what is the easiest way to discharge a power supply?
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what is the easiest way to discharge a power supply?
if the safest is to let it sit for several days, how long should i wait before it's safe to mod? thx.!
you want to mod a PSU? well, I did a few mods to my old PSU a old 250W Skyhawk one, and the best way that i think is to pull out all AC power supplies and then carefully screw out the PSU PCB and remove the cable grommet with all the cables intact as well...
I did it a silly way last time I just blocked the area I was working with with cardboard and then took a Nibbling tool to it
it worked okay for a while and then started to do funky things and then after a few hours of use I heard a POP! and then the PSU was all fixed
so a couple of tips
- Give the PSU some time to discarge (someone fill here on times)
- Use a electrical screwdriver like the ones with insulation right up to almost the tip
- Remove the PCB b4 modding the case
- Make sure u remove all the metal shavings/leftovers from your modding b4 putting the PSU PCB back in
- Power up the PSU b4 putting it back into your system with the ole, green wire to ground trick (check this) and run a few fans on it for a while and see if that is okay
- be flipping careful, you're working with AC Voltage here
I did it a silly way last time I just blocked the area I was working with with cardboard and then took a Nibbling tool to it
it worked okay for a while and then started to do funky things and then after a few hours of use I heard a POP! and then the PSU was all fixed
so a couple of tips
- Give the PSU some time to discarge (someone fill here on times)
- Use a electrical screwdriver like the ones with insulation right up to almost the tip
- Remove the PCB b4 modding the case
- Make sure u remove all the metal shavings/leftovers from your modding b4 putting the PSU PCB back in
- Power up the PSU b4 putting it back into your system with the ole, green wire to ground trick (check this) and run a few fans on it for a while and see if that is okay
- be flipping careful, you're working with AC Voltage here
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I am pretty sure that almost all high voltage circuits have bleed resistors in them by default (even start/run caps on ac motors). I was lookin' at mods to my two-bit generic cheapy psu, and thought I saw one on the circuit baord. I'll tell ya, if they coulda left it off they would have, judging by the large number of other vacant spots on board. I think when you kill the main AC power, (ATX should be in 'off' mode) the +5vsb cicuit should kill the bulk charge on the HV input caps, at least down to near empty. Anything after that, if dangerous, should be bled by the onboard resistor. I don't think psu's are like TV tubes, which are so high voltage that they bleed off static for quite a while after.
Anyways, I was in there with my fingers pretty quickly (unplugged of course) and there was nothing feelable left. And I was feeling around for it.
So I would hazard that a minute ought to be tons plenty.
And your next of kin can call my lawyer.... hehehe.
BTW, first thing I did was loose the STOOPID finger grill on the back/outside fan. Just think, fanblades 1/8" from metal. Way less noise right away.
Anyways, I was in there with my fingers pretty quickly (unplugged of course) and there was nothing feelable left. And I was feeling around for it.
So I would hazard that a minute ought to be tons plenty.
And your next of kin can call my lawyer.... hehehe.
BTW, first thing I did was loose the STOOPID finger grill on the back/outside fan. Just think, fanblades 1/8" from metal. Way less noise right away.
Crisspy, Nerotek< Codex & others alike:
As a techy myself, I have used many methods to bleed-off residual voltage from caps after the power has been shut off. I can tell you that if you try to use the screwdriver trick, you could wind up with a facefull of capacitor! Been there, done that!
The best method is using a bleed-off resistor. Depending upon the capacitor & the voltage across the cap, this will define the resistance & wattage.
Two downsides: 1) Determining the right resistance & wattage, and 2) Getting it across the PSU caps. Neither one is easy.
Long & short of it: Leave the unit unplugged for 2-3 hours. As most PSU have some form of bleed-off devices, this should be long enough.
Sorry for the delay in my response.
TerryW
As a techy myself, I have used many methods to bleed-off residual voltage from caps after the power has been shut off. I can tell you that if you try to use the screwdriver trick, you could wind up with a facefull of capacitor! Been there, done that!
The best method is using a bleed-off resistor. Depending upon the capacitor & the voltage across the cap, this will define the resistance & wattage.
Two downsides: 1) Determining the right resistance & wattage, and 2) Getting it across the PSU caps. Neither one is easy.
Long & short of it: Leave the unit unplugged for 2-3 hours. As most PSU have some form of bleed-off devices, this should be long enough.
Sorry for the delay in my response.
TerryW
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Ahem... contrary to popular beleif I did NOT choose my nick for these forums after an unfortunate incident with an un-discharged PSU.
Thank you.
LOL
For the sake of technical accuracy, I propably did touch the traces within 5-10 minutes of pulling the PSU, and I'm still here to talk about it . I think the input section in most PSU's come in through a small isolation transformer (plus step up?) and then maybe gets doubled, then rectified, and charges a couple or three HV resivoire capacitors that everything else feeds from. Of course I turned off the AC side switch and unplugged before removing the PSU. Now the +5VSB regulator, to my knowledge, has no way to tell that there is a lack of AC feeding these resivoire caps, and keeps draining them down. As the HV decreases, the PWM will run higher and higher duty cycle until the caps are drawn quite far down. I think. And my system runs KB and optical mouse from +5VSB, so I see the green led on the mobo (lit when +5VSB present) go dim, then out, within about 5 seconds of AC-off. I recon there ain't much left hangin around, and the bleed resistor should take care of that in rather short order.
Thank you.
LOL
For the sake of technical accuracy, I propably did touch the traces within 5-10 minutes of pulling the PSU, and I'm still here to talk about it . I think the input section in most PSU's come in through a small isolation transformer (plus step up?) and then maybe gets doubled, then rectified, and charges a couple or three HV resivoire capacitors that everything else feeds from. Of course I turned off the AC side switch and unplugged before removing the PSU. Now the +5VSB regulator, to my knowledge, has no way to tell that there is a lack of AC feeding these resivoire caps, and keeps draining them down. As the HV decreases, the PWM will run higher and higher duty cycle until the caps are drawn quite far down. I think. And my system runs KB and optical mouse from +5VSB, so I see the green led on the mobo (lit when +5VSB present) go dim, then out, within about 5 seconds of AC-off. I recon there ain't much left hangin around, and the bleed resistor should take care of that in rather short order.
here it's 30 min...
http://www.mikhailtech.com/articles/mods/psu/
since mine has been disconnected for 6 days, i think i will be fine modding it...
http://www.mikhailtech.com/articles/mods/psu/
since mine has been disconnected for 6 days, i think i will be fine modding it...
To crisspy:
I don't want to bore you (or other readers) with techno-jargon on PSU designs. However, a PSU design in a nutshell:
As I have noted in other forums, the PSU is a switching design. The PSU derives the hi-voltage directly from the 115VAC powerlines (no isolation). The AC voltage is rectified and then filtered with hi-voltage / hi-capactiy capacitors. The purpose of the capacitors is 2-fold: 1) To filter out unwanted powerline noise (60-Hz) and 2) Provide a power reserve. This DC voltage is considered as being the B+ supply (old term from the days of tubes). Yes, I am that old!
The B+ is then switched on/off @ 40-kHz (or higher) and supplied to the switching transformer. The various outputs are rectified & filtered again. The switching transformer is provided with multiple outputs for the many voltage & current outputs.
The capacitors on the B+ supply are designed to handle the demands of the PSU operation and offer little to incoming power fluctuations. Having said this, the PSU will provide reasonable regulation while the AC power is on.
When the PSU or AC power is shut off, the power within the filter capacitors can remain for a fair time. The PSU recognizes the power off condition and the PSU shuts down, leaving residual voltages across the capacitors. Some better PSU designs have "bleeder" resistors across the capacitors and others have none. From a manufacturers perspective, a bleeder resistor has 2 downsides: 1) Cost and 2) Dissipates power when power on (more heat to erradicate).
A good well-manufacturered PSU could have a bleeder resistor and bleed off the capacitors within 1 or 2-hours. The cost would be very low ($0.02 each installed), but could cause manufacturers to lose their market share as the addition of the resistor on 100,000 or more units could cause the lose the possible sale. Manufacturers need to tread a fine line between a quality product & making money. To acheive both, manufacturers 'cut' corners. Hence, no bleed resistor, etc.
In other words: don't expect a bleed-off resistor. Care shall be exercised when servicing or modding a PSU.
Good luck!
TerryW
I don't want to bore you (or other readers) with techno-jargon on PSU designs. However, a PSU design in a nutshell:
As I have noted in other forums, the PSU is a switching design. The PSU derives the hi-voltage directly from the 115VAC powerlines (no isolation). The AC voltage is rectified and then filtered with hi-voltage / hi-capactiy capacitors. The purpose of the capacitors is 2-fold: 1) To filter out unwanted powerline noise (60-Hz) and 2) Provide a power reserve. This DC voltage is considered as being the B+ supply (old term from the days of tubes). Yes, I am that old!
The B+ is then switched on/off @ 40-kHz (or higher) and supplied to the switching transformer. The various outputs are rectified & filtered again. The switching transformer is provided with multiple outputs for the many voltage & current outputs.
The capacitors on the B+ supply are designed to handle the demands of the PSU operation and offer little to incoming power fluctuations. Having said this, the PSU will provide reasonable regulation while the AC power is on.
When the PSU or AC power is shut off, the power within the filter capacitors can remain for a fair time. The PSU recognizes the power off condition and the PSU shuts down, leaving residual voltages across the capacitors. Some better PSU designs have "bleeder" resistors across the capacitors and others have none. From a manufacturers perspective, a bleeder resistor has 2 downsides: 1) Cost and 2) Dissipates power when power on (more heat to erradicate).
A good well-manufacturered PSU could have a bleeder resistor and bleed off the capacitors within 1 or 2-hours. The cost would be very low ($0.02 each installed), but could cause manufacturers to lose their market share as the addition of the resistor on 100,000 or more units could cause the lose the possible sale. Manufacturers need to tread a fine line between a quality product & making money. To acheive both, manufacturers 'cut' corners. Hence, no bleed resistor, etc.
In other words: don't expect a bleed-off resistor. Care shall be exercised when servicing or modding a PSU.
Good luck!
TerryW
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I don't know if it' been commented on and it is rather high in thread to be responding to it now, but shorting the caps with a screwdriver isn't the best idea. If you want to discharge them quickly, use a resistor of at least a few hundred ohms. It'll take a fraction of a second to effectively discharge it instead of doing instanteously but it's a lot safer for your equipment.
cpemma on bit-tech wrote:Don't blindly trust me, as there's always an exception.
First unplug from the mains, ATX psus are otherwise ready-to-go, even with the machine switched off.
There are generally only two dangerous capacitors in a psu, big electrolytics typically 500-1000uF, around 200v, part of the US voltage doubler circuit & smoothing at the front end. They invariably each have a resistor in parallel to ensure the supply voltage is split equally across them, these resistors also flatten the capacitors a few seconds after you switch off.
The other low-voltage capacitors may hold some charge, but only at 12v max. Don't discharge with a dead short, use a 1k resistor, much kinder to the component.
Safest way is to check around with a multimeter, but I've never got a reading from an off supply.
When the supply is on, with no lid there's always danger. A clear plastic cover is advised.
Further info: Sci.Electronics.Repair FAQ Notes on the Troubleshooting and Repair of Small Switchmode Power Supplies
Power Supply Repair PDF File 580kb