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wireties 15-02-2015 10:32

voltage loss over long runs
 
Lots of tall robots this year! Several online calculators tell me I lose 1.8V in a 30' long 10 AWG wire with a 30A load.

Question: do I really lose two times 1.8V? 1.8V in the red wire and 1.8V in the black?

TIA

RufflesRidge 15-02-2015 10:42

Re: voltage loss over long runs
 
Nope, 1.8V is correct if the length of the run is 30ft. (i.e. 30ft. of + and 30ft. of -).

The resistance of 10AWG is .001 Ohms per ft. * 60ft. = .06 Ohms
.06 Ohms * 30A = 1.8V

rich2202 15-02-2015 20:15

Re: voltage loss over long runs
 
Basically, you have +12 -> R1 -> load-> R2 -> ground.

But, R2 is sinking a lot of current, which is in essence ground, and not really resisting the current.

However, if you are saturating the wire, then "pushing" power to ground could result in voltage loss needed to push the power to ground.

Just some thoughts from a Math major, and not a EE major.

MrForbes 15-02-2015 20:22

Re: voltage loss over long runs
 
"ground" is not something we really have on FRC robots.

Good question, I think you lose voltage on each wire, but I don't' really know, since I'm a mechanical guy. How about measuring the voltage at both ends of the wire run, under load? or measure the voltage across each of the wires, under load.

This is something we get to deal with on underwater robots. I expect that 148 gets to deal with it on their tether, too. On the underwater robots, with a surface mounted battery, we run a higher system voltage, so a specific voltage drop is a smaller percent of the total voltage available. And with a higher voltage, there is less current for the same amount of power, so the voltage drop is less also.

But they don't let us run four 12v batteries in series in FRC....only NURC let us do that.

Ether 15-02-2015 20:27

Re: voltage loss over long runs
 
Quote:

Originally Posted by rich2202 (Post 1444692)
Basically, you have +12 -> R1 -> load-> R2 -> ground.

But, R2 is sinking a lot of current, which is in essence ground, and not really resisting the current.

R1=R2, and the current is the same through both because they are in series; so the voltage drop across R2 is the same as the drop across R1. R2 is "resisting" current just as much as R1 is.



Ether 15-02-2015 20:31

Re: voltage loss over long runs
 
Quote:

Originally Posted by MrForbes (Post 1444693)
How about measuring the voltage ... across each of the wires, under load...

You'll get then same voltage drop across each one.



GeeTwo 15-02-2015 23:39

Re: voltage loss over long runs
 
Quote:

Originally Posted by wireties (Post 1444438)
Lots of tall robots this year! Several online calculators tell me I lose 1.8V in a 30' long 10 AWG wire with a 30A load.

Question: do I really lose two times 1.8V? 1.8V in the red wire and 1.8V in the black?

TIA

You shouldn't need to run 30' of wire for robot height; 78" each way is the maximum length you'll need due to height, even if you put the PDP at the floor. (Sprawl and routing will add additional length requirements, of course.) We have a robot over 6' tall, but I believe all of our motor runs are less than 3' from the PDP to the motor (and another 3' back), because all of our motors are down low on the chassis; all the electricity above the control board is for lights or limit switches. Keeping the motors low also helps reduce the likelihood of tipping over, as well.

Mr V 16-02-2015 00:18

Re: voltage loss over long runs
 
The easy way to "see" the voltage drop is with a multimeter. Connect the leads to each end of the wire in the circuit and then operate the circuit. The multimeter will measure the drop across that section of the circuit. Alternatively you can connect the leads at the motor and see the voltage drop that occurs across the motor terminals. Yes it is not easy to do that with a motor or controller that has wires exiting it instead of terminals.

Al Skierkiewicz 16-02-2015 07:59

Re: voltage loss over long runs
 
Keith,
By now you have gathered that the current flows in both wires so both wires contribute to the voltage drop while running at 30 amps. If your motors stall at a greater current, then the voltage drop changes for that increased current. This was a question on the FCC First Class RadioTelephone License test. You were asked to determine the voltage drop to the tower navigation light at the top of a 1000 ft. tower. One of the answers was the drop in one wire, the correct answer included the voltage drop in both wires.

wireties 16-02-2015 08:46

Re: voltage loss over long runs
 
Thanks all - I appreciate the feedback. I was a little confused that the online calculator were giving an answer close to the observed results but I felt that the loss through the return was to be included. It turns out that those calculators (when you tell them it is a DC voltage) include the return distance by default.

wireties 16-02-2015 08:48

Re: voltage loss over long runs
 
Quote:

Originally Posted by Mr V (Post 1444835)
The easy way to "see" the voltage drop is with a multimeter. Connect the leads to each end of the wire in the circuit and then operate the circuit. The multimeter will measure the drop across that section of the circuit. Alternatively you can connect the leads at the motor and see the voltage drop that occurs across the motor terminals. Yes it is not easy to do that with a motor or controller that has wires exiting it instead of terminals.

We set up a test with a TalonSRX (which will tell you the supply voltage) at the end of the wire and clearly saw the drop. Making the results jive with the online calculators was the real question I reckon. Doing the actual math solved all questions and CD opinions verified the results.

Al Skierkiewicz 17-02-2015 07:42

Re: voltage loss over long runs
 
Keith,
I have talked about wire losses and voltage drop for years here on CD. One of the easy to remember items is the "wire foot". Simply this is a simple calculation you can make in your head. As previously stated, #10 wire is .001 ohms per foot. Well, at 100 amps, that one foot chunk of wire will drop exactly 0.1 volts. In terms of 'wire feet' here are some other equivalents.
#6= 0.5 WF/ft.
#12=2 WF/ft.
#14=3 WF/ft.
Victor=6 WF
Talon and Jag=4 WF
Battery=11WF
0.1 volt drop/WF/100 amps
So all you have to do is just add up the losses in WF and that will get you an approximation of the loss (keeping in mind both wires need to be counted).
As an example, #6 wiring from battery to PDP is typically 1 foot from battery to APP connector and 2 feet from there through the main breaker to the PDP. So that is 6 feet of #6 at 0.5 WF=3WF or 0.3 volts at 100 amps. Add 11 WF for the battery and you get 1.4 volts. Typical FRC robots at worse case will draw 500 amps so 5 x 1.4 volts=7 volts drop at the input of the PDP. And yes, that is real, the PDP will only see 5 volts at the input with a fully charged battery. That is why the PD of old had the boost/buck power supplies that were capable of running down to 4.5 volts.

rich2202 17-02-2015 09:13

Re: voltage loss over long runs
 
Quote:

Originally Posted by GeeTwo (Post 1444810)
You shouldn't need to run 30' of wire for robot height

Not tall, but go look at Team 148 (batman thread). They have a 30 foot or longer tether. Drive wheels are on the robot with the battery, but the tethered piece has motors for lift.

GeeTwo 17-02-2015 11:01

Re: voltage loss over long runs
 
Quote:

Originally Posted by rich2202 (Post 1445588)
Not tall, but go look at Team 148 (batman thread). They have a 30 foot or longer tether. Drive wheels are on the robot with the battery, but the tethered piece has motors for lift.

This falls under the heading of sprawl.
Quote:

Originally Posted by GeeTwo (Post 1444810)
(Sprawl and routing will add additional length requirements, of course.)


Jon Stratis 17-02-2015 11:17

Re: voltage loss over long runs
 
In 2008 we saw a significant voltage drop to the motors on the ends of our elevator. There are really two days around this... Go to a larger wire (see Al's post) or double up your wire (two equivalent resistors in parallel cut the voltage drop in half). At the time, we had plenty of the wire we were using, but would have had to buy thicker wire, and didn't want to sacrifice flexibility with the thicker wire (or pay a lot more for high flex wire). So, we doubled up the wire to each motor. Each Victor had 2 positive and two negative wires going from it, and they were then rejoined when they went into the motor. The inspector we got that year was a bit confused by it, and had to call Al over to check it out and make sure it was legal. As it was still on controller powering one motor, it was.


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