AlecEdgs said:
Hello friend I have got new panel.. I do want to test its output.. Can you tell the right way to do it?
I'm not sure of the 'right way', but what I did was this:
you will need a DVM (digital voltmeter) capable of measuring D.C. voltage and currents up to 10 amps, and a set of 'pig tails' for the MC4 connectors (Renogy includes these if you buy their starter kit). If you don't have the pig tails you will still be able to do it, it's just more awkward.
Set the panel facing the sun on a bright sunny day, connect the pigtails, set the meter to measure D.C. volts, plug the leads into the right jacks, and measure the D.C. voltage across the two pig tails. That gives you the 'open-circuit' voltage. The reading on the Renogy Poly 100 watt panel should be about 20 volts +- a little. Renogy specifies 22.4 volts.
Then switch the meter to the 10 amp scale, plug the leads into the correct jacks and again connect them across the pig tails. The shunt inside the meter will short-circuit the solar panel so you need to have a DVM rated higher than the short-circuit amperage of the panel, 10 amps is a good range. Read the amperage. This is the 'short-circuit' amps. On the Renogy 100 watt poly panel this reading should be about 5 amps. Renogy specifies 5.92 amps.
These numbers will depend on a number of variables, some under your control, some not. The readings will be highest if the sun's rays are hitting perpendicular to the panel (if you move the panel around you can see the effect oblique sun light hitting it has on it). Any shade on the panel gives you a reduced reading. Clouds, haze, smoke, anything like that will also reduce the reading.
I have not received a definitive answer from anyone about short-circuiting the solar panel, so I would keep that to a minimum. If you think about it though, the short-circuit amps is just the solar panel's maximum output which should do it no harm.
Don't touch the wires, you are dealing with 20+ volts and up to almost 6 amps!!
