Manual Agilent Technologies 1141A

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  • Agilent Technologies 1141A - page 1

    User and Service Guide Publication number 01141-97002 July 2004 For Safety and Regulatory information, see the pages at the end of this book. © Copyright Agilent T echnologies 2000-2004 All Rights Reserved Agilent T echnologies 1141A Differential Probe and 1142A Probe Control and Power Module ...

  • Agilent Technologies 1141A - page 2

    2 Agilent T echnologies 1141A Differential Probe and 1142A Probe Contro l and Power Module This manual contains information for use an d service of the differential probe sy stem, the 1141A Differentia l Probe and 1142A Probe Control and Power Module. In this docu ment, the two models will be treated as a sy stem. Each of the two instrument models ...

  • Agilent Technologies 1141A - page 3

    Contents 3 1 Operating the Probe Accessories Supplied 6 Accessories Availabl e 8 To inspect the probe 9 Using the probe with other instruments 9 Recommended Test Equipment 9 2 Calibration Tests and Adjustment Equipment Required 26 The Test Board 26 Calibration Tests 27 dc Gain Accuracy 28 Bandwidth 34 CMRR Test 36 Calibration Test Record 39 Adjustm ...

  • Agilent Technologies 1141A - page 4

    4 Contents Theory of Operation 59 Differential Probe 60 Control and Power Module 60 Attenuator Adapters 61 Test Board 62 Service Policy 63 Troubleshooting 64 Probe Troubleshooting 64 Probe Control and Power Module Troublesho oting 64 Removing and Replacing Assemblies 66 Differential Probe 66 Probe Adapters 68 Probe Control and Power Module 70 Repla ...

  • Agilent Technologies 1141A - page 5

    5 1 Operating the Probe ...

  • Agilent Technologies 1141A - page 6

    6 Operating the Probe Accessories Supplied Introduction This chapter shows you how to connect and operate the 1141A Differential Probe and 1142A Probe Control and Power Module as a differential probe sy stem. Accessories Supplied The following items are supplied as part of the 1141A/1142A probe sy stem. Item numbers refer to the numbers in Figure 1 ...

  • Agilent Technologies 1141A - page 7

    7 Operating the Probe Accessories Supplied Figure 1-1 1141A Differential Pr obe and Accessories ...

  • Agilent Technologies 1141A - page 8

    8 Operating the Probe Accessories Available Figure 1-2 1141A Miscellaneous Accessories Figure 1-3 1142A Probe Control and Power Module Accessories A vailable The following accessories can be ordered. • 5959-9335 Long Exte nsion Lead (5.5 inch/1 4 cm), package of 5 • 5090-4833 Mini grabber for SM T , package of 20 ...

  • Agilent Technologies 1141A - page 9

    9 Operating the Probe T o inspect the probe T o inspect the probe Inspect the shipping container for damage. If the shipping container or cushioning material is damaged, it should be kept unt il t he contents of the shipment have been checked for completeness and the instrume nt had been checked mechanically and electrically . Accessories supplied ...

  • Agilent Technologies 1141A - page 10

    10 Operating the Probe Recommended T e st Equipment Setting up the probe The following paragraphs cover sy stem preparation and initial adjustments. Power Requirements The 1141A/1142A probe sy stem (specifically the 1142A) require s a power source of either 90 to 132/19 8 to 264 V ac, 47 to 440 Hz, 25 V A maximum. CAUTION Before connecting power to ...

  • Agilent Technologies 1141A - page 11

    11 Operating the Probe Recommended T est E quipment WARNING Before connecting this instrument, the protect ive earth terminal of the instrum ent must be connected to the protective conductor of the (Mains) power cord. The Mains plug must be inserted in a socket outlet pr ovided with a protective each contact. The protective action must be negated b ...

  • Agilent Technologies 1141A - page 12

    12 Operating the Probe Recommended T e st Equipment • Offset null zeroes the dc level at the output of the probe. The range o f adjustment is about ±4 mV. • DC Reject Gain adjusts the gain of the dc reject circuit to accurately null the dc component of an input signal. The ra nge of adjustment is about ± 0.5%. Figure 1-5 1142A Front Panel Equ ...

  • Agilent Technologies 1141A - page 13

    13 Operating the Probe Recommended T est E quipment 5 Set up the 1142A: a Set the Local/Remote push button to Local. b Under DC Couple, press Zero offset. 6 Set the power supp ly output to 5 V. 7 Arrange a connection between the powe r supply and the tes t board. The negative terminal of t he supply should co nnect to the shield o f the test board ...

  • Agilent Technologies 1141A - page 14

    14 Operating the Probe Recommended T e st Equipment Figure 1-7 Basic Accessory Connections Probe Tips Probe tips fit into the receptacles in the pr obe and are held in place with probe tip caps. If necessary , you can solder the probe tips into a circuit or wires can be soldered to the tips. If you solder to the probe tips, be car eful not to melt ...

  • Agilent Technologies 1141A - page 15

    15 Operating the Probe Recommended T est E quipment Note Use extension leads and simi lar connection accessories carefully. Extension leads compromise the high-frequency specificatio ns of the probe. CMRR is particularly sensitive to unbalanced inpu t parameters. T o prevent pickup of stray fields when you use extension lead, either the o nes suppl ...

  • Agilent Technologies 1141A - page 16

    16 Operating the Probe Recommended T e st Equipment Adapters There are three adapters for use with th e differential probe. T wo adapters are attenuators, a 10x and a100x. The other is an ac adapter for blocking dc from the probe input. The adapters are installed on the probe after the probe tip caps and probe tips have been removed. The adapter fa ...

  • Agilent Technologies 1141A - page 17

    17 Operating the Probe Recommended T est E quipment Adapter Combinations The figure below shows the allowed adapt e r and probe connections. There are two specific combinations that should not be used. • Do not attach the ac adapter between an attenuator adap ter and the probe. An attenuator adapter must be terminated by the input resistance of t ...

  • Agilent Technologies 1141A - page 18

    18 Operating the Probe Recommended T e st Equipment Connector Compatibility The following are general connector charact eristics for the probe, adapters, and accessories. • The female connectors on the probe, adap ters, and other accessories are designed to mate with 0.030-inch round or 0.025 0-inch square pins. • The probe, adapter, and extens ...

  • Agilent Technologies 1141A - page 19

    19 Operating the Probe Recommended T est E quipment Probe System Coupling Functions dc Reject dc Reject is the best method of eliminating the dc component of a signal whe n dc is not a factor in the measurement. The key characteristics are: • The low-frequency componen t (from dc to the selected corner frequency) is automatically nulled by the dc ...

  • Agilent Technologies 1141A - page 20

    20 Operating the Probe Recommended T e st Equipment T o use dc reject: 1 Remove the ac adapter if it is insta lled. 2 On the front panel of the 1142A, press Local. 3 Under DC Reject on the front panel, pr ess 5.0 Hz or 0.5 Hz individually, or 5.0 Hz and 0.5 Hz simultan eously to get 0.05 Hz. W ithin the frequency and voltage characteris tics noted ...

  • Agilent Technologies 1141A - page 21

    21 Operating the Probe Recommended T est E quipment T o use ac coupling: 1 Attach the ac coupling adapter to the i nput of the probe or the input of the attenuator adapter. 2 On the 1142A, press Local and Zero offset. Remote operation For automatic test applications , the coupling and offset functions provided by the 1142A Probe Control and Power M ...

  • Agilent Technologies 1141A - page 22

    22 Operating the Probe Recommended T e st Equipment Function Select The easiest way to control the function select line s is contact closures between the lines and Digital common (pin 2) of the remote input connector . (TTL compatible control signals can be used; but to avo id problems with ground loops, they must be electrically isolated.) The fol ...

  • Agilent Technologies 1141A - page 23

    23 Operating the Probe Recommended T est E quipment Differential Amplifiers and CMRR The 1141A Differential P robe is a high-impedan ce differential amplifier . A characteristic of differential amplifiers is the ability to re ject signals that are common to the two inputs. The common mode rejection ratio (CMRR) is the measurement of t his ability . ...

  • Agilent Technologies 1141A - page 24

    24 Operating the Probe Recommended T e st Equipment ...

  • Agilent Technologies 1141A - page 25

    25 2 Calibration T e sts and Adjustment ...

  • Agilent Technologies 1141A - page 26

    26 Calibration T ests and Adjust ment Equipment Required Introduction This chapter is divided into two sections. The first section gives calibration tests and the second ad justment procedures for the 1141A Differential Probe and 1142A Prob e Control and Power Module. Equipment Required A complete list of equipment required for th e calibration tes ...

  • Agilent Technologies 1141A - page 27

    27 Calibration T ests and Adjustment The T est Board Calibration T ests These procedures test the probe’ s electrical performance using applicable specifications given in “Performance Specifi cations and Characteristics” on page 55 as performance standards. Specifications applicable to individual tests ar e noted at the test for reference. Te ...

  • Agilent Technologies 1141A - page 28

    28 Calibration T ests and Adjust ment dc Gain Accuracy dc Gain Accuracy This test checks the dc gain accuracy of the differential probe and the dc accuracy of the differential probe with attenuator and adapters. Specification: Probe alone, ±2%; with attenuator adapter , ±4% Equipment Required Probe Gain Test Procedure 1 Connect the probe and test ...

  • Agilent Technologies 1141A - page 29

    29 Calibration T ests and Adjustment dc Gain Accuracy Figure 2-2 2 Set up the 1142A probe control and power modu le as follows: a Set the Local/Remote push button to Local. b Under DC Couple, press the Zero offset button. 3 With the 1141A Probe Amp disconne cted fr om the test PCA, adjust the Offset Null control on the 1142A until the DVM reads 0Vd ...

  • Agilent Technologies 1141A - page 30

    30 Calibration T ests and Adjust ment dc Gain Accuracy Figure 2-3 Signal to - input 10 Calculate probe gain a s Record the result of this calcul ation in the “Calibration T est Record” on page 39. T o pass this test, the probe gain = 0.98 to 1.0 2 NOTE Failure of the gain accuracy test can be cause d by mis-adjustment of the probe . Perform the ...

  • Agilent Technologies 1141A - page 31

    31 Calibration T ests and Adjustment dc Gain Accuracy Figure 2-4 Signal to + input 3 Set the dc calibrator ou tput 3 V dc. 4 Record the V in1 measuremen t from the top DVM in fi gure 2-2. 5 Record the V out1 measurement from the bo ttom DVM in figure 2-2 6 Carefully connect the inp ut of the probe/att enuator to the test board in the position shown ...

  • Agilent Technologies 1141A - page 32

    32 Calibration T ests and Adjust ment dc Gain Accuracy 100x Attenuator Accuracy Test NOTE If the gain test for the probe fail s, it will be reflected in the test for the 100x attenuator adapter. Do not continue until th e probe passes the gain test. 1 Disconnect the probe/attenu ator fr om the test board. Remove the 10x attenuat or adapter from the ...

  • Agilent Technologies 1141A - page 33

    33 Calibration T ests and Adjustment dc Gain Accuracy 6 Carefully connect the inp ut of the probe/att enuator to the test board in the position shown in the figure below (signal to - input). Figure 2-7 Signal to - input 7 Record the V out2 measurement from the bo ttom DVM in figure 2-2. 8 Calculate the 100x attenuator g ain as Record the result of ...

  • Agilent Technologies 1141A - page 34

    34 Calibration T ests and Adjust ment Bandwidth Bandwidth This test checks the high- frequency resp onse of the 1 141A Differential Probe. The bandwidth of the oscilloscope is characteriz ed first so it is not a factor in the measurement. Specification (-3dB, dc coupled): dc to 200 MHz Equipment Required Procedure This test depends on the accuracy ...

  • Agilent Technologies 1141A - page 35

    35 Calibration T ests and Adjustment Bandwidth 6 Reconfigu re the equip ment. a Disconnect the signal generator cable from the oscilloscope input and connect it to the test board. b Connect the output of the differential probe to the channel 1 input of the oscilloscope. c Carefully connect the input of the probe to the test board in the position sh ...

  • Agilent Technologies 1141A - page 36

    36 Calibration T ests and Adjust ment CMRR T est CMRR T est This test checks the CMRR at 1 MHz and 100 MHz. Specification 3000:1 at 1 MHz, 10:1 at 100 MHz Equipment Required Procedure 1 Connect the probe power co nnector to the PR OBE connection on the rear of the 1142A Probe Control and Power Module. 2 Set the 1142A front panel switch es to Local ...

  • Agilent Technologies 1141A - page 37

    37 Calibration T ests and Adjustment CMRR T est 7 On the oscilloscope, pr ess AUTOSCAL E and set the following parameters. 8 On the oscilloscope, measure the peak-to- peak voltage of the channel 1 signal, then V P-P, then press 1) and record the reading. V p-p (1) = _____________ mV 9 Connect the input of the pr obe to the test board in the posit i ...

  • Agilent Technologies 1141A - page 38

    38 Calibration T ests and Adjust ment CMRR T est 15 Connect the input of the pr obe to the test board in the posit ion shown in t he figure belo w (signal to + input). Figure 2-11 Signal to + input 16 Set the signal generator for 100 MHz at 0.0 dBm (about 224 mV rms , 632 mV p-p ). 17 Set the osci lloscope to ch annel 1 and ch ange the horizontal s ...

  • Agilent Technologies 1141A - page 39

    39 Calibration T ests and Adjustment Calibration T est Re cord Calibration T e st Record 1141A/1142A Differe ntial Probe T ested by_____________ ____________ Serial No. ________________ ______________ W ork Order No.________________ ____ Recommended T est Interval - 1 Y ear/2000 hours Date________ ____________ Recommended next testin g_____________ ...

  • Agilent Technologies 1141A - page 40

    40 Calibration T ests and Adjust ment Probe Adjustment Adjustments This section provides adjustment proced ures for the 1141A Different ial Probe and attenuator adapters. There are no servic e adjustments for the 1142A Probe Control Module. Adjustment Interval None of the adjustment proce dures that follow should be consi dered for a routine mainte ...

  • Agilent Technologies 1141A - page 41

    41 Calibration T ests and Adjustment Probe Adjustment The following equipment is required for this procedure. Procedur es are bas ed on the model or part number recommended. Equipment Required Probe Preparation The probe c over mu st be remo ved before adjustment. Drift due to temperature differences with and without covers is negligi ble. 1 Remove ...

  • Agilent Technologies 1141A - page 42

    42 Calibration T ests and Adjust ment Adjustment Procedure 6 As shown in the f igure belo w, use the grounding screw to reinstall the ground block on the P C assembly. Figure 2-13 Attaching Ground Block to Probe PC Assembly The ground block provides a mechanical an d el ectrical connection when the probe PC assembly is connected to the test board. ...

  • Agilent Technologies 1141A - page 43

    43 Calibration T ests and Adjustment Adjustment Procedure 3 On the oscilloscope, then press CLEAR DISPLAY. Press AUTO SCALE, then set up the followin g parameters. 4 On the oscilloscope, measure the peak-to- peak voltage of the channel 1 signal and record the reading. V p-p (1) = _____________ mV 5 Disconnect the BNC cabl e from the chan nel 1 inpu ...

  • Agilent Technologies 1141A - page 44

    44 Calibration T ests and Adjust ment Adjustment Procedure 8 Center adjustment R11, HF CMRR (see following figure). Figure 2-15 R11, HF CMRR Adjustment 9 Adjust R9, HF GAIN so the V p-p (1) measurement is the same as in step 4, within ±0.5%. Make the adjustment slo wly so the oscilloscope display has time to react to si gnal averaging. Press CLEAR ...

  • Agilent Technologies 1141A - page 45

    45 Calibration T ests and Adjustment Adjustment Procedure 2 Change the oscillosc ope sett ings to: 3 Carefully connect the i nput of the prob e to the test boar d in the position sh own in the figure below (signal to + input). Figure 2-17 Signal to + input 4 Adjust R14 (LF Gain) and C4 (+ LF BANDWIDTH) for the flattest pulse t op (see figure below) ...

  • Agilent Technologies 1141A - page 46

    46 Calibration T ests and Adjust ment Adjustment Procedure 5 Carefully connect the probe to the test board in position shown in the figure below (signal to both inpu ts). Figure 2-19 Signal to both inputs 6 Change the func tion generator se ttings to: • Sine wave •4 k H z •1 . 0 V p-p 7 Change the oscilloscope settings to: 8 Adjust C6 (-LF BA ...

  • Agilent Technologies 1141A - page 47

    47 Calibration T ests and Adjustment Adjustment Procedure High Frequency Com pensation This adjustment sequence continues fr om the Low Frequency Response and CMRR adjustment. However , it can be done separa tely if the probe meets all specifications except bandwidth. Adjust R13 for unity gain at 200 MHz. 1 Connect the signal genera tor to the te s ...

  • Agilent Technologies 1141A - page 48

    48 Calibration T ests and Adjust ment Adjustment Procedure 4 Assemble the PC assemb ly in th e top co ver. The side of the PC assembly with the l arge hybrid is exposed when the assembly is in the top cover . The figure below shows how the top cover , PC board, and ground block fit together . Figure 2-22 Reassembling the Prob e a Insert the input c ...

  • Agilent Technologies 1141A - page 49

    49 Calibration T ests and Adjustment Attenuator Adapte r Adjustment Attenuator Adapter Adjustment The following procedure should be used if it is necessary to adjust an attenuator adapter . Attenuator adapters h ave only characteristics; they do not have any spec ifications. An adapter will need adjustment only if one or more of the following occur ...

  • Agilent Technologies 1141A - page 50

    50 Calibration T ests and Adjust ment Attenuator Adapter Adjustme nt Adjustment Procedure NOTE The attenuator must be adjusted when inst alled on the 1141A probe with which it will be used. The specifications and characteristi cs will not be met if the attenuator adapter is adjusted with o ne differentia l probe th en used with another. 1 Remove th ...

  • Agilent Technologies 1141A - page 51

    51 Calibration T ests and Adjustment Attenuator Adapte r Adjustment 7 Connect the adapter/probe co mbinatio n to the test board in the position shown in the figure below. Figure 2-23 Signal to + input 8 Adjust the + HF RESP for best overall pul se response, the flattest pulse top. Use the figure below for adjust locations. Figure 2-24 Adjustment Lo ...

  • Agilent Technologies 1141A - page 52

    52 Calibration T ests and Adjust ment Attenuator Adapter Adjustme nt 11 Connect the adapter/probe co mbinatio n to the test board in the position shown in the figure below (sign al to both inputs). Figure 2-25 Signal to both input 12 Alternately adjust the LF CMRR and th en the -HF RESP for a mini mum signal on the oscilloscope. Repeat the adjustme ...

  • Agilent Technologies 1141A - page 53

    53 3 Service ...

  • Agilent Technologies 1141A - page 54

    54 Service Introduction Introduction This section provides troubleshooting, servic e, and repair information for the 1141A Differential Probe and 1142 A Probe Control and Power Module. The troubleshooting information is provided to isolate a faulty assembl y . When a faulty assembly has been located, the disassembly/assembly procedures help direct ...

  • Agilent Technologies 1141A - page 55

    55 Service Performance Sp ecifications and Ch aracteristics Performance Specifications and Characteristics The following tabl e gives performance specifi cations used to test the 1141A and 1142A. It also gives performance characteristics that are typical for the probe sy stem. Performance Specifications and Characteristics Parameter Probe alone Wit ...

  • Agilent Technologies 1141A - page 56

    56 Service Performance Specifications and Characteristics Figure 3-1 CMRR Specifications and Characteristics Legend A. CMRR specification for probe with no input adapters. B. Low-frequency CMRR specification for probe with the ac adapter. C. Typical CMRR characteristic for differential probe with no input adapters D. Typical CMRR characteristic for ...

  • Agilent Technologies 1141A - page 57

    57 Service Performance Sp ecifications and Ch aracteristics Figure 3-2 Maximum Input Voltage vs. Fre quency Legend A. Input voltage limits for probe alone. B. Input voltage limits for 10x adapter. C. Input voltage limits for 100x adapter. ...

  • Agilent Technologies 1141A - page 58

    58 Service General Characteristics General Characteristics The following characterist ics apply to the 11 41A Differential Probe with the 1142A Probe Control and Power Module. Figure 3-3 Mechanical Dime nsions Environmental Conditions Operating Non-operating Temperature 0°C to +55 C° (32°F to +1 31°F) -4 0°C to +70°C (-40°F to +158°F) Humid ...

  • Agilent Technologies 1141A - page 59

    59 Service Theory of Operation Theory of Operation The following dis cussion covers block-le vel theory for the 1141A/1142A differential probe sy stem. Refer to the block diagram below . The differential probe s y stem co nsists of two units, the 1141A Different ial Probe with its accessories and the 1142A Probe Control and Power Module. For purpos ...

  • Agilent Technologies 1141A - page 60

    60 Service Theory of Operation Differential Probe The probe contains a two-path differential am plifier with unity gain. It is implemented on a double-sided surface-mount PC board with the high-frequen cy path on one side and the low-frequency path on the other . The two paths are sp lit directly after the differential input connections. High-Frequ ...

  • Agilent Technologies 1141A - page 61

    61 Service Theory of Operation Offset Functions There are two offset functions developed in the control module: var iable offset and dc reject. A variable offset voltage with coarse and fine adjustments can be selected by the front panel controls. The offset level is buffered by U 8 and selected by multiplexer U3 as the inpu t to offset amp U7 . Th ...

  • Agilent Technologies 1141A - page 62

    62 Service Theory of Operation Te s t B o a r d The test board is a device for conveniently connecting test signals to the differential probe. The probe can be connected to the boar d with the signal t o the positive, negative, or both inputs. Figure 3-6 Test Board Schematic ...

  • Agilent Technologies 1141A - page 63

    63 Service Service Policy Service Policy For parts of the 1141A/114 2A probe sy stem th at are complex, the service policy is for assembly-level repair . For parts of the sy stem with simple circuitry , the service policy is component-level repair . The service policy for the 1141A Differential Probe is assembly-level repair . Assemblies include th ...

  • Agilent Technologies 1141A - page 64

    64 Service T roubleshoo ting T roubleshooting Use the followi ng paragraphs to assist i n troubleshooting problems with the 1141A/1142A Differential Probe. Probe T roubleshooting T o troubleshoot the probe: 1 Apply a known sign al to the input o f the probe. 2 Check for an ide ntical out put at the outp ut coax to the cable. This connection is the ...

  • Agilent Technologies 1141A - page 65

    65 Service T roubleshooti ng Figure 3-7 1142A Probe Control and Power Module ...

  • Agilent Technologies 1141A - page 66

    66 Service Removing and Replacin g Assemblies Removing and Replacing Assemblies This section contains proce dures for the removal and repl acement of major assemblies. CAUTION Never remove or install any assembly wi th the instrument power ON. Component damage can occur. Differential Probe Use the following procedure to remove a nd replace the ampl ...

  • Agilent Technologies 1141A - page 67

    67 Service Removing and Replac ing Assemblies Reassemble Probe The ground screw passes through the top cover and PC board and screws into the ground block. 1 If replacing the PC board, remove the input connectors from the old board an d put them on the new one. 2 If replacing the cable, note the orient ation of the probe clamp ring on the ol d cabl ...

  • Agilent Technologies 1141A - page 68

    68 Service Removing and Replacin g Assemblies CAUTION Note where the two pins at the rear of the top cover enter the holes in the PC assembly. Position the cable wires away from these two areas. When the botto m cover is closed, part of it will pinch wires that are laying o ver these areas. b Insert the pins at the front of the bottom co ver into t ...

  • Agilent Technologies 1141A - page 69

    69 Service Removing and Replac ing Assemblies 2 Combine the thumbwheel scre w and thumbwheel and inse rt them into the hole in the outer housing. 3 Insert the sub strate/board into the outer housi ng. Slip the at tenuator ground (attenuator adapters only ) over the thumbwheel screw and seat the input connectors in the proper holes in the housing. F ...

  • Agilent Technologies 1141A - page 70

    70 Service Removing and Replacin g Assemblies Probe Control and Power Module Use the following procedure to disassemb le the p robe control an d power modu le. WARNING Hazardous voltages exist on the power supply. To avoid electrical shock, adhere closely to the followin g procedures. 1 Remove the power cord. 2 Remove four flathead screws and remov ...

  • Agilent Technologies 1141A - page 71

    71 Service Replaceable Parts Replaceable Parts This section contains information fo r ordering parts. Service support for the 1141A Differential Probe is to the assembly level. Se rvice support for the adapters is as complete assemblies, except for the probe tip caps a nd the probe tips. Service support for the 1142A Probe Control and Po wer Modu l ...

  • Agilent Technologies 1141A - page 72

    72 Service Replaceable Parts Mail order forms and specific ordering in formation are available through your local Agilent T echnologies Sales Office. Addresse s and telephone numbers are located in a separate document shipped with the manuals. Manufacturers’ Codes A list of manufacturers’ codes is given t he table below . The codes are given fo ...

  • Agilent Technologies 1141A - page 73

    73 Service Replaceable Parts Exploded V iew Figure 3-11 1141A Differential Probe Parts ...

  • Agilent Technologies 1141A - page 74

    74 Service Replaceable Parts Figure 3-12 Power and Control Boar d Component Locato r ...

  • Agilent Technologies 1141A - page 75

    75 Service Replaceable Parts Figure 3-13 Cabling Diagram ...

  • Agilent Technologies 1141A - page 76

    76 Service Replaceable Parts Figure 3-14 1142A Probe Control and Power Module IC Connectors not Shown Supply Pin No. IC Group +15 14 U3 -15 3 GND 15 +15 7 U6-8, 11 -15 4 NC 1, 5, 8 +5 16 U9 GND 8 ...

  • Agilent Technologies 1141A - page 77

    77 Service Replaceable Parts Figure 3-15 1142A Probe Control and Power Module ...

  • Agilent Technologies 1141A - page 78

    78 Service Replaceable Parts 1141A and 1142A R eplaceable Parts Ref. Des. Part Number Qty Description Mfr. Code Mfr. Part Number 1141A Differential Probe A1 01141-665 03 1 PC ASSEMBLY-DIFFE RENTIAL PR OBE 28480 01141-66501 E1 01141-26102 2 PR OBING PIN 28480 01141-26102 E2 01141-22301 1 G ROUND BLACK 28480 01141-22301 E3 01141-22401 1 G ROUND SCREW ...

  • Agilent Technologies 1141A - page 79

    79 Service Replaceable Parts A1 01142-665 01 1 P C ASSEMBLY -POWER AND CONTROL 28480 01142-66501 H1 0515-0374 7 SCREW-MACHINE M3 10mm-LG 00000 ORDER BY DESP. H2 0515-1031 4 SCREW-MACHINE M3 6mm-LG 90-DEG-FLH-HD 00000 ORDER BY DESP. H3 0515-1579 1 SCREW-MACHINE M5 18mm-LG 00000 ORDER BY DESP. MP1 01142-47702 1 BOTTOM CHASSIS 28480 01142-47701 MP2 01 ...

  • Agilent Technologies 1141A - page 80

    80 Service Replaceable Parts Power Supply Replac eable Parts Ref. Des. Part Number Qty Description Mfr. Code Mfr. Part Number Prefix the reference designators with A1 C1 0160-61 90 2 CAPACITOR -FXD 0.33UF ±10% 50 VDC 28480 0160-6190 C2 0160-5474 1 CAPACITOR-FXD 0.1UF ±5% 100VDC MET-POL Y 28480 0160-5474 C3 0180-32 98 2 CAPACITOR -FXD 2200U F+30-1 ...

  • Agilent Technologies 1141A - page 81

    81 Service Replaceable Parts CR1 NOT ASSIGNED CR2 1901-1087 2 DIODE-PWR RECT 100V 3A 04713 M R501 CR3 1901-1087 DI ODE-PWR RECT 100V 3A 04713 MR501 CR4 NOT ASSIGNED CR5 1901-0731 8 DIODE-PWR RECT 400V 1A 28480 1 901-0731 CR6 1901-0731 8 DIODE-PWR RECT 400V 1A 28480 1 901-0731 CR7-8 NOT ASSIGNED CR9 1901-0731 8 DIODE-PWR RECT 400V 1A 28480 1 901-073 ...

  • Agilent Technologies 1141A - page 82

    82 Service Replaceable Parts J1 1252-47 31 1 CONNECTOR-AC PWR 28480 1251-4743 J2 1252-1487 1 CONN-RECT D-SUBMIN 9-CKT (remote ) 28480 1252-1487 J3 1252-3935 1 CONNECTOR-ROUND 8-CKT (probe) 28480 1252-3134 MP1 14 00-1604 1 LED MOUNT 28480 1400-1604 MP2 12 05-0732 4 SP RING CLIP 28480 1205-0732 MP3 03 61-0685 3 RIVET-BLI ND DR-PIN RNDH 0.12 5DIA 2848 ...

  • Agilent Technologies 1141A - page 83

    83 Service Replaceable Parts R16 0698-6317 2 RESIS TOR 500 0.1% 0.125W TF TC=0±25 28480 0698-6317 R17 0698-4002 RESISTOR 5K 1% 0.125W TF TC=0±10 0 24546 CT4-1/8-TO-5001-F R18 0699-1203 RESISTOR 120.0 1% 0.125W TF TC=0±2 5 28480 0699-1203 R19 0698-6317 RESISTOR 500 0.1% 0.125W TF TC=0±2 5 28480 0698-6317 R20 N OT ASSIGNED R21 0698-8827 1 RESIS T ...

  • Agilent Technologies 1141A - page 84

    84 Service Replaceable Parts RP1 1810-1242 1 RESISTOR NETWOR K 28480 1810-1242 S1 3101-2609 1 SWITCH-SL DPST STD 5A 250VAC P C 28480 3101-2609 S2 3101-3007 1 SWITCH-6 STATION ASSEMBLY 28480 3101-3007 T1 9100-4750 1 TRANSFORMER-POWER ( with mtg. hardware) 28480 9100-4750 U1 1826-1403 2 IC V RGLTER-ADJ-POS 3/40V 00000 LT317AT U2 1826-1670 2 IC V RGLT ...

  • Agilent Technologies 1141A - page 85

    85 Service Replaceable Parts Locator T able for Control a nd Power Supply Ref. Des. Grid Loc Ref Des Grid Loc Ref Des Grid Loc Ref Des Grid Loc Ref Des Grid Loc Ref Des Grid Loc Ref Des Grid Loc Ref Des Grid Loc C1 C-2 C17 C-6 CR10 C-5 J1 G-7 R5 B-6 R22 B-3 R45 C-3 U5 D-6 C2 F-3 C18 B-5 CR11 C-3 J2 B-7 R6 B-6 R23 B -5 R46 C-3 U6 B-3 C3 H-2 C19 B-6 ...

  • Agilent Technologies 1141A - page 86

    86 Service Replaceable Parts ...

  • Agilent Technologies 1141A - page 87

    Index 87 Numerics 100x attenuator test , 32 10x attenuator test , 30 A ac adapter , 20 ac coupling adapters , 19 ac low frequency , 55 accessories available to order , 8 circuit connector posts , 15 extension leads , 14 ground leads , 14 mini grabb ers , 15 probe tips , 14 shielded signal leads , 15 supplied with probe , 6 test board , 26 using , 1 ...

  • Agilent Technologies 1141A - page 88

    Index 88 M making measurem ents , 13 manufacturer’ s code s , 72 maximum input voltage , 55 mini grabbers , 15 N noises , 55 O offset , 20 offset functions , 61 offset null , 11 operating environment , 58 operating range , 55 ordering information , 71 output impedance , 55 overload recovery , 55 P parts list , 71 , 78 performance specification , ...

  • Agilent Technologies 1141A - page 89

    Agilent T echnologies P .O. Box 2197 1900 Garden of the Gods Road Notices © Agilent Technologies, Inc. 2000-2004 No part of this manual may be reproduced in any form or by any means (including electronic storage and retrieval or translation into a foreign language) without prior agreement and written consent from Agilent Technologies, Inc. as gove ...

  • Agilent Technologies 1141A - page 90

    Product Safety Notices This apparatus has been designed and tested in accorda nce with IEC Publication 1010, Sa fety Requirements for Measuring Apparatus, and ha s been supplied in a safe condition. This is a Safety Class I instrument (provided with t erminal for protective earthing). Before applying power, verify that the correct safety precaut io ...

Manufacturer Agilent Technologies Category Thermometer

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