Modified a computer power supply into a lab power supply

In summary: You now have a 1A meter.- WarrenWith the advent of digital meters, there is now a range of meters that go up to 1A. Older meters used a 10A input and had a high-rated fuse.
  • #1
Squall
53
0
I recently modified a computer power supply into a lab power supply. I would like to check the amperes bieng output, but where can I get an ammeter?
Or can i make one and how much does one cost.


Heres a link to a pic of my PSU
http://i106.photobucket.com/albums/m261/Squall_11/PSU002.jpg
 
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  • #2
Most any hardware or electronics supply store carries them. Here, a cheap analogue unit costs about $15 (Canadian). I just got a digital one that's normally $40 on sale for $17. Those are multi-meters, by the way... volts, amps, resistance, and my new one has a specific battery tester function as well.
 
  • #3
Danger said:
Most any hardware or electronics supply store carries them. Here, a cheap analogue unit costs about $15 (Canadian). I just got a digital one that's normally $40 on sale for $17. Those are multi-meters, by the way... volts, amps, resistance, and my new one has a specific battery tester function as well.


Don't the multimeter types usually only measure in milliamps? I've had a few digital flukes and none of them went beyond milliamps. Only the clamp type amprobes (or similar flukes) did. But they are upwards of 100 bucks. I've never used the analog ones because the only one I had lasted a week. I blew the fuse, repaired with tin foil, blew up the meter.:biggrin:
 
  • #4
To tell you the truth, I really don't know about the amp range; I've never used it for that. I just measure voltage and check for circuit continuity with it. I can't look at it now because it's at home and I'm at work.
 
  • #5
Most meters will have a milliamps input and range (with appropriate fuse), and a 10A input and range (with a higher-rated fuse). 10A is about the max I've seen for handheld meters, though. If the OP needs to go higher, he could just use power resistors and measure the voltage across the resistors to see when the supply output is starting to droop below output specs.
 
  • #6
yes i need to be able to measure up to at least 35A and digital meters only go up to ten. i was wondering what about the Ammeters used in cars can i use those.
 
  • #7
The clamp-type current probes will measure hundreds of amperes with no problem, but they are expensive. Your best bet for a cheap measurment is simply to use a low-valued power resistor, as berkeman mentioned.

I wasn't aware that cars had ammeters. Could you provide more information?

- Warren
 
  • #8
Ammeters are usually only an aftermarket add-on in North American cars. Quite often they're included in a 'trio' panel along with the oil pressure and coolant temperature. They're just to show your alternator function, or to indicate a problem with the battery or charging system, but they're also handy for discovering current drains. Same idea as the idiot light, but more informative.
 
  • #9
Well, I'm pretty sure that such ammeters are just using shunt resistors. There's really no more economical way.

- Warren
 
  • #10
so how exactly would you use a resistor to measure current. Would you get a 33A resistor and see if the voltage is what is supposed to be in this case it should be 5. Is that basically it
 
  • #11
What on Earth is a 33A resistor?

If you assume your ammeter has essentially no resistance, you can use two power resistors of known ratio.

Here's the idea. Say you buy two resistors, one of 0.1 ohm resistance, and one of 0.01 ohm resistance. You put the 0.1 ohm resistor in series with your (essentially resistance-less), and put the 0.01 ohm resistance in parallel with the meter and the 0.1 ohm resistor. The result is that 90% of the current flows through the 0.01 ohm resistor, while only 10% flows through your meter. You have thus increased your ammeter's range ten-fold.

The trouble comes in actually obtaining such small, known resistances.

- Warren
 
  • #12
thanks that clears it up and sorry for my stupid mistake, but this is my fist time dealing with such electronics.
 
  • #13
chroot said:
What on Earth is a 33A resistor?

If you assume your ammeter has essentially no resistance, you can use two power resistors of known ratio.

Here's the idea. Say you buy two resistors, one of 0.1 ohm resistance, and one of 0.01 ohm resistance. You put the 0.1 ohm resistor in series with your (essentially resistance-less), and put the 0.01 ohm resistance in parallel with the meter and the 0.1 ohm resistor. The result is that 90% of the current flows through the 0.01 ohm resistor, while only 10% flows through your meter. You have thus increased your ammeter's range ten-fold.

The trouble comes in actually obtaining such small, known resistances.
And since meters use some real shunt resistance for measuring the current (surprisingly large resistors for the mA setting!), you can use a separate meter to measure the shunt resistor of your meter's 10A input, and then make an external resistor that is 1/10 as big, as chroot suggests. I measure about 0.1 Ohm for the 10A setting on my Fluke DVM. (Be sure to subtract out the probe resistance on your extra meter when making this measurement.)

You can make that external resistor by paralleling up a bunch of more standard resistors. Like 100 1 Ohm resistors in parallel for my case. Quiz question -- what power rating should those 1 Ohm resistors have?
 
  • #14
Squall said:
yes i need to be able to measure up to at least 35A and digital meters only go up to ten. i was wondering what about the Ammeters used in cars can i use those.
Yes. You could use one of these.
They are reasonably accurate from my experience.
 
  • #15
I'm home now, and just looked at mine. I was mistaken in two regards. The stupid thing doesn't have an amp setting at all, and it has a diode test function, not a battery one.
 
  • #16
Just find a halls effect type amp sensor. Allegro has them but they are used to measure +50 amps. It's too big for your application. It outputs analog signal proportional to the amp being measured. I guess you would need additional electronics to display the amp value.
 
  • #17
can't he just use one low value high wattage resistor and put in series and measure the voltage drop across it to determine the amperage?

chroot said:
What on Earth is a 33A resistor?

If you assume your ammeter has essentially no resistance, you can use two power resistors of known ratio.

Here's the idea. Say you buy two resistors, one of 0.1 ohm resistance, and one of 0.01 ohm resistance. You put the 0.1 ohm resistor in series with your (essentially resistance-less), and put the 0.01 ohm resistance in parallel with the meter and the 0.1 ohm resistor. The result is that 90% of the current flows through the 0.01 ohm resistor, while only 10% flows through your meter. You have thus increased your ammeter's range ten-fold.

The trouble comes in actually obtaining such small, known resistances.

- Warren
 
  • #18
Sure, david90, in theory. It can be difficult to get such small resistors, however.

- Warren
 

1. What is a modified computer power supply?

A modified computer power supply is a type of power supply that has been altered from its original form to function as a laboratory power supply. This means that it can provide regulated DC output voltages that are commonly used in experiments and projects.

2. How is a computer power supply modified into a lab power supply?

To modify a computer power supply into a lab power supply, the user must open the power supply unit and disconnect the wires that are connected to the computer's motherboard. The wires must then be connected to the desired output terminals, and adjustments may need to be made to the voltage regulation circuitry.

3. What are the benefits of using a modified computer power supply as a lab power supply?

One of the main benefits of using a modified computer power supply as a lab power supply is cost-effectiveness. Computer power supplies are relatively inexpensive compared to traditional lab power supplies. Additionally, they are compact and readily available, making them convenient for use in different settings.

4. What are the safety precautions when using a modified computer power supply as a lab power supply?

It is important to note that a modified computer power supply may not have the same safety features as a traditional lab power supply. Therefore, precautions must be taken when using it, such as properly grounding the power supply and ensuring that the output voltage is within the safe range for the connected devices.

5. Are there any limitations to using a modified computer power supply as a lab power supply?

Yes, there are some limitations to using a modified computer power supply as a lab power supply. These power supplies are usually limited in their output voltage and current capabilities, which may not be suitable for some experiments or projects. Additionally, they may not have the same level of accuracy and precision as traditional lab power supplies.

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