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M Z 3500
9. POWER CIRCUIT DESCRIPTION
1. BLOCK DIAGRAM
Reclity/jmoolher
Circuit
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(Witchmg Ci'COlt
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+ 5V powe;
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Oscillator
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Contio
Circuit
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(Block diagram)
A. +5V and +12V supplies
1. Functions
a. Supply voltage is first rectified in the rectifier Circuit
and sent out to the switching regulator via the over-
current detector provided in the overcurrent protect
Circuit.
b. Next, the voltage is converted to the +5/+12V output
in the switching regulator and sent out to the noise
\filter.
c. Change in the switching regulator output voltage is
sensed by the control Circuit and is fed back to the
switching regulator after being amplified in the amplifier
located in the control Circuit, for maintaining the Output
voltage to a constant level.
d. The Signal from the oscillator is supplied to the switch-
ing regulator through the control Circuit for driving the
switching regulator.
e. For prevention of overcurrent, the protect Circuit is used
for stopping the oscillator when an overcurrent is met,
and it makes the switching regulator to halt in Order to
shut off + 12V/+5V supply.
2. Description of each block
a. Overcurrent protect (control/protect) Circuit
When an overcurrent is met in the +5V/+12V Circuit, it
causes to increase the voltage at both ends of the over-
current detector resistor R1, which in turn causes to
increase the Q3 collector current, for, there arises larger
voltage difference between the emitter and base of the
transistor Q3. This makes the gate voltage of the thyris-
tor increased owing to activation of SR. With activation
of SR it makes the oscillator voltage dropped to the
GND level at the point "a" to stop oscillation, which
also makes the switching regulator stopped by the de-
activation of the transistor Q5 oscillation. This causes
the transistor Q5 inactive, and it shuts off the +5V/
-H2V supply.
b. Oscillation Circuit
As the Q1 emitter voltage is at almost GND level wher
the transistor Q1 is active, the Q2 base voltage tem-
porarily drops close to the GND level by means of C6,
which in turn makes Q2 inactive and the Q2 emitter
voltage increases.
Then, the Q2 base voltage comes to rise äs C6 begins to
be charged through R6, and the transistor Q2 Starts to
activate again. With activation of the transistor Q2, the
Q2 emitter voltage Starts to drop and the Q1 base
voltage is temporarily dropped by means of C5, to shut
off the transistor Ql, which causes to increase the
transistor Q1 emitter voltage.
Next, äs C5 is charged by R5, it makes the Q1 base
voltage increased which puts the transistor Ql
into
activation. In this manner, transistors Ql and Q2 are
alternately turned on and off to keep oscillating.
C5 and C6 are charged through R5 and R6 by on/off
action of the Q1 and Q2, and discharged through Q1 and
Q2.
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