Specifications
Table Of Contents
- Agilent 53210A/53220A/53230A 350 MHz Universal Frequency Counter/ Timer
- Assembly Level Service Guide
- Performance Tests
- Introduction
- Power-On Test
- Self-Test (Q)
- Agilent 53210A/53220A/53230A Operational Verification
- Agilent 53210A/53220A/53230A Complete Performance Tests
- Test 1: (Q) Absolute Time Base
- Test 2: (Q) Frequency Accuracy - Channels 1 and 2
- Test 3: Single Period
- Test 4: (Q) Pulse Width
- Test 5: (Q) Time Interval
- Test 6a: (Q) Frequency Accuracy - Channel 2/3, Option 106 (6 GHz Microwave Channel)
- Test 6b: (Q) Frequency Accuracy - Channel 2/3, Option 115 (15 GHz Microwave Channel)
- Test 7a: (Q) Pulse Burst Frequency - 53230A Channel 3 Option 150 With Option 106
- Test 7c: (Q) Pulse Burst Frequency - 53230A Channel 3 Option 150 With Option 115
- Agilent 53210A/53220A/53230A Operational Verification and Performance Test Record
- Agilent 53210A/53220A/53230A Performance Test Record (Tests 1 to 7)
- Service
- Introduction
- Returning the Instrument to Agilent Technologies for Service
- About the Agilent 53210A/53220A/53230A Calibration Menu
- The Agilent 53210A/53220A/53230A Calibration Procedures
- Equipment Required
- Determine the Counter Firmware Version
- Calibration Cycle
- Calibration String:
- Internal Reference Oscillator Calibration
- Summary of Oscillator Calibration Procedure:
- Remote Oscillator Calibration Summary:
- Voltage Calibration (Internal DACs)
- Option 106 Microwave Channel Frequency Calibration
- Option 115 Microwave Channel Frequency Calibration
- Internal Auto-Calibration
- To View the Calibration Count
- Resetting the Security Code to a Null
- Pre-Troubleshooting Information
- Troubleshooting the Counter
- Unit is Inoperative
- Unit Fails Self-Test
- Power Supply Check
- Checking the Battery and Battery Charger
- Battery Operation
- Preliminary Steps
- Testing the battery
- Normal Battery Operation
- When the battery is enabled and the counter is not connected to AC power, the battery is discharged at approximately 30% of full initial capacity per day. When the battery is disabled and not connected to AC power, the battery is discharged at approx...
- Remote Battery Commands
- Performing The Counter Self-Test
- To Determine the Counter Firmware Version
- Reseat the Boards
- Re-Run the Counter Self Test
- Error Messages
- Replacing Assemblies
- Introduction
- Tools Required
- To Remove the Cover and Rear Bezel
- To Remove the Internal DC Battery Assembly (Option 300)
- To Remove the GPIB Assembly
- To Remove a 6.0 GHz or 15.0 GHz Microwave Channel Assembly (Options 106/115)
- To Remove the Processor Board
- To Remove the Front Panel Assembly
- To Remove the Motherboard
- To Remove the AC Power Supply Assembly
- Retrofitting Options
- Introduction
- To Retrofit Ultra-High Stability Timebase (Option 010)
- To Retrofit the GPIB Connector
- To Retrofit the Internal Battery DC Power (Option 300)
- To Retrofit the 53210A (Channel 1) or 53220A/53230A (Channels 1/2) Rear Panel Inputs (Option 201)
- To Retrofit the 53210A Channel 2 Front Panel Input (Option 106 or Option 115, plus Front Panel Option 202)
- To Retrofit the 53210A Channel 2 Rear Panel Input, 6.0 GHz (Option 106) or 15.0 GHz (Option 115) plus Rear Panel Option 203
- To Retrofit the 53220A/53230A Channel 3 Input, 6.0 GHz (Option 106) or 15.0 GHz (Option 115) plus Front Panel Option 202
- To Retrofit the 53220A/53230A Channel 3 Input, 6.0 GHz (Option 106) or 15.0 GHz (Option 115) plus Rear Panel Option 203
- To Retrofit Option 150 (Pulse Microwave Measurements) for the 53230A
- Replaceable Parts
- Backdating
Chapter 2 Service
Pre-Troubleshooting Information
Assembly-Level Service Guide 145
After Service Considerations
Product Safety Checks
The following safety checks should be performed after any troubleshooting
and repair procedures have been completed to ensure the safe operation of
the instrument.
WARNING RESISTANCE CHECKS DESCRIBED IN THE FOLLOWING TEXT
REQUIRE THAT THE POWER CORD BE CONNECTED TO THE
INSTRUMENT AND THAT AC POWER BE DISCONNECTED.
BE SURE THAT THE POWER CORD IS NOT CONNECTED TO
POWER BEFORE PERFORMING ANY SAFETY CHECKS.
1 VISUAL INSPECTION. Visually inspect the interior of the instrument
for any signs of abnormal internally generated heat, such as discolored
printed circuit boards or components, damaged insulation, or evidence of
arcing. Determine and remedy the cause of any such condition.
2 GROUND CONTINUITY TEST. Plug the power cord into the rear-panel
power receptacle. (DO NOT connect the instrument to AC power at this
time.) Using a suitable ohmmeter or digital multimeter (DMM), check the
resistance from the instrument’s metallic connection (such as the rear
panel or BNC ground collar) to the ground pin on the power cord plug. The
reading must be less than 1. Flex the power cord while making this
measurement to determine whether intermittent discontinuities exist.
3 Check any indicated front- or rear-panel ground terminals marked, using
the above procedure.
NOTE INSULATION RESISTANCE TEST. Tie the line and neutral pins of the
power cord plug together. Measure the resistance from the instrument
enclosure (chassis) to the line and neutral pins of the power cord.
The minimum acceptable resistance is 2 M. Replace any component
which results in a failure.