Types of Battery
Connections
2.1
steps to connect two batteries in series
2.2
steps to connect three batteries in series
3.1
steps to connect two batteries in parallel
3.2
steps to connect three batteries in parallel
4 Series-parallel
battery connection
5
Steps to connect four batteries in series parallel
- A battery has two terminals. (SIMPLE point)
- The anode is the positive terminal of the
battery. Usually, a (+) symbol or some red colored sign indicates anode
terminal.
- The cathode is negative terminal of the
battery. A (-) symbol or black colored sign indicates anode terminal.
- The battery interconnecting cables for making
connections should be of high quality.
- Proper gauge number and length are essentials
for perfection.
Series
connection
Batteries are connected in series for getting higher voltage from given
number of batteries while keeping the amps constant.
Procedure: Connect
cathode of first battery with the anode of the second one. Continue this
connection for all batteries. Take the output from the anode of first and
cathode of last one.
Steps
to connect two batteries in series
Let’s name them B1 and B2.
- Connect the cathode of the B1 to the anode of
B2.
- Connect a wire W1 (red wire) to +ve terminal
of B1.
- Connect W2 (black wire) to -ve terminal of B2.
- Take the output from W1 and W2
The figure below illustrates this.
Usage Example:
Let’s imagine you have two
6 V batteries. Using above connection you can obtain 12
V.
Steps
to connect 3 Batteries in Series
Let’s name B1, B2, B3.
- Connect cathode of B1 to anode of B2.
- Connect cathode of b2 to anode of B3.
- Take +ve output from B1’s anode.
- Take -ve output from B3’s cathode.
Usage Example:
Let’s assume B1 = 6 V, B2 = 6 V and B3 = 6 V
Now Using above connection you can obtain 18 V.
Parallel
Connection
Batteries are often connected in parallel to obtain an
additive amperage that is the sum of all batteries in parallel.
Procedure: Connect all
anode terminals to a common junction and all cathode to each other on the other
terminal.
Steps
to connect two batteries in Parallel
Let’s name them B1 and B2.
- Use connecting wire for joining anode to a
common terminal.
- Use other connecting wire for joining cathode
to the other terminal.
- Take one output from the anode.
- Take the second output from the cathode.
The above connection ads up the current output. Let’ assume B1 = 1.5 A
and B2 = 1.5 A
Then output Amps = 3 A while voltage remains constant.
Steps
to connect three batteries in parallel
Let’s name the batteries B1, B2, and B3.
- Join B1’s anode to B2’s anode.
- Connect B2’s anode to B3’s anode.
- Take the output from B1’s anode.
- Repeat the above for Cathode.
The above connection lumps the current taken from batteries. Let’s
assume B1 = 1.5 A, B2 = 1.5 A and B3 = 1.5 A. The final current = 4.5 A.
Series-Parallel
Battery Connections
The series-parallel connections are made for boosting current as well as
the voltage from given batteries. The connection is useful for doubling,
tripling, quadrupling or increasing voltage/current from the batteries.
Steps
to connect four batteries in Series-Parallel
Let’s name them B1, B2, B3, and B4 and each having rating of 12 V@1.5 A.
We are willing to obtain 24 V@3 A from both. For this B1 and B2 connects in
series, B3 and B4 connect in series to each other. Series B1, B2 comes in
parallel to series B3, B4.
- Connect cathode of B1 to anode of B2.
- Connect cathode of B3 to anode of B4.
- Connect cathode of B1 to anode of B3.
- Connect cathode of B1 to cathode of B3.
- Take output from B1’s cathode and B2’s anode.
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