Page 1 Service Manual CSA8000 Series Communications Signal Analyzers, TDS8000 Series Digital Sampling Oscilloscopes, and Modules 071-0438-07 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.
Page 2 Copyright © Tektronix. All rights reserved. Licensed software products are owned by Tektronix or its subsidiaries or suppliers, and are protected by national copyright laws and international treaty provisions. Tektronix products are covered by U.S. and foreign patents, issued and pending. Information in this publication supercedes that in all previously published material.
Page 3 Tektronix, with shipping charges prepaid. Tektronix shall pay for the return of the product to Customer if the shipment is to a location within the country in which the Tektronix service center is located.
Page 5: Table Of Contents
Table of Contents General Safety Summary ........Service Safety Summary .
Page 6 Table of Contents Optical Sampling Modules Overview ....... . 2- - 5 80C01 Optical Sampling Module .
Page 7 Table of Contents Procedures for Modules ......... . . 4- - 21 Front Panel Assembly .
Page 8 Table of Contents 80A02 Block Diagram ..........5- - 27 80A05 Block Diagram .
Page 9 Table of Contents List of Figures Figure 1- -1: Compartments for sampling modules ....1- -2 Figure 1- -2: Locations of peripheral connectors on rear panel .
Page 10 Table of Contents Figure 4- -28: Processor board removal ......4- -46 Figure 4- -29: T-10 screws and threaded posts .
Page 11 Table of Contents Figure 5- -13: 80C07 and 80C07B Optical sampling block diagram 5- -14 Figure 5- -14: 80C07 and 80C07B Optical sampling with CR1 clock recovery block diagram ....... . . 5- -15 Figure 5- -15: 80C08/80C08B/80C08C Optical sampling block diagram...
Page 12 Table of Contents List of Tables Table 1- -1: Additional accessory connection information ..1- -3 Table 1- -2: Line fuses ........1- -5 Table 2- -1: Module optical/electrical split .
Page 13: General Safety Summary
General Safety Summary Review the following safety precautions to avoid injury and prevent damage to this product or any products connected to it. To avoid potential hazards, use this product only as specified. Only qualified personnel should perform service procedures. While using this product, you may need to access other parts of the system.
Page 14 General Safety Summary Do Not Operate in Wet/Damp Conditions. Do Not Operate in an Explosive Atmosphere. Keep Product Surfaces Clean and Dry. Provide Proper Ventilation. Refer to the manual’s installation instructions for details on installing the product so it has proper ventilation. Symbols and Terms Terms in this Manual.
Page 15: Service Safety Summary
Service Safety Summary Only qualified personnel should perform service procedures. Read this Service Safety Summary and the General Safety Summary before performing any service procedures. Do Not Service Alone. Do not perform internal service or adjustments of this product unless another person capable of rendering first aid and resuscitation is present.
Page 16 Service Safety Summary CSA8000 & TDS8000 Series Instruments and Modules...
Page 17: Preface
Preface This is the service manual for the: H CSA8000, CSA8000B, and CSA8200 Communications Signal Analyzers H TDS8000, TDS8000B, and TDS8200 Digital Sampling Oscilloscopes H modules that install in the instruments (except the 80A03 module) NOTE. The 80A03 instruction manual contains its own specifications and servicing information.
Page 18: Related Documentation
Preface Related Documentation The following documents relate to the instruments this service manual supports: H CSA8200 and TDS8200 Quick Start User manual. Tektronix part number 071-1482-XX. This document also contains specification changes when using the 82A04 Phase Reference module. H CSA8000 and TDS8000 Specifications and Performance Verification manual.
Page 19: Operating Information
Operating Information...
Page 21: Installation
Installation This section covers installation of the instrument, addressing the following topics: H Check the Environment Requirements on page 1- -1 H Install the Sampling Modules on page 1- -2 H Connect the Peripherals on page 1- -3 H Power On the Instrument on page 1- -5 H Powering Off the Instrument on page 1- -6 The basic operating software is already installed on the hard disk.
Page 22: Rackmount Requirements
Installation Rackmount Requirements If this instrument is rackmounted, see the TDS8000 & CSA8000 Rackmount Instructions for additional site considerations or operating requirements. This document ships with the Option 1R (rackmount kit). Install the Sampling Modules CAUTION. Do not install or remove any sampling modules while the instrument is powered on.
Page 23: Maximum Configuration
Installation Maximum Configuration You can install up to two large sampling modules and four small modules for a maximum of 10 inputs (CSA and TDS 8000 and 8000B) or 12 inputs (CSA and TDS 8200). Of these inputs, only eight inputs can be active at one time. Also, note that installing a large module may disable a small-module compartment.
Page 24: Figure 1- 2: Locations Of Peripheral Connectors On Rear Panel
Installation Description Icon/Label Locations ......Monitor..... Printer...... RS-232....Network......PS2 mouse ...... PS2 keyboard ....USB........ Audio line out....... Audio line in......Removable hard drive..... CD drive......GPIB... Monitor....Card slot ... Gated trigger... Product ships with a USB keyboard, that plugs into the USB port, and a USB mouse that plugs into the back of the keyboard Some instruments ship with the keyboard and mouse ports reversed.
Page 25: Power On The Instrument
Installation Power On the Instrument Follow these steps to power on the instrument for the first time. 1. Check that the line fuses are correct for your application. Both fuses must be the same rating and type. Fuse types require a unique cap and fuseholder. See Table 1- -2 and Figure 1- -3.
Page 26: Powering Off The Instrument
Installation Switch Figure 1- 4: On/Standby switch location 6. Wait for the boot routine and low-level self test to complete. 7. Follow any instructions on the screen. The internal setup software will automatically configure your instrument and install all required devices, depending on the installed accessories. Powering Off the Instrument The instrument has a built-in soft power-down function that safely powers down the instrument when you push the On/Standby button.
Page 27: Software Installation
The CD-ROM(s) included with your instrument contain the UI application for reinstallation if rebuilding the hard drive. Tektronix provides updates to the user interface application on a regular basis. Updates can be obtained by visiting the Tektronix Web site at www.tektronix.com. Software Release Notes...
Page 28: System Hard Drive Rebuild
Installation System Hard Drive If you cannot reboot from the instrument hard drive, you must rebuild the Rebuild instrument hard drive. This process will return the hard disk to the its original condition present when the instrument shipped. Data and programs you may have installed will be lost when rebuilding the hard drive.
Page 29: Theory Of Operation
Theory of Operation...
Page 31: Logic Conventions
Theory of Operation This chapter describes the electrical operation of the instrument and sampling modules. The diagrams in Chapter 9 show the interconnections of the major circuit blocks. Logic Conventions The instrument contains many digital logic circuits. This manual refers to these circuits with standard logic symbols and terms.
Page 32: Display Panel
Theory of Operation small slot functionality in the corresponding small slots. The external trigger and all small slot channels feature a Tekprobe Level 2 probe power connector for additional front end signal conditioning functions like high input-impedance real-time probes, if equipped on the sampling module. Processor System.
Page 33: Fans
Theory of Operation located on the front panel, also controls all of the power to the instrument except for part of the circuitry in the Low Voltage Power Supply. The power supply sends a power fail (~PF) warning to the processor system if the power is going down.
Page 34: 80E04, 80E08, And 80E10 Tdr/Sampling Modules
Theory of Operation Most electrical channels feature a Tekprobe Level 2 probe power connector for attachment of a real time probe. The control of this probe is a mainframe function. All module calibration signals are derived from a 2.5 V precision voltage reference internal to the sampling module.
Page 35: Optical Sampling Modules Overview
Theory of Operation module remains functional for monitoring the primary step and its reflected components. The sampling module provides two self- contained TDR channels. The polarity of the output step can be selected independently for each channel. This allows differential or common mode testing of two coupled lines as well as independent testing of isolated lines.
Page 36 Theory of Operation H No filter is used, but the sampler’s bandwidth is adjusted. H The O/E bandwidth is adjusted and dominates the response. Information about the available bandwidth and reference receiver selections, and the method used to set the bandwidth for the optical modules starts on page 2- -7.
Page 37 Theory of Operation board has a switch that selects which modules clock will be applied to the trigger. The control signal for that switch comes from the optical module. 80C01 Optical Sampling The 80C01 module supports conformance testing of long wavelength Module (1100-1650 nm) signals at 622, 2488, and 9953 Mb/s as well as general purpose testing up to 20 GHz optical bandwidth.
Page 38: 80C03 Optical Sampling Module
Theory of Operation H 12.5 GHz: The sampler bandwidth and response is set during the calibration such that the combined system will have an Optical Bandwidth (- -6 dB) >12.5 GHz. H 20 GHz: The sampler bandwidth and response is set during the calibration such that the combined system will have an Optical Bandwidth (- -6 dB) >20 GHz.
Page 39 Theory of Operation >28 GHz, it is also well suited to general-purpose, high-performance optical component testing. H OC192 or 10.664 Gb/s: The electrical sampler is adjusted to give the desired response, and signal is not routed through any filter (signal is sent through the straight-through path).
Page 40: 80C07B Optical Sampling Module
Theory of Operation measurement tool for high bandwidth telecommunications with its high optical bandwidth >2.3 GHz. H Filtered rates are OC-3, OC-12; unfiltered rate is OC-48. H There is clock recovery option available (155/622/2488 Multi-rate) For major functional circuit blocks refer to Figures 5- -13 and 5- -14 on page 5- -14. 80C07B Optical Sampling The 80C07B module is designed to test both long and short wavelength Module...
Page 41 Theory of Operation For major functional circuit blocks refer to Figures 5- -15 and 5- -16 beginning on page 5- -16. 80C08C Optical Sampling The 80C08C module is designed to test both long and short wavelength Module (700- -1650 nm) signals. This module is intended to be used as a test and measurement tool for high bandwidth telecommunications with its high optical bandwidth >10 GHz.
Page 42: 80C11 Optical Sampling Module
FEC (11.0957 Gb/s). These filter settings require no hardware filters. H An electrical clock recovery output signal is provided that can be routed to the Tektronix 80A05 Electrical Clock Recovery module for clock recovery. For major functional circuit blocks refer to Figure 5- -24 on page 5- -25.
Page 43: 80A02 Eos/Esd Protection Module
The 80A02 EOS/ESD module is designed to work with either the Tektronix P8018 probe for manual test station static protection as well as automated test stations.
Page 44: 80A06 Patternsync Trigger Module
Theory of Operation There is one front panel indicator LED - - Clock Recovery Enable. It indicates the clock recovery circuitry is on and programmed to the requested bit rate. For major functional circuit blocks refer to Figure 5- -27 on page 5- -28. 80A06 PatternSync Trigger Module The 80A06 PatternSync Trigger Module is designed to provide a frame trigger for the CSA8000 and TDS8000 series instruments.
Page 45: Adjustment Procedures
Adjustment Procedures...
Page 47: Adjustment Interval
Adjustment Procedures This chapter contains an adjustment procedure for your instrument. The purpose of this procedure is to return the instrument conformance to its specifications. Adjustment Interval The voltage and timing references inside the instrument are very stable over time and should not need routine adjustment.
Page 48: Required Equipment
Windows software (to install in the instrument) Power, 50 Ω, SMA “T”. male Tektronix 015-0565-00 Divider 1 ea Adapter SMA “T”, male to 2 SMA female Tektronix part 1 ea number 015-1016-00 Adapter SMA male to BNC female, Tektronix part number...
Page 49: Main Instrument Adjustments
1. Run the compensation routine. 2. Enter the following GPIB command to verify communication between the controller and DUT. *IDN? Should respond with Tektronix and Firmware Version. 3. Enter the following GPIB command to turn the instrument’s cal constant protection off: SYST:PROT OFF 4.
Page 50: Dc Calibrator Adjust
Adjustment Procedures 7. Enter the following GPIB command to set the instrument’s DC calibrator offset cal constant to - -1 * DMM reading: CALCOMP:DOUBLE “DcCalOffsetAdj”,(- -1.0 * the DMM reading) Example: CALCOMP:DOUBLE “DcCalOffsetAdj”, 3.2e- -4 8. Enter the following GPIB command to set the instrument’s calibrator to 1.0 V: CALIBRATE:DCCALIBRATOR 1.0 Record the DMM reading (reading1).
Page 51: Internal 10 Mhz Adjust
Adjustment Procedures 5. Set the instrument’s DC calibrator to 0.0 V and verify as follows: CALIBRATE:DCCALIBRATOR 0.0 6. Verify that the DMM reads 0.0 V 0.1 mV GPIB cable CSA8000/TDS8000 Controller Synthesized signal generator TRIGGER DIRECT INPUT Channel 1 50 Ω Power divider Figure 3- 2: Adjustment setup using the signal generator Internal 10 MHz Adjust Connect the instrument to a signal generator as shown in Figure 3- -2.
Page 52 Adjustment Procedures 1. Enter the following GPIB command to turn the instrument’s cal constant protection off: SYST:PROT OFF 2. Set the calibration value to default by sending the following GPIB com- mand: CALCOMP:DOUBLE “Internal10MHzRefFreq”,10e6 3. Click Run/Stop (button should be green). 4.
Page 53: Maintenance
Maintenance...
Page 55: Preventing Esd
Maintenance This section contains the information needed to do periodic and corrective maintenance on the Mainframe, Sampling Heads and Optical modules. The following subsections are included: H Preparation. Introduction plus general information on preventing damage to internal modules when doing maintenance. H Inspection and Cleaning.
Page 56: Inspection And Cleaning
Maintenance 5. Handle circuit boards by the edges when possible. 6. Do not slide the circuit boards over any surface. 7. Avoid handling circuit boards in areas that have a floor or work-surface covering capable of generating a static charge. Inspection and Cleaning Inspection and Cleaning describes how to inspect for dirt and damage.
Page 57: Exterior
Maintenance If the display is very dirty, moisten the wipe with distilled water or a 75% isopropyl alcohol solution and gently rub the display surface. Avoid using excess force or you may damage the plastic display surface. CAUTION. To prevent getting moisture inside the instrument during external cleaning, use only enough liquid to dampen the cloth or applicator.
Page 58: Interior
Use a 75% isopropyl alcohol solution as a cleaner and rinse with deionized water. Before using any other type of cleaner, consult your Tektronix Service Center or representative. Interior Use the following guidelines and methods to inspect and clean the inside of the instrument.
Page 59 Maintenance Table 4- 2: Internal inspection check list (cont.) Item Inspect for Repair action Semiconductors Loosely inserted in sockets. Firmly seat loose semiconduc- Distorted pins. tors. Remove devices that have distorted pins. Carefully straight- en pins (as required to fit the socket), using long-nose pliers, and reinsert firmly.
Page 60 Maintenance 4- 6 CSA8000 & TDS8000 Series Instruments and Modules...
Page 61: Removal And Installation Procedures
Removal and Installation Procedures This subsection contains procedures for removal and installation of all mechani- cal and electrical modules. Preparation WARNING. Before doing this or any other procedure in this manual, read the Safety Summary found at the beginning of this manual. Also, to prevent possible injury to service personnel or damage to this instrument’s components, read Installation in Chapter 2, and Preventing ESD in this section.
Page 62: Table 4- -3: Tools Required For Module Removal
Removal and Installation Procedures Equipment Required. Most modules in this instrument can be removed with a screwdriver handle mounted with a size T-15, TorxR screwdriver tip. Use this tool whenever a procedure step instructs you to remove or install a screw unless a different size screwdriver is specified in that step.
Page 63: Procedures For External Modules
Removal and Installation Procedures Procedures for External Modules The following procedures are found here and are listed in order presented. H Front Panel Knobs H Trim (all) H Bottom cover H Left and Right covers H Line Fuse and Line Cord Front-Panel Knobs 1.
Page 64: Trim And Carrying Handle
Removal and Installation Procedures Trim and Carrying Handle 1. Locate module to be removed: Locate the Trim in the locator diagram, See Figure 4- -7, page 4- -18. 2. Remove the front panel trim: Use Figure 4- -2, page 4- -11, as a guide. a.
Page 65: Bottom Cover
Removal and Installation Procedures T-15 Torxdrive screw (4) Top cover trim Left side trim Right side trim T-15 Torxdrive screw (3) Acquisition trim Carrying handle Front panel trim T-20 Torxdrive T-15 Torxdrive screw (3) screw (2) Soldering aid To remove the trim ring, slide the flat end of a soldering aid into the side slot on the trim ring.
Page 66: Figure 4- -3: Bottom Cover Removal
Removal and Installation Procedures 2. Orient the instrument: Set the instrument so its top is down on the work surface and its bottom is facing you. a. Remove the five T-15 Torxdrive screws that secure the bottom cover to the instrument. b.
Page 67: Covers
Removal and Installation Procedures Covers 1. Remove the left and right covers: See Figures 4- -4 and 4- -5, pages 4- -14 and 4- -15. H Trim (all) H Bottom cover 2. Orient the instrument: Set the instrument so its rear is on the work surface and the front of the instrument facing the technician.
Page 68: Figure 4- -4: Cover Removal
Removal and Installation Procedures Left side cover All left and right cover mounting holes are indicated as shown. T-15 Torxdrive screw (13) Right side cover Figure 4- - 4: Cover removal 4- - 14 CSA8000 & TDS8000 Series Instruments and Modules...
Page 69: Figure 4- -5: Cover Removal
Removal and Installation Procedures Left side cover Right side cover T-15 Torxdrive screw (9) Figure 4- - 5: Cover removal 4- - 15 CSA8000 & TDS8000 Series Instruments and Modules...
Page 70: Line Fuses And Ac Power Cord Connector
Removal and Installation Procedures Line Fuses and AC power 1. Assemble equipment and locate modules to be removed: Locate the power cord connector switch, line fuses and AC power cord connector in Figure 4- -6, page 4- -17. 2. The instrument has a built-in soft power-off function that safely powers off the instrument when you press the On/Standby switch.
Page 71: Figure 4- -6: Line Fuses And Line Cord Removal
Removal and Installation Procedures AC power cord connector Power switch AC power cord Line fuse holder Line fuses Figure 4- - 6: Line fuses and line cord removal 4- - 17 CSA8000 & TDS8000 Series Instruments and Modules...
Page 72: Figure 4- -7: External Modules
Removal and Installation Procedures Pouch Left side trim Top cover trim Left side cover Rear foot Right side cover Front panel trim Right side trim Carrying handle Front panel cover Chassis Acquisition trim Bottom cover Figure 4- - 7: External modules 4- - 18 CSA8000 &...
Page 73: Figure 4- -8: Internal Modules
Removal and Installation Procedures Hard-drive CD-drive CD-drive Interface board Microprocessor, fan and heat sink Fan assembly NLX board Riser board Processor board Display adapter board Floppy disk drive Low-voltage power supply assembly Front panel board Rear power Front panel keypad distribution Standby/On switch board...
Page 74: Figure 4- -9: Acquisition Modules
Removal and Installation Procedures Large interface circuit board Large module chassis Small module chassis Electrical front Acquisition assembly end circuit board Acquisition circuit board Figure 4- - 9: Acquisition modules 4- - 20 CSA8000 & TDS8000 Series Instruments and Modules...
Page 75: Procedures For Modules
Removal and Installation Procedures Procedures for Modules You should have completed the Procedures for external modules before doing many of the procedures in this collection. The procedures found here are listed in disassembly order: H Front Panel assembly H Front Panel Board H Front Panel Keypad H Display assembly H Display Adapter Board...
Page 76: Figure 4- -10: Front Panel Assembly Removal
Removal and Installation Procedures 2. Remove the Front Panel assembly: See Figure 4- -10, page 4- -22. 3. Orient the instrument: Set the instrument so its bottom is down on the work surface and its front panel is facing you. a.
Page 77: Front Panel Board
Removal and Installation Procedures Black stripe toward connector Screwdriver Screwdriver Figure 4- - 11: J1 flex cable connector removal Front Panel Board 1. Locate module to be removed: Locate the Front Panel assembly Figure 4- -10, page 4- -22. Additional modules to be removed: H Front Panel Knobs H Trim (front panel) H Front Panel assembly...
Page 78: Front Panel Keypad
Removal and Installation Procedures Front Panel Keypad 1. Locate module to be removed: Locate the Front Panel assembly Figure 4- -10, page 4- -22. Additional modules to be removed: H Front Panel Knobs H Trim (front panel) H Front Panel assembly H Front Panel Board 2.
Page 79: Display Assembly
Removal and Installation Procedures CAUTION. When removing or installing the keypad, make sure you do not touch the switch contact with your fingers. The oils in your fingers will degrade or damage the switch contacts. To help prevent damage to the keypad use cotton gloves when removing or installing the keyboard pad.
Page 80: Figure 4- -13: Display Removal
Removal and Installation Procedures T-15 Torxdrive screw (4) J8 flex cable Display assembly Figure 4- - 13: Display removal 4. Remove the Touch panel from the Display assembly: See Figures 4- -14 and 4- -15, pages 4- -27 and 4- -28. CAUTION.
Page 81: Display Adapter Board
Removal and Installation Procedures Access notches (top and bottom) Touch panel LCD module Figure 4- - 14: Touch panel and LCD assembly removal 5. Reinstallation: Do in reverse steps 1 through 5 to reinstall the Display assembly. Display Adapter Board 1.
Page 82: Figure 4- -15: Display Adaptor Board Removal
Removal and Installation Procedures Display module Display adaptor board T--15 Torxdrive Back view screw (2) Figure 4- - 15: Display adaptor board removal Slide the clip over connector Clip to secure connector as shown Figure 4- - 16: Connector clip assembly 4- - 28 CSA8000 &...
Page 83: Standby/On Switch Flex Circuit Removal
Removal and Installation Procedures Standby/On Switch Flex 1. Locate module to be removed: Locate the Standby/On Switch flex circuit in Circuit Removal the locator diagram Internal Modules, Figure 4- -8, page 4- -19. Additional modules to be removed: H Trim (front panel and top) H Display assembly 2.
Page 84: Figure 4- -17: Standby/On Switch Flex Circuit Removal
Removal and Installation Procedures Display assembly Standby/On switch flex circuit Front view Display adaptor board Standby/On switch flex circuit Back view Figure 4- - 17: Standby/On switch flex circuit removal 4- - 30 CSA8000 & TDS8000 Series Instruments and Modules...
Page 85: Floppy Disk Drive
Removal and Installation Procedures Floppy Disk Drive 1. Locate modules to be removed: Locate the Floppy Disk Drive in the locator diagram Internal Modules, Figure 4- -8, page 4- -19. Additional modules to be removed: H Trim (front panel and top) H Front Panel assembly H Display assembly 2.
Page 86: Hard Disk Drive
Removal and Installation Procedures Hard Disk Drive 1. Locate module to be removed: Locate the Hard Disk Drive in the locator diagram Internal Modules, Figure 4- -8, page 4- -19. CAUTION. Do not remove the replaceable hard disk drive when the mainframe is powered on.
Page 87: Figure 4- -19: Hard Drive Disk Removal
Removal and Installation Procedures Depress the latch Remove the hard disk drive Figure 4- - 19: Hard drive disk removal 5. Remove the hard disk drive from the cartridge: See Figure 4- -20, page 4- -33. a. Remove the four #0 phillips screws that fasten the hard disk drive to the cartridge.
Page 88: Cd Drive
Removal and Installation Procedures CD Drive 1. Locate module to be removed: Locate the CD Drive in the locator diagram Internal Modules, Figure 4- -8, page 4- -19. Additional modules to be removed: H Trim (all) H Bottom cover H Left and Right covers 2.
Page 89: Fan Assembly Removal
Removal and Installation Procedures CD drive interface board CD drive CD drive ribbon cable #0 Phillips Disconnect screw (4) J230 CD drive ribbon cable CD drive bracket T--15 Torxdrive screw (2) Figure 4- - 21: CD drive and bracket removal Fan Assembly Removal 1.
Page 90: Figure 4- -22: Fan Assembly Removal
Removal and Installation Procedures 3. Remove the fan assembly: See Figure 4- -22, page 4- -36. CAUTION. Take care when handling the fan assembly, the fan blades are brittle and can be easily damaged. a. Disconnect the fan from processor/display board: Disconnect the fan’s two power cables J130 and J170 located on the processor board.
Page 91: Figure 4- -23: Front And Rear Power Distribution Board Removal
Removal and Installation Procedures Front and Rear Power 1. Assemble equipment and locate modules to be removed: Find the modules to Distribution Boards be removed in the locator diagram Internal Modules, Figure 4- -8, page 4- -19. Additional modules to be removed: H Trim (all) H Bottom cover H Left and Right covers...
Page 92: Low-Voltage Power Supply
Removal and Installation Procedures Low-Voltage Power 1. Assemble equipment and locate modules to be removed: Locate the modules Supply to be removed in the locator diagram Internal Modules, Figure 4- -8, page 4- -19. Additional modules to be removed: NOTE. In addition to this topic, see Checking the Power Supply Voltages on page 4- - 74 in the Troubleshooting section.
Page 93: Figure 4- -24: Low-Voltage Power Supply Removal
Removal and Installation Procedures T-15 Torxdrive screw (3) Low-voltage power supply T-15 Torxdrive screw (2) Figure 4- - 24: Low-voltage power supply removal 4- - 39 CSA8000 & TDS8000 Series Instruments and Modules...
Page 94: Nlx Board
Removal and Installation Procedures NLX Board 1. Locate module to be removed: Locate the NLX Board in the locator diagram Internal Modules, Figure 4- -8, page 4- -19. Additional modules to be removed: H Trim (all) H Bottom cover H Left and Right covers 2.
Page 95: Figure 4- -25: Nlx Assembly Removal
Removal and Installation Procedures Hard/CD drive bracket Place floppy drive assembly on top of hard/CD drive bracket NLX board assembly Riser adapter board Leave floppy drive cable attached Remove floppy drive assembly from front chassis Processor board edge connector Figure 4- - 25: NLX assembly removal 4.
Page 96: Figure 4- -26: Riser Adapter And Nlx Board Removal
Removal and Installation Procedures Remove the floppy drive assembly from the NLX board assembly. d. Grasp the Riser board and pull it straight out to disconnect J510 edge card connector from the NLX board. Remove the Riser Adapter board from the NLX board assembly. e.
Page 97: Microprocessor
Removal and Installation Procedures Microprocessor 1. Locate module to be removed: Locate the Front Panel board in the locator diagram Internal Modules, Figure 4- -8, page 4- -19. Additional modules to be removed: H Trim H Bottom cover H Left and Right covers CAUTION.
Page 98: Figure 4- -27: Microprocessor Removal
Removal and Installation Procedures Fan and heatsink Microprocessor Locking lever Push down and pull out to release clamp Push down J401 power cable and pull out to release clamp NLX board Figure 4- - 27: Microprocessor removal 4- - 44 CSA8000 &...
Page 99: Pc Processor Board
Removal and Installation Procedures PC Processor Board 1. Locate module to be removed: Locate the PC Processor Board assembly in the locator diagram Internal Modules, Figure 4- -8, page 4- -19. Remove the following in this order: H Trim (all) H Bottom cover H Left and Right covers H Hard Disk and CD Drive...
Page 100 Removal and Installation Procedures J190 J691 J690 T--15 Torx screw (9) Phillips screw (2) PC processor board Support J930 bracket 3/16 Nut post (2) 5/16 Nut post (2) Chassis support Disconnect from J930 Figure 4- - 28: Processor board removal 4- - 46 CSA8000 &...
Page 101: Acquisition Assembly
Removal and Installation Procedures Acquisition Assembly 1. Locate module to be removed: Locate the Acquisition assembly in the locator diagram, Figure 4- -9, page 4- -20. Remove the Acquisition assembly following in this order: H Trim H Bottom cover H Left and Right covers H Front and Rear Power Distribution Boards 2.
Page 102 Removal and Installation Procedures CAUTION. Note the locations of the T-10 Torxdrive screws and the inch hex threaded posts for later reassembly. Make sure you reinstall the Torxdrive screw and threaded posts in the correct position. The inch hex threaded posts have etched lines around their mounting holes.
Page 103 Removal and Installation Procedures NOTE. When reinstalling the thermal cover, make sure that the cover sits in the holding clips. Screw Thermal cover T--15 Torxdrive spacer post Holding clips Figure 4- - 30: Thermal cover removal (8200 only) k. Disconnect J6 ribbon cable connector from the large module circuit board.
Page 104: Large Module Interface Circuit Board
Removal and Installation Procedures T--15 Torxdrive J6 ribbon cable screw (7) (disconnect from Large T--15 Torxdrive module circuit board) long screw (3) Trigger hybrid J10 ribbon cable (disconnect from J930 Acquisition processor board) circuit board J25 connector for trigger J8 and J16 coaxial cables probe power ribbon cable (disconnect from Acquisition board)
Page 105 Removal and Installation Procedures Large module trigger cable (disconnect from J5 on Large module circuit board) T--15 Torxdrive J6 ribbon cable screw (7) T--15 Torxdrive (disconnect from Large long screw (3) module circuit board) Trigger hybrid J10 ribbon cable Acquisition (disconnect from J930 circuit board processor board)
Page 106 Removal and Installation Procedures Large module trigger cable (disconnect from J5 on Large module circuit board) T--15 Torxdrive J6 ribbon cable screw (8) T--15 Torxdrive (disconnect from Large long screw (3) module circuit board) Trigger hybrid J10 ribbon cable (disconnect from J930 Acquisition circuit board processor board)
Page 107 Removal and Installation Procedures Large Module Interface 1. Locate module to be removed: Locate the Large module Interface circuit Circuit Board board in the locator diagram, Figure 4- -9, page 4- -20. Remove the Large Module Interface circuit board following in this order: H Trim H Bottom cover H Left and Right covers...
Page 108 Removal and Installation Procedures T--15 Torxdrive screw (1) Large module interface circuit board Figure 4- - 34: Large module interface circuit board removal (8000 and 8000B) 4- - 54 CSA8000 & TDS8000 Series Instruments and Modules...
Page 109: Module Slot Doors
Removal and Installation Procedures T--15 Torxdrive screw (1) Large module interface circuit board Figure 4- - 35: Large module interface circuit board removal (8200) Module Slot Doors 1. Assemble equipment and locate modules to be removed: Locate the Module Slot Doors in the locator diagram. Figure 4- -9, page 4- -20. Additional modules to be removed: H Trim H Bottom cover...
Page 110 Removal and Installation Procedures 3. Remove the small module chassis: See Figure 4- -36, page 4- -57. a. Remove the nine T-10 Torxdrive screws from front panel. CAUTION. One of these Torxdrive screws secures a inch hex nut and grounding lug to the inside chassis. When removing the top right T-10 Torxdrive screw, make sure this ground nut is retained for later reassembly.
Page 111 Removal and Installation Procedures Lock nut (7) Small module chassis Small module chassis removal Ground nut Ejector handle (6) T--10 Torxdrive screw (9) Ground nut screw Lock nut (11) Large module chassis T--10 Torxdrive Large module chassis removal screw (4) Figure 4- - 36: Small and Large module chassis removal 4- - 57 CSA8000 &...
Page 112 Removal and Installation Procedures 5. Remove the module slot doors: See Figures 4- -37 and 4- -38, pages 4- -59 and 4- -60. 6. Orient the small or large module chassis: Set the chassis so the module slot cavities with springs and slot guides are facing you. a.
Page 113 Removal and Installation Procedures Module door spring Module door Large module chassis Figure 4- - 37: Module door spring removal 4- - 59 CSA8000 & TDS8000 Series Instruments and Modules...
Page 114 Removal and Installation Procedures Spring arm Large module chassis Module door Large module chassis Small module chassis Figure 4- - 38: Module slot door removal 4- - 60 CSA8000 & TDS8000 Series Instruments and Modules...
Page 115 Removal and Installation Procedures 7. Remove the module ejector levers: See Figures 4- -39 and 4- -40, pages 4- -62 and 4- -63. 8. Orient the small or large module chassis: Set the optical chassis so the module ejector levers are facing you. a.
Page 116 Removal and Installation Procedures T--10 screw (2) Brass washer (2) Dimple Spring tab Spring arm Ejector lever Ejector handle Stud post Slider standoff Pivot standoff Small module chassis Large module chassis Figure 4- - 39: Module ejector handles removal 4- - 62 CSA8000 &...
Page 117 Removal and Installation Procedures Spring arm position Large module chassis Figure 4- - 40: Spring arm position 4- - 63 CSA8000 & TDS8000 Series Instruments and Modules...
Page 118: Electrical Modules
NOTE. The 80E07, 80E08, 80E09, and 80E10 Electrical Remote Sampling modules need to have the entire module assembly returned to a Tektronix service center. CAUTION. Static discharge can damage any semiconductor in the instrument or sampling module.
Page 119: Exchanging The Electrical Sampling Module
If it is determined that a sampling module failure is caused by an internal part, module chassis you must exchange the complete sampling module chassis to Tektronix. The customer will keep the cover and attaching hardware (except for the 80E07, 80E08, 80E09, and 80E10).
Page 120: Optical Modules
Removal and Installation Procedures NOTE. For a 2 channel sampling module either channel can be specified in step b. For an 80E01 sampling module use only the lower numbered channel number such as CH1 or CH3. c. SYSTem:PROTect ON 5. Verify the serial number change: Pull down the Utility menu and then select System Properties, Sampling Modules.
Page 121: 80A00 And 82A00 Series Modules
Removal and Installation Procedures 80A00 and 82A00 Series 1. Orient the module: Set the module so that its left side is down on the work Modules surface and its right side is facing you. CAUTION. Static discharge can damage any semiconductor in the instrument or sampling module.
Page 122 Removal and Installation Procedures 3. Remove the cover: See Figure 4- -43, page 4- -67. a. Remove the six phillips screws that secure the cover to the chassis. b. Slide the chassis out toward the rear of the cover. 4. Remove the lock-down shaft and bracket: See Figure 4- -43, page 4- -67. a.
Page 123: Troubleshooting
Troubleshooting This section contains information and procedures designed to help you isolate faulty modules in the instrument. If a module needs to be replaced, follow the Removal and Installation Procedures located in this section. Check for Common Problems Use Table 4- -4 to quickly isolate possible failures. The table lists problems related to the instrument and possible causes.
Page 124 Troubleshooting Table 4- - 4: Failure symptoms and possible causes (cont.) Symptom Possible cause(s) H External monitor plugged in but not powered on. Flat LCD panel display blank H External monitor plugged in (look on external monitor for display). H Connect an external monitor cable to the SCOPE ONLY VGA OUT rear panel connector.
Page 125 Troubleshooting Table 4- - 4: Failure symptoms and possible causes (cont.) Symptom Possible cause(s) H Remove all electrical and optical modules from the Diagnostic errors instrument, then diagnostics again. If the instrument passes diagnostics, check for the electrical and optical module that is causing the failures.
Page 126: Equipment Required
Perform other mainframe diagnostics in this section. H If the measurement fails, there is a good chance the sampling module has failed. Return to Tektronix, Inc. for repair. 4- - 72 CSA8000 & TDS8000 Series Instruments and Modules...
Page 127: Isolating To A Board If Power Will Not Come Up
Troubleshooting Isolating to a Board if If the mains power is on, a red light (see Figure 4- -44 for its location) is visible Power Will Not Come Up through the right side of the instrument. Mains power-on and over current LEDs are near the center of the power supply.
Page 128: Checking The Power Supply Voltages
Troubleshooting Debug Debug power-on Debug VSB5 Figure 4- - 45: Location of debug pins Checking the Power Supply Voltages Power off the mainframe and remove any modules installed in it. Power on the instrument and connect the reference lead of a digital voltmeter to chassis ground, such as the top of the power supply.
Page 129: If The Instrument Will Not Boot
Troubleshooting Table 4- - 5: Power supply voltages Front power distribution board (P2) Voltage Rear power distribution board (P1) Voltage Pins A1, B1, C1 +3.3 V Pins A5, B5, C5 +12 V Pins A13, B13, C13 --15 V Pins A8, B8, C8 +5 V Pins A15, B15, C15 +15 V...
Page 130: Booting Into Windows
Troubleshooting Booting Into Windows If the instrument will not boot, press F8 to enter the start up menu, and boot to the command prompt. If you can boot to the command prompt, use the MSDOS Edit program to edit the autoexec.bat file to run the CMOS restore utility (see Update/Restore the NLX Board CMOS on page 4- -79).
Page 131: Firmware Updates
Firmware updates are easy to do. Simply install the firmware CD in your instrument and follow the displayed instructions or the instructions that accompa- ny the CD. If you want to order a firmware update, contact your Tektronix service center. 4- - 77 CSA8000 & TDS8000 Series Instruments and Modules...
Page 132: After Repair
Troubleshooting After Repair After removal and replacement of a module due to electrical failure, you must perform the adjustment or software update as indicated in Table 4- -6. Table 4- - 6: Action required for module replaced Module replaced Adjustment required Software update required Front panel assembly None...
Page 133: Update/Restore The Nlx Board Cmos
If the CMOS parameters become corrupted, restore the CMOS memory using the following procedures: CAUTION. Only install CMOS parameters from Tektronix. CMOS parameters from other manufactures may make your instrument inoperable. This procedure will allow the you to restore the CMOS settings with or without LAN (local area network).
Page 134 Troubleshooting 4- - 80 CSA8000 & TDS8000 Series Instruments and Modules...
Page 135: Repackaging Instructions
H Type and serial number of the instrument. H Reason for returning. H A complete description of the service required. Mark the address of the Tektronix Service Center and the return address on the shipping carton in two prominent locations. 4- 81...
Page 136 Repackaging Instructions 4- 82 CSA8000 & TDS8000 Series Instruments and Modules...
Page 137 Diagrams...
Page 139: Symbols
The tilde (~) preceding a signal name indicates that the signal performs its intended function when in the low state. Other standards used in the preparation of diagrams by Tektronix, Inc. are: H Tektronix Standard 062- -2476 Symbols and Practices for Schematic Drafting H ANSI Y14.159- -1971 Interconnection Diagrams...
Page 140: Csa8000 And Tds8000 Series Block Diagram
Diagrams CSA8000 and TDS8000 Series Block Diagram Figure 5- -1 shows the instrument interconnections between major circuit blocks. SVGA NLX board Floppy drive Riser USB x 2 adapter Processor Sound board Serial Touch Display Parallel panel panel Ethernet Inverter Display Mouse board adapter...
Page 141: Electrical Sampling Modules Block Diagram
Diagrams Electrical Sampling Modules Block Diagram Figure 5- -2 shows the interconnections between major circuit blocks of all electrical sampling modules. Channel 1 Six-diode User Input Traveling Wave Sampler TDR Step Generator (80E04 , 80E08, 80E10 only) Channel 2 (all except the 80E01 & 80E06) Six-diode User Input Traveling...
Page 142: Optical Sampling Modules Block Diagrams
Diagrams Optical Sampling Modules Block Diagrams Figures 5- -3 through 5- -24 show the interconnections between major circuit blocks of each optical sampling module. Average Power Monitor >20 GHz optical BW (50 Ω reverse-terminated Fiber Single-mode (B010481 and below) to absorb finite reflections from relay and filter Fiber Fiber...
Page 143 Diagrams >20 GHz optical BW (50 Ω Average Power Monitor reverse-terminated to Single-mode Single-mode version absorb finite reflections from relay and filter Optical Fusion Splice Fiber Fiber network. This reduces raw (B010481 and above) Optical Split conversion gain by 2x) O/E #1 User Optical Input (NRZ...
Page 144 Diagrams Average Power Monitor Single-mode >30 GHz optical BW (not reverse-terminated) Optical Fusion Splice Fiber Fiber (B010403 and above) O/E #1 User Optical RIFOCS (male) Input (NRZ DATA) Fiber (B010403 and below) Lower noise sampler; tuneable to achieve OC192 Reference Receiver Coaxial only (unfiltered path: >20 GHz or OC- - 192 Reference Receiver) RF Switch Two-diode...
Page 145 Diagrams >30 GHz optical BW (50 Ω Average Power Monitor reverse-terminated to Single-mode version Single-mode absorb finite reflections from relay and filter Optical Fusion Splice Fiber Fiber Fiber Fiber network. This reduces raw (B010403 and above) Optical Split conversion gain by 2x.) O/E #1 User Optical RIFOCS (male)
Page 146 Diagrams Average Power Monitor Built-in OC48 Reference Fiber (B010283 Single-mode Receiver response in the and below) O/E and amplified Fiber Fiber conversion gain O/E #1 User Optical Optical Fusion Splice RIFOCS (male) Input (NRZ (B010283 and above) DATA) Filter to achieve system FC Reference Receiver Lower noise sampler, tuneable RF Switch RF Switch...
Page 147 Diagrams Optical Fusion Splice Built-in OC 48 Reference Average Power Monitor Multi-mode (B010283 and above) Receiver response in the O/E and amplified conversion gain Multi-mode O/E #1 User Optical Fiber Input (NRZ (B010283 and below) DATA) RIFOCS (male) 10% Out 90% Out Electrical 10/90 splitter Filter to achieve system OC 12 Reference Receiver...
Page 148 Diagrams Average Power Monitor >30 GHz optical BW Single-mode (not reverse-terminated) Optical Fusion Splice Fiber Fiber (B010170 and above) O/E #1 User Optical RIFOCS (male) Input (NRZ DATA) Fiber Lower noise sampler, tuneable (B010170 and below) to achieve OC 192 or 10.66 Gb Reference Receiver rates without filter RF Switch...
Page 149 Diagrams Single- >30 GHz optical BW (50 Ω Average Power Monitor Single-mode Optical Fusion Splice mode reverse-terminated to version (B010170 and above) absorb finite reflections from relay and filter Fiber Optical Fusion Splice Fiber Fiber Fiber network. This reduces raw (B010170 and above) Optical Split conversion gain by 2x.)
Page 150 Diagrams RIFOCS >40 GHz optical BW Average Power Monitor interchange (reverse-terminated) Single-mode able (female) Fiber Fiber Optical Fusion Splice O/E #1 User Optical RIFOCS (male) Input (NRZ DATA) Lower noise sampler; also tuneable to achieve OC 192 Reference Receiver without filter Coaxial only (unfiltered path: >40 GHz or OC 192 various Reference Receiver rates) Two-diode...
Page 151 Diagrams RIFOCS Average Power Monitor >30 GHz optical BW interchange Single-mode (not reverse-terminated) able (female) Fiber Fiber Optical Fusion Splice O/E #1 User Optical RIFOCS (male) Input (NRZ DATA) Lower noise sampler; tuneable to achieve OC 192 or 10.66 Gb Reference Receiver rates without filter RF Switch Coaxial only (unfiltered path: >30 GHz or...
Page 152 Diagrams Optical signals/functions Female-to-male coaxial connector (left to right) Female-to-female fiber connector Electrical signals/functions Male optical ferrules Length of fiber RIFOCS Average interchangeable Power Built- - in OC48 Reference Receiver (female) Monitor Multi- - mode response in the O/E and amplified Optical Fusion Fiber Fiber...
Page 153 Diagrams Optical signals/functions Female-to-male coaxial connector (left to right) Female-to-female fiber connector Electrical signals/functions Male optical ferrules Length of fiber RIFOCS Average interchangeable Built-in OC 48 Reference Receiver Power (female) response in the O/E and amplified Monitor Multi-mode Multi-mode Optical Fusion conversion gain Fiber Fiber...
Page 154 Diagrams Optical signals/functions Female-to-male coaxial connector (left to right) Female-to-female fiber connector Male optical ferrules Length of fiber Electrical signals/functions Average RIFOCS Power interchangeable Monitor >9.0 GHz optical BW (not (female) Multi-mode reverse terminated) Optical Fusion Fiber Fiber Splice O/E #1 User RIFOCS (male) Coaxial only (unfiltered path:...
Page 155 Diagrams Optical signals/functions Female-to-male coaxial connector (left to right) Female-to-female fiber connector Male optical ferrules Length of fiber Electrical signals/functions RIFOCS Average interchangeable Power (female) Monitor >9.0 GHz optical BW Multi-mode Fiber O/E #1 RIFOCS (male) User Optical Input (NRZ DATA) 90/10 Electrical Splitter...
Page 156 Diagrams Optical signals/functions Female-to-male coaxial connector (left to right) Female-to-female fiber connector) Electrical signals/functions Male optical ferrules Length of fiber Average Power RIFOCS Monitor interchangeable (female) >30 GHz optical BW (not Single-mode Optical Fusion reverse-terminated) Fiber Fiber Splice O/E #1 User Optical RF Switch RIFOCS (male)
Page 157 Diagrams Optical signals/functions Female-to-male coaxial connector (left to right) Female-to-female fiber connector) Electrical signals/functions Male optical ferrules Length of fiber RIFOCS Average interchangeable Power Single-mode version Single-mode (female) Monitor Optical Fusion Optical Fusion Fiber Fiber Optical Splitter Fiber Fiber Splice Splice O/E #1 RIFOCS (male)
Page 158 Diagrams Optical signals/functions Female-to-male coaxial connector (left to right) Female-to-female fiber connector) Male optical ferrules Length of fiber Electrical signals/functions RIFOCS interchangeable (female) Single-mode Optical Optical Fusion Optical Fusion Fiber Fiber Fiber Fiber Fusion Splice Splice 1310 nm Splice Isolator: 1310 nm User Optical RIFOCS (male) Optical Fusion...
Page 159 Diagrams Optical signals/functions Female-to-male coaxial connector (left to right) Female-to-female fiber connector Male optical ferrules Length of fiber Electrical signals/functions Average RIFOCS Power interchangeable Monitor >30.0 GHz optical BW (not (female) Single-mode reverse terminated) Optical Fusion Fiber Fiber Splice O/E #1 User RIFOCS (male) Coaxial only (unfiltered path:...
Page 160 Diagrams Optical signals/functions Female-to-male coaxial connector (left to right) Female-to-female fiber connector) Electrical signals/functions Male optical ferrules Length of fiber RIFOCS Average interchangeable Power Single-mode version Single-mode (female) Monitor Fiber Fiber Optical Splitter Fiber Fiber O/E #1 RIFOCS (male) User >30 GHz optical BW (50 Ω...
Page 161 Diagrams Optical signals/functions Female-to-male coaxial connector (left to right) Female-to-female fiber connector) Electrical signals/functions Male optical ferrules Length of fiber RIFOCS Average interchangeable Power Single-mode version Single-mode (female) Monitor Optical Fusion Optical Fusion Fiber Fiber Optical Splitter Fiber Fiber Splice Splice O/E #1 RIFOCS (male)
Page 162 Diagrams Optical signals/functions Female-to-male coaxial connector (left to right) Female-to-female fiber connector) Electrical signals/functions Male optical ferrules Length of fiber RIFOCS Average interchangeable Power Single-mode version Single-mode (female) Monitor Optical Fusion Optical Fusion Fiber Fiber Optical Splitter Fiber Fiber Splice Splice O/E #1 RIFOCS (male)
Page 163 Diagrams Optical signals/functions Female-to-male coaxial connector (left to right) Female-to-female fiber connector Electrical signals/functions Male optical ferrules Length of fiber RIFOCS Average interchangeable Built-in 10Gbase-R Reference Power (female) Receiver response in the O/E and Monitor Multi-mode Multi-mode Optical Fusion amplified conversion gain Fiber Fiber Splice...
Page 164: 80A01 Block Diagram
Diagrams 80A01 Block Diagram Figure 5- -25 show the interconnections between major circuit blocks of the 80A01 module. Power LED Driver RF Amplifier Input Output Curtain Board Figure 5- 25: 80A01 block diagram 5- 26 CSA8000 & TDS8000 Series Instruments and Modules...
Page 165 Diagrams 80A02 Block Diagram Figure 5- -26 shows the interconnections between major circuit blocks of the 80A02 module. +15 V oscilloscope +5 V To DUT Relay Probe pressure sense input RF relay engaging command detecting circuit Automated test control login Figure 5- 26: 80A02 block diagram 5- 27 CSA8000 &...
Page 166 Diagrams 80A05 Block Diagram Figure 5- -27 shows the interconnections between major circuit blocks of the 80A05 module. 50/50 Splitter DATA IN + Buffer DATA OUT + 50/50 Splitter DATA IN - - DATA OUT - - 2.7 Gb/s to 50 Mb/s to 12.6 Gb/s 2.7 Gb/s...
Page 167 Diagrams 80A06 Block Diagram Figure 5- -28 shows the interconnections between major circuit blocks of the 80A06 module. Divide by 2, 4, 8 CLOCK IN Buffer Configuration CLOCK OUT Programmable Divider TRIGGER OUT Figure 5- 28: 80A06 block diagram 5- 29 CSA8000 &...
Page 168 Diagrams 82A04 Block Diagram Figure 5- -29 shows the interconnections between major circuit blocks of the 82A04 module. Channel 1 Six-diode Traveling Wave Sampler User Input Channel 2 Six-diode Traveling Wave Sampler Figure 5- 29: 82A04 block diagram 5- 30 CSA8000 &...
Page 169 Replaceable Parts...
Page 171 This chapter contains a list of the replaceable modules for the instrument. Use this list to identify and order replacement parts. Parts Ordering Information Replacement parts are available through your local Tektronix field office or representative. Changes to Tektronix instruments are sometimes made to accommodate improved components as they become available and to give you the benefit of the latest circuit improvements.
Page 172 Figure & Index Number Items in this section are referenced by component number. 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 at which the part was discontinued.
Page 173 Replaceable Parts List Replaceable Parts List Fig. & index Tektronix part Serial number Serial number number number effective discont’d Name & description 1- - 1 016- - 1441- - 00 POUCH, PLASTIC: PLASTIC POUCH - - 2 211- - 1050- - 00 SCREW,MACHINE:6- - 32 X 0.312 L,PNH,STL CAD,T15...
Page 174 Replaceable Parts List Figure 6- 1: External parts 6- 4 CSA8000 & TDS8000 Series Instruments and Modules...
Page 175 Replaceable Parts List Replaceable Parts List Fig. & index Tektronix part Serial number Serial number number number effective discont’d Name & description 2- - 1 211- - 1050- - 00 SCREW,MACHINE:6- - 32 X 0.312 L,PNH,STL CAD,T15 - - 2...
Page 176 Replaceable Parts List Replaceable Parts List (cont.) Fig. & index Tektronix part Serial number Serial number number number effective discont’d Name & description 679- - 4479- - 01 B010100 B020362 CKT BD SUBASSY:DISPLAY ADAPTER, W/HARDWARE (TDS8000B) 679- - 5244- - 00...
Page 177 Replaceable Parts List Figure 6- 2: Front panel and drives 6- 7 CSA8000 & TDS8000 Series Instruments and Modules...
Page 178 Replaceable Parts List Replaceable Parts List Fig. & index Tektronix part Serial number Serial number number number effective discont’d Name & description 3- - 1 119- - 6511- - 00 IC,PROCESSOR:CMOS,MICROPROCESSOR,CELERON, 566 MHZ,66MHZ BUS,SOCKET 370 COMPATIB - - 1A 119- - 6459- - 00 FAN,CHIP COOLER:12VDC,80MA,4400RPM,30DBA,64MM X 51MM X 31MM,W/HEATSINK &...
Page 179 Replaceable Parts List Replaceable Parts List (cont.) Fig. & index Tektronix part Serial number Serial number number number effective discont’d Name & description - - 23 407- - 4880- - 01 BRACKET,CD- - ROM:STEEL - - 24 174- - 4231- - 00...
Page 180 Replaceable Parts List Figure 6- 3: Power supply 6- 10 CSA8000 & TDS8000 Series Instruments and Modules...
Page 181 Replaceable Parts List Replaceable Parts List Fig. & index Tektronix part Serial number Serial number number number effective discont’d Name & description 4- - 1 441- - 2176- - 00 CHASSIS ASSY:LARGE MODULE,0.050 AL - - 2 211- - 1050- - 00 SCREW,MACHINE:6- - 32 X 0.312 L,PNH,STL CAD PLT,T15...
Page 182 Replaceable Parts List Figure 6- 4: Acquisition 6- 12 CSA8000 & TDS8000 Series Instruments and Modules...
Page 183 Replaceable Parts List Replaceable Parts List Fig. & index Tektronix part Serial number Serial number number number effective discont’d Name & description 5- - 1 174- - 4348- - 00 CA ASSY, RF:COAXIAL,50 OHM,RG- - 316,12.00L,MCX RTANG PLUG 50 OHM TO MCX RTANG PLUG...
Page 184 Replaceable Parts List Figure 6- 5: 8000 and 8000B coaxial cables 6- 14 CSA8000 & TDS8000 Series Instruments and Modules...
Page 185 Replaceable Parts List Replaceable Parts List Fig. & index Tektronix part Serial number Serial number number number effective discont’d Name & description 6- - 1 174- - 4348- - 00 CA ASSY, RF:COAXIAL,50 OHM,RG- - 316,12.00L,MCX RTANG PLUG 50 OHM TO MCX RTANG PLUG...
Page 186 Replaceable Parts List Figure 6- 6: 8200 coaxial cables 6- 16 CSA8000 & TDS8000 Series Instruments and Modules...
Page 187 Replaceable Parts List Replaceable Parts List Fig. & Index Tektronix part Serial number Serial number number number effective discont’d Name & description 7- - 1 211- - 0088- - 00 SCREW,MACHINE:2- - 56 X 0.281,FLH,82 DEG,STL BK OXD,POZ - - 2...
Page 188 Replaceable Parts List Figure 6- 7: 80E01, 80E02, 80E03, and 80E04 modules 6- 18 CSA8000 & TDS8000 Series Instruments and Modules...
Page 189 Replaceable Parts List Replaceable Parts List Fig. & index Tektronix part Serial number Serial number number number effective discont’d Name & description 8- - 1 200- - 4568- - 00 COVER:OPTICAL MODULE,0.050 AL - - 2 335- - 0370- - 00 MARKER,IDENT:ANTI- - STATIC LABEL,0.005 POLY...
Page 190 Replaceable Parts List Replaceable Parts List Fig. & index Tektronix part Serial number Serial number number number effective discont’d Name & description 9- - 1 380- - 1159- - 00 HOUSING:SAMPLING HEAD,ALUMINUM,80E06, SAFETY CONTROLLED - - 2 211- - 0087- - 00 SCREW,MACHINE:2- - 56 X 0.188,FLH,82 DEG SST,POZ...
Page 191 Replaceable Parts List Replaceable Parts List Fig. & index Tektronix part Serial number Serial number number number effective discont’d Name & description 10- - 1 011- - 0176- - 00 TERM, RF; SMA, PLUG, STR, SST, W/BEAD CHAIN 10- - 2 011- - 0157- - 00 ADAPTER,RF,PRCN;...
Page 192 Replaceable Parts List Replaceable Parts List Fig. & index Tektronix part Serial number Serial number number number effective discont’d Name & description 11- - 1 200- - 4568- - 00 COVER:OPTICAL MODULE,0.050 AL - - 2 335- - 0370- - 00 MARKER,IDENT:ANTI- - STATIC LABEL,0.005 POLY...
Page 193 Replaceable Parts List Replaceable Parts List Fig. & Index Tektronix part Serial number Serial number number number effective discont’d Name & description 12- - 1 384- - 1838- - 00 SHAFT:SCREW LOCKDOWN,303 SST,R05HDSCR - - 2 214- - 4081- - 00 LOCKDOWN:SCREW MOUNT,0.080 AL...
Page 194 Replaceable Parts List Replaceable Parts List Fig. & index Tektronix part Serial number Serial number number number effective discont’d Name & description 13- - 1 211- - 0088- - 00 SCREW,MACHINE:2- - 56 X 0.281,FLH,82 DEG,STL BK OXD,POZ - - 2...
Page 195 Replaceable Parts List Replaceable Parts List Fig. & index Tektronix part Serial number Serial number number number effective discont’d Name & description 14- - 1 211- - 0088- - 00 SCREW,MACHINE:2- - 56 X 0.281,FLH,82 DEG,STL BK OXD,POZ - - 2...
Page 196 Replaceable Parts List Figure 6- 14: 80A06 module 6- 26 CSA8000 & TDS8000 Series Instruments and Modules...
Page 197 Replaceable Parts List Replaceable Parts List Tektronix Serial number Serial number part number effective discont’d Name & description MAINFRAME STANDARD ACCESSORIES 161- - 0104- - 05 CA ASSY,PWR:3,1.0MM SQ,250V/10A,2.5 M (OPTION A3 - - AUSTRALIAN) 161- - 0104- - 06 CA ASSY,PWR:3,1.0MM SQ,250V/10A,2.5 M...
Page 198 - - - - - - - - - - - - - - - - - - PROBE: P6209, 4.0 GHz ACTIVE FET PROBE - - - - - - - - - - - - - - - - - - EOS/ESD PROTECTION MODULE:ELECTRICAL STATIC ISOLATION OF TEKTRONIX ELECTRICAL SAMPLING MODULES 80E0X STANDARD ACCESSORIES...

This manual is also suitable for:

Tds8000 seriesCsa8000Csa8000b Csa8200Tds8000Tds8000b ... Show all

Tektronix CSA8000 Series Service Manual

Operating Information

Adjustment Procedures

Maintenance

Quick Links

Need help?

Questions and answers

Related Manuals for Tektronix CSA8000 Series

Summary of Contents for Tektronix CSA8000 Series

This manual is also suitable for:

Table of Contents