PV Installers

In a recent article in a local paper, Biscayne Times, several homeowners were upset with a particular company not finishing the solar energy installation they had pre-paid for. With solar energy credits expiring many people felt the need to rush into buying solar energy systems without doing all the necessary research. Not only do customers have to do research on the products being used in the system; but they need to look up information on the experience of the PV installer and the company. The availability of information on the web is unbelieveable. You can often find satisfied and unsatisfied customers on chat forums and newspaper articles.  Always remember...BUYER BEWARE!

Connecting batteries together in Series, Parallel, or Series/Parallel

We often get phone calls with questions like these: How do I hook up my batteries in series? or How do I hook up my batteries in parallel. Well, I thought I would address this in this weeks blog. If you have any questions or need additional information on connecting your batteries together in series, parallel, or series/parallel, give us a call and we can help. The diagrams and information below are to be used only as a guide. It is recommended that you speak with a photovoltaic engineer or electrical engineer for more detailed information.

There are several possible configurations you can create when connecting batteries together. There are three things to keep in mind.
1. When connecting batteries in series, you will increase the voltage and the amp-hour capacity will remain the same.
2. When connecting in parallel, you will increase the amp-hour capacity and the voltage will remain the same.
3. To increase both numbers, connect multiple sets in series/parallel.

Connecting Batteries in Series - Picture 1 is the connection of two matched batteries used to double the voltage at the same amp-hour capacity, e,g, two 6 volt batteries to give 12 volts or two 12 volt batteries to give 24 volts. Picture 2 is the connection of four matched batteries to quadruple the voltage, e.g. 4 X 6V = 24V or 4 X 12V = 48V. Often used in golf car, sweeper / scrubber machines, and smal EV and marine deep cycle applications. Also seen in large trucks, RV's, and buses for engine cranking applications.

Picture 1

 Picture 2

          

Connecting Batteries in Parallel - Picture 3 is the connection of two matched batteries to double the capacity at the same voltage. Used when additional engine cranking or deep cycle capacity is needed at the same voltage, e.g. truck, bus, and marine engine cranking and trolling motor, RV, and small EV and sweeper/scrubber applications. Examples: 2 X 6V batteries at 200 AH = 6V battery pack @ 400 AH or 2 X 12V batteries @ 100 AH = 12V battery back @ 200 AH. Both of these examples would provide the same energy content at 2400 watt-hours.)

Picture 3

Connecting Batteries in Parallel continued... Picture 4 is the connection of three matched batteries to triple the capacity at the same voltage. Used when eve more engine cranking or deep cycle capacity is needed at the same voltage beyond Picture 3. (Note: Fore engine cranking applications, cranking amps CCA, are multiplied by the number of parallel connections as with amp-hour capacity in deep cycle applications)

Picture 4

Connecting Batteries in Series / Parallel - Picture 5 is the connection of four matched batteries used to double both the voltage and the capacity. Often used in trucks, buses, marine, RV, Solar Energy Battery Back-up applications, and Wind energy back-up applications.





Picture 5

Connecting Batteries in Series / Parallel continued - Picture 6 is the connection of eight matched batteries to quadruple the voltage at double the capacity. Often used in larger golf cars, sweeper / scrubber machines, large electric vehicles, and solar energy battery back-up systems. 

Picture 6