Figure 1.
Circuit Diagram for a DC Motor Driver Using Transistors
This is a
circuit for controlling an ordinary DC motor using a pair of transistors
(1 NPN and 1 PNP). Note the dual supply of this circuit (+6V and -6V).
A DC motor
runs in one direction if the required voltage is applied across its
winding and runs in the opposite direction if the polarity of the
applied voltage is reversed. This function can easily be achieved by the
circuit above.
In this circuit, a positive
voltage at the control input turns on Q1 (an NPN transistor) but turns
off Q2 (a PNP transistor). This causes current from the +6V supply
to flow through the motor from node A to B (ground), making it turn in
the forward direction. On the other hand, a negative voltage turns off
Q1 and turns on Q2, causing current to flow from node B to node A of the
motor, then to the negative supply through Q2, making it turn in the
opposite direction. An input of 0 V stops the motor.
Note that the
values of the base resistors of the transistors (or even the transistors
themselves) required by the circuit may be different from those shown in
Figure 1, depending on the motor being driven. Experimentation may
therefore be required on the part of the hobbyist to make this circuit
work.
See Also:
DC Motor
Controllers
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