Sharp 66FW-54H (serv.man7) Service Manual ▷ View online
Colour Television – DA100/DW100 Chassis
Sharp Electronics (UK) Ltd
Technical Support
September 99
Page 3
S
LAVE
P
ROCESSOR
P
OWER
S
UPPLY
This part of the circuit has changed compared to previous chassis, where this supply was derived by
means of a bridge rectifier with two additional 68k resistors and a 5v1 zener diode to limit the voltage.
This has been replaced by a series regulator circuit, which is supplied from one side of the mains, with
an earth return via the bridge rectifier.
means of a bridge rectifier with two additional 68k resistors and a 5v1 zener diode to limit the voltage.
This has been replaced by a series regulator circuit, which is supplied from one side of the mains, with
an earth return via the bridge rectifier.
D708 and D707 forms part of a bridge rectifier, two diodes of the main bridge rectifier are used for the
other part. Therefore, at the junction of D707 and D708 there is a 100Hz signal comprising of positive
halve cycles at mains potential. Each time this signal exceeds 47v D729 will conduct, turning on
Q717.
other part. Therefore, at the junction of D707 and D708 there is a 100Hz signal comprising of positive
halve cycles at mains potential. Each time this signal exceeds 47v D729 will conduct, turning on
Q717.
When Q717 turns on the gate of Q715 is taken to ground. Since this is a N Channel MOSFET Q715 is
turned off and no current will flow through this device.
turned off and no current will flow through this device.
During the period when Q717 is turned off Q715 will turn on allowing C739 to charge to approximately
7v which is limited to 5v by R777 and D710.
7v which is limited to 5v by R777 and D710.
It can now be seen that the period of Q715 conduction is very short (it is only turned on when the
100Hz signal at the junction of D707 and D708 is less than 47v). Therefore, a top-up supply from the
bridge rectifier circuit comprising of D734 and D731 is added to the cathode of D710 via R721 and
R703.
100Hz signal at the junction of D707 and D708 is less than 47v). Therefore, a top-up supply from the
bridge rectifier circuit comprising of D734 and D731 is added to the cathode of D710 via R721 and
R703.
The 100Hz signal at the junction Q717 and D733 is also used as a timing signal for the real time clock
within the slave processor. However, before it can be used the signal is passed through a Schmitt
Trigger circuit (Q708 and Q709) to ensure that the signal free from noise.
within the slave processor. However, before it can be used the signal is passed through a Schmitt
Trigger circuit (Q708 and Q709) to ensure that the signal free from noise.
HT
+5v
Clock
R721
150k
150k
R703
150k
150k
D734
D731
D708
D707
R771
470k
470k
D729
47v
47v
R774
470k
470k
R775
470k
470k
R776
82k
82k
Q717
Q715
D733
D732
15v
15v
R777
47
47
C739
220
220
C724
220
220
D710
5v1
5v1
R739
47k
47k
R738
47k
47k
R737
180k
180k
R735
470k
470k
Q708
Q709
R736
470k
470k
R770
220
220
R787
47k
47k
C725
4n7
4n7
Colour Television – DA100/DW100 Chassis
Sharp Electronics (UK) Ltd
Technical Support
September 99
Page 4
N
L
T702
IC708
R763
100
100
POR701
Q714
From IC702
pin 14
pin 14
From T701
pin15
pin15
D727
R762
220
220
R768
220
220
C702
10nF
10nF
Degause
Coils
Coils
D728
4v7
4v7
D
EGAUSS
C
IRCUIT
This circuit is configured to ensure that the degauss circuit will not operated unless the switch mode
power supply is operating and IC702 pin 14 = low.
power supply is operating and IC702 pin 14 = low.
A positive bias is applied to the emitter of Q714 from T701 pin 15 (rectified by D727 and limited by
D728). Via the opto-coupler; IC708. Since Q714 is a pnp device once the base is taken low compared
to the emitter, Q714 will turn on allowing current to flow through IC708 (LED Section), turning on the
triac T702, allowing current to flow through the degauss coils.
D728). Via the opto-coupler; IC708. Since Q714 is a pnp device once the base is taken low compared
to the emitter, Q714 will turn on allowing current to flow through IC708 (LED Section), turning on the
triac T702, allowing current to flow through the degauss coils.
Current will continue to flow through the degauss coils until either the PTC (POR701) has increased in
value sufficiently to cut off the current flow, or IC702 pin 14 goes high, turning of Q714, preventing
current flow through IC708, turning the triac T702 off.
value sufficiently to cut off the current flow, or IC702 pin 14 goes high, turning of Q714, preventing
current flow through IC708, turning the triac T702 off.
Since the default condition for IC702 = low, it can be seen that the degauss circuit should now operate
each time the CTV is turned on from the main on/off switch or switched from standby to normal
operation. Whether the main processor has set up communication with the slave processor or not.
each time the CTV is turned on from the main on/off switch or switched from standby to normal
operation. Whether the main processor has set up communication with the slave processor or not.
Colour Television – DA100/DW100 Chassis
Sharp Electronics (UK) Ltd
Technical Support
September 99
Page 5
5
V
R
EGULATOR
This is another new circuit, but depending on whether you are dealing with the DA100 (4:3) chassis or
DW100 (16:9) chassis will determine the exact circuit.
DW100 (16:9) chassis will determine the exact circuit.
DA100 (59ESD7H
AND
66ESD7H) 4:3
CHASSIS
The FET Q704 is a series regulator producing 5v, which is controlled by Q713. A voltage is fed-back
from the output of Q704 (junction of L705 and C723) which will control the conduction of a variable
zener diode (IC707). D723, Q705 and Q706 provide protection against excessive supply voltage.
from the output of Q704 (junction of L705 and C723) which will control the conduction of a variable
zener diode (IC707). D723, Q705 and Q706 provide protection against excessive supply voltage.
D722
D714
IC707
D723
2v7
2v7
Q705
Q706
Q704
+5v
+16v
From T701
pin 1
pin 1
Q713
L705
C723
2200
2200
C734
470
470
C721
470
470
R760
4k7
4k7
R729
4k7
4k7
R757
2k2
2k2
R726
22
22
R706
8k2
8k2
R710
2k2
2k2
R707
1k5
1k5
R725
10k
10k
C722
10nF
10nF
C735
150pF
150pF
R731
10k
10k
R756
10k
10k
Colour Television – DA100/DW100 Chassis
Sharp Electronics (UK) Ltd
Technical Support
September 99
Page 6
DW100 (56FW53H
TO
6FW54H) 16:9
CHASSIS
For models using the DW100 chassis this regulator circuit has been replaced by an integrated circuit
(L4978D).
(L4978D).
This DC-DC converter will operate from a supply between 8v to 55v and produces an output voltage
of between 3v3 and 50v depending on the value of R747 (5v output R747 = 2k7). C741 connected to
pin 3 provides a soft-start routine. If pin 3 is held low then the device will not operate. The frequency
of the internal oscillator is fixed by the value of R706 and C735. Over-current and over-voltage
protection is incorporated into the design of this device.
of between 3v3 and 50v depending on the value of R747 (5v output R747 = 2k7). C741 connected to
pin 3 provides a soft-start routine. If pin 3 is held low then the device will not operate. The frequency
of the internal oscillator is fixed by the value of R706 and C735. Over-current and over-voltage
protection is incorporated into the design of this device.
D722
T701 pin 1
4
11
3
2
14
5,6
13
C721
470
470
C743
100nF
100nF
C735
2n7
2n7
R706
20k
20k
R748
4k7
4k7
IC707
C722
100nF
100nF
L705
D714
C742
68nF
68nF
R747
2k7
2k7
+5v
C741
100nF
100nF
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