Part III
Still not satisfied, I continued searching. Until I found some more exotic DMMs. One seller offered 2 Nordmende DIVO 3362 (separate auctions ending 3 minutes apart) that looked interesting (and, a day before auction's end, dirt cheap). Marvels of german engineering!
This time also I could not attend the auctions end. I bid on both, maybe a bit more than I really wanted and with a small difference, hoping to get one. One, just one. Got both, and the price was only slightly below my bids. Grrr. Not even did I get a discount on the shipping costs.
They arrived on Thursday. Plugged in first one: It showed "+0 " - the 2 rightmost digits stayed black. Plugged in second one: It showed " " i.e., nothing at all. It was also hard to switch on - the mains switch didn't like to move.
Since this one already was on my desk, I started with it. Mains fuse is blown. I decide to build a small box that sits between my variac and the DUT and lets me easily measure the current. This is when I also decide to use that variac/ammeter approach for all new gear. (I looked at the Datapulse after the DIVOs, for those who read Part II; the stories are in auction order).
Replace the fuse and crank up the voltage slowly. Way to much current drawn - the 100 mA would be met before reaching 60 volts. Find 2 caps with dead shorts. At 230 volts, it still sucks 160 mA (fuse is holding for a while), and voltages look about right. The display shows "+. " with a rather bright dot. No digits, though.
I've printed the schematics (4 pages), but the scan is not the best quality, and the parts are too distorted to glue them together. This makes reading them rather hard, and after a while, I give up and turn my attention to the other one.
This one draws only 65 mA. Off goes the front. The display consists of 2 panaplex displays, a SP-351 (±1) and a SP-352 (88). Having seen by Onno's 3362 page
http://www.glowbug.nl/neon/NM-DiVo3362.html, I pull the metal mask away so I can see the keep-alive dots. The SP-351 glows, the SP-352 does not. So I check the anode voltage at the drivers - all in the same ballpark. Looks like the SP-352 is a dud. Now I see firsthand what Onno described: The keep-alive cathode pins are bent down, prolonged with a short oiece of bare wire, and soldered to a narrow daughter board. (The display is already removed on the photo.)
Two things make me think. First, the display socket is cut out for the pins to be accessible. Second, the narrow strip is FR-1 (or FR-2), while all other boards are of higher quality. This looks a lot like they originally did not intend to use the keep-alive electrodes and later found out that they must be connected.
Engineer: "Sir, we, erm, found a quirk with the display of the 3362."
Project Leader: "What quirk? It does work, doesn't it?"
E: "Well, yes, it does, but ... But Sperry told us that the keep-alive pins must be connected for the display to keep working. We need to make a new display board."
PL: "A new display board? No way! We've just ordered a batch of half a bazillion. You find a workaround!"
And the marvelous german engineer found a workaround. The design, however, had lost its marvel appearance forever. Those stains can't be washed off.
But maybe I'm totally wrong and they did design it that way from the oustset. (Any layout person worth its salt should have been able to squeeze another 4 resistors on the display board, though. The array of 100 k resistors is another story.)
In order to verify the panaplex display, I make a simple checker:
First try without capacitor didn't work, tried with the definitely working SP-351 as well. After adding the cap, the SP-351 worked. The cap needs a bleed resistor, so I add one as well, but the cap must be manually plugged in there to discharge it. No big problem. So I think. Until I hear my variac make strange noises when I turn it up, followed by silence. Ugh. After discharging the cap, I plugged it on the wrong side of the diode.
100 µF at the variac output. Luckily, the fuse in it blew before the cap sprayed its innards all around the room. I fucked up big time, but got away with it.
I disassemble the other DIVO as well and check its displays, too: Both SP-351 work, both SP-352 are dead.
So much for my luck.
Then I get the box with the panel meters out of the cramped attic. Sure enough, there's one with a panaplex display, but that is a 4½-digit one, so it might use a 3-digit module. I get lucky. The leading module has 3 "digits" (±188), followed by a SP-352. Bending the pins down makes me cringe, but what needs to be done must be done. After putting it in, I now have a 2½-digit display, the last digit is missing. Unsolder again, pull it out, and sure as hell the anode pin now lies flat at the display.
I'm able to pull it up and straighten it out without it braking. Those pins are quite finicky! At second try, I succeed in pushing it into its socket without bending a pin. Lo and behold! The thing works! As I have no double sided sticky tape, I use a bit of hot glue to fix the mask. A bit of cleaning the whole thing, then a sloppy calibration. 10.04 is within the 0.5 % from 10 volts as specified. Resistors look OK, too.
Now what was all this for? Will I ever use this instrument? I highly doubt it. Did I spend all that money and several hours just for a single forum post? Or because I could not even dream of such a meter at its time? Was it worth killing a perfectly working (and more precise) panel meter for it?
This acquisition made me very uneasy.
Note: I started this posting around 13.15. At 14.00 I saw the weather improved to a point where I remembered my promise to mow the lawn (Did I say lawn? My backyard's more like a meadow). Finished with that, I had to bake my cake (Saturday's it's coffee and cake as lunch & dinner), already an hour late. Now it is 19.45. Do I get a price for taking the longest time ever to finish a posting?
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Topic: Test Equipment Anonymous (TEA) group therapy thread (Read 18798640 times)