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Tektronix CG5001 Calibration Generator Repair


Posted on December 12th, by Shaun Merrigan in Electronics, Test Equipment. Comments Off on Tektronix CG5001 Calibration Generator Repair

Background

The Tektronix CG5001 Calibration Generator is a source of calibrated timing signals, voltage and current waveforms, and pulses with low distortion/fast edges. The device can be used to calibrate and check oscilloscope performance characteristics. It has six basic modes and can be remotely programmed via the GPIB interface. It was first produced in 1980 as part of the Tektronix TM5000 instrument family.

A CG5001 unit acquired in 2019 failed with the following errors on power-up self-test:

  • 51
  • 52
  • 54
  • 55
  • 81
  • 83
  • 85
  • 87
  • 17
  • Uncal

Errors “51,52,54, 55” are voltage mode self-test errors. Errors “81,83,85,87” are positive or negative edge mode errors. Error “17” means that the internal calibration constants have been lost. Error “Uncal” indicates a current or voltage overload.

Repair Process

Visual inspection of the unit showed several leaking and open filter capacitors in the power supply:

CG5001 A5 Failed PS OEM Capacitors
CG5001 A5 Failed PS OEM Capacitors. Evidence of previous repairs?
CG5001 A5 Failed PS OEM Capacitors
CG5001 A5 Failed PS OEM Capacitors
CG5001 A5 Failed PS OEM Capacitors
CG5001 A5 Failed PS OEM Capacitors

These electrolytic capacitors were all replaced:

CG5001 A5 PS Board with new capacitors. Axial lead capacitors of the required value, physical size and rating were not available, so radial capacitors were adapted to fit.

In addition, the electrolytic capacitors on the isolator board (A5A1) were replaced:

CG5001 PS Isolator Board OEM Capacitors Marked
CG5001 PS Isolator Board OEM Capacitors Marked
CG5001 PS Isolator Board Ready to Reinstall
CG5001 PS A5A1 Isolator Board ready to reinstall

Continuing with the initial testing, I found that many of the low value carbon composition resistors in the unit had drifted up in value and were out of tolerance. These were replaced as below:

CG5001 A7 Board Resistors Replaced
CG5001 A7 Board Resistors Replaced
CG5001 A7 Board Resistor Replacements
CG5001 A7 Board Resistor Replacements

With the power supply stabilized and suspect components replaced, I could now diagnose the error codes shown on power up. The troubleshooting charts in the service manual (V2, Part# 070-2815-01) were very useful in finding the problem. Walking through the troubleshooting charts and eliminating the obvious eventually led me to a pair of failed DFET transistors on the A6 reference board:

CG5001 A6 Board Replaced Transistors
CG5001 A6 Board Replaced Transistors

These repairs cleared all the power on faults except for the Error “17”. As part of the diagnostic process, I had removed and checked the RAM chips, which erased the calibration data. This resulted in Error “17”. However, I knew that recalibration would be needed in any case, so this was anticipated.

As part of the diagnostic and repair process, I needed to operate various circuit boards outside the instrument. This meant I had to use extender cables:

CG 5001 Extenders Installed
CG 5001 Three extender cables installed
CG 5001 Extenders Installed
CG 5001 Four extender cables installed
CG 5001 Extenders Installed
CG 5001 Four extender cables installed while checking A6 Bpard

Conclusion

This CG5001 unit is now repaired and ready to be calibrated. Fortunately, the calibration process can be completed easily with the equipment I have available. I will cover this process in another post.

Thanks for reading.

Shaun Merrigan





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