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Power Consumption of a Typical PC While Gaming

Posted by timothy on from the slurping-it-up dept.

cliffski writes "How much does your PC really draw in terms of power when idle, when in sleep, and when playing a demanding game? I don't trust everything the manufacturers of hardware say, so I thought I'd get myself a watt measuring device and run a few tests on some of the gear I leave on all the time, and the gear I go to the trouble of turning off. The Linksys router drew 8 watts, the monitor drew a fairly noticeable 30-31, but what surprised me was how little power the base unit drew, even when playing Company of Heroes. Also, the variance of power draw for Vista seemed minimal, regardless of what you got the machine to do."

5 of 211 comments (clear)

  1. Re:What about my A/C kicking into overdrive? by mr_mischief · · Score: 4, Informative

    Any decent electronics project book will verify that any copper or aluminum wire will gain resistance with increasing temperature.

    If you want a quick link, though, how about this article at Dan's Data about power supplies which actually gives some basic theory? It's a little suspect in that it's a review of a particular brand of power supply, and Dan's Data isn't as widely known as Tom's Hardware or Anandtech. What do you want from the very first Google result for the search "warmer power supplies draw more current", though? It also happens that he's right (about the issue, anyway -- I've never reviewed or purchased Topower power supplies).

  2. Re:I love kill-a-watt by ivan256 · · Score: 4, Informative

    I can hardly believe that the router mentioned was using 8 watts, what is the time period there? I know the power supply on my linksys router is in the milliamps so, basic conversion would indicate to me that is not possible. I am probably thinking of something backwards though. Time is a component of the "watts" unit. One watt is one joule per second. So the time period is irrelevant.

    8 watts at 120 volts (simplistically speaking) would only be about 66 milliamps.

  3. Re:Consoles by CastrTroy · · Score: 4, Informative

    Here's a comparison that shows XBox 360 vs. PS3 vs. Wii vs. PC in many different areas including standby, idle, gaming, and movies (Wii not included in movies).

    --

    Anthropic principle: We see the universe the way it is because if it were different we would not be here to see it.
  4. Power consumption of PS3 / Wii / XBOX 360 by IYagami · · Score: 5, Informative

    You should take a look at http://www.hardcoreware.net/reviews/review-356-1.htm

    This is the main information:
    Power Consumption in Games
    PS3: 185.9 Watt average
    XBox360: 176,54
    PC (see link for more information): 156,6
    Wii: 16.8

  5. Re:What about my A/C kicking into overdrive? by mollymoo · · Score: 4, Informative

    So does your computer, powersupplies get less efficeint the warmer the room is. So while your useing only 200 watts, at 70 degrees, at 85 degrees, it's probably past 250.

    Resistance does increase with temperature and a thermally controlled fan will spin faster and draw more current. But enough for a 25% rise in consumption from a 15 degree (in unspecified units, I guess you mean Fahrenheit) temperature rise? That's seems like a hell of a lot for a fairly modest rise in temperature.

    For an 80% efficient power supply, an increase of 25% overall consumption is more than double the power loss. The reality is very complex, but we can pick out a few relevant numbers to get a feel for the magnitudes involved. Empirical testing would be easier than an analysis, but here's some food for thought:

    For copper, the resistance rises by about 0.4% per degree Celsius rise. Your roughly 7 Celsius rise would increase it by a whopping 2.8%. You'll have melted the insulation well before even a 50% rise in the resistance of your copper wire.

    If you look inside a power supply, you'll see a big fat heatsink. Attached to that are rectifiers and switches - diodes and FETs. That's where a big proportion of your power supply's inefficiency comes from. Looking at the first power FET datasheet I have to hand (for a Fairchild HUF75337P3), the on resistance increases by something like 1% per degree Celsius rise. For diodes because the forward voltage drop actually decreases with increasing junction temperature - they get more efficient. For an International Rectifier 12CWQ03FN it looks to be about 0.2% lower per degree Celsius rise.

    The YS-Tech 80mm fans in this box next to me consume 0.84W at full speed. That's a slow fan though, I wouldn't be surprised if more typical ones used 2-3W at full speed.

    Hardly a complete analysis, but just can't see where you're getting this additional 50W from. I think you're out by an order of magnitude.

    --
    Chernobyl 'not a wildlife haven' - BBC News