I am planning to install two 55 watt solar panels on the pushpit of my Express 27. There is an existing 5 watt panel on the back deck. All three will go to a 10 amp charge controller. What is the recommended wiring from the panels to the charge controller?
I spoke with someone from Northern Arizona Wind and Solar who said that I should have each panel individually fused and switched (or circuit breaker) at a junction box followed by another fuse/switch (or circuit breaker) between the junction box and the charge controller.
This sounds a little excessive. I can see the advantage of having each panel individually switchable, for troubleshooting and verifying function, but the maximal short circuit current of all three panels is only 6.9 amps. So why have a fuse?
I do understand that a fuse is required close to the battery to protect the wiring, but I am thinking about not using a fuse between the panel and the charge controller. I would like to keep things as simple as possible, but it must be safe.
Thank you,
Todd
Tie all three panels in parallel, red to red, black to black, and attach to the charge controller input. A panel failure, say a crack or short, will not impact the other panels as the panels contain a diode that prevents reverse currents from flowing. Also preventing the tiny bit of loss that can occur when a panel is darkened. One fuse on the battery side is sufficient.
If you are charging multiple banks, and it sounds like you are not, you can use a set of switches to select the battery to be charged. If your batteries are in parallel there is no need for battery selection. More advanced controllers can switch between banks automatically.
There is another controller type that will boost the voltage of panels that have fallen below 12 v, say the panel is in shade, using a boost switching technique. These improve efficiency of your panel output as they will recover a small fraction of energy as the panel voltage swings a bit with each swell passing under the boat.
Some of the flex panels only output 8 volts peak and require a unique controller type that boosts the voltage for charging. This is a type of switching regulator. This is why you will see recommendations for multiple controllers in those cases. You can choose to series two of the 8 volt flex panels and arrive at the equivalent output voltage of the typical 17 volt peak seen in most panels for marine use. This then allows the flex panel to be used with an existing charge controller.
There is also another type of controller that has much higher voltage input capability than the average simple controller. These are normally used in multi panel installs and the panels are connected in series generating up to hundreds of volts. THese controllers, like the ones used with flex panels, employ a switching regulator to bring down the voltage to the regulation point.
On my Olson 34 I have a simple charge controller and several panels tied in parallel driving the same. On a recent long passage, at one point, I was not getting charge from the panels. The simple parallel connection of the panels allowed me to take the controller out of the circuit and drive the batteries barefoot while I sorted out the controllers problem.
Bobj's controller looks like a good choice for small installations. There are several brands out there that use a similar internal circuit and provide the same functionality.
Brian
