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Having a break in Backline Gear repairs here in the shop, and still needing to extract my Tek 7633 Storage Scope from my bench set-up to tackle the absence of the CRT system working, I brought one of my Tek R5031 Scopes back in from home. Feb 2021, I had it over at the temporary shop where CenterStaging's Rental Inventory got moved to, and I didn't tear apart my bench here on Winona Ave, so I brought this scope in from my storage lockers. I needed the storage function for aid in looking at a Vox Tremolo modulation, but I hadn't had this powered up since early 2000 at BGW Systems.
I had powered it up, found there was some lamps out in the fiber optic readout next to the CRT screen (they used this elaborate character generator method on this scope as well as on the 576 Curve Tracer that many have acquired for use on vacuum tubes characteristics). I found the replacement parts, and pulled that assembly out, figured how to repair it and got that task done. I had the scope back together and used if for a few days...then it quit working.
So, I have it again on the bench, digging into it, and thus far, have gotten past the Pass Xstrs that often fail....using TO-66 xstrs and a couple TO-3 Germanium Pass Xstrs that I found yesterday and am somewhat mystified in finding them. PNP devices..Tek P/N 155-0165. They measured fine in Diode Test Mode, but I found a reading in one direction reverse-biased between emitter and collector. That seems odd.
Meanwhile, turned the instrument over, and removed the cover to expose the Rectifier/Capacitor PCB assy. Documented the color code/wire connector harness assy, just in case. Beautifully harnessed, with all but a few connectors broken out of the harness so it's easy to restore the connectors...except for those few extra connector wires from a separate harness.
Took photos of everything per normal practice in servicing these instruments.
Now I'm finally able to see what I have to work with, and with Tektronix surperb documentation in the service manual on this instrument, which details the wire colors of that power supply harness i unplugged from this Rectifier/Capacitor board, plus my notes not having found their wiring chart yet, I'll be able to put the repaired assembly back into the instrument. Date Codes on these cap-cans ranges from 6921 to 7032...so over 50 yrs old. Interesting device on the PCB. A 5000 hour timer. There's also one on the Storage Board.
Beautifully designed, engineered and built instruments. Gold was more affordable in those days. Look inside any vintage Hewlett-Packard or Tektronix instruments of that era, and you find the PCB's all gold plated top/bottom, connectors all gold. Harnesses beautifully crafted. I don't think they were conceiving these would still be in use 40 and 50 years later, but they DO last that long and hold their accuracy quite well. They took the time to create well-conceived operators and service manuals. The manual for this instrument is loaded with well-produced photos to aid in the service routines.
I checked the four filter caps on this board...first just checking to see what the charging characteristics looked like with a DMM to see if they charge up in a predictable fashion. Then I applied a 20V P-P 5kHz Square Wave that I use for checking ESR...if I go thru the full procedure to calculate what it is. Usually I'm just looking for gross behavior, as I found on the Tek 7623A's 14,000uF buss cap, which only loaded that waveform down to 11V P-P instead of around 100mV to 150mV P-P as it should typically. All four caps...one being a dual-section (100uF/250V, 700uF/75V) all yielded typical low P-P readings in the 100-150mV range with that waveform, so I think I'll just take the time with each cap and charge them up on a power supply in stages thru a resistor and check to see what the change in charging current looks like. And look at them on the General Radio 1617 Capacitance Bridge, which has Leakage Current provisions. These ARE old enough to want to replace them, but, mechanically, it would be a challenge to get it done and remain mechanically stable like the original parts they bought from Sprague. Can't buy these parts any longer.
This is a low-bandwidth instrument. Each channel has very high sensitivity....10uV thru 10V-Div, max bandwidth of 1MHz. Differential inputs, also has provisions for their P6021 AC Current Probe, providing 1mA thru 1A/Div. Largest of the CRT's in their instrument line until the recent all-digital scopes of today's array of instruments. I used one like this from 1976 onward...bought a Wavetek 185 5-decade log Sweep Function Generator, and with a log converter and that Log-sweep generator, it gave me a nice Frequency Response Analyzer from sub-audio thru 1MHz (with HF rolloff from the BW limitation). Display in XY Storage Mode..
So, hopefully, I can restore what failed and get this instrument back up and working.
Onward.....
I had powered it up, found there was some lamps out in the fiber optic readout next to the CRT screen (they used this elaborate character generator method on this scope as well as on the 576 Curve Tracer that many have acquired for use on vacuum tubes characteristics). I found the replacement parts, and pulled that assembly out, figured how to repair it and got that task done. I had the scope back together and used if for a few days...then it quit working.
So, I have it again on the bench, digging into it, and thus far, have gotten past the Pass Xstrs that often fail....using TO-66 xstrs and a couple TO-3 Germanium Pass Xstrs that I found yesterday and am somewhat mystified in finding them. PNP devices..Tek P/N 155-0165. They measured fine in Diode Test Mode, but I found a reading in one direction reverse-biased between emitter and collector. That seems odd.
Meanwhile, turned the instrument over, and removed the cover to expose the Rectifier/Capacitor PCB assy. Documented the color code/wire connector harness assy, just in case. Beautifully harnessed, with all but a few connectors broken out of the harness so it's easy to restore the connectors...except for those few extra connector wires from a separate harness.
Took photos of everything per normal practice in servicing these instruments.
Now I'm finally able to see what I have to work with, and with Tektronix surperb documentation in the service manual on this instrument, which details the wire colors of that power supply harness i unplugged from this Rectifier/Capacitor board, plus my notes not having found their wiring chart yet, I'll be able to put the repaired assembly back into the instrument. Date Codes on these cap-cans ranges from 6921 to 7032...so over 50 yrs old. Interesting device on the PCB. A 5000 hour timer. There's also one on the Storage Board.
Beautifully designed, engineered and built instruments. Gold was more affordable in those days. Look inside any vintage Hewlett-Packard or Tektronix instruments of that era, and you find the PCB's all gold plated top/bottom, connectors all gold. Harnesses beautifully crafted. I don't think they were conceiving these would still be in use 40 and 50 years later, but they DO last that long and hold their accuracy quite well. They took the time to create well-conceived operators and service manuals. The manual for this instrument is loaded with well-produced photos to aid in the service routines.
I checked the four filter caps on this board...first just checking to see what the charging characteristics looked like with a DMM to see if they charge up in a predictable fashion. Then I applied a 20V P-P 5kHz Square Wave that I use for checking ESR...if I go thru the full procedure to calculate what it is. Usually I'm just looking for gross behavior, as I found on the Tek 7623A's 14,000uF buss cap, which only loaded that waveform down to 11V P-P instead of around 100mV to 150mV P-P as it should typically. All four caps...one being a dual-section (100uF/250V, 700uF/75V) all yielded typical low P-P readings in the 100-150mV range with that waveform, so I think I'll just take the time with each cap and charge them up on a power supply in stages thru a resistor and check to see what the change in charging current looks like. And look at them on the General Radio 1617 Capacitance Bridge, which has Leakage Current provisions. These ARE old enough to want to replace them, but, mechanically, it would be a challenge to get it done and remain mechanically stable like the original parts they bought from Sprague. Can't buy these parts any longer.
This is a low-bandwidth instrument. Each channel has very high sensitivity....10uV thru 10V-Div, max bandwidth of 1MHz. Differential inputs, also has provisions for their P6021 AC Current Probe, providing 1mA thru 1A/Div. Largest of the CRT's in their instrument line until the recent all-digital scopes of today's array of instruments. I used one like this from 1976 onward...bought a Wavetek 185 5-decade log Sweep Function Generator, and with a log converter and that Log-sweep generator, it gave me a nice Frequency Response Analyzer from sub-audio thru 1MHz (with HF rolloff from the BW limitation). Display in XY Storage Mode..
So, hopefully, I can restore what failed and get this instrument back up and working.
Onward.....
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