This is a very useful power supply and still selling a good price as Tektronix had made many good probes for use. Example P6247 and ADA400A etc. With this supply, the old probes can be used in modern oscilloscopes. I open up my set and check if there is any RIFA capacitor inside to cause trouble. Luckily there is non as the supplier use a EI transformer. The regulator ICs are just normal type LM317 and LM337 TO-220 type. I see my set was replaced one of them with lots of flux near the diodes! E-cap looks good shape and brand, no need any replacement!
P6247 1GHz probe which is good for measuring jitter on any circuit with differential input mode.
ADA400A is very good for very low level signal even for Biotech usage with extreme high input impedance. It has 0.1, x1, x10 & x100 times and thus 1mV / DIV will become 10uV / DIV in the scope! Also differential design and very good CMRR ratings but limited to 1Mhz bandwidth only. You know what, today Tektronix is still selling this probe!!!
Tek AM503 is the oldest current probe amplifier and there is no LED display on the range. Mine have the PCB corrosion as in the photo. Thus I use Methanol to clean the pcb but after that it is still do not looks very clean! Anyway there are few items need to be restored.
Note that all the old E-capacitors after checking is still working fine, no replacement !
One light bulb is not working, the one always ON! I changed them to LEDs but after that the resistors to limit current need to add in a 1.2k resistors. Note that the light bulb is driven by Negative voltage and thus I need to re-install the polarity of LEDs! I also reverse the two wire position and thus I need to reverse the plug on the pcb to get the right light on the current switch.
The Rotation current selection switch is a long switch covered. It has gold fingers to press on the gold plated PCBs at many locations for top and bottom side. The contacts are in pairs and either touch top or bottom side. To sort or to go through the attenuator resistors which is seated at bottom side. Since I have wash the pcb, I need to take out all the attenuator resistors to clean them one by one! There is lots of gold on this pcb and resistors or transistors!
The last thing I do not like the design of regulator of this instrument is that there are two power transistors located at the power supply unit bottom chassis for heat sinking. The connection is through the long gold fingers slots which sometimes may give to contact issue and make the power regulator not functioning well. Thus care must be taken when plug in the module into the power supply TM501.
Nothing wrong with the A6302 after disassembly for cleaning. Care must be taken to put back the ground contact springs and do not loss the metal bead. The current transformer is also be handle carefully.
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As in Photo, the IEC socket is missing due to burnt about 10 years ago. Since then no repair attempt is done as I am not using that very often. Until recently I have more time at home and now here is the summary of repair done:
It took about two days to repair the set due to two power supply issue. To remove the supply is not easy as the bottom main board must be removed first! There are SMA + 6 screws for main board. Plus there are shield at the input socket connected by 9 screws with shielding plates hiding below the display module!
The IEC socket was replace by normal socket without filter for use first. The original FN-284E-06 part cost US$40 per!!! Internal wire is rerouted so that it can reach the IEC socket near the rear panel.
24 V supplier (smaller) is taken out for visual inspection but see a resistor has overheated and make the PCB darken! Blue resistor is remove with (Orange White Brown) 390ohm but actual measured is 90 ohm! Attempt to put two 470 ohm in parallel to same location but pad already peel off ! After repaired the big supply, burnt in for about 3 minutes cause the 24V supply voltage drop and give switching mechanical noise! Second attempt is to relocated the Blue resistor to other side by two wires and use 150 ohm resistors (50 + 100). After that is works fine. Loading test show is can do up to 1.5A with no issue. Also switch up and down time is faster.
Big supply is total dead with no output for all rails 5V, -5V, -5V, +15V and -15V. Trace the board and found the control ICs are with no power. Initial suspect is the small transformer got issue. Later measure the resistance still show some value. Further trace the supply to small transformer power is ground no return path from + high DC voltage to ground. Finally trace to the YELLOW fuse F2 BUSS PCC part. IN fact the fuse is put in the ground return path which is rated 1/2A fast blow type. To get replacement, the cost is 2.5USD each and take time. I decide to use the leaded type and shrink wrap it for insulation as replacement. I have other fuse but only rated 200mA slow but worry it will fail after some time use.
After power Wave set for an hour, do internal CAL and then external CAL. The timing is not able to fully 100% meet spec but very very close or marginal failed only. Anyway it may be due to calibration variations as I do not own the original shorts cap from Wave but use only 50 ohm termination for external calibration.
The last picture show the 200MHz cal signal feed to Lecroy scope to get about 10ps jitter. The OCXO in the Wave is make by Vectron and claims to be about 3 ps jitter! It is not far but quite close!
I collected this probe power supply waiting for use in one day. Recently I have more time at home and thus opens up if any thing need maintain inside. It ends up i recalculate the supply voltages to within spec after cleaning. There is no line filter capacitor inside and thus no risk of leaking due to aging of RIFA capacitors!
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I have 6 pcs 75 ohm terminator for TV measurement use. As I can see there is a screw to open up and thus I try to do it and found there is a 75 ohm resistors (carbon composition or metal film) inside, I changed all of them to 50 ohms as today there is no more need for 75 ohm termination any more!