I think I have to face that I am starting to suffer from GAS.
I have been a big fan of electronics ever since my parents bought me my 100-in-1 experiment kit when I was 5-6 years old.
I got another when I was a bit older. I got to use the cheap-and-shitty meters of my grandfather (who just needed it to see if there was or was not 230 V on this lighting fixture).
When I was 16 or so I finally saved up enough money to by my own meter. Back then I conisdered the 80 euro's I spent on it a big investment, and I still have this meter and use it a lot today. Sure, it's just 2000 count and I don't trust the safety rating that it comes with, but it measures voltages and currents.
When I was 18, my neighbours found an old (late 70s vintage if I remember right) Philips PM3244 in their attic. They gave it to me for free. They thought it was broken as it didn't do anything, but it turns out that the thing just doesn't show anything unless you set the trigger right. But it swiftly blew it's ouput filter capacitor, and that was that...
But it all went downhill from there. I had no clue how to fix the scope, so it sat there for a while. At this point all I had was my multimeter and a general-purpose switching power supply that had a small setscrew that allowed me to select 3, 5, 7.5, 9 or 12V output. But this was enough for me to already build a bunch of experiments.
But one day I decided to take another look at that oscilloscope. ''It's no good sitting there'', I thought, '' might as well try to fix it, it is broken anyways''. And I quickly realized that the mains input filter was simply a short - replaced it with one with similar rating, installed a IEC power jack and been using it just fine ever since.
And then it all went down hill... The scope allowed me to see just how shitty this power supply I was using was. At this opint, I was also starting my last years of my bachelor EE, and I got an interest in analog circuit design, and none of this digital-counting-to-one stuff. But analog needs a lot of voltage rails! Better get me some powersupplies! And to ebay I went, and I found myself two HP 6253A, of which one had a broken channel. I still need to fix that, but I have other stuff on the to-do list now. Just a bit later, I got an offer I couldn't resist from Omicron here - a good lot of test gear for a very good price! I got a nice Tektronix TBS1052B from that, but the main thing was the AFG2021 which has been one of my most used and loved pieces of gear since that day.
Just a few weeks later I spotted an auction for a lot of gear and components, and for just 90 euros I came to own a litteral (small european) truckload of components and some more test gear. Old stuff, such as two counters (PM6667 and PM6661) and a old multimeter. Also got some ancient signal generator that goes up to 100 KHz.
I decided at that point that I needed to get my first "big-boy" multimeter. I had my eyes on a keithley 2000, but they were still expensive. I spotted an offer of two "broken" philips PM2527 multimeters - 4.5 digit 20000 count bench meters but with a 200 uA range. I went in for it and ended up with one that was dead (transformer was blown) but one that I could perhaps fix.
The display was broken so I had to build my own using LEDs and some perfboard. With that done, I discovered the next fault: one of the ranges was not working propperly.
This was my first "real" repair. Sure I had fixed some other stuff, but I always considered this to be "cheating". Blown mains filters or fuses, nothing that actually required circuit-level work. But this was different - one of the ranges wasn't working, and I traced it first to a relay that wasn't switching in the front-end, which led me to investigate the logic, where I found that the input wasn't changing, which turned out to be because of a dead optocoupler. I replaced it and it came to life. I was so proud (still am, really).
I wanted to use this meter but I could tell that it's callibration was a mess. References which I had measured at my uni showed that the meter was off by a few percent at least. So I needed something better to calibrate it. Instead of getting a lot of references, I decided to bite the bullet and buy my first "high-end" DMM: a keithley 2000. Using this I calibrated my PM2527.
And now recenetly I found that the AFG2021 was limiting my ability to do some experiments: I wanted to measure the distortion of some amplifiers but the minimum output power of 35-ish dBm was already pushing the high-gain amplifiers close to their rails. I could have built a few attenuators but I didn't trust the performance of diy-attenuators at 1-10 MHz. So I went looking and orderd a 8657A on ebay the other day... should be here after new years. Just means I need to get myself a N-to-SMA adapter.
Now the next thing I already am looking at is a spectrum analyzer... Would really be usefull to get one, as this is also a vital component in repairing any RF gear... Oh, and a propper LCR meter would also be nice...
The main realization I made a few days ago is that the main reason I buy this equipment is to repair and verify the other equipment I buy... which I then use to repair and veryfiy the other equipment I buy... which I then use to repair and veryfiy the other equipment I buy... which I then use to repair and veryfiy the other equipment I buy... which I then use to repair and veryfiy the other equipment I buy...
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Topic: Test Equipment Anonymous (TEA) group therapy thread (Read 18799330 times)