|
|
|
|
|
|
|
|
|
|
|
Series Voltage Stabilizer Circuits |
|
|
|
|
|
Figure 1.
Simple Zener Series Stabilizer Circuit Diagram
The circuit
in Figure 1 is a
simple voltage stabilizer circuit that employs a resistor, a zener diode, and an NPN transistor. In this circuit, the zener diode is used to
stabilize the base voltage of the NPN transistor, which carries the load
current. The load transistor is in series with the load, which is
why this circuit is also known as a series stabilizer. Unlike the
amplified zener shunt
stabilizer, the dissipation of the transistor increases only when
the actual load current increases, making its operation more efficient.
Figure 2.
Negative Feedback Series Voltage Stabilizer Circuit Diagram
The circuit
in Figure 2 is a
more complex series voltage stabilizer circuit, utilizing an operational
amplifier (IC1) to 'slow down' or turn off the load transistor Q1 when
the output voltage is excessive. The zener diode ZD1 in this
circuit is just used as a reference voltage for defining the threshold
at which the op amp will turn Q2 and Q1 on or off. Because of this
negative feedback mechanism, power is consumed more efficiently, since
the load is only supplied with current when it needs it.
See
also: Shunt
Voltage Stabilizers
Go
Back to the PROJECTS Menu
HOME
|
|
|
|
|
|
|
