computer power supply

Thread Starter

hobbyist

Joined Aug 10, 2008
892
Hi,
Does anyone know how I can get a computer power supply to turn on.
This is the kind with the soft off feature.

labeling shows:

+3.3v 24A orange
+5v 35A Red
+12v 12A yellow
+5vSB 2A purple
-5v 0.5A white
-12v 0.8A Blue
PS-ON Green
P.G Grey

I'm assuming P.G means Power Ground.
and PS-on is to turn it on.

Do I connect the green wire with one of the +volts?

Thankyou...
 

SgtWookie

Joined Jul 17, 2007
22,230
In the Instructable, the author says he snipped off all but one of the ground wires close to the PCB.

I don't recommend doing this, as a single wire won't support the current that the supply can put out. I used solder lugs to attach the wires to banana jacks.

Note that many banana jacks have low amperage ratings. I used a pair of 10A rated jacks for my +5v and +3.3v supplies, as otherwise the voltage drop across them would have been too high when powering heavy loads.
 

Thread Starter

hobbyist

Joined Aug 10, 2008
892
In the Instructable, the author says he snipped off all but one of the ground wires close to the PCB.

I don't recommend doing this, as a single wire won't support the current that the supply can put out. I used solder lugs to attach the wires to banana jacks.

Note that many banana jacks have low amperage ratings. I used a pair of 10A rated jacks for my +5v and +3.3v supplies, as otherwise the voltage drop across them would have been too high when powering heavy loads.
Thanks for the excellent advise.

Thanks for the links Bertus.
 

studiot

Joined Nov 9, 2007
4,998
Actually you can reduce the number of ground wires if you are not powering something as complex as a computer.

The plethora of black wires is not to do with total curent handling, if you think about it there need be no more black wires than rail voltage wires, since they are generally all the same gauge.

The reason for the extra ground wires is that they are taken to a star grounding point within the psu to prevent the large circulating currents causing small ground potential differences in different parts of the circuitry and upsetting the logic levels etc.
 
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