Figure 1.
Circuit Diagram for a Basic Astable Multivibrator
The
circuit in Figure 1 is that of a basic astable multivibrator. As its
name implies, the output of this circuit is not stable, i.e., it
continuously toggles between logic '1' and logic '0' at a rate set
by the resistors and capacitors in the circuit.
Assume,
for instance, that the output is low. In this state, transistor Q2
is 'on' while transistor Q1 is 'off'. Meanwhile, this allows
capacitor C2 to charge up through resistor R3, continuously
increasing the base voltage of transistor Q1. Eventually, the base
voltage of Q1 becomes high enough to turn Q1 on. Once Q1 turns
on, it pulls Q2's base voltage to 'low', turning 'off' Q2.
This causes the output to go 'high' because of the pull-up resistor
R5.
As Q1
conducts, C1 charges up through R2, continuously increasing the base
voltage of transistor Q2. Eventually, the base voltage of Q2 becomes
high enough to turn Q2 on. Once Q2 turns on, the output goes
'low' again and pulls Q1's base voltage to 'low', turning 'off' Q1.
This
cycle of toggling the output between 'low' and 'high' goes on
indefinitely as long as the circuit is powered. The frequency
at which the output oscillates is determined of course by the rates
at which C1 and C2 charge up. The rate at which C1 charges up
depends on the values of C1 and R2 (the higher their values the
slower is the charging up), while that of C2 depends on the values
of C2 and R3.
See
also: Basic Monostable
Multivibrator Circuit
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