Agilent Technologies 1680/90-Series Logic Analyzer
Service Guide
The Agilent 1680/90-Series Logic Analyzer-At a Glance
Features
Service Strategy
In This Book
The Agilent 1680/90-Series Logic Analyzer-At a Glance
Contents
3 Testing Performance
To make the test connectors
To test the threshold accuracy
Contents
To set up the logic analyzer for the state mode tests
4 Calibrating and Adjusting
Troubleshooting the Agilent 1690A,AD-series
Contents
5 Troubleshooting
Troubleshooting the Agilent 1680A,AD-series
Agilent 1680A,AD-series Logic Analyzer Theory
Contents
1690A,AD-series disassembly/assembly
8 Theory of Operation
General Information
Accessories Available
Accessories
Specifications
Characteristics
Setup/Hold Time
Auxiliary Power
Probes
Operating Environment for indoor use only
Dimensions
1680A,AD-Series 1690A,AD-Series
Chapter 1 General Information
Equipment
Recommended Test Equipment
Chapter 1 General Information
Equipment Required
Preparing for Use
To inspect the logic analyzer
Power Requirements
Operating Environment
Storage
2 Turn on the power switch located on the front panel
To apply power
To connect the 1690A,AD-series logic analyzer to a host PC
1 Connect the power cord to the instrument and to the power source
To clean the logic analyzer
To start the user interface
To test the logic analyzer
Testing Performance
Performance Test Record
The Logic Analyzer Interface
Test Strategy
Test Interval
To make the test connectors
a Solder a jumper wire to all pins on one side of the Berg strip
Set up the test equipment
To set up the test equipment and the logic analyzer
Set up the 1680A,AD-series logic analyzer
To set up the test equipment and the logic analyzer
Set up the 1690A,AD-series logic analyzer
To perform the logic analyzer self-tests
Chapter 3 Testing Performance
4 Select the tests you want to run 5 Click Start
Chapter 3 Testing Performance
To set up the test equipment and the logic analyzer
3 Set the reporting level
6 Click Close to close the Analysis System Self Tests dialog
To reset the self-test options, click Reset
Chapter 3 Testing Performance
To set up the test equipment and the logic analyzer
To test the threshold accuracy
Set up the equipment
Connect and configure the logic analyzer
Test the ECL Threshold
Test the 0 V User Threshold
Test the next pod
To set up the logic analyzer for the state mode tests
To set up the logic analyzer for the state mode tests
3 Configure the trigger according to your logic analyzer
select the M1 marker c In the Position box, select Value
i Click OK to close the Value dialog
To test the single-clock, single-edge, state acquisition
To test the single-clock, single-edge, state acquisition
Set up the equipment
Connect and configure the logic analyzer
Connect the 1680/81/90/91A,AD Logic Analyzer to the Pulse Generator
Chapter 3 Testing Performance
Testing
To test the single-clock, single-edge, state acquisition
Pod 1 clock/data channel Clk
1682A,AD or 1692A,AD only
Verify the test signal
Check the setup/hold combination
3 Select the logic analyzer sample positions
d Click OK to close the Sample Positions dialog
a In the Analyzer Setup dialog, click on the Sampling tab
The following clock configurations will be used in steps 4, 5, and
Chapter 3 Testing Performance
e Click OK to close the Analyzer Setup dialog 5 Verify the test data
then select Enter to display the setup time ∆ Time1-2
e Click OK to close the Analyzer Setup dialog 10 Verify the test data
Test the next channels 1680/81A,AD and 1690/91A,AD
Chapter 3 Testing Performance
To test the single-clock, single-edge, state acquisition
2 Increase the pulse generator channel 2 width to 3.000 ns
To test the multiple-clock state acquisition
Set up the equipment
1 If you have not already done so, do the following procedures
Channel 2 Output
Connect and configure the logic analyzer
1680A, AD or 1690A, AD only
Connect to 8133A
Clock/data channel for Pod 1, 2, 3, and 4 Clk 1, Clk 2, Clk 3, Clk
1682A, AD or 1692A, AD only
Verify the test signal
Check the setup/hold with single clock edges, multiple clocks
3 Select the clocks to be tested
d Connect all clock channels to the pulse generator channel 1 output
Page
Test the next channels 1680/81A, AD and 1690/91A, AD
To test the single-clock, multiple-edge, state acquisition
Set up the equipment
To test the single-clock, multiple-edge, state acquisition
Connect to 8133A
Connect and configure the logic analyzer
Testing
Connect the 1680/81/90/91A,AD Logic Analyzer to the Pulse Generator
1Pod 1, channel 3 Pod 2, channel 3 Pod 3, channel 3 Pod 4, channel
Verify the test signal
Check the setup/hold with single clock, multiple clock edges
Page
The following clock configurations will be used in steps 3, 4, and
The test passes when the logic analyzer finds all occurrences of the patterns programmed into the Markers. If the test passes, record a Pass in the performance test record under single-clock single-edge next to the clock and edge being tested
Chapter 3 Testing Performance
Test the next channels 1680/81A,AD and 1690/91A,AD
To test the single-clock, multiple-edge, state acquisition
To test the time interval accuracy
Set up the equipment
To test the time interval accuracy
3 Set up the function generator according to the following table
Connect and configure the logic analyzer
d Select an Acquisition Depth of 256K
Acquire and verify the test data
f Click OK to close the Value dialog
Performance Test Record
Performance Test Record
Chapter 3 Testing Performance
Settings
Performance Test Record continued
Chapter 3 Testing Performance
Settings
Performance Test Record
Performance Test Record continued
Chapter 3 Testing Performance
Settings
Performance Test Record
Performance Test Record
Chapter 3 Testing Performance
Calibrating and Adjusting
Chapter 4 Calibrating and Adjusting
Logic analyzer calibration
Troubleshooting
b Slide the fan guard onto the chassis over the fans
To install the fan guard
2 Install the fan guard onto the chassis
a Position the chassis so the handle side is up
c Install the optional screws as shown
To use the flowcharts
Troubleshooting the Agilent 1680A,AD-series
Chapter 5 Troubleshooting
Troubleshooting the Agilent 1680A,AD-series
Troubleshooting the Agilent 1680A,AD-series
Chapter 5 Troubleshooting
Troubleshooting the Agilent 1680A,AD-series
Chapter 5 Troubleshooting
Troubleshooting the Agilent 1680A,AD-series
Chapter 5 Troubleshooting
Troubleshooting the Agilent 1680A,AD-series
Chapter 5 Troubleshooting
Troubleshooting the Agilent 1680A,AD-series
Chapter 5 Troubleshooting
Troubleshooting the Agilent 1680A,AD-series
Chapter 5 Troubleshooting
To test the power supply voltages
To check the power-up tests
5 Using DVM, measure the power supply voltages
To test the LCD display signals
To test disk drive voltages
6 Troubleshoot a flexible disk drive. a Apply power to the instrument
To verify the CD-ROM
To recover the operating system
To reinstall the operating system
Problems running the Application Software
Problems with the Operating System
Troubleshooting the Agilent 1690A,AD-series
Chapter 5 Troubleshooting
Troubleshooting the Agilent 1690A,AD-series
Troubleshooting the Agilent 1690A,AD-series
Chapter 5 Troubleshooting
Troubleshooting the Agilent 1690A,AD-series
Chapter 5 Troubleshooting
Troubleshooting the Agilent 1690A,AD-series
Chapter 5 Troubleshooting
Task Manager
To verify connectivity
To test the power supply voltages
Device Manager
a Click on the Start button in the task bar, then select Shut Down
Troubleshooting the Agilent 1690A,AD-series
Chapter 5 Troubleshooting
General Troubleshooting
General Troubleshooting
To run the self-tests
Chapter 5 Troubleshooting
7 Select the tests you want to run 8 Click Start
Chapter 5 Troubleshooting
General Troubleshooting
6 Set the reporting level
9 Click Close to close the Analysis System Self Tests dialog
Normal Operation
Acquisition board status LEDs
Green LEDs
Red LED
1 Turn on the equipment and the logic analyzer
To test the logic analyzer probe cables
COMP Disabled LED Off
COMP Disabled LED Off
5 Configure the pod under test
Return to Troubleshooting flowchart
To check the BNC Trigger input/output signals
analyzer Trigger In BNC
Recommended
To test the auxiliary power
Replacing Assemblies
1680A,AD-series disassembly/assembly
Prepare the instrument for disassembly
To remove the chassis from the sleeve
To remove the acquisition board
Steps to remove probe shroud from acquisition board
To remove the power supply
To remove the hard disk drive
To remove the CD-ROM drive assembly
To remove the flexible disk drive
5 Reverse this procedure to install the flexible disk drive
PCI IEEE 1394 board IEEE 1394 cable PCI display board video cable
To remove the PCI boards
PCI IEEE 1394 board slot 2, closest to the CD-ROM drive
PCI display board slot slot covers slot 3 and slot
To remove the motherboard
power cable from connector CN1 CPU fan cable
audio cable from connector CD
Transfer the I/O panel to the replacement board
5 Install 6 hex studs onto the motherboard ports and tighten
To remove the front panel assembly
on/off cable accessed from the bottom of the chassis keyboard cable
inverter cable
6 Reverse this procedure to install the front panel assembly
Remove the LCD display
To disassemble the front panel assembly
Remove the on/off switch
Remove the front panel circuit board
To remove the distribution board
To remove the inverter board
To remove the fans
To remove the cable tray
To remove the chassis from the sleeve
1690A,AD-series disassembly/assembly
Prepare the instrument for disassembly
1690A,AD-series disassembly/assembly
To remove the fascia
4 Remove the fascia away from the front panel
To remove the acquisition board
1 Do the following procedures
To remove the power supply
To remove the deck
To remove the distribution board
To remove the fans
To remove the line filter
To remove the front panel and front frame
Chapter 6 Replacing Assemblies
1690A,AD-series disassembly/assembly
Replaceable Parts
Direct mail order system
Parts listed
Replaceable Parts Ordering
Parts not listed
Exchange Assemblies
Replaceable Parts List
Exploded View
Chapter 7 Replaceable Parts
Exploded view of the Agilent 1680A,AD-series logic analyzer
Ref. Des
Agilent 1680A,AD-Series Replaceable Parts
Chapter 7 Replaceable Parts
Replaceable Parts
Chapter 7 Replaceable Parts
Replacement Pod Grounds - 5” Qty
CD-ROM drive assembly to chassis, sleeve to
M4.0 x 0.70 8 mm T20 PH power supply to
Description
Chapter 7 Replaceable Parts
Replaceable Parts
Ref. Des
Replaceable Parts
assembly, IEEE 1394 cable to chassis
Power Supply Cable 14- and 10- pin power supply
Chapter 7 Replaceable Parts
Ref. Des
Front Panel Assembly
Chapter 7 Replaceable Parts
Replaceable Parts
Description
Chapter 7 Replaceable Parts
Replaceable Parts
Ref. Des
Exploded View
Chapter 7 Replaceable Parts
Exploded view of the Agilent 1690A,AD-series logic analyzer
Ref. Des
Agilent 1690A,AD-Series Replaceable Parts
Chapter 7 Replaceable Parts
Replaceable Parts
Replaceable Parts
Fascia Assembly includes the following
Hex Nut acquisition board BNC connectors to
Chapter 7 Replaceable Parts
Ref. Des
Power Supply On/Off Cable power supply to
Chapter 7 Replaceable Parts
Replaceable Parts
Cable
Power Cables and Plug Configurations
Chapter 7 Replaceable Parts
Plug Type
Plug Description
Chapter 7 Replaceable Parts
Plug Type
Cable
Theory of Operation
Block-Level Theory
Agilent 1680A,AD-Series Logic Analyzer Block Diagram
Chapter 8 Theory of Operation
Agilent 1680A,AD-series Logic Analyzer Theory
Agilent 1680A,AD-series Logic Analyzer Theory
Power Supply
Acquisition Board
Logic Acquisition Board Block Diagram
Comparators. Two 9-channel comparators interpret the incoming data and clock signals as either high or low, depending on where the user-programmable threshold is set. The threshold voltage of each pod is individually programmed, and the voltage selected applies to the clock channel as well as the data channels of each pod
A field programmable gate array FPGA bridges the 1394 interface to the rest of the acquisition board components. It also serves as the memory controller for the acquisition memory
Front Panel Board
Power Distribution Board
Acquisition Board
Agilent 1690A,AD-series Logic Analyzer Theory
Power Supply
Power Distribution Board
Power-up Self-Tests 1680A,AD-series
Self-Tests Descriptions
Connectivity Tests 1690A,AD-series
Acquisition Board Self Tests
Logic Analyzer Self-Tests
Self-Tests Descriptions
Chapter 8 Theory of Operation
configured to take a simple measurement. Test data is then created at the comparators and an acquisition taken. The resulting data is then downloaded and compared with known values
Self-Tests Descriptions
Chapter 8 Theory of Operation
Manual Part Number
Warranty
Safety Notices
Notices