Text

Response to Request for Additional Information Related to Creats Actuation Instrumentation License Amendment Request, Attachment 9
	ML022890349
Person / Time
Site:	Ginna ; (DPR-018)
Issue date:	10/07/2002
From:	Mecredy R; Rochester Gas & Electric Corp
To:	Clark R; Document Control Desk, Office of Nuclear Reactor Regulation
References
	Download: ML022890349 (172)
	v • d • e

R.E. Ginna Nuclear Power Plant Response to RAI Dated August 28, 2002 Enclosure Vendor Manual, includes:

Test Plan and Procedures System Manual Operators Instruction Manual Factory Acceptance Test Procedure Shop Order # 157033

6045 COCHRAN ROAD (440) 248-9300 FAX (440) 349-2307 www.inovision.com CLEVELAND, OH 44139-3303 (800) 850-4603 89/19/2882 18:46 4483432885 IRM INOVUSIyOA

%O. SMEAURMETS L3 INO VISION RADI. ATION MEASUREMENTS, LLC THIS IS NOT AN INVOICE PAGE

'ROCHESTER GAS & ELECTRIC CORPORATION PO BOX 40660 ROCHESTER LUS NY SROCHESTER GAS & ELECTRIC GINNA STATION srnp -

1503 LAKE ROAD TO ATTN MIKE HARRISON ONTARIO NY L us 14519

_I 14604 P/L:

SALESMAN:

Jane Zilka ITEM QUA1TITY INOVISION DESCRIPTION UNIT PRICE PRICE EXTEI?3:

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ORDERED PART WJMSER I

"32 1.000 157033A OTAL CONTRACT 55850.000 55850.C ScilU-edhIUIp Date 11/08/00 QUOTED BY JON HALE SOURCE SURVEILLANCE REQUIRED OR THIS PURCHASE ORDER.

THIS CONTRACT INCLUDES THE FOLLOWING:

PIN 50-100, 400FT CABLE.

PIN 848-8-105,

ADAPTER, 1 UNIT P/N 897A-210, DETECTOR GM TUBE P/N 956A-201-MI, DIGITAL RATEMETER CERTIFICATE OF CONFORMANCE.

ND USER: GINNA/SWIFT,P ATTN SHIPPING:

"QA INSPECTION REQUIRED."

Safety related items.

10CFR21 applies.

Thank you for your order.

1.000

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55850.C Customer Schedule:

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Radiation Measurements Control, Room Intake Radiation Monitors Operator's Instruction Manual Prepared for:

Rochester Gas and Electric Ginna Nuclear Station R.G. & E.P.O. 4500008671 Inovision S. 0. S157033 Contains Operating Instructions and Service Information for the Control Room Intake RadiationIMonitors

WARRANTY This instrument with its accessories is warranted by INOVISION RADIATION MEASUREMENTS, against defects in materials and workmanship for a period of one year from the date of original shipment.

During the warranty period, INOVISION will repair or, at its option, replace, at no charge, an instrument containing such defect, provided that it is returned, transportation prepaid, to the INOVISION repair facility. Instruments repaired in warranty will be returned transportation prepaid within the United States.

In addition, the calibration of each instrument is warranted to be within its specified accuracy at the time of shipment. If an error in this initial calibration is discovered, the instrument will be recalibrated at no charge, provided it is returned as described above. This does not apply to any calibration deviation that may result from normal use.

There are no warranties, expressed or implied, including without limitation any implied warranty of merchantability or fitness, which extend beyond that description on the face hereof. This express warranty excludes coverage of and does not provide relief for incidental or consequential damages of any kind or nature, including but not limited to loss of use, loss of sales or inconvenience. This exclusive remedy of the purchaser is limited to repair, recalibration, or replacement of the instrument at INOVISION'S option.

This warranty does not apply if the product, as determined by INOVISION, is defective because of normal wear or accident or misuse, or as a result of service or modification by other than an authorized INOVISION repair facility. This warranty is void if the unit is subjected to temperatures above 55°C, or contaminated with radioactive material.

M Radiation Measurements 6045 Cochran Road 9 Cleveland. Ohio 44139

U.S A. 800-850-4608 - [-440-248-9300

Fax 1-440-349-2307 ° www inovision corn

N Control Room Intake Radiation Monitors Instruction Manual Manual No. S157033A-1 Rev. 1 1 may 01

COPYRIGHT AND TRADEMARK

No part of this document may be reproduced or transmitted in any form or by any means, electronic or mechanical, for any purpose, without the express written permission of Inovision Radiation Measurements.

All Inovision product names mentioned herein may be the trademarks or registered trademarks of Inovision Radiation Measurements.

Other product and company names mentioned herein may be the trademarks or registered trademarks of their respective owners.

MANUALADDENDA Any improvements or changes concerning the instrument or manual will be explained in an addenda included with the manual. Be sure to note these changes and incorporate them into the manual.

PROCEDURES, WARNINGS, AND CAUTIONS The equipment described in this manual is intended to be used for the detection and measurement of ionizing radiation. It should be used only by persons who have been trained in the proper interpretation of its readings and the appropriate safety procedures to be followed in the presence of radiation.

Although the equipment described in this manual is designed and manufactured in compliance with all applicable safety standards, certain hazards are inherent in the use of electronic and radiometric equipment.

WARNINGS and CAUTIONS are presented throughout this document to alert the user to potentially hazardous situations. A WARNING is a precautionary message preceding an operation which has the potential to cause personal injury or death. A CAUTION is a precautionary message preceding an operation which has the potential to cause permanent damage to the equipment and/or loss of data. Failure to comply with WARNINGS and CAUTIONS is at the user's own risk and is sufficient cause to terminate the warranty agreement between Inovision Radiation Measurements and the customer.

Adequate warnings are included in this manual and on the product itself to cover hazards that may be encountered in normal use and servicing of this equipment. No other procedures are warranted by Inovision Radiation Measurements. It shall be the owner's or user's responsibility to see to it that the procedures described here are meticulously followed, and especially that WARNINGS and CAUTIONS are heeded.

Failure on the part of the owner or user in any way to follow the prescribed procedures shall absolve Inovision Radiation Measurements and its agents from any resulting liability.

Indicated battery and other operational tests must be performed prior to each use to assure that the instrument is functioning properly. If applicable, failure to conduct periodic performance tests in accordance with ANSI N323-1978 (R1983) Radiation Protection Instrumentation Test and Calibration, paragraphs 4.6 and 5.4, and to keep records thereof in accordance with paragraph 4.5 of the same standard, could result in erroneous readings of potential danger. ANSI N323-1978 becomes, by this reference, a part of this operating procedure.

ii-Control Room Intake Radiation Monitors

CONTENTS Copyright and Tradem arks....................................................................................................................

i M anual Addenda...................................................................................................................................

Procedures, W arnings, and Cautions....................................................................................................

Section 1:

1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 Section 2:

2.1 2.2 Section 3:

3.1 3.2 3.3 3.4 3.5 3.6 Section 4:

4.1 GENERAL INFORMATION....................................................

. 1-1 Introduction 1-1 Equipment Overview....................................................

1-1 Universal Digital Ratemeter 956A-201-M 1..................................................................

1-2 Low Range G.M. AreaDetector 897A-2 10................................................................

1-2 Duct AdapterAssembly S 157033AI...........................................................................

1-3 Rack Chassis 948B-1..................................................................................................

1-3 Line Filter/Surge SuppressorAssembly S 157033A2....................................................

1-3 Recommended Spare Parts..........................................................................................

1-4 RECEIVING INSPECTION AND STORAGE............................

2-1 Receiving Inspection....................................................................................................

2-1 Storage.......................................................................................................................

2-1 INSTALLAT ION..................................

3-1 Installation...................................................................................................................

3-1 ControlRoomEquipment............................................................................................

3-2 DuctMountedEquipment............................................................................................

3-2 Field Cable Installation.................................................................................................

3-3 Start-Up......................................................................................................................

3-3 Shut-Down..................................................................................................................

3-5 OPERATION 4-1 Operation....................................................................................................................

4-1 Lontrol Room intake Radiation Monitors izi C*ontrol Room Intake Radiation Monitors Wz

CONTENTS Section 5:

MAINTENANCE, CALIBRATION AND TROUBLESHOOTING.... 5-1 5.1 Maintenance................................................................................................................

5-1 5.2 Calibration-Detector..................................................................................................

5-1 5.3 Calibration-Ratemeter..........................................................................................

5-3 5.4 Trouble-Shooting...................................................................................................

5-3 APPENDIX A A-1 Applicable Drawings and Bills ofMaterials.............................................................

A-1 APPENDIX B B-1 Calibration Procedures and Data.............................................................................

B-1 APPENDIX C C-1 Test Procedures and Data......................................................................................

C-1 APPENDIX D D-1 StandardManuals.......................................................................................................

D-1 APPENDIX E

-i ModificationSheets

..................................................................... E-1 iv Control Room Intake Radiation Monitors

f~r r ~

O lt "General Information Receiving, Inspection and Storage Installation Operation Maintenance, Calibration and Troubleshooting Appendix A Appendix B Appendix C Appendix D Appendix E a

i

Section 1

":'GENERAL

""INFORMATION 1.1-,iNTRODUCTION The radiation monitoring system described in this manual is designed for use at the Rochester Gas and Electric Company's Ginna Nuclear Power Station located in Ontario, NY. The monitor system is comprised of two redundant Low Range GM Area Monitors installed in a 42", diameter duct that provides,intake air to the Control Room. The GM channels continuously monitor gamma radiation levels in the duct and provide alarm actuation should levels rise above a pre-established setpoint. The monitors display radiation levels and alarms in the rate format in units of mR/h.

The equipment comprising the radiation monitoring systeni is listed below:

Model 956A-201-Ml, Universal Digital Ratemeter Model 897A-210, Low Range GM Detector Model S157033Al, Duct Adapter Assembly Model 948B-1, 19" Dual Bay Rack Chassis Model S157033A2, Line Filter/Surge Suppressor Assembly All equipment supplied is designed by Inovision Radiation Measurements.'

1.2 -EQUIPMENT OVERVIEW This section is a brief overview of each piece of equipment utilized for each of the two channels. A description of the equipment is contained in the following paragraphs. For further informatioh on individual pieces of equipment, refer to the appropriate Standard Manuals located in Appendix D.

Control Room Intake Radiation Monitors 1-1

SectionI GENERAL INFORMATION 1.3 UNIVERSAL DIGITAL RATEMETER 956A-201-M1 The model 956A-201-M1 Universal Digital Ratemeter (UDR) is designed for use with 897A series GM Detectors. A range of display from 0.01 to 1E5 mR/h is available. Monitored range is detector dependent and normally covers five decades of operation. The monitors provided to Ginna cover a range of gamma radiation from 0.01 to 1E3 mR/h. Standard features of the UDR include a floating decimal point display in mR/h, R/h or kR/h, a multicolor bargraph indicating channel alarm status and dose rate, front panel controls for alarm setpoint display, alarm acknowledgement and AC power switch. An adjustable High Voltage power supply for the detector is provided. Unpowered (dry) relay contacts are provided for Fail, Alert and High Radiation alarms. A powered contact is provided for detector check source activation. All relays except the check source relay are operated in the normally energized or "fail safe" mode.

The -Ml version of the 956A-201 differs from the standard model in that an additional two dry contact sets are provided for the High Alarm output giving a total of three form "C" sets. The spare relay, identified as KI, is driven in parallel with the standard High alarm relay K5 to provide these additional output contacts.

Refer to Loop Diagram S157033A-104 for available relay output contacts and ratings. Detailed 956A-201 information may be found in the Standard Manual in Appendix D.

1.4 LOW RANGE GM AREA DETECTOR 897A-210 The model 897A-210 detector utilizes a Geiger-Muiller (GM) tube as the radiation sensor. The GM tube, electronic printed circuit board and operational radiation check source are contained within an aluminum environmental housing. All detector electrical connections are made through a sealed bulkhead connector.

The range of operation of this detector is 0.01 mR/h to 1R/h for gamma radiation energies from 80 keV to 1.5 MeV.

The detector electronic circuitry includes the required pulse shaping and amplification, anti-jam ( prevents a false low reading if radiation levels greatly exceed the detector range), local pulse height discriminator and output line driver. The detector is supplied with a nominal 575 VDC high voltage and +15 VDC low from the 956A-201-M1. A local regulator in the detector reduces the +15 VDC to +10 for the internal circuitry.

An operational Check Source in the form of an 8 p.Ci, 36CI hermetically sealed capsule is provide to verify the ability of the detector to respond to radiation. The operational Check Source will provide a minimum upscale response of 10 mR/h when activated. As the Check Source half-life exceeds 3E5 years, decay correction over time is unnecessary.

The detector output is a five-volt square wave whose frequency is proportional to radiation intensity. The output is designed to drive a 50 OHM load at distances up to 150ffeet from the detector.

Refer to Appendix D for additional information on 897A series detectors.

1-2 Control Room Intake Radiation Monitors

Section I GENERAL INFORMATION 1.5 DUCT ADAPTER ASSEMBLY Si 57033AI.

The S157033AI provides the mechanical means for mounting the 897A-210 detectors in the Intake Duct and also provides for a sealed electrical penetration of the duct wall.

The S157033AI Duct Adapter is comprised of two major subassemblies. The S157033AI I Duct Adapter is designed for permanent installation on the duct wall. The S 157033A12 Detector'Mounting fabrication is the removable portion of the assembly ahd positions the detector on the duct centerline when installed. The, Si 57033A12 has a standard detector wall mounting bracket attached to the end of the 22" cantilevered arm and a short cable assembly consisting of an outer bulklhead connector for field cable connection and an internal connector to mate with the detector. A replaceable gasket is provided to seal the Detector Mountinfg fabrication and the Duct Adapter fabrication. The Duct Adapter is'equiipped withfeight I/'-.20 X 2" threaded rods (studs) which are field replaceable. Refer to Appendi)CA fo6i dimensions-and assembly details of the S157033A1 Duct Adapter.

1.6 RACK CHASSIS 948B-1 The 948B-1 Rack Chassis is a dual channel version of the standard three channel 948-1 Rack Chassis. The 948B-1 is 19" in width and is provided with front and rear attachment points for standard EIA mounting. The 948B-1 holds two 956A-201-Ml Ratemeters and the S 157033A2 Line Filter/Surge Suppressor Assembly.

Physical dimensions of the 948B-1 are provided in Appendix A.

1.7 LINE FILTER/SURGE SUPPRESSOR ASSEMBLY 5157033A2 The S157033A2 Line Filter/Surge Suppressor Assembly is provided to fulfill contractual requirements for Electromagnetic Compliance (EMC). The assembly consists of two separate and independent line conditioning circuits that provide filtered AC power to each 956A-201-M1 Ratemeter. The S 157033A2 mounts in the center section of the 948B-1 Rack Chassis. The major active components of the S 157033A2 are (2) 960SS-200-10 Surge Suppressor circuit boards, (2) 92-9015-A Line Filters and (2)14-235 ferrite cubes. The S 157033A2 also contains AC line and neutral fuses that protect the internal circuitry from severe over-voltage conditions.

Lontrol Room Intake Radiation Monitors 1-3

Section 1 GENERAL INFORMATION 1.8 RECOMMENDED SPARE PARTS The basic contract provides for a single spare 897A-210 Detector and 956A-201-MI Ratemeter. The following additional items should be stocked:

Part Number Description Qty.

92-9106-A Fuse, Ratemeter 2 A 3AG 5

19-2 Fuse, S157033A2 Line Filter/Surge Suppressor 2 A 5

5-1308 Stud, Duct Adapter. 316SS, 1/4"-20 X 2" 4

5-1307 Nut. Duct Adapter. 316SS 1/4"-20 8

5-858 Washer, Flat, Duct Adapter. 1/4" SS 8

5-822 Washer, Split, Duct Adapter, /4" SS 8

MSJ-4325 "Loctite", Grade A, for 5-1308 stud replacement I

-'-4 Control Room Iniake Radianon Monitors 1-4 Control Room Intake Radiation Monitors

Section 2 RECEIVING INSPECTION AND STORAGE 2.1 RECEIVING INSPECTION AND STORAGE Upon receipt of the unit:

1. Check the shipping cartons(s) and their contents for in-shipment damage. If damage is evident, file a claim with the carrier and contact Inovision Radiation Measurements Repair Coordinator at 440-498-2564 or 800-850-4606 immediately.

2. Check that all items listed on the packing slip are present and in good condition. If any items are missing or damaged, contact Inovision Radiation Measurements Repair Coordinator at 440-498-2564 or 800-850-4606 immediately.

2.2 STORAGE Storage of the instruments must comply with Level B storage requirements as outlined in ANSI N45.2.2 (1972) Section 6.1.2(.2). The storage area shall comply with ANSI N45.2.2 (1972) Section 6.2 Storage Area, Paragraphs 6.2.1 through 6.2.5. Housekeeping shall conform to ANSI N45.2.3 (1972).

Level B components shall be stored within a fire resistant, tear resistant, weather tight enclosure, in a well ventilatedbuilding.

Storage of the instruments must comply with the following:

1. Inspection and examination of items in storage must be in accordance with ANSI N45.2.2 (1972)

Section 6.4.1.

2. Requirements for proper storage must be documented and written procedures or instructions must be established.

3. In the event of fire, post-fire evaluation must be in accordance with ANSI N45.2.2 (1972), Section 6.4.3.

4. Removal of items from storage must be in accordance with ANSI N45.2.2 (1972), Sections 6.5 and 6.6.

Control Room Intake Radiation Monitors 2-1

Section 3 INSTALLATION 3.1, INSTALLATION Installation consists of mounting and wiring the Control Room equipment, mounting and sealing the Duct Adapter and the installation and termination of the 50-100 field cable between the 897A-210 Detector and 956A-201-Ml Ratemeter. Refer to applicable drawings in Appendix A and the standard manuals in Appendix D for layout and dimensional information. The Customer is responsible for securing the monitoring equipment and cable termination. Prior to connecting any cabling to the detector or Rafemeter, point to point continuity checks should be performed to verify that the wiring is in accordance with Loop Diagram S157033A-104. A 1000 VDC hi-pot test is recommended for the terminated High Voltage RG59 cable prior to interconnection.

Installation of the system is as follows:

~WARNIN7G ENSURE THAT, ALL SYSTEM POWER IS REMOVED PRIOR TO CONNECTING ANY FIELD OR ANCILLARY WIRING.

CAUTION Personnel performing the instaliation must be familiar with the intended operation 6f the monitoring system and ithe' location of each~of the components of the monitoring system.

ICAUTION7 "

Failure to install the equipment in accordance with the information'presented could result in damage to the -,

equipment or non-co'mpliance with specific.equipment qualifications. -

I Lontro! Room Intake Radzarion Monitors 3-1 C'ontrol Room Intake Radiation Monitors 3-1

Section 3 INSTALLATION 3.2 CONTROL ROOM EQUIPMENT All Control Room equipment is contained within the 948B-1 Rack Chassis. The 948B-1 Rack Chassis will be shipped with the S157033A2 Line Filter/Surge Suppressor already installed. The 956A-201-M1 Ratemeters should be installed after the mechanical installation of the rack chassis is complete. The 948B-1 rack chassis is designed to be inserted into a cabinet containing standard EIA mounting frames or surface mounted through a solid panel of sufficient gauge material to allow for tapping of #10-32 mounting holes. In either case, the rear of the chassis must be supported to maintain seismic qualification. Two right angle brackets are provided for rear mounting of the chassis to EIA frames. If rear EIA mounting frames are not installed in the cabinet, fishplates may be directly attached to the chassis sides. The rack chassis is provided with front mounting hardware in the form of #10-32 oval head screws, nylon washers and dress covers. Refer to drawing 948B-1 in Appendix A for dimensional information.

Customer 120 VAC 60 Hz power is connected to the rear barrier terminal TB 1 of the S 157033A2 Line Filter/

Surge Suppressor. Train "A" AC power is connected to terminals 1-3, Train "B" AC power to terminals 4-6.

Nominal power consumption is 28 watts per channel. The S 157033A2 Line Filter/Surge Suppressor provides two pre-wired and terminated AC power service loops that plug into the respective J3 connector on the 956A 201-Mi.

Customer connections other than detector wiring are available on 956A-201-MI connectors J I (relay contacts) and J6 (analog outputs). Connectors are provided in a kit form (p/n 942A-100-4) with each Ratemeter. Assembly instructions for each type are be located in the 955A Ratemeter standard manual in the Cable Termination Appendix. All connectors are solder type and no special tools are required for connector assembly. AMP tool #305183 is required to remove pins from the AMP type connectors used for P1 and P2.

Refer to drawing S157033A-104 in Appendix A for specific details. A minimum service loop sufficient to withdraw the ratemeter completely through the rack chassis should be maintained on all rear panel wiring.

Detector wiring is terminated to 956A-201-MI rear panel connectors J4 (High Voltage/SHV type), J5 (Signal

/BNC type) and J2 (Low Voltage and Check Source drive/AMP type). All required connectors are provided packed in the 942A-100-4 connector kit. Connector assembly instructions and coaxial cable trim information is provided in the 956A-201 ratemeter standard manual Cable Termination Appendix. All connectors are solder type and no special tools are required for assembly. AMP tool #305183 is required to remove pins from connector P1. Refer to drawing S157033A-104 in Appendix A of this manual for specific wiring detail.

Note that the overall shield drain wire of the 50-100 detector composite cable MUST be connected to earth ground at the control room end in order to maintain qualified Electromagnetic Compliance.

3.3 DUCT MOUNTED EQUIPMENT The two major subassemblies of the S 157033A1 Duct Adapter Assembly, the S 157033A1 1 Duct Adapter fabrications and the S157033A12 Detector Mounting fabrications are shipped assembled as a unit Remove and retain the nuts, lock washers and flat washers from the studs on each assembly. The detector mounting brackets and detector wiring pigtails are pre-assembled on each of the S 157033A12 Detector Mounting fabrications but the detectors are packed separately.

3-2 Control Room Intake Radiation Monitors

- Section 3 INSTALLATION The S 157033AI 1 Duct Adapter is designed for permanent installation on the Control Room Intake duct wall.

Select a location that will allow the 22" long Detector Mounting fabrication to be completely withdrawn from the duct without obstruction. Using the adapter as atemplate, mark the location of each of the eight Duct Adapter mounting holes. After the eight holes have been marked, a 10" diameter hole must be cut in the duct wall at the geometric center of the mounting hole pattern. The recommended mounting hardware for the S157033A1 I Duct Adapter are 3/8" diameter, Grade 5 or better bolts. A permanent sealant should be applied at the Intake Duct/Duct Adapter interface and the Duct Adapter should be mounted with the selected hardware.

Record the serial number of the 897A-210 detector selected. Place the 897A-210 detector into the detector mounting bracket connector end first and insert and tighten the mating connector on the Detector Mounting fabrication pigtail. Fully seat the detector into the mounting bracket until it bottoms on the two stop pins.

Tighten the two hex set screws on the bracket using a 1/8" hex (Allen) key.

Verify that the neoprene gasket (p/n S157033A13) is in place on the S157033A1 1 Duct Adapter. Insert the S157033A12 Detector Mounting fabri6ation into the Duct Adapter so thai the alignment key on the S157033A12 is in the 12 o'clock position. Replace the flat w ashers, lock washers and nuts removed when the two subcomponents of the S 157033A1 assembly were separated. Torque all eight of the nuts in an alternating pattern to 75 inch pounds.

3.4 FIELD CABLE INSTALLATION The Detector to'Ra-temeter interconnection cable (p/n 50.100) is a composite cable with a nominý. OD of 0.67". The cable consists of eight 18 ga. single conductors,-one RG58 coaxial cable and one RG59 coaxial cable. An overall foil shield with a drain wire wraps all conductors. Termifiation Lt the-Ratemeter end has been described under the installation of Control Room Equipment. At the Intake Duct, the cable is terminated with a solder pin, female military style (AN) connector. The connector (p/n 92-7005-17A), clamp (p/n 92 7005-9A) and bushing (p/n 92-7005-12A) are provided with the 897A-210 d&tector. No special tools are required for installing this connector. Connector wiring in accordance with Loop Diagan SI 57033A-104 is required to maintain qualified Electromagnetic Compliance. The overall shield drain wire and the RG58 coax cable braid MUST be connected to pin "K" along with the dedicated single conductor from the 956A-201-M1 Ratemeter ground originating at J2-3.

Allow sufficient free length of 50-100 -cable 't thý detector loca'tion so that the detector may be removed from the Duct Adapter assembly for calibration checks using the Field Calibrator. The Field Calibrator (848-8A) requires a stable platform with a minimum 1.5 square feet of area capable of supporting 30 lbs.

3.5 START-UP NOTE Before applying AC power, read the "Operation" section of each of the Standard Instruction Manuals located in Appendix D.

(iontrolRoom Intake Radiation Monitors 3-3 Control Room Intake Radiation Monitors 3-3

Section 3 INSTALLATION ZNote Each Ratemeter and Detector will be tagged to indicate pairing. The Detector Conversion Constant and Tau (dead time) value will have been entered into Ratemeter function switch positions 5 and 3, respectively. If the Ratemeter set points have been accidentally defaulted, reenterthe Conversion Constant and Tau values provided on the Detector data sheet.

INotei If the Ratemeter does not receive any pulses from the detector within five minutes of power-up, it will enter into FAIL mode, illuminate the FAIL indicator and de-energize the FAIL relay. Should this condition occur, isolate the cause of the problem to the Ratemeter, Detector or field cabling and correct prior to proceeding.

After the equipment has been installed and all pre-power tests performed, interconnect the monitoring equipment in accordance with Loop Diagram S 157033A-104.

1. Apply power to the channel by depressing and releasing the Ratemeter front panel AC power switch.

2. Enter or verify the set points in the Table below and record these values. Setpoints are entered by placing the rotary function switch in the numbered position corresponding to the set point and depressing the "ENTER" push button to display the current set point value. If the set point is correct, depress "ENTER" again to accept the value, then move the function switch to the next desired position. If the value is to be changed, use the "DIGIT" and "VALUE" pushbuttons to edit the setpoint value, then depress "ENTER" to accept.

I NOTE The Alert setpoint value entered must always be less than or equal to the High alarm setpoint or an error code will be displayed.

I NOTE The values for Low scale, Full scale, Under range and Over range must be multiples of ten or decade values or an error code will be displayed.

3-4 Control Room Intake Radiation Monitors

Section 3 J:!-, *INSTALLATION Function Switch Position Setpoint Value 0

High Radiation Alarm in mR/h Customer Determined 1

Alert Radiation Alarm in mR/h Customer Determined 2

Tau (dead time) in minutes Detector Specific 3

Analog Output Full Scale in mR/h 1.OOE+03 4

Over Range Value in mR/h 1.OOE+03 5

Conversion Constant in mR/h/CPM Detector Specific 6

Not Used N/A 7

Analog Output Low Scale in mR/h 1.OOE-02 8

Calibrate or Scaler Mode in seconds Testing only, raw counts 9

Under Range Value in mR/h 11.00E-02

3.

Turn OFF Ratemeter AC power for a minimum of one minute, then reapply AC power and verify th6 set point values recorded in Step 2.

4. Allow the Ratemeter to operate for a minimum of one minute, and then note the display value. The Ratemeter should now be displaying the true dose rate at the installed location. In a laboratory (low background) environment, this value is nominally 50 pR/h or 0.05 mR/h.

5. Depress and hold the Ratemeter Check Source pushbutton and note the display value after one minute.

The Check Source response should be a minimum of 10 mR/h.

Initial Start-up is complete, radiation source response checks or other plant required tests may now be performed.

3.6 SHUT-DOWN Shutdown is accomplished by depressing and releasing the Ratemeter front panel power switch.

INOTE7 Verify that the required individuals are informed that, depending on specific plant configuration, alarm actuation or control function may occur when Ratemeter power is removed. The relay outputs for High, Alert and Fail will change state upon power removal.

Conti-olRoom Intake Radiation Monitors 3.5

-,'I Control Room Intake Radiation Monitors 3-5

Section 4 OPERATION 4.1 OPERATION Once Start-up and acceptance testing of the monitoring channel is completed, the operation of the equipment is fully automatic. The Detector continuously monitors Intake Duct gamma radiation and provides a proportional, pulse train to the Ratemeter signal input. The Ratemeter displays the equivalent radiation dose rate present in the Intake Duct and provides visual alarms and relay contact outputs should the value exceed entered set points. Continuous, radiation proportional, logarithmic analog outputs in the form of 4-20 mA and 0-10 VDC are provided for chart recorders, data loggers or plant computer. Failure of the Detector, Ratemeter power supplies or Ratemeter microprocessor produce a contact state change and cause a visual indicator to illuminate.

When a Ratemeter is activated, a radioactive Check Source is provided to verify channel response. It is recommended that the Check Source be activated at regular intervals and its response noted. As the isotope used for the Check Source has an extremely long half-life and does not require decay correction, any marked departure from the previous response value may be considered abnormal.

Control Room Insiake Radiation Mon ziors 4-1 Control Room Instake Radiation Monztors 4-1

Section 5 MAINTENANCE, CALIBRATION AND TROUBLESHOOTING 5.1 MAINTENANCE The monitoring channels are designed to operate for extended periods of time with no scheduled maintenance.

Periodic'inspection of the physical condition of gaskets and cabling is recommended. These inspections should be performed at the time of yearly calibration or source testing unless environmental conditions warrant more frequent checks. -Replace any gasket showing deterioration such as cracking, checking or shrinking.

Dust build-up on the 948B-1 Rack Chassis ventilation screens should be prevented. High dust conditions may warrant periodic cleaning of ventilation screens as a precaution against heat accelerated electronic failures occurring in the Ratemeter. Dust loading should be checked at the time of yearly Ratemeter electronic tests unless environmental conditions warrant more frequent checks.

The GM tube utilized in the 897A-210 Detector has a manufacturer specified normal life of 5E10 counts.

With a 50 tmR/h detector dose rate producing an average output of 15 CPM, the theoretical life span of the tube exceeds 6E3 years. Although higher dose rates, elevated temperature, and the practical limits of the tube's hermdtic seals will reduce tube life from this theoretical value, no periodic tube replacement is recommended.

5.2 CALIBRATION - DETECTOR Each detector is factory calibrated at multiple points over its entire range and provided with a data sheet listing Conversion Constant and Tau (dead time) values. These values are selected by computer curve fit to achieve the best possible detector linearity (rate dependence). A three position, 10 mCi 137Cs equipped Field Calibrator (p/n 848-8A) is provided for field verification of monitoring channel response. This device produces nominal rates of 5, 50 and 250 mR/h. Inovision Radiation Measurements does not recommend altering the Conversion Constant in the field based on 848-8A Field Calibrator response.

Control Room Insuike Radiation Monitors 5-1 Control Room Instake Radiation Monitors 5-1

Section5 MAINTENANCE CALIBRATIONAND TROUBLESHOOTING SWARNING THE 848-8A FIELD CALIBRATOR IS A SOURCE OF IONIZING RADIATION. ALL PERSONNEL INVOLVED IN ITS USE MUST BETRAINED IN THE SAFE OPERATION OF SUCH DEVICES. READ THE OPERATING MANUAL FOR THE 848-8A PRIOR TO USE.

I Cauon Insure that all required personnel are informed thatALARM actuation and RELAY CONTACT STATE CHANGE may occur during the performance of the monitor calibration check.

1. To perform a response test using the 848-8A, turn off Ratemeter AC power and remove the S 157033A1 1 Detector Mounting fabrication from the S 157033A1 Duct Adapter. Disconnect the field cable from the S157033A1I bulkhead connector. Loosen the two set screws on the detector mounting bracket using a 1/8" hex (Allen) key and allow the detector to slide forward in the mounting bracket. A second individual, in communication with the person at the detector location, is required in the Control Room to monitor the Ratemeter Display.

2.

Disconnect the Detector from the S157033A11 pigtail and connect the field cable to the Detector. Turn on Ratemeter AC power and allow a 15-minute warm-up to elapse prior to proceeding.

3.

Decay correct to the current data the dose rates for the three positions of the 848-8A Field Calibrator.

The baseline rates for the three positions are found on the Data Analysis sheet of Inovision procedure CAL848-8AD. The half-life of the 848-8A calibrator source is 30.0 years.

4. For the OPEN and CLOSED positions of the calibrator, multiply the decay corrected dose rates by 0.75 and 1.25 to obtain the minimum and maximum response limits. For the INTERMEDIATE position of the calibrator, multiply the decay corrected dose rate by 0.70 and 1.30 to obtain minimum and maximum response limits.

5.

Place the 848-8-105 GM Adapter on the 848-8A Field Calibrator and insert the detector into the 848-8 105 mounting bracket until it bottoms against the stop pins.

6. Allow a minimum of one minute to elapse, and then record the average display value of the Ratemeter for the 848-8A CLOSED position.

7. Unlock the 848-8A and move the Field Calibrator source position lever to the INTERMEDIATE position. Allow a minimum of one minute to elapse, and then record the average display value of the Ratemeter for the INTERMEDIATE position.

8.

Move the 848-8A source position lever to the OPEN position. Allow a minimum of one minute to elapse, and then record the average display of the Ratemeter for the OPEN position.

9.

Return the source position lever to the CLOSED position, lock and secure the 848-8A Field Calibrator.

Turn off Ratemeter AC power and reinstall the Detector and operating configuration cable connections.

10. Place the Detector Mounting fabrication back into the Duct Adapter and replace all retention hardware in the reverse sequence from removal. Tighten the eight V/" hex nuts to 75 inch pounds in an alternating pattern.

5-2 Control Room Instake Radiatton Monitors

"Section5 MAINTENANCE CALJBRATIONAND TROUBLESHOOTING

11. Apply Ratemeter AC power, verify detector operational Check Source Response and return channel to service.

When a Field Calibrator source check fails to provide acceptable results, the following items should be verified:

1. Detector High Voltage is a nominal 575 VDC

2. Ratemeter Lower Discriminator is a nominal 0.50 VDC

3. Ratemeter Upper Discriminator is a nominal 7.0 VDC

4. The 848-8A has no physical damage, missing alignment guides or other operational'abnormalities.

5. Ratemeter set points for Conversion Constant and Tau are correct for the detector in use.

6. Ratemeter counter is correct - verify by injecting a five-volt square wave of known frequency into the Signal Input with the Conversion Constant set to 1.OOEO and Tau set to O.OOEO.

If none of the items listed above prove to be the cause of channel failing the response check, the detector should be returned to the factory for repair and calibration.

5.3 CALIBRATION - RATEMETER If Test Firmware and the 942TS breakout box are available, perform procedure TP956A-201-3 provided with the 955A Standard Manual as described in Section 6 of the manual.

If Test Firmware and the 942TS breakout box are not available, perform the testing and adjustment (if required) per Section 7 of the 955A Standard Manual.

Ratemeter testing in accordance with one of the two above methods is recommended yearly. If malfunction is suspected, it is desirable to run the testing described in Section 7 to aid in trouble-shooting.

5.4 TROUBLESHOOTING All routine trouble shooting of the monitor can be accomplished with a minimum of external test equipment. A digital voltmeter and dual trace, 75 Mhz (minimum) oscilloscope are recommended. Use Loop Diagram S157033A-104 for the following steps.

1. If the channel fails to respond when the Detector operational Check Source is activated, use the oscilloscope to determine if a nominal 5-volt square wave is present at the Ratemeter BNC Signal Input P4.

2. If no waveform is present, verify the Ratemeter High Voltage supply is operating at a nominal 575 VDC. A 1000:1 test jack is provided on the Ratemeter HV printed circuit board for this purpose.

3.

If a nominal 575 VDC is present at the Ratemeter, verify that the required 575 VDC high voltage and

+15 VDC low voltage supplies are present at the detector field connection.

Control Room Insiake Radiation Monitors 5-3 Control Room Instake Radhatiodn Monitors 3

Section5 MAINTENANCE, CALIBRATION AND TROUBLESHOOTING

4. If the one or more of the supplies is not present and the Ratemeter is not at fault, verify that the associated conductor has continuity. If both HV and low voltage conductors have continuity, verify that both check source conductors, common (ground return) conductor and the Signal conductor all have continuity.

5. If no fault is found in the Ratemeter or with field cabling, the Detector must be assumed to be at fault.

Trouble-shoot the Detector using the 897A section of the 955A Standard Manual.

More in depth trouble-shooting information is provided in the 955A Standard Manual along with all internal circuit diagrams for all equipment 5-4 Control Room Insiake Radiation Monitors

AppendixA APPLICABLE DRAWINGS AND BILLS OF MATERIALS A.1 APPLICABLE DRAWINGS AND BILLS OF MATERIAL Appendix A provides a list of all contract specific drawings and bills of material. Standard Manuals in Appendix D contain generic product drawings and bills of material.

Drawings Drawing Number S157033A-104 S157033A1 S 157033A13 S157033A2 S157033A-105 960SS-200-10 960SS-200-13 50-100 GEL948B-1 948B-1-5 848-8-105 Bills of Material S157033A1 S 157033A2 960SS-200-10 948B1-1-5 848-8-105 Description Loop Diagram, Channels R45 and R46 Duct Adapter Assembly Gasket, Duct Adapter Line Filter/Surge Suppressor Assembly Schematic, Line Filter/Surge Suppressor Surge Suppressor PCB Assembly Surge Suppressor Schematic Composite Cable, sheets 1 and 2 Dimensional Outline, Rack Chassis Assembly, Rack Chassis GM Adapter Assembly, Field Calibrator Duct Adapter Assembly Line Filter/Surge Suppressor Assembly Surge Suppressor PCB Assembly Assembly, Rack Chassis GM Adapter Assembly, Field Calibrator Control Room Instake Radiation Monitors A-1

5 897A-210 v 1 PI 4*

DUCT P*ITAIL I.

V, RG15 410-58

+,

C, >

K>> >

C>>>

H >>

DUCT ADAPTORI BULKHEAD CONNECTOR 31-53 DUCT ADAPTOR 5157033A1 DUCT WALL F"

3 FIELD CABLE VICTOREEN P/N 50-100 R

R ROSS RC58 CONTROL ROOM CABINET G1g a58 A2 A&

A O

0V OUTPUT MAI'IJLE AT J2 (iS J4 BUT NlST 2OTtH I&

ALARM CONTACTS ARE SHOWN IN THE SHELF OR DE-ENERGIZED STATE.

A DETECTOR HOUSING AT EARTH GROUND THROUGH DUCT ADAPTER ASSEMBLY.

COMPOSITE CABLE OVERALL SHIELD MUST BE GROUNDED AS SHOWN A

TO ACHIEVE QUAIFIED EMI/Rn IMMUNITY.

A MAXIMUM LOOP RESISTANCE 500 OHMS OR LESS ON 4-20-A OUTPUTS FACTORY CALIBRATION USES 250 OHMS +/-

IX LOAD CUSTOMER CONTACTS RATED AT 5A 120VAC (RESISTIVE)

SIG 9O6,.-201--b4I K>>

C>>

H>>

D P4 J4 ir P5 J5 P2 I42

>>, 1-1 *

>>,: 1 1,'

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>> 20 114.

2

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> > 24 iIAN A

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LF 12l:541 I I.U U~I

"- I 07FT10N f)3 VI FLeD OWp 14llAi k,' I 4"7 PD. 450000 8671 S0 157033 ROCHESTER GAS AND ELECTRIC GINNA STATION CHANNELS R45 AND R46 A

DETECTOR CONNECTOR PIN J1-K ELECTRICALLY CONNECTED TO DETECTOR HOUSING 4..,

m-r r-

t S

-J, ALI..

WA*1t" P OA *41T PL;ANT1 GND A

+ISY c/S

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C/S CA It OJEF C

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1

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(( I lld.

7ý1 kL Jt*

£*ahal

4 NOTES SDETECTOR.

897A-210.

& WALL BRACKET ON 843-6-26 SUPPUED W/OETECTOR 897A-2 i.

& SETSCREWS (2) RETAIN DETECTOR IN BRACKET TO REMOVE DETECTOR LOOSEN BOTH SETSCREWS WITH 1/8" ALLEN KEY AND SLIDE DETECTOR OFF END OF CANTILEVER

&TORQUE BRACKET MOUNTING HARDWARE TO 75 INCH POUNDS MAXIMUM ATOTAL WEIGHT OF ASSEMBLY 40LBS WEIGHT OF REMOVABLE DETECTOR MOUNT WITH DETECTOR INSTALLED 175 LBS.

&APPLY ITEM 17 (THREAD LOCKER) TO oTY 8 5-1307 STUDS AND THREAD V INTO DUCT ADAPTOR FAB (ITEM 1)

, TORQUE FLANGE NUTS TO 75 INCH POUNDS MAXIMUM A, (

TOP VIEW SIDE VIEW P0 450000 8671 SO 157033 ROCHESTER GAS AND ELECTRIC GINNA STATION CHANNELS R45 AND R46 4

3 22 T

1

-3 "Z

8 EXTERIOR VIEW B

I A

DECIMAI.S..XU 015 (XX~

00 ANGLES. k1 FI l

l*

~

ROWEV ALL WURRS &G~

SWAP WGDS AM 170.015 4~

Of3

7 R

-I I

e

,m A

-l I

n NOTEL NUMBERED SRI AND MOUNTING SCREWS (3) SUPPLIED WITH ITEMS 3 & iI.

MOUNT STR TO ITEMS 3 & II (TERMINAL LOCK) AFTER MOUNTING XRuI*.AL,.

BLOCK TO RACK CHASSIS.

& SCHIEM4AT1C DIAGRAM.

5157033A-105 HARDWARE SHOWN IS SUPPLIED LOOSE. HARDWARE TO BE USED TO MOUNT S137033A2 ASSMBLY IN 9480-1 RACK CHASSIS CENTER SECTION soma LOOP FOR RATEwETER AC POWER -

TWO ARE REQUIRED.

WRAP ENTIRE LENGTH WIIH ITEM 35 EXCEPT LAST 3* AT RING LUG END.

APIN I -

BLACK WIRE. ITEM 8 PIN 2 -

WHITE WIRE. ITEM 7 PIN 3 -

GREEN WIRE. ITEM 8

-TRAN A POWER CORD TO 02-1 ()NE/BLACK)

112-2 (NEUT/WHITE)

AND 782-3 (GNO/GREEN)

TRAIN V POWER CORD TO 132-10 (UNE/BI-ACK) 132-11. (NEUT/WHITE AND T32-12 (END/GREEN)

)TnP. 36 PLC'S REAR VIEW OF ASSEMIBLY CUSTOMER WIRNG THAN A AND TRAIN "B*

120VAC 60 HZ TOP VIEW Of ASSEMBLY P 0 450000 8671 so 157033 ROCHESTER GAS ELECTRIC GINKA STATION I INOVISION--.

SFILTER/SURGE mv.am~

SUPPRESSOR ASSEMBLY 501J"Z31-S157033A2 1

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REV PER DCR 11CR16-99 11/29/99 MDH FORM LEADS OF RESISTOR R1 &- R2 SO THAT THE RESISTORS ARE APPROXIMATELY 1/8" ABOVE COMPONENT SIDE SURFACE OF PCB.

2.

TEST PER PROCEDURE TP960SS-200-10.

ITEM 6 (18GA GREEN LEAD) INSTALLED FROM COMPONENT SIDE OF PCB AND SOLDERED ON FOIL SIDE.

CRIMP ITEM 7 (92-7043-A)

USING BURNDY CRIMPER MRB-33T-1N OR EQUIV.

HAND STAMP OR INK REV.

FROM THIS DWG. IN BLANK LO HAND STAMP 3 DIGIT SERIAL NUMBER UNLESS OTHERWISE SPECIFIED DIMENSIONS ARE IN INCHES TOLERANCES ARE:

DECIMALS ANGLES FINISH

.XX=t.015 tI 1 125

.XXX=t.005 t 1*

REMOVE ALL BURRS & BREAK SHARP EDGES.005 TO.015 OEAMTOR TPL CHOECML PROJ D4 APPRO Qk APM' 12/10/92 A.1 I'A INOVISION TITLE SURGE SUPPRESSOR "ASSEMBLY B I 1JH03 I N960SS-200-1 OI SCALENONEI DO NOT SCALE I SHEET 1

OF 1

NOTES:

A D

11 D

C B

A 4

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4

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SPECIFICATION 10 CONDUCTOR CABLE CONSTRUCTION:

2 Coaxial Cables:

a.

Conductor:

b.

Insulation:

c.

Shield:

d.

Jacket:

e.

Impedance:

f. Caaitne I-RGSB C/U Type

21 AWG 19/.0071 T/C Irradiation Crosslinked Polyethylene.116- +/-.004

36 AWG T/C 90%

Min. Coy.

.150" Max.

Irradiation CrosslInked Polyolefin.1950 + oo4l 50 +/- 2 ohms, 32 pf/ft. Nom.

I-RG59 B/U Type Solid.023' Copper covered steel ;0% Conductivity Irradiation Crosslinked Polyethylene.liG t.0841

34 AWG B/C 90%

Min. Coy.

.191" Max.

Irradiation Crosslinked Polyolefln.242" +/-.004' 75 +/- 3 ohms 21 pf/ft. Nom.

JACKET

-DRAIN WIRE "TAPE SHIELD BINDER

18 AWG 7/.8152' stranded tinned copper insulated with a.030' nominal wall of irradiated crossllnked polyolefin.

Nom. O.O,

.106" Pair twisted with a 3.0" max.lay.

Nom 0.0

.212' (Major Axis) 4 Singles:

18 AWG 7/.0152' stranded tinned copper insulated with a.030' nominal wall of irradiated crosslinked polyolefin.

Jnm n n tnrl Conductor Identification:

Coaxial cables printed RG5B C/U Type and RG59 B/U Type on Jacket:

1. R659 B/U Type

2.

R658 C/U Type Pair #1

4.

Pair #2 Filler Material:

Cabling:

Binder:

Black White Red Green Single conductors:

5.

Orange

6.

Blue

7.

White/Black

8. Red/Black

8. Red/Black Flame retardant foam polypropylene as required.

As per cross-sectional diagram with a 9.0' maximum Nom.

O.O.

.002' mylar wrap.

Nom. 0.0.

lay.

.533"

.541' SUGGESTED VENDORS:

FL SURPRENANT WIRE & CABLE BOSTON INSULATED WIRE & CABLE D

REDRAWN & REV PER ECO 2CR12-89

'rpT

1

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REV.

DESCRIPTION D "WT/D E

011 /DATE 06/D A TE APP/DATE U/ D ATE TH IDRA*WING IS THE PROPERJ O VICTWaIW. SP, EF.:

IMC=ORPORTEO.

EIn*HER THE OTRYAIN.

NOR RE PALXNJTIMES OF IT. MDR INFORMATION DERIVED FROM IT.IS TO KE SlYEN TO OTHERS. NO USE 1 TO BE MADE OF IT VHICI IS. OR MAY BE V I C T O R E E N, I N C.

INJURIOUS TO VICTOREEN. INCORPORATED ICLERMES ULUSS OPTIInAL T* E S WI CON IIA EM n.,SOLON.0H.I39-3395 OTI'IsE SPECIFIED IF SPECIFIED 1.UIN_

TITLE Ax

.5_

CABl F npTP r~no 10/CONDUCTOR SIZE OWDING MMOE REO.

B 50-100-TAB D

sm i wD7sx

.AA Mxx

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/-I I

j IlIT APPLICATION MEET W 2 TALE 2 Pair:

Pairs:

3.

L *

++ *

. +o *1, tit.+,,,o+

U INITS APL-I DEW

V t

SPECIFICATION (CONTINUED)

Drain wire:

Tape Shield:

Jacket:

Finished OD.D.:

Inspection Test Vo Flame Test:

20 AUG 7/.0121' stranded tinned copper spiraled around cable and In contact with aluminum mylar tepe shield.

Aluminum mylar tape wrap with aluminum aide facing In.

Nom.

O.D.

.517'

.0680' Nominal wall of hypalon per IPCEA S-19-81.

.667" +/-.025" Teat Requirements ltage:

RG59 B/U Type:

RG58 C/U Type:

18 AUG Condrs.:

5000 V RMS 3500 V RMS 2500 V RMS DESCRIPTION (CONTINUED)

III. Cable Assembly:

A. Sub-assembly B. Final Assembly C. Binder Tape D. Overall Shield

.E. Overall Jacket F. Outside Diameter. nom.

Cable IEEE 383 70,000 BTU ribbon burner.

10/C Detector Cable DESCRIPTION:

I. Coaxial Components:

RG 58/U alt.

A. Conductors 191.0071' T.C.

8. Insulation Crosslinked Polyethylene C. Flame Tape Mica tape D. Diameter under shield

.119' E. Shield

36 AUG 921 Coverage F. Insulation wrap

.001' Mylar G. Jacket type Bostrad 7 (CSPE)

H. Thickness. nom.

.015" J. O.D..

nom.

.181' K. Impedance. nom.

50 Ohms L. Capacitance. nom.

32 pf/ft.

M.Dielectrlc Strength(min) 5.0 KVAC for 1 min.

II.

Instrument Components:

A. Conductors B. Insulation (Each Cond.)

C. Insulation Covering (Each Conductor)

D. Voltage Rating RG 59/u alt.

19/36 T.C.

CrosslInked Polyethylene Mica tape

.115'

36 AUG 921 Coverage

.001' Mylar Bostrad 7 (CSPE)

.015"

.217" 75 Ohms 21 pfPft.

7.0 KVAC for 1 min.

8x #18 AUG. 7/.0152' T.C.

.020' Ethylene propylene rubber per IPCEA S-68-516 Interim #1

.010' Bostrad 7 (CSPE) per IPCEA S-19-81 300V Twist 2 pairs #18 AUG Cable 2 coaxes. 2 twisted pairs.

and 4 x #16 AUG leads around a glass filler core Flame retardant grade Aluminum/mylar tape with #20 AUG stranded T.C. drain wire

.060' Boatred 7(CSPE)per IPCEA 5-19-81

.675' +.015

.035 TAB OUTER JACKET (SOLID OR STRIPED) 50-100 BLACK 50-100-1 RED 50-10072 GREEN D

REDRAWN & REV PER ECO 2CR12-89

-7 Ia.

0MrIPTON MQTE I DTE IDMTE LATE THIS DRAWING18 THE PROPERTT 1F VICTOREEN.

ICORPORATED NEITER ITE ATHRING. NOR JRE PROOC"IONS OF" IT. NOR INFORKATION DERIVEO FROM IT.'8 TO OE GIVEN TO OTHRS. NO USE 1S TO BE MAD OF IT WHICH 18. OR MAY BE V

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INJURZOU8 TO VI"CTOZEN. INCORPORATED C,

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ESS O'PIIMIAL TMHW ES 6M C iP 8..*IS.N HtI 39-3395 O'f3l'ESRSE CIFID IF SPECIFIED mA** TILE

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PSO150R 300 AN300 Product No: S157033A1 Rev: 002 ECN: 2014 Drawing Number: S157033A1 QPADEVO011 Inovision Radiation Measurements, LLC Product Structure 5/29/01 8.42.13 PAGE DUCT ADAPTER ASSEMBLY Item No.

Product Number DrawingNo.

Siz Description Quantity ECH S157033A11 S157033A12 S157033A13 857-10-7 857-10-22 31-63 50-100 92-7005-9A 92-7005-12A 92-7005-17A 5-1001 5-822 5-858 5-842 5-1307 5-1308 NSJ-4325

$157033A11

$157033A12 S157033A13 NONE PER PRINT PER PRINT PER DWG D

DUCT ADAPTER FABRICATION D

DETECTOR MTG.

FABRICATION C

GASKET -

DUCT ADAPTOR PLATE

GASKET, 2.0 SQ X.031 THK SCREW,SEELPH 6-32 SLOT.50 SS PN CONNECTOR, BULKHEAD CABLEP COAX, 1O/C, DETECTOR D

CLAMP D

BUSHING D

CONNECTOR, FEMALE

SCREW, CAP, H,.25-20 X.75

WASHER, SPLIT,

.25, SS

NUT, HEX,

.25-20, SS

WASHER, FLAT,

.25, SS

NUT, 1/4-20, 316SS

STUD, 1/4-20, 316SS

SEALANT, LOCTITE, GRADE A N

END OF REPORT 1

2 3

4 5

6 7

8 9

10 11 12 13 14 15 16 17 1

Rev Obs Act 1.000 1.000 1.000 1.000 4.000 1.000 2.000 1.000 2.000 1.000 4.000 12.000 12.000 4.000 8.000 8.000

.010 EA EA EA EA EA EA FT EA EA EA EA EA EA EA EA EA EA 1740 1740 1748 1590 1590 1686 1590 1587 1587 1587 1590 1590 1590 1590 1590 1590 1590 1

1 1 2

1 4 8

8 8

2 2

1 N

N N

Y y

Y Y

Y

PSO1SOR 300 AN300 Product No: $157033A2 Rev: 001 ECN: 1740 Drawing Number: $157033A2 QPADEVO01I Inovision Radiation Measurements, LLC Product Structure 5/29/01 8.42.28 PAGE FILTER/SURGE SUPPRESSOR Item No.

DrawingNo.

Siz Description Quantltv 1

2 3

4 5

6 7

8 9

10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 Product Number 92-9015-A 960SS-200 92-7041-2A 92-7044-A

$157033A21 MSB-0071-1 MSB-0071-2 MSB-0071-4 36-86 19-2 57-112

$157033A-105 5-268 5-389 5-266 5-852 39-106 5-838 14-235 5-837 5-824 5-794 5-825 5-713 5-282 5-200 5-836 5-833 5-850 5-261 67-81-4S 67-82-4 67-83-3S 61-1 SM-2202 36-10 200-135 61-5 TPS157033A2 WLS157033A2 ECH FILTER POWER LINE PER BOM BM SURGE SUPPRESSOR 92-7041-2A B 12 POLE BARRIER STRIP WITH FUSE BLOCK,2 POSITION

$157033A21 D

CHASSIS, PROCESSED

WIRE, iOOK-UP, 18 AWG, WHITE

WIRE, HOOK-UP, 18 GA, BLACK

WIRE, HOOK-UP, 18 AWG, GREEN

TERM, LUG,

CRIMP, 22-16,

6-8

FUSE, 2A 250V, 3AG TERMINAL STRIP, 6 POINT PER PRINT C

SCHEMATIC, SURGE SUPPRESSOR

SCREW, MACHt,

FHI, 6-32 X.31,

SCREW, MACHI,

PII, 8-32 X 1.12,

SCREW, MACH, FH, 6-32 X.25,

NUT, N1EX, 6-32, SS, SM

STANDOFF, M/F, 6-32 X.25, HEX

WASHER, FLAT, 6,

SS NONE PN FERRITE CUBE

WASHER, SPLIT, 6,

SS

WASHER, FLAT, 8,

SS

WASHER, SPLIT, 8,

SS

NUT, HEX, 8-32, SS WASHER,FLAT,8,N,NAT

SCREW, MACH, FH, 6-32 X.50,

SCREW, MACHI.

FH, 4-40 X.44,

WASHER, SPLIT, 4,

SS

WASHER, FLAT, 4,

SS

NUT, HEX, 4-40, SS, SH

SCREW, MACHI, PH, 6-32 X.25, CONNECTOR, 4 PIN,

CIRC, CABLE CONNECTOR, SHELL/CLAMP CONNECTOR INSERT,F,18-16 WIRE HARNESS TIE PANDUIT MINIATURE

SLEEVE, SPIRAL-WRAP.06"-.5"OD

TERM, LUG,

SOLDER, LOCK EYELET 200-135 B

NAME TAG PN HARNESS TIE PANDUIT MINIATURE PER TP TP TP FOR S157033A2 FILTER/SERGE PER WL WL ASSEMBLY WIRE LIST FOR 2.000 2.000 1.000 2.000 1.000

.000

.000 36.000 4.000 1.000 1.000 4.000 4.000 6.000 24.000 8.000 24.000 2.000 22.000 4.000 4.000 4.000 4.000 4.000 2.000 2.000 2.000 2.000 8.000 2.000 2.000 6.000 24.000

.001 2.000 1.000 2.000

.000

- - END OF REPORT ***

1 EA EA EA EA EA FT FT FT EA EA EA EA EA EA EA EA EA EA EA EA EA EA EA EA EA EA EA EA EA EA EA EA EA EA FT EA EA EA EA EA 1590 PS 1744 PS 1625 1590 1740 1590 1590 1590 1590 1590 1590 1740 1590 1590 1590 1590 1590 1590 1686 1590 1590 1590 1590 1590 1590 1590 1590 1590 1590 1590 1590 1590 1590 1590 1590 1590 PS 1840 1352 1740 1740 Rev Obs Act 5

3 3

1 1

3 3

1 6

1 1

1

PSO150R 300 AN300 QPADEVOI Product No: 960SS-200-10 SURGE SUf Rev: 005 ECN: 11CR16-99 Drawing Number:

Item No.

Product Number DrawingNo.

Siz 92-1088-A Loc: R1,2 92-3047-A Lac: C1-3 92-6035-A Loc: CR1-3 960SS-200-12 960SS-200-13 960SS-200-14 2 960SS-200-11 5 MSA-0007 6 MSB-0071-4 7 92-7043-A NONE PN 12 GT2 13 MSJ-4567 14 TP960SS-200-10 Oil PPRESSOR ASSEl Inovision Radiation Measurements, LLC Product Structure 4BLY Description

RESISTOR, 2,

5W CAPACITOR,.1 UF

DIODE, VARISTOR, 130V AC SILKSCREEN,SURGE SUPPRESSOR P.

SCHEHATIC,SURGE SUPPRESSOR SOLDER HASK,SURGE SUPPRESSOR CIRCUIT BOARD PROCESSED

SOLDER, CORE, 60/40,

.031 DIA

WIRE, HOOK-UP, 18 AWG, GREEN TERHINAL,LUG,RING,22-16AWG,RED PRINTED CIRCUIT BD TRAVELLERS

INK, EPOXY, WHITE TEST PROCEDURE,SURGE SUPPR BD Quantity 2.000 3.000 3.000 1.000 1.000 1.000 1.000

.0Ol

.001 1 000 1.000

.001

.001 EA EA EA EA EA EA EA LB FT EA EA QT EA ECN 1590 1590 1590 1590 1590 1590 1590 1303 1590 1622 1590 1590 11CR16-99 5/29/01 8.43.30 PAGE Rev 2

1 2

2 1 5

2 1

Obs N

N N

Act Y

Y Y

END OF REPORT ***

1

14:35:08 300 TODAY: 11/17/92 PART: 948B-1-5 iTEM NBR.

PART NUMBER 1

948B-1-3 2

844-7-7 3

5-189 4

846-1-33 5

946-1-6 6

5-261 7

5-837 S

948-1-4 9

5-361 10 5-794 11 5-825 VICTOREEN.

INC.

COMPONENT BILL OF MATERIAL DESC: ASSEMBLY, 2 BAY CHASSIS DESCRIPTION CHASSIS.

2 BAY.

AREA MONITOR LOC:

GUIDE LOC:

SCREW.

MACH, FH, 4-40 X.31, LOC:

BRACKET NUT LOC:

ADJUSTABLE WEDGE LOC:

SCREW.

MACH.

PH, 6-32 X.25.

LOC:

WASHER, SPLIT, 6,

SS LOC:

RACK CHASSIS REAR MOUNT BRACKE LOC:

SCREW.

MACH, PH, 6-32 X.38.

LOC:

WASHER.

SPLIT,

8. SS LOC:

NUT.

HEX, 8-32, SS LOC:

JUANTIT) 1.00c 4.000 6.000 4.000 2.000 2.000 2.000 2.000 4.000 4.000 4.000 PAGE I1 REV: A ECN: 11JR2-92 ECN

} EA 11JR2-92 EA J11R2-92 EA IIJR22-02 EA 1JRR2-92 EA 1J1R2-92 EA 11JR2-92 EA 11JR2-92 EA BM 11JR2-92 EA IIJR2-92 EA 11JR2-92 EA 11JR2-92

PSO1SOR 300 AN300 Product No: 848-8-105 Rev: 004 ECN: 2004 Drawing Number: 848-8-105 QPADEVO011 Inovision Radiation Measurements, LLC Product Structure 5/29/01 10.42.28 PAGE ASSEMBLY FIELD CALIBRATION Item No.

Product Number DrawingNo.

Siz Description Quantity ECH 848-8-106 848-8-108 848-8-109 848-8-112 848-8-113 848-8-114 12-36 43-1 5-261 5-297 5-352 5-852 5-848 5-767 200-135 848-8-3086 ADAPTER HOUSING GUIDE BLOCK, PROCESSED ACTUATOR ARM CAM FOLLOWER LOCK BAR SUPPORTDETECTOR NONE PN EXTENTION SPRING.1880D/.72LG

WASHER, EXTRUDED,

.141ID/.250D

SCREW, MACH, PH, 6-32 X.25,

SCREW, MACH, BH, 6-32 X.88,

SCREW, MACH, PH, 8-32 X.31,

NUT, HEX, 6-32, SS, SH NONE PN

NUT, HEX, 2-56, SS

WASHER, INT, 8,

S, CP 200-135 B

NAME TAG KEY GUIDE ASS'Y

- - END OF REPORT ***

1 2

3 4

5 6

7 8

9 10 11 12 13 14 15 16 1

Rev Obs Act 1.000 1.000 1.000 1.000 1.000 1.000 1.000 2.000 2.000 1.000 4.000 3.000 1.000 4.000 1.000 1.000 EA EA EA EA EA EA EA EA EA EA EA EA EA EA EA EA 1

2 1590 1590 1590 1590 1590 1590 1759 1590 1590 1590 1590 1590 1419 1590 PS 1840 1590 N

N N

N H

N N

N Y

Y Y

Y 1

6 1

Appendix B CALIBRATION PROCEDURES AND DATA B.1 CALIBRATION PROCEDURES AND DATA Appendix B contains all radiation calibration procedures and resulting data for Detectors to be provided under the contract as well as the 848-8A Field Calibration data. Note that this information is provided as baseline data for both the detectors and the calibrator. It is not intended that these procedures be performed on-site.

Procedures CAL-GM6 CAL848-8AD Data Sheets CAL-GM6 Range Calibration Procedure for 897A Series Detectors Field Calibrator Calibration Procedure - Digital Data Sheets for 897A-210 sOn 131,132 and 100762 CAL848-8AD Data Sheets for 848-8AD s/n 101364 Control Room Instake RodLotion Monitors B-i W,

Control Room Instake Radiation Monitors B-1

'VICTOREEN, INC.

TITLE:

897A GM DETECTOR FACTORY CALIBRATION PROCEDURE CUSTOMER:

N/A -

PAGE DOCUMENT:

CAL-GM6 REV. A 1 OF 14 ISSUE DATE:

NOVEMBER 13,1995 REVISION LIST REV ECO°#

9CR28-95 APPROVAL TCECHNICAL SUPPORT MANAGER QUALITY ASSURANCE O

CALIBRATION SUPERVISOR ISSUED BY: D. WARNER cal/d#6/cal-gm6.doc FILE COPY

VICTOREEN, INC.

TITLE:

897A GM Detector Factory Calibration Procedure CUSTOMER:

N/A DOCUMENT:

CAL-GM6 REV. A DOCUMENT REV. LEVEL A

NI-IA lel DESCRIPTION/PAGES AFFECTED flRIrfJA IIC~r I

cal/d#6/ca1-gm6.doc FILE COPY2 I

i I

I

VICTOREEN, INC.

TITLE:

897A GM Detector Factory Calibration Procedure CUSTOMER:

N/A DOCUMENT:

CAL-GM6 REV. A TABLE OF CONTENTS DESCRIPTION PAGE PURPOSE....................................................4 SCOPE 4

RESPONSIBILITIES.

.. 4 ENVIRONMENTAL CONDITIONS.....................................

5 EQUIPMENT REQUIREMENTS

.... 5 REFERENCES.........................................................

............... 5 PROCEDURE.................................................................

6 DOCUMENTATION................................................

8 cal/d#6/cal-gm6.doc FILE.COPY3 SECTION 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0

VICTOREEN, TITLE:

CUSTOMER:

DOCUMENT:

INC.

897A GM Detector Factory Calibration Procedure N/A CAL-GM6 REV. A 1.0 PURPOSE The purpose of this procedure is to provide detector specific calibration data and to insure the detector performance is within stated tolerances.

2.0 SCOPE 2.1 To develop calibration data for the 897A series detector so that parameters can be determined for use with the 960 based Digital Area Monitor or 956 Series Area Monitor Readouts and to set or verify the detector's anti-jam function. In addition, the performance of 897A series detectors used with Analog Area Monitors or provided as replacements will be verified.

2.2 The parameters that will be determined by this procedure are:

Conversion Constant Dead Time Correction Background Countrate Linearity Check source response with conversion constant entered 3.0 RESPONSIBILITIES 3.1 Personnel performing this procedure must have a skill level per S.O.P. 902.003 of Level 1 and be an approved user of the radiation facilities utilized in this procedure.

3.2 QA has the responsibility to insure that this procedure is properly implemented and that all data is reviewed and approved prior to movement of material to the next work station.

In addition, Q.A. shall retain copies of all data generated in a job file for the detector(s) calibrated.

cal/d#6/cal-gm6.doc FLE GOPy

VICTOREEN, INC.

TITLE:

897A GM Detector Factory Calibration Procedure CUSTOMER:

N/A DOCUMENT:

CAL-GM6 REV. A 4.0 ENVIRONMENTAL CONDITIONS 4.1 Environmental conditions for temperature and humidity shall be the prevailing laboratory ambient.

5.0 EQUIPMENT REQUIRED 5.1

2 Phillips screwdriver.

5.2 Completed and signed TP897A Data Sheets for detectors to be calibrated.

5.3 956A-201 Digital Readout Module, must be calibrated.

5.4 Calibrated Source Ranges (TRI-SOURCE or SICR).

5.5 Computer and Disc containing program 94085701 Rev. B for GM Area Monitors.

5.6 Mou'nting Fixtures for detectors in TRI-SOURCE and SICR as required.

5.7 956A-201 to 897A series detector - 20 ft. minimum length.

5.8 Digital Voltmeter: Fluke 8050A or equivalent - must be a calibrated device.

5.9 Data Sheets.

(Sample attached.

These sheets delineate the minimum recording requirements; computer data sheets must contain the same minimum information.

5.10 Oscillosc-0ope 50 Mhz - must be a calibrated device and be'equipbed with a X1O probe.

6.0 REFERENCES

6.1 Procedure CAL-TRI-SOURCE.

6.2 Procedure'CAL-SICR.

6.3 955A-1-1

Instruction manual for ratemeter and detector.

cal/d#6/cal-gm6.doc 5ILEGOPY'

VICTOREEN, TITLE:

CUSTOMER:

DOCUMENT:

INC.

897A GM Detector Factory Calibration Procedure N/A CAL-GM6 REV. A 7.0 PROCEDURE 7.1 Configure 956A-201 ratemeter shown in Table 1.

TABLE 1 NOTE Anti-jam function on the 956A-201 used for calibration should be disabled by removing Jumper JP7 and placing JP6 in the 2 - 3 position.

7.2 Mount detector in TRI-SOURCE using Adaptor Fixture and allow 15 up period for detector and all electronics prior to data collection.

height so that the laser spot is located on the detector housing Figure 1.

minute warm Adjust Table as shown in 7.3 Remove and retain the screws holding the detector assembly into the housing along with the plastic washers.

7.4 Connect the oscilloscope to center pin of signal input jack P5 on the 956A-201 using a X1O probe.

The probe ground lead should be connected to the P5 grounding lug.

Set the oscilloscope trigger to "AUTO", vertical gain to 1 volt/division, coupling to "DC" and a sweep rate of 5 microseconds/division.

7.5 Using the TRI-SOURCE in accordance the instructions in Procedure CAL-TRI SOURCE, expose the detector to the dose rate as given in Table 2 for anti-jam adjustment. Adjust potentiometer R41 on the detector circuit board in increments of 1/4 turn counter-clockwise until the oscilloscope just begins to show symmetrical anti-jam output square wave adjustment. Stop adjustment.

cal/d#6/cal-gm6.doc FILE GOPY 6

VICTOREEN, INC.

TITLE:

897A GM Detector Factory Calibration Procedure CUSTOMER:

N/A DOCUMENT:

CAL-GM6 REV. A TABLE 2-DETECTOR TYPE REQUIRED FIELD INTENSITY 897A-210 897A-211 3.09E3 to 3.22E3 mR/h 897A-220 "897A-221 3.07E4 to 3.20E4 mR/h 897A-230 897A-231 2.45E5 to 2.55E5 mR/h 7.6 Place the 956A-201 function switch in position 8 (Calibrate Mode) and enter a 60 second count time. When the backlight legen'ds' cease -flashing, record the anti-jam count rate on the Data Sheet.- A-minimum count value'of 2.40E6 is required for this step.

7.7 Using the Calibration Sources in accordance with instructions in procedures CAL TRI-SOURCE and CAL-SICR, expose the detector in accordance with Tables 3, 4, or 5 depending on detector type. Begin counting only after the source if fully open or raised.

Count timesshould be, adjusted for a mininum" of 10,000counts or a "maximum of five minutes counting time -- whichev'er occurs first.

7.8 Using computer and program 94085701 Rev.

B, enter NET count rates to determine Dead Time Correction value and Conversion Constant and record on Data Sheet. Attach print-out to Data Sheet. Acceptance Criteria is a value of less than 20% for linearity error.

If information is available, enter Customer, S.O. Number, etc., into 94085701 program along with operator and detector model and serial numbers.

7.9 Place the 956A-201 function switch in position 5 and enter the Conversion Constant (CCU).

Move the function switch to position 2 and enter the Deadtime (TAU) value. These values were determined in Step 7.8 and should be rounded to three significant digits for entry.

7.10 With the calibrator source lowered and all alternators lowered, activate the check source push-button on the 956A-201 ratemeter.

Record the check source mR/h response on the Data Sheet when the displayed value has stabilized.

cal/d#6/cal-gm6.doc FILE 7OPY

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DOCUMENT:

INC.

897A GM Detector Factory Calibration Procedure N/A CAL-GM6 REV. A 7.11 Sign completed Data Sheet and traveler step at the completion of the calibration if all values are within tolerance. Reject any detectors that have failed this procedure and forward along with copies of the data taken to the Production or Repair Department as appropriate.

7.12 Reinstall the six screws and flat washers removed in Step 7.3 that retain the detector into the housing.

8.0 DOCUMENTATION 8.1 Computer generated Data Sheets are used for Source Range and Set-up Data.

A legible copy of the Curve Fit printout shall be attached to the Data Sheet. A copy of these data sheets will be forwarded to the Staff Physicist.

8.2 When a detector is accepted into stock, the Data Sheets shall remain with the detector.

8.3 When a detector is assigned to a job, the Traveler (if applicable) shall be completed with the P.O. number and any other appropriate customer identification.

8.4 When a job is shipped, records shall be retained by QA appropriately filed and microfilmed.

cal/d#6/cal-gm6.doc FILE COPY 8

VICTOREEN, INC.

TITLE:

897A GM Detector Factory Calibration Procedure CUSTOMER:

N/A DOCUMENT:

CAL-GM6 REV. A To be used with 897A-230 and 897A-231 Detectors CALIBRATION POINT MINIMUM FIELD STRENGTH MAXIMUM FIELD STRENGTH

1 9.50E4 mR/hr 1.00E5 mR/hr

2 3.00E4 mR/hr 4.00E4 mR/hr

3 9.50E3 mR/hr 1.20E4 mR/hr

4 3.00E3 mR/hr 4.00E3 mR/hr

5 9.50E2 mR/hr 1.20E3 mR/hr

6 3.00E2 mR/hr 4.00E2 mR/hr

7 9.50E1 mR/hr 1.20E2 mR/hr

8 3.OOE1 mR/hr 4.OOE1 mR/hr TABLE 4:

To be used with 897A-220 and 987A-221 Detectors CALIBRATION POINT MINIMUM FIELD'STRENGTH MAXIMUM FIELD STRENGTH

1 9.50E3 mR/hr 1.00E4 mR/hr "L-7#2 3.00E3 mR/hr 4.00E4 mR/hr

3 9.50E2 mR/hr 1-.20E3 mR/hr

4 3.00E2 mR/hr

"-A.OOE2 mR/hr

5 9.50E1 mR/hr 1.20E2-mR/hr

6 3.OOE1 mR/hr 4.OOE1 mR/hr

7 9.50E0 mR/hr 1.20E1 mR/hr

8 3.OOEO mR/hr 4.OOEO mR/hr

9 9.50E-1 mR/hr 1.20E0 mR/hr TABLE 5:

To be used with 897A-210 and 897A-21 1 Detectors CALIBRATION POINT MINIMUM FIELD STRENGTH MAXIMUM FIELD STRENGTH

1 9.50E2 mR/hr 1.00E3 mR/hr

3

4

5

6

7 3.00U-l mu/nr

4.

.E2 mR/hr 1.20E2 mR/hr 9.5UE1 mR/hr 3.00E1 mR/hr 9.50E mR/hr 1.20E1 mR/hr r% n % -

t

.,5-.u0t mti/hr 4..

O mR/hr 4.OOE1 mR/hr 1.20E0 mR/hr cal/d#6/cal-gm6.doc FILE-COPY 9 TABLE 3:

4.00E2 mR/hr 4.00E1 mR/hr 1.20E1 mR/hr 4.00EO mR/hr 9.50E=-i mh/nr 1.20EO mR/hr

VICTOREEN, INC.

TITLE:

8 CUSTOMER:

N/

DOCUMENT:

Ci Key 37A GM Detector Factory Calibration Procedure

'A AL-GM6 REV. A Key I

GM Tube Location FIGURE 1 cal/d# 6 /cal-gm6.doc iILE COPY 0 0, 4,"

VICTOREEN, TITLE:

CUSTOMER:

DOCUMENT:

INC.

897A GM Detector Factory Calibration Procedure N/A CAL-GM6 REV. A Sample 897A-21X Detector Data Sheet Customer:

P.O. No.:__

Project:

W.O. No.:

S.O. No.:

Detector Model No.:

Readout Model No.:

7.5 Anti-jam Dose Rate 7.6 Anti-Jam Duty CPM 897A-21 956A-201 Serial No.:

Tag No.:'____

Serial No.:

Cal Date:

mR/h (Actual)

(2.40E6 Minimum) 7.7 Range Data Position & No. of

". Atteniuators, Count Time Accumulated fSeconds}

Counts Gross Counts (Lcpm Net Count Rate fcpm1 S.I.C.R. CALIBRATION INFORMATION

Background

TRI SOURCE CALIBRATION INFORMATION Anti-Jam (2.40E6 Min.)

7.8 Conversion Constant:

Linearity Error < 20%

7.9

. Check Source Response:

Conducted By:

Q. A. Review By:

Dead Time Correction:

(Yes) mR/h (100 mR/h, Minimum)

Calibration Date:

Date:

cal/d#6/cal-gm6.doc FILE -COPY1 Intensity (mR/h)-

VICTOREEN, INC.

TITLE:

897A GM Detector Factory Calibration Procedure CUSTOMER:

N/A DOCUMENT:

CAL-GM6 REV. A Sample 897A-22X Detector Data Sheet Customer:

P.O. No.:_________

Project:

W.O. No.:

S.O. No.:

Detector Model No.:

Readout Model No.:

897A-22 956A-201 Serial No.:

Serial No.:

Tag No.:

Cal Date:

7.5 Anti-jam Dose Rate 7.6 Anti-Jam Duty CPM mR/h (Actual)

(2.40E6 Minimum) 7.7 Range Data Position & No. of Attenuators Count Time iSeconds)

Accumulated Gross Counts kclm)

Net Count Rate (cpm)

S.I.C.R. CALIBRATION INFORMATION

Background

TRI SOURCE CALIBRATION INFORMATION Anti-Jam (2.40E6 Mm.)

7.8 Conversion Constant:

Linearity Error < 20%

7.9 Check Source Response:

Conducted By:

Q. A. Review By:

cal/d#6/cal-gm6.doc Dead Time Correction:

(Yes) mR/h (100 mR/h, Minimum)

Calibration Date:

Date:

FILE COPY 12 Intensity lmR/hl

VICTOREEN, INC.

TITLE:

897A GM CUSTOMER:

N/A DOCUMENT:

CAL-GM6 Customer:

Project:

Detector Model No.:

Readout Model No.:

7.5 Anti-jam Dose Rate 7.6 Anti-Jam Duty CPM Detector Factory Calibration Procedure REV. A Sample 897A-23X Detector Data Sheet P.O. No.:_________

W.O. No.:

S.O. No.:

897A-23 956A-201 Serial No.:

Serial No.:

Tag No.:

Cal Date:

mR/h (Actual)

(2.40E6 Minimum) 7.7 Range Data Position & No.-of Attenuators Count Time Accumulated (Seconds C

Gross Counts Net Count Rate kcpm1 kpm1 S.I.C.R. CALIBRATION INFORMATION

Background

TRI SOURCE CALIBRATION INFORMATION Anti-Jam (2.40E6 Min.)

7.8 Conversion Constant:

Linearity Error < 20%

7.9 Check Source Response:

Conducted By:

q. A. Review By:

cal/d#6/cal-gm6.doc Dead Time Correction:

(Yes) mR/h (100 mR/h, Minimum)

Calibration Date:

Date:

FILE-COPY13 Intensity ImR/h)

VICTOREEN, TITLE:

CUSTOMER:

DOCUMENT:

INC.

897A GM Detector Factory Calibration Procedure NIA CAL-GM6 REV. A Detector Curve Fit Program -- GM Area Monitors 94085701 Revision B Model No.:

Serial No.:

Data From Calibration Range Calc Eiekl

%Q Deviation TAU =

Root sum of the squares of the deviation is Background CPM:

Calibrated By:

S.C. No.:

Date Calibrated:

Customer:

Customer Tag No.:

cal/d#6/cal-gm 6.doc FILE COPY 14 Field mlL*h CPM CCI =

Calibration Procedure for Model 848-8 Field Calibrator-Digital

rw

REV. LEVEL ECO #

DESCRIPTIONIPAGES AFFECTED 4

2069 Revise CLOSED and OPEN distances to envelope older calibrators with reduced activity.

3 1957 Revised to incorporate current Tri-Source NIST traceable points.

Revised Data Analysis Sheets to improve usability. Revised Tri-Source points to, B

12CR12-97 utilize 20 Ci Cs-137 Source with a maximum of two attenuators. Revise 977 Response Tolerance for new sources.

A 5JR7-95 Adapted from CAL848-8 for use with readouts only, and incorporate new Tri-Source values, use-o Dital Readout Electronics, and acceptance criteria.

ENGINEERING L

DATE

/

CALIBRATION LABORATORY DIREC-;OK j'*..°"DATE

_S/000/,

QUALITY ASSURANCE DATE i-'/k2,2,oo/

RADIATION SAFETY OFFICEI" DATE s"t*', o DATE TITLE Calibration Procedure for-Model 848-8 Inovision Radiation Measurements 5/18/01 Field Calibrator-Digital REV ECO NO.

RELEASED FOR -

C60 OTRL SHEET NO.

SIZE E

2069 PRODUCTION 1 of 9 CAL848-8D CAL

iI 1.1 The purpose of this procedure is to provide the customer with calibrated baseline dose rate data for the Model 848-8 Field Calibrator.

1.2 This procedure defines the methodology for determining the actual dose rate, within +/- 10%, for the CLOSED, INTERMEDIATE and OPEN positions on the Model 848-8 Field Calibrators. For field use, this error should be combined with the overall detector accuracy and the statistical accuracy of the displayed value.

2 SCOPE 2.1 This procedure applies to the 848-8 Field Calibrator, when used with the following detectors:

Model 857-2XA GM Detector for Salem Digital Application Model 897-XXX GM Detector used with 956 Series or Model 960 Readout Model 897A-XXX GM Detector used with 956 Series or Model 960 Readout Model 977-2XX Ion Chamber Detector used with 946 Series or Model 960 Series Readout Model 857A-XX GM Detector for Korea Digital Application NOTE When using the Calibrator with a Model 897A-XIX, Low Range Detector, the open position will overrange the unit, and should not be used.

2.2 Each 848-8 Calibrator will be provided with Calibration Data for use with the Digital Application GM and 977-XXX Ion Chamber type detectors. When required by Sales or Repair Order, this procedure may also be used to obtain calibration data for the 848-8 calibrator with Digital Application GM stainless steel detectors. Unless otherwise required by customer, data for the 897A-220 GM Detector and 977-2XX Ion Chamber Detector will be provided. Note that the GM Detectors require the use of an adapter insert, P/N 848-8-105, in the 848-8. For GM Detectors with stainless steel housings, adapter P/N 848-8-400 is also required.

2.3 In the field, reproducibility of the baseline data expected is +/- 20% of the decay corrected field for 977 Detectors and +/- 25% of the decay corrected field for 897 detectors. This tolerance shall be applied to each of the open and closed calibrator positions for each detector/calibrator geometry.

For the intermediate position, a tolerance of +/- 25% and +/- 30% is expected for the 977 and 897 detectors, respectively. This tolerance includes detector accuracy, detector/calibrator geometry, calibrator mechanical tolerances and counting statistics. The tolerance assumes the operator is consistent in his use of the calibrator, and averaging of the Digital Display Value.

If the detector response is not within this tolerance, the detector should be removed from service, and a factory range calibration should be performed on the detector The field calibrator is designed to verify detector operation, and should not be used to modify correction factors determined in primary calibration.

Customers should note that damage to the 848-8, calibrator or the 848-8-105 and 848-8-400 adapters, missing calibrator hardware or rough handling may affect field dose-rate values.

DATE TITLE Inovision Radiation Measurements 5/18/01 Calibraton Procedure for Model 848-8 I/

/

Field Calibrator-Digital REV ECO NO.

RELEASED FOR D

TRL SHEET NO SIZE 4

2 4

2=06N9 PRODUCTION 22 of 9 CAL8-8 A

1 PURPOSE

The 848-8 calibratorelectrically isolates the 977 series ion chamber from ground to prevent ground loops from occUrring. If the insulating channel or plastic dor'me nuts are missing, this function is compromised and may result in erratic detector operation due to grounding of the detector through the 848-8 if on a grounded platform or work surface.

3 RESPONSIBILITIES 3.1 The Calibration Department shall perform the calibration procedure and the data reduction.

3.2 The R.S.O. or Staff Physicist shall review the data and calculations and retain a copy of completed data for their files.

3.3 Quality Assurance shall review all data for completeness and this procedure. In addition, Q.A.

shall retain copies of data generated in a job file.

4 EQUIPMENT REQUIRED 4.1 848-8 Field Calibrator (loaded with 137 Cs source capsule), source manufacturer Data Sheet with serial number and activity of source.

4.2 848-8-105 Adapter (use customer's if purchased or Victoreen Test Unit if one is not purchased)

GM Detector use only.

4.3 848-8-400 Adapter. To be used with stainless steel GM detectors only.

4.4 Victoreen Tri-Source Facility.

4.5 Model 977 Series Detector (Victoreen Test Unit), calibrated.

4.6 Model 946 Series Readout (Victoreen Test Unit), calibrated.

4.7 Model 897A-220, 897-220 or 857A-2XX series Detector (Victoreen Test Unit), calibrated.

4.8 Model 956A-100/200 Readout (Victoreen Test Unit), calibrated.

4.9 Data Sheet (Sample attached. These sheets delineate the minimum recording requirements; other Data Sheets may be used as long as the minimum information'is recorded.)

4.10 857 Digital Interface adapter (for use with 857 Detectors only).

4.11 Model 857-20A or857-21A if to be supplied to Salem for digital area monitor applications.

DATE TITLE Inovision Radiation Measurements 1

5/18/01 Calibration Procedure for Model 848-8 DATE TIT Field Calibrator - Digital I

NO.

SIZE CAL848-8D CAL

I 5

REFERENCES 5.1 Victoreen CAL-TRI SOURCE, "Tn-Source with Multi-Attenuator Attachment".

5.2 Victoreen Procedure "CAL-GM1".

5.3 Operating Manual for 848-8 Field Calibrator (part number 848-8-1).

5.4 Victoreen CAL-ION2, "977 Series Ion Chamber Calibration".

6 PRECAUTIONS The Model 848-8 Field Calibrator and the Tri-Source Facility produce a high radiation field Proper monitoring and operations must be observed at all times 6.1 Personnel monitoring shall be worn when performing this procedure. Wear the whole body dosimeter between the waist and collar.

6.2 Notify the R.S.O. if the calibration is to be performed outside the Tri-Source room, so that a survey can determine where radiation fields exceed 2 mR/h. Insure the access control of the area is maintained to prevent inadvertent exposure of personnel.

6.3 Stand behind the field calibrator when performing all operations. Keep fingers out of radiation beam.

6 4 Return the source to the "closed" position when not collecting data.

6.5 Remove the key from the calibrator when not in use to prevent unintentional exposures.

6.6 Secure the Calibrator in its storage area when this procedure is completed.

7 CALIBRATION PROCEDURE 7.1 Record the Customer, Customer P 0., Victoreen S.O./W.O., 848-8 Calibrator and test equipment, serial numbers and calibration date of all equipment on the Calibration and Data Analysis Data Sheets. The source activity and serial number shall be obtained from the R S.O. and recorded on the Data Sheet.

7.2 Place the 848-8 in a secure, controlled access location and inform personnel that the calibrator will be in use. Remove the detector wall bracket from the 977 (if applicable).

Insure that other radiation sources that may be present (such as additional 848-8 calibrator) do not contribute to the field values being taken WARNING The following step involves a high radiation field. Do not stand in the path of the radiation field while performing this step. Note, Precautions, Section 6.0.

Inowsion Radiation Measurements 5/18/01 Calibration Procedure for Model 848-8 SField Calibrator - Digital REV ECO NO RELEASED FOR D

RL SHEET NO SIZE 4

2069 PRODUCTION 4 of 9 CAL848-8D CAL V

7.3 Interconnect the VitcOreen 946 series readout and 977'iifetctor. Enter the Electrometer Scale "Factor fromr the CAL-AON2 Data Sheet into the 946 series readout. Allow a 15-minute warm up.

'Place the 977 Detector into the Field Calibrator. Read and record on the Data Sheet the resultant SDigital Display Value (mR/h or, R/h) for each of the three operating positions of the field calibrator (see Reference 5.3). Allow time for the display to stabilize before recording final value. The estimated average of the displayed value should be recorded. The 946 readout should be positioned so that the display may be easily read by the operator of the 848-8 calibrator. If the "digital display value is not within.the tolerance stated,- notify the Calibration Lab Supervisor for disposition-."

7.4 Interconnect the Victoreen 897A-220 or 897-220 (or optional 857 Series Detector) and 956 Series' Readout. Enter the Detector Conversion Conrstant ard Tau valued from the CAL-GM1 Data Sheet intothe 95 Series Readout.: Allow a five (5) minute warm-up. Place the 956 Readout so that the displa9 may be easily read by the 848-8 operator.' When using an 857 series detector, the 857 Digital Interface Adapter must be connected between the readout and the detector.

7.5 Remove the 977 Detector from the calibrator. Mount the 848-8-105 Adapter into the 848-8 and insert the 897A-220, 897-200, 857A-22X or 857-20A Detector. Read and'record on the Data Sheet the resultant digital display values (mR/h or R/h) for the three operating positions of the field calibrator (see Reference 5.3). Allow time for the display to stabilize before recording the final reading.

The estimated average of the displayed value should be recorded. If the digital display value is not within the tolerance stated, notify the Calibration Lab Supervisor for.,

disposition.

When required by Sales or Repaiý order, calibration data for the stainless steel Model 897A-2X1 or 857A-2XX detector may be provided. Insert the 848-8-400 adapter into the 848-8-105 adapter, and repeat Steps 7.4 and 7.5. Record the calibrator data on a supplemental GM detector Data Sheet.

7.6 Remove the 897A-220 Detector and 848-8-105 Adapter from the calibrator.

7.7 Place the 977 Detector in the TRI-SOURCE range and interconnect to the.946A Series Readout.

Allow a minimum 15-minute warm up period to elapse prior to proceeding.

7.8 Move the Tri-Source table to the 100.0 cm reference distance. Mount the 977 series detector to the Tn-Source table using the insulating fixture. Secure the preamplifier so that table movement will not cause the preamplifier to fall or otherwise be damaged. Adjust the table height and detector lateral position until both the vertical and horizontal laser spots are centered on the reference points marked on the detector housing.

7.9 Lower attenuators #1, move the Tri-Source table to 750 cm and activate the 2000 Ci Cs-137 source. Increase or decrease the detector/source distance as required to duplicate the OPEN position reading taken in Step 7.3 to within'+/- 5 least significant digits (LSD). When the average display value has been duplicated, record the final display reading,'and detector/source distance (Dm) in cm on the Data Sheet.

7.10 Lower attenuators # 1, 2 and 3, and move the table position to 500 cm. Increase or decrease the detector/source distance as required to duplicate the Mid position reading taken in Step 7.3 to within +/- 5 LSD. When the average display value has been duplicated, record the display reading and detector, record the display reading and detector/source distance (Dm) in cm on the Data Sheet. Deactivate the 2000 Ci Cs-137 source.

"Inovision Radiation Measurements DATE 5/18/01 TITLE Calibration Procedure for Model 848-8 Mesuemnt 51801Field Calibrator - Digital REV ECO NO.

RELEASED FOR D

SHEET NO SiZE L4 2069 PRODUCTION 5 of 9 CAL848-8D CAL I

I 7.11 Raise all attenuators, activate the 20 Ci Cs-137 source and move the Tri-Source table to 900 cm reference distance. Increase or decrease the detector/source distance as required to duplicate the CLOSED position reading from Step 7.3 to within +/- 5 LSD. When the average display value has been duplicated, record the display reading and detector/source distance (Dm) in cm on the Data Sheet.

7.12 Remove the 977 Detector and mount the 897A-220 or 857-20A on the Tri-Source table using the proper fixture. Allow a five (5) minute warm up if the equipment has been turned off at any time since 848-8 data was taken.

7.13 Repeat the methods in Step 7.8 through 7.11 to obtain data for the 897A-220, 897-220, or other GM detector. Allow one minute to elapse or clear the count buffer on the 956A-200 prior to recording the final display value. Note, check source clears buffer.

7.14 The reference distances, source activities and attenuator settings to be used for the GM detectors are:

OPEN 750 cm 1 Attenuator 2000 Ci Source MID 300 cm 0 Attenuators 20 Ci Source CLOSED 900 cm 0 Attenuators 20 Ci Source 7.15 When data for the stainless steel housing detectors are required, insert the 848-8-400 adapter into the 848-8-105 adapter and repeat Steps 7.8 through 7.11. Record the Calibrator Data on a supplemental GM Detector Data Analysis Sheet.

8 DATA ANALYSIS 8.1 To determine actual 848-8 dose rates for the 977 detector, the following are used

- REFERENCE TRACK DISTANCE FOR TRI-SOURCE (DR. cm)

- REFERENCE FIELD VALUES FOR TRI-SOURCE with Attenuators (RR, mR/h)

- CURRENT FIELD VALUES FOR TRI-SOURCE with Attenuator (RC, mR/h)

Decay correct the Reference Dose Rates (RR) from the date of measurement to the current date for each of the three fields The formula below is to be used.

Current Dose Rate

=

R *' el ( -0 693 (t2 - tl) 30.0 Where R original rate in mR/h of R/h t2 - ti

=

elapsed time in years between original dose rate deterrmnation and the current date DATE TITLE Inovision Radiation Measurements DE 5/18/01 Calibration Procedure for Model 848-8 Field Calibrator - Digital REV ECO NO.

RELEASED FOR D

L

=SHEET NO F

SIZE 4

2069 PRODUCTION 6 of 9 CAL848-8D CAL

I NOTE "The half-life of Cs-137 is 30.0 years.

Record the decay corrected reference dose rates (Re) and the display values on the Data Analysis Sheet.

8.2 Using the inverse square law, calculate the actual radiation field value per the following formula:

Rate

=

(pRc

(DR) 2/(Dm) 2 Where:

RC

=

Current Field Value (at Reference Distance)

DR

=

Reference Distance, cm Dm

=

Measured Distance, cm Calculate the actual field value exposure rates for the three operating positions of the 848-8.

Re6ord all data and calculations on the Data Analysis Sheet, 977 Detector. The calculated values must be within the range of values given on the Data Analysis Sheet.

Notify the Calibration Lab Supervisor if the stated tolerance cannot be obtained. Sign and date the'Data Sheets.

NOTE For older calibrators which are not being reloaded with a new source, these values may not be obtained. Consult the RSO or Physicist as required to determine if calibrator output is sufficient for the application.

8.3 Repeat the above calculations for the GM Series Detector, using CAL-TRI SOURCE and CAL GM1. Record all data and results on the Data Analysis Sheet, 857 Detector. The calculated values must be within the range of values given on the Data Analysis Sheet. Notify the Calibration Lab Supervisor if the stated tolerance cannot be obtained. Sign and date the Data Sheets.

8.4 For customer use, the following decay correction from the baseline calibration data listed on the Data Sheet is accomplished using the formula below. The calculation is based on a 30.0 year Cesium 137 half-life.

Current mR/h

=

R

eX

(-0.693 (t2 - tl) 30.0 Where:

R

=

original rate in mR/h t2-tl

=

elapsed time in years between original rate determination and current date.

A Cs-137 Decay Table is provided as Attachment 1 to this procedure.

DATE TITLE Calibration Procedure for Model 848-8 Inovision Radiation Measurements Field Calibrator - Digital REV -

ECO NO.

RELEASED FOR D

/TRL SHEET NO SIZE 4

2069

-PRODUCTION L

7 of 9 CAL848-8D CAL

9.1 Forward all data and calculations to the Staff Physicist for review and approval.

9.2 The RSO/Physicist shall check all data and calculations for correct mathematics and accuracy. If correct, the RSO shall sign in the "RSO/Physicist Check By" section. The RSO will also verify the actual source serial number and activity on the Data Sheet, attach a copy of the Source Certification to the Data Package, and forward to Quality Assurance for final review/acceptance.

9.3 Quality Assurance shall review all data and calculations for procedural compliance and customer requirements If acceptable, Quality Assurance shall sign and date the form in the space provided 9.4 Two copies shall be made of the Calibration Data Sheets, Data Analysis Sheets and Source Certificate. One set, along with the Attachment 1, Source Decay Table, will accompany the 848-8 to the customer. The second set will be filed by Quality Assurance in the job folder. All calculations, data, and certificates shall be filed by the Radiation Safety Officer in the 848-8 Log File by serial number.

Inovision Radiation Measurements DATE 5/18/01 TITLE Calibration Procedure for Model 848-8 Field Calibrator - Digital REV ECO NO.

RELEASED FOR D CW'RL SHEET NO SIZE 4

2069 PRODUCTION oi 8oof9 CAL848-8.o CAL 9

DOCUMENTATION

0 1

2 3

4 5

6 7

8 9

10 11 1.000 0.998 0.996 0.994 0.992 0.990 0.989 0.987 0.985 0.983 0.981 0.979 0.977 0.975 0.973 0.972 0.970 0.968 0.966 0.-964 0.962 0.960 0.959 0.957 0.955 0.953 0.951 0.949 0.948 0.946 0.944 0.942 0.940 0.938 0.937 0.935 0933 0931 0929 0928 0.926 0924 0922 0.921 0919 0917 0.915 0913 0.910 0.908 0.906 0.905 0.903 0.889 0.887 0.886 0.884 0.882 0.869 0.867 0.866 0.864 0.862 0.849 0.847 0.846 0.844 0.843 0.830 0.828 0.826 0.825 0.823 0.811 0.809 0.808 0.806 0 805 0.901 0.900 0.898 0.896 0.894 0.893 0.881 0.879 0.877 0.876 0.874 0.872 0.861 0.859 0.857 0.856 0.854 0 852 0.841 0.839 0.838 0 836 0.834 0.833 0.822 0.820 0.819 0.817 0.815 0.814 0.803 0.801 0.800 0.798 0.797 0.795 YEAR 0

2 3

4 5

6 7

8 9

0.912 0.891 0.871 0.851 0.831 0.812 0.81

[

~~DATE TITLE ClbainPoeuefrModmel 4 I Inovision Radiation Measurements 5/18/01CairtoPocdefrMdl84 Field Calibrator - Digital REV ECO NO.

RELEASED FOR 0D R

SHEET NO.

SZ 4

2069 PRODUCTION 9 of 9 CA8418 CAL FIELD CALIBRATOR SOURCE DECAY TABLE MODEL 848-8 FIELD CALIBRATOR To determine the current baseline dose rates for the CLOSED, INTERMEDIATE, and OPEN positions of an 848-8 Field Calibrator the decay table below is used. The dose rates for each position, along with the date that they were determined are started on the Data Analysis Worksheet supplied with the Field Calibrator. The elapsed time between the date listed on the Field Calibrator and the date of the current calibration determine the decay correction factor to be used. This factor is used for all three positions.

TABLE HALF-LIFE DECAY TABLE FOR Cs-137 OVER 10 YEARS (HALF-LIFE 30.00 YEARS)

I r

T A

10 0 ILI J 1*

T A

D T'

lr*

er, T Im r,,

I

IN 6W-Radiation Measurements 6045 Cochran Road Cleveland OH 44139 Phone: 440 248-9300 FAX: 440-349-2307 www.inovision.com DETECTOR CURVE FIT PROGRAM -

ON AREA MONITORS 94005701 Rev B Model numbpr is 097A-2.10 Serial numlbor is

.100762 DATA FROM CALI.RATION RANGE Field CF'M Calc field m iz / hi r-

1. 04 P71 3.21 034 9 5.

2.509 3.0.,3 7784 91.6 22604 30.3 67984 97:1.

"1879S4 CCI = 0..00386967 TAU 1.38204P-006 Root sum of the wto-arcs

1. 04907 3.23103 9.74278

00. 449"1 90., 6205 290.3756 902.. 757

-z Deviat ion 0.. 872394

0. 655042 1.91191

0. 491939

-I.06931

-4.17282 1.2108 of the devyiaiion is 5-.01093 B~ackground CPM:

K..

Date Ca].ibrated: 3/2/0:1 C' 1J L:i)b r.A tod by.

B rt.t c*

Ml' hood Cutomer: Roc'.l-os'Lor O -,.1:

o'ta-3 c S;1os

,rder numbc.,'r::

1L570-3 C'ittomcrn ticg numlor:- N/A

IfWU M

ImWN BAC l(GRCJUI'l 9:1.6 97:1j 3107 200 c 200>

cmI 2i0 C 200 C 200) cm 200) -l 250( cml POO) CMi 300 Cmt L. 10

&6 Attil's

.k6 A-tin's 5 Atin 's

'4 Atin 's

' 1-2 Atin 'r,

&1 At Ln 'o

&0 Attn'

&2 Attn W~.

Chckcl Borc

~00E-i402 1., 1:-E*4 ()

2. 401-4-02 2.4017402

2. 40E+02 1.20111+02 J.2011+02

1. 201702 6.,001:401 I1. 5 H

0

'4.A40.40 2.87176402 2

0E' +02 Conver-s.ion 225:61111t-6 271:

804 2509 778.4 226814 6790,11

18790'4 N' /

A Radiation Measurements 6045 Cochran Road Phone: 440 248-9300 FAX: 440-349-2307 TITLE.

011l Dete c.tor Cali bra~tion for Area lion:i.torLn a Sy--tuns Wwwwjnovision.com DOC'UIIEH'I C AL-0l16 REv..

A ATTACHIIIIT111' A

L397A-X1 X DETECTOR DATA~ SH-EET C, U St orine kloches~tor Ga

& Eicoctric P.O.

4

'4500009671 Project N/A SL.O.

ft 157033 I.J.O..

ft NAI Doctector MvodelJ t

8397A-210 Se~ria) 100762 lacI f N/A Reldc~cOU-lvlodcoi ft 956A-201 Seriail ft 117

' Ca Daxte 10-JIan-01 6.3 Dotector Discriminantor-N/Ai volts ( 897 ONLY)

L..5 AntLi-a Dur ILty Cycli c Vor~i.f~ ction Pas (F'a-/l-a33)

T~nLeni ty Pos~;i t.ion & lHo.

Count TW O Accuun1

.lated Gross Not (mR/h) 0f A lionua~tors (sec)

Coutnts Counts Cou~nt Rat~e

( p Cj(lc prn TNT SOURCE CALIBRATTON INFORMATION (20 Ci Coz-:l37'i

Iffuya5Arrfjg;w~f~

-~

-=

A419*

Z

--Radiation Measurements 6045 Cochran Road Cleveland OH 44139 Phone: 440 248-9300 FAX: 440-349-2307 www.inovision.com DETECTOR CURVE FIT PROGRAM GM AREA MONITORS 94085701 Rev BI Model. fumnbULr is 897A-210 Seria] number is "132 DATA FROM CALTIDRATTON RANGE Fied Cr-M Cnlc field mR/hr

1.04 284 3.21 881

9. 56 26 b6 30.3 82a31 9

.6 A 23931 103 7:1981 971.

200481 CCI 0.00366773 "TAU 1..

1264e-006

,ooL sum of the squares I..04201 3..23485 9.77411

30. 5046

90. 4933 290. 257 902..883

% Deviation 0.19305 0.774222 2.23966

0. 675326

-1..20814

--4.20564 1.22378 of the deviati.on is 5.17235 arc:kground CP'M:

J9 Daie Calibrated: 3/1/01 Wi :[bra led by: Bruce Hachood Cusitomer: Rochesler Do, &. ElectLric Sales ordor numbL-r:

157033 Customer Lag numn;r:

,/A

Radiation Measurements 6 6045 Cchran Road Cleveland OH 44139.

Phone: 440 248-9300 FAX:440-349-2307 TITLE; GM Detector Cal.ibrat:ioni for Area Monitorinca Sys,'L*ms www.inovision.com DOCUJMENT::

CAl. -GM6 REV.

A ATTACHMENT A 897A-XIX DETECTOR DATA SHELET Customer Rochoster Gas & Electric F'.O.

0 150000867:1 Proj., ct I/A S.O. 0, 157033 W.O.

I,/A Deotictor Mlodel 0 897A-210 Serial *t 132 Tag $

, N/A ReadotL Modea 0

956A-201 Serial 0 117

'Cal D)a*te 10-Jan-03 6.3 Detector Discriminator N/A volts ( 897 ONLY )

6.5 Ant:;-Jam Duly Cycle Verificat:ion Pass (lass/FAiJ)

Intens*;.ty Pos:ition & No.

Count Time Accumulatvi d

Gross Not (mR/Ih) 0f AlitcenLaters (sec)

Counts Counts Count Rale

( cpm )

( Upm )

"TRT SOURCE CALIBRATION INFORMATION (20 Ci Cs-107)

DAC1KGROU1ND 200 cm & 6 Alitn'.s 3.,00E1102 9.307+0:0 1L,.86E401 N / A 1..04 200 cm.9 6 AtLns' 2.40E+02 1..21.E.401 1,,02E-102 284 3.21 2,0 cm & 5 Attn's 2.4011+02 3.60E+03 9.0017+02 981 9.56 200 cm & 4 A'tn'q 2.40E-402 1,.07Ef04 2.68E403 2656 30.,3 20 cm & A Attn's 1.20E+02 1..6E-I404 0.25*-03 P23.*

91,.6 200 cm A 2 Attn's 1..20E102 14.79*?E 04 2.40E-404 23931 3

2...0 cm n 1 At'tn s

-...20E&0-2, 1..'4-4+05 7.1201 ÷-04 7:190:1 971.

200 cm A 0 Attn s 1..20E11+02 4..01E-405 2.00r40 200481 3107 300 cm & 2 Atin's 6..0017-÷0:1 Anr.

Jam 2.,601-*06 N /

A

6.1.0 Check

Sourc' Rosponsec 81.40 mn/tl Convvrs~2on Costn 31E--Dead 1 mc-Co:rrc~c Lior 1.26E--06 Conductod EFv

,,A,,

M.A.

v:ieIt y

D Cal Date O.--Mar-O1 Date......

1GM1-6

Radiation Measurements 6045 Cochran Roaa Cleveland OH 44139 Phone: 440 248-9300 FAX: 440-349-2307 wwwinovision.com DETECTOR CURVE FIT PROGRAM -

GIM AREA MONITORS 94085701 Rev B Mode] number is 897o-210 Serial ntumber is 131 DATA FROM CALIBRATION RANGE Fi*old CPFIT Calc field mR/h*'r

.. 04 271 3.21 806 9.56 2446 30.3 7413,

91.6 2:100?3 303 65483 971 1F",29193 CCI = 0..00397693 TAO = 1.,43242e-006 Root sum of the squares 1.07817 3.20911 9.76178 30.;0838 89.,8434 287.377 of tlhe doviation

% Deviation 3.66997

-0.0276075 2.,1107

-0.720002

-1.91764

-5.15603 1.56567 is 7.15236 Bacci'ground.CF'M:

17 Date Cali brated: 3/1/01 Cali. bratci,,by:,B-"r.'¢ Mahood

.s;tomer:

Rochesltor Gas Elect-ric Sales ordlor numbor:

1.57033 Ctistrnoer-Lag numlber-I/A WiW-ANWKff

Radiation Measurements 6045 Cochran Road Phone: 440 248-9300 FAX: 440-349-2307 TITLE:

Gly Detvictoi-C~librixlian for-A-rea toni totincg Sys~tems, www.inovision.com DOCUMENT:

CAL-GN6 REV.. A ATTACI I11EN-T A

@97A*-X1X DETLECTOR DATA SHEET C'ustomer Roclchostcter G~is- & Electr-ic P.. 0.

H 4500008671 roicL N/A S..O.

it 157033 k4. 0..

0 NIA Detector M~odelJ. V, (397A-210 Serixl fly 1 31.

Thci 0~

N/A ReadcOUt Model. 0 9.56A-201 Serial] Ht 117

'Ca)

,Datc.Ž 10-Ja.n-OJ 6.3 IDetector Discrimincitor N/A vol t,:; (897 ONILY) 6.5 An Li-Jrifm DUt1y C.-cle Ver-ification Paýss (Pzxss/raii I nten s:Lty Fn s:.i Ii orn & N'lo.

Count Time ACCUMUlateC!

Gross Net (mR/h)

Qi 1 L

.t crnt t 1(. 1rs (Sec)

Co0U ntA S Counts Count Riite Ccpm )

(cprn TR] SOURCE CALIBRATION INFORMATION (20 Ci.

C~s--: 3-7)

BACKGROUJND

'200 (-m- & 6 Attn 's 3.0r.O-rE02 8..30E+01i

1.. 66F+0i N /' A 1.04 200 cm & 6 Attn's 22.,4040 2 1.. :LE-f03

42. 87E+0221 3.1 2010 cwm &e 5 Attn 's 2-. 40E4 0' A2E0

..23 OA0.80

9. 56 200 cmi &~ 4 Attn 's 2.,40E-+02

9. 8.51---+6t 2.,46-107, 2446 30..3

','0 cm &3 Attn's.4

1..2 01E-f02

1. 1,50E+04 7., 501+03, 7463 91.6 200 cri&

Attni' 1.20E4 02 4..3817-- 04 2..1 91-r- 04 2-1 8o,83 303 25i0 cmfri I Alln's I..2101F+02

i..23 1 E +05 6.. 5 5E4-f04 65483

?73.

T00 tcm & 0 AI tn I..20E4f021

3. 66Ef 0'1

1..

F~

18+

3107 300 cin & 2 0 1 t~n 'is 00114 0:1

(-rn I i

Tham

5. 911- 06 6.1.10 Ch)OCl: SOUr-cc' N:pO11S0 89.. 30 mN/h-Convorsion ICo)n s; ta-n tL

'3-.

8E-0-,

ConCdUCALte B),

Calx Date Ol--lkiar-Ol1 IDe,-td Timo CorrtectiLon 1.. 43E--06 G3/4,A.. Rre.v:iw BX(2-0y I~x te 225:-GM1l-6

E C

R.

Customer:

848-8 Serial Number:

848-8-105 Adapter: Serial No.

Detector Model No.

Customer P.O.:

Victoreen S.O.:

Victoreen W.O.:

8.1 Cal-Tri-Source reference Dose Rates for Cs-137 Sources DR 750 cm, RR DR 3 0 0 cm, RR DR 9 0 0 cm, RR 1 Atten on 10/14/99:

0 Atten on 10114199:

0 Atten on 10114/99:

2.594 R/hr 450 mR/h 48.0 mR/h

8.1 Cal-Tri-Source

Current Dose Rate Values For Tri-Source and Attenuators Used, RC:

750 cm 300 cm 900 cm 1

Attens RC

=

mR/h 0

Attens RC

=

mR/h 0

Attens RC

=

mR/h 8.1 MEASURED TRACK DISTANCE (7.11 - 7.13) for Attenuators Used, DM:

Open Mid Closed (1) Attens (0) Attens (0) Attens Dmu

=

___________cm Dm

=

ecm Dm

=

cm (R C) x (D R)2 (DM ) 2

(

) mR / h x-(750)2 cm RATE=

(

)2 cm RATE =

(

) mR / h x (300)2 cm

(

)2 CM RATE =

(

) mR / h x (900)2 cm

(

)cm CALCULATIONS PERFORMED BY:

R.S.OJPHYSICIST CHECK BY:

QUALITY ASSURANCE REVIEW BY:

NGINEERING ALIBRATION LABORATORY DIRI UALITY ASSURANCI ADIATION SAFETY OFFICER Inovision Radiation Measurements REV ECO NO.

RELEASED FOR 4

2069,

PRODUCTION Actual Field, mR/h

=

mR/h (1.69 - 3.78 R/h) mR/h (0.225 - 0.655 R/h) mR/h (40.0 - 90.0 mR/h)

DATE:

__DATE DATE

/.-,/,

.1 DATE.r2/%.'

e. -

DATE

" 5"1,Sl/e Calibration Procedure for Model 848-8 Field Calibrator - Digital NO SIZE CAL848-8D CAL 2000 Ci 20 Ci 20 Ci 2000 Ci 20 Ci 20 Ci 2000 Ci 20 Ci 20 Ci

8.3 FORMULA

OPEN:

MID:

CLOSED:

ATTACHMENT DATA ANALYSIS SHEET MODEL 848-8 FIELD CALIBRATOR MID-RANGE ALUMINUM G.M. DETECTORI955A SYSTEM I

m

Detector Model Customer:

848-8 Serial Number:

848-8-400 Adapter: Serial No.

Customer P.O.:

Victoreen S.O.:

Victoreen W.O.:

8.1 Cal-Tri-Source reference Dose Rates for Cs-137 Sources DR 750 cm, RR DR 300 cm, RR DR 9 0 0 cm, RR 1 Atten on 10/14199:

0 Atten on 10/14/99:

2.594 R/hr 450 mR/h 48.0 mR/h

8.1 Cal-Tri-Source

Current Dose Rate Values For Tri-Source and Attenuators Used, RC:

750 cm 300 cm 900 cm 1

Attens RC

=

mR/h 0

Attens RC

=

mR/h 0

Attens RC

=

mR/h 8.1 MEASURED (TRACK) DISTANCE (7.16) for Attenuators Used, DM:

Open Mid Closed (1) Attens (0) Attens (0) Attens Dm

=

Dm

=

Dm

=

cm cm cm

8.3 FORMULA

(R C) x (D R)2 (D

) 2

=

Actual Field, mR/h

(

) mR / h x (750)2 cm RATE=

(

)2 cm RATE =

) mR / h x (300)2 cm S)2 CM RATE =

)mR / h x (900)2 cm

(

)2 CM mR/h (1.69 - 3.78 R/h) mR/h (0.225 0.655 R/h) mR/h (40.0 - 90.0 mR/h)

CALCULATIONS PERFORMED BY:

R.S.OJPHYSICIST CHECK BY:

QUALITY ASSURANCE REVIEW BY:

DATE:

ENGINEERING DATE

.. /,./Af CALIBRATION LABORATORY DIRECT R DATE T

QUALITY ASSURANCE

,,DATE DA RADIATION SAFETY OFFICeR

- - LL

._.=

DATE '/

-, 7'0 j

DATE TITLE Calibration Procedure for Model 848-8 Inovision Radiation Measurements 5/18/01 Field Calibrator-Digital REV ECO NO.

RELEASED FOR D0'4-RL SHEET NO.

SIZE 4

2069 PRODUCTION 1 of 1 CAL848-8D CAL 2000 Ci 20 Ci 20 Ci 2000 Ci 20 Ci 20 Ci 2000 Ci 20 Ci 20 Ci OPEN:

MID:

CLOSED:

ATTACHMENT DATA ANALYSIS SHEET MODEL 848-8 FIELD CALIBRATOR MID-RANGE OPTIONAL G.M. DETECTOR ATTACHMENT DATA ANALYSIS SHEET MODEL 848-8 FIELD CALIBRATOR MID-RANGE OPTIONAL G.M. DETECTOR

-Customer: "bC3Tke9,Z CWT "' P--a="

c_

Customer P.O.: ______

Victoreen S.O.: 1<0'.772 Victoreen W.O.:_ ____o_

848-8A Serial Number: -

O 1

t "3&,4 SourceSerial Number:

Source: 137Cs I-)TL~cv (

Activity:'

._-_ " mCi Assay Date:

--00 G.MDetector Model No. -522A-I.IC::

Serial I 956A Readout Model No. 93 A - Zo%

Serial?

848-8-105 Adapter (Cust)

__s_

No.

CjQ

(.2.- I CalDueDate 3-2-O2 No.tfW*-

B'q CalDueDate t -\\o--L or Inovision Adapter: _.O (Yes/No)

DATA (GM, 955A Channel) '

Must be within +1-5 Least Significant Digit of the Digital Display Value obtained I

488A Field Calibrator.

Data Taken by: (6J

/,,

Date:

e1/3/ -,

i0/

ENGINEERING DATE S- --cI MANUFACTURING 3

DATE_,-I9F*

QUALITY ASSURANCE f J2 DATE-,:5) ;2-C4 RADIATION SAFETY OFFICER DATE

/

I DAs V0 TITLE --Calibration Procedure fo'r Model 848-8A Inovision Radiation Measurements 10 mCi Field Calibrator -- Digital REV ECO NO.

RELEASED FOR RL SHEET NO.

SIZE 1

1882 PRODUCTION 1 of 5 CAL 848-8A Calibrator Data Tri-Source Range Data Digital Measured Display

Digital Track Value Display Distance Field (mR/h)

Value Number.

(Din, cm)

Calibrator Step Step of Step Position:

7.5 Tolerance 7.13 Attenuators 7.13 4.0-4 10 (20 Ci)

Z.

Closed

_mR/h 23-

-2 Intermediate 60R/h 150 I

(20...

360 2-**"(20 Ci)

'/.

)

Open mR/h-ATTACHMENT MODEL 848-8A FIELD CALIBRATOR CALIBRATION DATA SHEET, LOW-RANGE ALUMINUM HOUSING G.M. DETECTOR I

S4,/*

Customer:

848-8A Serial Number:

Sou erial Number:

Source: '"CS Customer P.O.:

Victoreen S.O.:

Victoreen W.O.:

Activity:

mCi Assay Date:

Detector Model No.,

Serial No.,

Cal Due Date 956 Readout Serial Number:

Cal Due Date:

848-8-105 Adapter (Customer's)

VICO SN 119:

(Y 848-8-400 Adapter (Stainles St Y I' Detectors Only):

DATA (GM, 955 Detector)

/No)

(Yes/No) 848-8A Calibiation Data Tri-Source Range Data igital,-

.Measured D

Track Value Distance Field (mR/h) ue Number (Din, cm)

Calibrator Step Step of Step Position:

7.5 Tolerance 7.13 Attenuators 7.13 4.0-4 10 (20 Ci)

Closed mR/h

.23 2

66 (20 Ci)

Intermediate mR/h 150Dt 1

Open0/

(20 Ci)

Must be within +.5 Least Sig, ficant Digit of the Digital Display Value obtained in the 948-8 Field Caa rtor Readng Data Taken by:

Date:

r I

Inovision Radiation Measurements 3AT2/ITL Calibration Procedure for Model 848-8A 1

10 mCi Field Calibrator - Digital

=REV ECO NO.

RELEASED FOR DOC CTRL SHEET NO.

1882 AL8488AADSIZE 1

1882 PR`ODUCTION_

2 of 5A888A A

I MODEL 848-8A FIELD CALIBRATOR CALIBRATION DATA SHEET, OPTIONAL LOW-RANGE G.M. DETECTOR

Customer P.O.:,'

94-4?Z3 Victoreen S.O.:

/ S" 3 72.

Victoreen W.O.:

s"V/e.

252.2 cm, RR 247.1 cm, RR 244 cm, RR 1 Atten on 2/26/01:

2 Atten on 2/26/01:

4 Atten on 2/26/01:

8.1 Cal-Tri-Source

Current Dose Rate Values for Tri-Source and Attenuators Used, Rc:

252.2 cm 1 Attens Rc

=

29 mR/h 247.1 cm 2 Attens Rc

=

"9. -

mR/h 244 cm 4 Attens Rc

=

C.7 <

mR/h*

8.1 MEASURED TRACK DISTANCE (7.11 - 7.13) for Attenuators Used, Din:

Open (1) Attens D..

=

2C a.O cm Mid (2) Attens Dm

=

"___._O cm Closed (4) Attens Dm

=

Z-I 7_.

cm C

I' C

(RC x (D )2

8.3 FORMULA

c (DR (DM) 2

)PEN:

RATE =

('i, mR/h x (252.2)2 cm EiD:

RATE=

(4*<mR/h x (247.1)2cm

%< (\\)2 cm

LOSED:

RATE

(\\Y mR / h x (244)2 cm.

CALCULATIONS PERFORMED BY:

R.S.OJ'PHYSICIST CHECK BY:

QUALITY ASSURANCE REVIEW BY:

.A.

Actual Field, mR/h "2-9 mR/h (150- 360 mR/h) 4= Se. '2. mR/h (23-66 mR/h) iR/h (4.0-.lo mR/h)

DATE:

"/

/

.:2@

'DATE:

/.

of*,

3/2/01 TITLE Calibration Procedure for Model 848-8A 10 mCi Field Calibrator -- Digital -

SHEET NO.

SIZE 3

CAL848-8AD CAL 3 of 5 CAL DR DR DR 300 mR/h 60 mR/h 6.38 mR/h DATA ANALYSIS SHEET MODEL 848-8A FIELD CALIBRATOR

--LOW-RANGE ALUMINUM G.M. DETECTOR/955A SYSTEM Customer: I*O SI'-LC-ýT 6-L i-,Gt=1 L_

848-8A Serial Number:

1,0 1 "73(o 848-8-105 Adapter: YESINO Ye" (CCz,

,-t*..)

8.1 Cal-Tri-Source reference Dose Rates for 20 Ci 137Cs Source

Customer P.O.:

Victoreen S.O.:

Victoreen W.O.:

8.1 Cal-Tn-Source reference Dose Rates for 20 Ci '"Cs Source DR 252.

1 Atten on 2/26101:

300 R/hr D,&

.- cm, RR 2 Atten on 2/26/01:

60 mR/h R

244 cm, RR 4 Atten on 2/2601:

6.38 mR/h

8.1 Cal-Tri-Source

Current Dose Ra e Values for Tri-Source and Attenuators Used, Rc:

252.2 cm 1

Attens Rc mR/h 247.1 cm Attens 7mR/h 244cm At mR/h 8.1 Open (I) -Attens Mid (2)' Attens Closed (4) Attens

8.3 FORMULA

C OPEN:

MID:

CLOSED:

cm cm cm Actual Field, mR/h RATE =

mR/h (150 - 360 mR/h)

RATE =

mR/h (23 - 66 mR/h)

RATE =

(4.0- 10 mR/h)

(

CALCULATIONS PERFORMED BY:__

R.S.OJPHYSICIST CHECK BY-:_

QUALITY ASSURANCE REVIEW BY:

DATE:

Inovision Radiation Measurements-DATE 3/2/01 TITLE Calibration Procedure for Model 848-8A 10 mCi Field Calibrator -- Digital 1 REV ECO NO.

RELEASED FOR DOC CTRL SHEET NO.

SIZE 1T 1882 PRODUCTION 4 of5sCL4-A CA DATA ANALYSIS SHEET MODEL 848-8A FIELD CALIBRATOR LOW-RANGE OPTIONAL G.M. DETECTOR Detector Model Customer:

848-8A Serial Number:

848-8-400 Adapter: YES

Customer:

848-8 Serial Number:

Source Serial Number:

977 Detector Model Number:

977 Detector Serial Number:

946 Readout Serial Number:

Source: 137c.

Customer P.O.:

Victoreen S.0.:

Victoreen W.O.:

Activity:

mCi Assay Date:

Cal Due Date:

DATA (977 Detector) 848-8 Calibration Data Tri-Source Range Data Digital Digital Measured Display Display Track Value Value Distance Field (mR/h)

(mR/h*)

Number (Dm, cm)

Calibrator Step Step of Step Position 7.3 Tolerance 7.10 & 7.11 Attenuators 7.9 & 7.11 35.0-0 70.0 Closed mRih (20 Ci)

.350-3

.700 Intermediate R/h (2000 Ci) 1.93-1 5.00 Open R/h (2000 Ci)

Must be within +/- 5 Least Significant Digit of the Digital Display Value obtained in the 848.8 Field Calibrator.

Data Taken By:

Date:

ENGINEERING 7

DATE

-- /8gO CALIBRATION LABORATORY DIRECTOR DATE QUALITY ASSURANCE DATEf RADIATION SAFETY OFFIC9RF

&I DATE /

/

RDATE 5TITLE Calibration Procedure for Model 848-8 lnovision Radiation Measurements 5/18/01 Field Calibrator - Digital R

RELEASED FOR L

SHEET NO SIZE 4

2069 PRODUCTION 1 of 1 CAL848-8D CAL ATTACHMENT MODEL 848-8 FIELD CALI 31tTOR CALIBRATION DATA SHEET, 977 DETECTOR

848-8 Serial Number:

Source Serial Number:

G.M. Detector Model No.

956 Readout Model No.

848-8-105 Adapter (Cust)

Source: 137cs Victoreen W.O.:

Activity:

mCi Assay Date:

Serial No.

Cal Due Date Cal Due Date VICO S/N 119:

(Yes/No)

DATA (GM, 955 Detector) 848-8 Calibrator Data Tri-Source Range Data Digital Measured Display

Digital Track Value Display Distance Field (mR/h)

Value Number (Dm, cm)

Calibrator Step Step' of Step Position:

7.5 Tolerance 7.13 Attenuators 7.13 40.0-0 90.0 Closed miRlh (20 Ci)

.225-0 655 Intermediate R/h (20 Ci) 1.69-1 3.78 Open R/h (2000 Ci)

Must be within +/- 5 Least Significant Digit of the Digital Display Value obtained in the 848-8 Field Calibrator.

Data Taken By:

Date:

ENGINEERING DATE

&1-1

/8L CALIBRATION LABORATORY DIRE PTQR

-DATE q-/,) uj QUALITY ASSURANCE DATE

ý,j RADIATION SAFETY OFFICE DATE

u, I

DATE 5

TITLE Calibration Procedure for Model 848-8 Inovision Radiation Measurements

/

5/18/01FilCabrt-Dgtl 1

Field Calibrator - Digital REV ECO NO.

RELEASED FOR DC 1RoLS T

CAL848-8D SIZE 4

2069 PRODUCTION 1 of 1 CAL84-1 A

Cu ATTACHMENT MODEL 848-8 FIELD CALIBRATOR CALIBRATION DATA SHEET, MID-RANGE ALUMINUM HOUSING G.M. DETECTOR stomer:

Customer P.O.:

Victoreen S.O.:

ATTZACHMENT MODEL 848-8 FIELD CALIBRATOR CALIBRATION DATA SHEET, OPTIONAL MID-RANGE G.M. DETECTOR Customer:

Customer P.O.:

Victoreen S.O.:

Victoreen W.O.:

848-8 Serial Number:

Source: 137cT Activity:

Source Serial Number:

Assay Date:

Detector Model No.

Serial No.

Cal Due Date 956 Readout Serial Number:

Cal Due Date:

848-8-105 Adapter (Customer's):

VICO S/N 119:

(Ye.

848-8-400 Adapter (Stainless Steel Detectors Only):

DATA (GM, 955 Detector)

Must be within +/- 5 Least Significant Digit of the Digital Display Value obtained in the 848-8 Field Calibrator Reading Data Taken By:

mCi s/No)

(YesJNo)

Date:

ENGINEERING CALIBRATION LABORATORY DII QUALITY ASSURANCE RADIATION SAFETY OFFI Inovision Radiation Measurements REV ECONO.

RELEASED FOR 4

2069 PRODUCTION T

"-I DAE

-//A/[ -

4DATE 57/a I/

DATE

I DAEI ~

j~~

DATE - *-/,*,

/,,,

TITLE Calibration Procedure for Model 848-8 Field Calibrator - Digital CAL848-8D SIZE CAL 848-8 Calibration Data Tri-Source Range Data Digital Measured Display

Digital Track Value Display Distance Field (mR/h)

Value Number (Din,, cm)

Calibrator Step Step of Step Position:

7.5 Tolerance 7.13 Attenuators 7.13 40.0-0 90.0 Closed mR/h (20 Ci)

.225-0

.655 Intermediate R/h (20 Ci) 1.69-1 3.78 Open R/h (2000 Ci)

I I

SDATE

-<"//,A/c)/

SDATE-r o/

ATTACHMENT DATA ANALYSIS SHEET MODEL 848-8 FIELD CALIBRATOR 977 DETECTOR Customer:

848-8 Serial Number:

8.1 Cal-Tri-Source reference Dose Rates for Cs-137 Sources Customer P.O.:

Victoreen S.O.:

Victoreen W.O.:

DR 750 cm, RR DR 500 cm, RR DR 900 cm, RR 1 Atten on 10114199:

3 Atten on 10/13199:

0 Atten on 10/14199:

8.1 Cal-Tri-Source

Decayed Dose Rate Values For Tri-Source and Attenuators Used, RC:

2000 Ci 750 cm 1

Attens RC

=

'_mR/h 2000 Ci 500 cm 3

Attens RC

=

mR/h 20Ci 900cm 0

Attens RC

=

mR/h 8.1 MEASURED TRACK DISTANCE (7.11 - 7.13) for Attenuators Used, DM 2000 Ci 2000 Ci 20 Ci Open Mid Closed (1) Attens (3) Attens (0) Attens Dm Dm

=

Dm

=

8.2 FORMULA

(R C) x (D R)2 (D

)2 m

=

Actual Field, mR/h

( ) mR / h x (750)2 CM OPEN:

RATE =

( )2 cm MID:

RATE

(

)mR / h x (500)2 cm

()2 CM CLOSED:

RATE=

(

)mR/h x (900)2 cm

(

)2 cm CALCULATIONS PERFORMED BY:

R.S.OJPHYSICIST CHECK BY:

QUALITY ASSURANCE REVIEW BY:

mR/h (1930 - 5000 mR/h) mR/h (350 - 700 mR/h) mR/h (35.0 - 70.0 mR/h)

DATE:

EENGINEERING

'DATE FZ/41a CALIBRATION LABORATORIY....DETOR

-DATE

/4

-"/

QUALITY ASSURANCEj*-'

DATE 4".1 RADIATINSAF_=YOFr"CR_________

DATE

- !*/

DATE TITLE Calibration Procedure for Model 848-8 Inovision Radiation Measurements 5/18/01 Field Calibrator-Digital REV ECO NO.

RELEASED FOR Dt OTARL SHEET NO.

SIZE 4

2069 PRODUCTION

/.

1 of 1 CAL 2000 Ci 2000 Ci 20 Ci 2.595 R/hr 599.2 mR/h 48 mR/h cm cm cm

Appendix C TEST PROCEDURES AND DATA C.1 TEST PROCEDURES AND DATA Test procedures listed in this appendix may be used for site equipment testing, alignment or trouble-shooting activities except as noted. Note that Test Firmware and the 942TS breakout box are required to perform TP956A-201-3. Note that Test Procedure TPS157033A2 requires a special noise generator and is not required to be performed in the field. Test Data is included for all electronic assemblies provided under contract.

Test Procedures TP956A-201-3 Electronic Factory Test Procedure for Ratemeter TP897A Electronic Test Procedure for 897A-210/-211 LT956A/897A-21X Loop Test Procedure using 848-8A Field Calb.

Data Sheets TP956A-201-3 Data Sheets for pre-mod 956A-201 Ratemeters s/n 129, 130 and 133.

TP897A Data Sheets for 897A-210 Detectors sin 131, 132 and 100762 LT956A/897A-21X Data Sheets for 956A-201-Ml s/n 104643 and 897A-210 s/n 131 Data Sheets for 956A-201-M1 s/n 104644 and 897A-210 s/n 132 Data Sheets for 956A-201-Ml s/n 104645 and 897A-2 0s/n 100762 TPS157033A2 Data Sheet for S157033A2 s/n 104899 Vontrol Room Instake Radiarion Monuors c-i Control Room Instake Radiation Monitors C-1

INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER PAGE CUSTOMER:

NIA I OF 27 DOCUMENT: TP956A-201-3

.REV.

4 ISSUE DATE:

J/AN I.eUU REVISION LIST REV ECO#

4 9CR48-99

_APP aV'L DATE RELIABILITY ENGINEER 11_____12____9,____

MANUFACTURING ENGINEER REGULATORY AFFAIRS ENGINEER ISSUED BY: GEORGE BUCK t*ld#491956A2013.doc F

FILE COPY

INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER:

NIA DOCUMENT: TP956A-201-3 REV.

4 TABLE OF CONTENTS Section Description Pae 1.0 P U R PO S E..................................................................................................

4 2.0 SCOPE......................................................................................................

4 3.0 RESPONSIBILITIES............................................................................

4 4.0 EQUIPMENT REQUIRED.....................................................................

4 5.0 SET-UP (See Figure 1).........................................................................

6 6.0 WRITE CLOCK ADJUSTMENT.........................................................

10 7.0 DISCRIMINATOR ADJUSTMENT...........................10 8.0 INPUT AMPLIFIER ADJUSTMENT...........................

11 9.0 ANTI-JAM ADJUSTMENT...................................................................

12 10.0 TEST 1: RAM TEST............................................................................

12 11.0 TEST 3: BAR GRAPH TEST...............................................................

13 12.0 TEST 4: DISPLAY TEST...................................................................

13 13.0 TEST 5: SWITCH TEST..................................

13 14.0 TEST 6: INDICATOR/BACKLIGHT/FAIL TEST................................. 14 15.0 TEST 7: COUNTER/DISCRIMINATOR TEST.................................... 14 16.0 ANTI JAM BIT TEST...........................................................................

16 17.0 TEST 8: D/A CONVERTER 4-20 mA/0-10 V OUTPUT TEST............. 17 18.0 TEST 9: EEPROM TEST..................................................................

18 19.0 TEST A: NON-MASKABLE INTERRUPT VERIFICATION (NMI) TEST.. 18 20.0 TEST B: HIGH VOLTAGE POWER SUPPLY TEST...........................

19 21.0 TEST C: DATA ENTRY TEST...................................

20 22.0 TEST D: RELAY TEST...................................20 23.0 TEST F: JUMPER CONFIGURATION TEST.................................... 21 24.0 OPERATING SOFTWARE TEST.................................

21 25.0 BURN-IN.........................................................................

22 26.0 DOCUM ENTATION...........................................................................

23 tp/d#49/956A2013.doc 3

1-i ý c

I I

INOVISION RADIATION MEASUREMENTS TITLE:. -.

TEST PROCEDURE FOR THE 956A.201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: NIA DOCUMENT: TP956A-201-3

-,REV.

4

'4.6

= Wavetek 187 Signal Generator or equivalent.

4.7':.1

'Frequency'Counter:

Fluke 1900A or equivalent - must be calibrated.

Note: If the FunctionlPulse -generator used "has a calibrated display,'a' calibrated frequency counter is not required.

4.8 Test Softwa're'94094200200 (Latest -Revision Level)..

4.9

. Test Leads, BNC terminated coaxial cables, etc.

4.10 Digital Multi-Meter (DMM):

Fluke 8050A or equivalent -- must be calibrated.

4.11 956A-201/897A-2XX Interconnecting cable per drawing 956A-201-106.

4.12 Right Angle Connector for,942-200-80A Board.

4.13

,Detector: 897A-210or 897A-220 shop test unit.

tp/d#49/956A2013.doc 5

FILE COPY

INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201, UNIVERSAL DIGITAL RATEMETER REV.

4 5.5.1 Connect the DVM neg lead to.the Ground point (black 18GA wir'es) located on the power supply assembly terminal block.

Connect the DVM positive lead to the +5 point (blue 18 GA wires) located on the power supply assembly terminal block.

5.5.2 Apply power to the unit under test.

5.5.3 Verify a +5.00 VDC :k 0.100 VDC reading on the DVM. A single adjustment is VIA VR1 provided on the 5V p6wer supply to trim all three supply outputs. Enter the final reading on the test data sheet.

5.5.4 Connect the DVM positive lead to the +15V terminal (red 18 GA wires). Verify a reading of +15V+0.75VDC. Enter the reading on test data sheet.

5.5.5 Connect the DVM positive lead to the -15VDC terminal (orange 18 GA wires). Verify a reading of -15VDC +/-0.75 VDC. reading on the test Data Sheet.

tp/d#49/956A2013.doc 7

FILE COPY CUSTOMER: NIA DOCUMENT: TP956A-201-3

INOVISION RADIATION MEASUREMENTS-TITLE:

TEST PROCEDURE FOR THE 956A'-201 UNIVERSAL DIGITAL" RATEMETER CUSTOMER: NIA DOCUMENT: TP956A-201-3

ýREV.

4 TABLE I - Serial Interface Baud Rate, PIN 942-200-80A SWITCH POSITION OUTPUT RATE 4

3 2

1 (BAUD RATE)

OFF OFF ON ON

-110 OFF ON OFF ON 150

,'ON OFF OFF' ON 300 OFF OFF OFF ON

'600 ON ON ON

OFF, 1200 ON OFF ON OFF 2400

ON ON OF

-OFF' 4800 ON OFF OFF OFF 9600

Normal setting for test and operational modes.

NOTE:

Switches 5, 7 and 8 should be in the OFF position while

-should be in the ON position.'"

Switch 6 tp/d#491956A2013.doc 9

FILE COPY

INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: NIA DOCUMENT: TP956A-201-3 REV.

4 7.4 Connect DMM (+) lead to the "LO" test jack.

7.5 Adjust VR1 1, low discriminator, to bothi extremes verifying a range of approximately 0.07 V to 1.0 V.

Record PASS or FAIL on the Data Sheet.

7.6 Adjust VRI 1 for 0.5 +/- 0.001 V and record the final yalue on the Data Sheet.

8.0 INPUT AMPLIFIER ADJUSTMENT 8.1 Using a test lead, short "P5 SIG." Input to chassis GND.

8.2 Connect DMM (+) lead to "PULSE" test point (Located near JP6).

8.3 Adjust VR9 for.0000 V +/-.0001 V. Paint VR9.

8.4 Record value on Data Sheet.

8.5 Remove test lead from "P5 SIG.".

Connect Signal Generator to "P5 SIG.".

8.6 Set-up Oscilloscope for.2 V/DIV., 2 uS/DIV.

8.7 Connect Oscilloscope Channel 1 to "P5 SIG.".

8.8 Connect Oscilloscope Channel 2 to "PULSE" test point.

8.9 Adjust VR8 so that both waveforms are at equal amplitudes (Unity Gain). Paint VR8.

8.10 Circle result (Pass/Fail) on Data Sheet.

tp/d#49/956A2013.doc 11 FILE Copy

INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-ý0ýi'UNIVERSAL DIGITAL RATEMETER CUSTOMER: N/A DOCUMENT: TP956A-201-3

-REV.

4 10.4 Circle result (Pass/Fail) on Data Sheet.

11.0 TEST 3: BAR GRAPH TEST BAR GRAPH TEST activates each segment from left to righlt starting with Green, then Amber, and then Red.

11.1 Select subtest "3".

11.2 Verify that all Bar Graph Segments activate in proper sequence and color.

11.3 Circle result (Pass/Fail) on Data Sheet.

12.0 TEST 4: DISPLAY TEST DISPLAY TEST cycles each character from right to left across the display.

Character sequence is 1, 2, 3,4, 5, 6, 7;8,9, -, E, H, L,'P,..

12.1 Select subtest "4".

12.2 Verify that all units properly display each. charaicter and in' the right sequence.

12.3 Circle result (Pass/Fail) on Data Sheet.

13.0 TEST 5: SWITCH TEST SWITCH TEST reads status changes of the UDR's front panel switches and the 942TS-100 Test Set's REMOTE ACK switch.

13.1 Connect jumper wire across the RI 1 position (Located in rear, left hand corner).

13.2 Select subtest "5".

tp/d#49/956A2013.doc 13 FILE COPY

INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: NIA DOCUMENT: TP956A-201-3 REV.

4 15.5 Verify T"V reads 001000 Hz +/- 000010 Hz. Enter result on Data Sheet.

15.6 Adjust Signal Generator frequency for 100 Hz.

15.7 Verify TV reads 000100 Hz +/- 00001 Hz. Enter result on Data Sheet.

15.8 Adjust Signal Generator frequency for 10 kHz.

15.9 Verify TV reads 010000 Hz +/- 000100 Hz. Enter result on Data Sheet.

15.10 Adjust Signal Generator frequency for 100 kHz.

15.11 Verify TV reads 100000 +/- 001000 Hz. Enter results on Data Sheet.

15.12 Adjust Signal Generator frequency for 280 kHz.

15.13 Verify TV reads 262126 Hz (Overflow). Enter result on Data Sheet.

15.14 Adjust Signal Generator amplitude for a +5.5 V.

15.15 Verify TV reads 000000 Hz +/- 000010 Hz. Enter result on Data Sheet.

15.16 Disconnect Signal Generator from "P5 SIG.".

15.17 Adjust VR10 for a 7 +/- 0.01V DVM indication. Neg probe on "GND" test jack, and positive probe on "HI" test jack. Record the final value on the "Data Sheet.

15.18 Verify VRII adjustment for 0.5 +/- 0.001 V. DVM Neg probe on "GND" test jack and positive probe on "LO" test jack. Record the final value on the Data Sheet.

l#49/956A2013 docn FILE COPY "10 tp/d S....... v

INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-'0b" UNIVERSAL DIGITAL RATEMETER CUSTOMER: N/A DOCUMENT: TP956A-201-3 REV.

4 17.0 TEST 8: DIA CONVERTER 4-20 mA/0-10 V OUTPUT TEST The D/A CONVERTER TEST sets the high scale and -low scale output for calibration of two 4-20 mA outputs and one 0 -10 V output. The 942TS-1OOT Set has had 250 Ohm Load Resistbrs added to the 4-20 mA output connections.

The measurements will be made in volts even though'the TV instructions call for current.

Verification of low, mid, and high scale are, performed.

Follow calibration instructions displayed on. T Refer to following table for correct conversions and tole-rances.

4-20 mA OUTPUTS SCALE Low Mid High SCALE Low Mid High CURRENT 4mA 12 mA 20 mA "VOLTAGE 1.000 V /-.001 V 3.000 V'/-.015 V 5.000 V +/-.001 V 0-10 V OUTPUT VOLTAGE

.0000 V -,/-.0001 V 5.000 V +/-.030 V 10.000 V-/- :001 V" 17.1 Selectsubtest !"8".

17.2 Follow TV calibration instructions.

17.3 Record Calibration Verification values on Data Sheet.

17.4 Paint VR1, VR2, VR4, VR5, VR6, and VR7.

tp/d#49/956A2013.doc FILE -COPY:

17

INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: N/A DOCUMENT: TP956A-201-3 REV.

4 20.0 TEST B: HIGH VOLTAGE POWER SUPPLY TEST The HIGH VOLTAGE POWER SUPPLY TEST verifies the voltage range as well as testing the HV Shutdown function.

20.1 Connect HV Probe (-) lead to "GND" test jack. Connect HV Probe (+)

lead to "P4 HV" MHV Connector.

20.2 Select subtest "B".

20.3 Adjust R5 (HV PCB Assy.) for a reading of 600 V + 1 V.

20.4 Record value on Data Sheet.

20.5 Connect DMM (+) lead to the "HV TEST' test jack (Test jack provides a 1000:1 DC voltage measurement). Verify a DMM reading of 0.600 V +/-

.060 V.

20.6 Record value on Data Sheet.

20.7 Adjust R5 to both extremes verifying a voltage range of 400 V to 1800 V.

20.8 Record adjustment minimum and maximum values on the Data Sheet.

20.9 Re-adjust HV for 550 V +/- 1 Volt.

20.10 Enter "S" on TV. Verify that HV has been shut down.

20.11 Circle result (Pass/Fail) on Data Sheet.

tp/d#49/956A2013.doc 19 RF COPY

INOVISION RADIATION MEASUREMENTS' TITLE:

TEST PROCEDURE FOR THE 956A-'*

jk UNIVERSAL DIGITAL RATEMETER CUSTOMER: N/A DOCUMENT: TP956A-201-3

'REV.

4 23.0 TEST F: JUMPER CONFIGURATION TEST The JUMPER CONFIGURATION TEST verifies whether or not JP3 Jumpers 1-5 are installed and displays the appropriate positionbn'0the Tv.

23.1 Select subtest "F".

23.2

-Verify that all JP3 jumpers are installed.

23.3 Remove all JP3 jumpers. Repeat test and verify that alljumpers are removed.

23.4 Install one jumper at a time and verify the position of that jumper is correct by repeating the'test.

23.5 Circle result (Pass/Fail) on the Data Sheet.

24.0 OPERATING SOFTWARE TEST 24.1 Remove Power from the UDR. Remove DMM leads.- Remove 942TS Test Set connections.

Remove 942-200-80A Communications PCB Assembly and angle bracket.

24.2 Replace Test Software with Operating Software.

Standard operating software is 94095603.

24.3 Hold down the "ENTER" Key and then apply power to UDR (Automatically sets "HIGH" and "WARN" Alarm Levels). Turn Power Off then re-apply Power.

24.4 0.00 mR/h should be displayed and the "RANGE" LED should be On.

24.5 Depress the "HIGH" button. Verify 1.00E3 mR/h.

24.6 Depress the 'WARN" button. Verify 1.OOE1 mR/h.

-24.7 Depress the "CHECK SOURCE" button. Verify CHECKSOURCE LED turns On.

tp/d#49/956A2013.doc 21 FIL -COPY'

INOVISION RADIATION MEASUREMENTS' TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: NIA DOCUMENT: TP956A-201-3 REV.

4 25.9 After 100 hours0.00116 days 0.0278 hours 1.653439e-4 weeks 3.805e-5 months , log burn-in stop date and time, and repeat Steps 24.5 through 24.7. Remove power. Using an int&connection cable wired per drawing 956A-201-106, connect the 956A-201 under test to a shop 897A-210 or 897A-220 detector.

25.10 Apply Power. Verify that the UDR responds to the Detector by activating the 956A checksource push button and noting the increase in displayed value.

25.11 Remove Power. Remove the Interconnect Cable and the Line Cord.

UDR is now ready to be cleaned up and packaged.

25.12 Circle results (Pass/Fail) on Data Sheet.

26.0 DOCUMENTATION 26.1 After final review, Quality Assurance shall file the completed original document in the Quality Assurance Sales or Job File.

tp/d#49/956A2013.doc 23 FILE COPY

INOVISION RADIATION MEASUREMENTS TITLE: TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER P.O.

CUSTOMER:

DOCUMENT: TP956A-201-3 VICO S.O./W.O.

REV. 4 956A-201 TEST DATA SHEET Page 2 of 4 11.0 TEST 3: BAR GRAPH TEST 11.3 Bar Graph Segment Sequence and Color 12.0 TEST 4: DISPLAY TEST 12.3 Display Characters and Sequence 13.0 TEST 5: SWITCH TEST 13.5 Front Panel Switches and REMOTE ACK.

14.0 TEST 6: INDICATOR/IBACKLITEIFAIL TEST 14.3 Indicator/Backlite/Fail LED Operation 15.0 TEST 7: COUNTER/DISCRIMINATOR TEST 15.3 Verify 000000 Hz 15.5 Verify 001000 Hz +/- 000010 Hz 15.7 Verify 000100 Hz +/-000001 Hz 15.9 Verify 010000 Hz +/- 000100 Hz 15.11 Verify 100000 +/- 001000 Hz 15.13 Verify Overflow 262126 Hz 15.15 Verify 000000 Hz +/- 000010 Hz 15.17 VR10 Adjustment, 7 V +/- 0.01 V 15.18 VR11 Adjustment, 0.5 V +/- 0.001 V 16.0 ANTi JAM BIT TEST 16.4 16.7 16.11 Verify 05 displayed Verify 07 displayed Verify 05 displayed tp/d#49/956A2013.doc FILE Copy Pass/Fail Pass/Fail Pass/Fail Pass/Fail Hz Hz Hz Hz Hz Hz Hz V

V 25

INOVISION RADIATION MEASUREMENTS TITLE: TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER P.O.

CUSTOMER:

DOCUMENT: TP956A-201-3 VICO S.O.IW.O.

REV. 4 956A-201 TEST DATA SHEET Page 4 of 4 21.0 TEST C: DATA ENTRY TEST 21.3 DIGIT, VALUE, and ENTER Switches 21.5 FUNCTION Switch 22.0 TEST D: RELAYTEST 22.4 Relay Response 23.0 TEST F: JUMPER CONFIGURATION TEST 23.5 JP3 Jumpers 24.0 OPERATION SOFTWARE TEST 24.8 Display Reading, "RANGE" LED HV Reading, "High", '"Wam", "Rate" Values, Check Source LED 25.0 BURN-IN 25.8 Burn-in Start Date/Time 25.9 Burn-in Stop Date/Time) 25.10 Check Source Function 25.12 No failures observed during burn-in and Post burn-in tests Performed By Q.A. Review By__

tp/d#49/956A2013.doc 27 Pass/Fail Pass/Fail Date

/

Date

/

FILE COPY Pass/Fail Pass/Fail Pass/Fail Pass/Fail Pass/Fail

VICTOREEN, INC.

TITLE:

ELECTRONIC TEST PROCEDURE FOR 897A-2X0 AND 897A-2X1 DETECTORS CUSTOMER: N/A DOCUMENT: TP897A REV. A PAGE 1 OF 12 DAVID WARNER tp/d#48/TP897A.doc FILE COPY I -, _ - I-I ISSUE DATE:

-NOVEMBER 10, 1995 REVISION LIST REV ECO #

-A

-'9CR28-95 APP VAL DATE

-PROJECT ENGINEER TECHNICAL SUPPORT MANAGER

-QUALITY ASSURANCE SSUED BY:

VICTOREEN, INC.

TITLE:

ELECTRONIC TEST PROCEDURE FOR 897A-2XO AND 897A-2X1 DETECTORS CUSTOMER:

N/A DOCUMENT: TP897A REV. A RECORD OF REVISIONS DOCUMENT REV. LEVEL DESCRIPTION/PAGES AFFECTED A

ORIGINAL ISSUE tp/d#48/TP897A.doc FILE COPY 2

VICTOREEN, INC.

TITLE:.-

ELECTRONIC TEST_ PROCEDURE FOR 897A-2X0 AND 897A-2X1 DETECTORS CUSTOMER:

N/A DOCUMENT: TP897A REV. A TABLE OF CONTENTS Section 1.0 2.0 4.0 5.0 6.0 Description Page PURPOSE........................................................................ 4 SCOPE.............................................................................. 4 RESPONSIBILITIES......

4 ENVIRONMENTAL CONDITIONS......................

5 EQUIPMENT REQUIRED...................................................... 5 PROCEDURE.................................................................. 6 tp/d#48/TP897A.doc 3

FILE COPT, -

VICTOREEN, INC.

TITLE:

ELECTRONIC TEST PROCEDURE FOR 897A-2XO AND 897A-2X1 DETECTORS CUSTOMER:

N/A DOCUMENT: TP897A REV. A 1.0 PURPOSE 1.1 The purpose of this procedure is to verify the proper operation of the model 897A-2XX series of GM area monitor detectors prior to source range calibration.

2.0 SCOPE 2.1 This procedure is to be performed on all 897A-2X0 and 897A-2X1 series detectors prior to source range calibration to insure proper set up and function. This procedure shall apply to production detectors as well as those received for repair or calibration. The following items are verified or adjusted by this procedure:

2.2 Detector current draw and local regulation.

2.3 Jumper placement.

2.4 Anti-jam function and range adjustment.

2.5 Discriminator range adjustment and final setting.

2.6 Detector output pulse height, period and symmetry.

2.7 Detector background countrate.

2.8 Check source operation in all positions of mounting.

3.0 RESPONSIBILITIES 3.1 Personnel performing this test must have a Technicians Skill Level 1 per S.O.P. 902.003.

3.2 Data generated by this test must be reviewed and approved by Q.A.

prior to shipment.

In addition, Q.A. has the responsibility of maintaining individual board test data in a job file.

tp/d#48/TP897A.doc FILE COPY 4

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TITLE:

ELECTRONIC TEST PROCEDURE FOR 897A-2X0 AND 897A-2X1 DETECTORS CUSTOMER: N/A DOCUMENT: TP897A REV. A 3.3 The completed Data Sheet shall accompany 'the detector to the calibration range.

. 4.0 ENVIRONMENTAL CONDITIONS 4.1 Environmental conditions shall be the prevailing laboratory ambient for temperature and humidity.

Radiation -background. levels shall not exceed 50 uR/h for the background check portion of this procedure.

5.0 EQUIPMENT REQUIRED 5.1 100 MHz, Oscilloscope: Tektronix "465B or equivalent must be calibrated and equipped with a X1 0 probe.

5.2 956A-201 Digital Ratemeter (UDR).

5.3_

Digital Voltmeter (DVM): Fluke 8050A or -equivalent -

must be a calibrated device.

5.4 Test Data Sheets as attached. -

5.5 Interconnection cable from, 956A-201,to 897A series detector. Refer

"- to Loop Diagram 956A-201-106.

5.6 Jumpers and test leads as required.

5.7 Precision DC voltage source or adjustable power supply: nominal 0-10 volt range.

5.8 IC test extended - 14 pin dual in-line package.

tp/d#48/TP897A.doc 5

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VICTOREEN, INC.

TITLE:

ELECTRONIC TEST PROCEDURE FOR 897A-2X0 AND 897A-2X1 DETECTORS CUSTOMER:

N/A DOCUMENT: TP897A REV. A 6.0 PROCEDURE 6.1 Initial set-up of device under test and test equipment.

6.1.1 Record Customer, P.O. and S.O. (or W.O.) numbers on the Data Sheet. Record detector assembly serial number and circuit board revision level and serial number on the Data Sheet.

6.1.2 Record the model, serial number and the calibration due date of the digital voltmeter and oscilloscope on the Data Sheet.

NOTE: The majority of the steps in this procedure are performed with the detector outer housing removed.

Use caution as high voltage (575 volts) is present in some areas of the circuit board.

6.1.3 Adjust the high voltage supply on the 956A-201 to be used to 575 volts. Adjust the 956A-201 lower discriminator (VR1 1) to 0.50 volts and the upper discriminator (VR10) to 7.0 volts.

6.1.4 Turn off 956A-201 power and connect the 956A-201 to the 897A detector to be tested using the cable referenced in 5.5 of section 4.0. Do not connect the high voltage connector to 956A-201 P4 (HV) at this time.

6.1.5 Remove jumper J3 from the header block on the 897-210-10 circuit board.

6.1.6 Place the DVM in the current measuring mode (200 mA range) and connect the DVM negative lead to J3-A.

Connect the DVM positive lead to J3-B.

6.2 Detector Quiescent Current Drain 6.2.1 Apply AC power and allow a five minute warm-up period to elapse prior to proceeding.

tp/d#48/TP897A.doc 6

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VICTOREEN,

.TITLE:

CUSTOMER:

DOCUMENT:

IN C.

A

89.

"ELECTRONIC TEST PROCEDURE FOR 897A-2X1 DETECTORS N/A TP897A REV. A 6.2.2 -Record-the DVM current' indication on the Data Sheet. The value must be less than 100 Ma.

Turn off 956A-201 ratemeter power. when this' measurement has been completed

-and replace jumper J3 into the' A-B'position.

6.3 Jumper placement and local regulator Operation 6.3.1 Record verification on'the Data Sheet that jumpers J1, J2 and J3 are all in the A-B positions.

6.3.2 Turn 956A-201 ratemeter power back on and allow a five minute warm-up to elapse prior to,proceeding.

6.3.3 Connect the.- Digital Voltmeter' (DVM) negative lead to the negative side of Cl (DC ground) and the positive lead to cathode of CR9.

Verify 10 +1/- 0.5 volts and record verification on the Data Sheet.-

6.4

.Anti-jam Adjustment Range and Pre-calibration Setting.

6.4.1 Place the IC test extender over Z1 on the 897A-210-10 circuit board.

6.4.2 Connect the,DVM'negative lead to Z1 pin 12 and the DVM positive lead-to Z1 pin 10.

6.4.3 Adjust potentiometer R41 fully counter-clockwise and verify a DVM indication of.,< 0.100 volts' Record the final reading on the Data Sheet.-

6.4.4 Adjust potentiometer R41 fully clockwise and verify a DVM indication of >,2.9 volts., Record the final reading on the Data Sheet.

6.4.5 Adjust -R41 %for a DVM indication of 1 +/- 0.001 volts.

Record the final setting on the Data Sheet. This value is the anti-jam starting threshold voltage.

tp/d#48/TP897A.doc FILE COPY 7

.r',*

VICTOREEN, INC.

TITLE:

ELECTRONIC. TEST PROCEDURE FOR 897A-2X0 AND 897A-2X1 DETECTORS CUSTOMER:

N/A DOCUMENT: TP897A REV. A 6.5 Discriminator Adjustment Range and Final Setting.

6.5.1 Move the DVM negative lead to ZI pin 8 and the DVM positive lead to Z1 pin 9.

Adjust potentiometer R44 fully counter-clockwise and verify a DVM indication of < 0.100 volts. Record the final reading on the Data Sheet.

6.5.2 Adjust potentiometer R44 fully clockwise and verify a DVM indication of > 1:5 volts. Record the final value on the Data Sheet.

6.5.3 Adjust potentiometer R44 for a DVM indication of 0.5 +/

0.01 volts and record the final setting value on the Data Sheet. This is the factory discriminator setting for all standard 897A detectors.

6.6 Anti-jam Trigger Threshold Verification.

6.6.1 Set the output of the precision voltage source or power supply to zero and connect the negative lead of the supply to the negative side of C1 (DC ground). Connect the positive lead of the supply to the ANODE of CR7.

6.6.2 Connect the DVM across the precision DC volt source to monitor the output. Set the range to 2 volts DC.

6.6.3 Connect the oscilloscope ground lead to the negative side of C1 (DC ground) and the probe to the junction of resistors R1 and R2 on the 897A-210-10 circuit board.

Set the oscilloscope as follows:

Vertical gain:

1 volt/division Input coupling:

DC Trigger mode:

Auto Sweep rate:

5 uS/division tp/d#48/TP897A.doc 8

FILE COPY

VICTOREEN, INC.

TITLE:

ELECTRONIC TESTPROCEDURE FOR 897A-2X0 AND 897A-2X1 DETECTORS CUSTOMER: N/A DOCUMENT: TP897A REV. A 6.6.4 Increase the'supply output until the oscilloscope displays the anti-jam square wave output-from the detector. Adjust the DC supply as required to determine the exact point of anti-jam START.

When-this point has been determined, record the DVM indication on the Data Sheet. The value displayed must be 1 +/- 0.01,volts.--:

6.7 Detector Output Pulse Height, Period and Symmetry..

6.7.1 With the detector remaining in the anti-jam state, verify a symmetrical square wave of -> 4.5 volts'peak with a period of less than 25 uS. Record the peak value of the output and the period noted on the Data Sheet.

6.8 Check Source Operation and Background Check.'

6.8.1 Set the supply output to zero and disconnect the supply from the detector.

6.8.2 Turn,off power to theý 956A-201: ratemeter and connect the high voltage coaxial cable to the rear' panel P4 jack. Turn ratemeter power back on after this connection has been made.

6.8.3 Verify that the check source is in the OFF position, that is,

the brass pan will be over the circuit board and not the hole over the GM tube.

6.8.4 With the check source in the OFF position, place the function switch 956A-201 in position #8 and enter a 1 minute (6.O0E1 second) count of the GM tube background. The background value must be greater than 1 CPM but less than 25 CPM.

If a higher than allowable background value is counted, recheck the actual background of the area where testing is being performed.

If the results are still not acceptable, replace the GM tube and repeat this step after a 15 minute warm-up period.

Record the final background countrate on the Data Sheet.

tp/d#48/TP897A.doc 9

FILE COPY

VICTOREEN, TITLE:

CUSTOMER:

DOCUMENT:

INC.

ELECTRONIC TEST PROCEDURE FOR1 897A-2XO AND 897A-2X1 DETECTORS N/A TP897A REV. A 6.8.5 Move the 956A-201 function switch out of position #8 and depress the check source push-button.

Verify that the check source moves to the ON position over the hole in the circuit board.

Repeat this test with the detector GM tube pointing upward, downward and in 12 o'clock, 3 o'clock, 6 o'clock and 9 o'clock horizontal positions.

The source must activate in each position. Record verification of source activation on the..

Data Sheet for each of these six positions.

6.9 Re-install the detector into the housing and secure with at least one screw.

Forward to the calibration department for source range calibration all detectors which have passed this procedure along with the Data Sheets.

6.10 Reject and repair/rework any detectors which have failed procedure and re-test when repairs have been completed.

this 6.11 Obtain Q.A. review of completed detectors and Data Sheets which have passed this procedure.

Forward accepted units, with completed Data

Sheets, to the Calibration Department for source range calibration.

tp/d#48/TP897A.doc FiLE COPY 10

VICTOREEN, INC.

-TITLE:

oELE DE1 CUSTOMER:

N/A DOCUMENT: TP8 Cl CTRONIC TEST PROCEDURE FOR' 897A-2X0 AND 897A-2X1 ECTORS 97A REV. A Junction: R1 & R2 Model, Serial Number and Revision GM Tube J3 R44 zi FIGURE 1 897A-210-10 Circuit Board tp/d#48/TP897A.doc FILE COPY11 JI!

VICTOREEN, INC.

TITLE:

ELECTRONIC TEST PROCEDURE FOR 897A-2X0 AND 897A-2X1 DETECTORS CUSTOMER: N/A DOCUMENT: TP897A REV. A Test Data Sheet TP897A for 897A-2X0 and 897-2X1 Detectors Customer:

S.O. No.:

Model 897A-P.O. No.:

W.O. No.:

Serial No.:

897A-21 0-10 Circuit Board Serial No.:

Revision Level:

Test Equipment Oscilloscope Model No:

Digital Voltmeter Model:

S/N:

Cal Due Date:

Test Results 6.2.3 Detector Quiescent Current Draw mA (100 mA max.)

6.3.1 Jumper Placement J1 (A-B),J2 (A-B),J3 (A-B) 6.3.3 Local Zener Regulation 6.4.3 Anti-jam minimum setting 6.4.4 Anti-jam maximum setting 6.4.5 Anti-jam final setting 6.5.1 Discriminator minimum setting 6.5.2 Discriminator maximum setting 6.5.3 Discriminator final setting 6.6.4 Anti-jam trigger threshold 6.7.1 Detector output pulse height Output square wave period 6.8.4 Detector background CPM 6.8.5 Check source activation:

v (>9.5 and < 11.0 volts) v (< 0.100 volts).

v ( > 2.9 volts) v (1 +/- 0.001 volts)

_v

< 0.100 volts) v( > 1.5 volts) v ( 0.5 +/0 0.01 volts) v (1 +/- 0.01 volts) v peak (4.5 minimum) uS (25 uS maximum)

( > 1CPM / < 25 CPM)

GM Tube up _

(yes) 12 o'clock _

(yes) 6 o'clock (yes)

GM Tube down (yes) 3 o'clock (yes) 9 o'clock (yes)

Performed By:

Date:

Q.A. Review By:

Date:

tp/d#48/TP897A.doc L

C 12 hiLE COPY

Appendix C TEST PROCEDURES AND DATA C.1 TEST PROCEDURES AND DATA Test procedures listed in this appendix may be used for site equipment testing, alignment or trouble-shooting activities except as noted. Note that Test Firmware and the 942TS breakout box are required to perform TP956A-201-3. Note that Test Procedure TPS 157033A2 requires a special noise generator and is not required to be performed in the field. Test Data is included for all electronic assemblies provided under contract.

Test Procedures TP956A-201-3 Electronic Factory Test Procedure for Ratemeter TP897A Electronic Test Procedure for 897A-210/-21 1 LT956A/897A-21X Loop Test Procedure using 848-8A Field Calb.

Data Sheets TP956A-201-3 Data Sheets for pre-mod 956A-201 Ratemeters s/n 129, 130 and 133.

TP897A Data Sheets for 897A-210 Detectors s/n 131, 132 and 100762 LT956A/897A-21X Data Sheets for 956A-201-M1 s/n 104643 and 897A-210 s/n 131 Data Sheets for 956A-201-MI s/n 104644 and 897A-210 s/n 132 Data Sheets for 956A-201-Ml s/n 104645 and 897A-210s/n 100762 TPS157033A2 Data Sheet for S 157033A2 s/n 104899 Control Room Instake Radiation Montors C-1

INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER PAGE CUSTOMER: NIA I OF 27 DOCUMENT: TP956A-201-3 REV.

4 ISSUE DATE:-

JAN*i 8 20.u.

REVISION LIST, REV ECO #

-"*4

- 29CR48-99

_____-___"___APPAVAL DATE

-RELIABILITY ENGINEER MANUFACTURING ENGINEER REGULATORY AFFAIRS ENGINEER ISSUED BY: GEORGE BUCK tp/d#49/956A2013.doc

.,FILE COPY

INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER:

N/A DOCUMENT: TP956A-201-3 REV.

4 RECORD OF REVISIONS DOCUMENT ECO REVISION LEVEL NUMBER DESCRIPTIONIPAGES AFFECTED A

Original Issue (Adapted from TP942-100-3)

Revised/Renumbered Table of Contents; Paragraph 9.4, Added New Section; B

5CR52-96 namely,.Anti Jam Bit Test, Renumbered remaining sections and paragraphs; Revised/Renumbered Pages 1 through 4 of Test Data Sheet Corrected-Anti-Jam Test Signal Input to C

10CR28-97 55 Khz,[Para. 16.5; Added Note to Para 2.0, and Para 4.14, for use on 956A-200 units.

4 9CR48-99 Added M&TE use to "SCOPE"; added second 4-20 mA column to Data Sheet ;

deleted 956A-200 applicability from "SCOPE" tp/d#49/956A2013.doc 2

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INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FORTHE 956A.201'UNIVERSAL DIGITAL RATEMETER CUSTOMER: N/A DOCUMENT: TP956A-201-3 REV.

4 TABLE OF CONTENTS Description -

Page 1.0 2.0 3.0

.4.0 5.0

-6.0 7.0 8.0,.

9.0 10.0 11.0

.12.0 13.0 14.0

,, 15.0'..

16.0 17.0 18.0 19.0 20.0 21.0 22.0 23.0 24.0 "25.0 26.0 tp/d#49/956A2013.doc 3

"" -FLE COP\\(

I;,Section PUR PO SE.............................................................................................

4 SCOPE...............................................................................

4 RESPONSIBILITIES............................................................................

4

, EQUIPMENT REQUIRED.....

4...:

4 SET-UP (See Figure 1)....

6 6

WRITE CLOCK ADJUSTMENT..............................

10 DISCRIMINATOR ADJUSTMENT....................................................

10 INPUT AMPLIFIER ADJUSTMENT..........................................

......... 11 ANTI-JAM ADJUSTMENT..............................

............................... 12 TEST 1: RAM TEST.........................................

12 TEST 3: BAR GRAPH TEST...............................................................

13 TEST 4: DISPLAY TEST...................... :..............

13 TEST 5: SWITCH TEST........................................

.............. 13 TEST 6: INDICATOR/BACKLIGHT/FAIL TEST..................

14 TEST 7: COUNTER/DISCRIMINATOR TEST........................................

14 ANTI JAM BIT TEST.....................................

16 TEST 8: D/A CONVERTER 4-20 mA/0-10 V OUTPUT TEST............ 17 TEST 9: EEPROM TEST.................................

18 TEST A: NON-MASKABLE INTERRUPT VERIFICATION (NMI) TEST.. 18 TEST B: HIGH VOLTAGE POWER SUPPLY TEST........................... 19 "TEST C:, DATA ENTRY TEST....................

........................... 20 TEST D: RELAY TEST...................................................... 20 TEST F: JUMPERCONFIGURATION TEST............ :..._........................

21 OPERATING SOFTWARE TEST........................................................

21 BU.N..N......

.... 22 DOCUMENTATION.....................................

23

INOVISION RADIATION MEASUREMENTS TITLE:

TES

T. PROCEDURE

FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: NIA DOCUMENT: TP956A-201-3 REV.

4 1.0 PURPOSE The purpose of this procedure is to provide a uniform method to functionally test the Model 956A-201 Ratemeter.

2.0 SCOPE This procedure is to be performed on all 956A-201 series Universal Digital Ratemeters prior to placing in stock. In addition; this procedure is to be used to document post repair testing of any 956A-201 series units returned for repair or calibration.

NOTE:

Refer to drawing 956A-201-106 for RatemeterlDetector interconnections.

3.0 RESPONSIBILITIES 3.1 Personnel performing this test must have a Technicians Skill Level 2 per S.O.P. 902.003.

3.2 Data generated by this procedure must be reviewed and approved by Q.A. prior to shipment to customer. A copy of the test Data Sheet shall be retained by Q.A. and placed in a job file.

4.0 EQUIPMENT REQUIRED 4.1 942TS-100 Test Set with interconnecting cables 942ATS-100-14 and 942TS-1 00-37.

4.2 Televideo Terminal (TV) or RS-232 Compatible Device.

4.3 942-200-80A Communications PCB Assembly with Test Cable.

4.4 Dual Channel Oscilloscope/Tektronix 465 or equivalent.

4.5 High Voltage Probe: Fluke 80K-6 or equivalent -- must be calibrated.

tp/d#49/956A2013.doc 4

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INOVISION RADIATION MEASUREMENTS TITLE:,,

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: NIA DOCUMENT: TP956A-201-3

,REV.

4 Wavetek 187 Signal Generator or equivalent.

'Frequency Counter: Fluke 1900QA or equivalent -'must be calibrated.

Note: If the Function/Pulse generator used has a calibrated

-display, 'a calibrated frequency counter is not required.

,Test Software 94094200200 (Latest Revision Level)..

Test Leads, BNC terminated coaxial cables, etc.'

Digital Multi-Meter (DMM):

Fluke 8050A or eqbivalent -

must be calibrated.

956A-201/897A-2XX Interconnecting cable per drawing 956A-201-106.

Right Angle Connector for 942-200-80A Board.

Detector: 897A-210 or 897A2-220 shop test unit.'-

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INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: NIA DOCUMENT: TP956A-201-3 REV.

4 5.0 SET-UP (See Figure 1) 5.1 Set-up the Main PCB Assembly jumpers (Located in rear, right hand corner except JP-3, located near center of PCB Assembly) as follows:

JP-1,

None, Momentary short for RESET JP-2, 2-3, Prom size (27C256)

JP-3,

ALL, Sensitivity Select, Auto Acknowledge, No Fail, Alarms on C/S JP-4, 2-3, Positive Input Pulse JP-5, 2-3, Shield Ground JP-6, 2-3, Anti-Jam Fuse Disable for testing JP-7, 2-3, GM Detector Anti-Jam Pulse Select 5.2 Set-up Televideo (referred to as TV) or other RS-232 compatible device, as follows:

Press "F5" key for "SET UP".

Press "F2" key for "COMM".

Press Function keys to set up the following:

4800 4800 NONE 8

1 FDX X-ON 2

HDX M.BAUD P.BAUD PARITY D.BITS S.BITS MODE PROTCL Press "ALPHA LOCK" key. Observe a "*" in the Lower, Left Corner of the highlighted Menu Block (Televideo Only).

5.3 Set-up Signal Generator as follows:

A.

Square Wave pulse B.

1 volt peak positive pulse C.

DC offset: at ground reference D.

100 kHz 5.4 Connect Line Cord to P3.

5.5 DC Power Supply Verification d#.49/956A2013.doc FiL__ COP tp.

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INOVISION RADIATION MEASUREMENTS TITLE:-

TEST PROCEDURE FORTHE 956A-i20 UNIVERSAL DIGITAL RATEMETER CUSTOMER: N/A DOCUMENT: TP956A-201-3 REV.

4 5.5.1 Connect the DVM neg lead to the Ground point (black 18GA wires) located on the power supply assembly terminal block.

Connect the DVM positive lead to the +5 point (blue 18 GA wires) located on the power supply assembly terminal block.

5.5.2 Apply power to the unit under test.

5.5.3 Verify a +5.00 VDC - 0.100 VDC reading on the DVM. A single adjustment is VIA VR1 provided on the 5V p6wer supply to trim all three supply outputs., Enter the final reading on the test data sheet.

5.5.4 Connect the DVM positive lead to the +15V terminal (red 18 GA wires). Verify a reading of +15V+/-0.75VDC. Enter the reading on test data sheet.

5.5.5-Connect the DVM positive lead to the -15VDC terminal (orange 18 GA wires). Verify a reading of -1 5VDC -+/-0.75 VDC. reading on the test Data Sheet.

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INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER:

DOCUMENT:

NIA TP956A-201-3 REV.

4 FIGURE 1 tp/d#49/956A2013.doc 8

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INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-'20tUNIVERSAL DIGITAL RATEMETER CUSTOMER: N/A DOCUMENT: TP956A-201-3 "REV.

4 TABLE I - Serial Interface Baud Rate, PIN 942-200-80A

Normal setting for test and operational modes.

NOTE:

Switches 5, 7 and 8 should be in the OFF position while Switch 6 should be in the ON position.:

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INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: NIA DOCUMENT: TP956A-201-3 REV.

4 6.0 WRITE 6.1 6.2 6.3 6.4 6.5 6.6 Ch. 1 /CLOCI CLOCK ADJUSTMENT Apply Power to the UDR.

Adjust Oscilloscope for 2 V/DIV.,.2 uS/DIV. Set trigger to Channel 1 for a negative going pulse.

Connect Channel 1 to U19-2 (/CLOCK).

Connect Channel 2 to U19-12 (/SHORT 02).

Adjust VR13 to obtain a 225 nS delay between the negative going edge of Channel 1 and the negative going edge of Channel 2 as shown in Figure 2. Paint VR13.

Circle result (Pass/Fail) on Data Sheet.

500 nS---

-- -- )

C Ch. 2 /SHORT 02

<- -225 nS FIGURE 2 7.0 DISCRIMINATOR ADJUSTMENT 7.1 Connect DMM (+) lead to the "HI" test jack and the (-) lead to the "GND" test jack.

7.2 Adjust VR10, high discriminator, to both extremes verifying a range of approximately 3.6 V to 7.4 V. Record PASS or FAIL on the Data Sheet.

7.3 Adjust VR10 for 5 +/- 0.01 V and record the final value on the Data Sheet.

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INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-20i UNIVERSAL DIGITAL RATEMETER CUSTOMER: NIA DOCUMENT: TP956A-201-3 REV.

4 7.4 Connect DMM (+) lead to the "LO" test jack.

7.5 Adjust VR11,,Iow discriminator, to both-extremes verifying a range of approximately 0.07 V to 1.0 V.

Record PASS or FAIL on the Data Sheet.

7.6 Adjust VRI1 for 0.5 +/- 0.001 V and record the final value on the Data Sheet.

8.0 INPUT AMPLIFIER ADJUSTMENT 8.1 Using a test lead, short "P5 SIG." Input to chassis GND.

8.2 Connect DMM lead to "PULSE" test point (Located near JP6).

8.3 Adjust VR9 for.0000 V +/-.0001 V.- Paint VR9.

8.4 Record value on Data Sheet.

8.5.Remove test lead from "P5 SIG.".

Connect Signal Generator to "P5 SIG.".

..86.Set-up Oscilloscope for.2 V/DIV., 2 uS/DIV.-

8.7 Connect-Oscilloscope Channel I to "P5 SIG.".

8.8 Connect Oscilloscope Channel 2 to "PULSE"-test point.,

8.9 Adjust VR8 so. that both waveforms are at 'equal amplitudes (Unity "Gain). Paiht VR8.

8.10 Circle result (Pass/Fail) on Data Sheet.,-

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INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: NIA DOCUMENT: TP956A-201-3 REV.

4 9.0 ANTI-JAM ADJUSTMENT 9.1 Connect DMM (+) lead to the right side of R94.

9.2 Adjust VR12 to both extremes verifying a range of approximately 0.0 V to 1.5 V.

9.3 Circle result (Pass/Fail) on Data Sheet.

9.4 Adjust VR12 for 0.875 V +/-.001 V. Paint VR12.

9.5 Record value on Data Sheet.

9.6 Turn UDR Power Off and install Test Software 94094200 into U23.

9.7 Connect 942TS-100 Test Set cables to the "P1 1/0", "P2 DET.", and "P6 AUX" connectors located on rear panel. See Figure 1.

9.8 On the 942-200-80A Communications PCB Assembly, place SW1-3, 4, and 6 in the ON position. See Table 1.

9.9 Connect the 942-200-80A Communications PCB Assembly to J3 of Main PCB Assembly via the Right Angle Connector. Connect the Televideo (Referred to as TV) RS-232 cable to the 942-200-80A's J4.

10.0 TEST 10.1 10.2 10.3 1: RAM TEST Apply Power to UDR. TV should prompt. Select "M" for "TEST MENU".

Select "1" for "BASE UNIT TEST' Menu. Menu will be displayed.

RAM TEST verifies read and write functions and data patterns in RAM address 0090 through 1FFF. Data patterns are 00, FF, 55, AA and 00 FF repeated. Error addresses will be displayed on the TV.

Select subtest "1".

Verify all RAM locations pass.

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INOVISION RADIATION MEASUREMENTS TITLE:

-,,,-TEST PROCEDURE FOR THE 956A"2b& UNIVERSAL DIGITAL RATEMETER CUSTOMER: N/A DOCUMENT: TP956A-201-3 REV.

4 10.4 Circle result (Pass/Fail) on Data Sheet.

11.0 TEST 3: BAR GRAPH TEST BAR GRAPH TEST activates each segment from left to right starting with Green, then Amber, and then Red.

11.1 Select subtest "3".

11.2 Verify that all Bar Graph Segments activate in proper sequence and color.

11.3 Circle result (Pass/Fail) on Data Sheet.

12.0 TEST 4: DISPLAY TEST

,DISPLAY TEST cycles each -character from right to'left acrossithe display.

Character sequence is 1; 2, 3, 4,,5, 6, 7, 8, 9,-, E, H, L, P,.,.

12.1 Select subtest "4".

12.2 Verify that all units properly display each character and in the. right sequence.

12.3

. Circle result (Pass/Fail) on Data Sheet.-,'

13.0" TEST 5: SWITCH TEST SWITCH TEST reads status changes of the UDR's front panel switches and the 942TS-100 Test Set's REMOTE ACK switch.

13.1 Connect jumper wire across the Ri 1 position (Located in rear, left hand corner).-,

13.2 Select subtest "5".

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t INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: N/A DOCUMENT: TP956A-201-3 REV.

4 13.3 Press each front panel switch several times and verify that the TV displays the correct switch each time.

13.4 Press the 942TS-100 REMOTE ACK switch several times and verify that the TV displays the correct switch each time. Remove the jumper wire from across RI I position.

13.5 Circle result (Pass/Fail) on Data Sheet.

14.0 TEST 6: INDICATOR/BACKLITEIFAIL TEST INDICATORIBACKLITE/FAIL TEST cycles through front panel indicators/backlites in sequence as displayed on the TV. The fail light which is normally on will extinguish by this test.

It will time out and re-activate in approximately 2 seconds. The Warn indicator is Amber.

14.1 Select subtest "6".

14.2 Verify each indicator/backlite activates as the TV display status indicates. Verify FAIL LED operation.

14.3 Circle result (Pass/Fail) on Data Sheet.

15.0 TEST 7: COUNTER/DISCRIMINATOR TEST COUNTER TEST displays on the TV the input frequency in Hz, until any key is depressed.

DISCRIMINATOR TEST involves adjusting the input signal amplitude below, within, and above the discriminator settings (262,126 Hz indicates overflow of counters). Connect Oscilloscope Channel A to P5 signal.

15.1 Adjust Signal Generator for a +400 mV pulse at 1 KHz.

15.2 Select subtest "7".

15.3 Verify TV reads 000000 HZ. Enter result on Data Sheet.

15.4 Adjust Signal Generator amplitude for a +1 V.

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INOVISION RADIATION MEASUREMENTS"'"

TITLE:.

. TEST PROCEDURE FOR THE 956A-O1,'UNIVERSAL DIGITAL RATEMETER CUSTOMER: N/A DOCUMENT: TP956A-201-3 REV.

4 15.5 15.6 15.7 15.8 15.9 15.10 15.11 15.12 15.13

,15.14 15.15 15.16 15.17 15.18 tp/d#49/956A2C Verify TV reads 001000 Hz +1- 000010 Hz. Enter result on Data Sheet.

Adjust Signal Generator frequency for 100 Hz.

Verify TV reads 000100 Hz +1- 00001 Hz. Enter result on Data Sheet.

Adjust Signal Generator frequency for 10 kHz.'

Verify TV reads 010000 Hz +1- 000100 Hz. Enter rieslt on-Data Sheet.

Adjust Signal Generator frequency for 100 kHz.

Verify TV reads 100000 +/- 001000 Hz. Enter fesuilts on Data Sheet.

Adjust Signal Generator frequency for 280 kHz.

Verify TV reads 262126 Hz (Overflow). Enter r&'sulton Data* Sheet.

Adjust Signal Generator amplitude for a +5.5 V.'

Verify TV reads 000000 Hz +/- 000010 Hz. Enter result on Data Sheet.

Disconnect Signal Generator from "P5 SIG.".

Adjust VR10 for a 7 +/- 0.01V DVM indication.' 'Neg probe on "GND" test jack, and positive probe on "HI" test jack. Record the final value on the Data Sheet.

Verify VRII adjustment forQ.52+/. 0.001 V. DVM Neg probe'on "GND" test jack and positive probe on "LO" test jack. Record the final value on the Data Sheet.

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INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: N/A DOCUMENT: TP956A-201-3 REV.

4 16.0 ANTI JAM BIT TEST This test exercises the anti jam circuitry by injecting a frequency greater than the anti jam voltage. The anti jam bit is D1 of location 4008H.

16.1 Cycle power on the UDR.

16.2 Adjust signal generator to 40 KHz with a +5V peak.

16.3 Type in 4008/.

16.4 The response will be 05 after the u/"

Record on Data Sheet.

16.5 Increase signal generator to 55 KHz.

16.6 Type in 4008/.

16.7 The response will be 07 after the "I".

Record on Data Sheet.

16.8 Decrease frequency generator to 40 KHz.

16.9 Cycle power on the UDR.

16.10 Type in 4008/.

16.11 The response will be 05 after the" /".

Record on Data Sheet.

16.12 Type "M" and select the base unit test.

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INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A:201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: N/A DOCUMENT: TP956A-201-3 REV.

4 17.0 TEST 8: D/A CONVERTER 4-20 mA/0-10 V OUTPUT TEST The. D/A CONVERTER TEST,sets the high scaleand low'scale output for calibration of two 4-20 mA outputs and one 0 -10 V output. The 942TS-1 GOT Set has had 250 Ohm Load Resistors added to the 4-20 mA output -connections.

The measurements will be made in volts even though the TV instructions call for current.

Verification of low, mid, and high scale are performed.

Follow calibration instructions displayed on TV.

Refer to following table for correct conversions and tolerances.

4-20 mA OUTPUTS CURRENT 4mA 12 mA 20 mA

';I I--

VOLTAGE 1.000 V +/-.001 V 3.000,V+/-.015 V, 5.000 v v.001 v

0-10VOUTPUT VOLTAGE

.0000 V +/-.0001 V 5.000 V +'/--030 V 10.000 V +/-.001 V

-17.1 1,Select-subtest "8".

I 17.2 Follow'TV calibration instructions.

17.3 Record Calibration Verification values on Data Sheet.

17.4 Paint VR1, VR2, VR4, VR5, VR6, and VR7.

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INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER:

NIA DOCUMENT: TP956A-201-3 REV.

4 18.0 TEST 9: EEPROM TEST EEPROM TEST writes data patterns to the EEPROM device then prompts the user to cycle power. The program is re-entered by the user and a verification of data patterns is performed by the test program.

CAUTION THIS TEST WILL DESTROY PREVIOUS SETPOINTS.

18.1 Select subtest "9".

18.2 Select 'W*.

18.3 Turn UDR Off, wait one minute, then turn on.

18.4 TV should prompt. Select "M" for "TEST MENU". Select "1" for "BASE UNIT TEST' Menu. Menu will be displayed.

18.5 Select subtest "9".

18.6 Select "V".

18.7 Result will be displayed on TV. Circle result (Pass/Fail) on Data Sheet.

19.0 TEST A: NON-MASKABLE INTERRUPT VERIFICATION (NMI) TEST The NMI VERIFICATION TEST measures the time interval between interrupts and displays this time period in mS on the TV.

NMI occurs at 8 Hz rate, therefore, the terminal should display 125 mS.

19.1 Select subtest "A".

19.2 Verify TV reads 125 mS +/- 1 mS.

19.3 Record result on Data Sheet.

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. REV.

4 20.0 TEST B: HIGH VOLTAGE POWER SUPPLY TEST The HIGH VOLTAGE POWERSUPPLY TEST verifies the vbltage range as well as testing the HV Shutdown function:

20.1 Connect HV Probe (-) lead to "GND" test jack. Connect HV Probe (+)

lead to "P4 HV" MHV Connector.

20.2 Select subtest "B".

20.3 Adjust R5 (HV PCB Assy.) for a'reading of 600 V +/-1 V. '

20.4 Record value on Data Sheet.

I I

20.5 Connect DMM (+) lead to the "HV TEST" test jack (Test jack provides a 1000:1 DC voltage measurement).-, Verify a DMM reading of 0.600 V +/-

.060 V.

20.6 Record value on Data Sheet.

20.7 Adjust R5 to both extremes verifying a voltage ratbie of 400 V to 1800 V.

20.8 Record adjustment minimum and maximum,values'on'the Data Sheet.

" 20.9 Re-adjust HV for 550 V+/- 1 Volt.

20.10 Enter "S" on TV. Verify that HV has'been shut down.

20.11

-Circle result (Pass/Fail) on Data Sheet.

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INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: NIA DOCUMENT: TP956A-201-3 REV.

4 21.0 TEST C: DATA ENTRY TEST The DATA ENTRY TEST verifies operation of the Data Entry switches ("DIGIT",

"VALUE", "ENTER") and the "FUNCTION" switch.

21.1 Select subtest "C".

21.2 Press each Data Entry switch several times and verify that TV displays correct entries.

21.3 Circle result (Pass/Fail) on Data Sheet.

21.4 Select "F" for Function switch test. Verify correct "FUNCTION" switch position. Repeat test for each "FUNCTION" switch position 0 through F.

21.5 Circle result (Pass/Fail) on Data Sheet.

22.0 TEST D: RELAY TEST The RELAY TEST sets each relay from de-energized to energized state in sequence as displayed on the "V. The 942TS Test Set provides the relay status information.

Note that the 956A-201 checksource will not cause a lamp state change to occur during this test. Checksource function is tested with a shop detector in Section 24.10.

22.1 Select subtest "D".

22.2 Hold down the "D" key for several executions of the test.

22.3 Verify each relay and its contacts response according to TV information displayed.

22.4 Circle result (Pass/Fail) on Data Sheet.

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INOVISION RADIATION MEASUREMENTS TITLE:-

TEST PROCEDURE FOR THE 956AX'201 UNIVERSAL DIGITAL RATEMETER CUSTOMER: NIA DOCUMENT: TP956A-201-3 REV.

4 23.0 TEST F: JUMPER CONFIGURATION TEST The JUMPER CONFIGURATION TEST verifies whether or not JP3 Jumpers 1-5 are installed and displays the appropriate position on the TV.

23.1 Select subtest "F".

23.2 Verify that all JP3 jumpers are installed.

23.3 Remove all JP3 jumpers. Repeat test and verify that all jumpers are

, removed.

23.4 Install one jumper at a time and verify the position of that jumper is

-correct by repeating the test.

S 23.5, Circle result (Pass/Fail) on the Data Sheet. "

24.0* OPERATING SOFTWARE TEST 24.1 Remove Power from the UDR. Remove DMM leads. Remove 942TS Test Set connections.

Remove 942-200-80A Commu'nications PCB

-- Assembly and angle bracket..":;

"24.2 Replace Test Software with Operating Software.

Standard operating software is 94095603.

24.3 Hold down the "ENTER" Key and then apply power to UDR (Automatically sets "HIGH" and 'WARN" AlarmiLevels). Turn Power Off then re-apply Power.

24.4 0.00 mR/h should be displayed and the "RANGE" LED should be On.

24.5 Depress the "HIGH" button. Verify 1.00E3 mR/h.

24.6 Depress the,'WARN" button'. Verify 1.OOE1 mR/h:

24.7 Depress the "CHECK SOURCE" button. Verify CHECKSOURCE LED turns On.

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INOVISION RADIATION MEASUREMENTS TITLE:

TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER:

NIA DOCUMENT: TP956A-201-3 REV.

4 24.8 Circle result (Pass/Fail) on Data Sheet.

24.9 Sign off Travelers and Data Sheet.

24.10 Send unit to Production for Final Assembly.

25.0 BURN-IN 25.1 The 956A-201 UDR Final Assembly will be installed in a 948-1 Rack Chassis and burned in for 100 hours0.00116 days 0.0278 hours 1.653439e-4 weeks 3.805e-5 months .

25.2 Visual Assembly for cosmetic defects and loose hardware.

Verify that correct Travelers and Data Sheets are properly completed.

Record operational firmware number and revision level on Data Sheet and Travelers.

25.3 Place JMP-6 in the 1-2 position (Enable anti-jam circuit).

Install the UDR into a 948-1 Rack Chassis.

25.4 Apply Power. 0.00 mR/h should be displayed and the "RANGE" LED should be On (If EEEEE is displayed, Anti-Jam Fuse F1 is defective.

Replace if necessary.) After approximately five (5) minutes, the "FAIL" LED should turn On.

25.5 Depress the "HIGH" button. Verify 1.00E3 mRPh.

25.6 Depress the 'WARN" button. Verify 1.OOE1 mR/h.

25.7 Depress the "CHECK SOURCE" button. Verify LED turns On.

25.8 Log the start time of the burn-in on the Data Sheet.

NOTE Quality Assurance is to be notified of any failures noted during burn-in.

The entire procedure, Section 25, must be repeated in the event of a failure.

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TEST PROCEDURE FOR THE 956A:'201 UNIVERSAL_ DIGITAL RATEMETER CUSTOMER: N/A DOCUMENT: TP956A-201-3 REV.

4 25.9 After 100 hours0.00116 days 0.0278 hours 1.653439e-4 weeks 3.805e-5 months , log burn-in stop date and time, and repeat Steps 24.5 through 24.7. Remove power. Using an interconnection cable Wvired per drawing.956A-201-106, connect the 956A-201 under test to'a shop 8 97A-210 or 897A-220 detector.

_25.10 Apply Power. Verify that the UDR responds to the Detector by activating the 956A checksource push button and noting the increase ir displayed value.

"25.11 Remove Power. Remove the Interconnect Cable'and the Line Cord.

UDR is now ready to be cleaned up and packaged.

25.12 Circle results (Pass/Fail) on Data Sheet.

I 26.0 DOCUMENTATION 26.1 After final review, Quality Assurance shall -file -the completed original document in the Quality Assurance Sales or Job File.

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DOCUMENT: TP956A-201-3 VICO S.O./W.O.

REV. 4 956A-201 TEST DATA SHEET 1, Page 1 of 4 PART NUMBER SERIAL NUMBER DMM Model Scope H.V. Probe Frequency Counter Test Software 940942200200 Rev.

Operating Software 5.5 SET-UP S/N S/N S/N S/N Level Rev. Level Cal. Due Date

/

Cal. Due Date

/

Cal. Due Date

/

Cal. Due Date I

/

+5VDC +/- 0.1 OOVDC

+15VDC +/-.75VDC

-15VDC +/-.75VDC 6.0 WRITE CLOCK ADJUSTMENT 6.6 VR13 Adjustment 7.0 DISCRIMINATOR ADJUSTMENT 7.2 VR10 Adjustment 7.3 VR10 Final Setting (5 +/- 0.01 V) 7.5 VR1 1 Adjustment 7.6 VR1 1 Final Setting (0.5 +/- 0.01 V 8.0 INPUT AMPLIFIER ADJUSTMENT 8.4 VR9 Adjustment.0000 V +/-.0001 V 8.10 VR8 Adjustment Unity Gain 9.0 ANTI-JAM ADJUSTMENT 9.3 VR12 Adjustment Range 9.5 VR12 Adjustment 0.875 V +/-.0001 V 10.0 TEST 1: RAM TEST 10.4 RAM Locations tp/d#49/956A2013.doc 24 V

V V

Pass/Fail Pass/Fail Pass/Fail V

Pass/Fail Pass/Fail V

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TITLE: TEST PROCEDURE FOR THE 956A-201 UINIVERSAL DIGITAL RATEMETER CUSTOMER P.O.__

CUSTOMER:

VICO S.O.IW.O..__________

"DOCUMENT: TP956A-201-3 REV. 4 956A-201 TEST DATA SHEET Page 2 of 4 11.0 TEST 3: BAR GRAPH TEST 11.3 Bar G rap-Segment Sequence and Color 12.0 TEST 4: DISPLAY TEST 12.3 Display Characters and Sequence 13.0

-TEST 5: SWITCH TEST 13.5 -- Front Panel Switches and REMOTE ACK.

14.0 TEST 6: INDICATORPBACKLITEIFAIL TEST 14.3 Indicator/Backlite/Fail LED Operation 15.0 TEST 7: COUNTER/DISCRIMINATOR TEST 15.3 Verify 000000 Hz 15.5 Verify 001000 Hz +/- 000010 Hz 15.7 Verify 000100 Hz +/-000001 Hz 15.9 Verify 010000 Hz +1- 000100 Hz 15.11 Vehfy 100000 +/- 001000 Hz 15.13 Verify Overflow 262126 Hz 15.15 Verify 000000 Hz +/- 000010 Hz 15.17 VR10 Adjustment, 7 V +/- 0.0'1 V 15.18 VR11 Adjustment, 0.5 V +1- 0.001 V 16.0 ANTI JAM BIT TEST 16.4 16.7 16.11 Pass/Fail P*,ass/Fail Pass/Fail Pass/Fail

__________Hz Hz Hz Hz Hz Hz Hz V

+

V Verify 05 displayed Verify 07 displayed Verify 05 displayed tp/d#49/956A2013.doc SFILE Copy 25

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CUSTOMER:

.__VICO S.O./W.O.

DOCUMENT: TP956A-201-3 REV. 4 956A-201 TEST DATA SHEET Page 3 of 4 17.0 TEST 8: DIA CONVERTER 4-20 mA/0-10 V OUTPUT TEST 17.3 Calibration Verification, Analog Outputs:

4-20 mA OUTPUTS #1 and #2 CURRENT 4mA 12 mA 20 mA VOLTAGE SPEC.

1 +/-.001 V 3 +/-.010 V 5 +/-.001 V Output #1 V

V V

Output #2 V

V V

0-10 V OUTPUT VOLTAGE SPEC.

.0000 V +/-.0001 V 5.000 V +/-.030 V 10.000 V +/-.001 V 18.0 TEST 9: EEPROM TEST 18.7 Write and Verify VALUE V

V V

Pass/Fail 19.0 TEST A: NON-MASKABLE INTERRUPT VERIFICATION (NMI) TEST 19.3 Verify 125 mS +/- 1 mS Pass/Fail 20.0 TEST B: HIGH VOLTAGE POWER SUPPLY TEST 20.4 R5 Adjustmentl"P4 HV' 20.6 "HV TEST' Jack (0.600 +/- 0.010 V) 20.8 R5 Adjustment (400 V to 1800 V) 20.11 HV Shut Down tp/d#49/956A2013.doc 26 V

V

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INOVISION RADIATION MEASUREMENTS TITLE: TEST PROCEDURE FOR THE 956A-201 UN1VIERSAL DIGITAL RATEMETER CUSTOMER P.O.

CUSTOMER:

DOCUMENT: TP956A-201-3 VICO S.O.IW.O.

REV. 4 956A-201 TEST DATA SHEET Page 4 of 4 21.0 TEST C: DATA ENTRYTEST 21.3 DIGIT, VALUE, and ENTER Switches 21.5 FUNCTION Switch 22.0 TEST D: RELAY TEST 22.4 Relay Response 23.0 TEST F: JUMPER CONFIGURATION TEST 23.5 JP3 Jumpers 24.0 OPERATION SOFTWARE TEST 24.8 Display Reading, "RANGE" LED HV Reading, "High", 'Warn", "Rate" Values, Check Source LED 25.0 BURN-IN 25.8 Burn-in Start Date/Time 25.9 Burn-in Stop Date/Time) 25.10 Check Source Function 25.12 No failures observed during burn-in and Post burn-in tests.

Performed By Q.A. Review By__

tp/d#49/956A2013.doc 27 Date _

/

Date _

I FILE COPY Pass/Fail Pass/Fail Pass/Fail Pass/Fail Pass/Fail Pass/Fail Pass/Fail

cow REV. LEVEL ECO #

DESCRIPTION/PAGES AFFECTED 1 A-88¢

"*rinitial Release ENGINMF;r'IJ

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MANUFACTURING QUALITY ASSURANCE RADIATION SAFETY OFFICER Inovision RadiationitMeasurements

-REV-

-ECO NO.-

RELEASED FOR 1

"1882 PRODUCTION DATE 3-,'-cJ/

DATE

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/-//k Loop Test Procedure-for 955A Low Range GM Area Monitors.

LT956A/897A-21X SIZE

--TP TP I.

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-LOOP TEST PROCEDURE FOR 955A LOW RANGE GM AREA MONITORS U

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Inovision Radiation Measurements 3/6/01 Loop Test Procedure for 955A Low nio RRange GM Area Monitors REV ECO NO.

RELEASED FOR D

L SHEET NO.

SLIZE 1882 PRODUCTION 2 of 5 LT956A1897A-21X TP 1

PURPOSE The purpose of this procedure is to test and document the operation of a 955A series Low Range GM Area Monitoring channel. GM Detector models covered under this procedure include, but are not limited to, 897A-210 and 897A-221. Consult Systems Engineering if doubt exists as to the applicability of this procedure to a specific detector type not listed. Ratemeters covered under this procedure are models 956A 201 and 956A-201-M1.

2 SCOPE 2.1 This procedure is to be performed whenever complete 955A GM area monitoring channels are to be provided. The following items are verified through the performance this procedure:

2.2 All analog outputs.

2.3 Alert, Warn and Fail Alarm operation.

2.4 Remote Alarm operation ( if applicable) 2.5 Overange and Overrange Acknowledge Function 2.6 Ratemeter digital display and bar graph.

3 RESPONSIBILITIES 3.1 Personnel performing this procedure shall have a Technicians Skill Level 1 per QSP-1 8-01.

3.2 Data generated by this test must be reviewed and approved by Q.A. prior to shipment. In addition, Q.A. has the responsibility of maintaining individual detector test data in a job file.

3.3 The personnel performing this procedure must be authorized, dosimetry equipped radiation workers. All work performed using 848-8 Field Calibrators shall be in accordance with Radiation Safety Program and under the approval of the RSO or assistant RSO.

4 ENVIRONMENTAL CONDITIONS 4.1 Environmental conditions shall be the prevailing laboratory ambient. Work conducted using the 848-8/8A Field Calibrators must be performed within a secure, controlled access area.

5 REQUIRED EQUIPMENT Digital Multimeter (DMM) : Fluke 8050A or equivalent - must be a calibrated device.

5.1 956A-200 Series Digital Ratemeter ( UDR ) to be tested.

5.2 897A-220 ( or 897A-221 ) Detector to be tested.

5.3 956A to 897A lnterfgýe Cable (shop test cable or fabricated cable assembly to be shipped with channel) 5.4 Shop ( or Customer) 848-8A 10 mCi Field Calibrator and Shop (or Customer) 848-8 100 mCi Field Calibrators - must have calibration data attached.

5.5 UDR AC power cord set.

5.6 956 Series UDR to 897 Series Detector interconnection cable.

5.7 848-8-105 (or 848-8-400 for 897A-21 1 Detector ) G M Detector Adapter.

5.8 High Voltage Probe: Fluke 80K-6 or equivalent -- must be a calibrated device.

5.9 942TS-100 w/ 942A Series Test Cables.

5.10 Drawing 955A-3 Loop Diagram for interconnection of channel components.

6 PROCEDURE 6.1 Record the Customer, Customer P.O. number, S.O. number and W.O. number on the data sheet.

6.2 Record the model and serial number of the Ratemeter, Detector and Remote Alarm (if applicable) to be tested on the data sheet. In addition, record the serial numbers of the 848-8A and 848-8 Field Calibrators on the Data Sheet as well as the current, decay corrected dose rates for the three positions of the 848-8A Field Calibrator. The 848-8 100 mCi calibrator rates are not required as it is only used to overrange the channel under test.

6.3 Record the model, serial number, calibration date and calibration due date of the Digital Multimeter (DMM) and High Voltage Probe on the data sheet.

6.4 Prior to connecting the ratemeter to the detector ( and remote alarm if applicable), adjust the high voltage supply on the 956A series ratemeter to 575 +/- 5 volts. Adjust the 956A upper discriminator (VR10) to 7 +/- 0.1 Yolts and the lower discriminator (VR1 1) to 0.5 +/- 0.05 volts. Rec6rd High Voltage and Discriminator 'settings on the Data Sheet. Remove the anti-jam jumpir J7 to prevent the anti-jam fuse from blowing when channel overrange is tested. Connect the 942TS-100 Test Fixture to the P1 and P6 rear panel connectors on the 956A ratemeter.

6.5 Turn off 956A and 942TS-100 AC power and connect the 956A series ratemeterto the 857-21X series detector using the 956A/897A cable and the 958 series remote alarm ( if applicable ) as shown in Loop Diagram 955A-3.

6.6 Turn on ratemeter AC power and allow a 10 minute warm-up period to elapse prior to taking and data.

DATE TITLE 71 Inovision Radiation Measurements 3/6/01 Loop Test Procedure for 955A Low 3/6/01 Range GM Area Monitors REV

- ECO NO.--

RELEASED FOR D

L SHEET -

NO.

,SIZE 1882'"

, PRODUCTION T9 7M3of

.TP q

Switch Position Parameter High Alarm Warn Alarm Tau/Dead Time Analog Full Scale Overrange Conversion Constant Analog Low Scale Underrange 1.00E2 (Warn Alarm value must be set first) 2.00E1 Obtain value from CAL-GM6 Data Sheet 1.00E3 1.00E3 Obtain value from CAL-GM6 Data Sheet 1.OOE-2 1.00E-2 6.8 Place the required adapter ( 848-8-105 or 848-8-400 ) on the 848-8A Field Calibrator locating acorn nuts and place the detector into the adapter.

6.9 With the 848-8A Field Calibrator in the CLOSED position, complete column 1 of Table 1 on the Data Sheet. Enter N/A in boxes when no remote alarm or analog output option is to be provided.

6.10 Unlock the 848-8A Field Calibrator and place the calibrator in the MID position. Complete column 2 on the Data Sheet.

6.11 Place the 848-8A Field Calibrator in the OPEN position and complete column 3 on the Data Sheet.

6.12 Close the 848-8A Field Calibrator and complete column 4 on the Data Sheet.

6.13 With the 848-8A remaining in the CLOSED position, depress the 956A Acknowledge pushbutton and complete column 5 on the Data Sheet.

6.14 With the 848-8A remaining in the CLOSED position, disconnect the signal coax cable from the 956A rear panel connector P5. After six ( 6 ) minutes have elapsed, complete column 6 on the Data Sheet.

6.15 Reconnect the signal coax to P5 on the 956A rear panel and complete column 7 on the Data Sheet.

6.16 Place the adapter and detector into the 100 mCi 848-8 Field Calibrator. Unlock the calibrator and place it in the OPEN position. Complete column 8 on the Data Sheet.

6.17 Close the 100 mCi 848-8 Field Calibrator and place the adapter and detector back into the CLOSED 848-8A Field Calibrator. After one minute, depress the acknowledge pushbutton and complete column 9 on the data sheet.

Value 0

1 2

3 4

5 7

9 Inovision Radiation Measurements DATE 3/6/01 Loop Test Procedure for 955A Low Range GM Area Monitors REV EGO No.

RELEASED FOR L

SHEET NO.

SIZE 1

1882 PRODUCTION 4 of 5 LT956N/897A-21X TP NOTE Analog outputs are monitored at the 942TS-100. If a remote alarm is connected, the 0-10 VDC output drives the remote alarm meter and is not available at the 942TS test point. Both 4-20 mA test points are terminated with 2509 resistors inside the 942TS-100 and are read as 1-5 VDC outputs.

6.7 Enter the following setpoints into the ratemeter Function Switch positions:

6.18 Remove the detector from the 848-8A Field Calibrator. Remove the keys from both calibrators and return them totiheilr secure storage location.

6.19 Turn off 956A ratemeter power and reinstall anti-jam jumper J7. Disconnect all external cabling from the ratemeter, detector and remote alarm (if applicable). Sign and date the Data Sheet.

6.20 Forward the document package to Quality Assurance for review and signature.

I DATE TITLE Inovision Radiation Measurements 3/6/01 Loop Test Procedure for 955A Low D ý //

Range GM Area Monitors REV ECO NO.

RELEASED FOR D

L SHEET NO.

SIZE 1

1882 PRODUCTION 5 of 5 LT956A/897A-21X TP

"Attachment TEST DATA SHEET: LT956A/897A-21X Customer S.O. No.:

6.2 956A Series Model No.

S 897A-21X Series Model No.

958 Series Reimote Alarm Model No.

Customer P.O.No.:_

IRM W.O. No.:

Serial No.

I

"- 848-8A Serial No.'__

"CLOSED position current dose rate

"_ mR/h MID Position current dose rate mR/h OPEN 7Position current dose rate mR/h

--848-8 100 mCi Calibrator Serial No.

"6.3 I,

-Test Equipmnent Model

-.Serial No.-

Cal. Date

"-Cal. Due bate-I,....

Digital Multimeter

.- High Voltage Probe

-6..4 H.V."

V (575+/-5VDC)Low 956A Jumper J7 6.7 Switch Position

'Disc.

v(0.5 - 0.05 VDC ) High Disc.

V( 7 -+0.1 VDC)

( Removed )

Parameter Value High Alarm Warn Alarm Tau/Dead Time Analog Full Scale Overange Conversion Constant Analog Low Scale Underrange

(].00E2 mR/h)

(2.00EImR/h).

(Obtain from Detector CAL-GM6 Data)

(1.00E3 mR/h)

(1.00E3 mR/h )

(Obtain from Detector CAL-GM6 Data)

(1.00E-2 mR/h )

-(1.00E-2mRlhh)

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QUALITY ASSURANCE" RADIATION SAFETY OFFICER Inovision Radiation Measurements

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... DATE x-TITLE Loop Test Procedure for 955A Low Range GM Area Monitors NO LT956A/897A-21X SIZE I

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Inovision Radiation Measurements DATE 3/6/01 TITLE Loop Test Procedure for 955A Low Range GM Area Monitors REV EGO NO.

RELEASED FOR D

L SHEET NO L96/9A2XSZ 1

1882 PRODUCTION 2 of 2 LT5N9A2xTP' k

Attachment TEST DATA SHEET: LT956A/897A.21X Table 1 Closed Mid Open Closed Closed Signal Signal Channel Overrange 848-8A 848-8A 848-8A Unack.

Ack.

Disconn.

Reconn.

Overran e Recovery UDR mR/h EEEEE R e m o t e E E S a InR/h Analog Full Scale Output I Full Scale Analog Outputn 2 Full Scale Analog 0-10 V Analog Full Scale Option Full Scale Warn Indicator Off Flashin Flashin Flashing Off Off Off Flashin Off Warn Relay NO NC NC NC NO NO NO NC NO Alarm Indicator Off Off Flashin Flashin Off Off Off Flashin Off Alarm Relay NO NO NC NC NO NO NO NC NO Aux.

R-e-a Relay NO*

NO*

NC*

NO*

NC*

NO*

Range Indicator Off Off Off Off Off On Off On Off Fail Indicator Off Off Off Off Off On Off Off Off Fail Relay NO NO NO NO NO NC NO NO NO Bargraph Green Amber R ed R ed GEr een

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-Green ALL1 Re*d Gr....

Lamp Off Off On On Off Off Off On Off RKemote Sonalert Off Off On On Off Off Off On NO = Normally Open Lamp Illuminated. NC= Normally Closed Lamp Illuminated,

Aux Relay is "RATE" on Test Fixture.

Performed by Date Q.A. Review by Date

INOVISION RADATION MEASUREMENTS TITLE: TEST PROCEDURE FOR THE 956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER P.O.

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-24 FILE--COPY I

W, INVIO RM INOVISION RADIATION MEASUREMENTS TITLE-: TEST PROCEDURE. FOR-THE 96A.20.1*UNIVERSAL DIGITAL RATEMETER CUSTOMER:

CUSTO*EVICO

.JW.O.

L,*7O DOCUMENT: TP956A-201-3 REV. 4 956A-201 TEST DATA SHEET Page 2 of 4 11.0 TEST 3: BAR GRAPH TEST 11.3 Bar Graphl Segment Sequence and Color 12.0 TEST 4: DISPLAY TEST 12.3 Display Characters and Sequence 13.0 TEST 5: SWITCH TEST 13.5 Front Panel Switches and REMOTE ACK.

14.0 TEST 6: INDICATOR/BACKLITEIFAIL TEST 14.3 Indicator/Backlite/Fail LED Operation 15.0 TEST 7: COUNTER/DISCRIMINATOR TEST 15.3 Verify 000000 Hz 15.5 Verify 001000 Hz +/- 000010 Hz 15.7 Verify 000100 Hz +/-000001 Hz 15.9 Verify 010000 Hz +/- 000100 Hz 15.11 Verify 100000 +/- 001000 Hz 15.13 Verify Overflow 262126 Hz 15.15 Verify 000000 Hz +/- 000010 Hz 15.17 VR1O Adjustment, 7 V +/- 0.01 V 15.18 VR 11 Adjustment, 0.5 V +1- 0.001 V 16.0

(!

ail (Fj ail

F~ail O

Hz t n t Hz 0oc Hz (o

Hz (c*c K.

Hz Zc.- ~2- ( 7-6 Hz C.o Hz

"-?. 0o V

0, -I'0 V

ANTI JAM BIT TEST Verify 05 displayed Verify 07 displayed Verify 05 displayed tp/d#49/956A2013.doc 25 YES FILE COPy 16.4 16.7 16.11

INOVISION RADIATION MEASUREMENTS TITLE:*TEST PROCEDURE FOR THE 956A-201UNIVERsAL DIGITAL RATEMETER CUSTOMER P.O.

CUSTOMER:

VPCO A-2-3

.4__

DOCUMENT: TP95BA-201-3 REV. 4 956A-201 TEST DATA SHEET Page 3 of 4 17.0 TEST 8: DIA CONVERTER 4-20 mA/0-10 V OUTPUT TEST

17.

Calibration Verification, Analog Outputs:

4-20rmAOUTPUTS #1 and #2 SCALE CURRENT Low...

4 mA Mid 12 mA High 20 mA 0-10 V OUTPUT SCALE Low Mid High VOLTAGE SPEC.

1 +/-.001 V 3 +/-.010 V 5 +/-.001 V Output #1 i, oco V

q V

VOLTAGE SPEC.

.0000 V +/-.0001 V 5.000 V +/-.030 V 10.000 V+/-.001 V 18.0 TEST 9: EEPROM TEST 18.7 Write and Verify

. Otput #2 7.

mg~c V

lE.,Cxno VZ

VALUE, S

c~cc V

19.0 TESTXA: NON-MASKABLE INTERRUPT VERIFICATION (NMI) TEST 19.3 Verify 125 mS +/- 1 mS Fai1 20.0 TEST B:- HIGH VOLTAGE POWER SUPPLY TEST, 20.4

- R5 Adjustmentt'p4 HV 20.6 "HVTEST" Jack (0.600 +/- 0.010 V) 20.8 R5 Adjustment (400 V to 1800 V) 20.11 HV Shut Down V

0.

"V

..i__min

.Vm"ax

iail tp/d#491956A2 0 13.doc 26 FILE COPY o° r

INOVISION RADIATION MEASUREMENTS TITLE: TEST PROCEDURE FOR TH -956A-201 UNIVERSAL DIGITAL RATEMETER CUSTOMER P.O..

SC CUSTOMER:..

¢ VICO S. 0 s.o

0.

DOCUMENT: TP956A-201-3 REV. 4 956A-201 TEST DATA SHEET Page 4 of 4 21.0 TEST C: DATA ENTRY TEST 21.3 DIGIT, VALUE, and ENTER Switches 21.5 FUNCTION Switch 22.0 TEST D: RELAY TEST 22.4 Relay Response 23.0 TEST F: JUMPER CONFIGURATION TEST 23.5 JP3 Jumpers 24.0 OPERATION SOFTWARE TEST 24.8 Display Reading, "RANGE" LED HV Reading, "High", 'Wam", "Rate" Values, Check Source LED 3

ail ail

(*Fail (5pFail 25.0 BURN-IN 25.8 Bum-in Start Date/Time 25.9 Bum-in Stop Date/Time) 25.10 Check Source Function 25.12 No failures observed during bum-in and Post bum-in tests.

Performed By "KoE'iLER-*

Q.A. Review By tp/d#49/956A2013.doc 27 O)-o* 2o06/

BA,

&/Fail

&3Fail Date L _1/05/c._00 I Date _///7/_.

FILE COPY

"VICTOREEN, INC.

TITLE:

ELECTRONIC TEST PROCEDURE FOR 897A-2X0 AND 897A-2X1 DETECTORS CUSTOMER:

N/A DOCUMENT: TP897A REV. A Test Data Sheet TP897A for 897A-2X0 and 897-2X1 Detectors Customer:

P.O. No.:

S.0. No.:

JL"'T7e "3 W.0. No.:

Model 897A-2I1 Serial No.:

/ 12 897A-210-10 Circuit Board Serial No.:

Revision Level:

Test Equipment Oscilloscope Model No: ____

S/N:

O Cal Due Date:

Digital Voltmeter Model:

S/N:.gaý Cal Due Date:

L--*"'

Test Results 6.2.3 Detector Quiescent Current Draw J

,mA (100 mA max.)

6.3.1 Jumper Placement J1 A-- (A-B),J2 4-.(A-B),J3 A-B (A-B) 6.3.3 Local Zener Regulation 6.4.3 Anti-jam minimum setting 6.4.4 Anti-jam maximum setting 6.4.5 Anti-jam final setting 6.5.1 Discriminator minimum setting 6.5.2 Discriminator maximum setting 6.5.3 Discriminator final setting 6.6.4 Anti-jam trigger threshold 6.7.1 Detector output pulse height Output square wave period 6.8.4 Detector background CPM 6.8.5 Check source activation:

Sq.*ý v (>9.5 and < 11.0 volts) 03* 9 rv

(< 0.100 volts).

3.

_ v ( > 2.9 volts) 00 o,

v (1 +1- 0.001 volts) b),03",

v ( < 0.100 volts)

/.90 v (> 1.5 volts) 0.S-00 v ( 0.5 +/0 0.01 volts)

..f, v (1 +/- 0.01 volts) v peak (4.5 minimum)

.Z*-

uS (25 uS maximum)

( > I CPM / < 25 CPM)

P'RODU0T PRINT FEB 10 1, GM Tube up 'c3 (yes)

GM Tube down (yes Performed By:

Q.A. Review By:

tp/d#48/TP8 9 7A.doc 12 o'clock.

(yes) 6 o'clock jE-(yes) 3 o'clock (yes) 9 o'clock E3 (yes)

D ae:e

/

Date:

1_

° 1

)

'V 19

r VICTOREEN, INC.

,TITLE:

ELECTRONIC TEST PROCEDURE FOR 897A-2X0 AND 897A-2X1 DETiECTORS CUSTOMER:

N/A DOCUMENT: TP897A REV. A Test Data Sheet TP897A for 897A-2X0 and 897-2X1 Detectors Customer:

2 G-f-P.O. No.:

9c, Cp.

<*2"71 S.O. No.:

I-7c 3-3 W.O. No.:

'I -103 Model 897A-210 Serial No.:

13R 897A-210-10 Circuit Board Serial No.:

130 Test Equipment Oscilloscope Model No: jjf SIN: 60 Digital Voltmeter Model: 2ýOLb S/N:

Revision Level:

/

W6L*1 Cal Due Date:

___t__-99 MI_

Cal Due Date:

q-f-T5 Test Results 6.2.3 Detector Quiescent Current Draw qq. 5 mA (100 mA max.)

6.3.1 Jumper Placement J1 AjA-1B),J2 A_(A-B),J3.*_B(A-B) 6.3.3 Local Zener Regulation 6.4.3 Anti-jam minimum setting 6.4.4 Anti-jam maximum setting 6.4.5 Anti-jam final setting 6.5.1 Discriminator minimum setting 6.5.2 Discriminator maximum setting 6.5.3 Discriminator final setting 6.6.4 Anti-jam trigger threshold 6.7.1 Detector output pulse height Output square wave period 6.8.4 Detector background CPM 6.8.5 Check source activation:

GM Tube up (yes) 12

/0, Lqf v (>9.5 and < 11.0 volts) 0..00o*.v (< 0.100 volts).

. -._ :j v ( > 2.9 volts)

A 19 0) v (1 +/- 0.001 volts) 0, 0S"-1 v ( < 0.100 volts)

/, 9q9 v ( > 1.5 volts)

_s__

v ( 0.5 +/0 0.01 volts) 1,00 v ( 1 +/- 0.01 volts) q-K v peak (4.5 minimum) 23 uS (25 uS maximum)

I

( > 1CPM / < 25 CPM) o'clock

_0 (yes) 6 o'clock Yn (yes)

GM Tube down 4t65 (yes) 3 o'clock 1&

(yes) 9 o'clock (yes)

Performed By:

Date:

jI Q.A. Review By:

XA+7Afz*T--

Date:

J

-tp/d#48/TP897A.doc 4f

~I T

FEB 10 IS 112

VICTOREEN, INC.

TITLE:

ELECTRONIC TEST PROCEDURE FOR 897A-2X0 AND.897A-2X1 DETECTORS CUSTOMER:

N/A DOCUMENT: TP897A REV. A Test Data Sheet TP897A for 897A-2X0 and 897-2X1 Detectors Customer:

0-E S.0. No.:

7_

Model 897A-21.

Serial No.:

L1c07(l2.,

897A-21 0-10 Circuit Board Serial No.:_______

P.O. No.:

I z1 W.O. No.:

6 Revision Level:

?_

Test Equipment Oscilloscope Model No: _-N.'A S/N: -P.T4 02(7 Cal Due Date: &4- (C-2..oo I Digital Voltmeter Model:

S/N: 0(6152%3(o Cal Due Date:

4f 2.oo Test Results 6.2.3 Detector Quiescent Current Draw (00 mA (100 mA max.)

6.3.1 Jumper Placement J1 -b/_ (A-B),J2 V A-B),J3 V1 (A-B) 6.3.3 Local Zener Regulation 6.4.3 Anti-jam minimum setting 6.4.4 Anti-jam maximum setting 6.4.5 Anti-jam final setting 6.5.1 Discriminator minimum setting 6.5.2 Discriminator maximum setting 6.5.3 Discriminator final setting 6.6.4 Anti-jam trigger threshold 6.7.1 Detector output pulse height Output square wave period 6.8.4 Detector background CPM I,# e.3.o v (>9.5 and < 11.0 volts) v (< 0.100 volts).

3, tO'"

v ( > 2.9 volts) icý6 v (1 +/- 0.001 volts)

,. oo v( < 0.100 volts) 2.-00 v( > 1.5 volts) 0____0 v ( 0.5 +/0 0.01 volts) 1.001 v

1 +/- 0.01 volts) v peak (4.5 minimum)

J

uS (25 uS maximum)

(*-IA

( > 1CPM / < 25 CPM) 6.8.5 Check source activation:

GM Tube up IE'IF (yes) 12 o'clock V(CS (yes) 6 o'clock ____

(yes)

GM Tube down VE*

(yes) 3 o'clock YES (yes) 9 o'clock Y'V-(yes)

Performed By:

___.______"_Date:

I/0

?

- P00 0 Q.A. Review By: 6' Date:

/10-si-d tP/d#48/TP897A.doc Fi-OE 12 FI*,LEE COPYI

TES17 DATA SHEET: LT956A/897A-21X Customer L_-7SŽ Gr-S,'eL~r*."-

Customer P.O.No.:,4*OOO *."

I

_S.O. No.:

I'M IRM W.U..No.:

J 6.2 956A Series Model No.

D' Is

- 16A I Serial No.

.0 (j,'b(3 897A-21X Series Model No.

C97,- 21 p

Serial No.

_958 Series Remote Alarm Model No.

Serial No.

t'f I

848-8A Serial No. -LO "3 --6q CLOSED position current dose rate 'm, :4r'2-.

mRh MID Position current dose rate r

mRJh OPEN Position current dose rate

-7._nrR/h' 848-8 100 mCi Calibrator Serial No. ________

6.3 Test E*uipment Model Serial No Cal. Date

,Cal Due Date DigitalMultimeter C-\\ -:Z

-High Voltage Probe -

L-A o*,Z

,-L,-QI 4--,-Z7

'-6.4 H.V. *7<V(575 +/-5 VDC) Low DisoO. -'0,/(0.5 +/-0.05 VDC) High Disc.'7.O/IV(77_+/-'0.1 VDC) 956A Jumper 6.7 Switch Position 0

2 3

4 5

7 9

J7 kt=

Vl=n (Removed)

Parameter

'Value "High Alarm

_/.

.(1.OOE2rmR h-)

Warn Alarm

'.,I 7'/

(2.0ElmPRh')....

Tau/Dead Time

, 27

'-7,,5:

(Obtain from Detector CAL-GM6 Data)

Analog Full Scale A21?i"

(.00E3 mR/h)

Overange

/.

'0,

( 1.00E3 mRPh)

Conversion Constant

". 98 --.

(Obtain from Detector CAL-GM6 Data)

Analog Low Scale

/. tOVg-2. (L.0E-2 mR/h )

Underrange

, 6OO*-

.. ( 1.00E-2 mR/h)

'-'V ENGINEERING

}-DATE

? - (5-- C)/

MANUFACTURING DATE 1/2.

/

QUALITY ASSURANCE DATE "1ADIATION SAFETY OFFICER./;7-DATE DATE

TITLE, Loop Test Procedure for 955A Low Inovision Radiation Measurements 3/6/01 RangeGM Area Monitois REV ECO NO.

RELEASED FOR L/RL SHEET NO.E gGArea-SIZE

,1_

' '1882 PRODUCTION I1 of 2 TP

ý f I

h

-iL-.oILi~ SIJ ~C4 ~i~3 Attachment

,-'2.-I.i 1

TEST DATA SHEET: LT956A/897A-21X Table 1 Closed Mid Open Closed Closed Signal Signal Channel Ovcrrangc 8848-8A 48-8A "848-8A Unack.

Ack.

Disconn.

Reconn.

Overrange Recovery Remote EAlEE

,R/h Ful Scale Analog Outputl r.lz¢ 3._:::-:

/

.*zz 37.r

ý5 C0. 926 13. 7z?"j 5/605 A n a lo g F u ll S c a le Z'

Z /

Analog Analog6 70 Fll Scale Optiona 1-" 4 1/4-A,////

-/

Oo 47F,--

p.,

iFull Scale Indicator Off Flashin F Flashig Flashin Off Off Off Flashing Off Warn eL A

/-C A

)L)C Relay NO NC NC NC NO NO NO NC NO Alarm 0

r),,

E:ý.

(4J*I, orY,-ý~

~i-'

Indicator Off Off Flashing Flashino Off Off Off Flashing Off Alarm

_/0 PO IV C.

A--,(_

O A

j)c

o0 U

A>

Relay NO NO NC NC NO NO NO NC NO AUX.

Aý)o Ale P_

6*

cc A1 Relay NO*

NO*

NC*

NO*

NO-NC*

NO*

Range0 0:7zOF i----

Indicator Off Off Off Off Off On Of-On Off Fail c0omI 2

.jo-~gp Indicator OO Off Off Off O

On' Off Off Lamp Of-Off OnOnOff OfOfO Relay NO NO Bargraph AN O

N N

O N

_ Green Am ber Red R dG e n O FG e n A L R 'f r e Lamp off OfO n

OfOf

_j O

n f

Sonaler Off O

Off O

O O01OO Off NO = Normally Open Lamp Illuminated, NC= Normally Closed Lamp Illuminated,

Aux. Relay is "RATE" on Test Fixture.

Performed by '

Date *"2

-/

Q.A. Review by Date Inovision Radiation Measurements 3/6/01 TITLE Loop Test Procedure for 955A Low

-Range GM Area Monitors r1tv LECGONO.

1 RELEASED FOR' 1_

1882

, PRODU'CTION I-

'

ENC MAI QU/

RAD Customer G-I

'e-__qoŽ.tr S.O. No.:

Customer P.O.No.:4*-O00 n"I 1 IRM W.O. No.:

-3ZLe 6.2 956A Series Model No.

9S',/--

7_

.i Serial No. ________.,_"__....

897A-21X Series Model No.

,97A -Zio Serial No.

V 958 Series Remote Alarm Model No.

/

Serial No.

A-848-8A Serial No. AO, "3C-d-CLC SM OP 848-8 100 mCi Calibrator Serial No.

)SED position current dose rate SO.4r'

-Rn h ID Position current dose rate '1 X.

mR/h EN Position current dose rate _-73 mP/h 6.3 Test Equipment' Model Digitýa Multimeter VLUIzL'

-ZPSCA High Voltage Probe RoV -t.-

- Serial No.

Qx Cal. Date Cal. Due Date (c -\\ ',-

G

\\ O 6.4 H.V. _.iev (575_+/-5 VDC) Low Disc.(_,O_

V(0.5 +/- 0.05 VDC) High Disc.-7.

V( 7V' 0. 1 VDC) 956A Jumper J7 V_ OVGV- (Removed) 6.7 -Switch Position Parariieter Value High Alarm Warn Alarm Tau/Dead Time Analog Full Scale Overange Conversion Constant Analog Low Scale Underrange

) \\. C:*E7_

.(01.OO2 mR/h)

"D*O°E (2OOElmR/h)

S"6f----

(Obtain from Detector CAL*GM6 Data)

( 1.00E3 nR/h)

I. c,*2 (1.00E3 mR*h) t)-7

--3 (Obtain from Detector CAL-GM6 Data)

\\.6o 2

- 2

( 1.00E-2 mR/h)

Attachment TEST DATA SHEET: LT956A1897A-21X I1NEERING k- /.

43UFACTURING LLITY ASSURANCE

)IATION SAFETY OFFICER Inovision Radiation Measurements REV ECO NO.

RELEASED FOR 1

1882 PRODUCTION Loop Test Procedure for 955A Low Range GM 'Area Monitors NO.

SIZE NO.

LT96A897A-21X TP 0

-2 3

4 5

7 9

_ -.. _.I DATE IDATE I DATE IDATE I DATE

Remote mR/h

/i~~A)

~4~

/

~-~

M'.vh

]A Analog Ful I,

e Outputl 1.3z 1"

ý:9o,

.3/p 3;.?Z7 ?.327

.99*15 3Z7 SF ?. 3Z7 SAnalog ull Scale Analog 0-io v !ý..So8 "?.z-57 717,95 173g:.o

,o'

,-,,o*."9*9 Analog ale

/Option A§2I4

}

1

/'/A*

A/(/,4

'3/4/s p*/4~ #lA r

/'r Warn Full Scale Warn

,e oc

,fz¢

cz

,:**o*r tr-

=

o Indicator Off Flashing Flashing Flashing Off Off Off Flashin Off Warn

,A*o Ale-N6

)o

,,o Relay NO NC NC NC NO NO NO NC NO Alrm C),C 0 r" O=4

-21,&L6

& F:)=

~

£Z~

A Indicator Off Off Flashing Flashing' Off Off Off Flashing Off Alarm

-A,)_

0 e--,

PO Relay NO NO NC NC NO NO NO NC NO Aux.

A-7_

/c:

Relay NO*

NO*

NC*

NO*

NC*

NO*

Range.

6>pf "61:F*

F 6__

-)__

Indicator Off

' Off Off Off Off On.

Of On Off Fail ID OIg 0/

Of O

On Off Indicator Off

" Off Off Off On Off Off Off Fail t-10 j"--

0 Relay NO NO NO NO NO NC NO NO NO Bargraph 4 174E, o

17E_

A0ýp

-46Z7-0 0ý 1

Green Amber Red Red Green OFF "Green ALL Red Green R e m o te 14 j1 A./

i

.,,/,/ +/-

p, j d.

Lamp Off Off On On Off Off Off On Off Remote A0._

/

/MA Sonalert Off Off On On Off Off Off On Off NO = Normally Open Lamp Illuminated, NC= Normally Closed Lamp Illuminated,

Aux. Relay is "RATE" on Test Fixture.

lnovision Radiation Measurements 3/6/01 REV

'ECO NO.

REEASED FOR JD L

S 1

1882 PRODUCTIONE FO S

I MII,,

EET" I

PJLI.

I I?

U Loop Test Procedure for 955A Low Range GM Area Monitors fLT 2

I, il-2

SIZE N~O.

LT956A/897A-21X I

Attachment GTAd,-'2_1*

I(01(,Z.-- "TEST DATA SHEET: LT956A/897A-21X Table I Closed Mid Open Closed Closed Signal Signal Channel Overrange 848-8A 848-8A 848-8A Unack.

Ack.

Disconn.

Reconn.

Overrane Recovery 14/YR*-.

ENG MAN "QDU

, ~

TEST DATA SHEET: LT956A/897A-2IX Customero. "

0Sl

&--" G.I'

-S.O.-No.:

Customer P.O.No.: 45O00D0 S$l-I IRMAW.O. No."

42*'

ZL 6.2 956A-Series Model No SerialNo.

1O4

4

-897A-21X Series ModelNo.

',97A-21 c' Serial No.

i 7Z 958 Series Remote Alarm Model No.

I Serial No.

1*f, -.

848-8A Serial No. _ I 5*j--

CLOSED position current dose rate t.42i.

m/h MID Position current dose rate *_"__-___'.m!*h OPEN Position current dose rate -Z-7-9 mR/h 848-8 100 mCi Calibrator Serial No. ____--'_"

6.3 Test Equipment Model Digital'Multimeter e

OA High Voltage Probe 2co

-u' Serial No.

Me...

Ce_-)c;4-2 Cal. Date Cal. Due Date 6 -'

-cc

--\\-OI-6.4

-H.V. !E76 (575 5 VDC) Low Disc..!,tV(0.5+ 0.05 VDC) High Disc7, OZ V( 7 0.1 VDC) 956A Jumper J7 _

(I*.- ( Removed)

"6.7 Switch Position Parameter Value High Alarm Warn Alarm Tau/Dead Time Analog Full Scale Overange Conversion Constant Analog Low Scale Underrange

,~~ ~

~~

/"°'E-

.00E2 rmR/h-)

_.'. 'E" (2.OOEl mR/h)

A. 76 '-j (Obtain from Detector CAL-GM6 Data)

/C'.EZ (l1.00E3 mR/h)

/c0 o _g

( 1.00E3 mRnh)

'..76'-3 (Obtain from Detector CAL-GM6 Data)

/ O0*..6Z

(.OOE-2 mR/h)

Z

d- *

(1.00E-2 mR/h )-

Attachment INEERING 7/

IUFACTURING LITY ASSURANCE IATION SAFETY OFFICER DATE

?-5 DATE

--/."/

Loop Test Procedure for 955A Low Range GM Ar'ea Monitors-,

Inovision Radiation Measure-ments REV

=EGONO.

REL-EASED FR 18 8

R E O D F O R 18PRDUCTION Range GM Area Monitors SIZE TP LT956N897A-21 X "0"

]1-2 3

4 5

7 9

/

_[DATE 2"

I I DATE :3//:%Io/

I LT956A/897A-21 X I

i.....

l 1

TII

94i2.0 LA I O

T Attachment

2-t, c--j J *"

TESTDATA SHEET: LT956A/897A.21X Table 1 Closed Mid Open Closed Closed Signal Signal Channel Ovcrrange 848-8A 848-8A 848-8A Unack.

Ack.

Disconn.

Reconn.

Overrange Recovcrv mR/h

'-/'-/.

1' e.7

,9.

0E 5-4 R e m o te E E, E

EEA*EJ//

mR/h

,J.,

/-//

/i/L Full Scale A

Analog 3324 1.'34 z

37o9~~3.

Analog'Full Scale Output2 1.3_

,?. 90.1 el,

/2-

-?z z3 9(e u

e Analogu1IScale z 0 Analo v s,*

V.75/

35o3 c). 0 6Z.

.90-3 Analouull Scale Option

,OA

/A A/

A1 P

.J/,14 p)/i 4

/i Analog Full Scale

.L7 Indicator

-Off Flashin l.7in Flashs O..ff O. off Off Flashin off Warn

.J 2

e-

/6 J_.

Relay NO NC NC NC N.

O.

NO NC NOjC Alarm QA ý7ý e,~

r--

NO~

Indicatorl Scale1 Indicator Off Off Flashing Flashing Off Off Off Flashin Off Alarm

-c.

X-__

i6 1_

)

,0 R elay N7 0

N O N"

- "C -

N O O

N-=-

-)*

N C-N=-

- -- =

Relay NO NO NC NC NO NO NO NC NO Aux.

,o0)

A *

,A)'?

PC o

e-NO_

Relay NO*

NO*

NC*

NO*

NC*

NO*

ndaor Off Off Off Off Off On Off J

On Off Fail 0

16, PLLQ Icr qý___

Indicator Off Off Off Off Off Onff Fail p.)

0 t..

o I

Off Off Off Sray NO NO NO NO NO NC NO NO NO B argraph

_!*_-r_

4-,iii_.

I.,,.--

A.

A-------

NO "

Green IAmber Red Red Green OF Gre ALRd Gen RemA,-

ite Gre ALL g:,-Y,,.--*ed G..** en Lap Of Of On On Off

off, off OnOf Remote

////

Sonalert Off Ofm On ON Off O_

O.

On Off O

NO =-Normally Open Lamp Illuminaed, NC= Normally Closed Lamp Illuminated, Aux. Relay is "RATE" on Test Fixture.

- Loop Test Procedure for 955A Low Range GM Area Monitors I

Customcr qIG C

TyT0i S.O. No.:

6.2 S157033A2 Seial No 0 4,12)

1 960SS-200 PCB Scrial No 1 023 ? C Rev. Le,

2 960SS-200 PCB Serial No 0

0 2 R.

Rev. Le, Test Equipment Model Serial Nc Digital Multimeter R-..LOK S

"*2PA-O3 Oscilloscope 4(

___-_-1 Train "A" CuttomerrP.ONo.-

_4

'O 000 5C 7 I-IRM W.o No "5-3_ -5 Cal Date 60- I-oo Cal. Due Date G.-1-cat

":;-18*-01 Train "B" Isolated AC Supply Output Noise Output Pulse Height Filter Output Pulse Height Filter Output Noise

// 9 z°(120+/--2 VAC)

S V (6 volts p-p min.)

I V

(3-+/-0.3 volts)

Z':* \\ '\\

(0.1 volt max.)

S 0Y7 (120 +/- 2 VAC)

V (6 voltsp-pnmn)

. I V" (3 +/-03 volts)

O.

(0 1 volt max )

Performed by Q. A. Review by Date Date

"-¢-7 o

ENGINEERING DATE z-,?,f-o MANUFACTURING DATE.--V P/

QUALITY ASSURANCE DATE a')

-ADIATION SAFETY OFFICER DATE A

Inovision Radiation Measurements DATE 2/21/01 Test Procedure for S157033A2

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6.5 6.8 6.9 6.10 Attachmcnt TEST DATA SHEET: TPS137033A2 Filter/Stirge Suippres.sor Awemfly I

TEST PROCEDURE FOR S157033A2 FILTER/SURGE SUPPRESSOR ASSEMBLY REV. LEVEL ECO #

DESCRIPTION/PAGES AFFECTED 1

1740 Initial release ENGINEERING DATE Z

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QUALITY ASSURANCE DATE RADIATION SAFETY OFFICER DATE

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Inovision'Radiation Measure'ments DATE TITLE Test Procedure for S1 57033A2 S2/21/01 Filter/Surge Suppressor Assembly-__

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1 PURPOSE 1.1 The purpose of this procedure is toltest and document the operation of the S157033A2 Filter/Surge Suppressor assembly.

2 SCOPE 2.1 This procedure is to be performed on all $157033A2 Filter/Surge Suppressors prior to shipment.

Filtering efficiency of both the Train "A" and Train "B" sections of the Filter/Surge Suppressor will be verified using a brood band noise source. Testing of the 960SS-200-10 assemblies is not within the scope of this procedure. 960SS-200-10 functional testing is performed at the board level and is a prerequisite to the performance of this procedure.

3 RESPONSIBILITIES 3.1 Personnel performing this procedure shall have a Technicians Skill Level 1 per QSP-18-01.

3.2 Data generated by this test must be reviewed and approved by Q.A. prior to shipment. In addition, Q.A. has the responsibility of maintaining individual detector test data in a job file.

3.3 The completed data sheet from this procedure shall accompany the detector to the calibration lab.

4 ENVIRONMENTAL CONDITIONS 4.1 Environmental conditions shall be the prevailing laboratory ambient.

5 REQUIRED EQUIPMENT/ PREREQUISITES 5.1 Digital Muitimeter (DMM): Fluke 8050A or equivalent - must be a calibrated device.

5.2 AC line adapter for DMM 5.3 Storage Oscilloscope: Tektronix 468 or equivalent - must be a calibrated device.

5.4 X10 oscilloscope probes - 2 are required.

5.5 Variable Isolated AC Power Supply: Heathkit IP-5220 or equivalent.

5.6 92-9015-A Line Filter Test Fixture 5.7 3 wire AC line input adapter and 2 wire AC output adapter.

Inovision Radiation Measurements DAE 2/21/01 TIL TetPoduefrS573A Filter/Surge Suppressor Assembly, REV ECO NO.

RLASED FOR, D 5FRL SHEET NO.IT173A SIZE 1 1740 PRODUCTION 2 of 5 P573A TP

5.8 Competed and signed test data sheets for 960SS-200-10 PCB assemblies. I 6

PROCEDURE 6.1 Record the Customer, Customer P.O. number, S.O. number and W.O. number on the data sheet.

6.2 Record the serial number of the S157033A2 assembly to be tested on the data sheet. In addition, record the serial number and revision level of both installed 960SS-200-1 0 PCB assemblies on the data sheet.

6.3 Rec6rd the model, serial number, calibration date and calibration due date of the digital multimeter (DMM) and Oscilloscope on the data sheet.

6.4 Connect the S1 57033A2 to be tested to the 92-9015-A Line Filter Test Fixture and the Test Fixture to the ISOLATED AC Supply as shown in Figure 1A. The adapters described in 5.7 must be arranged as shown in the Figure to minimize the possibility of stray noise pick-up. Take care that leads are not in contact with the power resistor in the "LOAD" side of the test fixture as the heat generated by the resistor may damage insulation. This is the Train A side of the Filter/Surge Suppressor assembly.

6.5 Turn on the Isolated Adjustable AC Supply and adjust the supply output to 120 +/- 2 VAC on the monitor DMM. Record the final value on the Data Sheet.

6.6 Turn on the 92-9015-A Test Fixture AC power. Place the Oscilloscope in the non-store mode and configure as follows:

5 mS/division sweep rate 1 volt/division for both ch. 1 and ch. 2 DC coupling for both ch. 1 and ch. 2 Mode: Both/Alternate Trigger: ch. 2 6.7 Adjust the oscilloscope trigger until a stable sine wave of approximately 3 volts peak to peak (p-p) appears on the channel 2 display. A complex waveform should appear on channel 1.

6.8 Change the MODE to channel 1 (from both) and verify a complex waveform with transients exceeding 6 volts p-p superimposed on a nominal 3-volt p-p sine wave. The ENVELOPE mode of the oscilloscope may be used to assist in determining transient pulse height. Record verification of a 6-volt p-p minimum transient pulse height on the Data Sheet.

6.9 Change the MODE to channel 2 and the vertical gain to 0.5 volts/division. Record the peak-to peak value of the sine wave developed across the Test Fixture load resistor. The sine wave p-p value must be a of 3 +/- 0.3 volts p-p. If the p-p voltage is not within tolerance, repeat Step 6.5 to verify that the line voltage has not move out of tolerance since the initial adjustment was made.

DATE TITLE Inovision Radiation Measurements

- 2/21/01 Test Procedure for $157033A2

_ r,.,*/¥,*'Filter/Surge SuppressorAssembly "REV ECO NO.

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SIZE 1740 PRODUCTION 3 of 5 TP157033A2 TP

6.10 Witl* the oscilloscope settings remaining the same as in Step 6.10. place the oscilloscope in "STORE" mode and acquire a "snap-shot" of the waveform. Inspect the stored waveform and verify that NO measurable noise is present on the sine wave. For the purpose of this test, no measurable noise is defined as being less than one minor division or 0.1 volts at the current vertical gain setting of 0.5 volts/division (major). Record verification on the Data Sheet.

6.11 Turn off AC power to the Adjustable DC Supply and the 92-9015-A Test Fixture. Remove connections to the Filter/Surge Suppressor assembly Train uA" side and connect to Train "B" as shown in Figure lB. Repeat Steps 6.5 thorough 6.10 and record the results on the Data Sheet.

6.12 Filter/Surge Suppressor assemblies that have failed this procedure are to be dispositioned by completing a Non-Conformance Report (NCR) per QSP-13-04. Attach data indicating the failure to the NCR.

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Attachment TEST DATA SHEET: TPS157033A2 Filter/Surge Suppressor Assembly Customer Customer S.O. No.:

IRM W.O 6.2 S157033A2 Serial No.

1 960SS-200 PCB Serial No.

Rev. Level 42 960SS-200 PCB Serial No.

Rev. Level Test Equipment Model Serial No.

Digital Multimeter Oscilloscope Train "A" P.O.No.:

. No.:

Cal. Date Cal. Due Date Train "B" 6.5 Isolated AC Supply Output 6.8 Noise Output Pulse Height 6.9 Filter Output Pulse Height 6.10 Filter Output Noise Performed by Q. A. Review bi (120+/-2VAC)

(6 volts p-p mun.)

(3 +/- 0.3 volts)

(0.1 volt max.)

(120 +/- 2 VAC)

(6 volts p-p min.)

(3 +/- 0.3 volts)

(0.1 volt max.)

Date Date ENGINEERING C

QUALITYASSURANCE Z/t%

"RADIATION SAFETY OFFICER Inovision Radiation Measurements REV ECO NO.

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DATE --,7. -)

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DATE 2/21/01 TITLE Test Procedure for S1 57033A2 2/1/

1 Filter/Surge Suppressor Assembly 0

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Person / Time
ML022890349
Site:	Ginna (DPR-018)
Issue date:	10/07/2002
From:	Mecredy R Rochester Gas & Electric Corp
To:	Clark R Document Control Desk, Office of Nuclear Reactor Regulation
References
Download: ML022890349 (172)
v • d • e

ML022890349

Text

6.0 REFERENCES

6.3 955A-1-1

Background

Background

Background

6.1.0 Check

8.1 Cal-Tri-Source

8.3 FORMULA

8.1 Cal-Tri-Source

8.3 FORMULA

8.1 Cal-Tri-Source

8.3 FORMULA

8.1 Cal-Tri-Source

8.3 FORMULA

8.1 Cal-Tri-Source

8.2 FORMULA

T. PROCEDURE

T. PROCEDURE

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