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(1) Noise filter circuit
The filter circuit is composed of L and C. It reduces common noises and
normal mode noises generated from the AC line.
The common noise means that generated in each line for GND. Its noise
component is delivered through C001, C003, and C007 to GND.
The normal noise means that overlapped in the AC line or the output line.
It is attenuated by C002, L001, C006, and L002. Refer to fig (2).
fig (2) Noise filter circuit
(2) Rush current prevention circuit and rectifying/
smoothing circuit
fig (3) Rush current prevention, rectifying/smoothing circuit
fig (3) Rush current prevention, rectifying/smoothing circuit Since the AC
power is directly rectified, if there were not this rush current prevention
resistor (TH001), an extremely large rush current would flow due to a
charging current flowing through the smoothing capacitor C010 when
turning on the power.
To prevent against this, the rush current prevention resistor TH001 is
provided between the rectifying diode D002 and the smoothing diode
C010, suppressing a rush current.
The rectifying/smoothing circuit rectifies a 50/60Hz AC voltage with the
rectifying circuit, and smoothes it with the smoothing capacitor C010.
e-STUDIO161 ELECTRICAL SECTION
(3) Inverter and control circuit (Flyback converter system)
fig (4) Inverter and control circuit
This circuit is one-stone separate excitation DC-DC converter called
flyback converter, as shown in fig (4).
When an electromotive voltage of IC is applied through D012, R005, and
R006 to IC002, IC002 oscillates to conduct Q001.
As a result, a voltage is applied to the primary winding of the converter
transformer (T001) and at the same time a voltage is generated in the
driving winding of IC002 to operate IC002. Then IC002 turns ON/OFF
Q001 at the frequency of about 70KHz determined by R016.
Under the ON state, the voltage in the secondary winding is reversed to
the diode D103 and no current flows through the secondary winding of
T001.
Under the OFF state, the current flowing through the primary winding is
in the same direction as the primary winding, conducting D103 and
transmitting energy to the secondary winding. Refer to fig (4).
fig (5) Operation waveform of the flyback converter
13-3
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