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CIRCUIT DESCRIPTIONS

PV154 - 923-03506

3-5

ZP26/28 - SERVICING

NOTE: If the 5.5V or the 3.3V regulators OPEN, the set
will not go into shut down, they must have a short to
produce a shut down input on PROTECT 1.

The set will shut down after the Screen go excessively
bright, but this is from the 115V over current sensor,
not PROTECT 1. When the power supply is in Stand By,
the Short Detection circuit could activate. By turning
off Q919, no accidental shut down operation can oc-
cur.

SUB POWER SUPPLY VISUAL LED

The Chassis has 1 Green LED on the Sub Power Supply
PWB. This chassis utilizes 1 Green LED in the power sup-
ply cold side.  The power supply operates in two differ-
ent modes, Standby and Projection On mode. The LED is
lit in the Standby or Power On mode with the AC ap-
plied and the TV ON or OFF;
·

SRS Audio Front 29V Reg29V indicated by
D912 Color GREEN

LED USAGE

The Visual LED is very useful in Trouble Shooting. With-
out removing the back cover, some diagnostics can be
made. By observing the operation of the Green LED, the
technician can determine if the Sub Power Supply is
running or not.  The following will examine how the LED
is illuminated.

POWER ON ENERGIZE:

When the Microprocessor outputs a High from pin 53
when power is turned ON, the high is inverted by Q003
to a LOW. This low is inverted by Q004 to a HIGH and
routed through the PQS1 connector pin 2. This high is
routed through R954, R951, D926 to the base of Q914.
This transistor turns ON and it’s collector goes LOW.

This low is the Ground return for the Relay S901. The B+
for the primary of the relay is the SBY +5V generated by
the switching transformer pin 15, rectified by D920,
filtered by C935, L915, and C936.

When the relay S901 turns on, the contacts close and
AC is routed to the Deflection circuit power supply and
the Deflection Power Supply is Energized.

DEFLECTION HORIZONTAL DRIVE ACTIVATION

(IC01 Rainforest IC)

When the set has AC applied, one of the switch pulses
generated on the Sub Power PWB is the +11V pulse from
pin 10 of the Switching Transformer I901. This +11V
pulse is rectified by D919 and filtered by C929. This
+11V DC voltage is then routed to the +9V regulator
I906 pin 1. When the set is turned ON, the Horizontal
Drive Power supply I906 is activated. This happens when
pin 2 of I906 goes high with the Power On/Off control
line from PQS1 pin 2. The +9V is output via pin 3 to the
PQD2 connector pin 5. From here the +9V is routed
through the Deflection PWB to the Signal PWB via PSD3

connector pin 11, through the coil LC03 to pin 19 of
IC01 the Rainforest IC. When this voltage is applied to
pin 19, the horizontal circuit inside the Rainforest IC
is activated and a horizontal drive signal is output from
pin 26. This H. Drive signal is routed through the PSD2
connector pin 5 to the base of the horizontal drive
transistor Q709 on the Deflection PWB. The collector of
Q709 produces a drive signal routed through the drive
transformer T702 and output from pin 4 to the base of
the Deflection Horizontal Output Transistor Q777 to
begin driving the deflection circuit which in turn, ac-
tivates the High Voltage circuit.

The sub power supply in the chassis works very similar
to the previous models, with some very significant
exceptions. The use of the power supply creating the
SBY+11V supply eliminates the need for a Stand-By
transformer. The following explanation will describe the
Sub Power Supply Shut Down Circuit.

VOLTAGE LOSS OR EXCESSIVE LOAD DETECTION

The second most common circuit used is the Voltage
Loss Detection circuit. This is a very simple circuit that
detects a loss of a particular power supply and supplies
a Pull-Down path for the base of a PNP transistor.

This circuit consists of a diode connected  by its
cathode to a positive B+ power supply. Under normal
conditions, the diode is reverse biased, which keeps
the base of Q1 pulled up, forcing it OFF. However, if
there is a short or excessive load on the B+ line, the
diode in effect will have a LOW on its cathode, turning
it ON. This will allow a current path for the base bias of
Q1, which will turn it ON and generate a Shutdown Signal.

B+ VOLTAGE TOO HIGH

In this circuit, a Zener diode is connected to a voltage
divider or, in some cases, directly to a B+ power supply.
If the B+ voltage increases, the voltage at the voltage
divider or the cathode of the zener diode will rise. If it
gets to a predetermined level, the zener will fire. This
action creates a Shutdown Signal.

SHUT DOWN CIRCUIT

Shut down occurs when the shutdown Photo Coupler
I903 is activated by pulling pin 2 low.

When I903 is activated by pulling pin 2 low it gives a
ground path for the emitter of the LED inside I903. The
light produced by turning on this LED turns on the
internal photo receiver and generates a high out of pin
(3). This high is routed to the base of Q902, turning it
on. This grounds pin (4) of I901, removing Vin, and
the power supply stops working.

The reason for the photo sensor I903 is to isolate hot
and cold ground.

Summary of Contents for R50V26

Page 1: ...2 General Info 1 Service Menu 2 Servicing 3 Part List 4 Diagrams PCB Layouts 5 Schematics 6 Published August 2002 by Technical Publications Zenith Electronics Corporation 201 James Record Road Huntsvi...

Page 2: ...alleled by a 15 mfd 150V AC type capacitor between a known good earth ground water pipe conduit etc and the exposed metallic parts one at a time Measure the AC voltage across the combination of 1500 o...

Page 3: ...lled chemicals These can generate electri cal charge sufficient to damage ES devices 6 Do not remove a replacement ES device from its protective pack age until immediately before you are ready to inst...

Page 4: ...nd the transistor Q403 is on Therefore pin 1 of IC401 receives a voltage causing the hold down circuit to be active This results in the frequency of the hori zontal oscillation and deflection to be st...

Page 5: ...14 MAIN Y PR PB SELECTOR IX04 3 14 SUB Y PR PB SELECTOR IX04 3 14 FRONT AUDIO CONTROL IC IA01 3 14 SRS AUDIO 3 15 TOC 1 SERVICE ADJUSTMENTS 3 16 ZP 25 CHASSIS ADJUSTMENT ORDER 3 16 CHASSIS PRE HEAT RU...

Page 6: ......

Page 7: ...ARRAY V26 MODELS New advanced convergence technology is more accurate than previous digital convergence and is set at the factory by a computer The 9 Point system actually looks at 117 points since it...

Page 8: ...x 26 5 d 226Lbs Finish Light Silver Screen Protector High Contrast Swivel Casters Casters Control Panel Escut Buttons 8 REMOTE CONTROL Transmitter Universal Remote w Glow Channel Vol ume Model Number...

Page 9: ...14 SKIP C S OFF 10 05 AM SLEEP 0 01 STEREO ST SAP TV PG DLSV ANT 1 110 ABC 10 00 AM May 14 2002 C SKIP C S OFF 10 05 AM SLEEP 0 01 TV Normal TV Normal MAIN PICTURE SOURCE CHANNEL LABEL TIME Displays...

Page 10: ...rate picture reproduction Refer to your DVD manual for further information Y P P B R S Video Input 1 and 2 Connections available for some high end equipment that provides even better picture quality R...

Page 11: ...d Tunes back to original channel after 30 60 90 120 150 or 180 seconds FAVORITE CHANNEL Select among 6 different channel classifications QUIT Leaves programming menus and clears screen of displays THU...

Page 12: ...an 216 260 266 282 725 Quasar 259 295 Radio Shack 213 265 730 RCA 216 220 228 240 242 249 260 266 282 283 284 285 286 287 288 708 710 711 725 Realistic 212 213 265 730 Saisho 722 Salora 297 Samsung 22...

Page 13: ...947 MCS 928 Mitsubishi 927 Nakamichi 925 926 Onkyo 923 924 946 Optimus 920 921 922 Panasonic 431 432 945 Phillips 421 433 434 Pioneer 431 435 944 Quasar 432 Radio Shack 431 441 RCA 437 943 Sanyo 438 4...

Page 14: ...e Digit 6 DVD Digit 6 HD STB Digit 6 7 TV Digit 7 VCR Digit 7 Cable Digit 7 DVD Digit 7 HD STB Digit 7 8 TV Digit 8 VCR Digit 8 Cable Digit 8 DVD Digit 8 HD STB Digit 8 9 TV Digit 9 VCR Digit 9 Cable...

Page 15: ...nels Push Select TV Menu Item Select VCR Enter Cable Sat Enter DVD Enter HD STB Enter menu TV Menu VCR Menu Cable Sat Menu DVD Menu HD STB Menu Disc Menu theater TV Theater Modes N A Cable Sat Info DV...

Page 16: ...Del Channel Review Clock Set HD Focus Picture Formats VIDEO SETUP AUDIO THEA TER SEL SPECIAL If certain CATV channels are not received clearly in CATV1 mode set the source to CATV2 mode CHANNEL ADD DE...

Page 17: ...mats Menu Choose and set the options based on your equipment s signal requirements for high definition or standard NTSC sources Aspect Style Normal Wide Zoom or Panorama Vertical Position sets the ima...

Page 18: ...he list Press SELECT to save your choice If you wish to customize your source ID go to Custom and press the RIGHT arrow button Cycle through the character choices using the UP DOWN buttons and cycle t...

Page 19: ...nels or input sources Blocks the signal sent by the equipment such as a VCR connected to the TV Audio Video input jacks Or leave unblocked then choose al lowable ratings Lock the front panel controls...

Page 20: ...t 2 inputs Be sure the TV s internal clock is set before using any Parental Control options Text automatically appears on the screen to indicate if Parental Control Child Lock is activate SECURITY TIM...

Page 21: ...the Special Menu Use the UP DOWN arrow to choose Background Press the RIGHT arrow button to activate the Background option Use the UP DOWN arrow to choose Solid or Shaded Solid Picture is not visible...

Page 22: ...ETUP AUDIO THEA TER SEL SPECIAL PICTURE SETTINGS Press MENU and use the RIGHT LEFT arrow button to access the Audio Menu Use the UP DOWN arrow to choose one of the following options Use the RIGHT LEFT...

Page 23: ...formance SRS and the symbol are trademarks of SRS labs Inc SRS technology is incorporated under license from SRS Labs Inc Licensed by BBE Sound Inc under USP4638258 and 4482866 BBE and the symbol are...

Page 24: ...1 18...

Page 25: ...ircuits and having the associated circuit routes the technician can then Divide and Conquer STAND BY MODE As indicated in the Power On Off circuit diagram expla nation 3 of the 6 shut down inputs are...

Page 26: ...1 the value is shown as a 0 47 ohm however it could be any low ohm value When the current demand increases the voltage drop across the resistor increases If the voltage drop is sufficient to reduce t...

Page 27: ...of these circuits are activated the power supply will STOP and create a Power Supply Shut down Condition SHUT DOWN CIRCUIT DESCRIPTIONS Shut down occurs when pin 1 of Connector PQD2 called PROTECT go...

Page 28: ...condition the high will be impressed on the cathode of DH15 This high is routed to pin 1 of Connector PQD2 called PROTECT and Shut Down occurs as described above 9 Side Pincushion failure generating...

Page 29: ...onnector pin 5 From here the 9V is routed through the Deflection PWB to the Signal PWB via PSD3 connector pin 11 through the coil LC03 to pin 19 of IC01 the Rainforest IC When this voltage is applied...

Page 30: ...P23 Indicating 115V Deflection B is available Colored GREEN 3 DP37 Indicating SW 5V B is available Colored GREEN 4 DP11 Indicating SW 9V B is available Colored GREEN 5 DP35 Indicating 28V B is availab...

Page 31: ...r these conditions H BLK Horizontal and Vertical Blanking is developed within the Deflection circuit The Horizontal Blanking pulse operates around 13V P P and is produced by taking a sample pulse from...

Page 32: ...nd the connector PDF1 pin 1 This is the Dynamic Focus output voltage 28V 26V and RETRACE PULSE 28V and 28V The 28V and the 28V are routed to the Deflection trans former T752 They enter the transformer...

Page 33: ...N09 and applied to the High Volt age Drive IC IH01 at pin 14 When this occurs the IC will stop generating the drive signal that is used to produce High Voltage via QH02 the High Voltage Driver Again t...

Page 34: ...tput Clamp that fixes the DC offset level The DC offset voltage is adjusted by several things When a complete Digital Convergence procedure has been performed and the adjustment information stored in...

Page 35: ...eforms produced within the Hori zontal Deflection circuit or the Vertical Deflection cir cuit The Convergence Yoke assembly manipulates the Beam in accordance with the correction waveforms pro duced b...

Page 36: ...the Serial Data Clock and Load lines for control The I2 C communication scheme only requires 2 lines for control These lines are called SDA and SCL Serial Data and Serial Clock respectively The Micro...

Page 37: ...I2 C bus to the DAC3 IC The output from the Microprocessor is pin 2 SDA1 and 3 SCL1 which arrives at the DAC3 IC at pins 5 and 6 respectively LEVEL SHIFT I004 The Microprocessor operates at 3 3Vdc Mo...

Page 38: ...dy in the Y Pr Pb or Y Cr Cb state will have be converted to this state by I501 The Main Y Pr Pb Selector IC selects the appropriate input between the Tuner AV Inputs S Inputs or Com ponents Communica...

Page 39: ...ed SDA and SCL Serial Data and Serial Clock respectively SRS AUDIO 29V REGULATOR INDICATED BY D912 The SRS Audio 29V supply is generated from pin 8 of T901 This output is rectified by D910 and filtere...

Page 40: ...SC CLEAR 11 Horz Size Adjust Normal Mode NTSC CLEAR 12 Beam Form Normal Mode NTSC 13 Lens Focus Adjust Normal Mode NTSC 14 Static Focus Adjust Normal Mode NTSC 15 Blue Defocus Normal Mode NTSC Color B...

Page 41: ...an example PTSR for RED PTSG for GREEN and PTSB for BLUE 2 Adjust the Focus VR for Red until Focus is achieved A Fine Adjustment will be made later 3 Repeat for Blue and Green DCU CROSSHATCH PHASE AD...

Page 42: ...oke and adjust the TILT until the green is level 2mm tolerance See diagram RED 3 Remove cover or PTS short from RED CRT and align RED with GREEN 1mm tolerance when com pared to Green BLUE 4 Remove cov...

Page 43: ...ring magnet may be moved to facilitate Distance is important not centering ALTERNATE METHOD Adjust Vertical Size until the size matches the chart below ALTERNATE METHOD Adj Vert Size until the size ma...

Page 44: ...PREPARATION Video Control Brightness 90 Contrast Max SCREEN FORMAT should be NORMAL mode ADJUSTMENT PROCEDURE 1 Receive any NTSC crosshatch signal 2 Turn the B FOCUS VR fully clockwise 3 Adjust BLUE d...

Page 45: ...tches the Cen ter of the DCU Crosshatch determined in step 12 19 If center is not correct Repeat steps 12 through 18 until center is matched NOTE To enter the I2 C Bus alignment menu with Power Off pr...

Page 46: ...nt pages until TA1270 M appears at the top of the page 3 Press PIP CH on remote control TA1270 M changes to TA1270 S 4 Observe P852 on the CRT PWB and change the TA1270 S SUB CNT I2 C data so that the...

Page 47: ...36 900 10070 CRT B ASY R 37 895 10143 DEFLECTION YOKE 38 NSP REAR PORT PANEL PLASTIC 39 809 10735 RF BLOCK 40 874 10054 SCREEN PROTECTOR ONLY 901 10023 OP GUIDE 924 10114 REMOTE CONTROL R56W28 LOC PAR...

Page 48: ...C 39 809 10735 RF BLOCK 40 874 10047 SCREEN PROTECTOR ONLY 901 10023 OP GUIDE 924 10114 REMOTE CONTROL R65W28 LOC PART DESCRIPTION 1 NSP MIRROR MOUNT RIGHT 2 NSP MIRROR MOUNT LEFT 3 NSP MIRROR MOUNT U...

Page 49: ......

Page 50: ......

Page 51: ...7 SPEAKER 17 AB NSP BACK CENTER WOOD 18 AB 809 10807 CONTROL PANEL ASY 19 A 814 10234 CABINET LOWER REAR 19 B 814 10236 CABINET LOWER REAR 20 AB 809 10822 VM SUB PCB 21 AB 809 10726 CRX F PACK 22 B 80...

Page 52: ...RILL 17 AB NSP FRONT ACESS COVER WOOD 18 B 849 10057 SPEAKER 18 A 849 10055 SPEAKER 19 AB 809 10726 CRX F PACK 20 AB 809 10836 VM SUB PCB 21 AB 965 10004 CASTER 22 AB 809 10807 CONTROL PANEL ASY 23 AB...

Page 53: ...R ANODE G ANODE B PCV R SCREEN G MAG FERRITE CORE 133 E001 PDF1 MR MAG FERRITE CORE 133 E001 SK BINDER P 3763752 make a loop N001 PQS1 PQD2 PA PQS2 PQD1 PAQ1 POWER SUPPLY P W B POWERCORD THIS DRAWINGA...

Page 54: ...03 PVS1 PCV PZV PVC2 VM P W B PVMS UNIT CONVERGENCE DIGITAL ZP15 CHASS TO R60V26 THIS DRAWINGAPPLIES POWERCORD P W B POWER SUPPLY PAQ1 PQD1 PQS2 PA PQD2 PQS1 N001 make a loop P 3763752 SK BINDER E001...

Page 55: ...l base white Terminal base Red U401 Woofer R VM P W B Woofer L White Red U402 from SIGNAL P W B PZV PCV PVM PVS1 PVS1 EGB1 NCPTB NCPTG PVC1 FOCUS B PZV from SIGNAL P W B from DEFLECTION P W B PFT PFS...

Page 56: ...3 PQD2 PDC1 PFT TUNER 1 TUNER 2 CONVERGENCE P W B PDF2 PCB PDF1 PDK1 PDK3 PR PL PQS1 PZV PZC PCR PDK4 MB PQD1 LX ZCAT2032 0930 E002 E004 PCR PCG ANODE R ANODE G ANODE B PCV R SCREEN G MAG FERRITE CORE...

Page 57: ...W B POWER SUPPLY PAQ1 PQD1 PQS2 PA PQD2 PQS1 N001 make a loop P 3763752 SK BINDER E001 MAG FERRITE CORE 133 MR PDF1 E001 MAG FERRITE CORE 133 SCREEN G R PCV ANODE B ANODE G ANODE R PCG PCR E004 E002...

Page 58: ...R VM P W B Woofer L White Red U402 from SIGNAL P W B PZV PCV PVM PVS1 PVS1 EGB1 NCPTB NCPTG PVC1 FOCUS B PZV from SIGNAL P W B from DEFLECTION P W B PFT PFS from SIGNAL P W B from TERMINAL P W B from...

Page 59: ...ZP26 28 SHEET 1 NOTE WAVEFORMS AND VOLTAGES WERE MEASURED AT 120VAC CHANNEL 5 AND NSTC COLOR BARS CRITICAL SAFETY COMPONENTS ARE IDENTIFIED BY THE SYMBOL REPLACE ONLY WITH PART NUMBERS SPECIFIED Conv...

Page 60: ...8 6 2 ZP26 28 SHEET 2 NOTE WAVEFORMS AND VOLTAGES WERE MEASURED AT 120VAC CHANNEL 5 AND NSTC COLOR BARS CRITICAL SAFETY COMPONENTS ARE IDENTIFIED BY THE SYMBOL REPLACE ONLY WITH PART NUMBERS SPECIFIED...

Page 61: ...7 8 6 3 ZP26 28 SHEET 3 NOTE WAVEFORMS AND VOLTAGES WERE MEASURED AT 120VAC CHANNEL 5 AND NSTC COLOR BARS CRITICAL SAFETY COMPONENTS ARE IDENTIFIED BY THE SYMBOL REPLACE ONLY WITH PART NUMBERS SPECIFI...

Page 62: ...4 ZP26 28 SHEET 4 NOTE WAVEFORMS AND VOLTAGES WERE MEASURED AT 120VAC CHANNEL 5 AND NSTC COLOR BARS CRITICAL SAFETY COMPONENTS ARE IDENTIFIED BY THE SYMBOL REPLACE ONLY WITH PART NUMBERS SPECIFIED Def...

Page 63: ...7 8 6 5 ZP26 28 SHEET 5 NOTE WAVEFORMS AND VOLTAGES WERE MEASURED AT 120VAC CHANNEL 5 AND NSTC COLOR BARS CRITICAL SAFETY COMPONENTS ARE IDENTIFIED BY THE SYMBOL REPLACE ONLY WITH PART NUMBERS SPECIFI...

Page 64: ...8 6 6 ZP26 28 SHEET 6 NOTE WAVEFORMS AND VOLTAGES WERE MEASURED AT 120VAC CHANNEL 5 AND NSTC COLOR BARS CRITICAL SAFETY COMPONENTS ARE IDENTIFIED BY THE SYMBOL REPLACE ONLY WITH PART NUMBERS SPECIFIE...

Page 65: ...7 8 6 7 ZP26 28 SHEET 7 NOTE WAVEFORMS AND VOLTAGES WERE MEASURED AT 120VAC CHANNEL 5 AND NSTC COLOR BARS CRITICAL SAFETY COMPONENTS ARE IDENTIFIED BY THE SYMBOL REPLACE ONLY WITH PART NUMBERS SPECIFI...

Page 66: ...7 8 6 8 ZP26 28 SHEET 8 NOTE WAVEFORMS AND VOLTAGES WERE MEASURED AT 120VAC CHANNEL 5 AND NSTC COLOR BARS CRITICAL SAFETY COMPONENTS ARE IDENTIFIED BY THE SYMBOL REPLACE ONLY WITH PART NUMBERS SPECIFI...

Page 67: ...7 8 6 9 ZP26 28 SHEET 9 NOTE WAVEFORMS AND VOLTAGES WERE MEASURED AT 120VAC CHANNEL 5 AND NSTC COLOR BARS CRITICAL SAFETY COMPONENTS ARE IDENTIFIED BY THE SYMBOL REPLACE ONLY WITH PART NUMBERS SPECIFI...

Page 68: ...8 6 10 ZP26 28 SHEET 10 NOTE WAVEFORMS AND VOLTAGES WERE MEASURED AT 120VAC CHANNEL 5 AND NSTC COLOR BARS CRITICAL SAFETY COMPONENTS ARE IDENTIFIED BY THE SYMBOL REPLACE ONLY WITH PART NUMBERS SPECIF...

Page 69: ...6 7 8 6 11 ZP26 28 SHEET 11 NOTE WAVEFORMS AND VOLTAGES WERE MEASURED AT 120VAC CHANNEL 5 AND NSTC COLOR BARS CRITICAL SAFETY COMPONENTS ARE IDENTIFIED BY THE SYMBOL REPLACE ONLY WITH PART NUMBERS SP...

Page 70: ...12 ZP26 28 SHEET 12 NOTE WAVEFORMS AND VOLTAGES WERE MEASURED AT 120VAC CHANNEL 5 AND NSTC COLOR BARS CRITICAL SAFETY COMPONENTS ARE IDENTIFIED BY THE SYMBOL REPLACE ONLY WITH PART NUMBERS SPECIFIED...

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