Solar Power DIY combiner box
Information from a web site www.freesunpower.com an amazingly interesting web site and well worth a visit!!!
A solar combiner box combines several solar panels into 1
DC output to connect to the charge controller. This is sort of the reverse
of what a typical home AC circuit breaker panel does, which takes 1 AC
input and distributes it to several AC circuits.
So, we are going to use a standard AC circuit breaker panel
and modify it to create the combiner function. The main reason for this
project is that a typical solar combiner box can cost hundreds of dollars
and this project will show you how to easily contruct one that combines 6
solar panels for $33.79 or 12 solar panels for $68.17 (Home Depot prices
as of 11/1/05). Much cheaper and just as safe and effective.
The diagram below of a typical solar power system shows the
component for this project installed between the solar panels and the
charge controller.
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We start with a typical AC circuit breaker panel
(shown here with 1 single circuit breaker installed). The one the author
chose is available at Home Depot for $15.97 : (model # HOM612L100SCP
by HomeLine). It has 6 slots for up to 12 circuits using 6
inexpensive SQUARE D type single or double circuit breakers. If you
use the double breakers, the 6 standard circuit breaker slots become
12. The single breakers cost $2.97 and the double breakers are
priced at $8.70 as of 11/1/05. |
| Step 1: Identify the connections. Like most
typical AC breaker panels, this one is set up for 120/240 volts AC.
The modification we are going to make is to connect both 120 volt
bus bars together. The author has shown them here as bus bar 1 and bus bar
2. Normally, you would connect from the ground (neutral in AC terms)
bus bar to either 120 bus bar for a 120 volt circuit. For a 240 volt
circuit you would use a larger circuit breaker that would connect
across bus bar 1 and bus bar 2 providing 240 volts. We are going to
just connect them together to act as the positive terminal of all
the solar panels. |
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| Step 2: Jumper Bars 1 & 2. Simply connect
a copper wire from bus bar 1 to bus bar 2 as shown. If you are
planning on 6 solar panels, use 8 to 10 gauge wire. For 6 double
breakers (12 solar panels), use 6 to 8 gauge wire. For 70 watt or
smaller panels, you can use the lower gauge. For over 70 watt
panels, The author recommends using the higher gauge wires. The two bus bars
now wired together become the positive (+) voltage connection for
all of the solar panels. The AC neutral bus bar (I call it ground
for our purposes) will of course be the negative (-) voltage
connection. |
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| Step 3: Connect the output wires. Next, we
will connect the main output connections. These are the plus(+) and
minus(-) wires that connect to the input of the Charge Controller.
Connect a red wire to the positive(+) terminal (bus bars 1 & 2)
and a black wire to the negative (-) terminal (the ground or neutral
bar) as shown on the right. These 2 wires will carry the full
current for all the solar panels. |
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| Step 4: (single breakers for up to 6 panels) Now to install the circuit breakers. Install a single circuit
breaker into position. Connect two wires from the first solar panel.
The author used 12 gauge solid copper house wire; white for positive and
black for negative. Connect the white wire(+) to the screw terminal
on the circuit breaker itself. Connect the black(-) wire from the
solar panel to any screw terminal on the ground bus bar (neutral). He has shown just one installed and wired here. Just repeat this for
up to 6 solar panels. |
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| Step 4: (double breakers for up to 12 panels) If you use the double circuit breakers, just connect the positive
wire from the first solar panel to the first screw terminal on the
circuit breaker itself. Connect the negative wire from the first
solar panel to the ground bus bar (neutral). Then connect the
positive wire from the second solar panel to the second screw
terminal on the circuit breaker. Last, connect the second negative
wire to the ground bar (negative terminal).The author has shown just one
double breaker installed and wired here for 2 solar panels. Just
repeat this up to 6 times for a maximum of 12 solar panels. |
 |
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That's it, your done! Here the author has shown the AC
panel with the cover installed and one double circuit breaker
installed. This setup is for 2 panels. With this simple project you
now have an inexpensive solar combiner for up to 12 solar panels. By
the way, the smallest circuit breakers you can buy are usually 15
amps. That is more than large enough for each solar panel. Another
advantage of this project is that you can turn on the solar panels
one at a time to verify that they are all working properly. |
| Note: Since the enclosure is not
outdoor rated, you can just silicone the seams like the author did. He also
covered the circuit breaker area with a small piece of acrylic
plastic. |
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DISCLAIMER : Alway make sure that all of your equipment
is properly fused and grounded for safety. Also, be sure to read and
follow the advice and instructions that come with your equipment. While
our projects have actually been constructed and tested under actual
operating conditions, we do not guarantee that they will meet all
electrical codes in all locales. Nor do we suggest that our advice
supercedes the recommendations of a licensed electrician. Hey, we're just
trying to help!
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