Print Date: March
Agilent 35670A Service Guide
Agilent Part Number Printed in Malaysia
The Agilent 35670A at a Glance Front Panel
Agilent 35670A Front Panel
The Agilent 35670A at a Glance Rear Panel
Plot/Print menu
Agilent 35670A Rear Panel
Plot/Print menus
ENVIRONMENTAL CONDITIONS
BEFORE APPLYING POWER
Saftey Summary
GENERAL
DO NOT REMOVE THE INSTRUMENT COVER
FUSES
DO NOT OPERATE IN AN EXPLOSIVE ATMOSPHERE
Both direct and alternating current
Safety Symbols
Warning, risk of electric shock
Alternating current
Agilent 35670A
Accessories
Supplied Accessories
Available Accessories
In This Book
1Specifications
Table of Contents
2Preparing the Analyzer for Use
3Verifying Specifications
To set up the tach function test
To set up the anti-aliasfilter test
To set up the input coupling test
To set up the harmonic distortion test
4Troubleshooting the Analyzer
6Replacing Assemblies
5Adjusting the Analyzer
Instrument Covers and Handles
7Replaceable Parts
Assembly Covers and Brackets Front Panel Parts
Ordering Information Assemblies Cables
Overall Instrument Description A1 Input A2 Input
8Circuit Descriptions
A98 Power Supply A99 Motherboard A100 Disk Drive
Option UK4 Microphone Adapter and Power Supply
11Backdating 12Quick Reference Index
9Voltages and Signals
10Internal Test Descriptions
Specifications
Abbreviations
Specifications
Frequency
Frequency
Agilent 35670A
Single Channel Amplitude
Single Channel Amplitude
Specifications
FFT Dynamic Range
Window Parameters
Single Channel Phase
Input Noise
Agilent 35670A
Cross Channel Phase
Cross Channel Amplitude
Specifications
Input
Agilent 35670A
Time Domain
Trigger
Tachometer
Agilent 35670A
Source Output
Digital Interfaces
General Specifications
Max Order⋅ Max RPM
Order Tracking — Option 1D0
Arbitrary Waveform Source—Option1D4
Swept Sine Measurements —Option1D2
n = 1, 3 or
Real Time Octave Analysis — Option 1D1
f i+1
Instrument
Recommended Test Equipment
Critical Specifications
Recommended Test Equipment
Suggested Assembly for Series Resistor
Schematic and Parts List for Notch Filter
Recommended Model
Critical Specifications
Additional Recommended Test Equipment
Instrument
Preparing the Analyzer for Use
Preparing the Analyzer for Use
DC Power Requirements
AC Power Requirements
Preparing the Analyzer for Use
DC Power Cable and Grounding Requirements
AC Power Cable and Grounding Requirements
Preparing the Analyzer for Use
subject the operator to lethal voltages
To do the incoming inspection
•Set the analyzer’s power switch to on
other excessive moisture
To install the analyzer
To connect the analyzer to a dc power source
•Turn on the dc power source
To change the fuses
Cable Description
To connect the analyzer to a serial device
To connect the analyzer to a parallel device
Part Number
To connect the analyzer to an GPIB device
EXT MON ON OFF
To connect the analyzer to an external monitor
•Set the analyzer’s power switch to on l
•Set the power switch to off O
To connect the optional keyboard
Technologies keyboards
Agilent 35670A
To connect the microphone adapter
Standard 2 channel Agilent 35670A
Optional 4 channel
•Remove the power cord
To clean the screen
To store the analyzer
•Set the power switch to off O
To transport the analyzer
If the analyzer will not power up
Check that the cable connections are not loose
Verifying Specifications
Overview
Verifying Specifications
Recommended Test Equipment
Features of the Program
Test Duration
Calibration Cycle
Measurement Uncertainty
Operation Verification and Performance Tests
Program Controlled Test Equipment
Performance Tests
Operation Verification Tests
Performance Test
Specifications and Performance Tests
Specification
•‘’To run the program in manual mode’’
To load the program
•‘’To run the program in semiautomated mode’’
•‘’To run the program without a printer’’
To run the program in semiautomated mode
• Press the following keys to start the test
•Press the following keys to start the test
To run the program without a printer
•Press the following keys
in the selected test record
To run the program in manual mode
Agilent 35670A
To set up the self test
Verifying Specifications
Performance Test and Operation Verification
Verifying Specifications
To set up the dc offset test
1 2 ch
1 4 ch
1 2 ch
To set up the noise test
Verifying Specifications
To set up the noise test
1 4 ch
To set up the spurious signals test
1 2 ch
1 4 ch
To set up the amplitude accuracy test
1 2 ch
1 4 ch
To set up the flatness test
1 2 ch
1 4 ch
To set up the amplitude linearity test
1 2 ch
1 4 ch
To set up the A-weightfilter test
1 2 ch
1 4 ch
To set up the channel match test
1 2 ch
1 2 ch
To set up the frequency accuracy test
Verifying Specifications
To set up the frequency accuracy test
1 4 ch
To set up the anti-aliasfilter test
1 2 ch
1 4 ch
To set up the input coupling test
1 2 ch
1 4 ch
To set up the harmonic distortion test
1 2 ch
Verifying Specifications
2 ch
2A 2 ch
4 ch
Agilent 35670A
Verifying Specifications
To set up the harmonic distortion test
4 ch
1 4 ch
To set up the intermodulation distortion test
1 2 ch
To set up the intermodulation distortion test
1A 2 ch
1A 4 ch
Verifying Specifications
1 2 ch
To set up the cross talk test
2 2 ch
1 4 ch
3 2 ch
2 4 ch
To set up the cross talk test
To set up the cross talk test
3 4 ch
4 4 ch
Verifying Specifications
Agilent 35670A
5 4 ch
To set up the cross talk test
1 4 ch
To set up the single channel phase accuracy test
1 2 ch
1 4 ch
To set up the external trigger test
1 2 ch
1A 4 ch
Verifying Specifications
To set up the external trigger test
1A 2 ch
1 4 ch
To set up the tach function test
1 2 ch
1A 4 ch
Verifying Specifications
To set up the tach function test
1A 2 ch
1 4 ch
To set up the input resistance test
Verifying Specifications
To set up the input resistance test
3 4 ch
Verifying Specifications
To set up the input resistance test
2 4 ch
2 2 ch
To set up the ICP supply test
1 2 ch
3 2 ch
4 2 ch
Verifying Specifications
To set up the ICP supply test
4 4 ch
6 4 ch
To set up the ICP supply test
3 4 ch
To set up the ICP supply test
7 4 ch
8 4 ch
Verifying Specifications
1 4 ch
To set up the source amplitude accuracy test
1 2 ch
2 2 ch
To set up the source output resistance test
1 2 ch
1 4 ch
Verifying Specifications
To set up the source output resistance test
3 2 ch
1 4 ch
To set up the source dc offset test
1 2 ch
1 2 ch
To set up the source flatness test
Verifying Specifications
To set up the source flatness test
1 4 ch
To set up the source distortion test
1 2 ch
ITM_35670A Main Menu Descriptions
Start Testing Menu Descriptions
Test Configuration Menu Descriptions
Equipment Configuration Menu Descriptions
Title Page Menu Descriptions
Performance Test
Measurement Uncertainty
Using Recommended Test
Using Other Test Equipment
Measurement Uncertainty
Verifying Specifications
Agilent 35670A
Measurement
Using Other Test Equipment
Equipment
Measurement
Test Instruments Used
Performance Test Record - Two Channel
Verifying Specifications
Self Test
DC Offset
Noise
Test Date:___/___/___
Spurious Signals
Verifying Specifications
Agilent
4 of
Verifying Specifications
Performance Test Record - Two Channel
Test Date:___/___/___
5 of
Verifying Specifications
Agilent 35670A
Test Date:___/___/___
Verifying Specifications
Spurious Signals continued
Amplitude Accuracy
Flatness
7 of
Amplitude Linearity
Agilent 35670A
Test Date:___/___/___
Test Date:___/___/___
A-WeightFilter
Channel Match
Verifying Specifications
Agilent 35670A
Frequency Accuracy
Anti-AliasFilter
Input Coupling
10 of
Harmonic Distortion
Verifying Specifications
Test Date:___/___/___
Test Date:___/___/___
Intermodulation Distortion
Cross Talk
Agilent 35670A
Verifying Specifications
Single Ch Phase Accuracy
External Trigger
Tach Function option D01 only
Source Output Resistance
Input Resistance
ICP Supply
Source Amplitude Accuracy
Verifying Specifications
Source DC Offset
Source Flatness
Source Distortion
Test Instruments Used
Performance Test Record - Four Channel
Noise
Verifying Specifications
Self Test
DC Offset
Agilent 35670A
Spurious Signals
Spurious Signals continued
Verifying Specifications
Four Ch, 1600 Hz Start, Ch
Verifying Specifications
Performance Test Record - Four Channel
Four Ch, 14400 Hz Start, Ch
Verifying Specifications
Agilent 35670A
Four Ch, 20800 Hz Start, Ch
Spurious Signals continued
Verifying Specifications
Performance Test Record - Four Channel
Test Date:___/___/___
Verifying Specifications
Amplitude Accuracy
Agilent 35670A
Amplitude Accuracy continued
−11 dBVrms, 51.2 kHz, One Ch, Ch
Verifying Specifications
Flatness
Agilent 35670A
Test Date:___/___/___
Verifying Specifications
Amplitude Linearity
Performance Test Record - Four Channel
Measurement
A-WeightFilter
Verifying Specifications
Agilent 35670A
Two Ch, 2/1, 7 dBV FS Mag
Verifying Specifications
Channel Match
Performance Test Record - Four Channel
Performance Test Record - Four Channel
Verifying Specifications
Agilent 35670A
Input Coupling
Verifying Specifications
Frequency Accuracy
Anti-AliasFilter
Test Date:___/___/___
Verifying Specifications
Harmonic Distortion
Agilent 35670A
Test Date:___/___/___
Verifying Specifications
Intermodulation Distortion
Performance Test Record - Four Channel
Agilent 35670A
Single Ch Phase Accuracy
Verifying Specifications
Cross Talk
Input Resistance
Verifying Specifications
External Trigger
Tach Function option D01 only
Agilent 35670A
Verifying Specifications
Source Amplitude Accuracy
Source Output Resistance
Source Distortion
Verifying Specifications
Source DC Offset
Source Flatness
Test Instruments Used
Operation Verification Test Record - Two Channel
Noise
Verifying Specifications
Self Test
DC Offset
Operation Verification Test Record - Two Channel
Spurious Signals
Verifying Specifications
Agilent 35670A
Operation Verification Test Record - Two Channel
Verifying Specifications
Test Date:___/___/___
4 of
Test Date:___/___/___
Spurious Signals continued
Verifying Specifications
Agilent 35670A
Test Date:___/___/___
Verifying Specifications
Amplitude Accuracy
Operation Verification Test Record - Two Channel
Amplitude Linearity
A Weight Filter
Verifying Specifications
Flatness
Operation Verification Test Record - Two Channel
Verifying Specifications
Channel Match
Agilent 35670A
Tach Function option D01 only
Single Ch Phase Accuracy
Verifying Specifications
Frequency Accuracy
Source Flatness
Verifying Specifications
ICP Supply
Source Amplitude Accuracy
Test Instruments Used
Operation Verification Test Record - Four Channel
Noise
Verifying Specifications
Self Test
DC Offset
3 of
Spurious Signals
Agilent 35670A
Test Date:___/___/___
Operation Verification Test Record - Four Channel
Verifying Specifications
Test Date:___/___/___
4 of
5 of
Verifying Specifications
Agilent 35670A
Test Date:___/___/___
6 of
Spurious Signals continued
Verifying Specifications
Test Date:___/___/___
Test Date:___/___/___
Verifying Specifications
Amplitude Accuracy
Agilent 35670A
8 of
Verifying Specifications
Amplitude Accuracy continued
Test Date:___/___/___
9 of
Flatness
Agilent 35670A
Test Date:___/___/___
10 of
Verifying Specifications
Amplitude Linearity
Test Date:___/___/___
Test Date:___/___/___
A Weight Filter
Verifying Specifications
Agilent 35670A
Test Date:___/___/___
Verifying Specifications
Channel Match
Agilent 35670A
Test Date:___/___/___
Verifying Specifications
Frequency Accuracy
Agilent 35670A
ICP Supply
Single Ch Phase Accuracy
Verifying Specifications
Tach Function option D01 only
Agilent 35670A
Source Amplitude Accuracy
Source Flatness
Source Distortion
Page
Troubleshooting the Analyzer
Safety Considerations
Troubleshooting the Analyzer
Equipment Required
Troubleshooting Hints
Troubleshooting Test
How to troubleshoot the analyzer
Symptom
To perform initial verification
Probable Faulty Assembly
Symptom
Page
Test Location
Signal Name
Probable Faulty Assembly
1 MΩ 10:1 probe
To perform initial verification
Troubleshooting the Analyzer
Agilent 35670A
A7 Component Locator, Circuit Side
Signal Name
Step 7. Check signals required for power up
Signal Name
Probable Faulty Assembly
To troubleshoot the power supply
•Set the power switch to off O
•Remove the A7 CPU assembly
•Disconnect the fan cable from A99 P90
Step
To troubleshoot power-upfailures
• Set the power switch to on l
power-uptest result to the following table
• Set the power switch to off O
~Time LEDs
Power-onLEDs
Binary
Hexa
To troubleshoot CPU, memory, and buses failures
Hexadecimal
G• Set the power switch to off O
Probable Faulty Assembly
Binary
4-20
A7 Component Locator, Circuit Side
• Set the power switch to off O
To troubleshoot display failures
Page
Vertical and horizontal scanning is occurring
Symptom
Probable Faulty Assembly
To troubleshoot IIC bus failures
LEDs, and the display
• Set the power switch to on l
• Attach a logic probe to A7 P7 pin 2 SCL
G• Attach the logic probe to A7 P7 pin 1 SDA
•Set the power switch to off O
To troubleshoot fast bus failures
Agilent 35670A
Troubleshooting the Analyzer
To troubleshoot fast bus failures
• Set the power switch to on l
To perform self tests
using a BNC cable
following table
displayed
‘’To troubleshoot self-testlockup failures.’’
4-40 ‘’To troubleshoot intermittent failures.’’
Failing Self Test
Probable Faulty Assembly Adjustment
Troubleshooting Test
Failing Self Test
Probable Faulty Assembly
Adjustment
Troubleshooting Test
Troubleshooting Test
Self-TestTroubleshooting Guide continued
Probable Faulty Assembly
Adjustment
Next Test
Probable Faulty
Assembly
Failure
G• Set the power switch to on l
To troubleshoot self-testlockup failures
G• Press the following keys
Page
•Set the power switch to on l
To troubleshoot intermittent failures
•Press the following keys
To troubleshoot performance test failures
Troubleshooting Test
Troubleshooting the Analyzer
Probable Faulty Assembly
Adjustment
To troubleshoot performance test failures
Troubleshooting the Analyzer
Failing Performance Test Troubleshooting Guide
Spurious signals
To troubleshoot source and calibrator failures
• Connect the voltmeter to A5 TP3
assembly is
probably faulty
Step 2. Check the dc offset
• Press the following keys
Step 4. Check the calibrator output
G• Set the power switch to off O
•Set the power switch to on l
Troubleshooting the Analyzer
Source
Troubleshooting the Analyzer
System Utility
Input
•Press the following keys
System Utility
To troubleshoot input and ADC failures
Probable Faulty
Assembly
To troubleshoot input and ADC failures
Troubleshooting the Analyzer
Page
G• Set the power switch to on l
G• Set the power switch to off O
To troubleshoot distortion failures
To troubleshoot disk drive failures
The read/write
•Press the following keys
To troubleshoot auto-rangefailures
•Set the power switch to on l
•Press the following keys
•Press the following keys
To troubleshoot DIN connector failures
•Set the frequency synthesizer as follows
To troubleshoot trigger failures
G• Set the power switch to on l
The analyzer should now trigger
CHANNEL 3 option AY6 only
CHANNEL 4 option AY6 only
mS S
G• Set the power switch to off O
•If the signal at A5 TP 204 is toggling, the A6 Digital assembly is probably faulty
G• Set the power switch to off O
To troubleshoot memory battery failures
Agilent 35670A
Troubleshooting the Analyzer
To troubleshoot memory battery failures
G• Set the power switch to on l
To troubleshoot tachometer failures
• Press the following keys
Page
Adjusting the Analyzer
Component
Adjusting the Analyzer
Adjustment
Assembly
potentially dangerous voltages
Safety Considerations
Adjusting the Analyzer
Equipment Required
GPIB Code
Remote Operation
Adjustment
•Set the power switch to on
To adjust the frequency reference
•Set the power switch to off O
Equipment Required: Multimeter
To adjust the source
Adjusting the Analyzer
To adjust the source
To adjust the ADC gain, offset and reference
•Set the oscilloscope as follows
•Set the power switch to off O
•Set the power switch to on
•Press the following keys
Equipment Required: None
To adjust the input dc offset
G• Set the power switch to on
G• Set the power switch to on
Equipment Required: BNC-to-BNCCable
To adjust common mode rejection
•Set the power switch to off O
•Set the power switch to off O
•Press the the following keys
To adjust filter flatness
To adjust filter flatness
Adjusting the Analyzer
G• Set the power switch to on
G• Set the power switch to on
•Press the following keys
To adjust the display voltage
Agilent 35670A
Adjusting the Analyzer
To adjust the display voltage
Replacing Assemblies
Replacing Assemblies
Replacing Assemblies
What to do before replacing the CPU assembly
Agilent 35670A
What to do after replacing an assembly
A7 CPU
Assembly Replaced
Required Adjustment
Required Performance Test
To remove cover
To remove cover
2 Slide the cover straight up
Replacing Assemblies
To remove rear panel
Replacing Assemblies
To remove front panel
2 Remove assembly retainer bracket
1 Remove cover see ‘’To remove cover’’
To remove front panel
Agilent 35670A
Replacing Assemblies
4 Slide the disk drive back and lift up
To remove disk drive
1 Remove cover see ‘’To remove cover’’
2 Disconnect the disk drive cable
To remove CPU
To remove NVRAM
To remove NVRAM
1 Remove A7 CPU assembly see ‘’To remove CPU’’
Replacing Assemblies
To remove memory
To remove memory
To remove power supply
Replacing Assemblies
6 Lift the A98 Power Supply assembly straight
To remove power supply
Agilent 35670A
Motherboard
To remove motherboard
3 Remove assembly retainer bracket
4 Unplug all assemblies from the A99
To remove motherboard
To remove dc-dcconverter
To remove dc-dcconverter
Replacing Assemblies
Replaceable Parts
Non-ListedParts
Replaceable Parts
Ordering Information
Mfr Name
Direct Mail Order System
Code Numbers
Mfr No
Assemblies
Assemblies
Replaceable Parts
Number
Agilent 35670A
Agilent Part
Description
Cables
Cables
Replaceable Parts
Replaceable Parts
Instrument Covers and Handles
Agilent 35670A
Replaceable Parts
Assembly Covers and Brackets
Assembly Covers and Brackets
Agilent 35670A
Front Panel Parts
Rear Panel Parts
Rear Panel Parts
Replaceable Parts
Chassis Parts
Chassis Parts
Agilent 35670A
Screws, Washers, and Nuts
Screws, Washers, and Nuts
Miscellaneous Parts
Replaceable Parts
Parts
Option UK4 Parts
Agilent 35670A
Parts
Option UK4 Parts
Replaceable Parts
Agilent 35670A
Circuit Descriptions
Overall Instrument Description
Circuit Descriptions
Overall Block Diagram
Overall Instrument Description
Two Channel Overall Block Diagram
Circuit Descriptions
Overall Instrument Description
Four Channel Overall Block Diagram
Agilent 35670A
Circuit Descriptions
A1 Input
DC Offset DAC
Agilent 35670A
A1 Input
Agilent 35670A
A1 Input Block Diagram: Channel
A1 Input
Circuit Descriptions
A1 Input
A1 Input Block Diagram: Channel 1 continued
Agilent 35670A
Circuit Descriptions
Agilent 35670A
A1 Input Block Diagram: Channel
A1 Input
A1 Input
A1 Input Block Diagram: Channel 2 continued
Agilent 35670A
Circuit Descriptions
A2 Input
A2 Input
Circuit Descriptions
DC Offset DAC
Agilent 35670A
A2 Input
Agilent 35670A
A2 Input Block Diagram: Channel 1 or Channel
A2 Input
A2 Input
Agilent 35670A
Circuit Descriptions
Agilent 35670A
A2 Input Block Diagram: Channel 3 or Channel
A2 Input
Circuit Descriptions
A2 Input
Agilent 35670A
Circuit Descriptions
Channel 3 Track & Hold Channel 4 Track & Hold
A5 Analog
Channel Switch 1st Pass Circuit ADC Controller
Channel 1 Track & Hold Channel 2 Track & Hold
A5 Analog
A5 Analog Block Diagram: ADC and Trigger
Agilent 35670A
Circuit Descriptions
±6.2 Voltage Reference
Circuit Descriptions
Agilent 35670A
A5 Analog
Local Oscillator
A6 Digital
• ADC timing and synchronization signals
Trigger
A6 Digital
A6 Digital Block Diagram
Agilent 35670A
Circuit Descriptions
FIFO Controller
Circuit Descriptions
Agilent 35670A
A6 Digital
A7 CPU
Agilent 35670A
A7 CPU Block Diagram
Circuit Descriptions
A7 CPU
A7 CPU Block Diagram: Interface
•A1 or A2 Input •A5 Analog
•SCL serial clock •SDA serial data
Plot/Print
A8 Memory
Local/Gpib
System Utility
ROM Address
Agilent 35670A
A8 Memory
nonvolatile RAM
A9 NVRAM
A9 NVRAM Block Diagram
A10 Rear Panel
Agilent 35670A
A10 Rear Panel Block Diagram
Circuit Descriptions
A10 Rear Panel
A11 Keyboard Controller Block Diagram
A11 Keyboard Controller
A12 BNC
A12 BNC
Circuit Descriptions
A22 BNC
A13 Primary Keypad
A14 Secondary Keypad
A15 Primary Keypad
A90 Fan
A98 Power Supply
A102 DC-DCConverter
A99 Motherboard
A100 Disk Drive
A101 Display
Option UK4 Microphone Adapter and Power Supply
Circuit Descriptions
Option UK4 Microphone Adapter and Power Supply
Agilent 35670A
Page
Voltages and Signals
Section Title
Voltages and Signals
Describes signals routed
Assembly Locations and Connections
Assembly Locations and Connections
Assembly Locations
Voltages and Signals
Agilent 35670A
Voltages and Signals
Assembly Locations and Connections
Assembly Connections for Two Channel Analyzer
Agilent 35670A
Assembly Connections for Four Channel Analyzer
Voltages and Signals
Assembly Locations and Connections
Power Supply Voltage Distribution
Power Supply Voltage Distribution
Voltages and Signals
A2 Input
A1 Input
⇔This signal is bidirectional
A7 J3 Pins
A8 P1 Pins
•This assembly uses the signal
PA10
Signal Name
Agilent 35670A
A8 Memory
BD16 —31
SIZE0 — SIZE1
Agilent 35670A
A8 Memory
A8 P2
A9 NVRAM
Pins
BASn
Signal Name
Signal Name
A10 Rear Panel
GPIB
A10 Rear Panel
Serial Port
Signal Name
Agilent 35670A
Signal Name
Parallel Port
External Trigger Input
DIN Keyboard
Source Output
Tachometer Input
Signal Name
A11 Keyboard Controller
Agilent 35670A
A11 Keyboard Controller assembly
A12 BNC
The A12 BNC assembly is only used in two channel analyzers. The A12 BNC assembly routes the signals connected to the Channel 1 BNC connector and Channel 2 BNC connector to the A1 Input assembly. The A12 BNC assembly also routes the source signal from the A5 Analog assembly to the Source BNC connector. The signal connected to Channel 1 should be between 0.19531 Hz to 102.4 kHz in single channel mode and between 0.097656 Hz to 51.2 kHz in two channel mode. The signal connected to Channel 2 should be between 0.097656 to 51.2 kHz. For both channels, the signal’s amplitude range must be between +27 dBVrms and –51dBVrms for full scale measurements. The source output signal can be random noise, burst random noise, periodic chirp, burst chirp, pink noise, or fixed sine. The amplitude range of the source output is ±5 Vpk
A11 Location
Signal Name
A13 Primary Keypad
OVLDAn
HRNGBn
HRNGCn
HRNGDn
COL0 - COL2
A14 Secondary Keypad
A22 BNC
Voltages and Signals
A22 BNC
Connector Pin Number
Signal Name
Assembly Using Signal
Motherboard Connector
A99 Motherboard
Agilent 35670A
Agilent 35670A
Voltage
Voltages and Signals
Assembly Using Voltage
A99 Motherboard
A10MHZ
Agilent 35670A
EXTRGIN
Voltages and Signals
Agilent 35670A
A99 Motherboard
FSELAn
Agilent 35670A
LPFCLK
Voltages and Signals
Agilent 35670A
A99 Motherboard
SRCCLOCK
Agilent 35670A
A7 P3
Voltages and Signals
A100 Disk Drive
A100 Disk Drive
DISKINn
Agilent 35670A
A100 Disk Drive
HSYNCELn
Signal Name
A101 Display
A102
Pins
A102 DC-DCConverter
A7 P2
Page
Internal Test Descriptions
High-levelSubtests
Power-onTest Description
Internal Test Descriptions
Low-levelSubtests
10-3
Power-onTest Messages
Binary to Hexadecimal
Internal Test Descriptions
Power-onTest Description
Power-onTest Messages
10-5
Calibration Routine Description
Calibration Routine Description
DC-OffsetTables and Frequency Correction Curves
Internal Test Descriptions
Viewing the Calibration Correction Curves
Calibration Error Messages
System Utility
Inst Mode
Input
Disp Format
Fault Log Messages
10-10
Self-TestDescriptions
SELF TEST FUNCTIONL TESTS ALL
Functional Tests All Self-TestGroup
Agilent 35670A
Self Tests that Perform a Measurement
Individual Self-TestDescriptions
DISTORTN
INPUT TRIGGER
OFFSET
SERIAL PORT
Self Test
Self-TestMenu Map and GPIB Commands
GPIB Command
SELF TEST
GPIB Command
Self Test
Page
Backdating
Backdating
Quick Reference
Quick Reference
Quick Reference
Assembly Locations
Agilent 35670A
Agilent 35670A
Assembly Connections for Two Channel Analyzer
Quick Reference
Quick Reference
Assembly Connections for Four Channel Analyzer
Agilent 35670A
Agilent 35670A
Two Channel Overall Block Diagram
Quick Reference
Quick Reference
Four Channel Overall Block Diagram
Agilent 35670A
Agilent 35670A
A1 Input Block Diagram: Channel
Quick Reference
Quick Reference
A1 Input Block Diagram: Channel 1 continued
Agilent 35670A
Agilent 35670A
A1 Input Block Diagram: Channel
Quick Reference
Quick Reference
A1 Input Block Diagram: Channel 2 continued
Agilent 35670A
Agilent 35670A
A2 Input Block Diagram: Channel 1 or Channel
Quick Reference
Quick Reference
Agilent 35670A
Agilent 35670A
A2 Input Block Diagram: Channel 2 or Channel
Quick Reference
Quick Reference
Agilent 35670A
Agilent 35670A
A5 Analog Block Diagram: ADC and Trigger
Quick Reference
Quick Reference
Agilent 35670A
Agilent 35670A
A6 Digital Block Diagram
Quick Reference
Quick Reference
A7 CPU Block Diagram
Agilent 35670A
Agilent 35670A
A7 CPU Block Diagram: Interface
Quick Reference
Quick Reference
Reset Logic
Agilent 35670A
Agilent 35670A
A8 Memory Block Diagram
Quick Reference
Quick Reference
A9 NVRAM Block Diagram
Agilent 35670A
Agilent 35670A
A10 Rear Panel Block Diagram
Quick Reference
Quick Reference
A11 Keyboard Controller Block Diagram
Agilent 35670A
Agilent 35670A
A98 Power Supply Block Diagram
Quick Reference
troubleshooting
Index
battery
battery backed memory
front panel
CPU assembly
frequency adjustment
troubleshooting
common mode adjustment
signals 8-29,
initial verification troubleshooting
input assembly
troubleshooting battery
memory assembly
signal descriptions
troubleshooting
10-12
9-23
10-17
3-13
7-12
hints using self tests
voltages power supply distribution
washers, part numbers
Guide to Agilent 35670A Documentation
If you are thinking about
And you want to
Then read
Need Assistance?
July 1994: Previous edition
About this edition
October 2000: Rebranded for Agilent Technologies