Hi.
You may have noticed I also posted this in the Test Equipment forum (actually that is what I wanted to do when I posted it here but I could not remove it) and I got a warning from the moderators because it looked is was trying to sell something. The truth is I am not selling anything yet, and maybe never will. The reason to show it here was to prove it can be done and to see if there was interest to decide if I should install this quickly in my two power supplies and move along or come up with something that can be installed easily by other people. I could always send programmed PICs in the first case for the with the time and skills. And maybe someone will now try to do it too for this or other power supply and decide to share the software. I believe that proving that it can be done is a good contribution in itself and explaining how I do it (without all the details) has value for some people.
I used to share everything I do but I've found people selling in eBay manuals I had scanned and two of my old projects. That is why I am more careful now sharing projects that require no effort to copy/sell while all the hard work is in the idea or the development. Check
http://www.rbarrios.com and you'll find I share most of my work.
HighVoltage/dundee: I donĀ“t have a E364xA so I can't try with it. I do have a E363XA but the display is fine, I don't plan replacing it. Maybe if there was enough interest I could get one in the future.
taemun: The original plan was to tap the data going into the VFD controller, but it turns out it uses two VFD drivers (Allegro ICs, I can't check the part number now). The display segments are divided in four groups and each group is on and refreshed one at a time (by the way, the ICs do that again for each segment in each group, even faster). I could not find a way for the PIC to keep up at that speed. Then I found the controller on the main logic board and the controller on the front panel board talk to each other using a serial protocol. The PIC decodes that and drives the OLED.
The hard part was understanding that protocol, using any another type of display should not be difficult as long as it can be controlled quickly.
Neganur: It will display anything, including low current mode too. Even if you show custom text on the VFD by sending GPIB commands, you will get them on the new display. The only thing that can't be presented is the SHIFT segment (you can see that in the video), because that is not sent to the main logic board, it remains internal to the front panel controller and I am not tapping there.
linux-works: There is nothing currently soldered anywhere. I have only a PIC development board and the LED module connected with jumpers. Still lots of things to decide.
I also put replacement parts inside equipment if I know they will eventually fail and are hard to get :-)
timb: I chose the OLED module because it had a similar form factor and was the biggest that could fit. I have some ver nice HDSP LED dotmatrix displays but they are very small (and very, very expensive).
Macbeth: Yes, I do believe it should work with the 6632A.
I already tried that rejuvenation process to the VFD of the Keithley 2000 and all I got was a lot of wasted sweat. After running some current on the filaments, It did not get any better.
dunkemhigh, dundee: Thank you, I Will keep you posted.
Thank you all for the interest and feedback,
Roberto EB4EQA
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