Tektronix 070-9176-00 Instruction Manual Download

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Summary of Contents for 070-9176-00

Page 1: ...buy your excess underutilized and idle equipment along with credit for buybacks and trade ins Custom engineering so your equipment works exactly as you specify Critical and expedited services Leasing Rentals Demos In stock Ready to ship TAR certified secure asset solutions Expert team I Trust guarantee I 100 satisfaction All trademarks brand names and brands appearing herein are the property of th...

Page 2: ...be Adapter 070 9176 00 Warning The servicing instructions are for use by qualified personnel only To avoid personal injury do not perform any servicing unless you are qualified to do so Refer to the Safety Summary prior to performing service ...

Page 3: ...echnical Data and Computer Software clause at DFARS 252 227 7013 or subparagraphs c 1 and 2 of the Commercial Computer Software Restricted Rights clause at FAR 52 227 19 as applicable Tektronix products are covered by U S and foreign patents issued and pending Information in this publication supercedes that in all previously published material Specifications and price change privileges reserved Pr...

Page 4: ...ry in which the Tektronix service center is located Customer shall be responsible for paying all shipping charges duties taxes and any other charges for products returned to any other locations This warranty shall not apply to any defect failure or damage caused by improper use or improper or inadequate maintenance and care Tektronix shall not be obligated to furnish service under this warranty a ...

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Page 6: ...s Probe Operation 17 Descriptions and Locations of Connectors 20 Descriptions and Locations of Jumpers 22 Reference P6467 Acquisition Data Commands 26 P6467 Reference Memory Commands 28 LA OffLine Applications 29 Specifications Performance Verification Equipment Required 37 Performance Verification Procedure 38 Adjustment Procedures Maintenance Service Strategy 51 Preparation 51 Inspection and Cle...

Page 7: ... Speed Probe Adapter Instruction Manual Replacable Parts Parts Ordering Information 55 Using the Replaceable Parts List 56 Appendicies Appendix A P6467 High Speed Probe Adapter Input Connector 63 Appendix B P6467 Test Board 65 Index ...

Page 8: ...umper Locations on the P6467 Probe 6 Figure 5 Connecting the Power Cable to the Probe 7 Figure 6 Disconnecting the Power Cable from the Probe 8 Figure 7 Connecting the Probe to the System Under Test 9 Figure 8 Sample Trigger Menu First Module 11 Figure 9 Sample Trigger Menu Second Module 12 Figure 10 Acquired Raw Data 19 Figure 11 Saved Data from Figure 10 20 Figure 12 P6467 Probe Connectors 21 Fi...

Page 9: ...ble 6 Power Distribution System 32 Table 7 Environmental 32 Table 8 Mechanical 33 Table 9 HFS 9003 Stimulus System Menu Setups 41 Table 10 HFS 9003 Stimulus System to P6467 Test Board Connections 42 Table 11 Jumper Positions for the Setup Hold and Maximum Operating Frequency Check 44 Table 12 Test Setups for the NORM Operating Mode 45 Table 13 Test Setups for the DIV2 Operating Mode 46 Table 14 Ju...

Page 10: ...d for this product To avoid electric shock do not operate this product in wet or damp conditions To avoid injury or fire hazard do not operate this product in an explosive atmosphere To avoid injury remove jewelry such as rings watches and other metallic objects Do not touch exposed connections and components when power is present Product Damage Precautions To prevent product overheating provide p...

Page 11: ...cessible as you read the marking WARNING indicates an injury hazard not immediately accessible as you read the marking CAUTION indicates a hazard to property including the product The following symbols may appear on the product Protective Ground Earth Terminal ATTENTION Refer to Manual Double Insulated DANGER High Voltage Overvoltage categories are defined as follows CAT III Distribution level mai...

Page 12: ...perform internal service or adjustments of this product unless another person capable of rendering first aid and resuscitation is present Dangerous voltages or currents may exist in this product Disconnect power remove battery if applicable and disconnect test leads before removing protective panels soldering or replacing components To avoid electric shock do not touch exposed connections Do Not S...

Page 13: ...Service Safety Summary viii P6467 High Speed Probe Adapter Instruction Manual ...

Page 14: ...obe H Performance Verification provides procedures for verifying the performance requirements of the P6467 Probe H Maintenance describes procedures for inspecting cleaning and servicing the P6467 Probe It also includes troubleshooting procedures and a brief theory of operation H Replaceable Parts lists the replaceable parts of the P6467 Probe and the probe accessories It also provides an exploded ...

Page 15: ...n module H DAS System User Manual This manual describes how to use the DAS NT or DAS XP digital analysis systems to acquire data with the 92A96 Data Acquisition Modules H TLA 510 TLA 520 User Manual This manual describes how to use the Tektronix Logic Analyzers to acquire and display data with the 92A96 Data Acquisition Modules H DAS 9200 Programmatic Command Language User Manual This manual descr...

Page 16: ...the probe effectively doubles the speed and memory depth of a 92A96 Module The NORM mode lets you acquire data synchronously and asynchronously in speeds up to 100 MHz Each probe connects to the system under test through two connectors Each probe acquires 48 data signals and two clock signals through two flexible circuit board cables The probe comes with application software that lets you create a...

Page 17: ...our P6467 probe refer to the DAS System User Manual or to the 92A96 and 92C96 Module User Manual for instructions to install a 92A96 Module in a DAS mainframe Then return to this manual for instructions to complete the installation of your P6467 probe If you have a TLA 520 logic analyzer the 92A96 Modules are already installed in the mainframe system unit Before using the probe you must meet the f...

Page 18: ...at in each of the examples the P6467 probe connected to the blue labeled probe cables is defined as the Master Clock probe your application may call for a different color coded probe label If you have the module configuration as shown in Figure 1 the position of the MSTR CLK CLK A jumper can be in either the MSTR CLK or the CLK A position However the jumper must be in MSTR CLK position for the Mas...

Page 19: ...Y 1 GRY 2 25 25 25 25 25 25 24 24 2 1 1 CLKA 1 CLKB 1 MSTR CLK OUT EXT CLK CLK 2 CLK Buffer MSTR CLK NORM NORM DIV 2 DIV 2 MSTR CLK EXT CLK Buffer 25 25 25 25 25 J200 J200 J100 J100 J200 J200 J100 J100 25 25 25 25 25 J200 J200 J100 J100 25 25 25 25 25 J200 J200 J100 J100 Master Clock Probe J400 J300 Figure 2 Probe Connections and Clock Jumpering for Two Two Card Modules ...

Page 20: ...K NORM NORM DIV 2 DIV 2 MSTR CLK EXT CLK Buffer 25 25 25 25 25 J200 J200 J100 J100 J200 J200 J100 J100 25 25 25 25 25 J200 J200 J100 J100 25 25 25 25 25 J200 J200 J100 J100 BLU 3 GRY 1 BLU 3 GRY 1 25 25 25 25 24 24 2 1 CLKA MSTR CLK OUT EXT CLK CLK Buffer MSTR CLK NORM DIV 2 MSTR CLK EXT J200 J200 J100 J100 GRN 2 GRN 3 GRN 2 GRN 3 25 25 25 25 25 J200 J200 J100 J100 Master Clock Probe J400 J300 Fig...

Page 21: ...re 4 shows the locations of the jumpers on the probe Note that it is only necessary to configure the jumpers on the Master Clock probe CLKA MSTR CLK J3 EXT MSTR CLK J1 NORM DIV2 J4 DIV2 NORM J2 GND THLD THLD ADJ F2 F1 Figure 4 Clock Jumper Locations on the P6467 Probe After determining the jumper locations on the probe replace the probe cover and continue with the following steps 1 Refer to Figure...

Page 22: ...er to Figure 6 to disconnect the power cable from the probe 2 Repeat steps 1a through 1c to connect the power cable to reach remaining P6467 probe 3 Connect the power cable to the power connector on one of the 92A96 Modules in the logic analyzer Bend the power cable and push in until it snaps in Power Connector socket J5 Figure 5 Connecting the Power Cable to the Probe ...

Page 23: ...obe 4 Connect the P6467 Probes to the 92A96 Probe Cables if necessary refer to Figures 1 through 3 on pages 3 through 5 respectively 5 Connect the flexible leads of the probe to the system under test Refer to Figure 7 to ensure that you properly connect the probe to the system under test pin 1 of the probe to pin 1 of the probe connector ...

Page 24: ...be Cables Probe Power Cable Figure 7 Connecting the Probe to the System Under Test Install the P6467 support software from the floppy disk using the Install Application selection from the Disk Services menu Insert the floppy disk in the disk drive and follow the on screen instructions to load the support software Install the Software ...

Page 25: ...e is set to 2 V To adjust the threshold voltage connect a digital voltmeter from test point THLD and the adjacent ground pin The location of test point THLD is shown in Figure 4 on page 6 Adjust the threshold control THLD ADJ for a reading between 1 6 V and 2 6 V Setting up the logic analyzer consists of defining the Setup menus The P6467 software contains an example of a setup file that you can r...

Page 26: ...e set the Clock menu to External Set up one module to clock on the rising edge of the clock with no qualification and set up the second module to clock on the falling edge of the same clock as the first module 6 For each module use the Trigger menu to define the data you want to acquire and to assert and monitor the signals defined in the Cluster Setup menu Figure 8 shows an example of one of the ...

Page 27: ...e second signal while the other module receives the first signal and asserts the second signal Figure 9 Sample Trigger Menu Second Module Functional Check You can verify the basic functionality of the probe by acquiring data and viewing it on the logic analyzer You can use the following checks as an incoming inspection to determine if further testing or repair is necessary The checks consist of co...

Page 28: ...tronix part number 012 0076 00 H Two 3 mm male to female BNC adapters Tektronix part number 015 1018 XX The following steps describe the setups necessary to perform the functional checks The procedures assume that you are starting the checks with the probes disconnected from the logic analyzer and that the logic analyzer is powered off The procedures also assume that you will use the setups stored...

Page 29: ...e outputs of the pulse generator 7 Connect one of the 3 mm SMA male to female BNC adapters to J1 and J13 of the P6467 Test Board 8 Connect the two BNC cables to the 3 mm SMA male to female BNC adapters 9 Connect the shorter BNC cable from the complement output of the pulse generator to the clock connector J13 on the P6467 Test Board 10 Connect the longer BNC cable from the output of the pulse gene...

Page 30: ...uired data in the State Display menu should track the data channel as you connect each data channel to the pulse generator output Table 3 shows the expected data with respect to the data channel connection on the P6467 Test Board Table 3 Functional Check Data P6467 Test Board Connection INPUT DATA A or INPUT DATA B NORM Mode Data INPUT DATA B DIV2 Mode Data J1 0000 A0 0000 00 0000 A0 0000 A0 J2 00...

Page 31: ...A A flex lead from the P6467 Test Board and connect the INPUT DATA B flex lead 16 Disconnect the blue labeled probe cable from the top connector of the P6467 Probe and connect them to the bottom connector OUTPUT DATA B 17 Repeat steps 13 through 14 to check the functionality of the second half of the probe The acquired data in the State Display menu should resemble the following data when you conn...

Page 32: ... mating connector on the system under test You can connect the flex cables to one of two mating connectors available from AMP Inc The two connectors and the pinout information is described in Appendix A P6467 High Speed Probe Adapter Input Connector When you use the probe in the NORM operating mode the flex cable defined as the Master Clock channel passes the signals from the probe to J200 bottom ...

Page 33: ...e hardware and clocking requirements the following setup requirements exist H Both modules need to be set to the same trigger program and assert a signal that the other module monitors See Figure 8 on page 11 for an example of a sample trigger program H The Clock menu setup requires that each module uses the same clock with one module sampling data on the rising edge of the clock while the other m...

Page 34: ... can save the data in a reference memory for use with the logic analyzer Use the CARDATA command to transfer the acquired data to a host computer for use with host computer applications Use the CARSTORE command to save the acquired data in a reference memory Both these commands and examples of their use are describe in the Reference chapter beginning on page 25 Figure 10 shows an example of acquir...

Page 35: ... 10 Descriptions and Locations of Connectors The P6467 Probe acquires data from a system under test and sends the data to the logic analyzer One probe can aquire data from two 92A96 probe cables from two acquisition modules one module pair Figure 12 shows the connectors on the probe probe covers removed ...

Page 36: ...nstruction Manual 21 J9 MSTR CLK OUT1 J6 EXT CLK IN J5 Probe Power J8 Master Clock Delay Top Side Bottom J200 OUTPUT DATA B J100 OUTPUT DATA A J400 INPUT DATA B J300 INPUT DATA A J7 Master Clock Delay J10 MSTR CLK OUT2 Figure 12 P6467 Probe Connectors ...

Page 37: ... from this connector is designated as the CLK A signal at J3 H J400 INPUT DATA B This connector is the Master clock and data input flex connector This flex cable assembly is designated as the Master clock input for the probe only the clock input on this flex cable can be designated as the Master clock The flex cable directs the signals from the system un der test to the J200 Output Data connector ...

Page 38: ...ers determine the operating mode of the probe Both jumpers must be in the same position The NORM position connects the input Master clock directly to the output drivers The DIV2 position divides the clock frequency by two before sending the clock signal to the output dividers H J4 CLK A MSTR CLK This jumper selects the clock source for the 92A96 probe cables connected to J100 top two connectors on...

Page 39: ...Operating Basics 24 P6467 High Speed Probe Adapter Instruction Manual ...

Page 40: ...on Files User Manual To use the commands in this chapter you must use the EXEC Programmatic Command Language PCL command with the logic analyzer using either the 92LANP application software or GPIB For information on using the EXEC command and other related commands refer to the DAS 9200 Programmatic Command Language User Manual You should also refer to that manual for a description of the PCL com...

Page 41: ...ll data starting with the first sequence and ending at the last data record The field argument specifies the 92A96 data field to return the default value is 0 for all fields Table 4 lists the valid 92A96 fields Table 4 92A96 Fields Field Description 0 All fields 1 Data fields 3 Timestamps 15 User specfic1 1 For information using field 15 refer to the Tektronix Application Note number 57W 7194 1 Co...

Page 42: ...he PCL ACQHDR query By default the CARDATA command returns acquired data only There may be times when you want to return both the header and data information In this case you can use the CARDATA command with hd switch cardata hd moduleA moduleB The CARDATA command returns timestamp information While executing the CARDATA command there may be duplicate timestamp values To keep the timestamp values ...

Page 43: ...amp corrections The t switch works similar to the t switch in the CARDATA command The refmem name argument specifies the name of the reference memory to be created This reference memory will be placed in the Reference_Mem directory on the hard disk of the logic analyzer You can display the reference memory in the State or Timing display menus The moduleA and moduleB arguments specify a pair of 92A...

Page 44: ... to return the file to its raw data form 3 Convert the raw data file to a LA OffLine file using the CONVERT command available with the LA OffLine application The following example shows how to transfer data from a logic analyzer using the 92LANP application software All of commands shown in this example are available with the 92LANP and LA OffLine application software packages 1 Use the PCLSEND co...

Page 45: ...Reference 30 P6467 High Speed Probe Adapter Instruction Manual ...

Page 46: ...n If the characteristic is noted as typical the characteristic is not warranted Typical characteristics describe typical or average performance and provide useful reference information Table 5 Signal Acquisition System Characteristic Description Number of Input Channels 24 Data one Clock Clock Input Maximum Clock Frequency 195 MHz DIV2 Mode 100 MHz NORM Mode Maximum Differential Input Voltage typi...

Page 47: ...ower Source Connector Type Tektronix Part Number 131 5254 XX Source Voltage Connector Pin 1 15 V to 20 V at 0 4 A Connector Pin 2 Ground Connector Pin 3 4 75 V to 5 25 V at 0 5 A Table 7 Environmental Characteristic Description Atmospherics Temperature Class 7 Limits except as noted Operating 10 C to 50 C Nonoperating 55 C to 75 C Humidity Class 7 Limits Operating 30 C to 40 C 70 to 75 Relative Hu...

Page 48: ...cal Characteristic Description Weight Standalone Probe 0 25 kg 0 56 lbs Packaged for Domestic Shipment 1 47 kg 3 25 lbs Physical Dimensions Height 43 mm 1 7 in Width 88 mm 3 45 in Depth 274 mm 10 8 in includes flex cables Cooling Method Convection Construction Material Aluminum Covers ...

Page 49: ...Specifications 34 P6467 High Speed Probe Adapter Instruction Manual ...

Page 50: ...are for use only by qualified personnel To avoid injury do not perform any servicing other than that stated in the operating instructions unless you are qualified to do so Refer to all Safety Summaries before performing any service WARNING ...

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Page 52: ...imum Clock Frequency H Minimum Input Voltage Swing H Clock Input Threshold Adjustment Range H Input Voltage Levels Vin High and Vin Low H Data Setup and Hold Time Equipment Required You will need the following test equipment to complete the performance verification checks in this chapter H A TLA 520 Logic Analyzer DAS NT or DAS XP Logic Analyzer with two 92A96 or 92C96 Data Acquisition Modules H O...

Page 53: ...that the Probe Cables are properly connected to the 92A96 Modules These steps also assume that you have installed the P6467 Application Support software on the logic analyzer Logic Analyzer Setups The following steps describe how to connect the probes to the logic analyzer and how to set up the logic analyzer menus for the perfor mance verification checks NOTE The following procedures assume that ...

Page 54: ...ing steps a Select F4 DEFINE CORRELATN and correlate the two 92A96 Modules select module_a in the Correlate field select F7 ADD COR select module_b in the new field and save the changes b Select F2 DEFINE SIGNAL and select F7 ADD SIGNAL c Define a signal AtoB with the module_a Direction field set to Output and the module_b Direction field set to Input d Select F7 ADD SIGNAL and define a second sig...

Page 55: ...lowing steps a Change the Clock field to External b Select the rising edge of Clock_2 with no qualification 10 Select the Trigger menu change it to match Figure 14 Figure 14 Trigger Menu Setup 11 Repeat steps 7 through 10 for the module_b setups with the following exceptions a In the Clock menu select the falling edge of Clock_2 instead of the rising edge b In the Trigger menu assert Signal BtoA i...

Page 56: ...ssary refer to HFS 9003 Stimulus System documentation for information on running the skew cal 3 Refer to Table 9 and enter the setups for the HFS 9003 Stimulus System Be aware that you must set the characteristics of each individual data channel setting the characteristics of one data channel does not automatically set the characteristics of the remaining data channels Table 9 HFS 9003 Stimulus Sy...

Page 57: ... Test Board A1 J1 A2 J2 A3 J3 A4 J4 B1 J5 B2 J6 B3 J7 B4 J8 C3 J9 C3 J10 C4 J11 C4 J12 C1 J13 Final Deskew Setups In certain situations such as when setting up new test equipment or after recalibrating the HFS 90003 Stimulus System you need to use an oscilloscope to perform the final deskew setups before performing the procedures in this section 1 Connect the 42 inch 50 coaxial cable from the HFS ...

Page 58: ... This check verifies the Clock Threshold Adjustment Range 1 6 V to 2 6 V Perform the following steps to verify the specification 1 Connect the positive lead of the digital voltmeter to test point THLD on the probe connect the negative lead to the ground test point adjacent to THLD if necessary refer to Figure 4 on page 6 or to Figure 13 on page 23 for the test point location 2 Rotate the threshold...

Page 59: ... that you have correctly connected the clock signal from the HFS 9003 Stimulus System to the P6467 Test Board 5 Check that the logic analyzer does not trigger and displays the Monitor menu Check that Counter 1 runs and increases in value NOTE If a line transient or if stray electrical noise causes the logic analyzer to trigger repeat the test at least three times and verify that the the logic anal...

Page 60: ...if you have ribbon probe cables and repeat steps 4 through 7 9 Refer to Table 12 and repeat steps 4 through 8 for each test frequency and clock lead delay Table 12 Test Setups for the NORM Operating Mode P6467 Test a 92A96 Probe able Te e ue Clock Lead C1 Delay Board e i Cable e i Te e ue axial able Ribb able Connection Connection Test Frequency Coaxial Cables Ribbon Cables INPUT DATA A OUTPUT DAT...

Page 61: ...P6467 Test a 92A96 Probe able Te e ue Clock Lead C1 Delay Board Connection Cable Connection Test Frequency Coaxial Cables Ribbon Cables INPUT DATA B OUTPUT DATA B 100 MHz 3 1 ns 2 8 ns INPUT DATA B OUTPUT DATA B 100 MHz 7 0 ns 7 3 ns INPUT DATA B OUTPUT DATA B 165 MHz 7 0 ns 7 3 ns INPUT DATA B OUTPUT DATA B 165 MHz 3 1 ns 2 8 ns INPUT DATA B OUTPUT DATA B 195 MHz 3 1 ns 2 8 ns INPUT DATA B OUTPUT...

Page 62: ...he frequency change the frequency to 100 MHz 1 Refer to Table 14 and set the P6467 Probe jumpers for each one of the clock configuration setups to verify the proper clock operation 2 Select F1 START and verify that the logic analyzer does not trigger 3 Select F1 STOP and check the acquired data 4 Repeat steps 2 and 3 for each setup in Table 14 Table 14 Jumper Positions and Clock Cable Connections ...

Page 63: ...55 5555 55 AAAA AA These checks verify that a clock signal can be distributed to all clock connections on the probe If any checks fail verify that all jumpers and connectors are in the correct locations as described in Table 14 Also verify the correct setups for the HFS 9003 Stimulus System If the tests still fail after verifying all of the setups repair is necessary Contact your local Tektronix r...

Page 64: ...P6467 High Speed Probe Adapter Instruction Manual 49 Adjustment Procedures There are no sevice adjustment procedures required for this product ...

Page 65: ...Adjustment Procedures 50 P6467 High Speed Probe Adapter Instruction Manual ...

Page 66: ...2A96 Modules Preparation The information in this chapter is designed for use by qualified service person nel Read the Safety Summary at the front of this manual and the Service Safety Summary before attempting any procedures in this chapter Refer to the Operating Basics chapter for information on the location of jumpers and probe connections CAUTION Components on the P6467 Probe can be damaged by ...

Page 67: ...there is any damage or deficiency Cleaning procedures consist of exterior cleaning only Periodic cleaning reduces instrument failure and increases reliability Clean the probe as needed based on the operating environment CAUTION Do not use chemical cleaning agents they may damage the probe Avoid using chemicals that contain benzene toluene xylene acetone or similar solvents Clean the exterior surfa...

Page 68: ...7 Probe H Verify that you have the correct clock selected in the Clock menu for both acquisition modules H Verify that you have the Trigger menu set up properly for both acquisition modules H Verify that the flex cables of the probe are correctly connected to the system under test H Verify the threshold voltage is set properly on the probe H Verify that the threshold voltage on both Channel menus ...

Page 69: ...ding on the settings of jumpers J3 and J1 You can also use the clock signal to drive other P6467 probes by connecting clock cables at J9 and J10 The position of jumper J1 EXT MSTR CLK lets you drive the probe cable connected to J200 by the Master clock or by a an external clock signal from another P6467 probe connected to J6 The position of jumper J3 CLK_A MSTR CLK determines the clock signal sent...

Page 70: ...nstrument serial number H Instrument modification number if applicable If you order a part that has been replaced with a different or improved part your local Tektronix field office or representative will contact you concerning any change in part number Change information if any is located at the rear of this manual Tektronix part numbers contain two digits that show the revision level of the part...

Page 71: ...s Column Column Name Description 1 Figure Index Number Items in this section are referenced by figure and index numbers to the exploded view illustrations that follow 2 Tektronix Part Number Use this part number when ordering replacement parts from Tektronix 3 and 4 Serial Number Column three indicates the serial number at which the part was first effective Column four indicates the serial number ...

Page 72: ...97201 TK2548 XEROX BUSINESS SERVICES DIV OF XEROX CORPORATION 14181 SW MILLIKAN WAY BEAVERTON OR 97077 0GZV8 HUBER AND SUHNER INC ONE ALLEN MARTIN DRIVE EXXEX VT 05451 0JR05 TRIQUEST CORP 3000 LEWIS AND CLARK HWY VANCOUVER WA 98661 2999 00779 AMP INC 2800 FULLING MILL PO BOX 3608 HARRISBURG PA 17105 24931 SPECIALTY CONNECTOR CO INC 2100 EARLYWOOD DR PO BOX 547 FRANKLIN IN 46131 5Y400 TRIAX METAL P...

Page 73: ...0 TAIL GOLD TP1 TP2 58050 082 3644 SS10 8 131 5989 XX 2 CONN BOX SMD FEMALE STR 2 X 20 0 05 X 0 1 CTR 0 370 H GOLD W B0ARD RETENTION 55322 TMM 136 02 G 2 9 131 4955 XX 2 CONN HDR PCB MALE RTANG 4 X 25 0 1CTR 0 640 H X 0 155 TAIL SHRD 4 SIDES CTR PLZ 30 GOLD 2 2 X 25 W O LATCH J300 J400 TK1465 131 4955 XX 131 4634 XX 3 CONN RF JACK SMD 50 OHM MALE STR 0 325 H X 0 159 TAIL J6 J9 J10 NOT ILLUSTRATED ...

Page 74: ...Replacable Parts P6467 High Speed Probe Adapter Instruction Manual 59 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 2 Figure 1 Exploded view ...

Page 75: ...J12 J13 24931 39JR162 1 3 671 3635 XX 1 CKT BD ASSY HI SPEED PROBE TEST FIXTURE 80009 6713635XX 4 131 6023 XX 1 CONN BOX PCB FEMALE STR 2 X 15 0 05 X 0 1 CTR 0 350 X 0 1 TAIL 30 GOLD SYS 50 J100 80009 1316023XX STANDARD ACCESSORIES 5 174 3506 XX 1 CA ASSY RF COAX RFD 75 OHM 10 00 L SMB PLUG FEMALE RTANG AT EACH END FIXED DELAY 1 04NS 0 05NS TK2469 174 3506 XX 6 174 3502 XX 1 CA ASSY SP DESCRETE CP...

Page 76: ...Replacable Parts P6467 High Speed Probe Adapter Instruction Manual 61 1 2 3 4 5 6 7 Figure 2 Exploded view ...

Page 77: ...Replacable Parts 62 P6467 High Speed Probe Adapter Instruction Manual ...

Page 78: ...ector on the system under test The mating connector is a 30 pin 0 05 inch x 0 1 inch AMPMODU System 50 connector and is available in a surface mount version AMP part number 104550 4 or a through hole version AMP part number 104078 4 Table 15 on the page 64 shows the pinouts of the connector on each P6467 Probe The definition of the data pins depend on the 92A96 Probe Cable connection ...

Page 79: ...C3 6 5 C0 5 C1 5 C2 5 C3 5 6 C0 4 C1 4 C2 4 C3 4 7 C0 3 C1 3 C2 3 C3 3 8 C0 2 C1 2 C2 2 C3 2 9 C0 1 C1 1 C2 1 C3 1 11 C0 0 C1 0 C2 0 C3 0 12 A1 7 A3 7 D1 7 D3 7 13 A1 6 A3 6 D1 6 D3 6 14 A1 5 A3 5 D1 5 D3 5 15 A1 4 A3 4 D1 4 D3 4 17 A1 3 A3 3 D1 3 D3 3 18 A1 2 A3 2 D1 2 D3 2 19 A1 1 A3 1 D1 1 D3 1 20 A1 0 A3 0 D1 0 D3 0 21 A0 7 A2 7 D0 7 D2 7 23 A0 6 A2 6 D0 6 D2 6 24 A0 5 A2 5 D0 5 D2 5 25 A0 4 A...

Page 80: ... clock signal and data signals from a test generator and route them to a 30 pin connector to one of the flex leads of the P6467 Probe Each of the data signals connects to two data channels at the 30 pin connector Figure 15 shows the test board and the connectors J1 J13 J100 J2 J3 J4 J5 J6 J7 J8 J9 J10 J11 J12 Pin 1 Figure 15 P6467 Test Board The P6467 Test Board has room for additional components ...

Page 81: ...Appendix B P6467 Test Board 66 P6467 High Speed Probe Adapter Instruction Manual ...

Page 82: ... 28 3 7 41 3 89 1 1 3 2 6 1 3 12 73 1 7 23 1 8 23 1 43 1 1 43 1 6 1 1 3 1 1 1 2 2823 1 04 1 32 8 23 2 1 3 3 3 2 2 34 1 04 1 32 5 1 3 2 3 2 73 1 3 1 4 1 4 3 2 3 7 3 12 7 2 4 3 5 1 3 42 2 2 3 23 3 1 2 36 1 4 12 3 18 2 33 3 3 2 36 1 CONVERT command 29 7 23 1 8 3 12 4 1 43 43 3 12 1 2 3 2 4 2 1 3 1 1 36 1 1 3 4 12 ...

Page 83: ...0 2 0 4 0 30 3 01 0 2 01 0 2 01 0 32 2 0 9 0 5 0 2 0 0 0 2 3 0 0 07 0 2 0 2 1 04 120 2 7 1 23 4 0 2 1 23 31 1 23 1 30 2 3 3 3 312 0 23 3 712 30 2 3 0 0 3 1 8 0 3 1 25 0 2 12 13 02 1712 1 2 1 4 0 2 5 0 120 32 1 3 1 2 12 2 0 32 1 9 13 02 1 25 0 2 0 2 13 02 17 2 6 1712 0 3 0 21 1712 1 25 0 2 07 0 2 2 0 8 0 3 2 0 1 4 2 312 2 2 4 0 2 2 12 1712 0 3 0 21 20 3 1 2 25 8 0 3 ...

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