Author Topic: Philips PM6654  (Read 2522 times)

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Offline capt bullshotTopic starter

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Philips PM6654
« on: July 18, 2020, 11:43:59 am »
Edit: See the complete report here: http://wunderkis.de/pm6654/

Got an nice instrument from eevblog member Ice-TEA, supposedly in a defective state, just to have some fun with it:



It's alive and at least does something but showing the E4 message:

So the normal eevblog member would follow the "don't turn it on, take it apart" workflow. For some particular reasons (basically because I'm curious), I decided to turn it on before I take it apart. Nothing happened, the display was blank, some LEDs were lit at the front panel. Randomly pushing and turning buttons and knobs revealed this:

The A and B inputs apparently worked, since I could turn on and off the trigger LEDs by changing the trigger level. With an input signal applied, these LEDs start blinking, showing the input is working to some extent.

So one might think now, at least some analog supply is alive, operating the inputs, but maybe the digital supply is dead. The next step shall prove this assumption wrong:

Pushing the reset button brought some more life into the unit, the display showed a row of zeros and more buttons operated something else but the button was intended to. E.g. one of the numeric keypad buttons changed the mode. Normally one is intended to change this setting by the arrow up/down buttons.

OK, We've at least power to the digital components, and the processor does something though not what it's supposed to. Maybe there's a faulty EPROM?

Now I've tried to hold the reset button while turning on the unit. This apparently works, the display shows "E4" now. Pressing the reset button again now brings the unit to a somewhat better state - still no counting or measurement working, but all the buttons work as expected, and one can read out e.g. the trigger level settings.

So the power on reset circuitry most probably is toast in some way.
I had to look up "E4" in the manual (didn't read that until now). It's an internal self test, indicating "Measurement Logik Fail". First step in the fault finding flow is to check the int/ext ref source switch (so I did, was OK), next is to swap the "COAC" ASIC. Can't do that, since this chip most probably is unobtanium now. So my next thought was: That darn COAC (counter on a chip) ASIC might be dead, could one replace that by some CPLD or FPGA stuff if neccessary? For sure this would be an interesting task!
Reading the manual revealed some more self testing procedures, this showed "E4" as the only failure. So RAM and EPROM and other stuff is considered OK now.

More playing around shows the counter can display the "Hold Off" setting (time), though the knob doesn't work.

The knob is stuck, one cannot turn or pull, obviously another point to repair. According to the manual, a special internal path to the mighty "COAC" is used to display the "Hold Off" setting. So now, I came to the conclusion, the COAC is OK as it can measure this setting. Phew.

Now, with Hold Off turned on, the counter actually shows plausible frequency measurements up to around 200kHz. Above its garbage.

This is another hint the COAC most probably is fine, but the CEX board might be faulty, as this acts as a prescaler and high resolution extension to the COAC.

See some preliminary teardown pictures here:
http://wunderkis.de/pm6654/teardown/

So up to now, this looks like an interesting fault finding and repair process to happen. I'll keep you updated here.
« Last Edit: July 24, 2020, 06:38:19 am by capt bullshot »
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Offline FransW

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Re: Philips PM6654
« Reply #1 on: July 18, 2020, 12:00:53 pm »
You might want to check with SaabFan.
He owns (?) 1 and developed a 4GHz prescaler:

PM6654C (with Self-Made Prescaler-AddOn)
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PE1CCN, Systems Engineering, HP, Philips, TEK, BRYMAN, Fluke, Keithley
 

Offline ArthurDent

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Re: Philips PM6654
« Reply #2 on: July 18, 2020, 04:28:17 pm »
Here's a photo of one of my PM6654C counters to show you what it looks like in working condition. Mine have the high stability timebase which is also nice. One of the PM6654C counters I got had a problem and I don't remember the symptoms now but the problem was the large electrolytic in the power supply went open. I replaced it with a 10000uf/63v capacitor that had different pin arrangement but still fit nicely and was readily available. Might be worth checking.
 

Offline capt bullshotTopic starter

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Re: Philips PM6654
« Reply #3 on: July 19, 2020, 01:26:21 pm »
Some progress, but no fault found yet:

The CEX board has some means to generate 100MHz and 500MHz reference frequencies from the main 10MHz ref.



So I decided to check them. Of course, the real schematic is a bit more complex than the above block diagram, and the main CPU can turn off the 500MHz multiplier if it isn't needed. Switching of the 500MHz is controlled by IC712, Pin 6 (the Signal is labelled K12). The CEX board uses a wild variety of logic circuits, ranging from HCMOS to ECL. Interfacing between the logic levels is done by various methods, often just resistors.



So the K12 signal finds its way into the ECL gates (IC704), effectively disabling the input signal to TS719. The PM6654 must be set up in a way the 500MHz is enabled, the manual provides some instructions. If you choose to ignore them, basically turning on and off "Hold Off" switches the 500MHz on and off in "Freq A" mode. This matches my observations above.

The manual specifies an amplitude of 500...800mVpp at the 500MHz test node (R742, R718, R766 ... junction). Using a FET probe, I found the amplitude at about 200mVpp. 500MHz amplitude



This clearly is on the low side. The SP8635 datasheet specifies 400...800mVpp for this chip to operate, though there's a diagram showing that it just might work anyway. The SP8635 is the first decade of the "TIME COUNTER", where the 500MHz is routed to.
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Offline Ordinaryman1971

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Re: Philips PM6654
« Reply #4 on: July 19, 2020, 02:08:49 pm »
Great project, please post some pictures of the insides as well, I wonder how different that is from mine PM6680/PM6681
 

Offline capt bullshotTopic starter

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Re: Philips PM6654
« Reply #5 on: July 19, 2020, 02:58:57 pm »
Great project, please post some pictures of the insides as well, I wonder how different that is from mine PM6680/PM6681

I did (in case you didn't notice that): http://wunderkis.de/pm6654/teardown/
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Offline capt bullshotTopic starter

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Re: Philips PM6654
« Reply #6 on: July 19, 2020, 06:05:20 pm »
Now take a look at the schematic diagram again:



Pin 6 of IC702 outputs a 100MHz signal that is coupled through C747 into Pin 14 of IC703 (said SP8635). Depending on some control signals, there's nothing, 500MHz from the multiplier circuitry or 100MHz from IC702 at Pin 14 of IC703. Signal "K12" that enables 100MHz to Pin 10 of IC702 when the 500MHz path is disabled. One can find this 100MHz signal here. It never showed up at the output (Pin 6). This is because one of the other inputs (9, 11) is at a constant "HIGH" level.

This made me believe there's something wrong within that convoluted logic circuitry. It's just logic gates and a few D-type registers, but the sheer amount of them (look it's half a metric ton of ECL gates) and nets drawn in a rather confusing way (someone must have had fun bringing the whole circuit onto one page) doesn't make it easier to follow the signals.

Anyway, the Philips engineers were nice people and provided the unit with a special test stimulus mode and a whole set of pulse diagrams what to expect where. Read the manual for details. This is a real useful feature for debugging this kind of circuitry.

Basically, this test mode provides the inputs of the logic network with a repetitive stimulus pattern on most of its inputs and specifies resulting pulse patterns for many nodes that one can verify with a scope. This way it's way more easy to follow the signals through the circuit and locate faults.

So I hooked up the scope according to the instructions and checked the first signals. Two out of four were a fail, so yes something must be bad here within the logic circuitry. The manual recommends to check all the "blue" signals now, these provide the input for the feedback circuit that should be checked first.

I continued checking signals and found something weird at IC715.


Pin 11 receives a pulse train that is a common reference for the whole signature test. It's the yellow trace, the other trace shows the input signal at Pin 10. Some interesting side note: The outputs of IC723 (9) and IC715(14) are just tied together and fed into the next gate. With ECL logic, the result is a wired-OR of these outputs.



A properly working "NOR" gate now should pass the inverted pulse train to its output while Pin 10 is "LOW" and output "LOW" while Pin 10 is "HIGH". Here, the output signal just looked like the inverted input. So one would think, IC723 is defective. As 10k ECL gates are a rather rare species today, I don't have one to simply swap that IC. But there's an open input at Pin 13 of the same IC, while Pin 12 receives the same pulse train. As expected, Pin 15 outputs a copy of the input. By tying Pin 13 to Pin 10, this gate should work as the other one is expected but doesn't. But ... this gate doesn't work either. WTF?

If one examines the pink trace closer, one might notice the "HIGH" level of the signal doesn't reach the ECL "HIGH" level. It switches between near 0V and around 3.5V, aligned with the "LOW" level of the yellow trace. So this input never reaches ECL "HIGH" and why should the gate gate the signal then?



Measuring the supply voltage of IC708 and IC712 (that's where the signal mentioned above originates) revealed a rather lowish 3.6V. Looking at the schematic diagram, it's supposed to be 4.3V provided by one diode drop from the 5V supply.

Providing an external 4.3V supply here changed the signals to this:



Better, isn't it? Now reverting to normal mode, the counter showed a plausible result for a 100kHz input signal at its full resolution ("Hold Off" turned off). The self test still shows "E4", so there's bit more left to do.

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Offline capt bullshotTopic starter

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Re: Philips PM6654
« Reply #7 on: July 24, 2020, 06:33:48 am »
Replaced that diode (GR704) and carried on. The diode had failed open, so one could expect IC708 and IC712 to receive no supply at all, but there was a 3.6V high level signal at its outputs. This is quite common with CMOS ICs, the chip receives its supply through the ESD protection diodes from inputs at "high" level, or outputs with attached pull-up resistors.

Next fault turned out to be intermittent. Sometimes the unit started working fully OK, sometimes showed "E4" again but worked then and sometimes it couldn't even be bothered to display a measurement with "Hold Off" turned on.

A few days later, to my luck the intermittent fault turned into a permanent fault. So I started again to check all the CEX board signals using the above signature method. So I quickly discovered IC712 having all its outputs static while some of them were supposed to toggle. Next check would be its input signals (would be OK, since IC708 did put out the correct signatures) and the /C2 signal at P11. Bingo, that signal was just missing.



Further inspection showed one pin of this connector was contaminated with some sticky whatever. Cleaning the pin and the connector fixed the fault. Just to be sure, I've cleaned the other connector too. When I first openened this unit, afair the calibrations stickers looked not broken, but there were clear signs of someone has been into the counter before: Some screws fixing the IEC and CEX boards were missing. So maybe one had touched that connector with sticky fingers or whatever.



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Offline capt bullshotTopic starter

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Re: Philips PM6654
« Reply #8 on: July 24, 2020, 06:35:13 am »
The power on reset still wasn't working as desired. The Philips engineers couldn't be bothered to describe the operation of the state machine controlling the counters brains (that's what I've diagnosed with that signature analysis above). Instead they provided you with well-made instructions for fault finding. For other circuits, they've put a nice description of how it is supposed to work into the manual. So they did for the reset circuitry. Having that and the schematic:



it was a rather easy job to find the fault. Turned out Pin 6 of that 555 (IC208) wasn't connected to the rest of the circuit. Further inspection showed "there's someone been here before" and most probably de-soldered IC210, IC208 and some of the components around.



Looks like he'd just missed (or caused) that broken trace from GR231/R290 to IC208 Pin 6. One cannot see that in the photo, most probably the trace is broken at one of the pads. Fixed that, and the reset circuitry worked as desired.

See the complete report: http://wunderkis.de/pm6654/
« Last Edit: July 24, 2020, 06:37:28 am by capt bullshot »
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Offline srb1954

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Re: Philips PM6654
« Reply #9 on: July 24, 2020, 07:12:17 am »
What is the make of the blue scope probe holder?

Does it have a good fit on small 2.5mm dia probes?

Thanks
 

Offline capt bullshotTopic starter

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Re: Philips PM6654
« Reply #10 on: July 24, 2020, 07:23:39 am »
They come with probes from the German brand "PMK", this particular one beeing "PML 211".
www.pmk-gmbh.com
Fits their slim (5mm shaft, as photographed) and standard probes.
Their slim probes have a thicker portion of the shaft (5mm) fitting the probe. Thinner shafts won't work well.
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Offline srb1954

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Re: Philips PM6654
« Reply #11 on: July 24, 2020, 08:05:20 am »
I was looking for a holder for my sub-miniature Tek P6131 probes. The sleeves on these have a 3.5mm dia. which expands to 6.5mm at the top.

Does this holder take a 6.5mm dia. sleeve?

Thanks
 

Offline capt bullshotTopic starter

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Re: Philips PM6654
« Reply #12 on: July 24, 2020, 08:29:48 am »
Yes, 6.5mm fits into the outermost (C-shaped) hole.
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Offline Ice-Tea

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Re: Philips PM6654
« Reply #13 on: July 24, 2020, 12:56:16 pm »
You sure got your money's worth of repair entertainment  >:D

Great job, nice to see such a nice machine making a full recovery!
 


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