Panasonic Z8 / Chassis Service Manual / Other ▷ View online
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3.
Power Supply
The mains AC voltage used for Z8 is fed via connector
E2 situated on the E-Board. From the connector E2
the mains AC power supply is fed via the main TV
On/Off switch S801 and line suppression filter L801
before being fed to the standby transformer T801.
E2 situated on the E-Board. From the connector E2
the mains AC power supply is fed via the main TV
On/Off switch S801 and line suppression filter L801
before being fed to the standby transformer T801.
At the standby transformer T801 the AC supply splits
into two paths.
into two paths.
The first path sees the AC supply being fed to the
normally open contact of the standby relay RL801.
normally open contact of the standby relay RL801.
The second path has the AC supply being fed via the
windings P2/P1 of the standby transformer T801.
windings P2/P1 of the standby transformer T801.
3.1.
Standby Power Supply Circuit
The standby transformer T801 has the AC supply as
just mentioned being fed via the primary winding
P2/P1.
The output of the secondary windings S2/S1 of the
standby transformer is fed to the bridge rectifier
D1201, where the AC voltage is full rectified. Here the
supply takes two paths.
just mentioned being fed via the primary winding
P2/P1.
The output of the secondary windings S2/S1 of the
standby transformer is fed to the bridge rectifier
D1201, where the AC voltage is full rectified. Here the
supply takes two paths.
The first path provides smoothing to the supply via
capacitor C1201 before being fed to IC1202 pin 1.
capacitor C1201 before being fed to IC1202 pin 1.
The output at pin 3 is smoothed further by capacitor
C1203, and the 5V standby supply output is fed to the
EEPROM IC1103, the remote control receiver
IC1104 and the Q-Link circuit. The 5V standby supply
is also fed to IC1201, where the output at pin 3 is
smoothed via C1204, to provide 3.3V standby supply
to the Ultimate One Chip (UOC) IC IC601 pin 61, and
the reset IC IC1102. This 3.3V is also used to bias the
standby relay control transistor Q1204.
C1203, and the 5V standby supply output is fed to the
EEPROM IC1103, the remote control receiver
IC1104 and the Q-Link circuit. The 5V standby supply
is also fed to IC1201, where the output at pin 3 is
smoothed via C1204, to provide 3.3V standby supply
to the Ultimate One Chip (UOC) IC IC601 pin 61, and
the reset IC IC1102. This 3.3V is also used to bias the
standby relay control transistor Q1204.
The second path from the bridge rectifier sees the
supply voltage being fed via resistor R1202 to the
standby relay RL801 and the relay winding to the
collector of transistor Q1201. Transistor Q1201,
which is controlled by Q1204, is responsible for
switching the TV in and out of standby, under the
control of the UOC IC IC601 pin 1.
supply voltage being fed via resistor R1202 to the
standby relay RL801 and the relay winding to the
collector of transistor Q1201. Transistor Q1201,
which is controlled by Q1204, is responsible for
switching the TV in and out of standby, under the
control of the UOC IC IC601 pin 1.
The two supplies mentioned allow the circuits to
operate during standby, which is required to process
the switch ON command from the remote control or
local keys, allowing the TV to be switched out of
standby.
To reduce the load on the standby transformer T801,
a 10V supply is fed from transformer T552 pin 6 via
rectifying diode D554, R1209 and D1205, to pin 1 of
IC1202.
operate during standby, which is required to process
the switch ON command from the remote control or
local keys, allowing the TV to be switched out of
standby.
To reduce the load on the standby transformer T801,
a 10V supply is fed from transformer T552 pin 6 via
rectifying diode D554, R1209 and D1205, to pin 1 of
IC1202.
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3.2.
Power Supply Circuit
The STR-F6523, IC801 is used in the Z8 power
supply to control and regulate the power supply
operation.
supply to control and regulate the power supply
operation.
This
device
features
over-voltage
protection and thermal shutdown. The output stage of
the IC incorporates a built-in MOSFET switching
transistor.
the IC incorporates a built-in MOSFET switching
transistor.
3.3.
Operation
The supply voltage for the main power supply circuit
is fed via the standby relay RL801 to the bridge
rectifier D802 where the AC voltage is fully rectified
and smoothed by capacitor C809.
is fed via the standby relay RL801 to the bridge
rectifier D802 where the AC voltage is fully rectified
and smoothed by capacitor C809.
This smoothed DC voltage of approximately 300V
then feeds the supply to pin 3 of the switched mode
power supply IC IC801, where the DC voltage is held
at the drain of the internal MOSFET, by its parallel
zener diode.
then feeds the supply to pin 3 of the switched mode
power supply IC IC801, where the DC voltage is held
at the drain of the internal MOSFET, by its parallel
zener diode.
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3.4.
Start Up
A start-up circuit is used to start and stop the
operations of the control IC IC801 (STR-F6523), by
detecting the voltage appearing at the V
operations of the control IC IC801 (STR-F6523), by
detecting the voltage appearing at the V
IN
terminal,
pin 4.
At start-up, capacitor C810 is charged via R804,
which causes the voltage at pin 4 of IC801 to
increase. Once V
which causes the voltage at pin 4 of IC801 to
increase. Once V
IN
terminal pin 4 voltage reaches
approximately 16V, IC801 begins to operate and drive
the internal power MOSFET, causing current to flow
through the drain/source terminals at pins 3 and 2,
and to the winding B1-B2 of switching transformer
the internal power MOSFET, causing current to flow
through the drain/source terminals at pins 3 and 2,
and to the winding B1-B2 of switching transformer
T802 via L803 and R809. The current at terminal B1
is split into two paths.
is split into two paths.
The first path follows the current being fed to the
winding B1-B2 and back to pin 4 of IC801 via R811
and D805. Once the control circuit starts operation,
the voltage at the V
winding B1-B2 and back to pin 4 of IC801 via R811
and D805. Once the control circuit starts operation,
the voltage at the V
IN
terminal pin 4 of IC801 starts to
decrease. However, the drive winding voltage
reaches the set value before pin 4 voltage drops to the
shutdown voltage of 10V. Hence the voltage supply to
pin 4 is maintained.
reaches the set value before pin 4 voltage drops to the
shutdown voltage of 10V. Hence the voltage supply to
pin 4 is maintained.
The second path is connected from terminal B1 to P2
of the FBT. This causes current to flow via the winding
P2-P1, which provides the +B supply to the FBT T552
pin 9.
of the FBT. This causes current to flow via the winding
P2-P1, which provides the +B supply to the FBT T552
pin 9.
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3.5. Oscillator and Constant Voltage
Control Circuit
The oscillator within IC801 makes use of the charging
and discharging of internal capacitor C1 (4700pF)
and generates pulse signals which turn the internal
power MOSFET On and Off. The constant voltage
control of a switch mode power supply is performed
by fixing the OFF time of the MOSFET (around 50uS)
and changing the ON time in the pulse width control
operation.
and discharging of internal capacitor C1 (4700pF)
and generates pulse signals which turn the internal
power MOSFET On and Off. The constant voltage
control of a switch mode power supply is performed
by fixing the OFF time of the MOSFET (around 50uS)
and changing the ON time in the pulse width control
operation.
3.5.1. ’ON’ Condition and Time
When the switching power MOSFET is ON, C1
begins to charge.
begins to charge.
3.5.2. From ’ON’ to ’OFF’
When the voltage on C1 reaches (approx.) 6.5V, the
output from the oscillator is reversed, and the internal
switching power MOSFET switches OFF.
output from the oscillator is reversed, and the internal
switching power MOSFET switches OFF.
3.5.3. ’OFF’ Condition and Time
With the power MOSFET now OFF, Capacitor C1
starts discharging through R1, at the fixed time
determined by the time constant C1, R1.
starts discharging through R1, at the fixed time
determined by the time constant C1, R1.
3.5.4. From ’OFF’ to ’ON’
When C1 voltage has dropped to around 3.7V, the
output from the oscillator is reversed again and the
power MOSFET again turns ON, thus repeating the
cycle.
output from the oscillator is reversed again and the
power MOSFET again turns ON, thus repeating the
cycle.
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