Tektronix 067-1002-99 Instruction Manual Download

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Summary of Contents for 067-1002-99

Page 1: ...onix Inc P O Box 500 Beaverton Oregon 97077 MANUAL PART NO 061 2393 00 COMMITTED TO EXCELLENCE 067 1002 99 POWER SUPPLY CALIBRATION FIXTURE for Universal Load Unit INSTRUCTION MANUAL First Printing FEB 1981 ...

Page 2: ...blication may not be reproduced in any form without permission of Tektronix Inc This instrument in whole or in part may be protected by one or more U S or foreign patents or patent applications Information provided on request by Tektronix Inc P O Box 500 Beaverton Oregon 97077 TEKTRONIX is a registered trademark of Tektronix Inc ...

Page 3: ...MANUAL REVISION STATUS PRODUCT 067 1002 99 Calibration Fixture This manual supports the following versions of this product 067 1002 99 REV DATE DESCRIPTION FEB 1981 Original Issue 067 1002 99 FIXTURE ...

Page 4: ... instructions that expose personnel to hazardous volt ages These instructions are for quali fied service personnel only POWER SUPPLY PERFORMANCE CHECK Safety Summary 3 1 General 3 2 Equipment Required 3 3 Pre par at ion 3 4 Procedures 3 7 NOTE To adjust the power supply refer to the adjustment procedure in the service manual for the product in which the supply is installed DC Supplies 3 7 Line Vol...

Page 5: ...Section 4 Section 5 Seotion 6 iii REPLACEABLE ELECTRICAL PARTS DIAGRAMS AND SCHEMATICS REPLACEABLE MECHANICAL PARTS 067 1002 99 FIXTURE ...

Page 6: ...Power Supply 3 6 3 4 Connecting the Trigger to the Power Supply 3 8 3 5 Measuring 40 kHz Ripple 3 10 3 6 Measuring 60 Hz Ripple 3 15 3 7 Power Up Waveform 3 19 3 8 Power Down Waveform 3 20 TABLES Table Description Page 2 1 Physical Specification 2 1 2 2 Electrical Specification 2 3 2 3 Interconnect Cable Pin Out 2 7 3 1 Performance Check Summary 3 12 067 1002 99 FIXTURE iv ...

Page 7: ...Figure 1 1 The 067 1002 99 Calibration Fixture v 067 1002 99 FIXTURE ...

Page 8: ......

Page 9: ...ng instruc tions and for the calibration fixture plug in theory of operation 620 0295 00 Low Voltage Power Supply Service Manual Refer to this manual for power supply schematics parts lists maintenance procedures and theory of operation The Maintenance section contains a proce dure to bring up supplies which are not operating properly or which have been repaired The manual also contains an abbrevi...

Page 10: ...ard An edge connector at the rear of the board connects it with the load unit The circuit board includes a set of resistors which program two load levels for each channel These resistors were selected in accordance with equations given in the appendix to the load unit instruction manual A chart on the front of the plug in lists the voltage range for each supply Channels 1 and 2 are connected in pa...

Page 11: ...ysical characteristics of the calibra tion fixture Table 2 1 PHYSICAL SPECIFICATION Characteristic Information rv odule Size Weight Cable Length 067 1002 99 FIXTURE Fits Univ er sa1 Lo ad Unit plug in compartment 1 25 lbs 570 gm Approximately 5 ft 1 5 m 2 1 ...

Page 12: ...titative terms of performance usually in limit form Supplemental Information Statements that explain perfor mance requirements or that provide reference information The erformance reqtiirements are valid only within the following environmental limits 2 2 The calibration fixture is properly seated in a properly functioning TEKTRONIX 067 0883 99 Universal Load Unit ULU The ULU is operating within it...

Page 13: ... 12 A Supplemental In formation Resistance mode Current mode Resistance mode Current mode 10 achannels 1 and 2 operate in parallel to provide a maximum load of 30 A bHigh loads are nominal values measured at the ULU CDeviation beyond this tolerance turns on the out of regula tion LED on the ULU The percentage is substantially greater than the regulation specified for the power supply refer to the ...

Page 14: ...el 5d Voltage Low load High load Out of regulation tolerance Table 2 2 cont Performance Requirement 12 v 250 mA 4 A 24 v 150 mA 1 8 A 55 v 102 mA 500 mA Supplemental Information Resistance mode Current mode 10 Resistance mode Current mode 10 Resistance mode Current mode 7 dchannels 5 and 6 operate in parallel to provide a maximum load of 1 25 A 2 4 067 1002 99 FIXTURE ...

Page 15: ...Channel 10 Voltage Low load High load Table 2 2 cont Performance Requirement 55 v 150 mA 750 mA 5 2 v 500 mA 4 A SPECIFICATIONS Supplemental In formation Resistance mode Current mode Resistance mode Current mode Out of regulation 10 tolerance dChannels 5 and 6 operate in parallel to provide a maximum load of 1 25 A 067 1002 99 FIXTURE 2 5 ...

Page 16: ...l 11 Voltage Low load High load Out of regulation tolerance Channel 12 Not used Channel 13 Not used 2 6 Table 2 2 cont Per formanoe Requirement 12 v 130 mA 1 A Supplemental In formation Resistance mode Current mode 10 067 1002 99 FIXTURE ...

Page 17: ...IN OUT ULU Power Supply Pin Assignment Pin Assignment J1 13 14 Channel 10 J73 9 10 5 2 V supply J1 15 Channel 11 J73 8 12 V supply J2 1 10 Channels 1 2 J72 5 V supply J2 11 12 Channel 3 J73 1 2 12 v supply J2 13 14 Channel 4 J74 2 3 24 v supply J2 15 16 Channels 5 6 J74 4 55 v supply J1 29 3 1 Return for all J 71 5 return J2 17 32 channels J73 3 Ground sense J73 7 GND J74 1 GND J3 2 Channel 2 sens...

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Page 19: ...ses Some internal fault conditions may cause the switching transistors or other primary components to explode To avoid injury to your eyes wear safety glasses while servicing the power supply Use Care When Servicing With Power On Dangerous voltages exist at several points in the power supply To avoid personal injury do not touch exposed connections or components while the power is on Disconnect po...

Page 20: ...ply with the electrical requirements given in the Specification section of the power supply service manual The conditions listed in that section must be met in order for the electrical requirements to be valid These procedures are for use on supplies which appear to be operating properly For troubleshooting assistance or to bring up supplies which have been repaired refer to the Maintenance sectio...

Page 21: ...l Load Unit ULU TEKTRONIX 067 1002 99 Calibration Fixture Isolation transformer Variable autotransformer capable of at least 6 A at 115 V or 3 A at 230 V output variable from at least 90 to 132 V or 180 to 264 V AC voltmeter 5 from 90 to 132 V or 180 to 264 V may be part of autotransformer Remote switch with five pin harmonica connector Figure 3 1 to fit J63 A two pin jumper may be substituted Fla...

Page 22: ...PERFORMANCE CHECK PREPARATION This section describes connection of the equipment shown in the performance check set up diagram Figure 3 2 Figure 3 2 Performance Check Set Up 3 4 067 1002 99 FIXTURE ...

Page 23: ...he isolation transformer Leave the power off 4 Connect the power supply to the autotransformer Leave the power off 5 Install the 067 1002 99 Calibration Fixture into the front panel compartment of the ULU 6 Connect the cable harness to the three connectors on the rear panel of the ULU These connectors are keyed to avoid improper connection 067 1002 99 FIXTURE 3 5 ...

Page 24: ...ca to J73 b Connect the 4 pin harmonica to J74 c Connect the spade lugs on the four GRAY BLACK wires to J71 5 RTN d Connect the spade lugs on the four GRAY RED wires to J72 5V 8 Connect the remote switch to J63 on the power supply Inverter board Leave the switch off Figure 3 3 Connecting the Load Unit to the Power Supply 3 6 067 1002 99 FIXTURE ...

Page 25: ... 1 summarizes the steps NOTE The ripple figures given in this proce dure are not performance requirements They are provided solely for the infor mation of the service person 1 Set the ULU controls as follows MAX MIN Switches to 12 LOAD SELECT VOLTAGE CURRENT CUR RENT ADJUST OVER VOLTAGE TEST 067 1002 99 FIXTURE MIN IND and SWITCHED VOLTAGE Midrange and in OFF 3 7 ...

Page 26: ...be and adapter c Set the controls as follows TIME DIV VERT MODE CH 1 VOLTS DIV CH 1 COUPLING CH 2 VOLTS DIV CH 2 COUPLING TRIGGER SOURCE TRIGGER COUPLING TRIGGER MODE TRIGGER SLOPE TRIGGER LEVEL 20 MHz BANDWIDTH if available HERE PIN 3 U575 10 µs CH 2 2 v DC 10 mV DC CH 1 AC AUTO Midrange Activated pull out 2393 5 Figure 3 4 Connecting the Trigger to the Power Supply 3 8 067 1002 99 FIXTURE ...

Page 27: ...gure 3 3 for a reading of 55 1 V 100 mV on the ULU meter 7 Adjust the TRIGGER LEVEL if necessary and return VERT MODE to CH 2 NOTE The following procedure is repeated for each active channel 5 V Supply Channel 1 and Channel 2 on the ULU form a parallel load for this supply 1 Select Channel 1 on the ULU 2 Set VOLTAGE CURRENT to VOLTAGE 3 Verify that the voltage is within the limits given in Table 3...

Page 28: ...SOURCE CH 1 10 IGNORE NOISE 1 mV 2393 6 Figure 3 5 Measuring 40 kHz Ripple 5 Select Channel 2 on the ULU Verify the voltage and ripple 6 Set MAX MIN to MAX for both Channel 1 and Channel 2 7 Recheck the voltage and ripple for Channel 1 and 2 8 Set VOLTAGE CURRENT to CURRENT 9 For each channel verify that the ULU is drawing the current given in Table 3 1 3 10 067 1002 99 FIXTURE ...

Page 29: ... caused by the foldback circuit when the supply enters the limiting mode The OUT OF REGULATION LEDs also should come on Verify that the highest current is less than the value given in Table 3 1 This value when added to the fixed current drawn by Channel 1 meets the requirement given in the power supply specifications Step 9 tested the lower 1 im it 11 Reset CURRENT ADJUST to midrange and in E3 To ...

Page 30: ... falls below the range consider voltage drop in the cable to the ULU by measuring the voltage at the power supply output bThe ripple figures are not performance requirements They are provided solely for the information of the service person Ignore noise spikes Refer to Figure 3 5 for all supplies and also to Figure 3 6 for the 55 V supply CThe supply should meet the other specifications at the cur...

Page 31: ...ltage reading falls below the range consider voltage drop in the cable to the ULU by measuring the voltage at the power supply output The ripple figures are not performance requirements They are provided solely for the information of the_ service person Ignore noise spikes Refer to Figure 3 5 for all supplies and also to Figure 3 6 for the 55 V supply OThe supply should meet the other specificatio...

Page 32: ...th Tab1 e 3 1 7 Reset CURRENT ADJUST to midrange and in Set MAX MIN for Channel 3 to MIN 24 V Supply 1 Select Channel 4 on the ULU 2 Set VOLTAGE CURRENT to VOLTAGE Verify the reading with Table 3 1 3 Compare the ripple with the value in Table 3 1 4 Set MAX MIN for Channel 4 to MAX Recheck the voltage and ripple 5 Set VOLTAGE CURRENT to CURRENT Verify that the ULU is drawing the current given in Ta...

Page 33: ...for both channels to MAX Recheck the voltage and ripple for each channel 6 Change the oscilloscope settings as follows TIME DIV TRIGGER SOURCE 5 ms LINE 7 Reset MAX MIN for Channels 5 and 6 to MIN 8 Measure the 60 Hz ripple for each channel by reading the peak to peak displacement of the band as shown in Figure 3 6 The band is the 40 kHz ripple which you checked in Steps 3 and 4 TRIGGER SOURCE LIN...

Page 34: ...MAX MIN for Channel 5 and 6 to MIN 14 Reset the oscilloscope as follows 5 2 V Supply TIME DIV TRIGGER SOURCE 1 Select Channel 10 on the ULU 10 µs CH 1 2 Set VOLTAGE CURRENT to VOLTAGE Compare the reading with Table 3 1 3 Compare the ripple with the value in Table 3 1 4 Set MAX MIN for Channel 10 t6 MAX Recheck the voltage and ripple 5 Set VOLTAGE CURRENT to CURRENT Verify that the ULU is drawing t...

Page 35: ...is reached Compare the highest reading with the value in Table 3 1 7 Reset CURRENT ADJUST to in and midrange Set MAX MIN for Channel 11 to MIN Line Vol tag es The maximum load configuration used in this test draws slightly more than 350 W through the power cord 1 Set the controls on the load unit as follows LOAD SELECT MAX MIN Switches 1 2 5 10 3 4 6 and 11 VOLTAGE CURRENT CURRENT ADJUST OVER VOLT...

Page 36: ...IGGEij MODE TRIGGER SLOPE TRIGGER LEVEL 2 S t LOAD SELECT to LOW 3 Turn on the ULU 10 ms CHOP 2 v DC 2 v DC CH 1 AC AUTO Midrange 4 Verify that the autotransformer is set to the high line voltage 132 or 264 V from the preceding test 5 Turn on the power supply using the remote switch 6 Test the trigger level by touching the Channel 1 probe to 5 V SENSE J73 4 If the oscilloscope does not trigger on ...

Page 37: ...tage 90 V or 180 V 13 Set LOAD SELECT to IND and SWITCHED The channel load switches should be in the same position as in the preceding line voltage test Channels 1 2 5 and 10 on MAX Channels 3 4 6 and 11 on MIN 14 Move the Channel 1 probe to PWRFL 0 J73 5 Test the trigger level by touching the probe to the pin and removing it If the oscilloscope does not trigger when the probe is removed adjust TR...

Page 38: ...veform with that shown in Figure 3 8 PWRFL 0 should go low at least 11 ms before INIT 0 PWRFL 0 J73 5 ov ov IOO I 90 r i 1 P _ _ _ l 11 ms MINIMUM INIT 0 J73 6 liii ili 1 iiiliiiiliiiiiliiiiliiiiiliiiiiiiiiliiiii 23 i 9 i 3 i 9 ll Figure 3 8 Power Down Waveform This completes the performance check 3 20 067 1002 99 FIXTURE ...

Page 39: ... will contact you concerning any change in part number Change information if any is located at the rear of this manual SPECIAL NOTES AND SYMBOLS XOOO Part first added at this serial number OOX Part removed after this serial number ITEM NAME In the Parts List an Item Name is separated from the description by a colon Because of space limitations an Item Name may sometimes appear as incomplete For fu...

Page 40: ... INSTRUMENT CORP CORNING GLASS WORKS ELECTRONIC COMPONENTS DIVISION GETTIG ENG AND MFG COMPANY TEKTRONIX INC DALE ELECTRONICS INC Address City State Zip 1201 2ND STREET SOUTH MILWAUKEE WI 53204 P 0 BOX 5012 13500 N CENTRAL EXPRESSWAY DALLAS TX 75222 5005 E MCDOWELL RD PO BOX 20923 PHOENIX AZ 85036 464 ELLIS STREET MOUNTAIN VIEW CA 94042 550 HIGH STREET BRADFORD PA 16701 PO BOX 85 OFF ROUTE 45 SPRI...

Page 41: ...FXD FILM 17 4K OHM 1 0 125W 91637 MFF1816G17401F CHlORFL 321 0640 00 RES FXD FILM l06K OHM 1 0 125W 91637 MFF1816Gl0602F CHlORPH 321 0327 00 RES FXD FILM 24 9K OHM 1 0 125W 91637 MFF1816G24901F CHllRCOMP 321 0297 00 RES FXD FILM l2 1K OHM 1 0 125W 91637 MFF1816Gl2101F CHllRDES 321 0268 00 RES FXD FILM 6 04K OHM 1 0 125W 91637 MFF1816G60400F CHllRFL 321 0701 00 RES FXD FILM l87K OHM 0 25 0 125W 916...

Page 42: ...8P86868K Q5043 151 0190 00 TRAN818TOR 8ILICON NPN 07263 8032677 Q5044 151 0190 00 TRAN818TOR 8ILICON NPN 07263 8032677 Q5045 151 0433 00 TRAN818TOR 8ILICON NPN 80009 151 0433 00 Q5046 151 0433 00 TRAN818TOR 8ILICON NPN 80009 151 0433 00 Q5047 151 0444 00 TRAN818TOR 8ILICON NPN 80009 151 0444 00 Q5048 151 0444 00 TRAN818TOR 8ILICON NPN 80009 151 0444 00 Q5051 151 0188 00 TRAN818TOR 8ILICON PNP 0471...

Page 43: ... TRAN8I8TOR 81LICON NPN 80009 151 0444 00 Q5116 151 0444 00 TRAN818TOR 81LICON NPN 80009 151 0444 00 Q5117 151 0443 00 TRAN818TOR 8ILICON PNP 80009 151 0443 00 Q5118 151 0443 00 TRAN818TOR 8ILICON PNP 80009 151 0443 00 Q5121 151 0188 00 TRAN818TOR 81LICON PNP 04713 8P86868K Q5122 151 0188 00 TRAN818TOR 81LICON PNP 04713 8P86868K Q5123 151 0190 00 TRAN818TOR 81LICON NPN 07263 8032677 Q5124 151 0190...

Page 44: ...1 0222 00 RES FXD FILM 2K OHM 1 0 125W 91637 MFF1816G20000F R5059 321 0280 00 RES FXD FILM 8 06K OHM 1 0 125W 91637 MFF1816G80600F R5060 315 0103 00 RES FXD CMPSN lOK OHM 5 0 25W 01121 CB1035 R5062 315 0103 00 RES FXD CMPSN lOK OHM 5 0 25W 01121 CB1035 R5063 315 0102 00 RES FXD CMPSN lK OHM 5 0 25W 01121 CB1025 R5064 315 0563 00 RES FXD CMPSN 56K OHM 5 0 25W 01121 CB5635 R5066 321 0289 00 RES FXD ...

Page 45: ...2 00 RES FXD CMPSN 3K OHM 5 0 25W 01121 CB3025 R5136 315 0202 00 RES FXD CMPSN 2K OHM 5 0 25W 01121 CB2025 R5137 315 0302 00 RES FXD CMPSN 3K OHM 5 0 25W 01121 CB3025 R5138 321 0200 00 RES FXD FILM l 18K OHM 1 0 125W 91637 MFF1816Gll800F R5139 315 0912 00 RES FXD CMPSN 9 1K OHM 5 0 25W 01121 CB9125 R5140 321 0220 00 RES FXD FILM l 91K OHM 1 0 125W 91637 MFF1816Gl9100F R5141 321 0289 00 RES FXD FIL...

Page 46: ...103 00 RES FXD CMPSN lOK OHM 5 0 25W 01121 CB1035 R5182 315 0302 00 RES FXD CMPSN 3K OHM 5 0 25W 01121 CB3025 R5184 315 0202 00 RES FXD CMPSN 2K OHM 5 0 25W 01121 CB2025 R5185 315 0302 00 RES FXD CMPSN 3K OHM 5 0 25W 01121 CB3025 R5186 321 0200 00 RES FXD FILM l 18K OHM 1 0 125W 91637 MFF1816Gl1800F R5188 321 0220 00 RES FXD FILM l 91K OHM 1 0 125W 91637 MFF1816G19100F R5189 321 0289 00 RES FXD FI...

Page 47: ...cuit bpard etc heat radiator etc T Transformer AT Attenuator fixed or variable HR Heater TC Thermocouple B Motor HY Hybrid circuit TP Test point BT Battery Connector stationary portion u Assembly inseparable or non repairable c Capacitor fixed or variable K Relay integrated circuit etc CB Circuit breaker L Inductor fixed or variable v Electron tube CR Diode signal or rectifier M Meter VR Voltage r...

Page 48: ...indicates the signal source and the to reference lists all loads where the signal is used All from to information will be enclosed in parentheses From J350 pin 6 and board 1 sheet 5 J350 6 1 5 X 1 1 6 Y 1 t To board 1 sheet 5 etc From board 1 sheet 6 OUTPUT SIGNAL TRUE LOW 3 Component Number Example INPUT SIGNAL TRUE HIGH Component Number A23 A2 R1234 T Schematic Assembly __J L Circuit Number Suba...

Page 49: ...4 19 20 21 22 23 24 25 2G D 27 28 29 30 31 32 _il__ 13 14 15 29 n 30 _J 31 P3 2 ITJ J 35 8 2 8 2 8 0 8 0 2 1 2 1 2 3 2 3 2 4 0 N 0 N 0 N 7 0 7 0 7 I 0 N 2 0 INTERCONNECT CABLE DIAGRAM 067 1002 99 FIXTURE c J lJ 72 c J c J c J P74 2 3 4 I __fTI I 2 3 7 10 9 8 4 JJ 71 24 24 55 GND 12 G SENSE GND J s 2 12 5 SENSE ...

Page 50: ...2393 10 Program Board Component Location 067 1002 99 FIXTURE ...

Page 51: ..._ _ J R50 16 w I ii fil LOAV OMP V SEN JE 0 7 1llJ IJ2 99 Ciso1 li 5 0 J teSIO I OK OK RSll4 5 LOW SENS Roc5 Qsoaz r soas I 00 SOLDE R PAD S sos R5116 flS 17 I OK OK S130 I 56K 12 l B VSEN5e l 5051 10 0lc C SOlS liPH RSOSZ nl 10 0IC CRSO z 4 Hl Q5o4Z R50 _1 9 K 8 VSENS R50hlo JO OK Cfil50ZO CR5021 fl JOf 7 10 K 5052 jf_ 5 101 itv e glf w R s 0 1 1 1 OK Rl N l VS IS fil0E5 p i I k CHAN 5 Q5os 6i so...

Page 52: ...n 1 81 J 0 5 R 5 r Clso4 3 _Gs CHAN 4 9S04tJ VSCNSl R506fo ID OK CRS020 CHAN 5 j 2 3 5 6 7 8 9 1 1 11 12 13 8 6 88 7 199 I 6 1 4M ljlfPjl 7 ftl 187 13 7 21 J 24 9 55 5 4111 26 7 Z l 9 Z d 5 12 1 24 oy 2 54_9 s 22 12 1 2 6 Ji 4 87 7 5 n r J n fin CZl n 17 4 6 14 psn r1n a a CHANNEL f R J061 10 l K 1 VB z 3 s 1z z I LOW R 5061 i f _i 5ENSl t OOI voio V S lf SE CHAN s 6 7 8 55 55 6 9 to II IZ s 2 fZ ...

Page 53: ...herwise specified ITEM NAME In the Parts List an Item Name is separated from the description by a colon Because of space limitations an Item Name may sometimes appear as incomplete For further Item Name identification the U S Federal Cataloging Handbook H6 1 can be utilized where possible ABBREVIATIONS INCH ELCTRN ELECTRON IN INCH SE SINGLE END NUMBER SIZE ELEC ELECTRICAL INCAND INCANDESCENT SECT ...

Page 54: ...ISION TEKTRONIX INC CENTRAL SCREW CO N L INDUSTRIES INC SOUTHERN SCREW DIV TEXTRON INC CAMCAR DIV WECKESSER CO INC Address 2620 STEVENS DRIVE P 0 BOX 3608 2801 S 25TH AVENUE YOUK EXPRESSWAY 16150 STAGG STREET 36 BUTLER ST 571 W POLK ST P 0 BOX 858 ST CHARLES ROAD P 0 BOX 500 2530 CRESCENT DR P 0 BOX 1360 600 18TH AVE 4444 WEST IRVING PARK RD ciJ City State Zip RICHLAND WA 99352 HARRISBURG PA 17105...

Page 55: ...ITS 80009 337 1064 00 23 1 CKT BOARD ASSY PROGRAM ATTACHING PARTS 24 211 0116 00 6 SCR ASSEM WSHR 4 40 X 0 312 INCH PNH BRS 83385 OBD 25 179 2806 00 WIRING HARNESS MAIN 80009 179 2806 00 26 131 0097 00 2 CONNECTOR RCPT 32 CONTACT FEMALE 02660 26 190 32 Pl P2 CONNECT TO Jl J2 ON REAR OF UNIVERSAL LOAD UNIT 27 213 0264 00 4 SCREW TPG TC 4 24 X 0 625 TYPE BT PNH 28 166 0025 00 2 SPACER SLEEVE 0 25 L ...

Page 56: ...t Qty 1 2 3 4 5 Name Description CLAMP LOOP 0 15 INCH DIA PLASTIC ATTACHING PARTS SCREW MACHINE 8 32 X 0 375 INCH PNH STL WSHR LOOP CLAMP FOR 0 50 WIDE CLAMP STL NUT PL ASSEM WA 8 32 X 0 344 INCH STL STANDARD ACCESSORIES 1 MANUAL TECH INTRIM INSTR Mfr Code Mfr Part Number 95987 l 8 6B 83385 OBD 95987 Cl91 78189 511 081800 00 80009 061 2393 00 067 1002 99 FIXTURE ...

Page 57: ... I 067 1002 99 FIXTURE 6 c m c ...

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