Sir Bastien01. . . . . . .
I'm currently studying the board of an old video enhancer of the 80s.
With that meaning that you are going to use it to enhance the high end slope of a video waveform for less degradation in its being copyied over to a second tape . . . . .or that you are using it to be a way
around "Stop Copy" or "Macrovision" in the duplicating of a commercial Movie / tape.
The DVM that I have can do hFE but I don't have the optional adapter required to use it.
I will be telling you of a safe pull so that you can plug in the transistor . . . . but here is how I would make my own adapter.
My . . . My . . . .My . . . . now, this is where your real "Canadian ingenuity" comes into play, you should find that a 1/4 watt carbon resistors lead should be a snug fit into that meters transistor socket.
Cut three 1/2 inch lengths of that size of wire and make center L bends , then get three lengths of lighter gauge hook up wire and solder tack them to the L wires ends. Then the neatest thing to use is 3 of these.
Hook clips that connect to the loose wire ends and then the test clips clip onto the transistor being tested.
The hook clips are cheapest from Radio Shack, if Canada has, or ever had such.
You could color code each with paint or label with stick on tape .
That adapter should then hold a solid electrical connection to let you test a transistor.
If you like it and want to make a socket, use some of the 2 part clay consistency epoxy that you finger knead to mix and warm up.
Tear off a mixed piece that is then formed into a cylindrical "bullet" that is a bit larger in diameter that the 3 wires spacing to each other.
Straighten the L bends out, so as to then be raising straight up from the socket connection .
NOW you have to move pretty fast to . . . . .
Feed the bullet down to within an 1/8 of an inch of touching the transistor socket, compress the wires inward to embed within the epoxy a bit then add a bit more of epoxy around the outside, if the wires didn't embed well..
Unplug from your socket and square off the bottom of the blob, smooth the sides and plug back into the socket to hold pin alignment and let it cure overnight.
You should now have a test adapter for the future.
To test, i'll need to desolder it, I really fear to damage it, any advices other than not heating to much?
75 years of progressively refined and enhanced experience . . . is now coming forth:
Use an acid brush and /or / cotton "Q" tips and a degreaser to clean the transistors solder blobs. Blot dry with paper towel .
It looks like all of your transistor leads are straight in and out of their PCB holes, its just usually just big time production boards that use flow /wave soldering baths and have their leads splayed at an angle a bit.
Get a damp washcloth /or / cellulose sponge to the ready and tin the tip of a 40-60 watt soldering iron until it shines like "Chrome City". Have the board flat with transistor leads pointing up .
Put a drop of rosin soldering flux atop each transistor connection, have solder in hand and move in the soldering iron to your first connection and ADD solder . . .up to the size of a BB . . . then
move in with the cooling option above to cool the warmed joint . Move to the fartherest joint to be the next connection worked on and repeat and then finally do the third and final connection.
You now have 3 connections floating in solder beads, so now use one hand to grip the transistor to pull out and check the soldering tip for "Chrome City" tinned condition again.
If OK, then slant the soldering iron tip so that it will touch all 3 solder blobs simultaneously . . . . . and BLAMMMMMMMM . . . . that transistor will pull out, totally free, within 211 milliseconds, immediately, move it up to your lips to blow it cool.
Then plug in and test.
We are curious about that mystery transistors pedigree . . . .(Beta)
Thasssit . . . . .
73's de Edd