to start, this is a modified 20 to 20+4 atx adapter. i added an on/off swiche between green and ground, making it so you can test ps voltages/fans/other devices without a motherboard.
obviously, it works with 20+4, but also regular 20 (line up green wires)
Well, this was already in the Test Equipment section but I made a home-made gadget....
The KeriProductions ATX338 Load Tester for ATX Power Supplies.
It provides a convenient set of fan-cooled resistors to load up a PSU while providing voltage readings and scope outputs. The total load is roughly 338 watts which is enough to cause most PSUs to ramp up the fan speed and more than enough to kill a cheap PSU.
It works exactly as intended and is a great help for checking Power Supplies.
The prototype has digital voltmeters. I'm working on an analog version that uses Analog meters and maybe silkscreened markings instead of a stick-on Inkjet label.
It's not too bad for someone that isn't all that great at electronics, is it?
Keri
PS. Thanks to all here for the great advice on how to build and use it, especially Oklahoma Wolf.
PPS. Oh! I once made a special pliers thing out of a pair of Vise Grips. Well, I did have someone weld it for me but it was my idea. No pics though.
Is there a special tool to remove those ~!@#$%^ Intel push-pins in Socket 478 brackets?
Dell uses these to secure the board to their removable metal tray.
They are a serious bitch to disconnect.
Hi Bgavin
The easiest way to remove the Pins of Pain is to merely push them through from underneath.
Otherwise, you're left with trying to pry them up from above which is, well, a pain. You might want to modify a really small screwdriver by bending the tip 90°. You probably want to heat the tip first on your stove so it will bend instead of break off.
Omg! S478..... Don't see too many of those anymore.... except to upgrade.
like the core2 duo- not until now is releasing the i7... quickpath is SOOOOOO... behind- amd has had hypertransport for... long enough to say intel is lagging behind a bit in the race. in the core 2 days, socket am2+ was rolling baby!
The easiest way to remove the Pins of Pain is to merely push them through from underneath.
Yep.
This is still a VIGOROUS undertaking.
The push-pin is blocked by the end of its outer assembly, so you have to push from an angle.
I find these damn things INCREDIBLY tight fitting.
Taking a pin punch and hammer to a planar board is so wrong, so many ways.
In my earlier life, I was an ASE certified mechanic, so I'm no stranger to building my own tools. A quick pass with the arc-torch provides sufficient heat to bend tools into interesting shapes. I have an old screwdriver bent 90 degrees to function as a lever pry bar. I should cut a slot into the blade so it can grab both sides of the top hat on the pin.
S478 retention brackets are ugly, shitty work.
If the machine was standard, instead of a Dell, I would replace with a metal screw-down bracket, and Thermalright XP90 cooler. But.. it's a Dell.
some on the gx270 are very tight.i sometimes put a tiny bit of oil on the center pin from the bottom.let it wick in then push it out.rather not stress the board forcing the pin.
i have to watch myself when it comes to force.my friends say i could break an anvil.i break lots of tools too.
better than socket a/370/7/5 where one bad move and the fan clip beaks the socket
thats where the socket 478 design comes from. removable clip system allows for better fan support and easier fan removal/installation. if you're lucky, the mobop bracket uses screws not clips... thank god lga775 uses screws without clips
I made a shovel out of a log once. - Power tools weren't allowed.
Made my own O-ring extractors out of SS rod.
Built a gas furnace out of scrap 1930's furnace parts. Added the safey shut-off and a thermostatic control. [That was back in the '80's. It's still in use.]
Made a tool to remove lock ring nuts [big] on power steering gear boxes.
I got the bent screwdriver deal too.
I made this thing to test model rocket chutes when I was a kid.
Cats really don't like being the test weight.
Custom made a power steering assembly for a car the never came with PS.
[Full power steering with hydraulic cylinders, not 'power assist' like most cars have.]
Made my own coil spring compressor. [Automotive / Front End]
No one makes one that works for that particular car. Really freakin' BIG springs.
I tried the standard tool and snapped two of them [the threaded rod] in half.
Made my own bushing press. [Also for suspension work.]
Made a bug catcher. Used a box with holes and a light bulb inside.
BIG fan in one end blowing into a nylon stocking for the 'collection' area.
I also cross pollinated Indian corn and pop corn to get multi-colored pop corn.
That takes two growing seasons to get the end product.
When I worked in a factory situation I made this clamp that would pinch off 100 PSI air hoses without cutting them so localized air leaks could be fixed without shutting the whole line down. A lot of machines there used air cylinders so there was always some hose somewhere coming apart at the end. [Whoever set that place up didn't believe in marking isolation valves.]
Too many to list really.
.
Mann-Made Global Warming. - We should be more concerned about the Intellectual Climate.
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Be who you are and say what you feel, because those who mind don't matter and those who matter don't mind. - Dr Seuss - You can teach a man to fish and feed him for life, but if he can't handle sushi you must also teach him to cook.
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Well, this was already in the Test Equipment section but I made a home-made gadget....
The KeriProductions ATX338 Load Tester for ATX Power Supplies.
It provides a convenient set of fan-cooled resistors to load up a PSU while providing voltage readings and scope outputs. The total load is roughly 338 watts which is enough to cause most PSUs to ramp up the fan speed and more than enough to kill a cheap PSU.
It works exactly as intended and is a great help for checking Power Supplies.
The prototype has digital voltmeters. I'm working on an analog version that uses Analog meters and maybe silkscreened markings instead of a stick-on Inkjet label.
hello all , i m new in the forum , i nnedd to know if the psu checker can to test psu more than 1000 w , thank you very much
It's not too bad for someone that isn't all that great at electronics, is it?
Keri
PS. Thanks to all here for the great advice on how to build and use it, especially Oklahoma Wolf.
PPS. Oh! I once made a special pliers thing out of a pair of Vise Grips. Well, I did have someone weld it for me but it was my idea. No pics though.
hello all , i m new in the forum , i need to know if the psu checker can to test psu more than 1000 w , thank you very much
My little tester is nothing more than a convenient box full of load resistors that are cooled by fans. The important testing is done by Oscilloscope.
I picked the 300 watt range because I felt this to be a good compromise.
300w is adequate to fully load and even overload most Power Supplies used in HP, Dell, Gateway computers.
Even at "only" 330w one must be careful to avoid damaging the power supply. For example, 196w (16A) can be drawn on 12v circuits alone and while not sounding like much this can (and has) kill a PSU.
It also represents the maximum amount of power that any normal single video card computer is likely to draw, so even if a PSU is rated for 500, 700 or even 1,000w it can approximate the most current that is likely to be drawn from it and thus simulate a running system.
Likewise, putting a 330w load upon a 500w PSU may not test it to capacity but will probably stress it enough to give a fair assessment of its condition.
THere is space in the prototype's housing for two more resistors that could put it in the 400w range.
More load would require a larger housing and more powerful fans.
If you would like to build your own, you need to determine what size and type of power resistors to use and how to cool them. Adequate cooling is essential both to prevent dangerous overheating and to reduce the temperature - related de-rating that will reduce the load after the resistors warm up.
yes i going to bluilt one because i think it is very important now to have a good psu for the computer , and psu are very expensive ... to put in the dustbin lol
i find this link this guy making the same thing like your tester but manage with computer very interressting
so http://www.bearblain.com/psu_test_2.htm
i going to make one but to monotoring all 12v1 , 12v2, 12v3, 5v and 3.3 v
thank you for the idea Keri ...
i m to making little lab for testing all stuff pc
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