Canine
Well-known member
So you decided to set up your own system. You have purchased your solar panels and now you need a charge controller. How can you tell if a charge controller is big enough to handle the panel(s)? This can be somewhat complicated, so I'm going to try to keep it simple as possible for a person designing their own system for the first time. Different controllers have slightly different methods, so this won't cover every controller. I will use the Blue Sky Energy 3024i since that is what I use and am most familiar with.
1) When you look at the specs, make sure you are using the correct column. If you have 36 cell solar panels hooked up in parallel, look in the 36 cell solar panel column. If you have 60/72 cell panels or have two 36 cell panels hooked up in series, look in the 60/72 cell panel column.
2) If you have a 12 volt battery bank, look at the specs for a 12 volt system. If you have a 24 volt battery bank, look at the specs for a 24 volt system. The panel amps, panel voltages, and overall panel wattage will be different. It's easy to become confused and look at the wrong section or column. Many controllers will work only with a 12 volt battery bank.
3) Make sure you are looking at input limits and not output limits. The output limits don't matter- only the input limits.
Now that we know where to look for the specs of the charge controller, we can now learn how to gather information from the solar panels.
4) Look at the wattage of the panel or add the wattage of both panels if you have two connected together. Write this down.
5) Look at the max PV VOC of the panels; it will be the highest voltage number. If you have two panels in series, multiply the VOC by two. If you have two panels in parallel, the VOC won't change. Write this down.
6) Finally, Look at the Isc (Short Circuit Current also shown as STC); it will be the highest number for current. Current is also called amps, so look for either word. If you have two panels connected in parallel, multiply the Isc by two. If you have two panels connected in series, the Isc won't change. Write this down.
Now that we know how to find the information, let's do two examples using the 3024i with one 60 cell solar panel connected to a 12 volt battery bank.
LG makes the strongest 60 cell panel that I know of, the LG365Q1C-A5, so let's use one of those panels.
1) The panel has a max wattage of 365 watts, so the wattage is within the 400 wattage limit of the 3024i charge controller. (You will see a spec for 540 max pv panel wattage, but that is for 36 cell panels, so don't use the 540 watt spec. You will also see a 800 max pv panel wattage, but that is for a 24 volt battery bank, so don't use that one either. Easy to be confused here.)
2) The panel has a VOC of 42.8 which is within the 45.6 max VOC of the charge controller. We are good here, too.
3) The panel has an Isc of 10.8 which is within the 24 amp input of the charge controller. We are good here, too. (I had made a mistake earlier today and thought the max amp input was 12, but the 12 amp spec is for 72 cell panels, not 60 cell panels, so you can see how easy it is to get confused.)
We have a winner: The 3024i will work with the LG panel. The panel is big, but it will work.
Let's do one more example.
Sunpower makes what many people think is the best solar panel available to the general consumer. The strongest 60 cell panel they make is the SPR-X21-345 with a max wattage of 345 watts. It is as powerful or maybe a tad more powerful per square inch than the LG we just used, but because it is a bit smaller in surface area, it has 20 fewer watts.
Let's see if it will work with the 3024i. The max wattage is 345, so that is good. The max amps (Isc) is 6.39, so that is good. The max volts (VOC) is 68.2, so that is no good. It is higher than the max 45.6 volt input limit of the 3024i charge controller.
While the Sunpower panel has less power than the LG panel, it won't work because it has too high of voltage. We need to find a different 60 cell or 72 cell solar panel or combination of 36 cell panels, but that's another thread.
One last comment. If you have a panel or combination of panels that makes 400 watts, don't use the 3024i. Use a bigger charge controller. Yes, 400 watts is within spec, but when you continually use any equipment at its max it will fail quicker. Also, there are some conditions where a panel will make more watts than it is rated. If it's cold and sunny, it won't instantly burn up your controller, but that is putting a lot of stress on the controller. Quality MPPT controllers are expensive, so I like to do what I can to take care of mine.
1) When you look at the specs, make sure you are using the correct column. If you have 36 cell solar panels hooked up in parallel, look in the 36 cell solar panel column. If you have 60/72 cell panels or have two 36 cell panels hooked up in series, look in the 60/72 cell panel column.
2) If you have a 12 volt battery bank, look at the specs for a 12 volt system. If you have a 24 volt battery bank, look at the specs for a 24 volt system. The panel amps, panel voltages, and overall panel wattage will be different. It's easy to become confused and look at the wrong section or column. Many controllers will work only with a 12 volt battery bank.
3) Make sure you are looking at input limits and not output limits. The output limits don't matter- only the input limits.
Now that we know where to look for the specs of the charge controller, we can now learn how to gather information from the solar panels.
4) Look at the wattage of the panel or add the wattage of both panels if you have two connected together. Write this down.
5) Look at the max PV VOC of the panels; it will be the highest voltage number. If you have two panels in series, multiply the VOC by two. If you have two panels in parallel, the VOC won't change. Write this down.
6) Finally, Look at the Isc (Short Circuit Current also shown as STC); it will be the highest number for current. Current is also called amps, so look for either word. If you have two panels connected in parallel, multiply the Isc by two. If you have two panels connected in series, the Isc won't change. Write this down.
Now that we know how to find the information, let's do two examples using the 3024i with one 60 cell solar panel connected to a 12 volt battery bank.
LG makes the strongest 60 cell panel that I know of, the LG365Q1C-A5, so let's use one of those panels.
1) The panel has a max wattage of 365 watts, so the wattage is within the 400 wattage limit of the 3024i charge controller. (You will see a spec for 540 max pv panel wattage, but that is for 36 cell panels, so don't use the 540 watt spec. You will also see a 800 max pv panel wattage, but that is for a 24 volt battery bank, so don't use that one either. Easy to be confused here.)
2) The panel has a VOC of 42.8 which is within the 45.6 max VOC of the charge controller. We are good here, too.
3) The panel has an Isc of 10.8 which is within the 24 amp input of the charge controller. We are good here, too. (I had made a mistake earlier today and thought the max amp input was 12, but the 12 amp spec is for 72 cell panels, not 60 cell panels, so you can see how easy it is to get confused.)
We have a winner: The 3024i will work with the LG panel. The panel is big, but it will work.
Let's do one more example.
Sunpower makes what many people think is the best solar panel available to the general consumer. The strongest 60 cell panel they make is the SPR-X21-345 with a max wattage of 345 watts. It is as powerful or maybe a tad more powerful per square inch than the LG we just used, but because it is a bit smaller in surface area, it has 20 fewer watts.
Let's see if it will work with the 3024i. The max wattage is 345, so that is good. The max amps (Isc) is 6.39, so that is good. The max volts (VOC) is 68.2, so that is no good. It is higher than the max 45.6 volt input limit of the 3024i charge controller.
While the Sunpower panel has less power than the LG panel, it won't work because it has too high of voltage. We need to find a different 60 cell or 72 cell solar panel or combination of 36 cell panels, but that's another thread.
One last comment. If you have a panel or combination of panels that makes 400 watts, don't use the 3024i. Use a bigger charge controller. Yes, 400 watts is within spec, but when you continually use any equipment at its max it will fail quicker. Also, there are some conditions where a panel will make more watts than it is rated. If it's cold and sunny, it won't instantly burn up your controller, but that is putting a lot of stress on the controller. Quality MPPT controllers are expensive, so I like to do what I can to take care of mine.
