Posted On: Mon, Dec-09-2013
Written By: Tazz
Title: How to turn on a second PSU.
Introduction: In today's article we are going to explain how to turn on a second PSU by using a Fog Light Relay.
Let's start by getting all of our parts together.
First we need a 4-pin, 30A, 12V relay. These will have four to five terminals on them labeled 85, 86, 87 and 30. These are VERY common in junkyards. So if you have access to a U-Pull-It yard, you can score one for free. Look in the VW/Audi section. The older the car the better. The fuse panel is just above the clutch pedal.
They're typically referred to as "fog light relays" because they always come with fog light kits. Essentially, a 12V current from the ignition (the car's ignition coil) comes into terminal 85, which then goes through a coil and then to a ground on terminal 86. When this happens, whatever is on terminal 30 (usually voltage for the fog lights) is bridged over to terminal 87 (the fog lights.)
Some of these relays may have an 87A terminal. This is where the voltage on terminal 30 goes when 85 is not energized. We don't need this terminal, so don't worry about it.
If you can't find one in a junk yard, you can buy a new one at an auto parts store for as little as $5 or $6.
You'll also need four female disconnects, preferably insulated. These are going to get crimped to your wires and pushed onto the terminals of the relay. Typically, we all have these laying around the garage because they can be bought in boxes of 100 at a time. If you can't find your box of female disconnects, go to the same auto parts store you bought the relay from and buy a box of 5 for $3.
Now we need something we can plug into our "main" power supply. Something that will take 12V from the power supply to terminal 85 on the relay. I use a simple four to three pin fan connector. I cut off the three pins so now I only have a four pin Molex with a 12V and ground lead coming off of it. I crimp a female disconnect on to each of the two wires.
Here I'm crimping the terminal to the end of a wire from the fan Molex. I suggest using insulated terminals, but if you use cheap crimpers (like me. I couldn't find my Kleins) I suggest removing the insulation before doing the crimp, then sliding the insulation back on.
Here's my fan Molex hooked up to 85 and 86 of the relay.
Finally, we need to get the turn on signal from the auxiliary power supply to the relay. The cheapest way to do this is with two wires and two wire taps. Put a tap on the green wire and a tap on a black wire and put a female disconnect on the other end.
I'm going to be a little fancier. I have a 20-to-24 pin ATX adapter that I'm not using. I cut the green and a black and put my disconnects right on the wires. Bad thing about this is that I now have 22 other wires just hanging with nowhere to go. What I'll eventually do is just take a pin extractor and pop all of the unused wires out of the ATX connector. The end result will be a female ATX receptacle with two wires coming out of it: A black and a green.
So take the 12V lead from your fan Molex and put it on terminal 85 of the relay. Take the black wire and put it on terminal 86. Now take the green wire from the axillary PSU and terminate that to terminal 30. Take the black from the axillary CPU and terminate that to 87.
Here we see the green and black wires from the ATX connector going to terminals 30 and 87.
That's it. Now when the main PSU is turned on, and the Molex is live, the relay is energized and the green wire on the auxiliary power supply is grounded in turn telling that power supply to turn on.
The Thermaltake in the back is going to energize the relay via the fan Molex. This will then bridge the circuit of the green and black wires of the 20-to-24 pin adapter that's plugged into the Aerocool. So what we have here is; the Thermaltake is the main PSU, turned on by the motherboard, and this in turn turns on the Aerocool which may be used for a Peltier, fans, CCFL's, pump, etc. Make sure you don't load the 12V up too much without having something on the 5V as well (even a dummy load resistor) or your 12V will go out of spec!!