 7 mem4mmmmmmmmmmmmmmmmmmmmmmmmmmmmm i Obn c eeweeweverc e-e e--wever ew-werewer l Jew nonnnonnnnnonnonnocennonnonconOOn m =>m wwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwww TOT Onnonnonnnnnnnnnnnnnnonnnnnnnnnnn bm4'/O d&$444444444e4444*** 2t444444 44444 OWWO 000000000000000000000000000000000 r e e e emo e e e e e e o e e e e o e e o e e e e . e eme ... W OOOcemNOMMOOOOWNOONNmobmOONO.Noww
@ E wmed w m -NNNw wm m wem N m i U /
e Th e e e o e b abbbh e e ed eNN obb6SSNS e e . 6 e e . OTw nonOne Ce o e enOO e O* *Oe *
- e o e eOOOOenn
( m J<E O 4 44#4
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- WJ w t e a 9 4 4 t e e e et t e e t
[ i Es e e e e e e e e c e e o e e e e e e e e e e e e e e e e e o e e =
"Tw onOOmOOOOOOOOOmmOOOOOOOmOOOOOmomm 4 I4E Jw OOOOwomOOOOOOObwoommOmmh00mOwMoew mmMm O 4 wNhbb4 to w@N#40 6 O <J w w e w w w w ,
mF>1W IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII s 1 1 1 1 > 11 13 1 1 T W1 Z D D F 11 WN
~2 I 111 I I I 1 -OW 1 U AU TV T2 ZZ E MT m ZZZ m I >m OW11-~ >- E D V - DDD Ya U Uw Im U Z WHem H O ~~~ HO m 20 ERWT2 e m m FFH w 24Hwh> ~ O UW & 4 UUU RS O 7U UXIOII h WOMT > w 333 >w ~w WU 1
e w a U mmm U m 4 T- U4UU N T
- kW11 EWaa a W13OXGNWW 404T E WSU E E DID Aw wm U T Z T W J Z J 1111 s w.4 a J Z 1 J11 a l a 10a4ULUU m <<<OJwJ Ja J w < Y'J W r W W W
D 1 1<W<WZEEE311EW42WEEDEE42>1kTLET JUWWIYIwwwwrET*IYw rw wAH-Iw m e m I M O7 M AW m ' m 111 Ym m O(a mmmWmW4 44W11/11 1 Y w w w w Y d 4-4 kWWO<<<O<<<TTI4DTODDT DTWO <>>O>> mHm-4Nm 4 m N F M w e4e N m a m ? N ee W T m uf W W as
~Iw3 2 33 E T W 7M2 2 DWDJxx<wxw4 4xx>Wx434 4 6- *- 3 ut T T +- I ' 7 i TTELIIIIIIIDODIIIIIII IIMIUOMMImm .WWW E - - -244 < <
DV2Ia111111WWWa111131Ha3D1DDJJ1JJ wkwWJIJIJJIkku2JII-JJJAIIEIwUkaJ14 J O m n e4 m N m N m N m N 4 in c n N m m N N N to N n m 80 O w m 4 e N m e m "NNmOOwwNN444 4m444bemmowNNOOOnOOO
<1E- -OOOONNNNNNNNNNNNNNNNNNmmmmmmmmmmm_
T4>
> m NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN 11h11Q131aaaaaaaa11aa11alaha10131 >
B-25 -TPS157
~ _ _ . _ _ _ . _ .
ANALOG VALUES (Cont'd) O tb4 WD wem+menneaemeneaeesceeMMeneemesee e OWU m w N m e w e e w w w w e e .4 w .4 e e e w w w 10 m afi m 4 to 4 in e e O 4007 mmmmmOWWmmmmmmmWWmmmWWmmMMM2mmWmm Y vHO eeeesee edmeme eWee eeee eee eee e eeeMw AOU O O O O O O O O O O O O O O O O C C O O C O O O O (* O O O O O x x m wkO AMHMnHMawNaNwaNsename&HenneAnAm t s TOW 0000000000000000000000000000000 6 4 h m470 44NN44 4444 4444 4NNNNNNNNHwee **wm4 4 OW40 00000000000000000000000000000000O E o e e e e o e e e o e e e e o e o e e e e e e m M N M m m e- se e i W NOmwm0000000m0000000000DeO*O0
**Dmm@ men ONNNNNNNNO e
- O 000 ONN
@ U m O O O U e e e /
w TH ob e o e e o e *N
- e e e N o e o e * * *
- m W. H M IO m m 4 I Y D&w DeO4mOOOneOOOO N eOOODnOOOOOOOOOOOww O*Oe OOOOJJ 10 J4T 4N 8 0004 6 e O O 00 eO00 f
Ja a mmmw m O O
- O OJJ
<J t N e e e e e l
re e . . e e . . e o e e e . . . . e e e e e .emew e eme 4 e e ] w&w 00000000000mO000000000000eO000000 ' O T<f MOOMOOOOMOOwOOOOOOOOOOO *M M e 00 ' Jw OH @mmmmOOdawCOOOOOOOO """w""""A 66 MJ H """NMN , mHF1W IIIIIIIIII3IIIIIIII273IIIIII3IIII NNN N HHH wm- H ZZZ w T T T
~333 Z I Nw -- DT < < s 1 O - <W H11aa < O WT TZ 2 I w N3 D RZ %< X ~4 t U 12222 E J Ew < % TO TZO 2 m 3*wwk O O TWO O l C = kw wm W WJ JZ 0-3 m 3 ~ O k TW27m U mm Ow 2 Hko 4 0 l
! H ~ 1 W t:1 W D o Kw D37 EE UwJ2OHJ 3 ES O HHHwT3W> TD THE < WTD TD w DN e<< < O 3E O W 73 W 7< WH< N 7 3 N 2 s vi xDW 20WDT T WJT471T U UE IWOOO Tham 7040U024% UDOW D l m <E OWWWwDI D-TO MT 69 > 6kmD W >1 J4WWW H WZ HMC-DO E <wW4H <OO 3 wWsawT4Y>D 4 4e 7Z7ED 34+T77+74 D 221DM WTWMw TZmV--ODH WWWDZW 1 wY < DUNWwwwSWw OOOTT 9 747 > wW7e = 4 07JH wZ~U4 47TJHJJ2 O WIW HEW 7 W4m7722WT<HOW<Wwww JH7m Om4 70WW MTOW2WWW333WmJOH D133WD4-ZO WJw TT OwDmw333m MT 7k DDJTT4WM EWM 4 rDD UIT k MHm H obo J aHCHO34UHH4UU OZ EEEWw W2=x-U1 wxXE2DZZ3WDZZW 21HWSvek T27W737WW3334D4DomkTWOH2Z HJIQ>mmm 131034 332u4 4 WUJJUJm1>Umww J < < <<<<<<<<<<<<<<<<<<<<<<<<<4444 4 4 O O O O w e m M M O O O H N M O n e m m e tO m b m m O H N M 4 tO e N M 2 *@OOPON#24 00004NNNNNNNNNNmMMMmmOO dar mmmmM4 444M42WmMOOOOOOOOOOOOOOOOOO Td> NNNNmmmmmOONNNWOOOOOOOOOOOOOOOOOO
> m 111111 aaaOOOOOGOQ Zu&W3 QTORu&QWWHH TPS157 B-26
(w WORAM TIoty
/WALOG VALUE S (Cont'd) Y k
Uden -------------------------->-~~~~~
~ nWU ---------------------------------
O4OO7 mmMMMmmmmmmmmmmmmmmmmmmmmmmmmmmmm m cro JOR xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Fxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx e wem . . . . . . . . . . . . . ....................
,ma . . . . . . . . . . . . . ....................
hW470 44 444444444 44444444444444444444 44 OW40 000000000000000000000000000000000 i 4 I ..................... . . . . . . ...... ' W 000000000000000000000000000000000 l
@ fr U
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN l
\
7 I w EH TEEEEEEEEEETEEEEEEEEEEEEEEEEEEETT crm wwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwww W J4E JJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJ Jw 4J conocenoconcocococcoconoconecocco JJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJ Ep .. . . . . . . . . . . . .......e . . . . . . ...... wWw 000000000000000000000000000000000 4 I4E 000000000000000000000000000000000 Jw bbb5NNbbbbbbbbhbbbbbbbbbbNbbbbhbh
<J \
MHF2W ITIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII 2 o w k 2 N T U M 04NNemem--empNONmme-membmNMO40mNO W -000-000-0--000-00000-000--OO 3 D W J W 4 a a A k 3 3 I I 7 7 7 V r t V E 21 T U U 3 3 J W E 3 3 1 www>>>wwwwww-r-wwwwwwwwHwwwwww>>- WWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWW TTTETTETTETTT12TT22TT22TTTTTTTTET DDDDDDDDDDDDDDDDDDDDDDDDDDDD MDDDD UUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUU 2222222222222222222222222222222
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J 444 444 44 4 d4 444444444 44 4444444 444 O m 4 in 4 N to m ( , e fu m 4 in 4 h trl m n - fu m 4 to 4 h m m O - N m 4 to
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B-27 TPS157 i
W-AN ALOG VALUES (Cont'd) O g34 mn wwwwwwwwwwwwwwwwwwwwwwwww~ ewe-was OwU w w e e w w w w w w w w w w w - - w a w w w w n' N N w w - - w O4OM7 mmmmmmmmMMMMmmmm44 4#OOMMMJ 44# 4J Om e m eko xxxxxxxxxxxxxxxxe e e e4 44 4 4 --- e e e 4 4 jot xxxxxxxxxxxxxxxx t e e 6 000C0C00 6 e e no m ~FO 6 e J e 6 e e e o e e ee e e e e t e ewewwwwww e e ewe T e tr e o e e o e e e ee o e e e e o e e e omonnnnnoe o eno N042O 44444444424 444344 44444 44 24 44 444 44 OW40 0000000000000000000000000000000GO r . .... .......... .... . . . . . . . . . . . .. . W C000000000000000 mODmOOO*4OOOmmmmm www ew 4 7 NNNNNNNNNNNNNNNN # "- U Z
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<J m>>1W IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII w
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W wOOOwwoowwOMOOwo3333DUJ2J > 1111 Y K 33 3 STIIIIJJJJrEZZ21 77773 wX x2Wi ll >> 1 ww>>>>>>wwwwwwwww-wwWTTDT JJJ44 4 J U 3304 44 >> wwwwwwwwwWWWWWWWWWWW TT 22ZZwww TTTTTT22272TTT2T2TTTmWWW3-wammmwN DDDDDDDDDDDDDDDDDDDDm2ZYD3SB UUUUUUUUUUUUUUUUUUUUWWWDOT22HNMws UO3JW 4 44111JJ Z Z Z Z Z Z Z Z .2
--w----- 7ZZZZZZZZZZX44DWIIIUUUJu .------~~~~~wyx>JuuuTyyyy J <<<<<<<<<<4444444 44444 4444 44444 44 'L ChemOwNmem@bemO*bmmON4bOmwNmwNMOw - ~> mmmm444444 4 44 kmmT@DONNN34mmmW@%OO e f- COOOOOOOOOOOOOOOOOOOwwwwwwwwwww44 4's 000000000000000000000000000000000 'N WWH&>> >WWHwwHHWW WWW>>>>>>wwwHwwHH TPS157 B-28
INFORMATloN l ANALOG VALUES (Cont'd) ONty I
%)
- a. rn ---------------------------------
l
- OWU --------------------------------- i < DOZ emmmmm 4444444 mmmmmmmmm44 *444 4mmme - i e mee 444444- . ..-4 4 44444 4 4 - e , , , -4 4 4 4 ,
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( v l i B-29 TPSIS7
t)) AN ALOG VALUES (Cont'd) O Unuc ewwwewwwwwwwwwwwwwewwwwwwweewewen e.e oWU wwwwwwwwwwwewwewwweweN-NNNNNNNNNN w O 4O07 @@@@M4444444@@ mDDO@nWWM4* ** *%DNN4 e *e dweee eev 6 er
@ DWO d edede9 S 9 0 g me42 ese2 2 JOT 0000006 6 6 6 eC00000000000000C0008 E C e wHO wwwwwwp p p p p wwwwwwwwwwwwwwwewww 6 8 e ION 0000000 e t t 6 0000000000000000000 0 t o h M4ZD 44442444444444344 34 42 4 ddt444 0&& $4 OW40 00000000000000000000000000000000O E e e e .... e o e e e .. e e e e . . .e . . . e e e e e . .
W 0000mm000W0000000m0m00m000mm0000O e NNNNNNw w nw ww wcw O T U Z w TH eeeeoeeeeeeeeeeeeeeeeoeeoeeoeeeee OTw NNOOOOOOOOOOONNmOOnnmNOmNNOOOONNN mmWOO em 4mmbbb@mmm m J4I # 8 00000m Jw wwwww mmm 4J re o e e e e o e a e e e e e . . e e e e o e e e e e e e e e emme wTw~ OOOOOOOOOOmOOOOOOOOOOOmm4 dmmOmo ** O Idr NNONNWCWWebOm44000mmmOmomme#404*m Jw ww@wwwwwwww@@@@b4@wmwemwNne wwwOON NN AJ mHHLW IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII HH H H WW HH ' T 33 3 HH ~O CD T37&
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3 Z T W Z Z -MTTOO3mZ3H 7 W AwJHJHDZO ZTT4 OTH ocZZow-DW D JamO4W4m wW wHHH HOUMHHJJ O w m Zw3-32 J J33 6- IDI44UUT TOT H O wwOTOTHT k U < >H HMVHH 1 Jw 1474 I2HHHHWH>W 3>wZmmxx3ITET w e & THTH 3e 044w ( JO2 II N T UFOT J ITETTTJ wl>OTT 3T44 4 U O OTTTT40 HH3a1W Ha4HHHJJZH m O E H W W W W W W O 3 m m m 'A T 03HJEE44JI111 W ZTE411 XImWZ m WWU IEE O TIWW 11DD WTTYYYYT H M 3 'A A 3111 LHm33JJT WWWWWW 'A E m Z 4 D KZ 1 >>WTT WWWNNNNNN WW W4wwtDTJ99 9 4 OOOWWTTTTTI owwwwww IWI U777 JJJ
=> >>HHercZw2TTTTTkch dalaa12 wN3DDEEEE E JWJ333333 3 WwmwLI LEEOeuuu mmmAmmTI I11111w Mmmmmmmmmmm m m m m m m m t- 2 JH111 JJJJJ111111 EJWWWWWW J-JTTTTT M EEE UUUUUUUUUUUHUTTTT22UU<UI IIIIX/ODL TTTTTTTTTTTmT 111111 TTETTTTTTW3UJU J 4 444444 4 44 44444 44 4 4444 4 44 4 444 4 4 4 4 D m*@hoNmsm@hmmOwmm4m4Nemwc50wNmNew e D * ** 4mmmmmmmmmmmmmOmmmmmOOOHwwwwwN 44444 *@@@@@@@@@4 4LE * **** ** *** ****442 T4> 000000000000000000000000000000000 > m &HHHHHHHHHHHHHHHH HH HHHH&H H V t- > HV WH O
TPS157 B-30 t-
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c2:(( O >55o %E0 g8S CAR 3 11111111111111 1111111111111111111 1 0EC 1 221122222222233332222222222222222 _ 3A0GN 1 22884444S48444 4444444B484844 44444 _ 9 STG - LOR - 441 1 1 1 1111 11 1 1111 11 ? 111 1 11 1 1 11 1 3330033303030700303000030033000 8 ITG HSR -- -3333333333333333333333333333333
- 1111111111111 111111111111111111 7 SAN 0 DEA 0 444444444444444444444444444444444 000000000000000000000000000000000 N
E ....e.e...e........ee...ee..e.e.e 000044S555S05233355SS555SS55S5S5S 6 R 111 1 1 C _ N I 5 MT SRI LAM 222200030502020300030050000000000 LI 333377777673734447777767777777777 AL MT . e . . . . . . . . . . . . . e e . . . . . e . ..,.... 88.00055505540530005550550' IRI 4 HAM .5500555 LI AL 440022224028279992222402262233222 0044111111121 22 1111111111111111 O 3 TYPE HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH TT T T TT TT T TTT TT b TT T N T TT TT UUT I TTT tit UU UUT GR - DU T T UUU Uu T CD RB T1 TU DD B TRRUST 2RDUD1BcT U 2 T D RTO T UDT T RRTTRRU _ H TTe TO HwwW RRU T TTT DBTCTWW RR TT Ti U BT TTT RR T wW12Ww SU RTDRAUWGbGUhWRTDRUT NU1ISGGTWHDTD H N IO D NNW NNNS TwHDSUGGNNGGT O HS GLLL GGW H SNNIINNW P RLL GY RNCCCRNN GY R LL LL I T RRS TTS 1TCCGNLHRTL w TLLGNLHfRCCRRCCG P MMLP N LP C T W C A B C W C C N LP C w E XXLCPSM EE N I HGHHC UI LCPS LA oLLxxL 2 R BdTPN GXXXXGXXC UIGS eBHHC C U L3UXR RSDBNHHHHNHH RSDNSxxuU L L XR LCHHCCeex S E PPSTCLLHARHPCCCCCCOOHARRC MM A HTTM RRRR LL BTT LLH D FPKERuuD KKKKK HHORRUM WWPRII II R U wwRTT T T TubD P 3G OCCCCOGGUM O RRU TUdSRGUGT T 4R3RJ UTUUUUUddS A NNLLA RENNNARRRRAdURENNALLLLL LLAATPeHHLLLTI R I II TPDHHLLTHHHwHPeH CCUUSULSTCCCSAAAASULSTCCSSSSSSULS DG PPIIAAAAAAAPATTTTBBBBBBBBTTTTTCCC MMSSPHPPPPPMPNNNNPPPPPFPPUUUUUPPP OOEECCCCCCCOCOBOOCCCCCCCCEEEEECCC CCRRRRRRRRRCRCCCCRRRRHRRRN NNNNRRR 1 L O B AA4AAAAA44AAAAA AAA AAAAAAAAAAA AAAA 237312345678903451234567812356234 APM RAY 222333333333344445555555566666777 666666666666666666666666666666666 00O000O03000000000O00300000300000 V S T7TT7
. T T T T 7 7 T T ~. T T T T T 7 T T T 7 7 T T T T T 7 T
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<J MHF1W IIIIIIIIIIIIIIIIIIIIIIIIJIIIIIIII >H>>
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- ZJIWWOWOOTTTT <W<24m<<XWHHHWWWH H J1UJXTT&TOOSTT11 W111111 T T T T T T
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T JWO721010Hw13wh> EEEEEETTTTTTT ~~~~w-- U 1 JJ3J3Jmm3JmTT>>>> 11TTTT12 1111444444 4 W <VTUU W DHe TTTTTTTTTWW1111EEEEEE DWWW111111w--wwww i O E TYTT->>--wwwEUU ODEEEEEEEE TTUUUUe ZZZZZZZ e * *
- e 4WWulWWW 1 733*H 4 W77444 IJJWW 4D249111--TTIT------T TYTUU--~~e e e e e TTTEET e7272777 HUUWW111111111 111111 M W U UTTWWWW U U W W W W W W - <<< < ~< ~< ~<
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<1E r osseemmmmmm-NNmM44mmNNNNNonOOOOOO 444@@@ce4445NNNNbbhbmmmmmmOOOOOOO T<> > m 00000000nn00nn00000000000n---~~~~
rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr O TPS157 B-32 1
O O O 2 3 4 5 6 7 8 91311 1 T 08 A VRA Y HI Le EA HI LS 03 A AP P ALARM ALARM AN ST ST G E R LIMIT LIMIT INCREM 00 RG RG N C 3 SYMB3L AF UESCRIPTION E T1009A CBNTAINMENT AIR 10 T H 120 32. 5 04 31 c1 4 2 1 T1010A CONTAINMENT AIR 11 T H 120 32 5 04 31 01 4 2 i T10114 CONTAINMENT Ale 12 T H 120 32. Se 04 31 01 4 2 1 , T1012A CONTAINMENT AIR 13 T H 120e 32. Se 04 31 01 4 2 1 T10134 CONTAINMENT AIR 14 T H 120 32. Se CA 31 01 4 2 1 T1014A CONTAINMENT AIR 15 T H 120 32. Se 04 31 31 4 2 1 T1015A CONTAINMENT AIR 16 T H 120 32. Se 04 31 01 4 2 1 T1016A CONTAlk' MENT AIR 17 T H 120 32. Se 04 31 31 4 ? 1 H 120. 32. 5 04 31 c1 4 2 1 T1C17A CONTAINMENT AIR 18 T 04 31 at 4 2 E H 100 60 5 1 T1036A CONTAINMENT DEwPSINT ANALYZER T T1040A CONTAINMENT VACUUM i T H 100 32. Se 04 31 of 4 2 1 # T1041A CONTAINMENT VACUUM 2 T H 100 32. Se 04 31 31 4 2 1 8 H 100 32. 5 04 31 01 4 2 1 < T1042A CONTAINMENT VACUUM 3T 5 04 31 c1 4 2 1 # T1043A CONTAINMENT VACUUM 4 T H 100 32. f H 100 32. Se 04 3; of 4 2 1 5 w
" T1044A CONTAINMENT VACUUM ST Se 04 31 01 4 2 2 T1045A CSNTAINMENT VACUUM 6 T H 100. 32 1 T1047A SHROUD A AIR SUT T H 210. 32. Se 04 31 31 4 2 1 9 H 210 32. Se 04 31 31 4 2 1 4 T1048A SHROUD B AIR SUT T 5 04 31 01 4 2 E T1049A SHROUD C AIR DUT T H 210 32 1 T1050A H1 LEVEL WST ORN TK 2A T H 150 '2. Se 04 31 01 4 2 1 T1051A H1 LEVEL wST ORN TK 26 T H 150 32. 5 04 31 01 4 2 1 33
! T1052A Lo LEVEL WST TK 3A T H 70 32. 5 04 31 31 4 2 1 m H 32. 5 04 31 at 4 2 1 C) C3 l T1053A LO LEVEL wST TK 36 T T2001A T6 MUIST StPARAT 1A STM UUT T H 603 32. 15e 04 31 31 82 1 jijE T2002A T6 MDIST SEPARAT 1A DRAIN T 4 500. 3 15e 04 31 31 4 2 1 -c 1 T2004A HEHTR ORAIN HEC TK 1A SUT T H 550 32. 15 04 31 01 4 ? 1 21 T2005A LP To 1 ExMAUST T H 175 32 5 04 *- -- 31 3 2 1 jf T2006A LPT81 CYL INLET T H 560 32 15. 04 -- -- 1 t H 560 32 15. 04 -- -- 3 ? 1 T2007A LP TU 1 INLET 08ME T 32 15e ob -- -- 32 T200BA LP To 1 AevER P!"E T H 560 1 T2011A Te POIST SEPARAT 18 STM UUT T H 600 32 15. L4 31 31 82 1
@ T2012A T6 McIS: SEPARAT 18 OPAIN I H 500 O. 15e 04 31 01 4 2 1 H 560 32 15 04 -- -- 32 1 gg $ T2014A IMPULSE CHAMBER METAL T i,
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f I r W~ l ANALOG VALUES (Cont'd) gj T O wwwwwwwwwwwwwwwww--wwwwww-e-e--ww AlN N 08N AJ N N A8N 08N N N NNN OWU N N 01 N N N e4 N 01 N N N N w MMMMsNNNNNNNNN NNN ts4007 m M M e d e m o. M m e s t x 9 9 0 S e f 0 f 9 0 $ e f e e t 6
& OHO 9 9 l ece 8 0 $ $ eee e e g JOT $ 6- 8 000 0 > t 0 000 4 4 0 8 O t t t 9 I e e 4 3 t twww e e et www e 4 6 t we 6 e e e e e e e s e t e - H t9 t e e 6 e06 9 e e e e e o e e o e TOW e 6 eOOne a e e000 #2444 deed $4 444 424 6M47O 3 444444*4 deed 000 OW40 0 000000000000 00000000000000 r e e e e . . e e a e . . . e e e e e . . . . . .. . . ...
W N NNNNNmNNNNwN Nmmmmmmmmmmmmm Omm
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<J EH e e e . . . . . e . . . . . . . . . . . . e e e e e e e . . ~&- O 00000m0C0000 00000000000000 000 @ @@OOmb@@@OOm @@@@mememememe Mme O I<E we JM m mm@mmwommemm m m m m m w w w w w w s- www (J
MHHaw IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII H H HZ H w Z -
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O m @ m m w M 4 :n @ b m w N # m W N z m O W N M 4 tn @ b m m O w N M N D wwwwNNNNNNNMMMMMMMM4***44##4 4mmmm 4AI 000000000000000000000000000000000 24> NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
> M &>>>>H>>>HHHHHHHHHHHH&HHHHH>HHHHH TPS157 B-34
INFORty yg9N ANALOG VALUES (Cont'd) ONty-U4To --ww-w----------ww----wa~~~~www--
- oWu m NmmmNmNmmN ni m m m m m m m NmmNni o 400*/ N mNNNNWNNNN NNNNNNNN mm### ; m-o , e . . e . . . . . . . . e---
J T e . . . . e e. . .e . . . . .00o m wse e . . . e e e e e e e e e e e . e e ew-~ Ica e e . e e e e e e e e e e o e . e e econ nm<zo a *o****** * ******** ***** oW<o o onoooooooo o0000000 00000 r . ...e ...... ~ ~ .* -. . . ..... e W T m mmmmmmmmmm mmmmmmmm mmooo U Z rw . . . .. . . . . . . . . . . . .. . . .... eT- o Nooooooooo 0000000o NNNNN e J<r 6 msssN886%8 NbSSSS8N mmmmm 5 J~
<J rr . . . ........ . . . . . ... . .... -T- o cocooooooo oo00000o oooco 4 I<r N enemmemmem memememe e@ooo J~ w mwwwwww-ww wwwwwwww mmmmm <J mHP1W IIIIIIIIIITIIIIIIIIIIIIIIIITIIIII W HFWrwNM4 a' W N m 4 J .! 3 J F J <<<< - < JJJJWW>> o H F <<<<WWW4 /H J WW WWHHEEEE J Z - o E WWWW o .-
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> m N N N N NN N N N N N NN N N NN NN N N N NN N N N N N N N N N >>t->> >>>>>>>HWWWH&>>HWWWh>>>>>>>>
0 B-35 TPS157 1 l t-
L-W- ANALOG VALUES (Cont'd) O _O ________e__.__ e O tel U N fu N N N N ni fu N N Al nt Al N n' N (U N N N N na fu ni (\t ni fu N fu ni fu N fu we O4002 4444#$ 4444 444444 4 4444 444444 44 44 44 e- e
- e v- e e- .- e v4
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J n tr OOOOOOOOOOOOOOOOOOOOOOCOOOOOCOOOO e ea
.* .* e4 e e4 .* * . e . * * ** e4 ("' ed .-*.4 .* .-e a a >- O 4 4 .e .* .* ** e4 .-s ** .4 ** **.-* .4.*.* 'OO att OOOOOOOOOOOOOOOOOOO t'. O O O O O O O O O T C (Y 444***4444444 444 444444444444444 44 i
htnd2O OW<O 00c .OOOO00O00OOOOO00OOOOOOO00OO00 E eeoeee,eoeoeeeeoeeoeeoeoeeeeoeeee L 4 LaJ (r Oe .4 O* O * *O .e.OO .g O 4 O O O O. O O in 4in 4 ,= 4 .4 tne .4 tn.4O e..e O O .a OO .. Oe O O O eO.4Oe O O O O O U 7
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TH Ne02 e No NeNoNeNoN eN e NNe NoRJ ee ON e Ne ng . .N. N. e nJ .fu. N e NeNeNefueNoN eN e CVeNeNeN in O (Y *-* 34 I MMMMMMMMMMMMM M M M M (9 f9 M M M M M M M M M MMMM 1 J .-*
< -.h r e-- eee.eeoeeoeeoeeoeeoeeeee..eeee.eo
[ T~ OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO O O O O fu N 4 to in we .* .-e O b b b b O O O O O O O O O N N 410 tn
- r- 4 . 4I Je* t '9 M M M M M M M 4 4 4 4 in 4 4 4 4 M M M M M M M 19 M (9 m M M (9 4 (J
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H
>- >- Z D >>- >- H e- >- F 2 H >- F e e e co k- >-
O >- F DDZ ." Z
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** >- II) 45E Z Z 7ZZ 7 Z N X Z Z Z Z7 U W >- Z tal t- Z LaJ >- 7 8 1 W Z F- W OO F- == 2 Ld >- Z Lal H -OOO 0 ** O Z in W Ld >- *-*ZW O >- a.
7W O (D O **O wO **t.3 O *e td Z E < Z E < Z E < Z Z < E 1 taJ W E < Z E < Z E < Z Z Z E < Z E < Z O D >- Y D H T D >- Y D D T 6- E W i.aJ >- Y D *- T D w Y D D D >- Y D *- Y D U to O U *.D O U t/) O U U O (n & La. Lt. to O UCD O U :/1 O U U V W O U :n O U
< 4<<<<<< <<< < < <2<<<<DDDDDD4DDDDDDDD 4.-e 4 e e tn in in 4 4 4 4 4 M M Mtu to tn in 4 4 4 m M M (u tu ru fu r- a e 3
KKKK KKKKK KKMK KxxwKXKKWKMKK KKKK KK I I II I II I II I II OW II I II I II I III I I I I I I I
.< #' i111111111111W1111111111111111111 J J J J J J J J J J t II a II I I J .J J J J J J J J 1 J J J J J J < < < < < < er<<<4 4 44 n <o cu < <m<O< m << m<O<ru< m <O< <.-.<m<M< 4< O m< - N<O cu m O m m e m O N m O fu m O - :n - - . . N eu ct M M M 4 4 4 4 4 to tn to tn e e e 8 o o s s ao x e e e m O <1I N N N N N N N N N N N N N N N tu N N N N N N N nJ N N N N N N N ?J M E<>
N
> - >N - >N - > -N N. >- >- N >N- >N- >N- >N- >tu- >N- > n.I - > -N>-N - >-N >- N N * . >N- >N.- >N - >N * - >-e->->->->- - - fu NNNNNNNNNN
!> > cn O TPSI57 B-36 l l
- - - _ - - - - - _ _ _ _ _ - _ _ _ - _ - _ _ ~ - - - - - - - - - - - - - - - - _ __ _ _ _ _ _ _ _ _ _ . _
INFORMA TION ONLY ANALOG VALUES Mont'd) i ud mO ---------------------------------
- owu N N N N N N N N N N N N N ni N N N N N N N n' N N N nt N A8 he ni N 08 Of O 4o07 44444444NNNN4NN4444 44NNNNNNNN444N . o-o -------- . . . .. . . ------. . . . . . . . --- .
JCW 000000003 8 6 eO s 0 0000000 s t e a e 4 6 00cc 2 -HO --------e e e p -e p ------* D 6 e e e e t ION ---e 000000006 9 3 6 0t 4 0000004 9 0 8 4 6 9 4 0006 hm4zo 4444444e궜.#444444 4444 4444444 OW<O 00000000000000000000000000000000O r e e o e e e . . . . . e . .e o e e e e o . . e . .e e o e e e W OOONNNNNmmmmNmmOOOOOOmmmmmmmmNNNm e 2 -------- - ------ --- u 7 rk eeeeeee..eoeeeeeoeeeeeeeeeoeeeee. O OE-J<r NNNONNNNNNNNONNNNNNNNNNNNNNNNNNNN Mmm mmmmmmmm J~ MmmmmmMmmmmmmmmmmmmm.
<J EW e o e o e **enee e emm@@ eemo e o e o ed@@@@@@@ e e em -T- O00000O0* **44444 e e * *e 4 I4r o *OOOo ---Obhb64444044 mmWCWW444 44444hbb4 J- <J 444m44ndOOOOOOONNMNNN NNNN NN 000000004 44 O NNNNNNNN N l
i \ mswaw IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII serr errs-www meme eerswes-cocecoce w xxxx xxxxxxx1 mmmm aaxxxxxxmmmmmmmm xxcencon ~~~x a ocoO Dm>>>&&&oooooooo m s mmmm <<<<<<mamanzmmIII e F zszs
-c-e co**sesszszszrzsuvuo mammmmmm-O-e-O-Ommms z *
- za sz- ~~~z D W e
-o erze -emmxxxarexxxaxxcoo-o nr>>> HWH>>>w>>>We w - u xm r: r r uawsm x r r r r r r r r r r r r >r >r <-~~s mur a
e a m ww es ocoOmtroncoconoconoco N x m z m
<<rmmmm zx zz-wu<<z-z-zwzzs- mmmmmmmmmmmmmmaaa r co- z-~on-mm-o-o-o--oo7z-wrtre u wez-s -eeasam M o -
w zr<trww<<<<<1114<mmuummmmuuuuzzza o nwxtwwwx rrr ~~~r l 1 umoAWkko11a111a1111aa11&a1111444a rrrr rrrrrrrrrrrrrrxyx memxmmmmaasaxocaaaatalaaaaaasocoo m N N r - ~ ~ ~. www w
- MXX 2
xxxxw>>> xxxxxwwxxxxxxxxxxxxxxxxxw kkwwwWHwwwwwwwwwwwwA IIIoIIzzzz2xo l w wxx xxizzzxxxxxxxxrII x i aanwaa11oooowanoconococonocoosaia JIIA IIIIkAkak<<kkAwwWA Ak1AkwuI II< J << 44444 o 444444<<<<<<<<<<<<<<<<<<<<
- m - N m 4 m O- N e s e m # e s O- N m a in O - N m O - N m m e s e <ar OOOoo----o--mNNmmmNmm444 4mmmmssse mmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmm 2<> > m NNNNONNNNNNNNNNNNNNNNNNNNNNNNNNNN erwere-rsererwr-errrrrrrrresrrrrrw i
B-37 TPS157
g fi W AN ALOG VALUES (Cont'd) Ug gO wwwweeweew-wwww-wweeeweew-wwww-we 9 w- O 44 U ne N ni tu N ne fu N N N N N ni N ni nt N N na ni N N N N N N N N fu N fu fu N w .
.O4007 b**44442 #&#****NNNNNNNNN#44 34 ****
M DHO eeeeweeeee eeeee t t e e t 9 e 9 t we eeee eee Jon eC00000000000000 6 8 8 8 8 8 6 8 000000000 W who t wwwwwwwwwwwwweD 9 9 9 9 8 8 8 8 wwwwwwwww TOW 6 000000000000000 0 0 0 8 8 4 6 0 000000000 , i
.hW4ZO to4444444444442442444444444 42 4422 OW<O 00000000000000000000000000000000O !
1 E .. . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . - W D O OO O O O Om m D Ceww OCOD W D D D D DD DD D m WD D mmm 4 g wwwwwww U 7 i
" I j
r> . . . . . . . ............ . . . . . . . . . . . . . . . OK" NNNNNNNNOOOOMNNNNNNNNNNNOOOOOOOOO MMMMMMMMMMMM i O J4E E9MMMMMMM J~
<J EH e . . . . . ........ . e. m. e m.. e. m .2 *m. m. 0 0 0 0 0 0 0 0 0 mEm 44#42 42000O444 O I<T #@@@@@@@OOOO@@@* **** * ** 2000000000 \
ONNNNNNNNNNNNNNOOOOOOOOONNNNNNNNN J-
<J N NNNNNNNNN 'l i
MHP1W IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII . w--- --- !
>WHHHH HHHHHH wNwN 333 STTEXT TTT333333 HHHHHHHHH TDemDO >>HHHHWESSTTTTTT
! T H H D- H H H H W W W W MEEDSS42UO4SUO4
<<<<< JJJJTTTTTT. wwwwNNNNw OHHHHkTKZZZZOCOTTIOOOOOO DWWWmmcD~~~~HHHHHH33333 ww <<< >HwwwHwww 333333333 7 DEEKT244ETETHHH111111 Dcococcescon D HHHHHHHHHHHmmm 333333JJJ &&&ET&&&T M REETrfmmT333 H H WWEWTWWTTTWKHHHHHHHw>
l 1 E 4 2 U 4 2 2'T U U U U H H H w w & H H H H H H E 3 3 3 3 2 3.3 J
~ w wwm m> > n a n e r r rIIII r r_r r r UUUUdWUUU N T 2 EEww=w UUUU42U42U42U40UETETTTTTT U M11111 ---------
m ErErrm< W 111111MM<<22111111111111 E wwwwEEEEEEEEEEEE UUUUUUUUU O - 12ZZZZ1C 11A11%111111444444 .wwwwwwwww 44T 1 YTTTve s YYYY
- 4. DOOOOO 5 3mmmmTTTT.TTTTTTTT
. 7722newnn>wwwwwHTWWWWWTTT W
WDTETTOOOOOO22371 33r3333mmmmmmAmm 003030002 1HHHkeka7772 UUUUUUUUUUUUUUUUUUUUUUUUU IIIII i x xx ETTIT72TTTTT l 31111133 mOST--ww-*.%~wwwwmCSSSTcrt
< I I I J J < < > e r > U U U U 1J J J U U U U U w w w e r eww w t
O <<<<<<<<<<<<<<<<<<<<<<<<<<<lH4444 l C .5 0 w N M a e N o w O e n w N IO 4 6 m m O 4 h & O e N m 4 4 4 6 0
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. <LL MMMMMMMM* 4444442244t*****444*4424
[' r*> NNNNNNNNNNNNNNNmNNNNNNNNNNmNNNNNN
> m HHHHHHHHHHHHHH>>HHHHHHHHHHHVHHHHH g
TPS157 B-38
m
<wJ INFORMATl0N em ONLY I ) ANALOG VALUES (Cont'd)
NJ u-Tn w--wwwwwwwwww-wwwwwwww-www-wwwwww w OWU N fu N N N N N nl N N N N N N N N ns At N N N N N N n. N as N N N N no N O<OO2 *****#4*NN4*NNNN&**** 4*NN*NN4NN4* w m cr0 wwwwecce e eew e e e eewevece e ee e se e ece JOT 000000008 eC00 e e e000000ne ene e O.s e00 m wHd wwwwwwwweeww e e e t ewwwwww e ew e aw e eww TOT 00000000e eOne e e e0000000s e0 1 sne e00 6 M4ZO 444444444 2444444444444kd42 242de24 OW40 00000000000000000000000000000000O r e . . . * * * . e e . . . ..e . . . . . . . ...e e e . . . . W O ds m m m m m o m m O O m m m m m m m O O m m m m m m m m m m o m e 2 e we ww - U Z
~
TH e e e e o e e . .e e e e e e e e e e e e e e e e . . . . e e e e Orm OOOOOCONNNNNNNNNONNNNOONNONNONNNO m J<r mmMmmmmmm mmmm mm mm mmm Jw
<J EH e o e e . . e e mme e memme e o e e e emee mmemmo a wTw 00000004 e et# *** *O000000* *Oe .O e edO 4 T4r OOOOOOOctemed444DDMOODWe*D4*D44mo ,
Jw NNNNNNNNOONNOOOOwwwmmwwCOwoOwCONN I
,, <J NN NNNN NN NN NN j k
mer1W IIIIIrrrIIrrIIIIIIIIIIIIIIIIIIIII HHH TWCHHHHHH DTZ HHHHHHHeDDTTO3dC MH
< DDTTTT & WW r& >
DUO 4DUOH1DHHDDDD HZZ > wwwNNNNM3J<< ww 2 W3ZH32WO H H 1 D O. D T D TD &D THT HHHHHHkJJJWm3J3J OmmHM O2-34w3m W 3333333JJJ IZZ H T HT HK TD Z ODencocWWWT&T&TT WW2U mWumWUSWer D 313MHwkHHHIOOM 3H D3 OB OH4 e* TT&T&TT222rITErr U724m TwmTwmTw<r H HHHHHHHWWW JmDOK JIO I3 IDHU' 1 3333 XTEWWW424 4SMJwuuG4Jr3DH3UrOm
- TTT WD wW - w w I N T UUUUUUUUUU1111113 T44 LTT HT TTTm U TTTETTTmmmrErrrIHimwm1HHH1 Haw-H4 m wwwwwww e e e111111erO EDETTrrrrTrJ W UUUUUUU111 ILUTTil 1 1 A O EEETTTTTT 4W << WD 000 MESSSOO111kHHWWWWWJJJ4%wwW wWMwwl 1 wwwwwww 'Y t rYT Tw-<DDHM - e < < TTT <WTOW 11411411E>
TTTTTTTH&WWWWWWWTmmOUWTTTWTTMTYTW mmmmmmm3 3 AU'r WUUUMZ Zm114 112111 0000000 wi-wwww3MO77WO W W I UUUUUUU>>>>>>>>>UOZwwOUOOOOOOOOOM TTTTTTTTT 24442 ZZZZZZZ274 STTOmmTWWWWWWWWW2OJTTDPDDorDoDODJ HeWrH>>Mmmmmmmmm>U3OCUrVUJUUUJUJA J O w N M 4 6n 4 N b m m w m m # 10 4 0 e N # tO C O W N @ w N @ wNOO M 2 SNbbbbbememmmmmmOOOOOOwwwwNNNmmm4
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44444444444*d444WWDDmDmDWWDDDDWOD [^ > m NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN \ HrHrHHHHr-HHHHerr--H--rrr-HHrr-He B-39 TPS157
1 1 I 3 AN ALOG VALUES (Cont'd) u<en wwwwwwwwwwwwwwwwwwwwww-wwwwwwweww c Owo m m N m m m ni ru m ni m m N m N m m N N N m m m m m m m m m m m m m O4007 2 244**442* NNNN***NN4NNNN*NNNNNNN4 m e-O --ww------ e e e e---e e e s e i e-o e e e e e e-Jeg enOOncocoOs e e eocOe eas e e eno e e e e a e o e-m --O wwwwwwwwww e e e ewwwe ew e e e 0 w e e e e e e Tom 00000000000 e e eOOne eOs e e eOs e e 8 8 e eO he<zO 2444444424444224424444 22d42224444 OW40 000000000000000000000000000000000 .*.
. e e . . *e . . *==e r .........
W g Smbhb5mbmmmmmmbbommmmmmmommmmmmmo
- e -
4 u 2 e e o e e . .e ... e . . . e ... e o e e Te e e e e e .e OE- OOOOOOOONNNNNNNNNNNNNNNNNNNNNNNNN MMMMMMMMMMMMMMMMMMMMMMMMM W J<r J-
<J Is e e e e o e e o e *WmC3 e e *mCmemmeemWWWWWW 4 e
0000000000s * * =004 e e e .e e ed e . ****
-T-O T<r mOOmmOOmmm**2400m4444444 megede**m J- NNMNNNNNewCOOOMMNOOOOOOONOOOOOOON NNNN NNNNNNN NNNNNNN <J Mrvaw IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII e e e- r - e-e r rerr We erre e r I
aza coor e n-n comer ao coco xxx o o
- xxxx xx xxxmememoxerr xmem J11 mommz- mm mmmo n x I -aa xxoon U rWw r110D -AOr&ORDDICO o Oc m - mvre aaJame aJ aJaJer cromr
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10 Ova-JI I T z z < m wwNNNN 4 2 W o m < w-
< m 2 D U www-rrrrrrrrrOrrrrreres N x UT<<s11100 sm2 &
U m xoxamaaazzia11mmraira111ocoo<<mm<
-J1a-wwwoorrrr rrrrrrrr USWwcWMVUU1111TT 11 111111111a111 o
J o <<< dw< n rrrrrrrrr 21111rrr11zzzzJJwzzwzzzzila
< < << <<T77Ynn TT TTYT 111111 1 < >>>>>>>>>>occocosocacocoxraxeoeee wwwwwwwwww UUr r werezzzz7 xxma armarxxmar3 rr ~ ~ ~ ~ -
TJJJJJ JJUUU ITIIIIIIIIrs**77 mmmmmmmmmmIIII--OrroIIIIuuuu
<<<<<<<<<< < <z z xxxxooooo JJJJJJJJJJaasaxxo11o1111-~~~xxxxx kkkmakkakkJJJJODUIIUIIIIUUUUDVDDD l
l J o < < < < < < < < < < < < < < < < < < < < < m< o< < m<O - N m O w O w w wNmemesemONMNmsmOmmos w m ***sse***mmWeseemmmmmmmmxmmmOOweN
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mmmmmmmmmmmmmmmmmmmmmmmmeeeesssso N N N N N N N N N N N N ni N N N N N N N N N N N N N N N N N N N N
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) l TPS157 B-40 1 i
O O O 1 2 3 4 5 6 7 8 91011 T DB A C VRA Y H! LO EA HI LS D D A AP P ALARM ALARM AN ST OT G E R SYMBBL AP DESCRIPTION E LIMIT LIMIT INCREM 00 RG RG N C 0 T2731A BRG CLNG PMP B MTR STATOR T
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H 284 32. 10e 04 31 01 4 2 1 T2743A PRI SHLD PEN CLNG C81L IN 17 H 250e O. 10e 04 31 31 4 2 1 T2741A PRI SHLD PEN CLNG C6!L IN ET H 250 O. 10e 04 31 31 4 2- 1 T2753A PRI SHLD PEN CLNG C6!L SUT iT H 250 O. 10e 04 31 01 4 2 1 T2751A PRI SHLD PEN CLNG-C8!L'OUT 2T H 250e O. 10e 04 31 31 4 2 1 T2801A GEN STATOR COIL.DISCH GAS 1 f H 257. 32. 10e 04 31 31 4 2 1 T2802A GEN STATUR'CS!L DISCH GAS 2 T H 257. 32 10e 04 31 01 4 2 1 T2803A GEN STATOR CSIL DISCH GAS 3 T H 257. 32. 10e 04 31 31 4 2 1 T2804A GEN STAT 8R CSIL DISCH-GAS 4 T H 257e 32. 10e 04 31 01 4 2 1 T2805A GEN STATOR CUIL DISCH GASP 5 T H 257e 32 10e 04 31 01 4 2 1 E T2806A GEN STATOR CUIL DISCH GAS 6 T H 257e 32. 10e 04 31 01 4 2 1 p T2837A GEN STATOR CBIL DISCH GAS 7.T H 257. 32. 10 .04 31 31 4L2 1 T2808A GEN STATOR CO!L DISCH GAS.8 T H 257. 32. 10e'04.31 31 4 2 1 < 7 T2809A GEN STATUR CBIL'DISCH GAS 9.T H 257e 32. 10 04 31 31 4 2 1 e T2810A GEN STATUR COIL DISCH GAS'10 T- H 257 32. 10 04 31 01 4 2 1 g T2811A GEN COLD H2 GAS,1 7 H 257. 32. 10e 02 31 31 4 2 1 ; T2812A GEN CSLD H2' GAS 2 7 . H 257e 32. 'Se 02 31 01 42 1 9 72813A UEN STATUR COIL DISCH GAS 11 T H 257. 32. 10 04 31 01 4. 2. 1 E. T2814A GEN STATOR Cd!L DISCH GAS 12 T H 257 32 10e 04 31 31 4 2 1 S l T2815A GEN WARM H2 GAS 1 T H 257 32. Se 02 31 01 4 2 1 j T2823A EXCITER.COULER AIR SUT 1 T H 257. 32. Se 02 31 01 4 2 1 i T2821A. EXCITER COULER AIR SUT'2 T H 257e 32. 5e 02 31.31 4 2 1 -- T2822A EXCITER COULER AIR IN 1T H 257e 32 Se 02 31 Ot 4 2 1 5% . ! T2823A EXCITER.COULER AIR IN 2 T H 257. 32. Se-02 31 01 4 2 i C3 l T2824A GEN SEAL BILLAIR SIDE DUT T H 125e 75 3e 02 -- -- 2 2 1 h!jy. T2825A GEN SEAL BlL H2 SIDE-SUT T H 125. 75. 3 02.-- -- 2.2 1 ((y, T2826A GEN SEAL'BIL' AIR SIDE IN T H 125e 75 3. 02 -- -- 2 2 1 23 T2827A UEN SEAL DIL H2 SIDE IN T H 125 75 3e 02 -- -- 2:2 1 O T5400A HCL 1 1 TAvu (UNIT 2) H 595.- O. 15e 04 31 34 81 1 If LT5403A RCL1 1 DT (UNIT 2) H' 120 *2e Se 04 31 34 81 1 g T5423A HCL 2'1 TAVG (UNIT 2) H 595 -0. 15e 04 31 34 81 1 g T5423A HCL 2 1 DT (UNIT 2) H 120e -2. 5. 04 31. 34 8 1 1 . g T5440A RCL3 1 TAVu (UNIT 2) H 595e D. 15. 04 31 04.8 1 1. l$ a __________________._____._..____m
W_ AN ALOG VALUES (Cont'd) U4&O wwwwewwwwwwwwwewsweee-weewwwwwwww w AWW e N m m m N N no N N ni N N N N N N N ne ni N N nt ni ni ni ni ni N ne N ne N w O<OO7 m***44*4m4 #4NNNNNNNNNNNNN4 44 444 43 e we e m cHO dewe ee e e eewe t t e e e e e s e e e 8 ee we ~e JDW C00000000000s e a e e e e a e e e a 9 00000000 m wFO wwwwwwwwwwwwt t e F 9 t t t t t t t 4 wwwwwwww TmW 0000000000006 8 9 9 e B e e e e e e 8 00000000 sW420 444*d444444444444 44444444444 4 4 4NN OW40 00000000000000000000000000000000O E o * *
- e o e e . . . . . e .. e e e e o e e e e e o e e . e o a W WMMMmmmmmmmmmmmmmmmmmmmmmsssNsssN :
e W
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T> *******eeoeoeeeeeeeoe***e*****eea DW~ NWOOOmOOONNNOOOOOOOOOOOOONNNNNNNN 8 4t*40sssMMMossssssssssssMMMMMMMM O J<r Jw
<J EF e e e o e o e o e o e e e e e e e o e e e e e e e e e o e e e e 4 ~Tw Om O O Om m m m O O O O O OO O O O O O O O O ON o s s s s s s 4 I<r NOmmmONNNewwmemmmmmmmmmmmmmmmWWOm ww wwwwNNNewwwwwwwwwwwwNNNNNNNN Jw
( J MHb1W IIITIIIIIIIIIIIIIIIIIIIIIIIIIIIII
->ss- ~~----~~~~---wwww H N N NNNNNNNNNNNNNwMwMrH*HHw wMesmw>>
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D IIIIIxXI 6444000000
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ZTTTTTJJT < < << < < < < < sntm>>>>>r W 3 H w w w w I ID-H T Tw w w w > > H W H <<<<<<TT 3 MT <<<3A*A13--JJJAJ4JWJTTTYwwwwWwAJ D < < E E E E E E E E E I I I I'A m m m m 'AwH 1 +3NNN3*w3 wsw- ~~
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- e 7332<TUwNmemeNem ZZZZZZUU JDDDJWWJ 22mtWWWWWWX X HUZZZUZZUOOO3Od303COOH > > > 3fS O*O C 3 W J 333TTTTITTTT UDDDSOTOSCSSSNNNNNNNNNNNN M 4 W H H O .N N.1 T T T J1ZZZ1 e e e *
- e e e a e e a UUDDDUDDUIIIDmitTTTSDDDODDDDDDEDD TTUUUT7ZYAAmenw~n~nWW Z27Z27ZZZZZZ J < <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
D m e M e m e m m s s x m e m m s in e s m m O N 4 e w m in s m m n w w m 4M444 mees 4#4 eeeeeeeeemmxmOOOOOwmN 4 e e e e e e e e c, 000000000000 D OOm e m m m m m e
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1 ANALOG VALUES (Cont'd) INFORIMTION. ONLy U w W O- wwwwwwwwwwwwwwwAwwwwwwwwwwwwwwwww w OWU N m w w e 4 4 4- m w-w- 0 4002-e WWWWeemme e m Obd etwwwwmem e J c E. . COOOOOOOO O W ** F O wwwwwwswd e TMF 000000000. O b 2420 4 4#444we 4 OW40 0 0000000 O r e e awmmwm . W m 00*O0=O N WW 4 2 * = m O U e Z w Ik e e e '. . . .. e mEm O 0000000 O m J4T m Jw e
<J l - re o e-o . . e so e wEw O OONewmN 0- ': p' 4- I<E W we e O-Ja O em = w -(J ww i
l \ M Hk1W I I I I I I I I I I I I I I II I I I I I I I'I I I I-I I I'I I I l- n L a !- s +. W m-E w r .- O J l' 2- 02 e ZWV in M 2W k e H W .We ZU A 1 O Uw1Wm2 ... . . .. . w'- 4-N E FE- ZmKOEm<<<<W 4 4 4 4 4 4 4 4 4 4 4 4-4 4 4-4 4 4 4~ WZ W**2222>222222222722222 U-M JW-DW E4222H4444J<<<<<<<<<<<<<<<2277 WieeWmOUUU<UUUUUUUUUUUUUUUUUUU lW >W kMwwum 3333>3333333333333333333 O E W W(AtA U D 2 Z Z Z Z 7 2 2 Z Z Z Z Z Z Z Z Z 2*. Z 7- 7 7 7-- in E' Z Z.W 1 J 1 3> . 34< 1 1 1 1-n 1 1 1 1 1 1 1 1 L 1 1 1 1 1 1.1-1 1 1 L l '- 4 :O W OOZ 11 E E mec cE c c em m e m ec e ce m e ce m ee' It -w W Ww X X c e m m m m H
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m m 2 S C O S S m m m m m e S S S mm Mwil< - D D W W W W e W W W W W W W W W uf W W W W W W W W W . OUHMMUkkEEEEEEUEEEEEEEEEEEEWEEMEKW. l-uw <<<< .<<<<<<<<<<<<<<<<<<< CWSSSwwss1111m1111111111111111111: 0%WWHOOFFmWmmetOMMMWWWmmWWmWWWWWWM. J c <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<< w w O H N # en @ N o w N m e m 4 S e m O W N M e m @ N e m O W N M .
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B-43 -TPSIS7-
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+
ANALOG VALUES (Cont'd)
--e ..-tj < w n 'w-wwwwwwwwwwe-weneceww"wwwn"wewww w OWU mmmmmmmmmwewN w
mememememmmen o<o0? w m c>o weeeeeeeeewee Jon o00000000000G ' m -HO wwwwwwwwwwwww TC& A000000000000 nm47o NNNNNNNNN2*eN oW4o ooooooooooooO I N. N. N. N. N. N. N. N. N.mmw m. . ..m W e E U 2 '- IF . . . . . ........ f OT- oOooooooOOoOm e I m J<r
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INFORMATION
,, WILY ANALOG VALUES (Cont'd) s- )
U<En wwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwww w OWU wwww N nt w 04002 mem@ OM w m OFO wwww - - - JOE 0000 00 m -FO wwww ww IOK nonn On hD4ZO dead de OW<O 0000 00 r .... . . mm W mmmm 4 E U Z Eb e e . . . e OEm C000 00 m J<% O Jw w
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- 222277 JFFFZZ222Z22227Z22Z7 727Z2 > wwwwww wwwwwwwwwwwwwwwwwww wwwww 1 ZWWW = WWWWWWOOOOWWWWWWWWWWWWWWWW WWWWW.
N 2 00'0000w111'0000000000000000 C O (9 0 'O U <<<<<<> <<<<<<<<<<<<<<<< <<<<< W >>>>>><wNm>>>>>WWWWWWWWWWW H&WWH W JJJJJJW JJJJJJJJJJJJJJJJ JJJJJ 3 DDDDDDWWWWDDDDDDDDDDDDDDDD DDDDD 1 2444 W 4 U U U U U U w 'O O D U U U U U U U U U U U U U U U U F W U U U U U 0000000 0000000000000000J100000
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<1I 000000000000000000000000000000000
,f % T<> 4444 4*444*2444*44244444 4444444 444 s > m >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> \ B-45 TPS157 1 d
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3 o S 6 7 8 91011 g 2 s y i T DB A C
$ Y HI LS EA 41 ES D D A 3 VRA P ALARM ALA99 AN ST ST GE R AP 3 E LIMIT LIMIT INCREM OD RG RG N C SYMdBL AP OESCRIPTION 1
H Y4055A SPARE T/C INPUT H 1 v4056A SPARE T/C INPUT H 1 Y4057A SPARE T/C INPUT H 1 Y4058A SPARE T/C INPUT H 1 Y4059A SPARE T/C JNPUT H 1 Y4060A SPARE T/C' INPUT H 1 Y4061A SPARE T/C INPUT H 1 Y4062A SPARE T/C INPUT H 1 v4063A SPARE T/C INPUT 1 > H Y4064A SPARE T/C INPUT 1 $ H Y4065A SPARE T/C INPUT H 1 5 O Y4066A SPARE T/C INPUT H 1 Y4067A SPARE T/C INPUT H 1 [ to Y4068A SPARE T/C INPUT H 1 { l Y606pA SPARE T/C INPUT H 1 Q
- v4070A SPARE T/C INPUT 1 8 H
V4071A SPARE T/C INPUT H 1 3 Y4072A SPARE T/C INPUT 4 i s Y4073A SPARE T/C INPUT 4 1 Y4074A SPARE T/C INPUT H 1 Y4075A SPARE T/C INPUT 1 ( H Y4076A SPARE T/C INPUT H 1 V4077A SPARE T/C INPUT H 1 Y407BA SPARE T/C INPUT H 1 v4079A SPARE T/C INPUT H 1 Y40 BOA SPARE T/C INPUT H 1 Y4081A SPARE T/C INPUT w 1 Y4082A SPARE T/C INPUT H j l Y4033A SPARE T/C INPUT H 1 Y4084A SPARE T/C INPUT H 1 Y4085A SPARE T/C INPUT H 1
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$ EA 41 LS D 3 A $; VRA Y HI LO P ALARM AN ST.87 3 E 9 AP ALARM E LIMIT LIMIT INCREM DD RG R3 N C J SYM86L AP VESCRIPTION 4
H 1 Y4121A SPARE MA INPUT H 1 YS}ggA S58ARE MA INPUT H 1 Y4123A SPARE MA INPUT 1 H Y4124A SPARE MA INPUT H 1 Y4125A SPARE MA INPUT 1 Y4126A SPARE T/C INPUT N
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24 25 26 21 22 22 C 20 13 142915 1617 18 19 U S A 1
~st D R C ST P GL CN N CSNvTO CONVTO F 4 R E L EY A RO AM SENSR SENSR I VALUE VALUE UNITS I o V S B NP R NC 68 SUTPT HIGH HIGH LOW SUTPTT VRA LOW AP 0 P R SE A DN LH SYMBOL INSTRUMENT -10 235 S1EPS 3 2 2
IW L =H N AH
*= -*150 3 525 -V 10 235 STEPS 3 2
C0001A HE IW L =H N AH
-- - 150 3 525 =V -10 235 STEPS 3 !
e- - 150 3 525 -V 3 C0002A HE I W L -H N AH =10 235 STEPS IW L =H N AH == -.150 3 525 -V 235 STEPS 33 22
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C0003A HE *10 C0004A HE I W L H N AH == -e150 .150 3 525 -V -10 235 STEPS 2 C0005A HE I W L =H N AH 3 525 =V 10 235 STEPS 3 2 3 I W L *H N AM == -.150 33:525 -e150 -V 235 STEPS C0006A HE *10 2 C0007A HE IW L =H N AH == . 150 3 525 -V 525 -10 235 STEPS 3
-V 235 STEPS 3 2 $
C0008A HE IW L =H N AR - 150 3 525 -V =20 235 STEPS 3 2 > C0009A HE I W L -H N AH -= =10 3 2 o AH == -.150 3 525 =V 235 STEPS COO 10A HE I W L =H N -10 3 2 $ I W L =H N AH -- .-.150 150 3 525 -V 235 STEPS C0011A HE 10 2 > i' C0012A HE I w L =H N AH -= -.150 3 525 -V 3 525 -V -10 235 STEPS 3 2 E 3 C0013A HE IW L .H N AH == .150 3 525 -V -10 235 STEPS E 3 P g C0014A HE I W L =H N AH -10 235 STEPS 9 I W L .H N AM -= .-.150 150 3 525 -V i 3 2 C0015A HE -10 235 STEPS a
$ 3 525 =V 3 2 C0016A HE I W L *H P AH == .150 3 525 -V -10 235 STEPS 3 2 s C0017A HE IW L -H P AH == -- -10 235 STEPS 2 j?
3 C0018A HE IW( .H P AH == . .150 150 3 525 =V 3 525 -V -10 235 STEPS 235 STEPS 3 2 m C0019A HE ! W L -H P AR -- -.150 3e525 -V -10 3 2 jp $h C0020A HE IW LHP AM -- .150 3 525 -V -10 235 STEPS 2 rF 3 C0021A HE IW L =H P AM -- -10 235 STFPS 2
<2 C0022A HE I W L .H P AH .150 3 525 -V -10 235 STEPS 3 2 ff I W L .H P AH == -.150 3 -.150 525 -V 3 C0023A HE -10 235 STEPS 2 at l
C0024A HE I W L .H P AR *= 3 525 -V -10 235 STEPS 3 2 C0025A HE I W L -H P AH
-- -.150 3 525 -V -10 235 STEPS 3 2 3 C0026A HE AM -- -.150 3 525 -V -10 235 STEPS I W L =H P *= -e150 3 525 -V 235 STEPS 3 2 2
IW L -H P AR C0027A HE -10 3 C0028A HE I W L =H P AR -- -.150 3 525 =V 10 235 STEPS 2
- 150 3 525 =V 235 STEPS 3 2-C0029A HE I W L *H.P AH ** -10 3 I W L -H P AH -- --e150 150 3e525 =V 235-STEPS C0030A HE -10 2 C0031A HE I W L -H
- AM 3 525 -V -10 235 STEPS 3
$ C0032A HE I. W L H N AH == -.150 3 525 -V $ C0033A HE
1 13 142915 1617 18 19 20 21 22 M3 84 25 26 <2 3 Q 'O '- / 23 D R C ST P bL CN U S A R E L EY A RO AM SENSR SENSR N CSNVTO CONVTO $ vRA I VALA: VALUE F R AP V S B NP R NC BB SUTPT SUTPT SYMBOL INSTRUMENT 0 P R SE A DN LR LSW HIGH T LSW HIGH UNITS i 0 1 C0034A HE IW L -H N AH --
. 150 3 525 -V -10 235 STEPS 3 2 ,
COO 35A HE 1W L -H N fH --
.150 3 525 *V -10 235 STEPS 3 2 C0036A HE IW L -H N AM -- e150 3 525 -V -10 235 STEPS 3 2 :{
1W L -H N AH -- .150 3 525 -V -10 235 STEPS 3 2 C0037A HE 235 STEPC 3 2 C0038A HE I W L -H N AM -- 150 3:525 -V 10 COO 39A HE I W L -H N AM --
.150 3 525 -V -10 235 STEPS 3 2 C0040A HE I W L -H N AH -- .150 3 525 -V -10 235 STEPS 3 2 IW L -H N AH -- .150 3.525 -V -10 235 STEPS 3 2 C0041A HE 235 STEPS 3 C0042A RE I W L -H N AH -- - 150 3 525 -V -10 ?
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C0044A HE IW L -H N AM -~
.150 3 525 -V 10 C0045A HE 1 W L -H N AH ** .150 3 525 -V -10 235 STEPS 3 2 5 C0046A HE I W L -H N AH -- .150 3 525 -V -10 235 STEPS 3 2 I W L -H N AH -- .150 3 525 -V -10 235 STEPS 3 2 5 C0047A HE 235 STEPS 3 2 E $ C0048A HE I W L -H N AH -- 150 3 525 -V -10 I W L -H N AH ** e150 3 525 -V -to 235 STEPS 3 2 0 C0060A HE 235 STEPS 3 2 8 C0061A HE I W L -H N AH -- .150 3 525 -V 10 1 W L -H N AH -- .150 3 525 -V -10 235 STEPS 3 2 $
C0062A HE 235 STEPS 3 2 s C0063A HE I W L -H N AM --
-.150 3 525 -V -10 I w L -H N AH --
a150 3 525 -V ~10 235 STEDS 3 2 C0064A HE 235 STEPS 3 ?- C5017A HE I W L -H N AH -- .150 3 525 -V -10 I w L -H N AH --
.150 3 525 -V -10 235 STEPS 3 E C50184 WE 235 STEPS 3 2 C5019A HE I w L -H N AH -- .150 3 525 -V -10 1WL -H N AM -- =150 3 525 -V -in 235 STEPS 3 ?
C5020A HE 235 STEDS 3 C5021A HE I L -H N AH -- .150 3 525 -V -10 2 I W L -H N AH --
.150 2 525 -V -10 235 STEPS 3 2 C50224 HE 235 STEPS 3 C5023A HE IWL -H t4 AR -- .150 3 525 -V -10 2 I w L -H N AH -- .150 3 525 -V -13 235 STEoS 3 ?
C5024A HE 235 STEoS 3 2 C5025A HE I W L -H N AM --
.150 3 525 -V -to I W L -H N AH -- .150 3 525 -V ~10 235 STEoS 3 ?
C5026A HE 235 STEPS 3 C50P7A HE I W L -H N AH --
.150 3 525 -V -to ?
C5028A HE I w L -H N SH -- .150 3 525 -V -10 235 STEDS 3 2 I W L -H N kW -- .150 3 525 -V -10 235 STEoS 3 2 C5029A HE 9 9 e
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/ ANALOG VALUES (Cont'd) \
s U4TO N N N N N tu N N N N N nJ N N N N N N N N N N N N N N N N N N N N N d th k. w mmm # e m m m AJ N N N m m m N N N N m m m N M N ne 4 m m to 10 N m en H m En m N
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U OW3 000 000000000000000000000000000N m F3c www e N >JJ e e e 24 c> U N32*H >>> >>>>>>>>>>>>>>>>>>>>>>>>>>>> N e e e e e e a e ee e e a e b e a e o e e e e e o e e e e e e w THI mmm 0000000000000000000000000000 m1C NNN wwwwwwwwwwwwwwwwwwwwwwwwwwww N ZHM mmm W3I e = me mmm TF2 000 0000000000000000000000000000 O mAC mmm
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hi<T4 ZZZ ZZZZZkZz2ZZZ12Z222Z12ZZ ZZZ w - mbhaW IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII wmWZW r o e e oe ee e e o e e e o ee e e e e e e e o e e a e e o e e OUJDK JJJ mmmmmmmmmmmmmmmmmmmmmmmmJJmJ w mTWmL 323 3333333333333333333333343334 N eOT>O ~~~ -----mmmmmw-Damm---mmnam=~~m W Z W 2 2 S w O M E N N N O D w 3 6222 m222 mDS2w2U w T NOtm&d&&Demht4*D&D&OD#DeetDe F NmwwwabbNNNNsememMmemmmmetO> O meteewe***ddwt****de###<24@U Z NNNNNeNNNNNNeNNNNNNeNNNeNNN e 0000000000000000000333330003 kkkkkkkkkkkkkkkkkkkkkkkk11kk W W W ~ m > > U U U S O O *3 U U U C O O D U U U O '33'3OUUUm TTTITUUTTTMmm'ATTTmmmmTTTmmmmmTT<> J <<<444444444<<<<<<<<<<<<<<<<<<<<< O O w N O w e t o w N m ein 4 0 w N m 4 m c O H N m e m e O m
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CAR 3 222222222222222222222222222222?22 5 2 SFI 5555544444 4444444444 444 4?22?33333 S 5 T H 7 I N FH4MHHHHHHHHHHHHHHwHH4HHwHH CBBBBBBBBSBBBBBBBB3BBBBBB3BCcCCCC Q SK<<KK<<<<<<<K<<<<<<<<KK<<<PPPPPP OEH TUG 00000303000a300055003003030333300 05555505505b005677030005000000000 0 033337977977067 117777670001 11111 555 2 vLI 11 119 NAH 5 1 SV C OEW OOOOOOOOOOOO0oOOOOOOOO000OOOOOOO0 3 TU8 2 VLL NA 8V C 2 UNIT 2 VVVVVVVVVVVVYVVVVVVVVVVvvVVVVVVVv _ 2 RTH SPG 000000500500050000555550000000000 111111 11 111 1111 11111 11111 2 NTI EUH SD 0 RTW SPS 00O0001OO10O0100001111100000000O0 2 NTL EU SS 9 9NMBR - - * - - - * - 1CABL 8LBCN 1GHND HRNRHHRNNNRNHHRRRRhNRHRHRMHRHMHHR AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA NNNNPNNNP 7 PARA 1 6 TYPE 1SENS HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH
--------------------------------- I IILLLLLL 5CLBH LII!IIIIIIIIIIIIIIIIIIII 1
9 RESP AAAA AAAA AAAAAAAAAAAAAAAAWWwWdWWuW 2 4DRVD 1 SSSSSI SSI SSI HSiSSSSSSSSI 6BbI 1 II 6I T N ABC0AA A6BBC A A ABC066 3 E M 0555500200207917 00000010010000000011110077/ 0811119166B 4 4 7 8 1 U 111111111111111111111111789 - - = - - - - ' - 4 44 o*567
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N TTTTT TT uDDDDDDDDD I uuuuuuTuuTuuuTuT FFFFFFFFFFFFFFFFFFFFFFFFFFFLLLLLL SBBBBXXXX XXXDDDDDDDDDDDDGGGVGGGGG VTTTTHHHHHHHCCCCCCCCCCCCSSSCSSSSS L O AAAAAAAAA A AAAAAA A AAAAAAAA AA A A AAA A 145673333333156257012356333231230 1 APB RAM 01111 045601200046 45555660241 00002 0000022223335555555555554441 44444 V Y 1222222222222222222222225S53OOOOO FFFFFFFFFFFFrrFFFFFFFFFFFF FLLLLLL S 9
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N N N N N nt N fu na N 1
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<<<<<<<<<<eOwOOOOwNmemwNmewmm <<<<<<<<<<<< 444 s <<<<<NmnwNmin#4 w ni m O w mememowNOOONerOOOOOmmmm 444OOOOOOOOOOOO
(%) Q. w <am o NNNe#44 444####44444mmmee4 nemOOOOOOOOOOOO e<r OOOOOOOOOOoOm m aaaaaaaaaaaa_NNmNeisaaaaaz7zzzz2 . m I TPS15-B-53 \
W-AN ALOG VALUES (Cont'd) (3 4 T o N N N N N N N N N N nJ N N N (U N N N N N N N N N N N N N N N N N N 4 N MkM wwwwwwwwwmmmmmmmmmmmmmmmmmmmmmmmm m m F WVHWH>>>>>>WWHVH&&V>>HVH N - HHVHH z JJJJJ JJJJJJJJJJJJJJJJJJJJJJJJ 3 MommmWUUUncecommeommmenooncocoonn
>>>>>&&&1>>>>>>>>>>>>>>>>>>>>>>>>
oWx WOmmmocoowwwwwwwwwwwwwwwwwwwwwwww NNNN Q H3o N >J- wwww z U m ow3 H3D oooooooooooooooooooooooCoCocoooOO N >JJ z< e> U N3zwF r>>>>>>> N >e >e >e >e >e >e > e>e>e> e>ee>o>e>e> e> e> >e >s >e >e >e >o e e>ee e>ee e e e e RFI MAC mmmmmmmmmewwwwwwwwwwwwwwwwwwwwwww N zW. W3I MD o
&W3 MAC ooooooooooooooooooooooooooooooooo N zwJ w3 MO m zr 2K ee e eeeeeeeoeeeeeeeeeeeeeeoeeeooeeeeoe eeee oeee eeeeeooe eeee ee eeoeeee e U<TJ e Jouz w orzo xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx b a<x< .o 11aasanazzzzzzzzzzzzzzzzzzzzzzzzz eHwaw IrrrrrIIrrrrrrrrrrrrIIIrrrrIIIrzr e o e e e e ee e e o e e e e e e e e o e e e e e o e e e e e e e wmwzm m uJmE JJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJ m Ewm1 3333333333337333333 33332373333233 N ---~~~-
4 ox>o smenmense-~~~~~~~~~~-~~~~ w b z w m r aucunaat t e 3 NMm44WNmt x tet t tett 4
- e e e e e e e e m wwwwwwwww z a e e e e e e e e - rrrrrrrrr zzzzzzzzz wwwwwwwwwwwwwwwwwwwwwwwJwwwwwwwww xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx J <<<<<< <<<<<<<<<<<<<<<<<4 4444444 4 4 o emesmmowmowNmemesemowmm4mesemowmm * <am r<r <<4444emmeceeeeeemessonssssoseeme ooooooooooooooooooooooooooooooooo m
ooooooooooooooooooooooooooooooooo zzzzz2<zazzzzzzzzzzzzzzz2zzz2 zzz2 O TPS157 B-54 1
W
~
INFOmnA Tlog p AN ALOG VALUES Cont'd) ONL,y g
' O '< & O ' fu fu m tu N N N et N N tu N tu fu tu N N N fu N N ru ni ni ns N N fu ns N N N su @ (A tt w m m m m m m m m w w w w w w
- w w w w wtoto10 # to a w w m m f'len m N
m 40 e n ~ >>>>>>WHHH>>HH>> C000000000 z JJJJJJJJJJJJJJJJ 13 4-wwwwwwwww 3 m m D e n c o m m e c c c c c c G U U U 7 7 7 m th m m m m m en m m
>>>>>>>>>>>>>>>Na&1&Mww&aQ,Raaaaaa OWI wwwwwwwwmmmmmmmmOOOOOOOOOOOOOOOOO
- W3C NNNNOOOOOOOOOOOOO N >Ja w w w w w w w 4 w D 4 4 2 g a m e-Z
U OWT 000000000C00000000000000000000000 O m M3e N >JJ D Z< l o> 1- U N37"E N e e e e e e oe e e o e e e e e ee a e e e e ? e ee e e ee e. e t EMI dwwwwwwwmmmmmmmmmmmmOOOOOOOOOOOOO l w MAO wwwwwwwwwwwww l N Zhw W3I me EW3 00000000000000000000000000000000O O mac N ZWJ ( W3 MD m Z E :D E e e-e e eeee 1 e e e. e e e e e e e e e a eeo e e e e e e a wu<mJ ee ee oee e e e e ee e e e eo e e e e eae e e o e o e e WJDUZ TEETE222ETETEXTEEZX2%TE2KTE222%E2 ecEZO <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<< h14E< ZZZZZZZZZZZZZZZZZZZZZZZZZ 212222a2 l bH>&W wmWzm Ie IeIeI eI oeI Ieee I I eI eI Io Ie Ie IeI. IeIeI oeT eI eI eI-Iee IeIeI eI eI oI eI oI Ie D U a m E-w. aaaaaaaaas_usasaaaaaaaaaaaaaaaaaa mWWm1 33333333333333333t233333333333343 N
*OT>O wwwwwwwwmmmmmmmDTMSDwwwwwwwwwm=mw w
H Z # W D m E G O O D U Q U S A A k' m 4 O w 3 wwNNmm**wNme a w T ******###### DMwD%wtktD&et M e ee eee e e e e e eNNmewNo#NSSTE m NNNNNNNNNNNNewwwwww#44*ke 7 e e e e e e a e e e e eNNNNNN eNNNNeN w TEETErrETEETOOOOOOOOOOO30 Z Z Z 2 Z Z Z Z Z Z Z Z 1 A 1 & a a a a 1 1'1 1 1 i WWWWWWWWWWWWWWWWWWWW>>>>>>SS33030 l T T T.T T T T T T T 2 T % T T T T T T T U U U U U U w w m m m m m , J <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<< O #m@hmmOwwNm#m45mmOwNhmemmNmmOwNMO l w <kD @@@@@@mmed4443 444DDmNNmmmtmmOOOON 24I OOOOOOOOOOOOOOOOOOOOwwwwwwmmed-444 n > > O O O O O O O OD D D De m D D D D D D O O O O O O O O O O O O O T m zZZ2222222222z22222zaalanaaaaaaaa (Q I B-55 TPS157
W ANALOG VALUES (Cont'd)
'H-()< tr O N fu N N N N A4 N N fu N N N N N Of N N N N N N N N N N N N N N N A8 N {
c m L., m m m to m m m 10 m m m m m LO m F 4010 to en in in to LO in to 40 to in to to in N m 40 W O= m OOOOO00OOOOOOO O4 4 4 4 4 4 4 OOOOOOOOO
~mmmm~~~~~wwwwwww mmmmmmmmmmmmmm 7
3 mmmmmmmmmmmmmm mmmmmmmmmmmmmmmmm laa&&anaaniaal alar 111aalaaaaaaa OW2 00000000000000 O m iO m O 40 m m O O O O O O O O O e W3C OOOOOOOOOOOONO 0444mewwCOOOOMOOO mMMOO mmm N >Jw 44W44 *mmmmmmes O w m w www Z U OW3 00000000000000 00000000000000000 m W30 0 00000O N >JJ m Obbbhb 24 wwwww O> U N 32wH >>>>>>>>>>>>>> e e e s e e a e o e o e e e >e >e >e >e >e >e >e >e >e >e >e >e >e <r >e >e >e N
&HI O0000000000000 00000000000000000 w M10 wwwwwwwwwwwwww wwwwwwwwwwwwwNwww N Z e- M W3I me O&7 00000000000000 00000000000004000 O W1D N ZWJ W3 MD m ZE S T e e a e e e e o e e a e e l,
wudmJ e e e e e e e o e ee e e mJOUZ TTETTTT12T222T 2%%%%2TTTTTTT222% M OTZO <<<<<<<<<<<<<< <<<<<<<<<<<<<<<<<- 7Z1ZZZ11ZZZZZZ Z Z S 1<24 c WF A W IIIIIIIIIIIIITIIIIIIIIIIIIIII4TII e e e e e e e o e o e e e a e e e a e e e o e e e e o e ere e e w m al Z m mUJSW JJJJJJJJJJJJJJ 'JZZZJZZZJJJJJJJJJ mTWma 33433343333 3333334444 444444444444 N
- OT>O wwm-mmm2DVDD~m Tmmmmmmmmmm27WWWW w
& wN Z O U <TU 042 < e e ( su W D o OOONOwwN4 WOO mmm O OD 0000000000Mw 000 m E wwwwwwwwwwww www w 3 w em << o e e T Destmee44Nt DN4 No e e o e e e e e e e e Mmm e Mm3mmm3 eOmetb4 OETI ITETmmmmm TTT m 44k***kwe*2 *** *JJJJJJJYTTTT e e e Z NNeNNNe eNNNNNN N e e e e e e e e o e e e ~ 00300030003000 0333-3*>33333 333 i
l 11111a1111111a 11111111111aa 1a1 C O O O O O C U U U U UU O w-U m m m m m m m T OMe>>>>e SVODT2T W W m m m m m T T T T T T m E T T > > > > > > > > >- J D <<<<<<<<<<<<<<<<<<<<<<<<<<<<040@be wNMOwNMOwNm#m@NmmOWNm*OwOwMt w 412 NNN4etemmTemmmmmmOOOOOwwOOOOOwwww T4T *********de***444O000000000000000
> > O O O O O O O O O O O O O O O O O w w w w w w w NN N N N N N N N m 11114111a11aaa113114111111111a111 .
F TPS157 B-56
W
~
INFORIMTION
- ONty ANALOG VALUES (Cont'd)
V L J < fr O N N N N ne su N su N N N N fu nf N Al N fu fu N N fu N fu N N N N N N ni N N 4 to ta, M fO tf5 LO ni en to 80 to en 30 an to 80 to in O 40 to 10 00 in LO 80 80 to 80 to LO 4 4 to so to at W in t- 4 (V *-* 7 .O O.O O--< O O O.O -O O O O O O 4 O O O .-.*..-.-.-I O O O .O O O O O.O < < O < <
"3 fM M (4 (A (A (A (A ta (h (A m (A (M (n en En th th (D (n th (A th (4 to M 7 (h (M to th th th G. Q Q. O, Q. A Q.1 (L CL Q. A Q. Q. G. Q Q. Q. Q. Q. Q. A Q.1 IL EL - Q. Q. Q. Q. a 1 O id I O O O O nO O O O O O O O O O O nn O O O O O O O O O O O O O to O to en 4 e- 3 O O O O O . e O M O so ID O O O O O w O O M eo en O O O O O M O w M O w w N > 3** M in M as
- O w 4 rs is b in 4O w O 4 to
- O N O Z
U O td 2 OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO M 6- 3 e O N >JJ in Z< w [ Q> l U i N 3 Z ~ e- >>><>>>>>>>>>>>>>>>>>>>>>>>>>>>>> j N ee eEs e oe e e o e e e e e e e a e e a e e oe e o e a e e e
& >- I O OO OOOO OO e in Q. O OO .* w Ow 4. O..C.w .O. w w .O w w eew .e.O eOce O wOwOeO.-e OO w eOwOw O ceOwOesOce O eO w w N Z e- .* M WDI ee (n e E e- R OOOe OO00000000000000000000000000s' n O to a o N f ) N Z D- J w gJ' W3 (n D mzrmz ,e U < (D J mJmWZ T2KSEEEEYEEEXTTT22%%KTTET22XETTET *OEZD <<<a(<< <<<<<<<<<<<<<<<<<<<<<<<<<<
ba4K< e 4 F- >- O. W III4IIIIIIIIIIII'IIIIIIIIIIIIIIIII
.4 (A W Z (D e e eEe e ee e o e a e e e e oe e e a e a e ee e o ee o e s-In U J 'D E J J J J J .,J J J 9.J J J J b J J J .,J J 3 J J h J J J .2.,J J 3 J J J l m2WM1 <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
! N I eOT>O (D to th *. (A (A (A .-. to to (A .* --. a. th to th == (n th W :n to (D (D -. T (A (n CD to (A (A , e- ! Z O 'D < < < < < < < < D U 4 'D :D S S T T 2'DUU< < < (D W O e0 b in O e 80 N M < O O O O LD O 80 4 n! M 00 4 O O o0.-e O ve O M e M E 000 e 3 es w w 0 0 0 0 0 0 e* D 0. 0 0. *0
.4 w .-e 4
- ee ce ,e
- w0 ce 0 4 ,*0ee0e 0 ce w0ee-4 w eeOOOOOOOM00 ce ce w e T 3 e e e e a e o e o e o e e o eo e e o e o e e eoe e o ee e e CA (A tn (A O (n O (n to (A Z Z Z to 10 0 O (D (D m 3 In En O O Z Z e-
- O to (D to IIE W (A W CO W td W U U U td W (A (A W td W LL. W W CD (A U U 3 3 (A W td Z e e e e e a e e e o e e e e e a e e e e a e o e e o e a e o e e
*-* 333 33333333333333333333333333333 (L Q. EL Q. IL IL Q. EL 1 (L IL CL Q. Q. Q. !L Q. Q. Q. Q. G. Q EL Q. CL CL Q. Q Q. Q. EL Q.
- D 53.'D (D X X X X X X X O O O x x x x x x x 2 x x x x 0 0 0 0 O O O e- e- e- D- 1 1 I I I I I U U U I I I I I I I Co. I I I I U U U U U U U O
t <<<<<<<<<<<<<<<<<<<<<< *<<<<<<<<<< Ch O e th N M fu in N M N 4 in 4 O N M in N N N in . , O M tn O .e M
- 4 h 00
** < (L (D e N N m O O ,4 .* fu fu e * *
- In @ 4 @ S c0 m m U ee N N O O O O O 0 0 24I O O O O N N N N N N nJ N N N N fu fu nt N N fu N M M M M in in tn LO in in in
> >- fu N fu N N N N N fu N N N fu fu fu fu fu N N fu N N N fu fu fu N N fu fu N N ns
[D g M 111111111111111111111111111111111 B-57 TPS157 1
H 1 13 102915 1617 18 19 20 21 22 23 26 25 25 C q]} ss 5 0 R C ST P GL CN U A G VRA R E L EY A R0 AM SENSR SENSR N CSNVTD CONVTO S " I VALUE F R AP V S B NP R NC BB DUTPT SUTPT VALUE SYMBBL INSTRUMENT DP R SE A ON LR L8R HIGH T LOW HIGR UNITS I 3 P2510A CO PU-CN-1016 R A L =H AR 0 10 -V O 33 INH 3A 5 2 P2566A CO PU-SO-1336 S A L eH AR 0 10 =V 0 1000 PSIG 5 2 P2800A uE ASM*2 1 A L MA == 10 50 NA O 100 PS!G 2 2 P2801A uE OP1 1 A L MA AR 0 50 MA 0 30 PSIO 2 2 P5398A T6 PO-2-446 iW L -H N AR *- 0 10 -V O 600 PSIG *
. 2 P5403A SG PG-FW-200A S A L -H AR 0 10 -V 500 1603 PSIG 5 2 P5423A SG PU-FW=2006 S A L -H AR 0 10 -V 500 1500 PSIG 5 2 P5443A SG PU-FW-200C S A L =H AR 0 10 -V 500 1500 PSIG 5 2 P5480A RC PD-2-455 6 W L -H N AR e- 0 10 -V O 1400 PSIS 3 2 00340A GE S A L -H P AR 0 100 MV O 1000 MW 1 2 }
00403A RC SA L =H N AR .- 0 100 MV O 2078 KW 4 2 $ S A L -H N AR 60 -40 MV =6P5 415 MVAR 1 2 o Q2801A GE 02802A GE SAL -H AR 0 100 MV O 100 Md 1 2 $ m 02803A UL S A L -H AR 0 100 MV O 103 Mw 1 2 g 100 MV 1000 MW 2 c m 05340A UE S A L =H N AR 0 O i E
- R A ! -H AR 0 5 -V .1 1000 MRH 5 2 R00204 RM RM-RMS-151 y R0021A RM RM-RMS-152 R A I =H AR 0 5 -V .1 1000 MRH 5 2 R0022A RM RM-RMS-153 R A !H AR 0 5 -V .1 1000 MRH 5 2 R R A I .H AN 5 -V .1 1000 994 5 2 E R0023A RM RM-RMS-154 O R0024A RM RM-WMS-155 R A I =H AR 0 5V el 1003 MRH 5 2 R A ! -H AN 5=V .1 1000 MRH 5 2 R0025A RM RM-MMS-156 O R0026A RM RM-RMS=157 R A I =H AR 0 5 -V .1 1000 MRH 5 2 R0027A RM RM-RMS-158 R A ! =H AR 0 5 -V .1 1000 MRH 5 2 R002BA RM RM-RMS-160 R A ! =H AR 0 5 -V .00005 .05 CPM 5 2
*H AN 5 -V .03 30 CpH 5 2 90029A RM RM-SV 121 4 A ! O P3030A RM RM-LR-111 R A I *H AR 0 5 -V .00001 .1 CoM 5 2 P0031A RM RM-SS-122 R A I .H AN O 5 -V .03 30. CPM 5 2 P0032A RM RM-GW-102 R A I .H AN O 5 -V .0005 5. COM 5 2 R0033A RM RM-VG-102 4 A I -H AN O 5 *V .00005 .05 CPM 5 2 R0034A RM RM-RM5-159 R A I -H AN O 5 -V 005 5 MCPM 5 2 R0035A RM RM-SS*123 R A 1 *H AR 0 5 -V .00004 .04 CPM 5 2 IW N LT N AR e. MV 400 700 JE3r 3 2 T0001A HE T0002A RE IW N LT N AR .= MV 400 703 JE3r 3 2 O O O
hkiM rioty ONLy' AfJALOG VALUES (ContM)
- %,l ~
UnTO N N N N N N N N N N N N N N ns N hs N N N AD N N N N N N N N N N N N '
@ mka mmmmmmmmmmMmmmmmmmmmmmmmmmmmmmmmm N l M l N ~ kkkkkkkkkkkkkSt . kkkkkkkkkkkkkkkkkkk 7 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (3 0 0 0 tD 0 0 0 0 0 0 0 0 3 WWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWW 00000000000000000000000000000000O OWT 00000000000000000000000000000000O & HBO COOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO N WJe NNhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhh '
I Z U ; OW3 000000000000000000000000000000000 m HDD 000000000C00C000000000000000000CO N >JJ 444422244 44444444444444244244 4442
- i. 74 O>
U N 3ZwH >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> N TEEEEEEEEEEEEETTEEEEEEEETIEEEEEEE THI w MAC N ZHa W3T Me TH3 O m&O < N ZHJ W3 MO mZECT e e ee e ee e o e e e e e oe e e eaee ee ea e e e ee ee w U4CJ e a e e e e e e e e o e ee e e e e oe o e ee e o e e s' s e e e eJOU2 TTTTTTTTETTTTTTTTTTTTTTTTTTTTTTXT w32ZO <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<< ts<T< z2ZZZZZZZZZZZZZZZZZzZZZZZZZZZ-ZZzZ-D >>TW HHHHHHHHHHHHHHHHHHHHHH>>>>>>>>>>> w WWZW JJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJJ W UJ e T. Z 2 2 Z 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 Z 2 Z2 2 2 2 2 2 2 2 2 Z w mTWMR 333333333333333333333333333333:333 N 4 OT>O ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ w H Z l W m E I w 3 T H M Z
~
WWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWW TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTIT J <<44444444444444444444444<<<<<<<< O M
- W 4 N e m O w N M
- O @ h W m O w N M e in 4 A m m O w N M e m w 440 OOOOOOOwwwwwwwwwwmNNNNNNNNNmmmmmm TWE 000000000000000000000000000000000
> > 000000000000000000000000000000000 M HHHHHHHHHHHHHH>>>>>>HH>>>>>>>>>>>
l B-59 TPS157
- .- , . . . - . ~ . - . ~ . - - . . - - - . - . - . . ~ . . ~. - .
W w
. .- ., y ANALOG VALUES (Cont'd)
U < fr O N ns M AJ N N N N N N N (U N EU N N N N N N N N N N N N N N N N N N A8 , 'l 4 mkw mmmmmmmmmmmmmMMm44@ 4 en in to to 10 to an in in Ifi 40 N fu N m in W n'
- k k k k k k k k k k k k k k k k k k k k k k k k L h k Ps h k k k h
~Z O O O O O (S O O O (9 O O O O O O O O O LS (9 O O (3 (9 O O LS M M (3 (3 0 3 W W W W W W W ke W e4 W W W W W W W W W W to W W hl W W W W tai he tar W hl 00000000000000000000000000000000O OWY 0000000000000000000000000000000f*O O W3C 00000000000000002e2200000000000f4m N >Jw Z41 NNhWWNhhhhbNbbhNwwwwm44mNmmmmmmd4 D>
U OW3 OOOOOOOOOOOOOOOOOOOOOOOOOnNNN NOC ' R W3C COOOOOOOCOCOOOOOmmm*DOOmmmmmmmmme *w DC N >JJ 4444444244det2 44 24 c> U rd 32-W > > > > > > > > > > > > > > > > > > >r r> >e >e >e >e rr >e rr> r> > > r> > >e >e N Errrrrrrrrr.rrrrrrr
&&X 00000 OO wwwww ww l e m10 I .N ZVm W3I me i TV3 00000 00 O mac-N ZWJ W3 me _
m ZI S T ee e o e eea e e e o e e e e e e e e e a e e e ee eea eee o e ee e a e e eo e e e e ee e e e oe a eo e e e wU4mJ eJOUZ T222722222227T22 eo e 822T272nma e eTT
-4444444444444444 6 e e p 4444444( e e e<<
e32ZO b 14T4 ZZZZZZZZZTZZZZZZZZZZZZZZZZZZ'ZZZLZ 4 >>LW >>>HWWWWWWWWWW>>4444TXXXXwwwDDD11 e mWZm aaaaaaaaaaaaaaaaw-W-e e e e eWWWWWW s D .UJ@ T e ZZZZZZZZZZZZZZZZZZZZJJJJJZZZZZZJJ m WWma 333333333333333333333333344433333 N s.OT>O . wwwwwwwwwwwwwwwwmmmmwwwwwmmmwwwww m-V Z <DU W www O m E 000 N w 3 www wt T .m904t e e oNm4*w-W mNewg1XXmNNew m wwwwwuuUwwwwe 2- NNN* .N e.e e N N N eN
- OOOOO4WWW4 WOO >>WWWWWW>>WW" WWWWWWWWWWWWWWWulWWWW>>>>>>>>>>>UU 7
TTTTTTTTTETTTTTTTTTTUUUUUUUUUUUTT J m 4 b m m O w N m e m 4 N e m O w b m m O N e b otn w N m w N M O w
& 4Le m V M M *
- t-t $ t e d 4 4 D W W W D m N N N t
- D D D M W @ O O T<r OOOOOOOOOOOOOOOOOOOOwwwwwwwwwww44 m
000000000000000000000000000000000
&WWWWW>>>>>>>>>>>WWWWWWWW>>WWWWVW 1
TPS157 B-60 w
i
" ~
I') (v) O V 24 25 26 23 C 21 22 20 U S A R 13 142915 1617 18 19 N CONVTD VALUE CSNVTO F O i 0 R C ST P UL CNA RS AM !SENSR VALUE SENSRUNITS I Lew HIGH R V ESSNL EYP R NCR BBLOW SUTPTHIGHSUTPT T 2 2 VRA 630 OEGF AP DP R SE A DN L 10 =V 510 2 2 l INSTRUMENT == 0 0 150 PO 2 2 SYMBSL IWL H N AR *= 0 10 -v 0 150 PC 2 2 RC 70/411 6 W L eH P AR 0 10 -V O 700 OEGr 2 2 70402A RC 70=}=412A B W L .H N AR == == 0 10 oV 0 150 PC 2 2 70403A RC 70/4118 R W L =H N AR 0 10 =V O 150 PC 5 2
==
T0404A RC 70/410 B w L =H N AR 0 10 =V 32 300 DEGr 5 2
== MV T0406A RC 70/412B 6 W L .H N AR 32 300 DEGF 5 2 MV 300 DEGF >
70407A 70410A RC TD/412C R A N TS N RE == ** MV 32 5 2 R W N T5 N == ** 32 300 DEGr 5 2 5 T0412ARC RCTE/418A TE/41SB R W N T5 N ** MV 32 300 DEGF 5 2 50 MV 250 DEGr T0413A RC TE/417A R W N T5 N == *= 50 5 2 T0414 A == MV 600 DEGF $ T0 415A RC TE/419 R WN T5 N == MV O 2 2 R W N 75 N == ** o 700 DEGr 2 2 E T0416A CV HCTE/131 TE/4116 10 =V 630 DEGF 2 O T0417A S A N T3H N N == AR
== 0 10 V $30 630 DEGF 2
2 g SU TE=FWe111A R WL == 0 530 2 70418A RC TD/413 P AR 10 =V 630 OEGF 2 3 1 W L .HH N AR .= 0 510 2 g 7 T0419A 10 -V 150 Pc 2 S T0420ARC RC 70=1 422D II W T0/421A L W L -H NPAR
** O O 10 *V O
O 150 Pt 2 2 2 AR =* 10 V 700 OEGF T0421A RC 7D/421 BWLH AR == 0 10 -V O 2 2 70422A T0423A RC Tu-1*422A eWLHN =* O 10 'V O 150 PC 150 PC 2 2 2 53 70424A RC RC79/420 7D/4216 R w L =H N AR == 0 10 -V O 300 OEGF 5 77 B W L -H N AR AR == 0 MV 32 5 2 C3$) 70426A RC T0/4226 300 OEGF 2 8 W L -H N MV 32 300 DEGr 5
/Eit 70427A RC T0/422C R A N T5 N RE =* == == 32 5 C -c 1-r T0430A RC TE/4258 R W N TS N MV 32 300 OEGF 5 2 *= MV 300 DEGr jE T0432A HC TE/428A R W N T5 N == == MV 32 5 2 ji T0433A RC TE/427A R W N T5 N ** == 50 250 OEGr 5 2 ** MV 600 DE3r 2 T0434A RC TE/429 R W N T5 N ** ** MV O 2 70435A RC TE/427B R W N TS N ** O 700 OrGr 2 2 T0436A 10 -V 630 DE3r TE/128 5A N T3 N AR == 0 10 -V 530 630 DEGF 2 2 T0437A CVSG TE=FW-111eB R w L =H NP AR == 0 10 =V 530 630 OEGr 2 2 7043BA HC 70/423 I v L .H AR *= 0 to *V 510 T0439A RC 70=1-432D 70440A RC 70/431A I r L -H N AR *= 0 IW L .H N %'- ~ - - T0441A Yn44?A - RC TD/431
m
,, , p . . '
ANALOG VAi.UES (Cont'd) u
- rr O tu tu fu tu ru N m ru ru tu ru m m N N w N N N ru N N N N N (b ns N n. N (b N ne e mh- fu N Al N N 00 O tO 40 IO O to (b e e to 40 50 10 - nl 'O O' 'O 'O 80 80 80 80 10 80 'O 80 m
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B-63 TPS157
13 102915 1617 18 19 20 21 22 23 20 ?5 26 s d i U C )
$ DR C ST P GL CN S A VRA W E L EY A RS AM SENSR SENSR N CS'4VTD CSNYT3 ,
I VALUE e R i AP V S 8 NP R NC BB OUTPT GUTPT ~LUE SYMBOL INSTRUMENT DP R SE A ON LR LSW HIGH T L8W HIGH UNITS I D T06754 AC TE-CC-145C I A L .H AN O 10 -V O 200 3EGr 5 2 TO676A AC TE-CC-146C S A N T3 P == MV O 200 DEGr 5 2 t I A L -H AN O 10 -V O 200 DEGF 5 2 T0677A AC TY-CC-148C MV O 20? DEGF 5 2 T0681A AC TE-CC*192C SA N T3 -- SA N T3 -- MV O 200 DEGr 5 2 T0682A AC TE-CC-143C 212 DEGr 5 2
-- MV 32 T0693A AC TE-RH=101A-1 S A N CC -= MV 32 212 DEGr 5 2 '0691A AC TE-RH=101A-2 S A N CC 212 DEGr 5 2 f0692A AC TE-RH-1018-1 S A N CC -- MV 32 == MV 32 212 DEGr 5 2 T0693A AC TE-RH-1016-2 S A N CC MV 32 300 DEGr 5 2 >
TO695A AC TE-RM-100A SA N T1 RE SA N T1 RE MV 32 300 DEGr 5 2 5 T3696A AC TE-RH-100B -= MV 32 210 DEGF 5 2 g 70713A MI TE-Fe=1201-1 S A N IC -. MV 32 213 DEGr 5 2 o T0720A MI TE=FP-1201-2 S A N IC MV 32 210 DEGr 5 2 % T0729A MI TE-FP-1202 S A N T1 Cw 7 70733A MI TE-RS-157A S A N T1 RE MV 32 302 DEGr 5 2 E g SA N T1 RE MV 32 302 DEGF 5 2 g TO731A MI TE=RS-1576 -. MV 32 212 DEGF 5 2 g T37ADA MI TE-RS-158A-1 S A N CC -* MV 32 212 DEGr 5 ? 8 T0741A MI TE-RS-1586-1 S A N CC
-- MV 32 212 DEcr 5 2 2 70750A MI TE-RS-ISBA-2 S A N CC MV 32 212 DEGr 5 2 ~
10751A MI TE-RS-158B-2 S A N CC MV 32 300 DEGr 5 2 T0920A SI TE-SI-100A SA N 11 RE SA N T1 RE MV 32 303 DEGr 5 ? TO921A SI TE-SI-1006 MV 32 212 DEGF 5 2 T0922A SI TE-SI-101A-1 S A N CC == 32 212 DrGF 5 2 T0923A SI
- s:-121A-2 S & N CC MV
-- MV 32 212 DEGr 5 2 T0924A SI TE-SI-1018-1 S A N CC -- MV 32 212 DEGF 5 ?
T0925* SI TE-SI-101B-2 S A N CC MV 32 212 DeGr 3 ? T1002A vs TE-LM-100-3 SA N T3 -- 212 DeGF 5 2 T1003A VS TE-LM-100-4 SA N T3 -- MV 32 T *, 7 0 4 4 v5 TE-LM-100-5 SA N T3 -- MV 32 212 DEGr 5 2 115058 55 TE-LM-100-6 S A N T3 -- MV 3? 212 DEGr 5 2 212 3EGr 5 g T1006A vs TE-LM-100-7 S A N T3 -- MV 32 5A N T3 -- MV 32 212 DEGF 5 2 T1007A vs TE-LM-100-8 212 DEGr 5 2 T10084 vS TE-LM*100-9 SA N T3 -- MV 32
# 9 --
e -
ll;! 5$mEd i 3I 2d CI 2 C eE50$EO5j6 EI< O CA R3 222222222!22222222222222222222222 6 5F! 555555555555555555555555555555555 2 S 5 T
? I rrFrrFrrFrFrrrrrrrrrrrrrrrFrrrrrr N GGGGGGGGGGGGGGGGGGGGGGGGGGGGG3GGG u EEEEEEFECEEEEEEEEEEEEEEEEEEEEEEEE OD3DDDDDDDDDDDDDDDDDDDDDD3DDDDDDD O EW Z22222222030030300033003303330033 6 TUG 111111111011111122255550005666006 2 VLI 222222222111111122211116562555655 NAH OV C
OEW 222222222D2222222222222OOOO222O02 3 3 TUS 333333333A3333333333333 333 2 VLL NA SV C 2 UNIT VVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVV 2 MMMMMMMMMMMMMMMMMMMMMMM MMMMMM MM R TH 0 0 1 SPG 1 1 2 NTI EUH SS RTW O 0 0 SPS 2 NTL O 9NMBR EU SO 1 CABL 8 LDCN = - - - - - - - = ==N - - - - ~ - R - - 1 UHND = - - - - - - - - - = - - =A - - ~A - - 7 PARA PPP N 1 6 TYPE 33333333333333333333333H33CCCCH3C 1 SENS TTTTTTTTT1TTTTTTTTTTTTT - TTIl II TI 5CLBR 1 NNNNNNNNNLNNNNNNNNNNNNNLNNNNNNLNN 9 RESP AAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA2 2 4 0RVD SSSSSSSSSSSSSSSSSSSSSSSRSS5SSSRS5 1 012345678 A BC 111 T 1111 111112123123 - - - 1 - - - 1 N - - - - - - - - - AAABB6555 - AA LMK - BC E 0000000000111222222 112 222212 3 M 0000000000000000222 001 111001 1 U 111111111 1111111111A6A6111 111111 R - - - - - - - - - - - - - = - - - - - 0022 - - - - - - - - - T MMMMMMMMMMVVVvvVvVV0000SDD SSSSDS S LLLLLLLLLLCCCrCCHHH1111 MSS MMMMSM N - - - - - - - - - - - - - - - - e - - - = - - - - - - - - - - - I EEEEEEEEEEEEEEEEEEEaw"wY EE EEETEE TTTTTTTTTTTTTTTTTTTLLLLTTT TTTTTT FS 5 S S S s s SS S s S S s 5 5 sS EE E EB o e d B B d B B 3 VV vVV VvvVVVvVVvvvvVT T T TTTTTT TT TTT L AA AA4AAAAAA AA AAAAA4 AA A AAAAA A AA AAA B 931234567631234578901231243673124 1 A PB 0111111113444444 44455550000000111 R AM 000000000000000000000000000000000 V Y 111111111 111111111111112222222222 S TTTTTTTTTTTTT7TTTTTTTTTTTTt rTTTTT O 7g Q$$ - lll:)ll1 ,l
102915 1617 18 19 21 22 23 20 25 26 g) y 1 13 20
$ 0 R C ST F GL CN U C VRA R E L EY A RU AM SENSR SENSR N CSNVTD CONVTO S 3 I VALUE VALUE F 9 AP V S B NP R NC BB OUTPT SUTPT SYMBBL INSTMUMENT DP R SE A DN LR LOW HIGH T Lew HIGH UNITS I J ',
T2015A TB TE-MS-1120 S A N IC == MV 32 560 DEGr 5 2 T2016A MI IC 2 T2018A TB TE-MS-112A-1 S A N IC == MV 32 563 DEGr 5 2 T2019A TB TE-MS=112A-2 S A N IC == MV 32 563 DEGr 5 2 T2021A TB TY-MS=101e2 4 A L -H AM 0 10 -V O 600 DEGr 5 2 T2023A TB TE-SD*101C S A N T3 -- MV O 503 DEGr 5 2 T2024A TB TE-SD*1126 SA N T3 == MV O 600 OEGr 5 2 T2025A TB S A N IC N == MV O 250 DEGr 5 2 T2026A TB TE-MS=112L-2 S A N IC == MV 32 563 DEGF 5 2 , T2027A TB TE-MS=112M-2 S A N IC -= MV 32 560 DEGr 5 2 z T2028A TB TE-MS*112K-2 S A N IC -= MV 32 563 DEGF 5 2 # T2031A TB TY-MS-102 2 R A L -H AR 0 10 -V O 600 DEGF 5 2 8 T2032A TB TE-SD-1010 SA N T3 -- MV O 503 OE3r 5 2 < 7 T2034A TB Tt-SD-112C SA N T3 -= MV O 600 DEGF 5 2 E T2035A MI IC 2 E
& == MV 32 563 DEGr 5 P "
T2036A TB TE-MS-112E S A N IC T2037A T" TL-MS-112F S A N IC == MV 32 563 DEGF 5 2 ?
'E-MS-1128-1 S A N IC == MV 32 560 DEGr 5 2 E T2038A E T2039A Tb fE-MS-1126-2 S A N IC -. MV 32 560 DeGF 5 2 S A N T3 MV o 603 DEGF 5 2 T2043A TB TE-SD-1120 --
T2041A TB TE-MS=111C-1 SA N CC -= MV 70 183 DEGr 5 2 T2042A TB TE-MS-1110-1 S A N CC -= MV 70 183 DEGF 5 2 4 l T2043A TB TE-MS-111E 1 SA N CC == MV 70 183 DEGr 5 ? T2044A TB TE-MS=111F-1 S A N CC == MV 70 180 DEGr 5 2 T?O45A TB TE-MS-111G-1 S A N CC -= MV 70 183 DEGr 5 2 T2046A TB TE MS-111H-1 S A N CC =* MV 70 183 DEGr 5 2 T2047A TB TE-MS-111J-1 S A N CC - MV 70 183 DEGr 5 2 T204MA Te TE-MS-111K-1 S A N r.C -- MV 70 183 DEGr 5 2 T2049A TB TL.MS-111L-1 SA N CC -- MV 70 183 3EGF 5 2 T2050A M1 CC 2
~
T2051A To it-MS-111A=S S A N ]C -- MV 70 183 DEGF 2 T2052A id TL-MS-1118-5 S A N IC -= MV 70 183 DEGr b 2 T2053A TB Tt-MS-111M S A N CC -= MV 70 183 DEGr 5 9 9 -- -- e
O O O 1 13 142915 1617 18 19 20 21 22 23 24 25 26 D R C ST P OL CN U C VRA R E L EY A RB AM SENSR SENSR N CSNVTD CONVTD $ A AP V S B NP R NC BB SUT"T SUTPT I VALUE VALUE F R SYMBOL INSTMUMENT DP R SE A DN LR Lew HIGH T Lew HIGH UNITS I D T2054A TB TE-MS=111N SA N CC == MV 70 180 DEGF 5 2 T2055A MI CC 2 T2056A MI CC 2 T2057A MI CC 2 T2059A TB TE-MS=112J SAN IC == MV 32 560 DEGr 5 2 T2061A TB TE-MS=111C-2 S A N CC P -, MV 70 180 DEGr 5 2 T2062A T9 TE-MS=1110-2 S A N CC P == MV 70 180 DEGF 5 2 T2063A TB TE-MS=111E-2 S A N CC P == MV 70 180 DEGr 5 2 T2064A TB TE-MS=111F-2 S A N CC P =e MV 70 180 DEGF 5 2 T2065A TB TE-MS*111G-2 S A N CC P -- MV 70 180 DEGr 5 2 R T2066A TB TE-MS-111H-2 S A N CC P == MV 70 180 DEGF 5 2 E T2067A TB TE-MS*111J-2 S A N CC P -. MV 70 180 DEGr 5 2 6 T2068A TB TE-MS*111<-2 S A N CC P -- MV 70 180 DEGF 5 2 7 T2069A TU TE-MS-111L-2 S A N CC P -= MV 70 180 DEGr 5 2 5
$ T2075A MI IC T2076A MI IC 2
2 {
=
T2077A 91 IC 2 8 T2078A MI IC 2 $ T2080A TB TE=MS-111A-1 S A N IC P =. MV 70 180 DEGF 5
- i T20814 TB TE-MS=111A-2 S A N IC == MV 70 180 DEGr 5 2 !
T2082A TB TE-MS*111A-3 S AN IC P == MV 70 180 DEGF 5 2 T2083A TS TE-MS-111A-4 SA N IC == MV 70 180 DEGr 5 2 T2084A Td TE-MS=1116-1 S A N IC P =* MV 70 180 DEGr 5 2 T2085A TB TE-MS-1116-2 S A N IC -= MV 70 180 DEGF 5 2 T2086A TB TE-MS-1116-3 S A N IC P -= 33 MV 70 189 DEGr 5 2 m T2087A TB TE-MS=1118-4 S A N IC == MV 70 180 DEGr 5 2 Cpj$ T2090A MI CC 2 2g T2094A MI CC 2 't 2-72096A TB TE-MS=112G SA N IC -- MV 32 560 DEGr 5 2 j{ T2097A TB TE-MS=112H SA N It == MV 32 560 DEGr 5 2 jy e T2200A HX TE-CN=106A SA N T3 -- MV O 300 DEGr 5 2 ,' 3 T2202A Mx TE-ES*113A SA N T3 == MV O 400 DEGr 5 2
} T2203A HX TE-SU*113A SA N T3 -- MV O 300 DEGr 5 2 t
!l i ! ,' 7> ! L $yo <Kc = _9AS e
CAR 3 2222222222222222222222222?2???2s2 5 SFI 555555555555555555555555555555555 2 S 5 T 2 I N rFrFFrrrrFrFrFrrrrrrFrrrrrrrT rrrr GGGGGG3GGGGGGGGG33G3G33GG3GGSG333 U EEEEEEEEEEEEEEEEEEErEEEEEEEEEEEEE DDDDDDDDDDDDDDDDODDDDDDDDDDDDJJDD OEH 300033303033030333303333333333033 0 2 TUG vLI 30000500050 5' 343343444 3 500053000003030053035 s51 15534334344343444 4 - NAH SV C 3 OEW TUS OOO3o33O3o .c4:itruOOOO3oo3OO3oo33 P VLL NA SV C 2 UNIT VVVVyVVVVVVVV sVVVVVVVVvVVVVV VVyVV 2 MMMMMMMMMMMMMMMMMMMMMMMMMMMMMMM* M _ RTH SPG _ 1 2 NTI EUH SS RTW 0 SPO NTL O 2 EU SS 9 NMBR 1 CABL 8 LCCN - - - - - - - - - - - - - - - - - - - - - - - - - - - = - - - - - 1 GRND - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 7 FARA 1 6 TYPE 333333333333333333333333333333333 TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT 1SENS 5CLBR 1 NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN 9 RESP AAAAA AAA AAA A AA A
- A A AAAAAAA A A AAAAAA 2
0 DNVD 1 SSSSSSSSSSSSSSSSSS5SSSSSS5SSSSSSS T N AAAAAA AA A AA A AA AAA A B6B8B6AB36BBB66 E 125344538799209010633125553445387 3 M 3103003003300*0101011310443303003 1 U 111111111111111111111111111111111 R - - = - - - - - - - - - - - - - - - - - - - = - - - - - - - - - - T NSDNSDNSDNNDSNvWSDNSDNSDNNNSDNSDN S CESCESCESCCSECFFESCESCESCCCtSCESC N - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE TTTTTTTTTTTTTT TTTTTTTTTTTTTTTTTTT XxXXxxXxxxxxxxXxxX xxxX xxXX xX Xxxxx HHHHNHHHNwHHHHHHHMHMHHHwHHHMHHNMM L AAA 4AA AAAA4 AA A 4A AA AAAAAAAAA A A AA A A B 323323323312340123323323583230233 g APB 1112223334 4 444555566677777B8R9990 RAM 222222222222222222222222222222223 v Y 222222222222222222222222222222222 S TTTTTTTTTT T TTT TTTTTTTTTTTTTTTTTTT O gmv i yg i
O O O
, 13 142915 1617 18 19 20 21 22 23 24 ?5 26 D R C ST P UL CN U C VRA R E L EY A HD AM SENSR SENSR N CSNVTD CSNVTD S &
AP V $ B NP R NC BB DUTPT SUTPT I VALUE VALUE F R SYMBSL INSTRUNENT D P R SE A DN LR LOW HIGH T LSW HIGH JNITS I O T2301A Nx TE-CN*139B SA N T3 == MV O 500 DEGF 3 2 T2302A Nx TE-ES-1028 5A N T3 -* MV 0 500 DEGF 5 2 T2303A Hx TE-SD*1098 SA N 73 == MV O 500 DEGF 5 2 T2304A HX TE-CN=140B SA N T3 -= MV 0 500 DEGF 5 2 T2305A HX TE-ES-1018 5 A N T3 -- MV 0 550 DEGF 5 2 T2310A Hx TE-FW=109B S A N T3 -- MV 0 503 DEGF 5 2 T2311A Hx TE-FW-1108 SA N T3 -- MV o 600 DEGr 5 2 T2312A Mx TE-SD=1109 S A N T3 -- MV O 500 DEGF 5 2 T2316A HX TE-FW-1b6A-1 S A N CC == MV 32 212 DEGr 5 1 T2317A Hx TE-FW-156A-2 S A N CC -- MV 32 212 DEGr 5 2 g T2318A Mx TE-FW=1568-1 S A N CC == MV 32 212 DEGF 5 2 > T2319A Nx TE-FW=1568-2 S A N CC == MV 32 212 DEGF 5 2 o T2324A Hx TE-CN=140C S A N T3 == MV O 500 DEGF 5 2 S' T2326A Mx TL-FW'158A-1 S A N CC == < MV 3? 212 DEGr 5 2 > $ T23274 Hx TL-FW=158A-2 S A N CC == MV 32 212 DEGF 5 2 E T2330A HX TE-FW-157A SAN T1 TB MV 32 302 DEGr 5 2 O T2331A Hx TE-FW-1578 SA N T1 Tb MV 32 302 DEGr 5 2 y T23324 HX TE FWelb7C SA N T1 To MV 32 302 DEGr 5 2 q T2333A HX TE-FW-157D SA N T1 TB MV 32 302 DE3F 5 2 & T2334A Hx TE-FW=157E S A N T1 To MV 32 302 DEGr 5 2 T2335A Hx TE-FW-157F S A N T1 Tu MV 32 302 DEGr 5 2
'2340A Hx TE-FW=136C=1 S A N CC == MV 32 212 DEGF 5 2 T2341A Hx TE-FW-156C-2 S A N CC -= MV 32 212 DEGr 5 2 2r 723424 MX TE-FW Ib60-1 S A N CC -= MV 32 212 DEGF 5 2 T2343A HX TE-FW-1560-2 S A N CC ** MV 32 212 DEGr 5 2 C) =[a]
T2350A Mx TE-FW-156E-1 S A N CC ** MV 32 212 DEGr 5 2 [E57 T2351A Hx TE-FW-156E=2 S A N CC *= MV 32 212 DEGr 5 2 T2352A Hx TE-FW-1b6F-1 S A N CC -- -c 34 MV 32 212 DEGr 5 2 [3 T2353A Mx TE-FW-156F-2 S A N CC -- MV 32 212 DEGr 5 2 2r T2375A HX TE-SD=111A SA N T3 -= MV O 500 DE3F 5 2 g T2376A Mx TE=SD=1116 SA N T3 -= MV O 500 OEGr 5 2 3 T2377A Hx TE-SD=111C SA N T3 -- MV O 500 DE3r 5 2 T2386A Mx TE-FW-1588-1 S A N CC -* MV 32 212 3E3r 3 2
)
13 142915 lo17 18 19 20 21 22 23 26 ?5 26 d 1 U C
$ D R C ST P GL CN S A VRA W E L EY A WO AM SENSR SENSR N CSNVTD CONVTO 3 AP V S B NP R NG BB SUTPT SUTPT I VALUE VALUE r 9 SYMBOL INSTRUMENT DP R SE A DN LR LSW HIGH T LSd HIGH UNITS I O T2387A Hx TL-FW-138d-2 S A N CC -- MV 32 212 DEGr 5 2 T2393A HX TE-SD*132A S A N T1 TO MV 32 300 DEGr 5 2 T2391A Hx TE-SD=132B SA N T1 To MV 32 300 DEGr 5 2 T2392A wx TE-SD-132C S A N T1 TU MV 32 303 DEGr 5 2 T2393A Hx TE-SD-135A S A N T1 Tu MV 32 303 DEGr 5 2 T2394A Nx TE-SD-1358 S A N T1 To MV 32 300 DEGr 5 2 T2396A Hx TE-rw 1396 SA N T1 To MV 75 303 DEGF 5 2 T2397A Hx TE-rw=159A S A N T1 Tu MV 75 303 DEG: 5 2 T24034 CW TE-Cw-102A SA N T3 -- MV O 203 DEGr 5 2 SA N T3 -- MV O 203 DE3r 5 2 g T2401A CW TE-CW-1028 T2423A CW TE-Cw=102C S A N T3 -- MV 3 233 DEGr 5 2 g .
S A N T3 -- MV o 230 DEGr 5 2 o T2421A C= TE-CW-1020 302 DEGr 5 2 T2433A CW TE-Cw'135A S A N T1 C* MV 32 y T2431A CW TE-tw=1058 S A N T1 C* MV 3? 332 DEGF 5 2 g S A N T1 CW MV 32 302 DEGr 5 2 c u T24324 CW TL-Cw=105C 5 2 C T2435A CW 7t-Cw-104A-1 S A N CC -- MV 32 212 3EGr . T24364 CW TE-Cd-1346-1 b A N CC -- MV 32 212 DEGF 5 2 y T2437A Cd TE-Cw-104C-1 S A N CC -- MV 32 212 DEGr 5 2 4 ,
-- MV 32 212 DEGr 5 2 E ;
T2433A CW TE-Cw=104A-2 S A N CC 2 T2439A Cd TE-Cw-1046-2 S A N CC -- MV 32 212 DEGF 5 : T2443A CW TL-Cw=134C-2 S A N CC -- MV 32 212 DEGr 5 2 I T2446A CW TE-Cw-104A-3 S A N CC -- MV 12 212 DEGr 5 2 T2447A Cw TE-Cw=1046-3 5 A N CC -- MV 3P 212 DEGr 5 2 T2448A Cd TE-Cw=104C-3 S A N CC -- MV 12 212 DEGr 5 2 T2450A CW TE-Cw-103A-1 S A N T3 -- MV o 200 DEGr 5 2 T2451A Cw TE-CW-133A-2 S A N T3 -- MV o 233 DEGr 5 2 MV 3 203 DEGF 5 ? T2452A Cw TE-cwa 1034-3 S A N T3 -- T2453A Ca TE-tw=103A-4 SA N T3 -- MV o 203 DEGr 5 2 T2454A CW TE-Cw=1036-1 S A N T3 -- MV O 233 DEGr 5 2 T2455A tw TE-Cw-1036-2 S A N T3 -- MV 3 203 DEGr 5 2 T2456A Cw TL-Cw=1036-3 S A N T3 -- MV 3 203 DEGr 5 2 T2457A C* TE-Cw-1336-4 SA N T3 -- MV 3 233 DEGr 5 2 T24704 C= TE-tw-103C-1 S A N T3 -- MV O 233 DE3r 5 2 4 i G G e
r i. O O O i ! i 1 13 142915 1617 18 19 20 21 22 23 24 25 26 ; , D R C ST F GL CN U C VRA R E L EY A NU AM SENSR SENSR N CSNVTD CSNVTD S A t F
- AP V S S NP R NC BB SUTPT SUTPT I VALUE VALUE M
- SYMBSL INSTMUMENT D P R SC A DN LR LSW HIGH T LSW HIGH UNf7S I D
i ). T2471A CW TE-CW-103C-2 S A N T3 -. MV O 200 DEGF 5 2 l f2472A CW: TE-CW-103C-3 S A N T3 -- MV O 200 DEGF 5 2
- T2473A CW TE*CW*103C=4 S A N T3 . MV O -200 DEGF 5 2 !
1 T2474A CW TE-CW-103D-1 S A N T3 -= MV O 200 DEGr 5 2 t l T2475A CW TE-CW'103D=2 S A N T3 -- MV O 200 DEGF 5 2 l T2476A CW TE-CM*10?D-3 S A N T3 == MV O 203 DEGF 5 2 i 72477A CW .TE-CW=103D-4 S A N T3 -= MV O 200 DEGr 5 2
- T2487A rw TE-SW=115 SA N T1 Cw MV 32 303 DEGr 5 2
? T2488A FW TE-SW'116=1 SA N CC -= MV 32 250 DE3F 5 2 ! T2489A FW TE-SW.116-2 SA N CC -- MV 32 253 DEGr 5 2 > T2491 A FW TE-SW-113A SANT1 CC MV 32 300 DEGr 5 ! $ ' i T2492A FW TE-SW=1136 SANT1 CC MV 32 300 DEGr 5 2 5 o [, T2693A FW TE-SW=114A-1 S A N CC -- MV 32 250 DEGF 5 2 i m T2494A FW TE-SW-114A-2 S A N CC -- MV 32 253 DEGF 5 2 $ l b
~
T2495A FW TE-SW-11es-1 S A N CC -. MV 32 253 DEGF 5 2 E T24964 FW TE-SW'1156-2 S A N CC == MV 32 250 DEGF 5 2 0 T2503A CN TE-CN*120A SA N T3 -. MV 0 150 DEGF 5 2 g T2501A CD TE-CN=121 SA N T3 -. MV O 153 DEGr 5 2 g T2502A CD TE-CN=123 S A N T3 -- MV O 150 DEGr 5 2 s T2504A CD TE-CN-102A SA N T3 -. MV 3 300 DE3r 5 2 l T2505A CD TE-SD=131A SA N T3 -- MV O 303 DEGr 5 2 , T2506A CN.TE-CN-144A SA N T3 -- MV O 153 DEGr 5 2 l T2513A CN TE-CN=1206 SA N T3 =. MV O 150 DEGr 5 2 ., l T2511A CD TE-CN=142A-1 S A N CC -. MV 75 250 3EGF 5 2 Gr T2512A CD TE-CN 142A-2 S A N CC -- MV 75 250 DEGF 5 2 c)y?- T2516A CN TE-CN=1448 SA N T3 -. MV O 150 DEGr 5 2 g 20 i T2521A CD TE-CN-1428-1 S A N CC T2522A CD TL-CN=1426-2 S A N CC
~~
MV MV 75 75 253 DEGr 253 DEGF 5 5 2 2 (pjf , T25264 CN.TE-CN-144C SA N T3- -- MV O 153 DEGr 5 2. C3 T25314 CD TE-CNo142C-1 S A N CC -- MV 75 250 DEGr 5 2 25 g T2532A CD TE-CN-142C-2 S A N'CC == MV 75 250 DEGr 5 2 jg T2535A CD TE-CN 143C SA N T1 To MV 32 302 DEGF 5 2
.T2543A CD TE-WT-100 SA N T3 -- MV O_ 233 DE3F 5 2 i f . ~,
20 21 22 23 26 P5 25 qq} q 1 13 162915 1617 18 19 C A3 DR C ST P UL CN U 3 H E L EY A MD AM SENSR SENSR N CSNVTD CONv70 S & 0; VRA F R ,
" AP V S B NP R NC BB SUTPT SUTPT I VALUE VALUE LSW HIGW UNITS I 3 SYMBSL INSTHU"ENT DP R SE A DN LR LSW HIGH T -= MV o 250 DEGF 5 2 T2541A CD TE-dT-107 S A N T3 5 SA N T3 -- MV o 200 DEGr 2 T2542A CD TE-wT*108 MV O 200 DEGr 5 2 T2543A CD TE-WT-101 SA N T3 -.
250 DEGr 5 2 SA N T3 -- MV o T254*A Hx TE-wi=102 -- MV o 250 DE3r 5 2 T2545A CD TE-wT-103 S A N T3 S A N T3 -- MV O 200 DEGr 5 2 T2546A CD TE-wT-106 MV o 200 DE3r 5 2 T2547A CD TE-wT-104 SA N T3 -- 5 S A N T3 -- MV O 250 DEGF 2 T25484 CD TE-WT-105 MV o 150 DEGF 5 2 T?549A CD TE-CN=126 SA N T3 -= 5 2 g S A N T3 == MV o 150 DEGr T2553A CD TE-CN'128 -- MV 72 212 DEGr 5 2 E T2552A CD TE-SD 134A-1 S A N CC -- MV 32 212 DEGr 5 2 5 T2553A CD TE-SD=1346-1 S A N CC ** MV 32 212 DEGF 5 2 0 T2562A CD TE-SD-134A-2 S A N CC -- MV 32 212 DEGr 5 2 $ 7 T2563A CD TE-SD-1346-2 S A N CC -- MV O 300 DEGr 5 2 E gj T25644 CD TE-CN-1326 S A N T3 5 SA N T3 -* MV O 303 DEGr 2 G T25654 CD TE-SD-1316 MV 32 302 DEGr 5 ? 8 CN-143A SA N T1 To T258]^ CU ' MV 32 212 DE3r 5 2 i l T25884 CD 1 SD-133A-1 S A N CC -- MV 32 212 DEGr 5 P p '
==
T2589A CD TE-SD-133A-2 S A N CC To MV 37 302 DE3r 5 2 , T2593A CD TE-CN=1436 SA N T1 5 2
-- MV 32 212 3EGr T2594A CD TE-SD=1338-1 S A N CC -- MV 32 212 DEGF 5 2 T2595A CD TE-SD-1336-2 S A N CC == MV 32 212 DEGr 5 2 ,
T2597A CD TE-SD*133C-1 S A N CC -e MV 32 212 DEGr 5 2 T2598A CD TE-SD=133C-2 S A N CC Cw MV 32 302 DEGF 5 2 Y2680A Cw TE-Cd-1050 S A N T1 5
** MV 32 212 DEGr 2 T2681A CW TE-Cw'1040-1 S A N CC -- MV 32 212 DEGr 5 2 T2682A Cw TE=CW'7040-2 S a N CC -- MV 32 212 DeGr 5 2 T2683A Cw TE-Cw-1040-3 S A N CC -- MV 32 212 DE3r 5 2 1 T2703A CL TE-dC-118A-1 S A N CC -- MV 32 212 DE3r 5 ?
T2701A CL TE-BC-118A-2 S A N CC -- MV 3? 212 DE3r 5 ? T2710A CL TE-BC-1186-1 SA N CC -- MV 3? 212 DE3r 5 ? T2711A CL TE-BC-1186-2 S A N CC To MV 32 303 DE3r 5 2 T2721A CL Tt-BC-119A SA N T1 l 8 9 e
O O O 1 13 142915 1617 18 19 20 21 22 23 24 25 26 0 R C ST P UL CN U
- VRA R E L EY A R3 AM SENSR SENSR N CSNVTO CONVTD S A AP V S B NP R NC SB OUTPT SUTPT I VALUE VALUE F R SYMBBL INSTRUMENT DP R SE A DN LR LOW HIGH T LSW MIGH UNITS I 3 T2731A CL TE-BC-1198 S A N T1 TB MV 32 300 DEGF 5 2 T2740A AC TE-Sw=112A S A N T3 == MV o 253 DEGF 5 2 T2741A AC TE-SW-1128 SA N T3 == MV o 253 DEGF 5 2 T2750A AC TE-SW=108A SA N T3 -- MV o 250 DEGF 5 2 T2751A AC TE-Sw-108B SA N T3 == MV O 250 DEGF 5 t T2801A UE TE-MS=115A RA N T1 P UE MV 32 257 DEGF 5 ?
T2832A UE TE-MS=1158 R A N T1 N GE MV 32 257 DEGF 5 2 T2803A GE TE-MS=115C R A N T1 P UE MV 32 257 DEGF 5 7 T2834A UE TE-MS-1150 R A N T1 N GE MV 32 257 DEGr 5 t T2805A UE TE-MS-115E R A N T1 P UE MV 32 257 DEGr 5 2 g T2806A GE TE=MS*115F R A N T1 N GE MV 32 257 DEGr 5 2 E T2807A UE R A N T1 P UE MV 32 257 DEGF 5 1 5 T2808A GE RA N T1 N uE MV 32 257 DE3r 5 2 o e T2809A UE R AN T1 P UE MV 32 257 DEGF 5 2 5 b
" T281oA UE R A N T1 N UE MV 32 257 DE3F 5 2 E T2811A UE TE-MS-115G R A N T1 UE MV 32 257 DEGF 5 2 G T2812A GE TE-MS-115H RA N T1 UE MV 32 257 DEGF 5 2 g T2813A UE R A N T1 P uE MV 32 257 DEGF 5 2 g T2814A GE RAN T1 N GE T2815A uE TE-MS-115J R A N T1 UE MV MV 32 257 DEGF 5 2 s 32 257 DEGF 5 2 T28204 UE TE-MS-115L R A N T1 P UE MV 32 257 DEGF 5 2 T2821A UE TE-MS=115M R AN T1 P UE MV 32 257 DEGF 5 2 T2822A UE TE-MS-115N R AN T1 UE MV 32 257 DEGr 5 2 T2823A uE TE-MS-115P 33 R A N T1 UE MV 32 257 DEGr 5 2 71 T2824A GE TE-MS-1176 S A N CC == MV 75 125 DEGF 5 2 T2825A uE TE-MS-1170 SAN CC == MV 75 125 DEGr 5 2 C}h)
T2826A UE TE-MS-117A pb 9e S A N CC -= MV 75 125 DEGr 5 2 T2827A GE TE-MS-317C SA N CC -- MV 75 125 DEGF 5 2 25 T5400A RC 70-2-412D T5403A HC TU-2-412A I w L -H 5 W L -H N N AR -- AR -- 0 0 lo 10
-V -V 530 o
633 DEGr 150 PC 2 2 2 2 jj g T5420A RC T0-2-*220 I w L -H N AM -- 0 10 -Y 530 633 DEGF 2 2 3 T5423A RC Tu-2-422A B w L -H N AR == 0 10 =V 0 150 PC 2 2 T5443A RC T0-2-4320 I W L -H N AR == 0 10 -V 530 633 PC 2 2
i 1 13 142915 1617 18 19 20 21 22 23 24 25 26 d
-i 3 D R C ST P GL CN U C {J5}
A C VRA R E L EY A RS AM SENSP SENSR N CSNVTO CONVTD S
" I VALUE VALUE F R AP V S 6 NP R NC BB SUTPT SUTPT SYM80L INSTRUMENT DP R SE A DN LR Leh HIGH T LOW HIGH JNITS I 3 T5443A RC Tu-2-432A eW L -H N AH ** O 10 -V O 153 PC 2 2 T5636A AC TE-CC-246A SA N T3 == MV O 200 DEGr 5 2 T5643A AC TE-CC=213A S A N T3 == MV o 200 DEGr 5 2 .
T5644A AC TE-CC-2138 SA N T3 -= MV O 203 DEGr 5 2 T5645A AC TE-CC=213C S A N T3 -- MV O 203 DEGr 5 2 T5656A AC TE-CC'246B SA N T3 -- MV O 203 DEGr 5 2 T5662A AC TE-CC-257A SA N T3 ** MV O 233 DEGF 5 2 T5663A AC TE-CC-2378 S A N T3 -. MV 3 203 DE3r 5 2 T5677A AC TE-CC=248C I A L -H AR 0 10 *V O 203 DEGr 5 2 T6047A vs TE-HV-2225-A SA N T3 -- MV 32 223 DEGr 5 2 R MV 32 220 DEGr 5 2 E 76048A v5 TE-HV=2225-B S A N T3 -- o T6049A VS TE HV 2225-C S A N T3 -- MV 32 223 DEGr 5 2 T7061A TB TE-MS-211C-2 S A N CC == MV 70 183 DEGr 5 2 $ cr -= MV 70 183 DEGr 5 2 > T7062A TB TE-MS=U110-2 S A N CC E L T70634 TB TE-MS-211E-2 S A N CC -- MV 70 183 DEGr 5 2
" MV 70 180 DEGr 5 2 E i T7364A T8 TE-MS 211F-2 S A N CC -=
T7065A TB TE-MS-211G-2 S A N CC <- MV 70 183 DEGr 5 2 y T7066A TB TE-MS-211H-2 S A N CC -- MV 70 183 DEGr 5 2 a, 2
- T7067A T6 TE-MS-211J-2 S A N CC -= MV 70 183 DEGr 5 T706BA TB TL-MS-2114-2 S A N CC -- MV 70 183 DEGF 5 2 T7069A To TE-MS=211L-2 S A N CC == MV 70 183 DEGr 5 2 T708aA Tu TE-MS-211A-1 S A N IC == MV 73 183 DEGr 5 2 T7082A TB TE-MS-211A-3 S A N IC -, MV 70 183 DEGr 5 2 T7084A TB TE-MS 211B-1 S A N IC -. MV 73 183 DEGr 5 2 T7086A TB TE-MS-2118-3 S A N IC -. MV 70 180 DEGr 5 2
, T7801A DE TE-MS-215 A R A N T1 GE MV 32 257 DEGr 5 2 l T7833A GE TE-MS*215 C 4 A N T1 GE MV 37 257 DEGr 5 2 T7805A GE TE-9S-215 E R A N T1 UE MV 32 257 DEGr 5 2 T7807A UE R A N T1 GE MV 32 257 DE3r 5 2 ! T7809A 6E R A N T1 GE MV 32 257 3EGF 5 ? T7813A bE R A N T1 GE MV 32 257 DEGr 3 2 T78204 bE TE-MS-215 L M A N T1 GE MV 32 257 DEGr 5 2 N A N T1 UE MV 32 257 DE3r 5 2 T7821A OE TE-MS-215 M , 9 0 9 _ - _ _
w fly #OE4
/ ONLy M 7/0/V
( ANALOG VALUES (Cont'd)
'm U m er o N N N N N N N N N N N N N tv WU N N N N tu N N IU N N N tu N N N N N N @ m 16 ** en m m In N N N tu m tu N
m ttt > fV w D- M 7 .J E E J l 3 > 91 & t1 7 7 7 == 7 t) Y > & T +-e w ** T M Q, oWI omoONwwen o 4 e- 3 O O m in N o N >Jw @ NN v4 ** i Z(I NN
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& >- I oinoo44444 o ** (A Q. O o . 4 ** e4 N Z 6- ** .4 (d 3 .I (n e E 6- 2 o in o o o o o to o o o (n EL e e tu N Z >= J e ; W3
( me m Z r CD T e j '4 U4eJ e 30 J D U Z eat % 6 e eea 2 e4 3YZo 0 0 <<0 $ 8 0 0 < h lL < T **. ZZ
.4 4 6- > S. W .4 to 4 2 to IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII e e ae e e eee e e a ee s ee eeo eo eo e a e 8 e6 e a e in U J D E J J J b h .3.J J .J J 4
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h M N Z 8 4# e W M o m -4 m M E M en a eN H 3 & m O M CL T T e m e4 tr I D- W Id id X W (A UooTU 2 NNNNN
** O3oOO a 0. CL EL IL J to m m e a m m m - tD + = + *
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- e-. * *-e w +-e W 2 k >- >- k >- t- >- E E E T >- E E E E E E E E E E E E E E E E E E E
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+4 e4 o .4 N 4 an @ b o .4 N m 4 m @ h a0 m o .4 N M e in @ h 80 m o .4 N m e4 o o o o o o o o ** e4 ** ** ** ** ** ** ** .4 tu N N N N N N N N tu m m m m i
l p e<r it) sooooooooooooooooooooooooooooooooo N o N N N N N N N gu N N N N N gu N N N N N N N N N N N N N N N N N
\ \
B-75 TPSl37
20 21 22 23 20 P5 26 e
-4 1 13 102915 1617 18 19 <
U C h D R C ST P GL CN S A VRA R E L EY A HS AM SENSR SENSR N CBNVTO CONVTO 3 AP V S B NP R NC BB OUTPT SUTPT I VALUE VALUE F R INSTRUMENT UP R SE A DN t,R t,0 W HIGH T LSW HION UN!TS I 'O SYMBOL 2 Y2034A MI .H
-H 2 Y2035A MI 2 Y2036A MI .H 2
Y2037A MI *H
.H 2 Y2038A MI 2 Y2039A MI .H 2
Y2040A MI =H 2 Y2041A MI -H 2 Y2042A MI .H S A L -H ** 25 4 'V O 15 MTLS 2 2 g Y2061A TB P0/V8-13-15 AR 4 -V O 15 MILS 2 2 > Y2062A TB PD/V8-14=15 S A L -H 25 AM .25 4 -V O 15 MILS 2 2 o Y2063A TB PD/v8-16-15 S A L .H S A L -H AH e25 4 'V O 15 MILS 2 2 y Y2064A TB P0/v8*17-19 4 *V 15 MfLS 2 2 > Y2065A TB PD/v8-18-19 S A LH AR 25 O AM 25 4 -V O 15 d!LS 2 2 E g Y2066A TB P0/V8-20-19 SA L -H 4 -v 0 15 MILS 2 2 O Y2067A TB PD/V8=21-23 SA L -H AM 25 SA L =H AN 25 4 -V O 15 MtLS 2 2 y Y2068A TB P0/v6*22-23 4 -V 15 MILS 2 2 a Y2069A TB PD/V8*24-23 S A L =H AH 25 O 6 Y26004 MI SA L *H AH 1 5 =V O 100 Fr 4 2 252 ri 4 2 Y2601A MI 113-TS1-5-6 SA L =H N AR 1 5 *V P43 P43 256 FT 4
- Y2603A MI 113-Tol-1-2 S A L .H N AN 1 5 -V 10 MA 0 103 PC 2 2 Y2800A uE ASM-1 I A L MA AM 50
-H 2 V4009A MI ?
Y4010A MI -H
-H 2 V4011A MI ,H 2 V4012.A MI 2 Y4013A MI ~ .H .H ?
v4014A MI 2 v4015A MI .H
.H 2 Y4016A MI 2 Y4017A MI .H -H 2 Y4018A MI 2 -H v4019A MI # 9 e
O O O i 13 142915 1617 18 19 20 21 22 23 24 e5 26 1 C 0 R C ST P GL CN U S & VRA R E L EY A R5 AM SEn... '*NSR N CSNVTD CONVTO F AP V S S NP R NC dB SUTPT SUT6: I VALUE VALut R 0 P R SE A ON LR LOW HIGH T LSW HIGH UNITS I O SYMBOL INSTRUMENT
.H 2 v4020A MI 2 Y*021A MI .H .H 2 Y*022A MI 2 V4023A MI .H 2
V4024A MI .H
.H 2 Y4025A MI 5 -V 272 265 FT 4 2 V4026A MI 113-Td2-9-10 IA L .H N AR 1 5 -V 217 260 FT 4 2 V4027A MI 113-T61-7-8 S A L .H N AR 1 5 -V 217 260 FT 4 2 1
Y4028A MI 113-Td1*9*10 S A L =H N AR 5 =V 217 260 FT 4 ? > Y4029A MI 113TS1-11-12 S A L .H N AR 1 2 $ Y4030A MI .H
.H ! o v40314 MI 2 =H Y4032A MI 2 5 v4033A MI .H 7 -H 2 E d v4034A MI 2 G V4035A MI .H .H 2 g V4036A MI 2 3 Y4037A MI .H Y4038A MI *H 2 s -H 2 Y4039A MI 2 V4040A MI .H .H 2 Y4041A MI 2 2 Y4042A MI =H .H 2 Y4043A MI 2 O %
s
-H V4044A MI -H 2 $E Y4045A MI 100 MV 150 VAC 4 2 T%
Y4046A MI THANS= FANEL S AL *H N AN 0 O 4
.H N AN O 100 MV O 5 AMP 2 23 Y4047A MI THANSe PANEL S A . 2 2 Y4048A MI -H 2
Y4049A MI -H
.H 2 Y4050A MI 2 .H d Y4051A MI -H 2
$ Y4052A MI
20 25 ?6 .o 20 21 22 23 1 13 142915 1617 18 19 U C Q D R C ST P GL CN S A
$ N CSNVTD CONvTO vRA R E L EY A MS AM SENSR SENSR I VALUE VALUE r a 3 V $ B NP R NC dB SUTPT SUTPT HIGH UNITS I 3 AP Lew HIGH T Led SYM88L INSTRUMENT D P R SE A DN LR 2
Y4055A MI 2 V4056A MI 2 v4057A MI 2 Y4058A MI 2 Y4059A MI 2 Y4060A MI 2 , 2 ! Y4061A MI ' E Y4062A MI v4063A MI 2 g 2 > l Y4064A MI Y4065A MI 2 o .I l 2 , Y4066A MI 2 N Y4067A MI 7 Y4068A MI 2 2 { en I g Y4069A MI
? p Y4073A MI E E l Y4071A MI s 2
V4072A MI 2 Y4073A MI 2 Y4074A MI 2 14075A MI 2 Y4076A MI 2 Y4077A MI 2 Y4078A MI 2 Y4079A MI 2 Y40MDA MI Y40314 *11 2 Y4082A MI 2 Y4083A MI 2 2 Y4084A MI 2 Y4085A MI 2 Y4086A MI v4087A MI
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CARD 2222222E2222222222222222222222222 _ 6 S F' I 2 _ S 5 T 2 I N _ U DEW 4 TUG _ 2 YLI NAH SV _ C dew 3 TUe 2 VLL , NA SV-C 2 U N IT 2 RTH 1 SPG 2 NTI _ EUH SS _ RTW _ 0 SP8 O 2 NTL EU SB 9 NMBR 1 CABL _ 8 LeCN 1 GRND 7 PARA 1 6 TYPE AAAAAAAAAAAAAAAAAAAAAAA 1 SENS MMMMMMMMMMMNMM,,MMMMMMMM 5 CL SR 1 9 RESP 2 . 4 O4V0 1 T N E 3 M . 1 U
- N T .
S N I IIIIIIIIIIIIIII III1IIIIIIIlI!IIII MMMMMMMMMMMMMMMMMMMMMMMMMMiMMMMMM t L O A4AA4AAA4AAAAAAAAAAAAAAAAAAAAAAA' A _ 1 APB 89012345678901234567B901234567890 889999999999000000000011111111112 RAM 000000000000111111111111111111111 V Y 44 4444444444444444444 44*444444444 . O S VVVYVYVYvVYYYYYYVYYYYYYYVVYVYVYVV
,ed ~ h, - ' ij ,! :;,;i;!' < .
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13 142915 7,617 18 19 20 21 22 73 26 ?5 25 q 1 U C m 0 R C ST P GL CN & N CONvTO CONYTD S 3 VRA R E L EY A R5 AM SENS9 SENSR F 4 AP V S 8 NP R NC BU OUTPT GUTPT I VALUE VALUE SYMBBL INSTHU9ENT DP R SE A QN LR LOW HIGH T L5W HIGW UNITS I D - MA 2 v41214 M! 2 Y4122A MI MA MA 2 Y4123A MI 2 v4124A MI MA MA 2 v4125A MI 2 Y4126A MI w E
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8
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s b b c a 6 O O . e
( ANALOG VALUES (Cont'd) I/()y U4mn mmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmm I i l i i m V w Z
.4 4 E 4 W I a d l
l I l l
#U4JU e ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ m JCO ZZZZZZZZZZZZZZZZZZZZZZZZZZZZ22222 4 -
Nm3&E ZZZZZZZZZZZZZZZZZZF 22222222227227 e m WAECU eeeeeee eee eeeeee eeae ee eoeee ee eeo e-M422' o ee eeee eee eeoeeeoeee eeeeoeeeee e eae ee a e e ee e eeoeoeee e e e eeeaee eee eoee N eJ e oe3 e e a e e e- o e ee eeeeee ee eeee eeeee mrEME m -ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ OkZwk eeeeeeeeeeeeeeee ee e ee e eeeeeeee eea m NUDZO N mmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmme o HW 21 EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE 4 JF 1H EEEEEEEEEEEEEEEEEEEEE e e e e e e e D EEE e i
- i. 2 EEEEEEEEEEE ee e eeee eeee eo e oe e D EEE e O J
> <<<<<<<<<<44444444444444444444444 w NAC M
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O O O 41 1 40 273039 28 31424344 C CTR A PS C A VRA/VGB 5RP N RULA R AP PLNT N IS N ePeL O CRGC REMARKS' SYMSSL TYPE D P M 3 C5030A MMMM B = N === = N N N 3 C5031A MMMM S = N === =NNN 3 C5032A MMMM S = N === = N N N 3 F0110A ==8= 3 F0111A ==8 3 F01284 MMMM S = N====== S N L Y SENS5R SUTPUT UNCSMPENSATED 3 l F0134A MMMM S = N S N L Y SENSOR OUTPUT UNCSMPENSATED 3 F0400A MMMM N = Y === 3 N N N SENSOR SUTPUT UNCOMPENSATED 3 70401A MMMM N = Y === 3 N N N SENSOR SUTPUT UNCSMPENSATED 3 g F0402A MMMM N = Y === S N N N SENSBR SUTPUT UNCOMPEN3ATED 3 5 F0403A MMMM N 1 Y === 2 N N N SENSBR SUTPUT UNCSMPENSATED 3 5 0 F0404A MMMM N 1 Y === 2 N N N SENSOR OUTPUT UNCSMPENSATED 3 r0405A MMMM N 1 Y *** 2 N N N SENSOR SUTPUT UNCSMPENSATED 3 5 7 F0406A MMMM N 1 Y *** 2 N N N SENSOR SUTPUT UNCOMPENSATED 3 E
=
F0420A MMM N = Y '== S N N N SENS8R SUTPUT UNCOMPENSATED 3 O F0421A eMMM N =Y === S N N N SENS8R SUTPUT UNCOMPENSATED 3 5 F0422A -MMM N = Y === S N N N SENSSR SUTPUT UNCOMPENSATED 3 3 F0423A t NM N 1 Y === 2 N N N SENS5R SUTPUT UNCSMPENSATED 3 i Foer4A enMM N 1 Y === 2 N N N SENSOR SUTPUT UNCSMPENSATED 3 F0425A -MMM H 1 Y === 2 N N N SINS 5R SUTPUT UNCOMPENSATED 3 F0426A eMMM N 1 Y === 2 N N N SENSOR SUTPUT UNCSMPENSATED 3 F0440A ==MM N = Y === S N N N SENSSR SUTPUT UNCOMPENSATED 3 (! F0441A **MM N = Y === S N N N SENS9R SUTPUT UNCSMPENSATED 3 o F0442A ==MM N = Y === S N N N SENS8R SUTPUT UNCSMPENSATED 3 h4 F0443A ==NM N 1 Y === 2 N N N SENSSR SUTPUT UNCBMPENSATED F0444A ==MM N 1 Y === 2 N N N SENSSR SUTPUT UNCSMPENSATED 3 3 O['a F0445A *=MM N 1Y ===_2 N N N SENSSR SUTPUT UNCSMPENsATED 3 o F0446A ==MM N 1Y === 2 N N N SCNSSR SUTPUT UNCSMPENSATED 3 D F0450A ==B. = = N 2N N 3 INCL IN BORON CSNCEN. PROGRe F0483A MMMM S = N === x N N N FLSW EQ 3 f F0484A MMMM S = N === X N N N FLOW EQ. INCL IN BSRON CSNCEN. PRSGRs 3 CJ F0626A MMMM S = N === S N N N SENS5R CUTPUT UNCSMPENSATED 3 F1000A ==B. = = N =N N
Q 1 40 273039 28 31424334 41 E!' C.T R A PS C C
%} VRA/VGB DRP N RULA A AP PLNT N !$ N OPSL 4 SYMBOL TYPE D P 1 CRGC REMARKS 3 F1001A ==B. = = N XN N NO SETPSINT REQUIRED 3 F2014A *=Be = = N 2N N 3 F2015A .=S= = = N 2N N 3 F2016A *.8 ..N 2N N J F2017A ==B' -
- N 2N N 3 F22G3A
- S. . - N 2N N 3 F2243A . 8. . - N 4N N PITST VENTURI CAL CURVE FSR DIFFsCOMP.CSNV K5H 3 F2253A ==6. N 2N N 3 F2263A ==He =. N 2N N 3 F2303A ==U. . . N 4N N PITST VENTURI CAL CURVE FOR DIFFsCOMP.CSNV KBH 3 $
F23.13A = B. . N 2N N 3 $ F2323A *.B. . . N 2N N 3 o F2501A
- B. . . N 2N N 3 <
7 F2505A ..U. . . N 4N N PITOT VENTURI CAL CURVE FOR DIFFsCOMP.CONV KSH 3 $
% F2506A . 8= = . N 2N N 3 g F2542A ==Se = . N 2N N 3 2 F2545A e-B. . . N 2N N 3 p F2547A .=B. = . N 2N N 3 Q F25504 =.B. . . N 4N N PITOT VENTURI CAL CURVE FSR DIFFsCOMP.CBNV KBH 3 E F2551A ==B- - - N 4N N PITST VENTURI CAL CURVE FBR DIFFsCBMP.CONv (BH 3 F2552A . 8= = . N 4N N PITST VENTURI CAL CURVE FOR DIFFsCSMP.CSNV (BH 3 F2553A =.B. . N 4N N PITOT VENTURI CAL CURVE FOR DIFFsCOMP=CONV K8H 3 F2565A ==B. . . N 4N N PITOT VENTURI CAL CURVE FOR DIFFsCOMP.CONV <BM 3 F2566A ==B= = = N 2N N 3 F5403A MMMM N 1 Y .. 2 N N N SENSOR SUTPUT UNCSMFENSATED 3 F5423A =MMM N 1 Y ... 2 N N N SENSOR BUTPUT UNCSMPENSATED 3 F5443A ==MM N 1 Y **= 2 N N N SCNSSR SUTPUT UNCSMPENSATED 3 LO112A MMMM S . N ... .NNY 3 LO400A MMMM N 1 Y === = N N N 3 LO401A MMMM N 1 Y === . N N N 3 LO402A MMMM N 1Y *.= .NNN 3 LO403A MMMM C 1 N === =NNN 3 LO420A =MMM N 1 Y =.. .NNN 3 e e e
O O O 41 1 40 273039 28 31424344 C CTR A. PS 'C A VRA/VGB 5RP N RULA R AP FLNT N IS N 3 POL REMARKS O SYMBSL TYPE O P M CRGC 3 LO421A eMMM N 1 Y === = N N N 3 LO422A =MMM N 1 Y === =NNN 3 LO423A *MMM S 1 N === .. - N N N 3 LO440A ==MM N 1Y =NNN 3 LO441A ==MM N 1 Y=======NNN =NNN 3 LO442A ==MM N 1Y === =NNN 3 LO443A ==MM S 1 N === 3 LO480A MMMM N 1Y =NNN 3 LO481A MMMM N 1 Y === = N N N 3 > LO482A MMMM N 1 Y === = N N N 3 J LO483A MMMM S 1 === N === 3 5 LO485A MMMM S = N - =NLY NNN 3 o
=N N $
L2504A ==S = = N
=N N 3
N 3 E to L2514A ==Um = =
=N N = = N G k* L2524A ==B. 3 L2600A ==B= 3 6 L2601A ==B= NNN 3 $
L5400A MMMM N 1Y
=== = 3 s L5420A =MMM N 1 Y === = N N N 3 L5440A ==MM N 1 Y ====NNN =NNN 3 L5480A MMMM N 1 Y === 1 N0001A MMMM M = N === e N N N CONNECT PLUS $!GNAL LEAD TS MINUS COMPUTER LEAD1 ~
N0002A MMMM M = N === = N N N CONNECT PLUS SIGNAL LEAD TS MINUS COMPUTER 3 N0003A eMMM M = N ====== == N N N CONNECT PLUS SIGNAL LEAD TO MINUS COMPUTER LEAD N N N CONNECT PLUS SIGNAL LEAD TS MINUS COMPUTER LEAD 3 o N0004A =MMM M = N 3 33 NpOMA ==MM M = N === = N N N CONNECT PLUS SIGNAL LEAD TS MINUS COMPUTER LEAD 3 xE N0031A MMMM Z 1 Y === X Y: N N LOG Y EQUALS 6/5 X VSLT = 1 3 ;y N0032A MMMM Z 1 Y=== === X Y N N LOG Y EQUALS 6/5 X VSLT = 1 3 O X Y N N LSG Y EQUALS 8/5 x VSLT = 5 3 D N0035A NMMM Z 1 Y N0036A MMMM L 1 Y=== === X Y N N LSG Y EQUALS 8/5 X VSLT = 5 3 N0041 A MMM;1 Z 1 Y =NLY 3 Y N0042A MMMM Z 1 Y === = N L Y 3 y N0043A MMMM Z 1 Y === = N L Y a
1 CO 273039 28 314203DO 41 _Q C
$- CTR A PS C A VRA/VGB DRP N RULA %) 9 AP PLNT N IS N OPSL D SYMBOL TYPE D P M r'GC REMARKS 3 -
N0044A'MMMM Z 1 Y === =4LY 3 NOO45A MMMM Z 1 Y === = N L Y 3 N0046A MMMM Z 1 Y === =NLY 3 - N0047A MMMM Z 1 Y === = N L Y 3 N0048A MMMM I 1 Y === =NLY 3 N0049A MMMM I B Y *== = Y L Y eVAReLIM DEPENOS ON STATUS OF NOO150 AND N.7016D3 N0050A MMMM Z B Y **= = Y L Y 3 N0051A MMMM Z B Y === =YLY 3 N0052A MMMM I B Y === =YLY 3 $ N0060A ==MM S = N === = N N N 3 $ N0061A --MM S = N === = N N N 3 o N0062A ==MM S = N === =NNN 3 e N0063A ==MM S = N === =NNN 3 K N0064A ==MM S = N === =NNN 3 g g N0065A ==MM S = N === = N N N 3 y N0066A *=MM S = N === = N N N 3 p N0067A ==MM S = N === =NNN 3 A N0068A ==MM S = N === =NNN 3 S N0069A ==MM S = N === =NNN 3 N0070A ==MM S = N === =NNN 3 N0071A ==MM S = N === = N N N 3 N0072A ==MM S = N === === = N N N 3 N0073A ==MM S = N =NNN 3 N0074A *=MM S = N === =NNN 3 N0075A ==MM S = N === =NNN 3 N0076A ==MM S = N === =NNN 3 N0077A ==MM S = N====== =NNN 3 N0073A ==MM S = N =NNN 3 N0079A ==NN S = N === =NNN 3 N0080A ==MM S = N === =NNN 3 N0081A ==MM S - N === = N N N 3 N0082A ==MM S = N === =NNN 3 N0083A ==MM S = N === =NNN 4
O O O 1 40 273039 28 31424344 41 ! CTR A P$ C C
.VRA/VG8 9RP N RQLA A R
AP PLNT N IS N O P S L. ! SYM88L TYPE O P M. CRGC REMARKS O ! i 3 NOOS4A ==MM S = N === = N N N N008SA ==MM S = N ===.= N N N 3 N0086A ==MM S = N ===~= N N N 3 NOO87A-==MM S - N === = N N N 3 N00884 ==MM S = N === ..N N N 3 ! NOOS9A ==MM S = N === =NNN 3 ! N0090A ==MM S = N === = N N N 3 3 i N0091A ==MM S.= N === =NNN 3 N5041A MMP"ti'I 1 Y === = N L Y l N5042A MMNM Z 1 T === = N L Y 3 g 3 > N5043 A NMMP' I 1 Y *** ' = N 8, Y
-N5044n MMMM:Z'l Y =** = N L'Y 3 o i 3
- 4Q47.A MMMM Z 1 Y === = N L Y y 'N5046A MMMM.I-I Y === =NLY 3 I ndo47A MMMM 1 1 Y === = N L Y 3 E l 3 3 E i N5043A MMMM Z:1 Y === = N L'Y.
N5049A HMPM Z B Y *== = N L'Y eVAReLIM DEPENDS SN STATUS SF N00150 AND-N33160 3 g l t N5050A MMMM Z 8 Y === = N L Y. 3 a n' N5051A MMPA Z 8.Y === =NLY 3 ; N5052 A .MMMM 3 - 8 Y === = N L Y 3 3 PQ127A ==MM S = N ===.. YNN 3 P0129A *MMM S .:.N === =YNN P0131A'MMMM S = N === =YNN 3 $ P0135A MMMM'S = N === = N N Y 3 oo j P01394-MMMM S = N === =NNY 3 2y t P0142A MMMM'C = N === = N N Y 3 Q y, j P0398A MMMM N 8 Y ===.. N N N 3 y i P0399A.MMMM.N 8 Y === =NNN 3 O t 3 2 ; PO403A MMMM N 1-Y === = N N N' PO401A MMMM N 1 Y.=== a.N N N 3 ; PO402A MMMM N 1 Y;=== = N N N- 3- l d. iX PO403A ==8= =
- N .
3N N. C8HPENSATE PRES. AND CSNVERT TS PSIA 3 PO420A'=MMM N 1 Y === = N N N~ 3
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1 40 273039 28 310243 % 41 CTR PS C h A C A G VRA/V0B BRP N RULA R
" AP PLNT N !S N OPSL 0 SYMBOL TYPE D F M CRQC REMARKS 3
PO421A =MMM N 1 Y === =NNN 3 PO422A =MMM N 1 Y === = N N N 3 PO423A ==B. = = N 3N N COMPENSATE PRES. AND CONVERT TS PS!A 3 PO440A ==MM N 1 Y === = N N N 3 - PO441A ==MM N 1 Y === =NNN 3 PO442A ==MM N 1 Y === =NNN 3 PO443A ==B- = = N 3N N COMPENSATE PRES. AND CONVERT TO PS!A
=== =NNN 3 PO480A MMMM N 1Y 3 PO481A MMMP N 1 Y === =NNN PO482A MMMM N 1 Y === =NNN 3 $
PO483A =MMM N 1 N === ' =NNN 3 g 3 o PO484A ==M= S 1 N === =NNN 3 $
, PO485A NMMM S = N === = N N N 3 i PO496A ==M. N 1N === =NNN K C ' 3 $ P9497A ==B= 3 PO495A ==B- 3 p" PO499A MMMM S = N === =NNY 3 a, P1000A-==B. e = Y XN N TWO HIGH ALARMS = 15 PS!A AND 25 PSIA ==B= Y XN N Two HIGH ALARMS = 15 PSIA AND 15 PSIA 3 E P1001A = = ==B. = = Y XN N tw5 MIGH ALARMS = 15 PCIA AND 25 PSIA 3 P1002A ==B- = = N =N N 3 P1003A ==B= = = Y XN N TWO HIGH ALARMS = 15 PSIA AND 25 PS!A 3 P1004A 3 P1010A ==B. = = N XN N ALARM IS FUNCTION 8F CSNTAIN. TEMPS ==B= = N XN N ALARM IS FUNCTION BF CSNTAIN. TEMPe 3 P1011A =
3 P2000A ==S= = = N 3N N COMPENSATE AND CONVERT PRESe T8 PSIA %TB START < P2001A ==B- * = N 3N N COMPENSATE AND C8NVERT PRES, TS PSIA 3
==B- = = N 3N N COMPENSATE AND CSNVERT PRES. TO PS!A 3 P2003A 3N N COMPENSATE PRES, AND CONVERT TS PSIA 3 P2005A . B. = = N N COM8ENSATE PRES, AND CSNVERT TO PSIA 3 P2006A ==B. = = N 3N ==T= = = N === =N Y TURBINE START 3 P2010A ==B. = = N 3N N COMPENSATE PRES. AND CONVERT TO PSIA 3 P2016A P2017A ==Se = = N 3N N COMPENSATE PRES, AND CONVERT TO PSIA 3 *-Bo = = N 3N N COMPENSATE AND CONVERT PR e TS PSIA 3 P2018A 8 9 e
l W INF04 ONLy ANALOG VALUES (Cont'd) U4EO mmmmmmMmmmMmmmmmmmmmmmmmmmmmmmmmm 444 4444444444 4444444444 4 www wwwwwwwwww wwwwwwwwww w , WWW WWWmMWWWWW WWWWWmmMWW M LLE ELLLLLLLLE ELLLLLLLA& E-DDD DDDDDDDDDD DDDDDDDDDD D HHH HHHHHHHHHH HHHHHHHHHH & eHH HHHHHHHHHH HHHHHHHHHH H MEE EKEEEEEEEE EEEEEEEEEE E WWW WWWWWWWWWW WWWWWWWWWW W E>> >>>>>>>>>> >>>>>>>>>> > $ W EZ2 ZZZZZZZZZ2 ZZZZZZZZZZ Z M DD DDDDDDDDDD DDDDDDDDDD D e K HUU UUUUUUUUUU UUUUUUUUUU U 4 4 E E WOO 0000000000 0000000000 O W >ZZ ZZZZZZZZZZ- ZZZZZZZZZZ Z E 244 4444444444 444444444% 4 ,, D Um o e e e o e e eme e e e e e e e se e e o MW MWWWWWWmMM mmmt9WWmmmm .m OWW WWWWWWWWWW WWWWWWWWWW W ZEE EEEEEEEEEE EEEEEEEEEEHE MER EkELELL1LL LLLaLLLLLLEL 4 WWW WWWWWWWWWW WWWWWWWWWWWW
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HHH >>>>HHHHHH 444 4444444444 4444444444 4 WWWWWWWWWWWm l MMW W W W W ri m m m m m ZZZ ZZZZZZZZZZ ZZZZZZZZZZZZ. WWW WWWWWWWWWW WWWWWWWWWWwW Ek&- LE&hEkk&EE EEEEt&&&ELek E E E '- , EEEEEEEEEE EEEEEEEEEEET Dee' ODeDececce D0e000000e3e UUU UUUUUUUUUU UUUUUUUUUUHU
# U'C J U ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ e
m' JDO e N W 3 k E* ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ e wLEDU mmmemmmmmmmmmmmmmmmmmmmMmmemoeemm m e4ZZ N MELWE ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ%ZZZ m OVEwL m eeeee eeeee eeeee ee eeee e ee e e s's e e e ee hueZO ee SEseee ee eeeee ee eeee e ee eeeeees 0.8 N 0- W ee e e e e-e e e e eseeeeeeeee e eeeeeee-eeee O ZL SSSmem392cammeBS29992ESSSSSSSE2mm 4 J> ee e ee eee ee ee eee e ee e o e -o eee eee eee e e (b. H eeeeeeee e.e e9 9 9 e.e e e e e e e ee e e e e e's e ee G . 6 J 44444444444444'44* 444444444444444
> D mOwmWMNmNMN#m@ONun.NNNONOmmOwm*@ND w NED wNNmOOwwNNestem@@@hmmmOwNNOOOOOOO 44E OOOONNNNNNNNNNNNNNNNNNmmmmmmmmmmm E > NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >* W LAELLLLLE&EL&EELA&ELLEAk&L&&&LLEE w
s B-89 TPSIS7
1 40 273039 28 31c20334 41 g CTR A PS C C _ A
$ VRA/VGB DRP N RULA R PLNT N !S OPSL AP N 0
SYMBSL TYPE D P M CRGC REMARKS
=N N 3 P2510A ==8. = = N ==B- ==N =N N 3 P2566A 3 P2800A ==6. R =N =N N TURSINE START = N N TURBINE START 3 P2801A ==B R = N 3
4 P5398A MMMM N B Y === = N N N 3 P5403A ==B- a N 3N N COMPENSATE PRES. AND CONVERT TS PSIA 3 P5423A ==B= = a 3N N COMPENSATE PRES. AND CONVERT TO PSIA N COMPENSATE PRES. AND CONVERT TS PSIA 3 P5443A ==B= = = 3N 3 P5480A MMMM N 1 **===NNN 00340A MMMM M S N === = N L Y 3 $ X == N === N N 3 $ 00400A 02601A X = = N === N N 3 g N === 3 < 02802A ==U. = = = 3 % f 02803A ==B = = N === = 05340A MMMM M BN === = N L Y 3 g 8 =N 3 " i R0020A ==Se = = N N _ R0021A ==B. - N = N N 3 p 3 & R0022A ==8= = = N = N N S
==B= = = N = F N 3 R0023A 3 R0024A ==B= = = N = N N ==B- = = N = N N 3 R0025A 3 R0026A ==6= = = N = N N N 3 R0027A ==B = = N = N XN N CPMsCSUNTS/ MIN 3 R0028A ==B = = N ==B. = = N XN N CPM 8 COUNTS / MIN 3 R0029A 3 R0030A ==B= = = N XN N CPM 8 COUNTS / MIN 3
ROO31A ==B= = = N XN N CPMfGBUNTS/ MIN 3 R0032A ==U = = N XN N CPM
- COUNTS / MIN XN N CPMWCOUNTS/ MIN 3 R0033A ==B- = = N 3 R0034A ==$= = = N XN N MCPMsMICR0 COUNTS / MIN 3
R0035A ==B. = = N XN N CPMFCSUNTS/ MIN 3 T0001A MMMM L = N === X N N Y 3 T0002A MMMM L = N === X N N Y
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ll O O $- _
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2 1 40 273039 28 31424344 41 CT1 A PS C C A VRA/VGB 5RP N R ULA 4 AP PLNT N'I S' N O P. S L 3 SYMBSL TYPE D P M CRGC REMARKS 3 3 70003A MMMM-L w N === X N N Y CALI6e.= 'ALL IN CSRE T WILL HAVE INDIVIOUAL
'70004A MMMM L = N === X N N Y-CAL 18e CURVESe.TNE DATA.FSR THESE CURVES d!LL BE 3 ,
i T0005A MMMM L = N ==a X N N Y SBTAIN FROM' FIELD TESTSe'IN!T! ALLY CHR9MEL=ALUMEL3 T0006A MMMM L = N === y N N Y NegeSe CURVES WILL BF USEU. . 3.- ! 3 70007A MMMM L i N === X N N'Y-IN. CORE T WILL BE C0 "4NSATED BY THE.!N CBRE T 3 i T0008A MMMM L = N === X N N Y JUNCTION B8X. TEMPER /' hES. - 70009A~MMMM L = N === X N N Y ALLOWABLE UNDER'RNG ALL IN C6RE 1 WILL HAVE 3 1 4 T0010A.MMMM L = N === X N N Y AN UNDER RANGE DSWN TS O DEGREE F- 3 70011A MMMM L = N ====X N N.Y-70012A'MMMM L = N === X N N Y 3 g' 3 > T0013A MMMM L = N ===.~X.N N Y T0014A HMMM L.* N === X N N Y 3 o 3 70015A MMMM L = N'=== X N'N Y 3 5 y 70016A'MMMM L = N === X N N Y 3 E
'~ T0017A MMMM L = N === X N N Y' 3 E 70018A MMMM L = N:=== X N N Y T0019A MMMM L = N === X'N N'Y 3 y j '
T0020A MMMM L
- N === X N N Y- 3 a
-TG021A MMMM L = N === X N'N Y 3' s T0022A'MMMM L =.N === X N N.Y 3 ;t 3
T0023A'MMMM L ='N ===.X N.N Y 3 70t24A'MMMM L- N ===.X N N.Y 70025A =MMM L = N ==='X N N.Y 3 $ i
.T0026A =MMM L
- N *==1X N'N Y 3 -
y T0027A eMMM L = N ===7X N N Y 3 T0028A'*MMM L.= N'=== X N N Y 3 & TA 70029A'=MMM'.L = N.=== XNNY 3 T0030A =MMM L..=.N === X N N Y
'3 3 :2 h.
T0031 A =MMM - L : . N , === X N 7; ; Y. T0032A~=MMM L = N === X N N.Y 3' 3- ;
'70033AJ.MMM.L = N ===:-X N N Y 70034A =MMMLL'='N === X N.N Y .3' . . ; '70035A =MMM L = N..==-X N N.Y 3. .
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i 40 273039 28 310203 % 41 4 ~4 C T. R - A PS C C g A u VRA/VGB 5 'R P N RULA R AP PLNT N !S N OPSL O SYMBBL TYPE'D P M CRGC REMARKS 3 T0036A =MMM L = N === X N N Y 3 T003 A eMMM L = N === X N N Y 3 70038A eMMM L = N === X N N Y' 3 70039A eMMM L = N === X N N Y. 3 , TC040A ==MM L = N === X N N Y 3 T0041A ==MM L = N === X N N Y 3 T0042A ==MM L = N === X N N Y 3 70043 A "MM L = N === XNNY 3 T0044A ==MM L = N === X N N Y 3 E 70045A ==MM L = N === XNNY T0046A ==MM L = N === X N N Y 3 $ T0047 A "MM L = N === X N N Y 3 g 3 < T0048A ==MM L = N === x N N Y 3 y T0049A ==MM L = N === XNNY K 3 $ 3 T0050A ==MM L = N === X N N Y T0051A ==MM L = N === X N N Y 3 2 3 & 70037A MMMM T = N === = N N N 3 % T0088A MMMM T = N === =NNN 3 E T0089A MMMM T = N === =NNN 3 70090A MMMM T = N === =NNN 3 T0122A MMMM S = N === =NNN 3 T0126A MMMM S = N === =N NY 3 T0127A MMMM S = N === = NNN 3 T0140A MMMM S = N === = NNY 3 T0145A MMMM S = N === = N N Y 3 70151A ==B- T = N = N N
't 70152A ==B= T =N = N N 4
T0153A ==B= T=N = N N ^ T0181A MMMM T = N === = YNN YNN 3 T0182A =MMM T = N === = 3 70183A ==MM T =_N === = YNN
= N 3 70400A MMMM N 1 Y n. 3 Tu901A MMM. N 1N === = NNN 9 e e
O O O 41 1 40 27307: I3 31424344 C CTa A PS C A VRA/V0B 5RP N RULA R AP FLNT N !S N OP5L REMARKS D SYMBOL TYPE D F M CRGC 3 70402A MMMM N 1 N === NNNN 3 T0403A MMMM N 1 Y=== === =N 3 70404A MMM= N 1N =NNN 3 T0406A MMMM S = N === =NLY 3 70407A MMMM N 1 Y=== === = N L Y 3 70410A MMMM N 1Y =NLY 3 70412A =MMM T = N === =YLN 3 70413A MMMM T = N === = Y N N 3 70414A MMMM T = N=== === =YNN
=YNN 3 g TOA1SA MMMM T = N 3 2 T0416A MMMM T = N === =YNN 3 o T0417A =MMM T = N === =YNN 3 T0418A MMMM T = N === =NLN 3 $
70419A *MMN S = N === =NLY 3 E 7 3 E $ T0420A =MMM N 1 Y === = N N N 70421A -MM N 1 N === =NNN 3 p T0422A eMMM N 1N ===
=== N N N N 3 3 70423A .MMM N 1Y === =N 3 $
T0424A =MM. N 1N =NNN 3 T0426A MMM S = N === =NLY 3 T0427A eMMM N 1Y === =NLY 3
= NLY 3 70430A =MMM N 1 Y === %
70432A =MMM T = N === =-Y LN 3 op T0433A eMMM T = N ==== =YNN YNN 3 70434A -MMM T = N === = 3 2* T0435A -MMM T = N === YMN 3 3 Q[i c T0436A =MMM T = N === =YNN O T0437A *MMM T = N === =YNN 3 2 T0438A =MMM T = N === = N L N 3 T0439A MMM S = N === =NLY 3 70440A ==MM N 1Y
=== =NNN 3 h T0441A ==M. S 1 N === =NNN 3 T0442A ==MM N 1N === NN NN a
41 1 00 273039 28 31426344 C Q CTR A PS C A
$ 5RP N RULA R Zi VRA/VGB AP PLNT N !S N 6 POL REMARKS 0
SYMBOL TYPE D P M CRGC 3 ' T0443A *=MM N 1 Y === =NNN 3 T0444A ==M= S 1 N === =NNN 3 70446A ==MM S = N === =NLY 3 i 3 7 70447A ==MM N 1 Y === = N L Y - 70450A ==MM N 1 Y === =NLY 3 704524 =MMM T = N =*= N Y L N 3 704535 -,MM T = N === =YNN 3
??464i. =*wM T = N === =YNN 3 10455A ==MM T = N ==== =YNN 3 E 70456A ==MM T = N === YNN 3 K T0457A ==MM T = N === =YNN 3 g 70458A ==MM T = N === =NLN 3 <
3 70459A ==MM S = N====== =
=NLY NNN 3 70480A MMMM S = N F, f 70481A MMMM S 1N **= = NLY 3 r g === = NNN 3 p 70482A MMMM S = N 3, 3
TO483A MMMM S - N === =NNN
=NNN 3 E 70484A MMMM S = N ===
70485A MMMM 3 = N === =NNN 3 70496A MMMM S S N === =NLY 3 T0497A NMMM S 1 N ====N=NNNN TURS!NE START 3 3 70498A ==$= = = N 3 T0499A MMMM S 1 N === =N
=NLYN TO601A ==U T = N 3 T = N =N N 3 70606A ==B= N N T = N = 3 70607A ==B- N N 3 70610A ==6= T = N =
T = N = N N 3 70611A ==6. N = N N 3 T0612A ==B= = = N N
= = N = 3 70615A ==B-T0617A ==6= C=N = N N 3 C=N = N N 3 70618A ==8= = N N 70621A ==6= T = N 9 9 .
9
a d,.~. v 1 40 273039 28 31424344 41 C T.R A PS C C A VRA/VGB SRP N RULA R AP PLNT N IS N $P$L 0 SYMBOL TYPE D P M CR0C REMARKS
=N N 3 T0622A ==B= C = N 3 T0623A *=B* C = N =N N 3
70627A MMMM S = N === =NNN 3 70630A MMMM S = N === =NNN 3 T0631A ==B= T = N =N N
==B =N N 3 70632A T = N =N 3 70633A ==B= T = N N =N 3 T0634A ==B= T = N N =N =N N 3 T0635A ==B. = =N N 3 _@
T0636A ==B T = N
=N 3 p TO637A ==8. = = N N 3 o T0638A ==8. T = N = N N T=N N N 3 3 T0639A ==B- =
3 7 T0640A ==8= T = N = N N % 70643A ==8= T = N = N N 3 g
$ N N 3 m T0644A ==B- T = N =
3 p 70645A ==B= T=N = N N
.N 3 3, T0651A ==B. T=N N 3 S T0652A ==B- T=N =N N ==B =N N 3 T0653A T = N ==B= T=N =N N 3 T0654A 2 ==B= = = N =N N 3 T0655A 3 y T0656A ==B- T = N =N N T0657A ==B- = = N = N N 3 k4E ==B= T = N N N 3 T0658A =
70661A ==B= = = N = N N 3 TN T0662A ==B= T = N = N N 3 6
==B- T=N N N 3 2 T0663A = ==B= =N N 3 T0665A T '= N 3
T0666A ==B= T=N =N N 3 d T0672A ==B= T=N =N N 3
$ 70673A ==B= T = N =N N 3 $ 70674A **B. T = N =N N
d 1 40 273039 28 31426344 41 . iX CTR A PS C C G VRA/VQB BRP N RULA A AP PLNT N !S N 6PSL R SYMBOL TYPE D P'M CRGC REMARKS D 70675A ==S. = = N =N N 3 70676A ==8 T = N =N N 3 70677A ==9. = = N =N N 3 T0681A ==8= T = N =N N 3 T0682A *=B T = N =N N 3 T0690A ==B= C = N =N N 3 T0691A *=B= C = N =N N 3 70692A ==B= C = N =N N 3 70693A *=B= C = N =N N 3 70695A ==B. T=N =N N 3 g 70696A ==B= T = N = N N 3 > 70710A ==B= I=N = N N 3 o 707?OA ==B. !=N =N N 3 T0729A ==B= T = N N N 3 N 7 = 3 E g 70730A ==8= T = N = N N 3 0 T0731A ==B= T = N =N N 70740A ==B= C = N =N N 3 p 70741A ==B- C = N =N N 'd a T0750A ==Ba C=N = N N 3 s 707514 ==B= C = N =N N 3 70920A ==B= T = N = N N 3 70921A ==B -T = N = N N 3 70922A ==S= C = N = N N 3 T0923A ==B- C = N = N N 3 70924A ==B- C = N = N N 3 T0925A ==B= C=N = N N 3 T1002A ==B. T=N = N N 3
==B= T=N = N N 3 T1003A T1004A ==B. T =N a N N 3 ==B= T = N = N N 3 T1005A T1006A ==B= T=N = N N 3 T1007A ==B=-T = N = N N 3 T1008A ==$= T=N = N N 3 O O O
O O~ Om 1 40 273039 28 31424344 41 C CTR A PS C A VRA/VQB 5 RP N RULA E AP PLNT N IS N 8P8L O SYMBOL TYPE D P M CR0C REMARXS' 3 T1009A ==B= T = N =N N i 3 T1010A ==Bo T = N =N N
=N 3 T1011A ==B= T = N N 3
71012A ==Be T=N e N N 3 T1013A ==B= T = N = N N 3 T1014A ==B= T=N = N N 3 T1015A ==B T = N =N N 3 T1016A =-B= T = N =N N 3 T1017A ==B= T=N =N N
==B= T = N = N N 3 g T1036A 3 >
T1040A ==B. T = N =N N
==B= = N =N N 3 6 T1041A T 3 0 T1042A ==B= T = N =N N ==Ba T=N =N N 3 $
7 T1043A 3 E T1044A ==B= T = N =N N
$ ==B= T=N =N N 3 C T1045A 3 g T1047A ==B= T = N = N N 3 3 T1048A ==B- T=N =N N T1049A ==B= T=N =N N 3 s 3
T1050A ==B T = N = N N 3 T1051A ==B. T = N = N N N 3 T1052A ==B= T = N = N 3 T1053A ==B= T=N = N N 3 T2001A ==B= = = N N N TUR$1NE START _ 2 3 T2002A ==B= T=N N N T2004A ==B. T=N
= =N N 3 3
gh2b
==T= 1=N === = N N 2 T2005A 3 &5 N TURBINE START T2006A 72007A ==B+ ==B- !=N !=N = =
N N N 3 k 72008A ==B= I=N = N N 3 6 l 3 2 T2011A ==B= = = N = N N TUR$!NE START N 3 72012A ==B. T = N = N 3 N TURBINE START
}' T2014A ==B= I = N = N
ca g 1 40 273039 28 31020304 0 ] - CTH A PS C A $ VRA/VGB CR P. N RULA R AP FLNT N IS N OPSL 3 SYMBOL TYPE D F M CRGC REMARKS 3 T2015A --B- !=N .N N TURBINE START 3 l T2016A **8= 3 T2018A **U* I-N =N N '4 N N 72019A . S. ] == NN .
.N N TURBINE START 3
T2021A -B.= N 3 T2023A -B. TN- N 3
. N N T2024A --6= T t:
Y 3 T2025A --T- !-N -.- . N 1 I-N N N TURD!NE START 3 $ T2026A .-6 N N T2027A ..u. I - N . 3 g
..B. !=N . N N 3 o T2028A N N TURBjNE START --6. - -N . 3 T2031A N .=B. T-N . N 3 T2032A K N N TUR6INE START T2034A .-B- T=N 3 c =
7 m g T2035A .-B- N N 3 p T2036A --B- I-N 3 N N T2037A --d* I-N 3
. 3, N N &
T203BA ==B= !=N
. 3 !=N . N N 3 T2039A .6 N N T2040A - T-N 3
N N T2041A ==d. C = N
. 3 N N T2042A --6. C = N 3 - N N T2043A .-B. C - N . N N 3
N 3 72044A **6- C N T2045A --d- CN
. N 3 N N T2046A . CN 3
N N T2047A .-d. C-N 3 N N T2048A .-B- C = N 3
. N N 3 T2049A .-B. C . N T2050A --B- 3 N N T2051A ==B. 1-N . 3 J=N = N N 3 72052A .6 N N TURBINE START T2053A --B- C - N .
O O O
1 40 273039'28 31424344 41 CTR A P8 C C VRA/VGB ORP N' RULA A -
.AP PLNT N.!.S-N 0 P O ;L R SYMBOL TYPE.D P F 'CRGC REMARKS ~ D q T2054A ==Se C. - N =N N"TURSINE START 3 T2055A ==B= -3 T2056A ==B- -3 T2057A ==B- CC 3 T2059A ==Be'I = N =N N 3 'T2061A ==B= C = N =N N;TURSINE-START 3 T2062A ==B C = N =N N TURBINE' START 3.
72063A'==B. C = N =N 'N TUR8INE START 3 T20644 ==6. C = N =N N TURBINE START 3
!72065A ==B= C = N. .=-N N TUROINE START 3 .} 'i T2066A ==u= C'= N =N N~TURSINE START -3 >
T2067A ==8=-C --N ~
=N N TURUINE-START 3 6- !
T2068A ==B= C ~ N o'N N TUR83NE START '3' l 7 T2069A ==B='C - N. =N N TUR63NE START 3 'N -.,
$. T2075A ==B=~ 3' E !
T2076A ==B - 3 E T2077A =*B*' 3. p-72078A ==B= _ _ 3 L 3.- 72080A ==B= 1-N = N N . 3.- !s T2081A ==B= !*N =N N 3 72082A ==8= ! = N =N ~N -3 l' T2083A ? ==B='I'= N' =N N 3 ._ T2084A~==B= I = N- -N .N 3. 2-I T2085Al==S= I=N- =;N' N. 3 O'
-72086A e=B.~! = N =N- N-T2087A~==B= !=N =.N N 13 23 &E 3
T20904 ==B-
- 3 N.
T2094A ==8= . 3 6 T20964 ==B= ! - N. -N N' . 3' 2 T2097A ==B= !=N =N -N: < T2200A ==B.-T = N. -N .N 3
-T2202A ==B=.T1- N: N-h.; T2203A ==B= T'- N' .= N =N-3 _-
g N :- 3'
- U; ; . - ~ . - - ..
1 m..__m_ ____ . _ _ m_. , -_ _ _ . . _ _ . . . . __ ..__.i.:_m._' .
W
, , , y" ANALOG VALUES (Cont'd)
O unwa mmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmm l m v w E o < r W W 4 l
*u<Ju o
zzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz m Joe e Nm3Em o ZZzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz wancu e e eea e e ae eeoe o e a e eoeoeeeo eo ee eee e m e<zZ N I mramt m zzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz Owx-a e e eee e e ee eee e e e e e ee e ee ee e e e e e e e e e m h uDzO >>>&WW>>>WHHWWWWWWW>>HHHHH&WWWW>> N WW e e e eeee ee ea e ee e ee e e e ee e ae e e e e ae e e 2222222222222222222222222222222TV O zA O JY e eee eaee eee e eeee ee e eeeee ea oeeeae e eeeae ee e eeeee ee a eee ee ee eoeee e eae e SW m O J <<<<<<<<<<<<<<
> C < < < < < < < < < < < < <0dN ONmONMONMOwNM4 < < < < m< <O N M O N M 4 m O N M O N m o - NAS wwwNNNMmmed***mmmm@@@NNNhNWmmmmmo NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNM <<E E
F m NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
>>>>>>>Wh>>>>>YVHv>>>>>>>>>>>>>>>
\ TPS157 B-100 (
O O O 40 273039 28 31424344 41 1 C CTR A PS C A VRA/VGB 6R P N RULA R AP PLNT N IS N OP8L D SYMBOL TYPE D F M CRGC REMARKS 3 T2301A ==B. T = N = N N 3 T2302A ==B. T = N =N N 3 T2303A ==B. T=N =N N 3 T2304A ==B= T=N = N N 3 T2305A ==Bo T=N =N N 3 T2310A ==6. T = N =N N 3 72311A ==B= T=N =N N 3 T2312A *=B. T=N = N N 3 T2316A *=B= C=N =N N N N 3 g T2317A *=B= C = N = 3 > T2318A =28. C = N =N N o 3 T2319A *=Bo C=N =N N 3 T2324A ==B= T = N =N N $ m 3 > 1 T2326A *=B. C = N =N N 3 E 5 T2327A ==B= C=N = N N 3 G
~
T23304 **B. T=N = N N 3 p T2331A ==B+ T=N =N N 3 a
==B- T=N =N N T2332A 3 5 T2333A ==B. T=N =N N 3
T2334A ==B. T = N =N N 3 T2335A ==B. T =N =N N
==B= C = N =N N 3 g T2340A 3 m N N-T2341A T2342A ==B- ==B C = N C=N = = N N 3 3
O$ pg T2343A ==B- C = N = N N l 3 -c 2-
==B- C = N = N N T2350A T2351A ==B= C = N = N N 3 $
T2352A ==B= C = N = N N 3 $ 3 T2353A ==B= C = N = N N 3 T2375A ==B- T = N = N N 3 T2376A ==Bo T=N = N N 3
==B- =N = N N d T2377A T N N 3 $ T2386A ==B- C = N =
___ c
g 1 40 273039 28 3: 420300 01 CTR A PS C C m G VRA/VGB 6RP N RyLA A " R AP PLNT N 1S N $P$L ', SYMBOL TYPE D P.M CRGC REMARKS' 3 -
**B= C = N =N N 3 Y T2387A i ==B- T =N .N N 3 T2393A ==B- T=N .N N 3 T2391A ==B= T = N N N 3 T2392A = ==B= T =N N N 3 T2393A =
T=N =N N 3 T2394A ==8=
=N 3 T2396A ==B- T=N N ==B* T = N N N 3 T2397A =
3 T2400A ==B. T=N =N N
*=B= T=N N N 3 T2401A =
3 y T2420A ..B= T=N . N N T2421A ==B- T=N . N N 3 5 0
=N N N 3 T2430A *=B. T =
y 3 y T2431A ==B- T=N = N N g
==B- T=N N N 3 g T2432A =
3 m w T2435A ==B= C=N . N N
==B- C=N N N 3 T2436A =
3 k T2437A ==B- C= N . N N
==B-
- N N 3 -2 T2438A C = N
==B* C=N N N 3 T2439A = ==B- C = N N N 3 T2440A . *=B- C=N N 3 T2446A = N ==B C = N e N N .3 T2447A ==B.~C = N . N N 3 T2448A 3 T2450A ==B= T = N . N N ==B= T=N N N 3 T2451A =
3 T24524 ==B- T=N . N N
==B. T = N N N '3 T2453A =
N N N 3 T2454A ==B. T = = 3 T2455A ==B. T = N = N N
==B .T = N N N 3 T2456A .
3 T2457A ==B- T = N = N N
==B-'T = N N N 3 V2470A =
8 9 g
o O O , i 1 40 273039 28 31424344 41 CTR A PS C C A VRA/VGB 6RP N RULA OPSL 9 AP PLNT N IS N 0 SYMBOL TYPE D P M CRQC REMARKS
==B= T = N =N N 3 T2471A ==B* T = N =N N 3 T2472A ==B= T = N =N N 3 T2473A ==B+ T = N =N N 3 T2474A ==B- T = N =N N 3 T2475A ==B= T = N =N N 3 T2476A 3 T2477A ==B= T=N =N N **B= T =N =N N 3 T2487A ==8. C = N =N N 3 T2488A T2489A ==B= C = N =N N 3 g T2491A *=B= T = N =N N 3 p ==B= T = N =N N 3 o T2492A 3 T2493A ==B- C = N =N N ==B= C = N =N N 3 N f T2494A 3 E 5 Y2495A ==B= C = N =N N ==B= C = N =N N 3 E 'd T2496A T2500A *=B= T = N =N N 3 p T2501A ==B* T = N =N N 3 a ==B= T=N =N 3 !5 72502A N T=N =N N 3 T2504A ==B- ==B- r=N N 3 T2505A = N ==4= T = N =N N 3 T2506A ==B- T = N N N 3 T2510A = _
2
==Ba C=N N N 3 T2511A = ==B= C=N N N 3
) T2512A = O I T2516A ==B T = N =N N 3 y? 3 & 2 T2521A ==B= C = N = N N T2522A v=B- C = N = N N 3 *d T2526A ==B. T=N = N N 3 6
==e= C = N N N 3 2 T2531A = ==B= C=N = N N 3 T2532A ==B- T=N =N N 3 l
g T2535A
==B. T = N =N N 3 g
_ T2540A
1 40 273039_28 31424344 41 4 CTH A PS C C
$ RULA A
3 VRA/VGB OR P N 4 AP FLNT N !S N OP 0L 9 SYMBOL TYPE O P M CRGC REMARKS 3 T2541A --B. T=N - N N
-N N 3 T2342A - T - N N N 3 T2543A --B. T - N - -N N 3 T25444 --B. T - N - N N 3 T2545A --d- T = N 3
T2546A --d- T-N - N N N- N N 3 T2547A --B- T - - 3 T2548A --B- T - N - N N
- N N 3 T2549A --B- T-N 3 z
T2550A --B- T - N - N N
==B- C = N N N 3 $
T2552A - 3 T2553A --B= C - N - N N 8
--B. C-N N N 3 < , T2562A -
3 E i T2563A --B- C=N - N N
=N N N 7. 04 31 01 3 5 y T2564A ==B- T T=N N N 3 $
T2565A =-B- - 3 & T2583A = T=N - N N 3 % T2588A --B- C - N - N N E N 3 T2589A - C-N - N T2590A - T - N - N N T2594A - C=N - N N 3 T2595A --B- C-N - N N N 3 i T2597A *-B* C = N - N
- N N 3 T2598A --B= C - N N 3
! T2680A -=6 T - N - N N N 3 T2681A =-d= C-N - N 3 l T2682A --B- C-N - N 3 T2683A ==B- C-N = N N N 3 T2700A --da C-N - N
'3 T2701A =-6 C=N - N N 3
T2710A --6=.C - N - N N N N 3 T2711A --d- C- N -
-N N 3 12721A u -t - T =-N
- e
O O O 1 40 273039 28 31424344 41 C CTR A PS C A VRA/VGB ORP N RULA 9 AP PLNT N !S N OP6L D SYMBOL TYPE D P M CR0C REMARKS'
=N " 3 T2731A ==B. T = N =N N 3 T2740A ==B T = N 3
T2741A ==B= T = N =N N
= N N 3 T2750A ==S= T = N 3 T2751A ==S= T = N = N N N N TURS!NE START 3 T2801A ==B. T = N = =N N TURS!NE START 3 T2802A ==B- T = N 3 T2803A ==B. T = N =N N TURBINE START =N N 3 T2804A ==B= T = N =N N 3 >
T2805A ==B- T = N T230 6 A * **S = T=N =N N 3 $
=N 3 5 T2807A ==B= T=N N 3 o T2808A ==B= T = N =N N =N N 3 %
y T2809A ==B-
==B=
T T
= N = N N N 3 E - T2810A =
8 T2811A ==B= T = N =N N TURBINE START 3 0
=N N TURBINE START 3 T2812A ==B= T = N ==u= T = N = N N 3 h T2813A T2814A ==B= T = N =N N 3 $
3 T2815A ==B= T =N =N N N TUR$!NE START 3 T2820A ==B- T = N =N
=N 3 T2821A ==B= T =N N TURBINE START =N =N N TURBINE START 3 T2822A ==B T 3
T2823A ==B- T = N = N N TURBINE START 3 T2824A ==B= C = N =N N TURBINE START N N TURBINE START 3 O
==B- C = N l T2825A T2826A ==B C = N = = N N 3 3
(( r 2. T2827A ==B C = N = N N 3 27 T5400A MMMM N 1 Y === = N T5403A M?iMM N 1Y === = N 3 3 h T5420A =MMM N 1Y === =NNN 3 Q T5423A -MMM N 1 Y === = N 3
$ T5440A -=MM N 1 Y === =N - - - - 7 ,
41 40 273039 28 31424344 } 1 CTR BRP A N PS RULA C 0 A R El VRA/VGB AP PLNT N IS N O P S 1. REMARKS D , SYMBOL TYPE D P M CRGC ' i 3 3 T5443A ==MM N 1 Y === = =N N N ' T5636A ==B= T=N 3 T3643A ==B= T = N =N N 3 T5644A *=B= T = N =N N 3
==B. T=N =N N 3 75645A N N 75656A ==B* T = N = 3 ==B= T=N = N N 3 75662A N T5663A ==B- T =N = N 3 ==B. = = N = N N 3 $
T5677A 76047A ==B. T=N = N N 3 p T6048A ==B= T = N = N N 3 g
==B* T=N = N N 3 <
T6049A = N N
==B- C = N 3 %
e 77061A N N c
==B C = N = 3 l 77062A N o T7063A ==B- C = N = N 3 3 T7064A ==B. C=N = N N 3 p ==B= C=N = N N 3 H T7065A = N N E ==B C = N 3 T7066A N N ==B= C = N = 3 T7067A = N N T7068A ==Be C=N 3 *=B- C=N = N N 3 77069A = N N T7080A ==B. I=N 3 ==B= I=N =N N 3 T7082A N ==B. 1-N = N 3 T7084A N N T7086A ==B- I -N = 3 *=Be T = N = N N 3 T7801A N T7803A ==B= T=N = N 3- ==B= T = N = N N 3 T7805A = N N T7807A ==B- T=N 3 ==B= T=N = N N 3 T7809A N ==B= T=N = N 3 T7813A = N N ==B= T = N 3 T7820A N N 77822A ==B- T = N =
9 9 e
m O , O O , 1 40 273039 24'31424344 -41
-C T R' A' P S C - CI VRA/VGB' ORP N R-U L.A' - A.
AP PLNT'N I5 N: 8 P: 8-L R SYM886 TYPE7 D P M CRGC REMARKS . 0-V2811A'*=B= = = N. =-N N 3: , Y0001A MMMM = ='N"===.* N N N-ONLY USE DURING STARTUP -3 Y2000A ==T = N === = N Y 3' i ! Y20014.==T=:= = N === = N Y 3
'Y20024 ==S='= = N = N- N ' 3- 1 Y2004A ==B= = = N = N. N TURBINE START 3- y >
Y2005A'==S = N = .N~ N TURBINE START- 3 Y2006A ==B.,= = N - - N N TURBINE START 3-Y2007A ==B. = = N = 'N' N .3 - Y2010A ==8= 3 Y2011A'*=8= 3 L.
>~
Y2012A ==B=- 3' -y.
'Y2013A ==B. .
3 g to Y2014AL==T=--- N === =.N Y TURBINE START 3 >: 1 Y2015A'==B=- 3 ,-El 8 Y2016A ==8=. .3 E '- 1 Y2017A ==B. -3: ;pi. l Y2018A *=B= 3 1.- Y2019A **B. 3 :$? Y2020A ==B= 3'
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- 0 B 0 03 N = Y - - N 1 1 2 N0033D INTERM RNG 2 RE TR P6 PART BLOCK SET N00340 SOURCE RNG HI U TR 1 BLSCK SET 1 B C 03 N - Y --- N l' 1 9 N00350 SOURCE RNG HI Q TR 2 BLOCK -SET 1 B o 03 N - Y --- N 1 1 4 TR 1 B O O2 N O Y --- N 1 1 E N0036D SOURCE RNG HI Q CAUS RE N00400 IN CORE MOV A THIMB 1 H03 SEL 1 0 0 04 N- N --- N1 1 N00410 IN CORE 9NY A THIMB 2 E11 SEL 1 0 0 04 N - N --- N 1 1 N0042D IN CORE MOV A THIMB 3 007 SEL 1 0 0 04 N- N -- N1 1 N00430 IN CORE MOV A THIMB 4 L14 SEL 1 0 0 04 N - N --- N 1 1 N00440 IN CORE 90V A THIMB 5 N10 SEL 1 0 3 04 N= N -- N 1 1 N00450.IN CORE Mov A THIMS 6 LO6 SEL. 1 0 0 04 N - N'- - N l' 1 N00460 IN CORE 90V A THI,B;7 M B07 SEL 1 D 0 04 N - N --- N 1 1 N00470 IN CORE 90V A THIMB 8 D05 SEL 1 0 0 04 N = N --- N 1 1 N00480 IN CORE'Mov A THIMB19 H11 SEL 1 0 0 04 N - N '- - N 1 1 N00490 IN CORE 90v A THIMS-10 A09 SEL 1 0 0 04 N - N-- N1 1 NUO50D IN CURE MOV B THIMB.1 COS. SEL. 1 0 0 04'N - N -- N 1 1 N0051D IN CORE MeV B THIMB 2 L11 SEL 1 3 0 04 N - N --N 1 1 N0052D IN CeRE Mov B THIMB.3 M03 SEL 1 0 0 04 N - N --- N 1 1 N00530 IN CORE 90V B THIMB 4'F06 SEL 1 3 3 04 N- N -- N1 1 0 .
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m7YmW 9 *
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& EEE ETE k a AbEFEWE%W 2 4m444KKKwN444m 4 O KMT4T4 T C L.3 A L E F F F AAA3 w1 04mda444&M HH w 4 EE 4 O A 40ma a a DM JJ h MUwwwwwwehwwwu A DJD w a M43 DD A mmmWMm mmm a3h J Ew a w Ud >>
w LE ww w EVJ >O F F F U N E wNmwNMmmwNmm Dua WE HOMOHOW TT U OD 1adm WWEO O O Oh WW W JJ111aaniaalaL m ~MD a a A 0100 W 7 e Z > kyETEEEL ryz O YTODDDDDDDwwwwWDOW T44 EWE 4EWETJ33 WWJJJJJJJJIIIIc*WOAWHEaHabanWNH 1 NM DW D WWWTTTTYTW2 HN 4 wwEETETEKEEETEW JEJ ZWWWWWWETZ TWWWWWWWWW7Z2ZOW-O-2WW>>>>>>WWWMM 3 3 N N N N N al N N w - ~ w k O D > O c > c D D D D D D > > -333 WW333333334444I~ I ~T DDDDD MmmmmmmmmmHv>> MJ JHWHwwNNmm W WWWWWWWWWWZZZZZ 4Z44W-JJJJJJJJ011 2EEEEEEEEEDDDOWNWWWHWZUUUUUUUUbuU 11111111 a a O U U U c I W '3 W W T O T T T T T T T T I T T J 000000000000000000000000000000000 D 4MmOwNMeW40HNMOHNOOOwnOMOMOmemone H 1m WemmmmmmmmOOOOOOOOWNN*OONN##mmONN 44E ****dt****OOOO@@@@@mmm******Mecmm
/ 2 > OOOOOOOOOOwwwwNNNNNonOOOOOOOOONOO t > m anaaaaaaaaaaaaaaaaaOOOrrr>>>rkr>>
b l B-119 TPSl57
W l C I
' I DIGITAL VALUES (Cont'd) 1 I
uwwO -www---we----wwwco-ww-ww-ww--ewww M7YmW l wts< m J AUn70 wwwewwwswwwwwwwwwwwewwwwwwwwwwwww N ha<W4 777777777777777777777777777777Y77 m( 77 ee e e ee e eee ee ee ee ee e6 ee eeeeeeee ee ee ee ee ee ee eee ee e eeee ee ee ee ee es e e ee N ee e e e e e e e e e e e ee e e e e e e e e e e e e e e e e e e OwaWT m
>>7777Z7>>>>>>>7>>777777777777777 mWWO3 000 e eee a e e 600004000 e e ee e e o eee a e e a M
NEWEO m ZZZZZZZZZZZZZZZFZZZZZZZZZZZZZZZZZ ew2OX ANNNNNNNWWWNN@e44444 444 4444 444.#4 4 M O O N N N N N N O C O O O OO O O O O O O O O O O O O O O O O O O m24JE m CodeweewwwwOcewwCOOOOOOOOOOOOOOOO de>&W mmOOOOOOmSmmmmmOOMOOOmmOOOOOOOOOO M MUc2H wwoOOOOOww-*wwCOwoOwwwwwwwwwwwwwww M WW U3 N ~> J JJJJJJJJJJJJJJJ M >< HVH ' Wu TrococomWWW22KEW22WWWWWWWWWWWWWWW
>>JJJJJJWWWWWHWWWWWWWWWWWWWWWWWWW OW K
W T X W 1 a W 3 FW W D TT N T
< EELWW > T AW>>>>>>TT aT ~ mmwNM*WWO T T O w >
3mommmeWWE O H E J2OOOOO-E Z <weewwsAEFWW m120Z4cZZZZZTc o HU+e++e+ 33
~ J HHW<< JWY4UCUkWWWEWOU H ChwwwNNNEEKUU45 J3OUW 1 >J << <D44UMT<<<<<<<4 4 4 M OF>>>>>EE&wNEEE R VV>TTWWwWWWW WWWWWWWW N T T>JJJJJJ U W 11111ATTETTOCAVVWWWWWWWWWWWWWWW OTAA1AAAHW WH E2D000000000000000 W
W 7W333333 m TTO >>>>> O 30WWWWWW4W9JJkwuTT>>>>>>>>>>DDDDD Z WT << wwDDDDDDDDDD 1 %3YTTTYY +3377w YYYYYTVCYTTYYTY
< 232T23wN 2 2 ww XM WW1A1&EE &<<<<W33WWWWWWWWWWWWWWW 33 &&<EE EW EE24 D 4TTTTETE%2TTTTTT DDDDDDDDDDDDDDD DDUUUUUUX D O O O O DE A J U U UU U U<<U U U U U U U U U U U UU U U U U<<<<
11 UUIIIIIISD3WWWW2WW2ZZZ722222277ZZ TTWWWWWWeH7TTTT-TT---w-waw-~~~~~~ J D 000000000000000000000000000000000 N
- O w N O M N w N M
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<<Y M M OO O O O O O O O O O OO O O O O O O O O O O O O O O O O O O O O N N N N N N O O O O O OO O O O O O O O O O O O O O O O O O D E
W >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> . TPS157 B-120
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, DIGITAL VALUES (Cont'd) .o I J ,
a s e rr O -e -. e-~~w~wn-----~~~~ww----- ee m7rm& u e er, _ s nUv70 wwwwwwwwwwwwwwwwwwwnsmewwwwwwewwe N nat tr 4 7777777 77777777777777777777777 e a e e e o e e e e e e e e e e e o e e e e e e e o e e e e m477 e e e e e e t e e e e e e e e e e e o e e e e e e e e e e e N e e e o e e e a e a e a e e e o e o e e o e e e e o e e e e manmr 27777777777777>>>>>>>>>>>>>>>>>>7 m emWO3 e eee o ee oe a e e aee oeOOs eae eOs aos eD e a m NEWEO ZZ72222>>>>$ 72ZP72ZZZZ2222222277F m 4w?OM 4 4444 4 4 e c t e c & m N N N N @ rJ N N N N N m N N tn N n m e m COOOOOOC 0000000000000000000000000 m24JT OOOOOOOwwwwwOOOOOOOOOOOOOOOOOOOOw m . CHPAW OOOOOOOOOOOOOOmmmmmmmmmmmmmmmmmmo m MUDZH wwwwwwwwwwwwoOwwwwwwwwwwwwwwwwwww m WM 0Q000 O UD WWWWW W N ~> mmmmm W m >< JJJJJJJDDDDD & > >D WH WWWWWWWJJJJJJJTTTTTTTTTT 'WTEWTTWJ Om mmmmmmmWUUUUUUFFF>WFWHee- mbembemu W
>WW4 W 4 W JTTT T T T A 4 O W>FHFW MV WV WV D > TTTI 30 3U DU T JV444 WWWW <D <D 4D *NM4mWO <Z111m TZZE UJ UJ UJ > mm >< 3 m m O 7 OOOOOwEHN H <WHHkk k k k D ZZZZZED4U 1 DOGUETENE E E E w TTTEEOU THWWW 4 444 W3HW3HW3M b ETEEWLZTETOW1111Tk Ek Tk A WWWWWWWVVVVV OkkkW3 W W WO w mmmmmOU W4JJJJm+Wm+Wm+WH N W >>>WWWW W TWWkJUUUU3 3 3 %
U W W W W W W l4 F > < m W 4 J W W W <Je<JW4JO m OOOOOOOJJ IDOOOTN42OOU U U T W A1111U>772W1 DM DM DwV O >>>>>>>1 1 Err 33334>>>>1Jm1Jm1JMD DDDDDDD331EADD 7 JJJJD D D
% frrrrrEmm wwwmM7% >>>> wJ NJ M J 'A 4 000 - T DT OT Ok WWWalWWWTT277TTmmmmTaniav7mV7mV7mT TTEWT2ER IwwwwWD333*DDDDDWwDW-2Ww DDDDDDD1133DOODVDD **** 3 3 3 m UUUUUUU K2WZZ m m m m :0 w HN NM mm OO<<<WWa111T 1EJ1EJ1EJW ZZZZ7/ZDD1IIJJUUUU3DmsmuMUUFUUHUT wwwwwww2TUUUVVTTTTk>>FwTmTTmTTmT1 J 000000000000000000000000000000000 D M404NmmNNowNm40mm40wNm40wmOwmowmo a 12 DWWWWWWmmOOOOONNNNmmmm&OOONNN44#@ <<r OOOOOOOOOwwwwwmmmmmmmmm4#444 # 4444 7 > 000000000000000000000000000000000 > m >>>>>>>>>>>>>>>>>>>>>>>>>>> >>>>>>
TPSl57 B-122 )
? O O O i: l l 2 32 l' 333435 36373839 28 1727 19 CTN IPSR A P C CN C'
.VRA SYA NEEP N A S AM A l- AP DEVICE NPL DRQS N RN 35 9 SYMBBL A* DESCRIPTION STATUS TEM XDUM A D La 3 YO4610 PRESS HTS UKR J10 CL8 SED 1 D'l 06 Y - N 1- 1 i YO483D PRESUZER LS P+LS L SI CAUS RE TR 1 B 0 02 N O Y --- N1 1 I
YO481D PRESS MTS WKR A1E CLSSED 1D106Y-N 1 1 YO482D PRESS MTS-uMR 812 CLSSED 1 0 1 06 Y - N 1 1 YO423D PRESS HTS UKR C12 CLSSED 101 06 Y - N. 1 1 YO600D RESIDUAL HEAT PMP A BKR CLSSED 1 0 1 06 Y - N - - N 1 1 l- YO601D RESIDUAL HEAT PMP S BKR CLOSED 1 3 1 06 Y - N --- 34 1 1 YO6020 CHILD COMP CLNG PMP B BER CLSSED 1 D 1 06 Y - N --- N 1 1 i YO603D CHILD COMP CLNG PMP C BKR- CLOSED 1 0 1 06 Y - N - - N1 1 , YO6040 CHILD CBMP CLNG PMP A BKM CLSSED 1 0 1'06 Y - N --- N1 1 E
- i. YO701D INSIDE RECMC SPRAY PMP A BER CLOSED 1D106Y-N 1 YO7020 INSIDE RECNC SPRAY PMP 5 BKM CLOSED 1
1 D 1 06 Y
- N 1 1
.. YD7270 STSIDE RECMC SPRAY PMP A BKM CLSSED 1 0 1 06 Y - N 1 1 Q
l l YO728D STSIDE RECMC SPRAY PMP S BKM CLOSED 1 0 1 06 Y 5 1 1 > C
" YO722D_QUENGM SWRAY PMP A BKR' CLSSED 1 0 1 06 Y - N 1 1 e i YO742D QUENGM SPRAY PMP B BKR ~ CLSSED 1 D 1 06 Y - N 1 1 E YO923D.SFTY INJ SET MANUAL 1 CAUS RE- TR 1 B C 02 N O Y --- N 1 1 y YO9210 SFTY INJ SET MANUAL 2 CAUS NE TR 1 B 3 02 N O Y --- N 1 1 E l YO943D L5 HEAD St PMP A SER CLSSED 1 0 1 06 Y - N 1 1 $
l YO941D Le HEAD S1 PMP B BKR CleSED 1 0 1 06 Y - N 1 1 ( V10000 CNTM-RECINC FAN.A BKR CLOSED 1 0 1 06 Y - N. 1 1 Y10010 CNTM RECIRC FAN N SKR CL8 SED 1 0 1 06 Y - N 1 1 Y10020 CNTM RECIRC FAN C SKR CLOSED 1 0 1'06 Y - N 1 1 3p Y2003D TURBINE LERS SPEED STeo 0 0 0 ?3 Y - N --- N 1 1 w l Y20500 SPEED CHANNEL MSNITOR ew- 1 0 1'la Y - N --- N 1 1 Oj t Y2051D SPEED REFERENCE M9NITSR SN 101 18 Y = N --- N 1 1 SEy{ Y20590 TU DNAIN VALVES OP 1 D 1.11 Y - N N 1 1 N 1-Y2060DcEXMAUST Meed SPRAYS SN 1 D 1 18 Y - N N 1 1 37 Y20610 AUTS STee LATCHED SN- 1D1 ~ 18 Y N N 1 1 j Y2065D SPARE NON-MULTIPLEX CCI D 1 ' d Y2070c-TUReINE 9ANUAL MSDE SEL 1 D il 04 Y - N 1 1 d Y2072D TURBINE UN TURNING GEAR ON 1D1 18 Y 34 1 1
} Y2211D HP MX 2A Dk MEC- DR DUMP VALVE SPEN 1.D 0 01 Y-N--N 1 1 i .. ..e_. , , . . , ,,4 __,_ . - . _ . ,
E DIGITAL VALUES (Cont'd) u wn een--eneenwwew-eennes--we"e~~~~~n m7TmW endmJ NUcro ewwwwwwwwwwwwwwwwwwwwwwww"wwwwwww N 777777 7777777 ha4 T4 7777777777 e e e e o e e e e e e e e e eeeeeeeeee e e e e e e e Q477 eeeeoeeeee e# # e e e e e e e e o e e e e e e e N eeeeeeoeee OTamT m 777777272777777722727777777777777 WWWO3 e e ee4 eee e ee ee e e eea e6 0 e eo ee e ee ee e e m NEWTO m l Dw?OM ewweewwwwwwww@De4@wwwwww@@D4Dt4DD C00000000000000000000000000000000 I m m24JE OOOOOOOOOOwwwwwwwwoOOOOOwwwwwwwww m m Ob>AW 000000000000000000000000000000000 muc7% m wwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwww Wm 00000000 000000000 W3 WWWWWWWW WWWWWWWWW 2222222222 mmmmmmmm2Z2222mmmmmmmmm N m
-H WH WWWWWWWWWWococococWWWWWWeccccccco LLLLLL11LLJJJJJJJJLLSLL1JJJJJJJJJ OM occcccccccUUUUUUUUccccccWUUUUUUUU WWWW W W >>>> TT t t > > TT JJJJ J J TTTTTTVW 4444 DD 4 4 WWWVVVmD >>>> TT > > D22222 TTWL111Wh>
WWWWWW WW 13333331>> TTTTTTHF>EEEE>EETTTT
>>EEJ3333J V2atT T EJJJJJJEJJW>>>EE 3444444344EEEE dm> <OOOO<<mOOOOM > STS M
2 O>>>>>>O>> TTTT AATTTT M O OOOOOOmm
- TASAna1Talmmmmmm EDOODEEEHHHM4md ERAEEEEN w F DEEEEEEOEEZFZHZFALE 333333 33*c-DwCEE34MUO3 4 1 - 000000 00 33OwwwwCET4mWOEwa HH E E N T U U <<220U11 U WZZZ727WZ2 ZUUUU772111LL11 EEEE E m T~wwwwwT*w&1111STTwWWWWw <<<<<< 44EEEEEEWW4TTTTCTTLELLZLZ W TWW w w O YTTTTTTYYY 111111HWT <<OZZZZOmmTTTT4W4 3000000000 wwww WWWWT&T 1 YYYYYYYT 4 WW<<<29122WWWWWWOOdd444mJJHWFHOWO NemmwamWNwwwwwe>WWmWYTTmJJ<<<< M I
m 4% 4 444WW 0000 WWXXE ETZT MMMMW WW WWE E E E T E44X W E Z WWW IIIIIIIMIIOOOOOO ITTTTIZZUUUuIDI
**** TTTTTT 2 ~ WWWWWWXX 1111111011 IJJIIJJEIIA AA A WWWWWW331TIII10Uwwww1c1 Akt4 JTTITJmmVUUUJUI J
C 000000000000000000000000000000000 wmmmmmmmmmowNmsmowmmnoomOwnnonenw M 19 NNM e me m m nwN N N N N Nm m m m t me m m m 4 N e m O w w
< *f E NNNNNNNNMMMmmmmmmmmmMmMmt#44#4mmm NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN T
m >>>>>>>>>>>>>>>>>>>>>>>>> >>>> >>>> l l l TPS157 B-124
W
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l INfag%, . Tioy b V DIGITAL VALUES (Cont'd) O/q y u4wn www-ww-ww--------w---------w----- m7Tmw w u w m .8 N tJ O 7 0 wwwww-wwwwwwwwwwwwewww-ww -wswwww m h n404 7777777 7777 777777777 7777777 e e e e e e e o e e e e e e e e e e e e e e e e e e e e m477 e e e e e e e e e e e e e e e e e e e e e e e ee e e m o e e e e e e e e e e o e e o e e e e e e e e e o e e mWamT 7777727777777777777777777 7777777 M MMWO3 e e aee e a ee e e o eo e a e e e e e e e e e eo e ea e a m N 1 WR O M
>>>>>>>>>>>>>>>>>>>>>>>>> >>>>>>w @ w?OX @@@@@@@theb@444M@@@@@@@@@ @@@@@@@
M OOOOOOOwwwwCOOOmOOOOOOOOO 0000000 m74JE ewwwwwwOOOOweewOwwwwwwwww wwewwee M 4 HFAW 000000000000000000000000000000000 M MOO 7H w w w w w w w w w w w w w w w w w w w w w w w .4 w wwwwwww M WM 0000000 0000 000000000 C 300000 UD WWWWWWW WWWW WWWWWWWWW WWWWWWW N mmmmmmm mmmm mmmmmmmmm mmmmmmm O MM M >< C000000 k 40000 000000000 0000000 WH JJJJJJJOkZkJJJJwJJJJJJJJJ JJJJJJJ Om UUUUUUUJDOCUUUUIUUUUUUUUU UUUUUUU EE 2T VW 1 TTXT T WW DD E VVVV V DD TTTTT A&MMSc 2 wwVVVVV E 17TTTw( DMD222 14400I 7EETHwVWYU T TE 3 wwww WVWW SamVSS>>>>> V VW VJ mmmmm UUJJJJJ Z EmKme EUwmmmm M 330WkO44A10.AE O Y W E403333 3WWWmmww-W EAEaa a meeUmWW>am mmmm swww XWW33333
> w HNVVF J WWFb>mmmW-M mmmmm A D U mMwJJ4Fb>> > JJ333JHW w wa w& A Kw-WJJJJ JmmmaAmmma (mWI7 N T E EE423DOMAA31 133311 wdWHwwww U 11111 C. &&&ETEmmm33T&THZ7 m E E && JJW333303 MMWW4JammmmDs W LZLZZEEZ440mmmm>m42U akk3JJ33333 3
- ww11WWWw U www33AMME WmWWW W4W44 cmmmEEEEWE TT22Z eZZ 1 w Y W T T 5 tS O TTTTWTmmmWW44 47DO>>>>>
< 40400Z2TWWZOOOOWO333EETTTO 00000 m M JJDOOWZZ 7707222WWHHH7 vVmmmmm ZTZTTUU>wwc wwt4444 WWWkk ImmD>>>>T>>>>>>>>>W4W e e e a e OIDII11 TOOOOWOOOOOOOOOTHFOOOOO Z Z EEZTTO@@@@H@@@@@@@@@4Mw4@@@@
C101ADOWww>wwww4HewwwwwwwAZZwwwww UIUIJUU344Tett#3444444*ttW33t et** J 000000000000000000000000000000000 O Ownw@NNowN@OHNem@OwN#mOwNemcOwNM4 w 12 NNMM40HOOOOwwwwwwNNNNNMMMMMMe#44 4 44E mmWWmNNWWWWCWWWWWWWWWWWWWWWWWWmme K > NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN (
> m >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
i l B-125 TPS157
1 2 32 333435 36373839 28 1727 19 Q CTN IPSR A o C 09 : l<,
$ 8YA N EEP N A 9 AM A VRA $ AP DEVICE N P L 0RQS N RN 33 4 SYMBBL AP DESCRIPTION STATUS TEM X 00M A 3 L3 0 Y28450 4160=480V SUB 1G SUF#LY BKR CLOSED 1 0 1 06 Y . N ... N 1 1 D 1 Y2848D SPARE NSN MULTIPLEX CCI Y4001D SPARE CONTACT PULSE INPUT P 1 P 1 Y4002D SPARE CONTACT PULSE INPUT P 1 Y40030 SPARE CONTACT PULSE INPUT P 1 Y40040 SPARE CONTACT PULSE INPUT Y40050 SPARE CONTACT PULSE INPUT P 1 P 1 Y4006D SPARE CONTACT PULSE INPUT P 1 Y4007D SPARE CONTACT PULSE INPUT Y4008D SPARE CONTACT PULSE INPUT P 1 g o 1 9 Y40090 SPARE CONTACT PULSE INPUT y P 1 Y4010D SPARE CSNTACT PULSE INPUT A 1 P
Y40110 SPARE CONTACT PULSE INPUT W V40120 SPARE CONTACT PULSE INPUT P 1 5 1- Y40130 SPARE CONTACT PULSE INPUT P 1 E S P 1 O Y40143 SPARE CONTACT PULSE INPUT 8 Y40150 SPARE CONTACT PULSE INPUT P 1 Y40160 SPARE CONTACT PULSE INPUT P 1 $ Y4017D SPARE CONTAC1 PULSE INPUT P 1 6 Y401BD SPARE CSNTACT PULSE INPUT P 1 V40190 SPARE CONTACT PULSE INPUT P 1 P 1 V40200 SPARE CONTACT PULSE INPUT P 1 Y40210 SPARE CONTACT PULSE INPUT P 1 Y40220 SPARE CONTACT PULSE INPUT P 1 Y4023D SPARE CONTACT PULSE INPUT P 1 Y40240 SPARE CONTACT PULSE INPUT A 1 Y40250 SPARE CSNTACT PULSE INPUT P 1 V40260 SPARE CSNTACT PULSE INPUT P 1 Y40279 SPARE CONTACT PULSE INPUT P 1 Y40280 SPARE CONTACT PULSE INPUT P 1 Y40293 SPARE CONTACT PULSE INPUT P 1 Y40300 SPARE CONTACT PULSE INPUT P 1 V4031) 5"AHL CBNTACT PULSE INPUT 9 9 e
O O O l 1 2 32 333435 36373839 28 1727 19 CTN IPSR A P O CN C i VRA SY A NEEP N A S AM A i l' AP DEVICE NPL DRQ3 N 4 N BB R ' SYMB8L AP DESCRIPTION STATUS TEM X0UM A D LR 3 Y40320 SPARE CONTACT PULSE INPUT P 1 Y40330 SPARE CONTACT PULSE INPUT P 1 i Y4034D SPARE NSN= MULTIPLEX CCI D 1 ' Y4035D GLND STM PRE 3S LIMIT SPEN O D 1 01 Y = N ==. N 1 1 l Y4036D SEC ULND STM PRESS LIMIT SPEN D D 1 01 Y = N ~+. N 1 1 V4037D CHARu!NG'PMP MTR'C J BKR CLSSED 1 0 1 06 Y = N ==. N 1 1 Y4038D SERVICE WTR PMP MTR A BKR CL8 SED 1 D 1 06 Y.N.- N 1 1 v4039D SERVICE.WTR PMP MTR B 84R CL8 SED 1 0 1 06 Y . N -.. N 1 1 Y404DD AUX SERVowfR PMP MTR SKR CLSSED 1D106Y-N--N 1 1 Y40410 BEARING-CSULING PMP MTR A BAR CLSSED 1 0 1 06 Y - N --- N 1 1 - Y4042D BEARING.CSSLING PMP MTR B BKW CLSSED 1 0 1 06 Y - N -*- N 1 1 a ! V40430 4160V EMERG BUS 1J FDR BKR CLSSED 1 D 1 06 Y N -=- N 1 1 K a, . v40440 4160V EMERW BUS'2H FDR BKR CLSSED 1D1 06 Y
- N -*- N 1 1 <
i Y40450 4160v EMERW BUS-1H FOR UKR CLOSED 1 D 1 06 Y - N - - N 1 1 # i u
" Y4046D 4160V EMERW BUS 2J FDR BKR CLOSED 101 06 Y - N --- N 1 1 5 Y4047D 4160V !NTAKE STR T!E BKR CLOSED 1 0.1 06 Y = N --- N1 1 E V4048D *160V INTAKE STR SUPPLY BKR CLOSED 1 D 1 06 Y - N **. N 1 1 9 i V40490 SPARE NSN= MULTIPLEX CCI O 1 A Y40500 SPARE NON-MULTIPLEX CCI O 1 E
Y40510 SPARE NSN= MULTIPLEX CCI D t Y40520 SPARE NSN= MULTIPLEX CCI O 1 Y4053D SPARE NON= MULTIPLEX CCI 3 1 Y4054D SPARE NON MULTIPLEX CCI 3p 4 4 D 1 w Y40550 SPARE NSN-MULTIPLEX CCI D 1 O C) Y40560 SPARE NON-MULTIPLEX CCI O 1 dE jk Y4357D SPARE NSN-MULTIPLEX CCI D 1 -e 2. Y4058D SPARI NON-MULTIPLEX CCI 3 1 25 Y40593 SPARE NON= MULTIPLEX CCI 3 1 j[ Y4063D SPARE NSN= MULTIPLEX CCI 3 1 Y40610. SPARE NSN= MULTIPLEX CCI D 1 Y4062D SPARE N5N-MULTIPLEX CCI D 1 d Y40630 SPARE NSN-MULTIPLEX CCI O 1 ,l $- Y4064D SPARE NON-MULTIPLEX CCI O 1 i .U
l l )! i E S ya# <$EIy;- 1I111111 1 1 1111 111 OA 43 11111111 1 1 11 11 1 1 9 NM3R 2 CA 3L 7 C3ND - 2 7 PARA 1 8 ANN 2 9 RPSM 3 8 SEQ 0 3 7 PER0 3 6 INDx 3 5 NALM 3 0 TYPE DODDDDOODDDODDDOOODDDDOODDDDDDDOO 3 3 CBNT 3 ES CU 2 !T 3 vA ET DS IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII N CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC O I T XXXXXxXXxXXXxXXxxXXXXXxXXXXXxxXXX EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE P I LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL PPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPP R IIIIIIIIIIIIIIII IIIIIIIIIIII III II 2 C S TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL E D UUVUUUUUUUUUUUUUUUUUUUUUUuUUUUUUU M MMMM
- "== == == M M M. M=M=M*M* M * =M- M= M - -M- M = -M=M' M M- M M M h M. M M M. M M. =
A NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN UOOOOOSOSUOOOOOSSOD8SOSSOSOOSe5UO NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE RRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRR AAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAA
?PPPPPPPPPPPPPPPPPPPPPPPPPPPPPPFP RSSDSSSSESSSSSSSSSSSSSSSSSSSSSSSS L D0C509Dp0D0D0000000000D000D00000D PB O 567690123456789312345678931234567 666667777777777888888888899999999 1
AAM R 9 0000000000000c0000000000000000000
*44444444 44444 44444444444444 444 44 V $ YYvVYYVYYVYYYVYYVYYYYYYYYYvvYYvYY Q"'b 5 7 ['
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= - -
8 ANN = - 2 - - 9RPSM NN _ 1 8 SEQ U 00 3 7 PERD YY 3 . 6INDX 14 _ 3 00 5NALM 11 3 4 TYPE 3 0DDDDDDDDDODDDODDODODODODD3OODDB3 _ 3 CONT O1 3 ES CU _ 2 IT N _ 3 VA EL ET PE - DS OS - III CCC iIIIIIIIIIIIIIIIIIIIIIIIIIIICCC CCCCCCCCCCCCCCCCCCCCCCCCCCCC N CCCCCCCCCCCCCCCCCCCCCCCCCCCCDDD O EEE S I T XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX T P EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE U LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLEA 2 I R PPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPD IIIIIIIIIIIIIIIII IIIIIIIIIIIIIIIT C TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTRN S LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLRO E UUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUEC D NMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMV
= = = = = = = = = ===== ================OH P NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN E A SSSSOOSSSOOS?SMSOSOO5OSSSOOOSDOR NNNNNNNNNNNNNNNNNNNNNNNNNNNNNWNEE TN EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEUI RRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRPB AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAMR PPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPOu SSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSCf L 0000D0000000D00D00DD0000D0D0D00D0 O 890123456789012345678901234567312 1 PB 990000000000111111111122222222333
_ AAM 001111111111111111111111111111111 R Y 44444444444444444 444 4444444444444 _ V S Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y V Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y V Y. 7 V 7 C* M
W DIGITAL VALUES (Cont'd) e.---e e--eeae-e e d " - e+ ~ " " ** " t 3 .s rr n m ? Y m er U 4 m .J d M ** ** e4 ** h Uc7O ru 777777 6 G
- tr 4 c 0 $ 9 0 e e ao 47z e e e ee e e e e e e a ni mEnmr 777777 j m e a e>6 e so an W G 3 m >>>>>> j S AWEO m @ @ @ @ e. e.
4 .-. 2 C X C00000 m
-<w-.<
nn 7 < .J r l m D >>LW DDDDDDDDDDDDDDDDOOOOOOOOO \ m e. 4 e4 e4 m U D Z 6-M l y gn OOOO *i U3 WWWW m or mmmm22 , m >< CODUWW ' wp JJJJ11 og UUUUDO EE
?> e- F H H H H 6- H VW L&EL111AA DD 333333333 EEE2EET2E ed .-e K E 2 Y E T T T T H D- H 6 - >- D- H -. .* ** < :D W td W W W W W W W 3 3 3 3 3 3 3 0 0 U 6 >= t- >- >- >- o- >= 0.1 (L 1 IL IL 1 O U LJ *D :D UUKE z .Z .e Z**Z. * ..Z. Z. Z. Z Z Z. Z. . Z Z ..Z. .- Z. Z. * *Z*OOO4<VV O WWW (D CD w J J -J J J .J .2 . J .2 J J -.J J J J J K x x W W 4 < < < 4 4 4 < < < < < < < < < W W td m .. I p tas 6-
- 3. 7 7 7 7 7 7 7 2 2 2 7 7 7 7 7 7 .8 .J A 6- >- (4 (A >
** O e e o e o e e e e e e e omw e c Q.w Q Q. J N E . .-. w w wWW33W<
U 6- >- >- >- H 6- H 6- >- F D- k >- >- >- >= t- D- >= Z
- 14 U U U U U U U U U U U U U U U U .J _J .J w .Z CDA !D > >
W W W W W W W W W W W W td W W W W 3 3 3 J .J e 2 4 O O T.T * *T. * .T T T.T.T..T.T
.- . m T T.T T. m TT E E E ea e z Z t- >- 33>Z. .
L 7 7 7 M D n :n i r
< O. O. .O. - . .O. O. O. O .O. .O. .O. . m O O O O. O O. e e e eeWg CD 2 ID CD 2 2 CD :D S (D CD (D CD tD *D S 7 2 2 a c. W W in2<
NNw WWWWWWWWWWWWWWWWWWWw 6- > to E K K E E E E E E E E E E E E E T E E E t < < < < < < < ( 4 4 < < < < < < 4 < < ** w to to w P-
!L IL k !L E IL 1 (L CL 1 L i 11 CL i 1 !L !L Z 2 3 3 O I th in (D (n in in to 10 'O to to to EA (D L4 th (4 W th 3 3 T D E T .J OOOOOOOOOOOOOOOOOOOOOOOOO m 4 in @ es en m o ,e n e N m e in @ O e tu to c an @ m in o
se & :D 4<r M m M***e.
.-ece MMm w w m 44-e.s.
4 in D.nn.eD to e eLD LD e4,4
.4,4 4 @ -4@ so Mm aoM Om O O 44 O E > d444444* *******eee4hhMMMM > m >>>>>>>>>>>>>->->>>>>->->>>>> e TPS157 B-130
DIGITAL VALUES (Cont'd) N t 3 e rr O N N N ns fu at N N ni m N N ng m na ni m m ne m m m m N na n N N N N N ne ni tal tal mM 2.2 3 *.3 aa J UU a tal W W IA (n m TT O OO th O ID g == b >> Z 44 o NN U J 4 OO J >- OO at J4 JJ ZO o .= 00
>- W to 64 cm IT in en tal U ~ Oe +4 th J WZT * -4 Y (1 O F- M < 4 # .4 T & ME T tl O 4 4 4 NW2O NN E >we OO O' tal T
O w 2 mN me WI th 2 IL c O EL WWW E 00 3 80
- D- En 2 OO O e 64 (4 3 m =4 e4
.J to 14 (L ** 4h J V to W
- CL W H EE D 2 1 6- 1 0 :D U 11 A IlIL IA N Z .J W 1 S.
% lL 4J3 W D X .J W X >= J .J XX I e < Z >- 4 D *== 0 44 >- E E w in E S- 3 U EE m E W CA L RRR2222x32Yx21RXX2x%K331EX1E2%3x2 N
O
>- W ZEEEEEEEEEEEEEEEErEEEEEEEEEEEEEEE Z IL EFTEEEEEEEFrTTEYYEYrTTTTTriTEIEET 4 J> E E E E E E E E I E E E E E E T E E E E E e I 'k: e e e e E E I' E 3:
IL t- EFEE9 eeeEE 9 e eeETFrEEEEEE e e oe a e e e e Z W E 3 M (#
.4 6-D 7
N M > th k-M WWWWWWWWWWWWWWWW>>UUUUO3O333U0003 T T T T T T T T T T T T T T T T U U T T T T W W th *D th to T T T T W . J C OOOOO00OOOOOOOOOOOOOOOOOOOOOOOOOO
.4 tu m 4 in e t . so m O 4 N to e to m O .4 0 4 fu m 4 in e N so m O .4 su m 4 ** 4r D. CD TME O O O O O O O O O 4 4 4 4 4 m m eg .4 O O O O O O O O O O fu N N fu fu > > OOOOOOOOOOOOOOOOw444t4444444444444 M 00000000000000000000000000000nO00 UUUUUUUUUUUUUUUUkukkkkkkkkkkkkkkk I
i B-131 TPSI57
. DIGITAL VALUES (Cont'd) a3 4 n n N n. At nr N n' n i N n' N n' n' "* * * * * *
- N * * * * * * * *
- to V 4 e4 &
O 4 m W w to tL 23333333333323 3333333333333333333 N H hl EIEEEEEEEE1EEEIEEEEEEEEEEEEEEEEEE O Z (L EEEEIEEEEEEEEIEEEEEEEEEEEEEEEEEEE Ee eeee e e e eee e e e e e ee e e eEEEEEIEEEEE O .J F 1 e- ee eeee e e e eee e e e e eee e eeEEEEEI ae e e e H Z W E 7 m & p ZZZZ e4 N m # w m e 4 o' t 7 JUUU w ZZZZ N'A>'A >- 0 0 5 O O U U U 3 O (4 f "1 O O O 'O U U U U U d O O O O O 'S O O O O e4 m to th "AWTTT'A'A Dy . m to to in T T T T 2 to th En *4 (/) 'A m to to 'A*A
.3 O O D O O O O O C '10 C4 O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 tp m 4 N co m O w N
- 4 e N 00 m O m & in e N co 04 0 4 m
- LD 4 O e4 m # in M 4 IL 2 NNNNN4#4 * * * *
- 4 Os Os m m m m (P m O O O O O O N N N N N W4E #####44#4********#*******d4044444
> > 000000000000000000000000000000000 (A h k k 11 k k k k k is k k k h k LL k LL k. k k u A .J .J .J .J .J .J .J J .J .J ,
TPS157 B-132
h O O O 1 12 13 40 29 41 S 'R C VRA Y E A AP S PLNT S 4 SYMBOL T INSTRUMENT TYPE P REMARKS 3 LO426D SG ..MMM h 2 LO440D SG . MM W 2 LO441D SG .=MM W 2 LO4430 SG ==MM W 2 LO4440 SG ..MM W 2 LO4450-SG .-MM W 2 LO4460 SG ==MM W 2 LO4800 RC- MMMM W 2 LO4310 RC MMMM W 2 LO4820 RC MMMM W 2 o LO483D RC MMMM W 2 5 LO4840 RC. MMMM W 2 $ LO4850 RC MMMM W = r-7 LO486D RC MMMM W h j C L20040 HX LCV-SD=103A --B- A 2 E
" L20140 HX LCV-SD=1038 .-B. A ? Q L28000-GE SW9 --B. A 2 g L28100 GE -=B. A- 2 s ~
N00010 RE NC41R MMMM'N 5 d N00020 RE NC42R MMMM w p N00030 RE'NC43R MMMM W _ 2 N00040 RE.NC44R MMMM W j N0005D RE MMMM W a N00060 RE NC41P MMMM W 2 N00070-RE NC42P MMMM W 5 N00080 RE NC43" N00090 RE..NC44 MMMM W MMMM W-i2 oO f NOO10D RE
.N0011D RE NC41M MMMM W MMMM W .g i A[
e }. l N0012D RE NC42M- MMMM W' 2 27 N00130 RE-NC43M MMMM W 9MMM'W i p h.- N00140-RE NC44M .3 N00153 RE *MMM W 2 me
DIGITAL VALUES (Cont'd) ( ) w fy n ni ne ni ni o, ni ne ni N N n n. m ne ni n. ni N ni ne ni ni ni ni nl M N no N fu N no N U3 M e T C 4 I I l m W W U) L 333333K333%31EE333ER3333%33333XE3 N. 6- 143 EEIEEEEEEEIEEIEEEEEEEIEEEEEEEEEEE EEEErrrEEEEEEEEEEIEEEEEEEEEEEEEEE O Z CL
* -.8 7- EEEEEEEEEEEEEEEIEEEEEEEEEEEEEEIEE EEEEEEE p e oe oEEEEEEEEEEEEEEIEEEEF E 1 6-t-
Z W E "3 M T LL LL OOOO w >- m4 .* N tn e m Mm mmmm 7 L> *J L3 J Lb U
~ ZZ ZZZZ N W >- W >- W W W W W W W u) W W W us W W W W W W W W W W W W W W W t.aJ W W W W W M TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT ) OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO O e is O.e fu m
- c e is so m O w ru m e in e O e na m a to e ts no m O w fu m W 4 CL ED W H N N N N N N N N N fu m m m m m m m * * * * *
- 4 e # # to O m O T4E OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO 00000000000000000000O0000 7000000
> 22227Z U) ZZ2Z27222Z2222222ZZZZ7ZZZ TPSIS7 B-134
p .uA__g a _.m 42_---E_______i,. +=aJ _ %w -+--ll-Ahare,d.a #,eA- me&m..ma 4 .u,we'.'a a A_ -oAL A.J41,,gA. .a.S M.2__.m,4.4 Aga20 m , y mo.__ mal _+#A i.. ff ( ( DIGITAL VALUES (Cont'd) Oqf Cli- l P G 0 ! h l h h hl $ hh hl hh . I t 6 Y d W
- 4 E
W E , mEMML E X 2 3 E 3 3 x 2 2 2 3 X 3 X X 3 E E 3 R R R E E 3 3 3 5 "E E R E \ N O D- W 2 R. EEEEEEEEEEETEEEEEEEEEEEEEEEEEKEEE EEr.EEEEEEEEIEEEEEIEEEEEEEFEEErEEE
- J> EEEEEEEEEEEEEEEEEEEEEEEEEEe eee eee
& 6- EEErrE ee oeeeeee e eeee eo ee ee e ee eee e W
2 W ' E 3 m- - 2 a & N 2 .
+
NNb@h WWWWWdWWWWWWW$&$WWWWdWWWWWWWWWWWWWW w 2 2 2 7 T T T T.T 2 T T T T T T T T T T T T T T T T T T T T 2.2 y
- J -e 0000oononoooccoonoooon000ooooooon e m e N e m O w m m e c 4 N eo m O w m m e m @ N eo es O .-e m m e m @
W 4AS i. m m m m m m @ @ @ @ @ @ @ @ @ @ N N N b b b b N N N 80 80 eD E0 80 eD en K4E
> ' OO 00 O O O O OO O O 00 O O O O OO O O O O 00O O O O O O O.
M - OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO l' Z Z Z Z 2' 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 e B-135 TPSIS7 l l' ,
W DIGITAL VALUES (Cont'd) O 4 & 4 rr n ne na tu tu ni ni eu ni ni ni ni ne ni ni ni ni n. ni ni tu n. ne ni ni ns ni nt su n ni ns na ns I m V 4 v4 & O 4 E tsa 2 m X W E/) L T3 E 3 3 'E; R X X X 2 % 3 3 3 2 3 3 R *E t2%E23E E 1E33R N 0- W IEEEEEEEEEEIEEEEEEIEEEEEEEEEEEEIE EEEEEEEEETEIEITEETIEIEEEEETETIEIT O 2a O aH JF e eee oETE eEEE ee ee eeee ee ee ee e eeee e eeee e ee e ee ee ee ee ee oe eEEEIEE eEFrTET H Z W E NNN NNN w ** e4 I 3 nnn D V 11 DDD T
- to @
- tD @ # ifi 4 f9
.* H mmm to so co mmm V) * ** *** ***
Z SDD DDD DDD M a a 3. Eaa Ow aa N W > V) e- W W W S 23 :0 0 0 3 3 0 3 3 3 LS O '33003'303*33JUUUUUU e4 % T 3 > > > U) to t/) ft) m t/) t/) W W 'o .in U) L/) W lt) C4 W W 0) V) W T 7 % % % %
.J O O O O O O O O O O O O O O O O O O O O O O O O O O O O O fi O O O l
D N so m 4 N cc e in o 5 m m n s in 4 N so m n # nn @ b to m n n e4 N m 4 in 4 4 a :D 00 80 e0 m m m O O O O O O 4 N N N N N N m t e # 4 e # to CC or ao co co co W<E OOOmt')me&44##4e*************2***e& 000000000000000000000000000000000 ( Zz 2an.aaaa a a ana ama aaa a maaa aza a aa aa i 1 u) 9. TPSIS7 B-136 l l
O O O 1 12 13 40 29 41 S R C A VRA Y E R AP S PLNT S TYPE P REMARKS D SYMBOL T INSTRUMENT l MMMM W 2 PO4860 RC MMMM W 2 PO488D RC g PO489D RC MMMM W MMMM W 2 PO4900 RC MMMM W 2 PO4910 RC g PO4920 RC MMMM W g PO4930 RC MMMM W g PO494D RC MMMM W MMMM W ? PO4950 RC g g PO4960 RC MMMM W MMMM W 2 9 P10000 VS 2 5 P1001D VS MMMM W MMMM W 2 ; m P1002D VS P10030 VS MMMM W ? g
,l_ 2 c w P28000 GE CON 2 --B. A " A = G P2801D EL --T-P2802D UE SW10 --B- A ? p 2 g P28050 UE PS-1 --B- A 2 n' -
P2810D GE SW8 --B- W "MMM A MAX PPS 40 KWH/P 10 H&D LMG ? 003200 EL ? 003210 EL MMMM A MAX PPS 40 KWH/P 10 H50 LS3 003400 GE MMMM A MAX PPS 40 KWH/P 10 H&D LSG ? p T0400D HC MMMM w T0403D RC "MMM w ? g 2 M 70420D HC T0423D RC
-MMM W -MMM W i 2
gS O m& T04400 RC --MM W N 2-2 T0443D HC --MM W 2 MMMM W E g TO4980 HC g 2 T04990 NC MMMM W p
, T28000 bE --B- A 2
g V03200 EL MMMM W 9MMM W 2
; V03210 EL a
.m mm, -
g l l l I V w W 4 A E N s N
>- N EE D 8 ee e eEEEEEEEEEEIEEIEEEEEEEEEEE E E t >- >- t- >- E E T E E E E E E E E E E I E E E E E E E E E E E O 2 (L O .J t' 16-EE DE 98 98 94 ee 9 DeEEEEEEEEEEEEEEEEEEEEEEEEE eEEEEEEEEEEEEEEEEEEEEEEEEE t-Z W
E 3 M T w t-M 7 m NNN N bN d N N N N
> b e b E $0N w W W t- t- t- >- t- e- T T 2 E % % T T % % 2 Y T Y T i % % 2 Y Z % Y Z Z D
A OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO ru e C W tu O w ru w N M a tn e 5 eo e h in e 6 no m O w 3. M a in a b co m w A L (D fu N
- w w N fu N O O O O O O O O fu N M M M M M + 4 *
- 4 4 4 * *
- EWE MM0000000000000000000000000000000 0 O fu N N fu tu tu o O O O O O O O O O O O O O O O O O O O O O O O O th >>>>>>>>>>->>->>>>>->>->P>>>-F3->>>->>>>
TPS157 B-138
IW DIGITAL VALUES (Cont'd) ChyggI/0N ONt y t;4 er n - na nl ne ne ns ne ne ni ne ne ne no ne ne ni n' ni ne ni ni ne ni ni ns ni n na ne ni ni ne ne n. l I 4 V W K 4 4 E i W E I m E M U9 S. EEREEKE 33333334K333E%31 ER1 %E1%ERS N
>- W EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE O ZE EEEEFEEEEEFEEEEEEEEEEEEEEEEEEErEE * .J F EEEEEEEEEEEEEEEEEEEEEEEEEEEEEE ee e
- 2. >- EEEEEEEEEEe eeeoeo e eee ee ee_e-e ee o e e e t-Z
.a .
E 3 M E e4 - >= 0) Z NNbNb dN N N Id d N ld d N d d d d N d N d ed d 5N d b d d d kN N 80ddd e* E E .T E E E E E E E T E E E E E % > 'T Z 2 2 2 2 T % T T 2 4 YE2 J C-O O O O O O O O O O O O L3 O O O O O O O O O O O O O O O O O O O O O w N M e in @ N en m O re m M e m @ N so m O w m m e to 4 N en m O w m w 4LM- O to in O O in O W W In @ @ @ @ @ @ @ @ @ @ N N N N N N N N N N eO E0 e0 EME O O O O O O O O O O O O O O O O O O O O O O O O O C* O O O O O O O
> > 00000OOOOnOOOOOOOOOOOOOOOOOOOOOOO-(
in >>>>>=>>>>>>->>>->>>>>>->>>>F>>>>>>>F. B-139 TPS157 ,
. .i '.
1 12 13 00 29 01 Q R s 22 S A -
$ VRA Y PLNT S E
4
~
AP S 0 SYMBSL T INSTRUMENT TYPE P REMARKS 2 Y00830 RE ..MM w
==MM w 2 Y00840 RE 2 4
V00850 ME ..MM w
..MM w a Y00860 RE 2 Y0087D RE ==MM W 2
Y0088D HE ..MM W 2 YOO590 RE ==MM W 2 YOO91D HE 52 14A13 ==B. A y YOO920 RE 52-14C23 ..B. A 9
?
YO1000 CV 52 15H6 ..B. A > 9 YO1010 CV 52 15J6 YO102D CV 52 15M7
..B. A ..B. ' i 5 MMMM F 2 [ , YO1030 CV 2 >
YO104D CV MMMM W p E I YO3200 EL MMMM W p C YO3210 EL MMMM W p p YO322D EL MMMM W q 2 YO3240 EL MMMM W & 2 YO3900 TB MMMM W 2 YO3910 TB .MMM W 2 YO3920 TB .MMM w 2 YO3930 TB ..MM w
..MM W 2 YO3940 TB a YO4000 HC PMMM w 2
YO4010 SG MMMM W 2 YO4020 HC ..MM W SPT10N INPUT TS RPSM 2 YO4200 RC .MMM w 2 YO421D SG .MMM W 2 YO422D RC ..MM W SPT10N [NPUT TO RPSM
..MM W 2 YO4400 HC 2 YO441D SG ..MM W .
2 YO4420 RC ..MM W OPT 10N INPUT TS RPSM 2 YO4600 RC 52 14H10 ..B. A 4
O O O t i 12 13 40 29 41 S R C i VRA Y E A AP S PLNT S- 9 SYM80L T INSTRUMENT TYPE P REMARKS 3 YO4610 RC 52=14J10 ==B A o YO4800 RC MMMM W j YO481D RC 52-14412 --B= A 2 : YO4820 MC 52-14tS12 ==B= A 2 t YO4830 RC $2-14C12 -*B. A 2 YO6000 AC 52-15H14 --B A 2 YO601D: AC 52-15J14 *-5. A 2 YO602D AC 52-14=B26 ==B= A 2 YO6030 AC.52-14=C26 ==8. A 2 i- YO604D AC'52-14=A21 ==B- A 2 9 YO701D MI 52=14H2 ==B= A a 9 YO702D MI 52-14J2 --s= A i 5
, YO7270 MI 52-15H10 --B= A 2 Q
- i YO728D MI 52-15JiO ==B A > >
~
YO732D MI 52*14M7 =-5. A $ E
~
YO7420 MI 52-14J7 ==S. A h E YO9200 SI MMMM W 2- p ; YO921D SI MMMM W 2- a, YO9400 MI 52-15H9 ==S. A a S
-YO9410 MI 52=15J9 ==8= -
A o ! Y10000 VS 52-1448 ==8. A 2 Y10010 vs 52-14J8 ==B= A 2 Y10020 VS 52-14H9 ==8= A 2 , Y2000D TB ==T. W 2 Y20500 TB ==T- W 2 Y2051D T3 --T- W o s Y20590 TB ==T- W 2 Y20600 TB Yh061D TB
==T. --T=
W W 2 a [ >f , Y20653 MI -=x= W > k-Y20700 TB --T. w 2 ' P Y2072D TB --T= W 3 - C;
.s Y2211D MX LCV-SD=107A .-B. A j
y 1 12 13 40 29 41 R C $ S A VRA Y E $ S PLNT S 9 AP 2 SYMBOL T INSTRUMENT TYPE P REMARKS A 2 Y2221D HX LCV=SD*107B -B= 2 Y22230 HX LCV-SD=123A ==B- A p Y2233D HX LGV-SD-121A --B- A 2 Y2243D HX LCV-SD-143A ==B- A A 2 Y22530 HX LCV-SD-142A *-B-A 2 Y2283D HX LCV SD=1238 --S-2 Y2293D HX LCV-SD-1218 --S- A A 2 Y2295D HX LCV-SD-107C --B-2 Y2303D HX LCV-SD=1438 --B- A 2 o Y23130 Hx LGV-SD=1428 --B- A 5 A 5 Y23200 HX 52-15A5 --B-A ? y Y2321D HX 52-15A6 ==B-
--B- A 2 ;
a, Y2322D HX 52-1565 2 > Y23230 HX 52-15d6 --B- A I, > E A Y23240 HX 52-15C5 --B- A 0 " A 2 Y2325D HX 52-15C6 --B-Y23300 HX 52-15H4 ==B- A 2 y 2 a Y2331D HX 52-15J3 --B- A 2 a Y23330 HX LCV*SD-128A --B- A A 2 Y23350 HX LCv-SD-101A --B-2 Y234DD HX LCV-SD=101B ==B- A g Y235FT HX (CV-SO-101C --B- A 2 Y236. HX LCV-SD-101D ==B- A p Y239;, HX (CV-SD-1288 --B- A
--B- A 2 Y24300 CW 52-15HS 2 Y2431D CW 52-15J5 --B A A
2 Y2460D Cd 52-15u7 --B-2 Y24700 CW 52-15G6 --B- A - A 2 Y24800 CW 52-1503 --B-2 Y2490D CW 52-1562 --B- A 2 Y2506D CD 52-15A1D --B- A A 2
'Y2510D CD 52-15A4 --B- --B- A 2 Y2511D CD 52-15A9
O O O 1 12 13 40 29 41 C j S R A VRA Y E 9 AP S PLNT S 3 SYMBOL T INSTRUMENT TYPE P REMARKS g Y25200 CD 52-1564 ..B- A 2 Y25210 CD 52=1589 --B. A 2 Y2530D CD 52-15C4 --B. A 2 Y?S31D CD 52-15C9 ==B. A 2 Y2566D CD 52-15C1D .-B- A 2 Y2702D AC 52-15H13 --B. A 2 Y27120 AC 52-15J13 --B- A 2 Y28000 GE CON-1 --B. A TURBINE START 2 Y28010 GE Sw7 .-B. A 9 2 Y28020 UE C3 ..B. A TURBINE START 9 2 Y2806D GE SW11 .-B. A 5 2 Y2810D EL 15A2 -.B- A 2 E Y28110 EL 15B2 --B. A ?
==B- A K Y2812D EL 15C2 2 c *=B. A I Y2814D EL 15H11 ? 3 Y28150 GE .-Be A p
E Y28160 EL 15J11 .-B- A.
==B. A 2 4 Y28200 EL 15A1 p &
Y2821D EL 1591 --B- A p Y28220 EL 15C1 .-B- A
?
Y2824D EL 52-15H2 --B- A l Y26250 EL 52-15J2 --B- A p p
? Tr Y2830D EL 15D1 --B A l ? O 0 Y28310 EL 15El --B- --B-A p gg4 Y28320 EL 15F1 A g xA --B- A Y2834D EL 2 27 Y28350 EL 1C --B. A TURBjNE START h g o
Y28360 EL 11 --B- A TURD}NE START 2
.-B- A Y26+0D EL 52-15A7 g f Y28410 EL 52-1567 --B- A 2
Y2842D EL 52-15C7 --B- A 2 Y28430 EL 52-1548 --B A h --B- A p g Y28449 EL 52-15J8
l l 1 W , DIGITAL VALUES (Cont'd) O u w rr n tu ru ru nt ru tu ru tu ru tu ru ru tu ru tu ru tu ru tu ru N ru tu ru N ru ns tu ru ni tu ni na us x ,. e E o < r 5 m E w sn s. < < x x x x x x x x x x x x x x x x x x x s x x x x x x t s :s z x (V l e- w e oeoee.eeee oeeeo e oeoee eee ee ee e oeee exxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx O z a. ! e s> eo e eoeoeo eeeeo ee : eoee eee ee eo eoe ee
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'd WEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE 8 O O O O O O O O O O O O O O O O O O O O O O O O O C,O O O O O O O e e so .1 N m 4 tt) @ h so m O efu m4.e.4ee.*eg.*4 in @ h so m O .* N m e w) e h oo m O -e N N N N N N N N N N M M eo 4 8. 110 *
- O O O 0 0 O O O O 4 4-4 E<E a0a0 0 0 0 0 0 0 O O 0 0 0 0 O O 0 0 O 0 0 O O O O O O O O O O O O
> >- N tu t e 4 & d d e * * * * * * * * * * * * * * * * * * * * * * * * .. ~ (4 - D->>>>>->>>>>>>>>>>>>>>>>>>>>>>>>->> .
TPS157' B-144
O 995QgcE6k& CA 93 g2h?aaa?p2ai2gpa2 aao>h3 >pa>pg: ah 2 Z'o;u@M~oZ ._ O rM _ S E K TT 1 R RR 4 A AA O M TT _ E SS R EE NN II BB RR _ UU TT AAWWWAwWWWwWWWW aWWhWWAwWAAAAAAAAA 9 RESP . 2 ' TE - - - * - - . - - 0 NP BBXTTBBSBBBSBBBBBXxXXBTTB8BBBHBBB 4 LY - - - - - - - - - - - - - - - - =- PT - - - - - - - - - - - - - - - - =- _ T N - E M U 3 R 7 5 D 1 T J55188333411 S - HJH6C0EFF GG N I 55b555555555 11i111111111 ._ 2SYST IIISBBIIIIIIIIII1III1IIIIIIII I!I I MMMTTT MMMMMMMMMM1 MMMMMMMMMMMMMFMM 1
- L O
00D0DD0D000000D0D00D00D0D30DDD0DU ._ APB 2345678901234567B9012345678931234 1 RAM 333333334444444444555555555566666 V Y 000000000000000000000000000300000 4444444444444444444444444 4444 4444 O S YYYVYYYYYYYYYvYVYYYYYYYYYYYYvYYYY mL$ hw _
W-DIGITAL VALUES (Cont'd) O O e'
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>= W G 9 9 0 9 m D e eeseeS 8 eae9 ep ep 8 9 eeaD ee D e 2 m O ID e CD (D sD e eD e A e al to to 10 to OLI D ED ED CD (D ED ID (D CD CD ID 10 ED CO O
e Z D. ak k >= eeeeeeo e oeeeee eeeeea eeo eae eoe a e e s 4 9 D D 9 8 D D D 6 99 0 8 5 9 8 9 9 9 9 9 9 9 9 8 8 8 8 8 0 8 8 D-Z W E 3 i m E l ese D-l (pg I Z t=eM M M M M M M t=4t=0 M M M M M ese M M ene M M M Dee M M M M M M M M ene M \ M b EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE O J OOOOOOOOOOOOOOO0DOOOOOOOOOOOOOOOO en 4 6 en m o M fu m e an @ N 00 m n w N m a to @ b co m O .=e N m # to @ b W < G. ID @ @ @ @ @ N N N N N b N N N N e0 ed 80 00 00 dD e0 ed 80 eO m m m m m m m m E<E O O O 00 OO O OO OO O O O OO O OO O O O 00 O O O O O O O O 4 > m ************>*>**d244*ted#444d*4eee
>>>>>>>>P->>> >>-D->>>>>>->>>->>>>->>>
l TPSIS7 B-146
oiarrAL VALUES (Cont'd) unnn m m eu m eu m m u ni m u m m m m m m ru m m ni m m m m m m m m m m m m INFORMAlign ONLy M V W n V n W m MEWML <<<<<<<<<<<<<<<<<<<<<<<<<<2332<<< N O
>- ta.1 2A ee e eeeeeeeee aeeeeeeeeeeaeeeee ee ee ID CD 201D ID ID CD ID CD In ID CD ED CD (D ED ED in CD (D ED G3 CD in tD ID D- D- >- t- CD 6
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> > ***&#****4444##ee##****de4444esed \ CD >>>->>>>>>>>>-P>>>->->>>->>>->>>>>>->>>>
B-147 TPS157
1 12 13 00 29 41 S R _ A VRA Y E 3 AP S DLNT S REMARKS 3 SYMBSL T INSTRUMENT TYPE P Y4133D MI --B- A ). 2 2 Y41340 MI .
-E A .. ;.. 2 Y41350 MI ==B=.A -
2 Y41360 MI ==B- A
--B- A 2 Y=137D MI
- 2 Y41380 MI ==B. A
-=B- A 2 Y4139D MI 2 V41400 Mi ==B- A ==B= A 2 Y41410 MI 2 g Y41500 MI ==B- A .-B. A 2 9 Y41510 MI
- y Y4152D MI ==B- A. -
- - B - A' ?
Y%1530 MI ~
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A 7 ~ V41540 M1 -=B-2 E Y41550 MI --B A
==B- A ? E V41569 MI 2 6 Y41600 M1 =.-M. W ==M. W 2 $
Y4161D M1 ? $ Y4162D MI ==M. W 2 Y7835D EL 2C ==B- A 2 Y7836D EL 21 --B- A 2 Y90350 MI 15H12 --B- A 2 Y90360 MI ibJ12 --B. A 2 Y90430 Td -=T= W DRAWING B70C855 SHEET 8 ,
--T= W DRAWING 870C855 SHEET 3 2 Y90450 TB e
~ w M I O O O 1 2 25 11 41 VRA/VGB D AP AP ENGR E INITIAL I
SYMBOL DESCRIPT!8N UN!TS C VALUE REMARKS RCL FLOWS CLUSTER LIM PC A K0001 1 4. 1 K0002 STM OEN FW FLOWS CLUSTER LIM KSM i 250. A 1 K0003 STM UEN STN FLOWS CLUSTER LIM KBH 1 250s A 1 K0005 SG STM F STEADY STATE DEYe LIME KBH 2 100. 2 K0006 DVERPWR DT SP CLUSTER LIM PC 1 3. A 1 K0007 OVE~ -UT SP CLUSTER LIM PC 1 3. A 1 K0003 TB /r STG P CLUSTER LIM PS!G 1 15e A 1 K0009 STM OEN STM BUT P CLUSTER LIM PSIG 1 20e A 1 K0010 PRESSURIZER PRESS CLUSTER LIM PSIG 1 20. A 1 PRESSURIZEN LEVEL CLUSTER LIM PC A K0011 1 5. 1 K0012 C3NTAINMENT PRES CLUSTER LIM PSIA 1 3. A i K0013 STM UEN NAM RNG LEY CLUSTER L!M PC 1 7. A 1 o K0014 CONT & SD 800 NORMAL' CLUSTER LIN STEP O 12 A 1 0 K9015 CONT & SG RSD EXTEND CLUSTER LIM STEP 30 A 1 4 7 O 12 A E I K0016 PL R&D NORMAL CLUSTER LIM STEP O 1
- K0020 RCL AVG TAVG CLUSTER LIM DEGF 1 3e A 1 d K0021 RCL AVG OT CLUSTER' LIM PC 1 4e A 1 K0022 RCL CULD AVG T CLUSTER LIM DEGF i 10. A 1 K0023 RCL HST AVU T CouSTER LIM DEGF 1 Se A VOLT 2 eOS A K0025 PwR RNG DETECTOR Q CLUSTER LIM 1 PWR HNG NUCL CHANL Q CLUSTER LIM PC A K0026 1 1 1 K0028 INCORE T JUNCTION BSX T CLUST LM DEGF 1 2. A K0029 REAC TUTAL THERMAL AT 100 PC Q - MW 1 2660 3E F 3 STM LIN A HI F TR T PERM SI SP DEGF 545. F K0040 1 1 1 K0044 STM LIN A HI F TR P PERM SI SP PSIG 1 600. 52a[]f F 1 1 K0048 STM LINE A H! DP ? SI BI SP WIAS PSIG 1 50 #: E F i 1 F
. K0052 SG A LS FWF STM BUT BI SP HIAS KBH 1 628e < k" 1 1 K0053 HCLA DT CONVERS!5N FACTOR DGF/PC 3 1 000 5 C K0054 RCLB DT CONVERSION FACTOR DGF/PC 3 1 000 2 C K0055 HCLC DT CONVERSION FACT 5R DGF/8C 3 1 000 C
, y K0056 K0058 SPARE FRESUZER LU P 1 LEAD SETTING SEC 1 10e r 1 1 l w
- 1. F
} K0062 PRESUZER LU P 1 LAG SETTING SEC 1 1 1
25 11 41 34-y i m 0 C VRA/VGB ENGR E INITIAL AP AP REMARKS DESCRIPT!8N UNITS Cr VALUE SYMBOL - F 1 1 PC 1 108 K0066 PWR RNG CHAN H! Q BISTABLE SP 25 F 1 'J' PC 1 2 K0067 PWR RNQ CHAN LS Q 8lSTA8bE SP DEGF 1 10 F K0068 SG FEEDWATER'AV0i'T CLOSTER' LIM 50e F 2 ' SG FEE 0 WATER AVGe P CLUSTER LIM PSIG 1 K0069 ~ K0070 SPARE K0071 SPARE K0072 SPARE Se F 1 1 PSIG 1 K0074 CBNTAINM H' P 1 St BISTABLE SP i 10. F 1 1 K0077 NUCL PWR 1 RE TR P10 BISTABLE SP PC 10 F 1 i TB PWR 1 RE TR BISTABLE'SP PSIG 1 F 1 1 8 K0081 OKCS 0 10000. K0083 SOURCE RNG 1 HI'G B! STABLE SP 170e F i 1 5 K0085 INTERM RNG 1 HI Q B! STABLE SP MCAMP O
- 1. E 1 y 0
, K0087 MISC ALM SUPR 10 50PC PWR OsSUPR PSIG 1 1700. F 1 1 5 i K0088 PRESUZER LO P 1 81 STABLE SP 70e F 1 2 STM LINE HI F S!'8/8'P X1 Ce0R0 PSIG ~
1 p C K0091 392 3 F 1 PSIG 1 c) K0093 STM LINE HI F SI 8/8 P X2 COBRO KFH 639. F 1 & E K0095 STM LINE HI F SI 8/S P Yi C85RO KBHPSI 21 10:01 F i K0097 STM LINE HI F SI B/S X=Y SL5PE 1 K0099 SPARE 1800. F 1 i PRESulER Le P 1 31 BISTABLE SP PSIG 1 F K0101 PC 1 5. 1 i K0106 PRESUZER LO 1, 1 St B! STABLE SP 92: F 1 1 PC 1 KO109 PRESUZER HI L 1 SI 8] STABLE SP PSIG 1 2385. F 1 i K0112 PRESSURIZER H! P 1 8!STASLE SP 1 60e F 1 1 K0115 HCL LB F1 LOOP TR P8' BISTABLE SP PCPC 1 30e F 1 i K0119 STM UEN 60 L 1 B! STABLE SP P MCAMP 4 e0001 F 1 K0125 INTERM RNG 1 TR P6 B! STABLE SP 1 1715 F i 1 K0127 PRESUZER LO P 1 St BLSCK'8IST SP PSIG 15 F i 1 PC 1 K0130 STM UEN LO LB L 1 L. STABLE SP 50 E 2 PC 1 K0143 OT=0F CALC SETPTsPOWER CUTOFF 2 E 1 PC 1 K0144 DT=0P CALC SPsSTY*ST POW CUTOFF 1 2e E 1 DEGF K0145 UT=0P CALC SPsSTY*ST'TAV CUTOFF NONE 3 1c000 A K0146 ST SP CALC RC FLOW N8RM FACTOR 1 65. F 1 OT=0p REF 07 FOR SETPSINT CALC DEGF K0147
(- L ,/ ( Q,) Nj i 2 25 11 41 VRA/VGB D AP AP ENGR E INITIAL SYMBOL DESCRIPTION UNITS C VALUE REMARKS K0148 PRESS LEV SP NO LOAD TAVG DEGF 1 547a F 1 K0149 PRESS LEV SP FULL LSAD TAVG DEGF 1 574 4 r i K0150 COMP ST SETPT DT VS PRESS FACTOR / PSI 5 00056 F i 1 K0151 COMP OT SETPT Di VS TAVG FACTOR /DEGF 4 De0110 F i 1 l K0152 C6MP ST=3P SETPT REF DT EXPRESS PC 1 100e F 1 K0153 UT=0F SETPT NAX =Aes NO PENALTY PCAS 1 -20. F 1 1 K0154 UT=0F SETPT eAO NO PENALTY PCAS 1 =50 F i 1 l K0155 COMP OT=0F SETPT PENALTY PER .A0 PCP/PC 1 2eo F 1 1 K0156 UT=0F SETFT MAX 4AB, NO PENALTY PCAePC 1 20. F 1 1 1 K0157 UT=0F SE~TPT +AO, MAX PENALTY PCAOPC 1 50. F 1 K0158 COMP ST=3P SETPT PENALTY PER +AO PCP/PC 1 20 r SPARE i 1 8 KO159 5
, K0160 COMP OP SETPT MAX SVERPOWER FAC 2 1 10 F i K0161 1 i 5 C;
UP SETPT DT VS DFLTA TAVG FACTOR /0EGF 3 0 020 F i 1 5
~ K0162 MIN PRiR LEY SP AT NO LSAD PC 1 22 2 F 1 "
K0163 MAX FRZR LEY SP AT FULL LOAD PC F K0164 1 57 2 1 9 COMPUTED THEF SLOPE CONSTANT F/PSIG 5 .05698 C 1 1 K0165 COMPUTED TREF Y.!NTERCEPT DEGF 1 547 0 C 1 [ 1 KOl67 STM UEN A STM QUALITY FRACT NONE 4 9975 C 2 K0168 STM UEN 8 STM UUALITY FRACT NONE 4 9975 C 2 K0169 STM UEN C STM QUALITY FRACT NONE 4 9975 C 2 K0170 SPARE K0171 RCL Le F B! STABLE SP PC 1 90 F 1 1 K0200 5E NMP TRANSIENT SUPPRESS CONSTANT KBH 0 700. E M K0201 HSD POS T=lN LOW TEMP CUTSFF DEGF 1 500. E K0205 CONTAINMENT A!H CLUSTER LIMIT DEGF
$?$$
2 12 A
#: it 40215 SPARE K0250 CONT RSD dNK A TOP ENGAGE POS STEP O 184. F 3 "c (*
K0251 CUNT RUD BNK B TOP ENGAGE PDS STEP O 184. F 3 1 1 3 2 K0252 CONT RSD BNK C TOP ENGAGE #DS STEP 0 184. F 3 1 K0253 CONT RSD UNK B BUT ENGAGE PBS STEP O 46. F 3 1 Ej K0254 CONT ROD BNK C BUT ENGAGE PDS STEP O 46, F 3
$ K0255 CONT RSD SNK D BOT ENGAGE PDS STEP O 46. F 3 1
e 1 U
5 ' 85$5E&AE 111 11121 i1 e L '1 1 1i1 1i1 11111 111 222 333 3222 S K AAEEE CCC CCC CCC CCC 1 R FFF IFAFCCC 4 A M E R L e e e. . 666 .. . ...e . . . A 328 4 e 2 IE TU e e 111 0200.2i 126817 e 20D00 1 e e e 666 333 944 0000000 2 666 2 6447 111 777 IL NA 0 2111 IV 222 111 11OOO iii i11 1111111 _ 1 DEC 111 O5i1111 1 RRR RRR HHH NHH _ S B GGGGUUU 5 RT EL UUU F EEE I!IITTT MMM NNN 9 IIT 2 OI 55s N3 TTTT G SSSSSBB NN LLL STWWSSB EWOOS PPP SSS KKK NFMMKKK DMNNN GGG PPP PPPPKKK EU TTT _ RRR S NNN PPP _ WWW SRN OOO E PPP AWI III C PPL TTT N PP* SSS SSS Y !II A TAAA - REPPP FFF IEEE RRR SSV 0DD FFF MMMM _ EEE RE DDD ECBSO PPPI ZKI RED ~ AAA LN - III LEEE RZ OAEEE FFF DDD TTT O E 5EE TRNNN EEE 0DD AAA CLT EIII XXX XXX NNNR1II OA 8SS PLLLL AAA AAA IIIESSS N . MO MMM MMM LLLT O TTT HVT 8SS . SEEE I NNN C S 8BS ETNNN NNNURRR T AAA TC LLL T WWW NNN NNN PP LLL AEY RSSS MWW WWW WWwL _ AI 6SS MPD TTT MWDDD SSO SSS OeSCNNN AAA IP ODD DDQ DDD OOO 2 R 8BS 5SA WWW WWWP C CCC I E EEE .L WWW WWW SSS S MTT HHH MOOO OOO OOO OOO E FFF NS TILLL LLL LLL LLLPSSS D OOO FL SSS LLUWU UBU UWU UUSEOOO CO AAA I SLLL SSS W TREEE TTA5C A$C A8C A8C SSS L TTTT AAA F. S R EWNNN MMM TINNN NNN NNN NNNSEEE MMM MA *eUUU OTEEE EEE EEE EEEINNN ETM P E GQGEGUGEUUUEUUUO R R MABC ABCRS S ASCRPG R LLLA LTXLLLAe MMMAMMMAMMMAMMM LLL CCCPGCDACCCPeGTTTPTTTPTTTPTTTBCCC RRRSSRRMRRRSLSSSSSSSSSSSSSSSSTRRH s G L v S 012345571234567890123456789012345 000000001111111112222222222333333 1 /PS AAM 333333333333333333333333333333333 00000000000000000000QO00000000000 R Y KKKKKKKKKKFKKKKKKKKKKK~ KKKKKKKKKK S 9
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i i ; - !li ,i ; .! !' ; s p O 8ggzM yqa S'r[t32- {g j 1 O [E- < { 21111211i11 11 . 5,, 5 5,* 5, s5s 5s 5 5,5, ,5 5,5,,,,, 5 5 5 5 5 5 5 5, ,5
,,4 2222 ii1 222' 222222222222222222 1
S K 1 R 8B85 FFFFBB5B5BB5SBB855SBBB5SBSB 4 A _ M _ E R _ L _ A . . . . . . _ I 'E TU 0111105 4 034 4.1011111111111111111111111 2 6 IL 12711 _ NA 25 _ IV 1 1 0EC 13333i113i44444444444444444444444 1 S _ RT FEEEE GFEFEEEEEEEEEEEEEEEEEEEEEEE O 5 _ 2 GI NN GNNNNMIGNGNNNNNNNNNMNNNNNNNNNNNNN _ EOOSOSSEOEOOOOOOOOOOOOOOOOSOOOOOO _ EU DNNNNKPDNDNNNNNNNNNNNNNNNNNNNNNNN _ M C ~ TE - I - A 850472435S116852023581'S ._ L1234IR F 001001100O100010110001O GGGGMU A88EEEEFFFFG8MMJJJKKKKM S IS RE . USSSSLSGEEEEEE.EEEEEEEEEEEEEEEEEEE LIIII EVWRLLLLLLLLLLLLLLLLLLLLLLL CTTTTRRAOE8E8SSSBS8SS8BBS88BS8SBB
.AAAAEPTPFMMMMMMMMMMMMMMMMMNMMMMM TRRRRT REIIIIIII!III!IIIIIIIIIII N .
SFFERHMHHHHHHHHHHHHHHHHHHHHH O TTTTTUEEV UEEEELRRSX . TTTTTTTTTTTTTTTTTTTTTTT I . - - T O88SSC 8RRRRRRRRRRRRRRRRRRRRRRR PP FFFF TTX8OOOOOOOOSSOOSSOeOOOSOSO 2 AI R MFFFF'FPPA TOOOO TTTTTTTTTTTTTTTTTTTTTTT TTMTCCCCCCCCCCCCCCCCCCCCCCC C S NEE CAAAAAAAAAAAAAAAAAAAAAAA _ S E PRRRRA EEEEISSTNFFFFFFFFFFFFFFFFFFFFFFF
. PU EUOOOMTTTJ'GGGEGGGGGGGDGuWGGGGGGuU.
_ -D SCCCCOOSE NNNNNNNNNNNNNNNNNNNNNNN XXXX SCIIIIJIIIIIIII:III1II]JI TEEEERDD TXXXXXXXXXXXXXXXXXXXXXXX S////TEET IIIIIIIIIIIIIIIIIIIIIII
!EEEEMTTSEMMMMMMM.MMMMMMMMMMMMMMMM eRRRREUU R MOOOORPPPOWWWWWWWWWwWWWwWWWWWWWWW CCCC .M M M C O O O O S O O O e e B O O e O O S O O S O S O -
BNNNNBOOONLLLLLLLLLlLLLLLLLLLLLLL-T IIIIT C C CIF F F F F F F F F F F F F F F F F F F F F FF B G L V B 612345678912345678901234567893123 1 /PB 355555555500000000011111111112222-AAM 35S555555577777777777777777777777 R' Y 00O00000000O000000000000000000000 O V S KKKKKKKKKKKKKKKKKkKKKKKKKKKKKKKKK 7gW 3 l lliI!' l; , :'
gz0$d g3s e i 5555 5555533535555535553555555535
,,,,,s s , s s s , , , s , , , s , , , s , , ,s s s , , s 2222 222222222E222222222222222222 S
K 1 R A BSBBBBB8BB8SSBBBBBBBBBBBBBBBA6BBB - 4 M E R L 5000 A .. . . . . . . . . . . . ......... . . . . . . IE 111111111111111111111111111100000 3 000 TU IL 000 NA IV 44444444444444444444444a 44413333 1 DEC 1 SSS S - 5 RT EEEEEEEEEEEEEEEEEEEEEEEEEEEEFETTT NNNNNNNNNNNNNNNNNNNNNNNNNNNNONLLL 2 OI NN EU SOO0OOSSOSOSSOOOOOSOOOOSOSOSESOO8 NNN4 NNNNNNNNNNNNNNNNNNNNNNNNDNVVV TTT 9-R SSS 687B23S803285359t36S24314807ONNNN 000O10O011001000i1OO11010010TOOBO NPRCC0DEEFG0GHHHHMLLLLMMNNNPCICCC AT EEEEEEEEEEEEEEEEEEEEEEEEEEEEFCSSS LLLbLLLLLLLLLLLLLLLLLLLLLLLL AAAA _ SBB8BBBBBBBB8SBBBBSBBBBBBBBBMRIII MMMMMMMMMMMMMMMMMMMMMMMMMMMMIFBBB IIIIIIIIIIIIIIIIIIIIIIIIIIIIL N O HHHHHHHHHHHHHHHHHHHHHHHHHHHH TTTTTTTTTTTTTTTTTTTTTTTTTTTTSO333 AL111 WABC RRRRRRRRRRRRRRRRRRRRRRRRRRRREFHMH I T PP OO8OOOSOOOO8S8OO8SSSOOSOSOOOR AI R TTTTTTTTTTTTTTTTTTTTTTTTTTTT' STTT CCCCCCCCCCCCCCCCCCCCCCCCCCCCRSEEE 2 C S AAAAAAAAAAAAAAAAAAAAAAAAAAAAEADDO FFFFFFFFFFFFFFFFFFFFFFFFFFFFWP E 8YD00 D GGGGuGGUGUGGGGUGGGUGGGGGWWGG4SEEE NNNNNNNNNNNNNNNNNNNNNNNNNNNN I1II1II{ I I1IIIIIII1IIIII1III CClII XXX - XXXXXXXXXXXXXXXXXXXXXXXXXXXXTTFFF IIIIIIIII IIIIIIIIIIIIIIIIIII MMMMMMMMMMMMMMMMMMMMMMMMMMMMEEEEE RHRHH WWWwWWWWWWWWWWWWWWWWWWWWWWWWS8OO6 OBSeOOOOOSOOOOOOOOOOSO8OOOOOCCCCC LLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNN FFFFFFFFFFFFFFFFFFFFFFFFFFFFIII II B G L V O 456789012345678901234567890101012 1 /PB 222222333333333344444444445599000 777777777777777777777777777777888 _ AAM R Y 00O0000000000000O0000300000000000 V S KKKKKKKKKKKKKKKKKKKKK4 KKKKKKKKKKK 9 m" 7 C* li ,'
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W~ \ NORin CONSTANTS (Cont'd) Of D en in en m to en to m en in to in in to in to en In to 80 in to en in to an to en m to in an In
===% = = = = = = =====m e4 * % = = ======e e ===
NNNNNNNNNNNNNNNNNMNMNNNNNNNNNNNNN N M V w 2 Ommmmmmmmmemommmmmmmmmmmmmmmmmmme e 4 E W K J
- 4. 00000000000000000000000000000000O wW 0000000000000000000000000000000CO N3 000000000000000000000000000000000 mJ e o w e o s e e o e o e o w e e s e e o e e o e o m o e eOOOO Z4 00000000000000000000000000000s a e =
w> wwww w OWU MMMMMMMMMMMMMMMMMMMMMMMMMMMMM4444 4, w m mmmmmmmmmMmmmmmmMmmmmmMmmmmMm (~ m N EW Ow HHWWWWWWWWHHWWYWWWWWWWWHYHVVWWWWW J J..h J J J J J J J JJ J J J J J J J J J J J J J J J J J Z z z z t ZZ coccecccccccccccccccDoccccccccccc WO >>>>>>>>>>>>>>>>>>>>>>>>>>>>>77zz HWWFFFFHkHHHWFFHbMFHHWWWh>>bb Ud M M M M M M M M M M M M M M M M M M M M W W W W W W M M ZZZzZZZZZZZZZZZZ22zZZZZzz22zzk>FH DODDDDDDDDDDDDOOODDDDDDDDDDDDMWMM UUUUUUUUUUUUUUUUUUUUUUUUUUUUUzzzz DDDD ~ M M M M M M LO M M W M M M M M M M M M m m M M M M M M M M U U u u .' -
<<<<<<<<<44444444444444444444 wwwwwwwwwwwwwwwwwwwwwwwwwwwww2ZZZ OmemmmmmmmmmmcOSS2mmmmmmmmmmmocen -mmw Z 04muG4muodmUO4muo42UD<mWO4mOOFFHH O MwwwwmmmmmmmmMMMMmmmmmmmDewwwWWWW w wwwwwCOOOOOOOOOOOOOOOOOOOwwwwJJJJ h IJJJJZZZZJJJJIIIIWWWWUUUUWWWW1kEl 1& W W htW Mw t>>>>>>H>>>>>>>Y>>>>>>&>>>>>HOOOO N 2 WWWWWWWWWWWWWWWWWWWWWWWWWWWWW U 000000000000000000000000000004mU0 M MMMM W .ODOOOOOOOOOCOOOOOOOOOOOOOOOOOwwww O , easeWWWeeWeWwaawwasaeaaewasearrrr XXXMMXXXXXXXXXXXXXXXXXMMMMMMM ~~~~~w-----~~~------~~-------onon kkkkkkkkkkkwhkkkkkkkkkkkkkkkkkkkk WWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWW r r r r r r r r r r rr r r r r r r r r r r r r r r r r r r r r r c o c c o m e c e o c e n o c em o c o c o n o c c o c o c c o e uuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuu ZZzzzzzzzzzZzzzzzzzzzzzzzzzZzzzzz ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
m o a
> c memesemOwNMemesemOwNMemesemO-NMem - sam OOOOOOOwwwww--wo. xNNNNNNNNNNMMMMmm <<r mememememememememmmmmmmmmmmmmmmme r > 000000000000000000000000000000000 O > m wvvvvvxxxvvvyxxxxxxxvxxxwwwxxvwww I
l B-155 TPSIS7 1
l-W - CONSTANTS (Cont'd) O m in en in in m in m in in in in in in in m . in s ins insinsin . in en in in
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m s .m . . s s . . .... NNNNNNNNNNNNNNNNNNNNNNNNNNNN m Y w o a mmmmmmmmmmmmmmmmmmmmmmmmmmmm<<WWW r W E J
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1 2 25 11 41 VRA/VGB D AP AP ENGR E INITIAL SYMBOL DESCRIPTION UNITS C VALUE REMARKS K1401 SeSeSe LINE BORON CARRYOVER FRAC 3 0 100 C 1 l DEGF 70 C 1 K1402 MAKEUP WATER TAWK T 1 PRESSURIZER VENT FLOW (TO DRAIN) GPM 01 C K1403 1 C K1404 PRESSURILEM FIXED SPRAY F GPM i 10 1 RC PUMPS SEAL WATER FL TO VCT GPM 40 C K1405 i K1406 LEAKAGE FLOW FROM SYSTEM GPM 2 10 C K1407 BORIC ACID FLOW METER CDR FACTOR 2 10 A 2 1e0 A K1408 MAKEUP WTR Flew METER CDR FACTOR PPM i 99999 0 f 1 K1409 LITH CONC IN CHEMICAL TANK GAL 00 C 1 K1410 LITH ADDED TO RCS 1 FRACTION IF BLENDER FLOW TO VCT NONE 1 03 C 1 8 K1411 8 5 5 K1412 FULL PWR THERM FLUX E12/CM2/ 6EC 1 37 7 1 TB REHTR STM IN P CLUSTER LIM PSIA 50 2 y m K1500 1 2 i K1501 TB MSIST SEP STM IN P CLUST LIM PS!A 1 20e $ C K1532 TB MOIST SEP DRAIN T CLUST LIM DEGF 1 40 2 I
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K1512 MAX BURIC ACID FLOW TO BLENDER GPM i 15 0 C 1 GPM 60 0 C 1 K1513 MAX MAKEUP WATER FLOW To BLEND i PC 2 12e C K1514 BORIC AC1D CONC IN B.A. TANK K1515 MAX allow HEO,0 dSRON CHANGE PPM 0 3e E __ K1520 IODINE MACH 0YIELDXCROSS SECTION CM-1 5 e00534 8 5 1 jy CM 1 5 .00017 B 5 1 CD K1521 XE MACROVIELD CROSS SECTION 5 e01640 8 5 1 C) 22 2: K1522 XE MICROSCOPIC CROSS E=16CM2 K1523 DECAY TIME CONSTANT FOR 10 DINE HRS-1 5 e10343 0 1 (( f, HRSei 5 .07533 3 1 ;f K1524 DECAY TIME CONSTANT FOR XENON 5 e0067 3 5 C) K1525 THERM Flux /PdWER (E16/CM2/HR)/MW 2? 20e 2 K1526 STM BEN FEED WTR IN T CLUST LIM DEGF 1 DEGF 35, 2 l K1600 Hx 1A616 FU WTH IN T CLUST LIM 1 NONE O E 1
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2 86 3,5 1 $ K1666 MACRu THER CROSECT SD UANK B 1/KM 86 m K1667 MACR 0 THER CROSECT CONT MANK A 2 F 3,5 1 y 1/KM 2 108 F 3,5 i K1668 MACRM THER CROSECT CONT BANK B 1/KM 2 F i 3 1 51 3,5 1 = K1669 MACR 0 THER CR6SF.CT CONT BANK C 1/KM 2 88 F 3,5 1 p K1673 MACRU THER CROSECT CONT DANK D 1/KM 2 60 F 3s3 1 3 K1672 MACR 0 THER CROSECT PL BANK 1/KH 2 88 F 3,5 E i K1673 Hx 34538 CONDENS IN T CLUST LIM DEGF 1 25 2 K1674 HX 4A&4B CONDENS IN T CLUST LIM DEGF 1 20 2 K1675 Hx 5A&5B CONDENS IN T CLUST LIM DEGF 1 20 2 K2000 fB CUSR CIRC WTR UUT CLUSTER LIM DEGF 1 20. A K2001 ObwNSTREAM FLO* HELEASE CONST 1 NONE 1 1 A , B 2 25 K2002 00WNSTREAM Flew RELEASL CONST 2 NONE 1 A eB 1 2 K2003 TB COSR 1A618 VACUUM CLUST LIM INHGA 1.0 O i 2 27 3D K2004 PRI SHLD PtN CL CBIL DUT T CL LM DEGF 1 10e 2 "5 K2005' GEN STR COIL DIS GAS T CLUST LIM DEGF
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*1 ele le 33 1 le 33 1 U0051 CSNT ROD BNK C STEP CSUNT STEP O2H P31. =1e 1 33 1 c UOO52 CONT N00 BNK D STEP COUNT STEP O2H P31. *1e 1 33 1 E U0053 SD RUD BNK A STEP COUNT STEP O2H P31. *1 1 33 1 U0054 SD RUD BNK B STEP CSUNT STEP 32H 231. *1 le 33 1 U0055 SPARE 3N N N N N N1 U0056 SPAHE ONN N N N N1 UOO57 PL RUD BNK-A STEP COUNT STEP 32H P 31. 1. le 33 1 UDO58 INCORE T JUNCTION BSX A AVG T DEGF 1N N N N N N1 U0059 INCORE T JUNCr10N B3X B AVG T DEGF 1NN N N N N1 OO UOO66 STM LNE 2 HI DP SI DS SP CHAN 1 PSIG 1 N N N N N N1 EfEY UOO68 STM LNE 2 HI DP SI BS SP CHAN 2 PSIG STM LNE 2 HI DP St BS SP CHAN 3 PSIG 1 N N N N N N1 [ [.
UOO73 1NN N N N N1 .? 00071 SfM LNE 3 HI DP St BS SP CHAN 1 PSIG 1NN N N N N1 E UOO76 STM LNE 3 HI OP SI BS SP CHAN 2 PSIG 1NN N N N N1 U0077 STM LNE 3 HI DP SI BS SP CHAN 3 PSIG 1 NN N N N N1 .h U0081 SPARE i NN N N N N1
; UOO90 INST VALUE OF HPTTEST INCSWE T/C DEGF 1 N N N N N N1 a
25 1126 3 o 5 A 7 g i 2 ;- VRA/VGB T 3C
$ DSY HIGH LOW 3A $ AP AP ENGRG EFP ALARM ALARM N 7 SYMBOL DESCRIPTION UNITS C i E LIMIT LIMIT INCREM 33 ,
INST VALUE OF AVERAGE INCORE T/C DEGF 1N N N N N N1 -- UC091 N1
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UOO92 IDENT OF HUTTEST INCORE T/C NONE ONN N N N SORIC ACID 1 DAY FLOW GAL 1NN N N N N1 U0100 N N N1 UO101 PRIMARY MAKEUP WTR 1 DAY Flew GAL 1NN N 60RIC ACID 1 HOUR FLOW GAL 1N N N N N N1 U0104 N1 UO105 PRIMARY MAKEUP WTR 1 HR FLOW GAL 1NN N N N T6 FIRST STG P 1/2 AVG PSIG 1NN N N N N1 UO300 UNIT GEN GHOSS ACC 1H MWH MWH 1NN N N N N1 UO303 N N1 UO304 UNIT NET CALC 1 DAY MWH MWH 1NN N N Q UNIT GEN GROSS 1 DAY ACC MWH MWH 1NN N N N N1 Q UO305 N N N1 C UO306 UNIT NET CALC 1 HR MWH MWH 1NN N MWH 1NN N N N N1 > UO307 UNIT AUX 1H MWH N N N1 N UO308 UNIT NET GEN. 10 MIN CALC MwH MWH 1NN N UNIT #UX OAILY MWH MWH 1NN N N N N1 $ f U3309 N N N1
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U0313 BORIC ACID 1 MIN. FLOW RATE GPM 1 NN N K C E PRI . NAKE*JP WTR 1 MIN. FLOW RATE GPM 1NN N N N N1 U0312 N N N1 5 UNIT GEN. URSSS SUM IMjN MwH MWH 1 NN N UO314 N N N1 U0315 UNIT GROSS GEN. 10 MIN ACC MwH MWH 1 NN N [ MwH 1 NN N N N N1 3 UO316 UNIT aux USAGE 10 MIN ACC MwH N N N 1 5 U3317 STA SERV LUAD ACC 1HR MWH MWH 1 NN N STA SERV LOAD ACC 1 DAY MWH MWH 1NN N N N N1 UO319 MWH t NN N N N V1 U3327 HES STA L3AD ACC 1HR MWH HES STA LOAD ACC 1 DAY NWH MWH 1 NN N N 'l N1 U3329 N N N1 HCLA UNCURH FLOW 1/2/3 AVG PC i N N N 00400 N N N1 UO401 SG A LO FwF STM OUT1 CDR F B! SP KBH 1 NN N RCLA TAVG 1/2 AVG DEGF 1 NN N N N N1 00402 N N1 UO403 HCLA CONVERTED AVG DT DEGF NN N N WCLA COLD FROM TAVG & DT T DEGF i NN N N N N1 UO404 RCLA HOT FROM TAVG & DT T .DEGF 1 NN N N N N1 UO405 U0606 RCLA OVENT 39 DEV FROM COMPUTED PC 1 6H 5. ~5 1 34 1 UO407 UT.0P COMPUTED DELTA.T PC 1 NN N N N N1 U0408 4CLA UVE9PWR SP DEV FR COMPUTED PC 1 6h 5. -5 1 34 1 U3409 ST-SP COMPUTED TAVG DEGF 1 NN N N N N1
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l . N (v~) L (V 25 1126 3 4 5 6 7 1 2 VRA/VGB T 3: DSY HIGH Lew 34 AP ENGRG EFP ALARM ALARM N 7 AP 33 SYMBOL DESCRIPTION UNITS C 1E LIMIT LIMIT INCREM KBH 1 NN N N N N1 U0410 STM uEN A UNCSRR FW F 1/2 AVG % N N ! 1 N N N U0411 SG A Fd IN CURR AVG CALC 1 MIN F KBH N N N1 U0412 STM BEN A UNCORR ST F 1/2 Avu KBH 1NN N SG A STM CURR AVG CALC 1 MIN F KBH 1 NN N N N N1 U3413 N N N1 U3414 STM UEN A STM P 1/2/3 AVG PSIG 1N N N STM BEN A NAR RNG LEV 1/P/3 AVG PC 1 NN N N N N1 U3415 N N N 1 UO416 COMPUTED OT OT MARGIN TO (RIP PC 1NN N COMPUTED OTPUT MARGIN TO TRIP PC 1NN N N N N1 UO417 LDTTLL 2. 3? I 9 UO418 RCLA DT TILT PC 12H LDTTUL 1NN N N N N1 g U3419 SG A LS FwF STM SVT2 CDR F BI SP KSH N N N1 C UO423 RCLB UNCORH FLOW 1/2/3 AVG PC 1NN N KBH 1 NN N N N N1 3 UD421 SG B LS FwF STM OUT1 CUR F B1 UO422 4CLB TAvu 1/2 AVG DEGF 1 NN N N N N1 g m 1 NN N N N N1 < 1, UO423 HCLB CONVENTED AVG DT DEGF 4CLB COLU FROM TAVG + DT T DEGF 1N N N N N N1 y g UO424 DEGF 1NN N N N N1 g UO425 dCLB HUT FMUM TAVG + DT T = U0426 acLB EVERT SP DEV FRBM CBMPUTED PC 1 6H s. -5 1 34 1 PC 1 6H 5 -5 1 34 1 p U3428 RCLB UVERPwR SP DEV FP COMPUTED PC 1 NN N N N N1 Q UO429 RCLA DT 1/2 AVG N N V1 E UO433 STM GEN d UNCSRR FW F 1/2 AVG KBH 1NN N 1NN N N N N1 UO431 SG B F W IN CURR AVG CALC 1 MIN F KBH N N UO432 STM uEN d UNCORR ST F 1/2 Avb KBH 1NN N . 1 SG B STM CURR AVG CA,LC 1 MIN F KSH 1N N N N N N1 j{ U3433 N N N1 m UO434 STM oEN d STM P 1/2/3 AVG PSIG 1NN N N N N N1 C3 5 STM GEN d NAR RNG LEV 1/2/3 AVG PC 1N N UO435 U0438 RCLB DT IILT PC 1 2H LDT Ttil LDTTLL ?. 32 1 SI [)~ v2 SG B LD FWF STM SUT2 CDR F di SP KBH 1 NN N N N V1 U3439 N N N N1 [ U3440 HCLC UNC3RR FL0k 1/2/3 AVG PC 1 NN 1 NN N N N N1 - UO441 SG C Le FWF STM SUT1 C04 F B1 SP KBH N N N1 UO442 HCLC TAV3 1/2 AVG DEGr INN N RCLC CONVENTED AVG DT DEGF 1N N N N N N1 U0443 N N N1 Y UO444 NCLC COL) FROM TAVG + DT T DEGF 1NN N N N { a UO445 HCLC HST FHOM TAVG + DT T DEGF 1 NN N N l'
2 25 1126 3 4 5 6 7 gg 1 Q VRA/VGB T 3 ~- g 9 4 vi 0SY HIGH LSw AP ENGRG EFP ALARM ALARM N4 AP DESCRIPT!8N UNITS C 1E LIMIT LIMIT INCREM 33 SYMBBL RCLC OVERT DT SP D6V FROM CBMP PC 16H 5. =5 1 34 1 00446 5 34 1 UO448 RCLC OVERPWR SP DEV FR COMPUTED PC 16H S. 1 PC 1YN N N N N1 UO449 RCLB DT 1/2 AVG N N N1 UO450 STM UEN C UNCORR FW F 1/2 A'/G KBH 1NN N SG C FW IN CORR AVG CALC 1 MIN F KBH 1NN N N N N1 U0451 N N N1 UO452 STM UEN C UNCORR ST F 1/2 AVG KBH 1 NN N 1NN N N N N1 UO453 SG C STM CURR AVG CALC 1 MIN F - KBH N N N1 UO454 STM UEN C STM P 1/2/3 AVG PSIG 1NN N o PC 1NN N N N N1 UO455 STM UEN C NAR RNO LEV 1/2/3 AVG $ PC 12H LDTTUL LDTTLL ?. 3? 1 UO458 RCLC CT f!LT N N N N1 O UO459 SG C LU FWF STM OUT2 CDR F B! SP KBH i NN SPARE 1 NN N N N N1 9 UO462 N N N 1 M UO469 RCLC D1 1/2 AVG PC 1NN N O PC 1NN N N N N1 7 UO480 RCL UVERPWR DT SP 1/2/3 AVG N N N1 h E UO481 RCL UVERTEMP DT SP 1/2/3 AVG PC 1NN N
- PSIG 1NN N N N N 1 E UO482 PRESSURIZER PRES 1/2/3/4/5 AVG N N N1 O UO483 PRESSURIZER LEVEL 1/2/3 AVG PC 1NN N DEGF 1 NN N N N N1 8 U0484 RCL AVG TAVG N1 PC 1NN N N N 3 UO485 RCL AVG Di N N N1 $
UO486 RCL MUT AVu T DEGF 1 NN N _TREr SETPe!NT DEV FR COMPUTED DEGe 13H 5. -5 1 34 1 UO487 -10 2 34 : UO488 PRESS LEV SP DEV FR CBMPUTED PC 13H 10 DEGF 1NN N N N N1 UO489 RCL AVG COLD LEG T BASED BN RTD N N N1 U0492 COMPUTED DVERTEMP SETPOINT PC 1NN N PC 1 NN N N N N1 UO493 CeMPUTED DVERPhR SETPSINT SPARE 1 NN N N N N1 UO494 N N N1 U3495 SPARE 1 NN N SPARE 1NN N N N N1 UO496 N N1 UO497 PRESUZER LU Pi LEAD / LAG BIST VAR PSIG 1NN N N 1NN N N N1 UO498 PRESUZER LS P2 LEAD / LAG BIST VAR PS]G N N1 UO499 PRESUZER LU P3 LEAD / LAG BIST VAR PSIG 1NN N N SPARE 1 NN N N N N1 U0500 N N N.! KBH 1 N N N UO504 STM LINE HI F 1 SI BISTABLE SP
# 9- e -
O O O 1 2 25 1126 3 4 5 6 7 VRA/VGB T 3C 0SY HfGH Low B 4 AP AP ENGRG EFP ALARM ALARM NR SYMBOL DESCRIPTION UNITS C IE LIMIT LIMIT INCREM 30 U0505 STM LINE HI F 2 SI BISTABLE SP KBH 1 NN N N N N1 , 00509 RCL HOT FR SK LOOP THOT AVS T DEGF 1 NN N N N N1 UO510 RCL HOT FR OK LOOP AVTV+DT AVG T DEGF 1 NN N N N N1 UO511 RCLA FROM HOT + COLD T TAVG DEGF 1NN N N N N1 00512 STM UEN A 'dLOWDOWN CALC F GPM 1 NH 100. 1 2 34 1
-UO520 RCLLAVG OT FROM OK L60P CONV DT DEGF 1 NN N N N N1 UO521 RCL Av FR UK LOOP AVTH0+CLD DT DEGF 1NN N N N N1 UO522 RCL ROD 9AX FR SK LOOP DT PC 1 NN N N N N i UO523 RCL ROD max DT DEV FR MEAS PC 1 2H 1. 3, 2 32 1 9 UO524 RCL AVG FR OK LeeP MAX TAV TAVG DEGF 1 NN N N N N1 {
U3525 RCL AVG FR SK LP AVTH0+CLD TAVG DEGF 1 NN N N N N1 % UO526 RCL CONT MAX FR SK LP TAVG DEGF 1 NN N N N N1 3 m U0527 RCL CONT MAX TAvG DEV FR MEAS DEGF 1 2H 3. .3. 2 32 1 g i UO531 RCLB FROM HOT + COLD T TAVG DEGF 1 NN N N N N1 < E UO532 STM UEN d dLUND9WN CALC F GPM 1 NN N N N N1 > 00540 .SG FEEDWATER AVGe T DEGF 1 N N N N N N1 UO541 SG FEEDWATER AVG. P nSIG 1 NN N N N N1 " UO542 RCL CLD FR UK LMSP TCLD AVG T DEGF 1 NN N N N N1 ? UO543 RCL CLD FR UK L60: SVTV+DT AVG T DEGF 1 NN N N N N1 A UO544 RCLA FROM Het + COLL T DT DEGF 1 NN N N N N1 E UO545 RCLB FROM HOT + COLD T DT DEGF 1 NN N N N N1 UO546 RCLC FROM HDT + COLD'T DT DEGF 1 N N N N N N1 UO551 RCLC FROM HOT + COLD T TAVG DEGF 1 NN N N N N1 - U0552 UO570 STM UEN C dLOWD0wN CALC F TB FRST STU P_ REFEREE GPM PS!G 1NN N N N N1 f 1 NN N N N N1 O $3 UO577 STM UEN STM CUT AVG P PSIG 1NN N N N N1 MijY 00578 STM UEN rw.STM F REFEREE KBH 1 N N N N N N1 ~c 2. . UO900 INCORE FD H13A iM AVG UCORH FLUX VOLT 3NN N N N N1 27 UO901 UO902 INCORE F0~H13d 1M AVG UCORR FLUX VOLT INCORE F) H13C IM AVG UCORR FLUi VOLT 3NN 3N N N N N N N N N1 N1 f) a UO903 INCORE FJ M130 19 AVG UCORR VLUX VOLT 3N N N N N N1 3 UO904 INCORE F9 L11A 19 AVG UCURR FLUX VOLT 3N N N N N N1 g UO905 INCORE FJ L116 iM AVG UCOWR 6 LUX VOLT 3NN N N. N N1 (
25 1126 3 o 5 6 7 H 1 2 '4 T 3: h VRA/VGB DSY HIGH Low BA $ AP AP ENGRG EFP ALARM ALARM N R UNITS CIE LIMIT LIMIT INCREM 3 3 SYMBOL DESCRIPT10N 3NN N N N N1 UO906 INC6HE FO L11C 1M AVG UCORR FLUX VOLT N N N1 UO907 INC6HE FO L11D 1M AVG UCORR FLUX VOLT 3NN N 3NN N N N N1 UO908 INC6HE F0 N08A iM AVG UCORR FLUX VOLT N N N1 UO909 INCORE FO N08B iM AVG UCORR FLUX VOLT 3NN N 3NN N N N N1 UO910 INCORE FO NOSC iM AVG UCORR FLUX VOLT N N N1 UO911 INC6HE FO N080 1M AVG UCORR FLUX VOLT 3NN N 3N N N N N N1 UO912 INCORE FO LOSA iM AVG UCORR FLUX VOLT N N N 1 UO913 INCORE FO LO5B 1M AVG UCORR FLUX VOLT 3NN N 3NN N N N N1 Q U0914 INC6HE FD LOSC 1M AVG UCDRR FLUX VOLT N N N1 INC6HE FO LO50 1M AVG UCORR FLUX VOLT 3 N N h~ U0915 N N N1 C UO916 INC6HE F0 H03A iM AVG UCORR FLUX VOLT 3NN N 3NN N N N N1 U0917 INC6HE FU H038 1M AVG UCORR FLUX VOLT N N N1 N UO918 INC0HE FO H03C 1M AVG UCORR FLUX VOLT 3NN N m 3NN N N N N1 i U0919 INC0HE F0 H03D i M AVG UCORR FLUX VOLT N N N I > E UO920 INC8HE FO E05A iM AVG UCORR FLUX VOLT 3NN N E " 3NN N N N N1 UO921 INC8HE FD E05B 1M AVG UCORR FLUX VOLT I 3NN N N N N1 UO922 INCORE FO E05C iM AVG UCURR FLUX VOLT N1 UO923 !NCORE FD E05D iM AVG UCORR' FLUX VOLT 1NN N N N h 3NN N N N N1 Q UO924 INCONE F0 CO8A iM AVG UCORR FLUX VOLT N N N1 E UO925 INCHRE F0 CO8B iM AVG UCURR FLUX VOLT 3NN N 3NN N N N N1 UO926 INCORE F0 C0sC 1M AVG UCURR FLUX VOLT N N N t Uo927 INC0HE F 0 C08D 19 AVG UCURR 7 LUX VOLT 3NN N 3NN N N' N N1 UO928 1NCONE FO EllA iM AVG UCORR FLUX VOLT N N N N 1 U3929 INC6HE FO E118 19 AVG UCORR FLUX VOLT 1 NN 3NN N N N N1 UO930 INC6HE F0 E11C iM AVG UCURR FLUX V3LT N N N1 1 NN N U0931 INCORE FO E110 1M AVG UCORR FLUX V8LT N N 9 1 UO932 INC6HE F0 H13A i M AVG CORR FLUX VOLT 1 NN N 3NN N N N N1 00933 INC6HE F0 H138 1M AVG CORR FLUX VOLT N N UO934 INC9HE F0 H13C iM AVG CeRR FLUX VOLT 3N N N 1 3N N N N N N1 UO935 INLOHE F0 H13D iM AVG CcRR FLUX VOLT N N1 UO936 INC6HE F0 L11A iM AVG CORR FLUX V8LT 3NN N N 3NN N N N N1 UO937 INCONE FO L118 1M AVG CORR FLUX VOLT INC6HE FO L11C 1M AVG CORR FLUX VOLT 3NN N N N N1 UO938
# 9 e
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) 5 6 7 1 2 25 1126 3 4 T 3: VRA/VGB 3A DSY HfGR Low AP ENGRG EFP ALARM ALARM N 9 AP LIMIT IN;aEM 33 SYMBOL DESCRIPTION UNITS C IE LIMIT VOLT 3NN N N N N1 UO939 INCORE FD L110 19 AVG CORR FLUX N N N1 UO940 INCORE FD NOSA iM AVG CORR FLUX VOLT 3NN N VOLT 3NN N N N N1 UD941 INCORE F3 N088 iM AVG CORR FLUX N N N N1 UO942 INCORE FD N08C iM AVG CORR FLUX VOLT 1 NN VOLT 3NN N N N V1 UO943 INC6HE FD N080 1 M AVG CORR FLUX N N N1 U0944 INCORE FD LOSA iM AVG CORR FLUX VOLT 3NN N VOLT 3NN N N N N1 UO945 INCORE FD LOSB iM AVG CORR FLUX N N N1 UO946 It; CORE FO LO5C iM AVG CORR FLUX VOLT 3NN N VOLT 3NN N N N N 1 g UO947 INCORE F0 LOSD iM AVG CORR FLUX N N N1 g U0948 INCORE FD M03A iM AVG CORR FLUX VOLT 3NN N c VOLT 3N N N N N N1 UO949 INCOME FD H03B iM AVG CORR FLUX N N N N1 E' UO950 INCORE FD H03C i M AVG CORR FLUX VOLT 1 NN VOLT 3NN N N N N1 m UO951 INC6HE FD H030 1M AVG CORR FLUX N N1 7 U0952 INCOME FO LOSA iM AVG CORR F LUX VOLT 3NN N N $ N N N1 > 5 U0953 TNCORE F0 LO5B iM AVG CORR FLUX VOLT 3NN N E VOLT 3NN N N N V1 U0954 INCb4E FD LOSC iM AVG CORR FLUX N N N1 E INCORE FD LO50 1M AV3 CORR FLUX VOLT 3NN N UO955 INCOME FD LO8A iM AVG CORR FLUX VOLT 3NN N N N N1 y UD956 N N N1 3 INCORE FD C088 iM AVG CORR FLUX VOLT 3NN N U0957 VOLT 3NN N N N N1 $ UD958 INCORE F0 CD8C 1M AVG CORR FLUX N N N j UO959 INCOHL F9 C080 1 M AVG CORR FLUX VOLT 3NN N 3NN N N N N 1 UO960 INC6HE FO EllA iM AVG CORR-FLUX VOLT VOLT 3N N N N N N1 UO961 INC8HE F) L116 iM AVG CORR FLUX N N N1 UO962 INCORE FO L11C iM AVG CORR FLUX VOLT 3NN N VOLT 3N N N N N N1 $E U0963 INCOME FU L11D 1M AVG CORR FLUX .32 31 1 INC8HE FD RADIAL FLUX TILT U1. N9NE 26M 1 05 0 95 UO964 INCOME FD RADIAL FLUX TILT U2 NONE 26H 1 05 0 95 .32 31 1 C) :[V? 1 UO965 0 95 .32 31 1 5 UO966 INCORE FO HADIAL FLUX TILT G3 NONC 26H 1 05 T UO967 INCORE FD RAOIAL FLUX TILT G4 NONE 26H 1 35 0 95 32 31 1 UO968 INC0HE FO HADIAL FLUX TILT US NONE 26H 1 05 0 95 .32 11 1 C3 25 NONE 26 H 1 05 0 95 .32 31 1 UO969 .INCORE F9 RADIAL FLUX TILT U6 0 95 32 31 1 d U0970 INC8HE FD HADIAL FLUX TILT G7 NONE 26M 1 05 NONE 26H 1 05 0 95 32 31 1 y UO971 INCORE FD RADIAL FLUX TILT UH
25 1126 3 e 5 6 7 o 2
-1 1 3C 4 u! VRA/VGB T C DSY HIGH L0m 3* " AP ENGRG EFF ALARM ALARM N 7 AP SYMBOL DESCRIPTION UNITS CIE LIMIT LIMIT INCREM 33 3 UO972 INCORE FD H13 AXIAL OFFSET PC 16H 20. -20 5 34 1 ' .
PC 1 6H 20. *20 5 34 1 UO973 INCORE F0 L11 AXIAL OFFSET . UO974 INCORE F0 N08 AXIAL OFFSET PC 16H 20 -20 5 34 1 PC 16H 20. *20 5 34 1 UO975 INCORE FO LOS AXIAL OFFSET U0976 INC6HE F0 H03 AXIAL OFFSET PC 1 6H 20. -20 5 34 1 UO977 INC6HE FO E05 AXIAL OFFSET PC 16H 20 -20 5 34 1 INC8HE F0 C08 AXIAL OFFSET PC 16H 20 *20 5 34 1 UO978 34 1 PC 16H 20. *20 5 UO979 INC6HE FO L11 AXIAL OFFSET UO980 INC6HE F0 AXIAL TILT PC 1 6H 20. -20 5 34 1 9 INCOME F0 H13 MEAN POWER FRAC 36H 11 =0 1 5 34 1 g UO981 C 36H 11 -0 1 5 34 1 UO982 INCORE F0 L11 MEAN POWER FRAC UO983 INCOME FD NOB MEAN POWER FRAC 36H 11 -0 1 5 34 1 k U0984 INCSHE F0 LOS MEAN POWER FRAC 36e 11 -0 1 5: 34 1 g w 36H 11 -0 1 da 34 1 < i UO985 INCORE FO H03 MEAN POWER FNAC 34 1 36H 11 -0 1 5 % g U0986 INC6HE F0 E05 MEAN POWER FRAC INC8HE F0 C08 MEAN POWER FRAC 36H 11 -0 1 5 34 1 C U3987 34 1 UO988 INC6HE F0 E11 MEAN POWER FRAC 36H 11 -0 1 5 2 INCORE F0 CSRE MEAN POWER FRAC 36H 11 *0 1 5 34 1 g UO989 U1000 CONTAINMENT P 1/2/3 AVG PSIA 1 NN N N N N1 S ( MW 1 NN N N N N1 U1100 NEACTOR OYNAMIC THERMAL A C1M Q N N1 MW 1 NN N N U1101 REACTOR CYNAMIC THERMAL B C1M Q N N N 1 MW 1N N N U1102 HEACTOR OYNAMIC THERMAL C SM Q N N1 U1103 CONTAINMENT AIR RMP AVG TL DEGF PNN N N MW 1 NN N N N N1 U1104 REAC DYNAMIC TOT THERMAL C1h J N N N 1 Mw i NN N U1105 STM uEN A TOTAL THERMAL C1M u N 9 1 MW 1 N N N N ! U1106 STM GEN 6 TOTAL THERMAL C1M u MW 1N N % N N N1 i U1107 STM UEN C TUTAL THERMAL C1M U SPARE 1 NN N N N N1 l U1108 N N N1 l U1109 STM uEN TOTAL THERMAL C1M Q MW i NN N SOA TOTAL THERMAL C1H u TILT PC 1 6H SGQTUL SGQTLL 2 32 1 U1110 3? 1 U1111 sud TOTAL THERMAL C1M Q TILT PC 1 6H SGOTUL. SGOTLL ?. SGC TOTAL THERMAL C1M G TILT PC 1 6H S30TUL SGQTLL 2 3? 1 U1112 N N N1 U1113 SPARE 1 NN N e - o e
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- A43 1 I 1 1 1 1 1 11 1 1 1 111 1 1 1 1 11 1 11 111 1 1 1 1 1 1 7 3BN3 4NNNNNNNNNNN 222222222?224 44 4 4 1 NN 4 333333333333333333 3 M NNNNNNNNNNNN 222222222222 . . . . . 5NN1 E 33333333333311 1 1 1 . .
6 R . . . . . . . . . . J . C N I MT NNNNNNNNNNNN 555533005555 . . . . . .NN6 R! 999999999999530002 e nAh . . . . . . . . . . . 23333
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5 LAL MT NNNNNNNNNNNN 555500o05555 . . . . . , e NN7 HRI GAM I LI 00001 1 t 1
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1 1 1 1 1 1 1 1 1 1 1 1 0000.23333 50000P 1 4 HAL 3 TYPE NNNNNNNNNNNNHHHHHHHHHHHHHhHMHhNNH 6 2 SFI NNNNNNNNNNNN 666666666666666666NN6 1 OEC 11111122222122222222222222222211 4 1 GS RRR O 5 2 RT GI NN EU NHHTT UUULL WWWwCCTTT8OCSSOOOOOOOOOOCCCCCCCE MMMMPPBBBVVPNNNNNNNNNNNNPPPPPPPD EEEEEEEEEEEE NNNNNNNNNNNN F G HHH B Q UUU M TTT Q567S 1234A MQ BBB GQGU QQ0GH 1 8 M C CG 0 Q MMM 1TTTT TTTT V A iiiQQTLLLL LLLLN HA M IIII II II O C EE 1 LLLGGGTTTT TTTTI TPUL QQQC AAAVVV AMLU N FCCCAAALLLL LLLLG MRAM 8 MHML F AAAA AAAAN S VI
! 111A EHHHRRLIIII IIIIL IL H T CCCM CCCOOEDDDD1234DDDD 1234MEGT PP RFRTTTTTNAAAAQ000AAAARQQ0G NV AI R
A6CEFHAAACCNRRRR RRRRF LNAR HE MMMEEA TTTT TTTTAA W 2 C LLLT 1SSSTTHDDDDLLLLDDDDTEEEEMHEP S AAA M IIIEECEEEEIIIIEEEELSSSSRCM E D MMML1CMMMDD SSSSTTTTSSSSI FFFFE I Y RRRACL LAAAA AAAATFFFFHLTS EEET A wWWieCB66BXXXXBdBB UOUOTC S eeU UUUU X UCA H H H O S C F F. F. d T N C C C C L L L L C C C C U C C C C - N/ TTTTS
- BTMMM TTTTFFFFTTTTLII I I TL RRRRRETTTGGG FRRRRRG E OOOOGNSSSNNNFEEELLLLEEEE TTTT TTTTA NEU HWRNRRHAAAAHHHHLEEEEEHRF CCCCTTABC OOOOIIII8868AMMMML S AAAAII RRRCCCCDDDDCCCCI MMMMCRCL EEEENNGGGW WWNNNNAAAANNNNXYYYYUW NE B
RRRRUUSSSPPPII!I RRRRII II ASSSSNPI R G L V O 456890123g93123456789312345678901 1 / PB 111112222335555555555666666666677 A AM 11111111* 111111111111111111111111 O R V Y S 11111111? 111111111111111111111111 UUUUUUUUUUUUULUUUUUUUUUUUUUUUUUUU ! 7G- d
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1 VRA/VUT 0SY T HIGH LOW 3C BA
$ AP ENGRG EFP ALARM ALARM N 4 AP 33 DESCRIPTION UNITS C !E LIM!i LIMIT INCREM [
SYMBBL ! 4 6H 17 .6 1 34 1 U1172 REL FUEL ASSY PhR TH!MBLE BOS 46H 1.7 .6 .1 34 1 U1173 REL FUEL ASSY PWR. THIMBLE 610 6 1 34 1 4 6H 17 U1174 REL FUEL ASSY PWR THIMBLE E04 4 6H 17 .6 1 34 1 U1175 REL FUEL ASSY PWR THINBLE E07 4 6H 17 .6 1 34'1 U1176 REL FUEL ASSY PWR THIMBLE E12 17 6 .1 34 1 U1177 REL FUEL ASSY PWR THIMBLE E14 4 6H 4 6H 17 6 1 34 1 U1178 REL FUEL ASSY PWR THIMBLE F03 .6 1 34 1 U1179 REL FUEL ASSY PWR THIMBLE F05 4 6H 17 46H 17 .6 1 34 1 g U1180 REL FUEL ASSY PWR THIMBLE F09 17 .6 el 34 1 g U1181 REL FUEL ASSY PWR THIMBLE F11 46H c 46H 17 .6 1 34 1 U1182 REL FUEL ASSY PWR THIMBLE G01 46H 17 .6 el 34 1 5 U1183 REL FUEL ASSY PWR TH!MBLE G06 4 6H 17 .6 1 34 1 M U1184 REL FUEL ASSY PWR THIMBLE N08 17 e6 1 34 1 U1185 REL FUEL ASSY PWR THIMBLE H15 4 6H ] 7 4 6H 17 .6 1 34 1 g G U1186 REL FUEL ASSY PWR THIMBLE J02 17 .6 1 74 1 c
" U1187 REL FUEL ASSY PWR THIMBLE J10 4 6H E 4 6H 17 .6 1 34 1 U1188 REL FUEL ASSY PWR TH!MBLE J12 4 6H 17 .6 el 34 1 y U1189 REL FUEL ASSY PWR THIMBLE K03 4 6H 17 .6 1 34 1 3 U1190 REL FUEL ASSY PWR THIMBLE K05 4 6H 17 6 1 34 1 $
U1191 REL FUEL ASSY PWR THIMBLE K08 4 6H 17 .6 1 34 1 U1192 REL FUEL ASSY PWR THIMBLE K11 4 6 H 17 6 1 14 1 U1193 REL FUEL ASSY PWR THIMBLE MOS 4 6H 17 .6 1 74 1 U1194 REL FUEL ASSY PWR TH!MBLE N06 4 6H 97 6 el 14 1 U1195 REL FUEL ASSY PwR THIMBLE P08 4 6H 17 6 1 34 1 U1196 REL FUEL ASSY PWR THIMBLE R07 46H 17 6 1 34 1 U1197 HEL FUEL ASSY PWR THIMBLE C08 17 6 1 34 1 4 68 U1198 REL FUEL ASSY PWR THIMBLE C12 4 6H 17 6 1 34 1 U1199 REL FUEL ASSY PWR THIMBLE 003 4 6H 17 .6 .1 34 1 U1200 REL FUEL ASSY PWR THIMBLE D05- 17 6 el 34 1 U1201 NEL FUEL ASSY PWR THIMBLE E08 4 6H 4 6 H 1.7 .6 .1 34 1 U1202 REL FUEL ASSY PWR THIMBLE E10 1 34 1 U1203 REL FUEL ASSY PWR THIMBLE F13 4 6H 17 .6 4 6H 17 .6 .1 34 1 U1204 REL FUEL ASSY PWR THIMBLE G02 l # - O e
O O O 1126 3 4 5 6 7 1 2 25 T 3 VRA/VGB B a DSY NfGH Lew N 4 AP AP ENGRG EFP ALARM ALARM UNITS C IL LIMIT LIMIT INCREM 33 SYMBOL DESCRIPTION 4 6H 17 6 .1 34 1 U1205 REL FUEL ASSY PWR THIMBLE G08 .6 .1 34 1 l U1206 REL FUEL ASSY PWR THIMBLE G15 4 6H t.7 4 6H 17 6 1 34 1 U1207 REL FUEL ASSY PWR THIMBLE H03 6 1 34 1 U1208 REL FUEL ASSY PWR THIMBLE HOS 4 6H 17 4 6H 17 6 .1 34 1 U1209 REL FUEL ASSY PWR THIMBLE N09 6 .1 34 ! U1210 REL rUEL ASSY PWR THIMBLE H11 4 6H 17 4 6H 17 .6 +1 34 1 U1211 REL FUEL ASSY PWR THIMBLE H13 6 1 34 1 REL FUEL ASSY PWR THIMBLE LO6 4 6H 17 U1212 .6 .1 34 1 g U1213 REL FUEL ASSY PWR THIMBLE LO8 4 6h 1.7 4 6H 17 6 .1 34 1 r U1214 REL FUEL ASSY PWR THIMBLE L12 1.7 6 1 34 1 O U1215 REL FUEL ASSY PWR THIMBLE L14 4 6H 4 6H 17 .6 .1 34 1 E U1216 REL FUEL ASSY PWR THIMBLE M03 .6 .1 34 1 M REL FUEL ASSY PWR THIMBLE M11 4 6H 1.7 U1217 4 6b 17 6 el 34 1 0 7 U1218 REL 6UEL ASSY PWR THIMBLE NC* 6 .1 34 1 y 4 6H 1.7 G U1219 REL FUEL ASSY PWR THIMBLE NOB 17 6 .1 34 1 E w U1223 REL FUEL ASSY PWR THIMBLE N10 4 6H 4 6H t.1 6 1 34 1 O U1221 RLL FUEL ASSY PWR THIMBLE P07 el 34 1 g U1250 HIGHEST REL FUEL ASSY PWR NONE 26H 1.7 .6 N NN N N N N1 3 U1251 HIGHEST REL FUEL ASSY PWR IDENT N N N1 5 U1252 SPARE 2NN N 3 NN N N N N1 U1254 REACTIVITY ABSSRdED IN SH N N N1 U1256 PEAK PWR FROM BOTT9M STEPS 1NN N NONE 2N N N N N N1 U1257 PEAK TO Avb par RATIO N N N1 ~ U1258 REFEREE FMR RCL TAVG DEGF 1NN N DEGF 1NN N N N N1 hf U1259 REFEREE FOR RCL OT N N N N1 () O 1N N i U1263 SPARE HADIAL FLUX TILT UPPER G1 NONE 26H 1 10 0 93 32 32 1 jE ff U1261 .32 3? 1 U1262 RADIAL FLUX TILT UPPER 02 NONE 26H 1 10 0 90 -c 1 j RADIAL FLUX TILT UPPER G3 NONE 26H 1 10 0 90 .32 3? 1 ?- U1263 0 93 .32 32 1 jf U1264 RADIAL FLUX TILT UPPER Q4 NONE 26H 1.ta NONE 26b 1 10 0 93 32 32 1 U1265 RADIAL FLUX TILT LOWER Q1 0 93 32 32 1 d U1266 RADIAL FLUX TILT LewER Q2 NONE 26H 1 13 NONE 26H 1 10 0 90 .32 3? 1 22 U1267 RADIAL FLUX TILT LewER G3
- - _ 7
5 6 7 2 25 1126 3 4 30 < 1 T LOW BA ; VRA/VGB D'S Y HIGH N 7 l C; EFP ALARM ALARM AP ENGRG 33
- AP UNITS CIE LIMIT LIMIT INCREM .
SYMBOL DESCRIPTION 0 93 .32 32 1 NONE 26H 1 10 N N N1 RADIAL FLUX TILT LOWER Q4 U1268 BORON CONC IN COOLANT = CALC PPM 1NN N N N N1 U1300 PPM 2NN N N N N1 U1301 BORON CONC IN PRESSURIZER PPM 2NN N BORON CONC IN VOL CONT TANK N N N1 U1302 PPM 2NN N N N N1 01303 BORON CONC-I-N BLENDER PPM 2NN N BORON CONC IN CMG PUMP SUC N N N N1 U1304 NONE 4 NN N N1 CORE EIGENVALUE N U1305 PPM 2NN N N N N1 U1306 LITHIUM CONC IN COOLANT PPM 2NN N LITHIUM CONC IN PRESSURIZER N N N1 U1307 PPM 2NN N N N N1 @ U1308 LITHIUM CONC IN VOL CSNT TANK PPM 4 NN N g LITHIUM CONC IN CHG PMP N N N1 01309 PH FACTOR OF COOLANT NONE 2NN N N N N1 g U1310 HOT PH FACTOR NONE 2NN N N N N1 o U1311 PC 3NN N N N N1 % U1312 SPARE 1 NN N 7 U1313 BORON CONC IN COSLANT-MEAS PPM 4 NN N N N N1 { 3 FLX WTO XE CONC E16 ATOM /CM3 N N N1 Q
- U1500 4NN N N N N1 3 U1501 FLX WTO I CONC E16 ATOM /CH3 PC 3NN N REACT!y!TY ABSSRBED IN XE CONC N N N $
U1600 MARGjN TO SHUT 00WN LIMIT PC 2NN N N N N1 2 U1601 PC 2NN N N N N1
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U1602 MARGIN T3 WITHORAWAL LIMIT PC 2 NN N MARGIN T3 INSERTION LIMIT N N N N1 U1603 PC i NN N N1 U1604 max ATTAINABLE PSWER PC 0NN N N AXIAL OFFSET FROM CURRENT WATCH N N N1 U1605 0NN N N N N1 U1606 AXIAL OFFSET FROM SHUTOOWN WATCH PC 0NN N AXIAL OFFSET FROM FULL PWR WATCHPC PC N N N ! U1607 0NN N N N N1 U1608 AXIAL OFFSET FROM SPECIAL WATCH 0 NN N AXIAL OFFSET FRM SHTOWN SYPS WTC PC N N N1 U1609 PC 2NN N N N N1 U1610 WATCH 1 EIuENVALUE ERROR FROM 1 HR 1NN N l ELAPSED TIME FOR WATCH N N N1 U1611 PC 2NN N N N N1 U1612 MEAN POWER FOR WATCH T DEGF 1NN N N N N1 U2000 DRAIN COULER 1A TEMP RISE T DEGF INN N URAIN COULER 1B TEMP RISE N N N1 U2001 DEGF 1NN N U2002 DRAIN C?ULER 1A DCA T
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- . . - ______ _ _ _ _ -_ _ ___ _ . - - - _ _ _ _ = _--
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- DSY 41GH L8n Ba i AP AP ENGRG EFP ALARM ALARM N 7
[ SYM85L DESCR]PTISN UNITS CIE LIMIT LIMIT INCRE'* 33 U2003 DRAL '5CLER 18 DCA T DLC-r i NN' N N N N1 UT004 DRA1 10LER 1 A TEMP RISE DEv T -DEGF 1NN N N N N1 d2005 DRAIN Je3LER iB TEMP RISE DEv T DEGF 1NN N N N N1 U2006 DRA10 C85LER 1A DCA DEv T DECr INN N N N N1 U2007 0 4 5" C80LER 18 DCA DEV T DEGF 1NN N N N N1 U2010 ME A " 't 6 A TEMP RISE T DEGF 1NN N N N N1
- U2011 HEATER 68 TEMP. RISE T DEGF 1NN N N N N1
! 'U2012 HEATER 6A OCA T DEGF 1NN N N N N1 ! U2013 HEATER 66 DCA T- DEGF 1NN N N N N1 9 l U2014 HEATEF 6A TERA 4 DIFF T DEGF 1NN N N N N1 5 U2015 HEATER 69 TERM DIFF T DEGF 1NN N N N ' 1 C U2016 HEATER 6A. TEMP RISE DEV T DFGF 1 NN N N N N1 3
- , U2017. HEATER 6d TEMP RISE DEv T DEGF 1NN N N N N1 g i
1 U2C18 DEV FROM BCGIE HEAT RATE BTUKWH 1NN N N N N1 < ! g_ U2019 1D M!N Nti GENERAT!BN. NW 2NN N N N N1 %
- b2020 NEATER 6A TERM DIFF DEV T DEGF 1 NN N N N N1 5 l J2021 NEATER 6d'YERM DIFF DEV T DEGF 1NN N N N N1 I
' U2030 NEAiER SA TEMP RISE T DEGF 1 N.h N N N N1 $2 U2D31 HEATER SS TEhP RISE T DEGF 1NA N N N N1 4 U2032 HEATER 5A DCA.T DEGF 1NN N N N 9 1 E 4 U2033 HEATER St$ DCA-T. DEGF 1Nh N N N N1 U2034 HEATER SA TERM DIFF T DEGF 1NN N N N N1 U2035 HEATER 53 TERM DIFF T DEGF 1.N U N N. N 41 U2036 HEATER 5A TEMP RISE DEy T DEGF 1NN N N N N1 % U2037 HEATER 58 TEMP RISE DEv i DEGF 1NN N N N V1 U2038 NEATER SA UCA DEv T DEGF 1N N N N N N1 OO F U2039 HEATER 58 OCA DEV T DEGF 1.N N % N N N1 dd
- U2040 NEATER SA' TERM'DIFF,DEV T DEGF 1NN N N N N1 xI.
.U2041. HEATER 56 TERM DIFF DEv T. DEGF 1NN N .N N N1 O U2050 HEATER 4A" TEMP RISE T DEGF 'l N N N N N N1 C ~-
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1 T Q m VRA/VGB Lew 3* DSY HTGH N7 C ENGRG EFP ALARM ALARM AP AP UNITS CIE LIMIT LIMIT INEaE" ) ) { SYMBOL DESCRIPTION N N N1 - HEATER 44 TERM DIFF T DEGF 1NN N N N N1 U2054 DEGF 1NN N U2055 NEATER tu TERM DIFF T N N N1 . dEATER 4A TEMP RISE DEV T DEGF 1NN N N N N1 U2056 DEGF 1NN N U2057 HEATER to TEMP RISE DEV T N N N1 HEATER AA UCA DEV T DEGF 1NN N N N N1 U2058 DEGF 1NN N U2059 HEATER 46 QCA DEV T N N N1 DEGF 1NN N N1 U2060 NEATER 4A TERM DIFF DEV T DEGF 1NN N N N U2061 NEATER to TERM DIFF DEV T N N N N1 g DEGF 1 NN N N1 e U2070 NEATER 3A TEMP RISE T DEGF 1Nh N N i U2071 HEATER 36 TEMP RISE T N N N N1 0 NEATER 3A DCA T JEGF i NN N N N 1 5 U2072 DEGF 1NN N U2073 HEATER 3d UCA T N N N1 M HEATER 3A TERM DIFF T DFGF 1NN N N N N1 0 U2074 DEGF 1 NN N U2075 HEATER 3d TERM DIFF T N N 1 h 7 DEGF 1NN N N N1 E
; U2075 HEATER 34 TEMP RISE DEV T DEGF 1NN N N
- U2077 HEATER 3d TEMP RISE DEV T N N N N i G HEATER 3A DCA DEV T DEGF 1 NN N N N1 8 U2078 DEGF 1 NN N U2079 HEATER 3d UCA DEV T N N N1 $ ;
HEATER 3A TERM DIFF DEV T DEGF 1NN N N N N1 i U2080 DEGF 1NN N U2081 NEATER 36 TERM DIFF DEV T N N N N1 DEGF 1 NN N N1 U2090 NEATER 2A TEMP RISE T DEGF 1 NN N N U2091 HEATER 26 TEMP RISE T N N N1 DEGF 2NN N N N N1 U2092 FEEDWATER AVG. TEMP 2NN N FEEDWATE4 AVC, PRES PSIG N N N 1 l U209' DEGF 1NN N
- CATER 2A TERM DIFF T N N N1 U2O ATER as TERM DIFF T DEGF 1NN N N N N 1 U2C u\TER 2A TEMP RISE DEV T DEGF 1NN N N N N1 U209o DEGF 1NN N HEATER 26 rEMP RISE DEV T N N N1 U2097 DEGF 1NN N N N1 U2098 HEATER 2A UCA DEv T DEGF 1N N N N U2099 HEATER 26 UCA DEV T N Y N N1 DEGF 1N N N N1 U2100 HEATER 2A TERM DIFF DEV T DEGF 1NN N N U2101 HEATER 26 TERM DIFF DEV T N N N1 DEGF 1NN N U2110 NEATER 1A TEMP RISE T
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$ EFP ALARM ALARM NR AP AP ENGRG DESCRIPTION UNITS CIE LIMIT LIMIT INCQEM 33 SYMBSL 1NN N N N N1 U2175 SPARE 1NN N N N N1 U2176 SPARE INHOA 1NN N N N N1 U2177 BRINE HEATER ABSOLUTE PRESS N N N1 U2178 FLASH CHAMBER ABSOLUTE PRESS INHGA 14N N 1NN N N N N1 U2179 SPARE SPARE 1NN N N N N1 U2183 N N N1 U2181 dRINE HEATER SATURATION TEMP. DEGF 1NN N i NN N N N N1 U2182 SPARE USWNSTREAM FLBw RELEASE CFS 1NN N N N N1 y U2183 N N N1 g U2203 STM UEN TSTAL FW MISMATCH KBH 1NN N C
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- TARGET SPEED FOR E.H CONTR5LLER RPM 2NN N N N N] >
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-U9033 POST DIFF STM CHEST WALL T L2 DEGF 2NN N N N N1 %
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1 b 'I NP-2653, l EXIIIBIT D l P $.4.P 2 1 P. (} Paraorach Table of Contents INFORtMTION ONty Page
) 'CTION 1. PROCESS UO SYSTEM DESCRIPTON 1-1 INTRODUCTION . . .. .. ... . .. ... 11 I 1-1 1-2 GENER AL DESCRIPTION. . . .. . . .
1-3 Y-PANEL (1/0) CABINET BREAKDOWN .. .. ....... 1-1 14 1/0 Panel Configuration . . ......... . . .. . 1-2
-{a 1-$ Cobinet Connections ... .. ... . ....... 1$
1-9 $YSTEM LAYOUT . . . . . ........ ...... 1-7 1 10 $YSTEM LAYOUT DRAWING ................... 1-13 i 1-11 1/0 Poael Information . . . . ... ..... ... .. 1-13 1 12 Connector Panel informotion . . ... ............ 1-13 1 13 Holf Shell Information. ................ ... 1-13
. 1-16 CABLING DIAGRAM . . ............. ...... 1 14 1-17 CABLING AND WIRE INFORMATION VOLUME ........ .. 1 14 1-18 Connector Designations . . . ,........... .... 1-14 SECTCN 2. Y. PANEL CABlHET STANDARD EQUIPMENT .
I 2-1 INT RODUCTIOll . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 o 2-2 AC POWER Di$TRIBUTION PANEL . . . . . . . . . . . . . . . 2-1 25 P250 DC POWER $UPI^tY .................... 2-1 2-e Power Supply Retings . . . . . . . . . . . . . . . . . . . . 2-2 5 2-10 Refwe.c. Documents . . . . . . . . . . . . . . . . . . . . . 2-3 2-11 1/0 COUPLER $YSTEM . . . . . . . . . . . . . . . . . . . . . . 2-11
~ l, 2-12 GEIER AL DESCRIPTION . . . . . . . . . . . . . . . . . . . . . 2-11 4 '7-13 Additionel Periplierel Cliennels . . . . . . . . . . . . . . . . . 2-11 2 t1 D-Pene l s . . . . . . . . . . . . . . . . . . . . . . . . . . 2-11 2-15 , PRINTED CIRCULI CARO REFERENCE $. . . . . . . . . . . . . . 2-11 2-16 INPOREATION PORMATS. . ................. 2-11 2-17 Address Fennet. . . . . . ............ ..... 2-11 ,
2 18 Dete Fweet . . . . . . . . . . . . . . . . . . . . . . . . . 2-13 3 2-19 CIRCUIT DESCRIPTION . . . . . . . . . . . . . . . . . . . . . 2-13 2-20 Despot 5egweec e . . . . . . . . . . . . . . . . . . . . . . . 2-13 1 2-21 1.,,et Segwec e . . . . . . . . . . . . . . . . . . . . . . . . 2-13 [- 2-22 1/0 Rese t . . . . . . . . . . . . . . . . . . ........ 2-16 2-23 CONNECTOR $ AND TERMINATIONS . . . . . . . . . . . . . . . . 2-16 e 2 24 Power Connections . . . . . . . . . . . . , . . . . . . . . . 2-16
- j. 2-25 Gmme Conne ction s . . . . . . . . . . . . . . . . . . . . . . 2-16 2-26 1/0 Dete Connections . . . . . . . . . . . . . . . . . . . . . 2-16
,- 2-27 Clennel Helf $ elect Connections . . . . . . . . . . . . . . . . 2-16 i 2-28 CPU Interconnections . . . . . ............... 2-16 1
2-29 . INTERRUPT SCAN SYSTEM ...........<....... 2-21 2-30 GENER AL DESCRIPTION . . . . . . . . . . . . . . . . . . . . . 2-21
.! 2-31 CIRCULI C ARD REFERENCES . . . . . . . . . . . . . . . . . 2 ,
2-32 STaTEM OPER ATION . . . . . . . . . . . . . . . . . . . . . . 2-21' 2-33 Ge nere l . . . . . . . . . . . . . . . . . . . . . . . . .. 2-21' 2-34 Timing end Centrol . . . . . . . . . . -. . . . . . . . . . . . 2-22 2-35 Intercept Scen Timing . . . . . . . . . . . . . . . . . . . . . 2-22 lii - TP014
_ . __ m.._ _ _ _ _ _ _ _ _ _ - __ _. _ _._.___... .___ _ . - _ - W am. NP-2653,-IXHIDIT'Di- PAGE 7 INFORMAT10N Porograph QQy Page 2-3C ..n Control Seavence . . 2-22 2 37 ;1 ACuli DESCRIPTION. . . . 2 24 2-38 15 Cord-laterrupt 5 con Control , . , .. 2 24 l 2.41 H5 Cord Hsil.5 elect. . . ... . . 2-25 2-42 EP Cotd EnternoI Pulser . , , 2-25 2 43 El Cord Esternal interrupt. .. ... 2 27 , 2 44 IF Card-Interrupt Filter. . . 2-27 2-45 CB Card -Channel Buller . .. . . . . 2-27 SECTION 3. CONTACT CLOSURE INPUT (NMPX) SUBSYSTEM ' 31 GENER AL De$CRIPTION . . . . . . . . . . . .... . 3-1 3-2 $YSTEM OPERATION. . . . . .. . . .. 3-1 - 3-3 circuli OPERATION . . ...... ... ...... 3-2
^
34 $YSTEM TIMING CON 51 DERAT 10N5 . ..... . . 3-3 35 PRINTED CIRCUlT CARD REFERENCES . . . . .. . 3-4 3-6 l' l CONNECTORS AND TERMINATIONS . . . . . . . . . . . . . . . . 3-4 8 3-7 D-Ponel Doto Connections . . . . . . ......... .. 3-4 3-8 D-Ponel Channel Hall.5 elect Connections . . . . . . . . . . . . 3-4 ., 3-9 Termi no t ion s . . . . . . . . . . . . . . . . . . . . . . . . . 3-4 . SECTION 4. CONTACT CLOSURE OUTPUT SUBSYSTEM
~
4-1 GENER AL DESCRIPTION . . . . . . . . . . . . . . . . . . . . . 4-1 4-2 SYSTEM 5PECIFICATIONS . . . . . . . . . . . . . . . . . . . . 4-2 _g' 4-3 R e la y Contec ts ', . . . . . . . . . . . . . . . . . . . . . . . 4-2 li 4-4 ang............................ 4-2 4-5 PRii
- ED CIRCUIT CARD REFERENCES . . . . . . . . . . . . . . 4-3 'g 4-4 CIRCULI OPERATION . . . . . . . . ... ......... 4-3 f
4-7 Gener al . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-3 4-8 CCO Reler See end Reset Operation . 4-3 4-9 Power Supply switch Operet;an . . . . . . . . . . . . . . . . . p 4-3 4-10 CONNECTOR $ AND TERMINATIONS . . . . . . . . . . . . . . . . 4-5 4-11 X-Ponel Connector Breekdown . . . . . . . . . . . . . . . . . 4-5 .- , 4-12 D-Ponel Connector Breekdown . . . . . . . . ......... 4-5
- l l
4 13 Te rmi n at i o n s . . . . . . . . . . . . . . . . . . . . . . . . . - 4-6 -' SECTION 5. PROGRAMMER'S CONSOLE 5-I .......................... 5-1 5-2 INTRODU OtL... . . . . .... ... ...... 5-1
- l-5-3 GENERAL CHARICTE4t15 s TIC 5 . . . . . .......... 5-1 J-54 Paper Tope Punch. . ............... 5-1 5-5 Paper Tape Reeder . . . . . ............. 5-1 g 5-6 Printer / Ke . . . . . . .... 5-3 3 5-0 in - on and Monval Controls . . . . . . . . . . . .... 5-3 5-10 N50LE OPE R ATION . . . , . . . . . . . . . . . . . . 5-4 4- Input Operation . . . . . . .. ...... . . -5 sucer xvc w oeo tv TkLs KE vitg). g6 fc C. ro @ (#0AtedTroo T/q ..
- TP014 : - iv- 4
INF0h fl0N l lyf 'l' ONLY NP-2653, EXHIBIT Bi P
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C SECTION 1. PRSCESS 1/9 SYSTEM DESCRIPTl8N 1-1. INTR 00uw.eun and tnese are used for the Prorrummer's Console in-terfve circuit cards and the Channel iluffer card for l' This section contains a general description of the P250 the 1-Panel interrupt number. Process I/O System depicting its expandability stan-l The addressing capabilities of the P250 CPU allows for tard and optional configurations. In addition, the Y-Panel WO) cabinet is broken down to show power con 256 peripheral channels. Its addition the first 64 chan- l I nections and distribution. grourvi'ng connections intra- nels may each be combined with 64 word addresses for multiplexing. This allows unique addressing for up to ' i j cabinet signal connections and customer connections. 4.096 (64 x 64), 14-llit Data Words. 1-2. GENERAL DESCRIPTION The interface between the CPU and the Process 1/O a, Communication beneen the CPU and the process being system is the Y-Panel, located in the Y-Panel cabinet, controlled is K41ed through the Process 1/O System. The Y Panel cabinet (designated 00) s'id subscyuent 1/O l Access u, me CPU is through the External Direct 1/0 cabinets (designated 01 --- (n) ) slao contain the lhter-Channel. This channel uses the Itead Direct (ItD) and face circuitry for the Process Control subsystems which , Write Dirnet (WD) instructions to transmit and receive rnay be used in a particular system, contrul and data signals between the C1'O and the Pro-cess 1/0 devices. Figure 1-1 shows a P250 system
}g configuration of 21-Panels and 8 D-Panels (Word and 1-3. Y-PANEL (1/0) C AEINET llRE AKDOWN Channel Addresses are shows in decimal. This is a The Y-Panel cabmet (designated 00) serves as the basic large system and in no way typical. The purpose of building block for the Process 1/0 system. It always i the figure is to illustrste the exparziability of the Pro- contatna the Y-Panel (Process 1/0 Coupler), the I Panel ,
cess 1/O system and not to imply any standard word (Interrupt Scan System). the AC Power Distribution 'l mixi channel assignmeats. in actual practbe, for ex- Panel, and the DC Pntar ikipply. Those standctd items g are covered in detail in Sectioi 2 j g ample, the D3 Panelis assigned channels 408 - 5F3 ; O . , a4 , l l
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INFONTION P^ E ONLY A simnhimd bloex d:agram of the Y-Panel e abinet in shown in l'igure 1-17 This diagr.i.i n ws the b:.ste 1-4,10 Panel Configurarten cortligurations for the subnvsteins used u. the Process 1- 0 Mstem and the .:tarvt1- Turations for the Y- The Process 1/0 circuitry is butit un in the I/O catanet P.anci and 1-Pa nt. on if rack-rnounted panels. (See O g, 1 -J. ) Each panel has provisions for housing 16 printed circuit cards. f or larger as stems, any additforal panels required Each card is inserted into the panel and con-fo* \fvtlog Inputs or Outputa or Contact Closure In- nected at the rear hr tvco 14-terminal Svlvanta connee. pt. e Outp tors. In addition to the rear connections, each card Pa. s ntch would not have room in the Y-catunet would be housed in additforal I/O cain- has a 3*>-Pin ELCO < cnnector mounted at the front. nets (designated 01 through 0 (n) 1 Input and outn.st ennnections to the panel can be inade
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NP-2653, IXHIBIT D( ?@h ~ INFOthil0N l/ ONLY at the f n e M-Pin ELCO connectors lo(aten unde r the solthrouen" m the AC IWer instribution Panel. card Slots, These connectors are desmtuteu /1. a.. 1)C Power supph Y-Panel, ano the !-Ittnel a re not M mpub output c"nnectmns inst.nlled. no ines.e locations om oc occuoted in other A 21. and 23. aa nels , m.tv be made directiv a t the circun ea ro -;5- e in E LCO connectors (designated throuun Im. 1-5. Cnenet Connect # ens Power connections for the panel are made at the lo-luu terminal block at the bottom of the panel nicaugnated 1-6. Fis*1ui Connections TD31b Connections to the process being controlled and to the Several different t> pes of pancis have been designated peripheral dettees are made at the tront on' the c:tbanet by the 56 Pin ELCO connectors in locations "AA" and for use Lt the I/O cabinet. These panels are:
"Ill!" and at the rear of the cabinet by Curtis terminal Panel Use blocks (these are called half-shell cannectorsh or 56-Pin ELCO Connector panels. These panels are shown A-Panels contain word and : han- in F!gures 14 and 1-L A-Pu nels nel selection caras and interface circuitry for the Analog Input The rear of the l'O cabinet is divided into Zones as
- Subsystem.
shown in figure 1-L Terminal designations for one zone of half-shells are shown in Figure 1-6 llatf-shell connectors are also autilable in a thermally iso-D-Panels D-l%1els contaim word and chann.rl selection cards for Con- lated junction box (TJB) which takes up two zones and tact Closure Output. Analog is used for Analog input connections. The Thermal Output subsystems; channel buf- Junction Box terminal configuration is shown in Figure fer cards for contact closure in- 1 -7. ., e put subsystems; and interface circuit cards for all direct chan- Where connector panels are used instand of Italf-Sin!!s nel peripheral devices, in the rear of the cabinet, they are situated directly to the rear of the I/O panel which they service and are
.b The I-Panel contains the cir- designated by letters corresponding to the I/O panet.
l-Panels cuitry for the Interrupt Scan For example, the I/O panel in location M has its coc.- System. Up to 128 in;errupts nector panel located directly behind it and its connec-l tons are designated M01 through M16. may be processed, 4 , Q-Panels contain multipleur Connections to the CPU are taken directly from the card Q-Panels I circuit cards for Multiplexed edge connectors of the Y-Panel. 'Ibese connector Contact Closun input thboys- bmakdowns are given in Section 2.
/- tems, and Intermpt Filter cards for conditioning external inter- 1-7. DC Power Qannections l
rupts. 8'
'Ihe D. Power Distribution Diagtum is shown in Figure l
X-Panels X-Panels contain the process 1-4. Notice that the + BV, +4V awi -8V supplies are f taken directly imm the CPU DC Power Supply (PT16). i interface cards for Analog Input, Analog Output, ar 8 ontact Clo- The Y-Panel Cabinet DC Power Supply provides + 26V s.are Output Subsystems, to all panels, arvi + 10V de and 6.3V ac to the A-Panel
~
( Antlog input). The Y-Panel Cabinet DC Power Supply Y-Panel The Y-Panel contains the cir- also supplies 48V de (125V de optional) to Taper Pin cultry for the I/O Couple Sys- busses above each panel as shown in Figure 1-9. These tem which interfaces with the busses provide a convenient voltage source for genen-CPU. tion of interrupts and for use in Contact Closure Inputs. Or, all P250 systems, the Taper Pin busses on the 1.' Y. l and D3 Panels must be supplied with 48Vdc.
- These panels are mounted in the Y-Tunel cabinet in lo-cations shown in Pigure 1-3. Optional front cabinet See Section 2 for a more detailed description of the DC configurations an shown in Figure 1-b. Power Supply.
p l- In the Y-Panel cabinet (00), location "F" is always 1-8. AC Power Distribution occupied by the Y-Panel, and location "E" is always occupied by the 1-Panel, in subsequent 1/O cabinets The AC Power Distribution Diagram is shown in Figure i 1 TP014 [,u-
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$ 'ICURE l-6. NALF-$NsLL TERMINAL DE$lGNATIONS I
(-1 1-10. The Y-Panel cabinet serves as the (<snman source 1-9. Groundina j'~ of suppiy for AC Power in the P260 system. A more ! l complete description of the AC Power Distritution Panel The System Grounding Diagram is shown in Figure 1-11. is given in Section 2. The gmumiing lugs in the Y-Panel cabinet serve as the grounding point for all cabinets and peripherul devices in the P250 system. \.. . . . e i. f
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'IP-2653, TXHIDIThL PAGE l ' '~
INFOR,v,,UlON ONLY ( i -- j 5 2+ 6, 6 6 5 K $ 58 [8 ~5 as al sg - a $ $ $ 8 [s6j c - ~ _ E3 lisa " t er n " gesn v use ; z,s, g 8" r" 9 Ph 3(* 6 od 3 h OCbOO g i t s 3e o j z C nen O nW m,, > "m [* j O s s u s in !g !g i; i - 8 s i 8
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# ' " h' INFGeh... . . ton ONLY p 1-10. SYSTEM l.AYOUT Ofl ARING Each panel contains sixteen M-Pin ELCO connectart:
for Customer connections or peripnetui device con-I Each asstem +ocTv f + .* particular application is nections. provided witn a matem imout Drawing unsch defines the coutpment anu connector locations. A sarnple draw- No couin;t coningurations are uteu: one tur f ront cats-ing is shown in Figure 1-16. This drawing has a great inct mounted connector panels ifig.1-13s. and one f or y deal of coded information which is f mportant in under- tear cabinet mounted connector pueln orig.1-!% l s'inding the cabinet inttu-contsections. T )r example: en Figure 1-13 the connector panel in
' Generally, the drawtng shows locations of 1/0 Panels po ition AA )as connector number 11 providing termi-r.ations for the card-edge connector (35-pin EI.CO) of Connector Panels. and Curtis terminal (Itall-Shew zones, the printed circuit card in slot 9 (SL) of the I/O Panel in position D.
1-11. 110 Pasel Inf ormstles _ 1/O Panel locations are designated A, B. C, D E. F. ,I I l f 8 I
- 11. J. K. L. M and N. These location: may be actually , 8 8 8 8 8 8 g y ~~
occupied by 1/0 Panels or they may be occupied by op- r _
! o o o o n a o 4, w w w w w w w.
d tionl equipment, such as: Aralog-to-Digital (A/D) con-verters, or fuck-mounted power supplies. Ilowever' { g io e n N - o 2 iD N g 2 g D! rws t
' ' the standarti configuration for the Y-Panel cabinet has .4 4 E a E E M S S " " g " " " " * *
- 4 W
4
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the Y-Panel in location F the I-Panel in location E. and the I/O Driver Panel (D3) in location D. The coded information contained in the I/O Panel location D. la FlCURE 1-l). FRON1 MOUNTED CONNECTC# PANEL defit.ed in figure 1 12. In this example, the following CODED INFORMATl0N o infortnation is given: In Figure 1-14 the rear cabinet connector panel in
} 1. This is an 1/O Driver Panel, designated D3 position M has a $6-Pin ELCO connector in position 1 and positioned in location D of the 00 Cabinet (Y-Panel which provides terminations for the casti-edge con-A) Cabinet). The circuit cards within the panel are ad* nectors (35-Pin ELCO) of the CO (Contact Output) i dressed by channels 40, to $53 . cartis in slota 01 (low 7-bits) and 16 (high 1-bits) ' which are addressed by channel 41. g
- 2. For eammple the card in slot 9 is an SL card (735 Selectric Interface), addressed by channel 50 The cotmections inade at the carJ-edge connector (3b, Pin ELCO) are brought out to the Connector Panel in
.,, location AA.
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I W E 8 5 s R 8 G WE Of e E E E E E E E IElifEI I I g s s a s s a s m w w w w w w w w F! CURE 1-14. REAR MOUNTED CONNECTOR PAHiL -
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R hlhhhqfn8 $ 8 h CODE & lNFORM A TION E~IE' N*"" * " I* **"** FIGURE l-12. l/0 PANEL CODED INFORMATION l
- The Italf-Shella are vertical Curtis termis.at blocks sit-1-12. Cessettet PaselInfaraaties uated in Zone and Strip number locations. Each strip number le comprised of two sets of adjacent vertical Connector l'"anels are positioned at the front of the cab- lines of terminals stich are designated by letters. The inet in locations AA. IIII. and NN. Additional pancia physical layout of a flatf-Shell Zone is shown in Figure d may be installtid in the rear of the cabine'. in lieu of g g,
- liktf-Sh ell Zones. These panels are positioned in line with the I/O Panela which they service. An exairple of the coded information on a lialf-5 hell 1 13 T P014
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- !P-2653, EXHIBIT O f PAGE 13 1
Zone is shown in hgure 1-15 This example shows
!alf-Shell Zone I which has strip i providing termina- Diagram ts madt The W-Cables hate specified lencths .jons for the CB (Channel Raffer-CCD cards in slots Of and may be special cables for the particular applica-tion.
tred of of 1/ 0 It N ihe rd in slot 01 la termi- l nated bv strsp J. u hile w card in slot 02 is terminated 1 hv strip K. flowever, the diagrain in figure 1-17 is usef ul to show. ! how Process 1/0 Svstems are arranged. Notice that plug connectors 21 or 23 on every D-Panel and A-Panel ZONE i i.arry the I/O Data signals f rom the Y-panel connector i
~ } 21. hackpanel wiring on the D-Panels connects the 21 j
Z and 23 connectors to the 1;-Pin Svivanta connectors in
*-
- each card slot location. Generally. tne input Data is 1 ,8 ,8 bursed along the lower connectors, and the output Data is bussed along the upper connectors.
R - 11
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g x g g m Channel llalf-Select signals are grouped into four lines . ', A g AA of 64 channels each. These lines are taken from the Y-3 3 3 litnel at connectors 22 (llatf-Selects 00 - 77,). 23 (llait-Selects 100 - 177 9 ), 24 (llalf-Selects 200 '!77 ) and 28 (Half-Selects 300 - 377 9 ).. The lines are taken 9to con-a a a f ,
- u en l nectors 22 or 24 of the D-Panels ard A-Panels.
1-11 CARLING AND WIRE INFORMATION VOLUME ,! G Each system is shipped with a Cabling and Wire Infor-FIGURE l-l$. NALF-$ HELL AND TJD mation Volume which is prepared by the Project Direc- "' CODED INFORM A TION tor. This volume lists all W-numbered (signal) cables 1-14. Thermal Junction Box and power cables, in addition, cable assembly and con- ~ nector breakdown drawings are supplied. irmal Junction Boxes are available for Anasog Input 1-18 Cessetter Desigastless
.nnections ated, when used, take up two Italf-Shell h Zonce. Terminal coding la'ormation follows the same format as previously described for Half-Shell Zones, All connector hoods used in the Y-Panel and VO cabi-
- . nets are stamped with coued designatiom as follows
- - p, The layout of TJB terminals is shown in Figure 1-7.
1/O Panel llood Designators:
.1-15. Menal Conditioners .
Cabinet No. Panel Location Carti Slot Signal conditioners, used with Analog Input Systems em mounted on the llalf-Shells in positions designated - j No. or 112. 113, etc. , as shown in Figures 1-6 and 1-7. 00 F 12 = - Panel Con-nector 1-18. CABLING DIAGR AM Connector Panel llood Designators: ~ Each Process 1/O System designated for a parttemz.r application receives a cabling diagram, prepared by Cabinet No Panel Location the Prvject Director. A sample diagram, covering all [ Connector No, systems and subsystems available for the P250 Process l 1/O la shown in Figure 1-17. 00 AA 09 g,s: J g! The diagrain depicts, in block form, all possible panels which may be utilized. Panel connectors 21 through 25 are shown, where applicable, as appendages to the panel
. blocks. Interconnectinir cables and external connecting ']j cables are designated by M-numbers. i.e. . M102. M103 The M-Cables are standard cable configurations made
, bYor stock, and in every case these cables are re- v _ V uted as W-Cables when the Application Cabling TP014 1-14
NP-2653, EXHIBIT hl P M/l V 7 it3 0RMAT10N C t ONLY
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INF0n,,,,.,l0N NP-2653, EXIIIBIT d ? k [ ONI.y I SECTION 2. Y PANEL CABINET STANDARD EQUIPMENT i f
' each supplied phase power througn 3-pole. 20 A 2-1. INT R 00 G **:.'.
urcakers. 1:itht other citeutta are available for use This section escals only utth the standard equipment or remote eeutpment througn JO A individual trip break- , e rs. Une circuit is used for the Programmer's Con-I iund in 10 l-Panel cabinet, narnely: 8 sole. Power inr Auxiliarv No. I convenience outlet is obtained through one pole of .t 2-pole, 20 A individual
- lne AC Distribution Panel
- trap ureaker. Two additional auxillary outlets are s The DC Power Supply supplied from the second pole of the breaker.
- The Y-Punel (1/0 Coupler) The Y-Panel Cabinet Vertical Power 13us is supplied by a filtered.15 A souret. Thls bus supplies filtered
- The I-Panel (Interrupt Scan) ac power to the Analog-6-Digital Converters. Y-Panel de Power Supply, and the Y-Panel blower. No device, Other systems and subsystems which are normally other than thot.e mentioned. should be plugged into this y
used with every Process 1/0 configuration and which filtered ac power bus.
have interface circuitry located in the Y-Panel or I/O cabinets aru covered in subsequent sections of this 2-3. P.250 DC POWER $UPPLY y <' volume.
The power supply is rnounted inside the Y-Panel cateinet on pull out slides. The module can be pulled out for 2-2. AC POWER Di$TRIBUTI0lt PAllEL easy rnaintenance and for accessibility to terminal l The distribution panel provides ac power for the CPU strips and fuses. Fuses are located at the top of the and itAD cabinets. customer circuits for remote equip- power supply for protection of the 48V. 26V.105/ and .. ment, and for convenience outlete. Figure 2-7 shows 6.3V supplies. Values of the individual fuses are the panel assembly and Figure 2-2 shows the panel stamped en the panel naar the fuse holder. Figure 2-9 wiring and schematic diagrams, shows the power supply outline with the terminal strip and fuse locations. Figure 2-1 contains a block diagram d l of the P-250 DC Power Supply indicating the various cir-I The panel power input is obtained from a 20BV. 4-wire.
' 3-phase. 60 Hz,100 A service. The CPU and RAD are cuits which utilize the supply outputs. ..L l
l i t w z3cw Ar. 1 asy 4: tev oc MainwEnat tasac. g' , sou .g ~l cowinot onctais l screo ces e g
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_IOV DC _ s
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SOURCE l INTEnnuPT g l l l- I l i l mise uxuo osciu.ama 8 i :I l l L-- LV CARD------J l m status i=.urs.
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l -+ 500nCE I otAD CCadmUlta SMrCH CCo 1 r l l b-- ----- - -- .I f . FIGURE !~l. BLOCK DIAGRAM OF P.150 power SUPPLY l 21 TP014 ;
~,- _
g ,.. m ,A Tl0 N :ip-2653, ExMS y' ~xor e ~ } C+hne is m convection ont t ONLY The top and nottom envers nt tne power suppit module have been or- perf 4 2". 0V de. 14 ' - l E atett to allau air to flow freelv around the e s. cornponhe nt at 27 OV dc. ;o.dV u tth power appited tThe output bus (me printed circuit t>rurd o the si stem. card. ia located in the p< , the Low Voltage lietector The 26V de source transformer has seconaa ry u n f unnh. t r ing tains the low volt' n This c.a rd ec.n- taps at :1~r voltage inctements wMeh are u Interrupt etreutt. s.d ..aing circuit. the Fvnchrontzer sed to adjust sead Computer Switch. .1 thetheoutput on supply voltage O. e. to a nominal value for diff r e ent loads more detailed description el these circuitsound in the LV card description, can be f es stems of various site). A small system unuld have its tap position wo one or t 2-4. Peett Supply Ratings steps lower tMn would a large system. The 26V dc. nV de and the 6.3V regulated. un- ac sources are Taps on the secondarv winding of the transformer ould sh shunt tener regulator tied to the current limiting restators- ugh 26V de value voltage bus in response throA rnagnitudes. regulatedto10V minorde put c variations of n is obtatred across (For example, t! nominal line
- M, 26V de Souw e be one position lower than it would be in an n minal voltage of IISV ac.)
The 26V de lev < ea with a rectifier feeding .nto a pf-filter.is obtained gef rom a2-6. tull wave brid eV de Source (See Fig o (Ece Fig. 2-2. ) This 2-0) source is rated at 17 A maximum with ane output voltag ,. The MVdc source is obtained-from pped fulla center ta t
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FIGURE 2-2 26V DC power $0URCE N 5 CRS A ki
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2 C5;q y ll5V R3] C67s 0
~6 ~ a 3 48V .. R4; C7 * ~
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FIGURE 2-3. 46V DC PtwER SOURCE 1 I i (
NP-2653, EXHIBIT Ud ?A KAf ' amm i wave rectifier with a capacitive output filter. This 2-5. Tap Adjustments (See ric. 2 4) supply is mted at 48V dc. + 20% -15L 1.5 A as indi-cated on the power sut ply data nameplate. The power supply has been designed to accept 115/200V. 50/6s sz single-phase input. Jumpers on the primarv 2 -1. 10V de Source windings of the three tr insfcrmers in the supply must be wired correctly to match the transformers to the line I A Il ~~ de is obtained across a zener diode regulator volta ge. Each transformer has a dual primary winding. (seo 2. .:-4 ) . This source furnishes 60f' mA when Thebe windings must be placed in series for 230V ac the 2. ;V de bus has dropped to 23.0V dc. The out- opemtion or in parallel for 115V ac oper11 tion. 9 put voltage is 10V de. +5%
)
I 27.3V DC _ , , ! i 6 2 a l
. ],Rt 2 2 fl5V 230V d ' R2 AC E IOV DC 3 3 PSC U , c c r 4 4 ~
I FIGURE 2 6. TRANSFORMER PRIMARY WINDINGS FIGURE 2-4. 10Y DC V0WER SOURCE 2-8. 6. 3V ac Source (See Fig. 2-5) With the exception of the 26V de source, the transform-3 era do not have taps for adjusting the output voltage to j A 6.3V ac is derived from the secormiary of a filament allow for small differences in nominal line voltages or transformer. This signal is used to drive the synchro- differences in load. These loads are sufficiently in-nizer interrupt on the low voltage sensor (LV) card and, sensitive to voltage variations that h ouput voltage i when the system contains an aralog subsystem, the can be allowed to swing with 100% switching of load phase lock oscillator on the phase lock oscillator card. currents and the line voltage variations of +10% around This supply is rated at 6.3V ac,1,15% 0.1 A. 115V ac or 23(,V ac. 2-18. Reference Desserests ( Refer to the 3LV2 Printed Circuit Card Description in l y Volume 7 for the circuit description of the low Voltage ! i 5 Sensor used in th< P-250 DC Power Supply. 1 b N l 2
= "g 63v INFORMAT10N ONLY i ! , U U c>-- - -o 4 d 6 1
FlCURE 2-5. 6.3Y AC 51GNAL 50URCE 2-3 TP014
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r- 4 b2 &&& '/ T PART NO. ITEM DESCR?PTION (OR STYLE) QTY. I Mountine Plote GR.1867C313 1 2 Breder Erc,esure Mod. IT.1867C920 1 3 Brocket GR.1682B644 1 4 Enclosure Cover 669A264 H02 1 5 Nameplate 651 A278 H01 1 6 Circuit Breaker 20 A 774A977 HD1
- 7 Circuit Breaker 20A 669A265 H01 2.
8 Circuit Secoker 15 A 774A976H01 1 ; 9 Filter 742A857HO) 2 10 Conduit Bon 774A533 H01 3 11 Duplen ' Outlet Plate 774A334 H01 3 1 12 DupleiOutiet 15 A 77AA535 H01 -3 l 13 Comector hin, mA952 H01 2 l 14 Conneetor yin. A952 H02 1 i 15 Conduit Nipple ,A953 H01 3 16 Co wfuit Locknut 774A954 H0i 6 17 Conduit Bus,ing 774A955 H01 6 18 Terminal Bhck 5 Pt. 742A853 H05 1 19 Marker Strip' 669A135H35 1 20 .138-32m.2S Bind 5:1. Scr. 10202. 6 21 .138 32i.30 Fl. 5:1. Scr. 10214 3 22 .164-32x.7S Fil.Stl.Scr. 10327 4 23 .190 32 = .50 Bind. Sil. Scr. 10402 13 - 24 * .190-32 m .70 Bind. 51. Scr. 10404 2 25 .190 E.Tl Lockwasher 11019 11 26 190 5tl. l.orkwosher 11018 2 27 .190 32 Hea. Stl. Hut 11016 4 id Wiring Diogrim GR.1397D276 1 SI ! APERTURE i CARD Also Available On Alwrture Card INFORMAT10N ONLY 9 210 2 9 0 3 0 0 --h FIGURE 2-1. AC power DitTRIBUTION PANEL ASSEMBLY IRE F. DwG .191D13 t h ***
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