Figure 1.
A Simple Op-Amp-based Voltage Regulator Circuit
Figure 1 shows
a simple voltage regulator circuit that employs an
operational amplifier (op-amp). As its name implies, this
circuit accepts an unregulated voltage input (i.e., a fluctuating input
voltage), and provides a regulated voltage output (a stable output
voltage that remains at or very close to its intended output level).
The unregulated input voltage must be higher than the desired output
level by a sufficient margin in order to achieve 'effective' regulation.
The zener
diode Vz acts as a voltage reference for the circuit, and is fed into
the non-inverting input of the operational amplifier. The voltage
divider formed by R1 and RF sets the voltage level of the inverting
input of the op amp, which is basically a feedback from the circuit
output to the op amp. The NPN transistor is used to boost the
output current of the circuit.
The voltage
at the non-inverting input of the op amp is pegged at the zener voltage,
while the voltage at the inverting input is always a fraction of the
output voltage as defined by RF and R1. When the output exceeds
the set level, the inverting input voltage exceeds that of the
non-inverting input, causing the output of the op-amp to go 'low'.
This turns off the NPN transistor, causing the output voltage to dip.
When the output goes below the set level, the reverse happens, i.e., the
op-amp's output goes 'high', causing the NPN transistor to turn on and
pull the voltage up.
Thus, this
circuit works by turning off the transistor when the output voltage is
too high and turning it on when the output is too low. This
balancing act happens continuously, with the circuit reacting
instantaneously to deviations in the output voltage. Resistor RF
is adjusted to set the desired output voltage of the circuit. The
zener diode needs to be replaced by a voltage reference IC if a more
stable and more precise output is required.
See
also: Operational Amplifiers;
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