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IC  BLOCK  DIAGRAM & DESCRIPTION

IC601  IC LC72338-9C41-E (Single-Chip PLL + Controller)

Pin name Pin No. I/O I/O Format

Functions

PA0
PA1 
PA2 
PA3

18 
17 
16 
15

I

Pull-down
resistor
input

Port only for key return signal input.
The threshold voltage is set to a relatively low value.
When a key matrix is formed by combining PB and PC ports,
maximum three simultaneous key presses can be detected.
All of four pull-down resistor are set by the IOS instruction with
Pn=2, b1 and specification of resistor for each pin is impossible.
The input is disabled in clock stop mode.

PB0 
PB1 
PB2 
PB3 
PC0 
PC1 
PC2 
PC3

14 
13 
12 
11 
10 



7

O

Unbalance
CMOS
Push-pull

Port only for key source signal output.
Since the output transistor circuit is an unbalanced CMOS
structure, diodes to prevent short-circuiting due to multiple key
presses are not required.
In clock stop mode, these pins go to the output high-impedance
state and hold this state until an output instruction is executed.

PG0 

PG1/SCK0 

PG2/SO0

PG3/SI0




I/O

CMOS
posh-pull

General-purpose output/serial I/O ports. Schmidt type input
the IOS instruction performs switching between general-purpose
I/O ports and serial I/O ports, and between input and output for
general-purpose I/O ports.
  •  When used as general-purpose I/O ports these pins
    can be set for input or output in bit units(bit I/O),
    and are set for use as general-purpose I/O ports by
    the IOS instruction with Pn=0.
       

b0=SI/O  

0 • • • general-purpose port

       

 

 

 

1 • • • SI/O port

Specification of input or output is made by the IOS instruction
in bit units.
       

PG • • • Pn=6 

0 • • • Input

       

 

 

 

1 • • • Output

  •  When used as serial I/O ports these pins are set for
    serial I/O port use by the IOS instruction with Pn=0.
    The content of serial I/O data buffer is saved or load by the
    INR and OUTR instructions.
    *Pin setup states when used as serial I/O ports
      PG0 • • • general-purpose input or output
      PG1 • • • SCK0 output in internal block
       

 

SCK0 input in external block

      PG2 • • • SO0 output
      PG3 • • • SI0 input
In clock stop mode, input is disabled and these pins go to
the high-impedance state.
During the power-on reset, these pins become general-purpose
input ports.

4.5MHz crystal oscillator pin.

XIN

XOUT

80

EO1
EO2

78 
77

O

CMOS
tristate

-

I

O

Charge pump output pin.
These pins go to high-impedance state when the HOLD pin is set
low in the hold enable state.
In ckock stop mode, during the power-on reset and in the PLL
stop state, these pins go to the high-impedance state.

VSS
VDD

FMIN

AMIN

HCTR

76 

31,73

74

75

70

72

-

I

I

I

I

-

Power supply pin.

FMVCO (local oscillator) input pin.
This pin is selected by the PLL instruction CW1 (b1=0,b0=don't 
care). Capacitor  coupling must be used for signalinput. Input is 
disabled when the HOLD pin is set low inthe hold enable state. 
Input is disable in clock stop mode,during the power-on reset, 
and in the PLL stop state.

AMVCo (lcal oscillator) input pin.
This pin is selected and the band set by the PLL instruction
CW1 (b1,b0).

Capacitor coupling must be used for signal input.
Input is disabled when the HOLD pin is set low in the hold enable 
state. Input is disabled in clock stop mode, during the power-on 
reset, and in the PLL stop state.

b1  b0 

 

      Band

 0 

2 to 40MHz  (SW)

 1 

0.5 to 10MHz (MW,NW)

Universal counter / general-purpose input port.
The IOS instruction b3 with Pn=3 switches the pin function 
between universal counter input and general-purpose input.
  • Frequency measurement
    The universal counter function is selected by an IOS 
    instruction with Pn=3 and b2=0. HCTR frequency measure-
    ment mode is set up by a UCS instruction with b3=0 and b2=0,
    and counting is started with a UCC instruction after the count 
    time is selected. The CNTEND flag is set when the count 
    completes. To operate this circuit as an AC amplifier in this 
    mode, the input must be capacitor coupled.
  • For use as the general-purpose input pin.
    The general-porpose input port function is selected by an IOS 
    instruction with Pn=3 and b2=1. An internal register (address 
    OEH) input instruction INR(b0) is used to acquire data from 
    this pin.
Input is disabled in clock stop mede (the input pin will be pulled 
down.) During the power-on reset, the universal counter function 
is selected.

SNS

Voltage sense / general-purpose input pin port.
This circuit is designed for a relatively low input threshold voltage.
  • For use as the voltage sense pin
    This input pin is is used to determine whether or not a power 
    failure occurred after recovery from backup (clock stop) mode. 
    An internal sense F/F is used for this determination. The 
    sense F/F is tested with a TUL instruction (b2).
  • For use as the general-purpose input port
    When used as a genaral-purpose input port, the state is 
    sensed by using a TUL instruction (b3).
    Since unlike other input ports, input is not disablle in clock 
    stop mode and during the power-on reset, special care is 
    required with respect to through currents. 

Pin name Pin No. I/O I/O Format

Functions

LCTR

PH0/ADI0
PH1/ADI1
PH2/ADI2
PH3/ADI3

71

68 
67 
66 
65

69

I

I

I

Universal counter (freqency and period measurement) / general-
purose input port.
This IOS instruction b3 with Pn=3 swithes the pin function 
between universal counter input and general-puropse input.
  • Frequency measurement
    The universal counter function is selected by an IOS 
    instruction with Pn=3 and b3=0. LCTR frequency measure-
    ment mode is set up by a UCS instruction with b3=0 and b2=1, 
    and counting is started with a UCC instruction after the count 
    time is selected. The CNTEND flag is set when the count 
    completes. To operate this circuit as an AC amplifier in this 
    mode, the input must be capacitor coupled.
  • Period measurement
    With the universal counter function selected, a UCS instruction 
    with b3=1 and b2=0 sets up the period measurement mode 
    and a UCC instruction starts counting after selecting the 
    count time.  The CNTEND flag is set when the count 
    completes. In this mode, the signal must be input with DC 
    coupling to turn off the bias feedback resistor.
  •  For use as general-purpose input pin use.
    The general-purpose input port function is selected by an IOS 
    instruction with Pn=3 and b3=1. An internal register (address 
    OEH) input instruction INR(b1) is used to acquire data from 
    this pin. Input is disabled in clock stop mode. (The input pin 
    will be pulled down.) During the power-on reset. The universal 
    counter function(in HCTR frequency measurement mode) is 
    selected.

HOLD

PLLcontrol and CLOCK STOP mode control pin.
Setting this pin low in the hold enable state disables input to the 
FMIN and AMIN pins and sets the E0 pin to the high-impedance 
state. To enter clocl stop mode, set the HOLDEN flag, set this pin 
low, and execute a CKSTP instruction. To clear clock stop mode 
set this pin high.

General-purpose input ports/ADC input pins.
The IOS instruction with Pn=7 switches the pin function between 
genetal-purpose input ports and ADC inputs.
  •  For use as the general-purpose input port
    The IOS instruction with Pn=7 specifies the use as general-
    purpose input port in bit units.
  •  For use as ADC input pin
    The IOS instruction with Pn=7 specifies the use as ADC in bit 
    units. The IOS instruction with Pn=1 specifies the pin to 
    convert. The UCC instruction (b2) starts a conversion.
    The ADCE flag will be set when the conversion completes.
  Note) Executing an input instruction for a port specified for ADI 
        use will always return low since input is disabled. These 
        pins must be set up for general-purpose input port usage 
        before an input instruction is excuted. (In other words, the 
        port must be set to the general-porpose input function 
        before the input instruction is executed.)
Input is disabled in clock stop mode. During the power-on reset 
these pins go to the general-purpose input port function.

PJ0/DAC0
PJ1/DAC1
PJ2/DAC2
PJ3/DAC3

PK0/INT0
PK1/INT1
PK2
PK3

Vdd1

Vdd2

TEST1 
TEST2

COM1
COM2
COM3

S1

|

S16

64 
63 
62 
61

22
21 
20 
19

57

58

79 

2

58 
57 
56

55

|

40

O

I/O

O

O

General-purpose output ports/DAC input pin.
The IOS instruction with Pn=9 switches the pin function between 
general-purpose output ports and ADC inputs. Since these pins 
are open drain circuit, pull-up resistors are required in exrernal 
circuit accepting these outputs.
  •  For use as general-purpose output port
    The IOS instruction with Pn=9F specifies general-purrpose
    input port use in bit units.
  •  For use as DAC
    The IOS instruction Pn=9 is used to switch the port in bit units. 
    DAC data is loaded into tne DAC (0 to 3) specified with the 
    DAC instruction, Although PWM waveform is output as soon 
    as the port is switched, the data prior to that load is output for 
    up to 114

µ

s (1/8.791kHz) after data is loaded.

The general-purpose output port function is selected after a power
-on reset, and the output go to the transistor off (H output) state. 

General-purpose I/O / external interrupt ports
There is no instruction that switches the function between general-
purpose ports and external interrupt ports. These pins function for 
input only when the external interrupt enable flag is set. 
(Output disables)
  •  For use as general-purpose I/O port
    These pins can be set for input or output in bit units (bit I/O).
    The IOS instruction is used to specify input or output in bit 
    units.
  •  For use as external interrupt pin
    This function can be used by setting the external interrupt 
    enable flags (INT0EN and INT1EN) in status register 2. 
    The corresponding pin is automatically set to the input port. 
    To enable interrupt operation, the interrupt enable flag (INTEN) 
    in status register 1 must also be set. The IOS instruction with 
    Pn=3, b1=INT1, and b0=INT0 is used to select rising or falling 
    edge detection.
In clock stop mode, input is disabled and these pins go to the high-
impedance state. During the power-on reset, these pins go to the 
general-purpose input port function.

Nch

open drain

CMOS

push-pull

CMOS

three
value

output

CMOS

three
value

output

Pin for external application of 2/3 voltage of LCD drive bias. 

Pin for external application of 1/3 voltage of LCD drive bias. 

LSI test pin.
These pins must be either  left open or connected to ground.

LCD driver common output pin.
Driver format 1/3 duty, 1/3 bias.
This pin is fixed at the low level in CLOCK STOP mode.
This pin is fixed at the low level after a power-on reset.

LCD driver common output pin.
Driver format 1/3 duty, 1/3 bias.
The frame frequency 100MHz.
This pin is fixed at the low level in CLOCK STOP mode.
This pin is fixed at the low level after a power-on reset.

Summary of Contents for DC-DA1100 (XE)

Page 1: ...165 104 01 Contents Laser beam safety precaution 1 Tape adjustments 1 Tuner adjustments 2 CD pick up maintenance 2 Exploded view Cabinet Chassis 3 Parts list 4 Exploded view Parts list Tape mechanism 7 IC block diagram description 7 LCD display description 14 Wiring connection 15 CD Schematic diagram FRONT 16 CD 18 TUNER 22 AMPLIFIER 26 Wiring diagram FRONT CD 20 TUNER 24 AMPLIFIER 28 POWER TRANSF...

Page 2: ... 70gr cm 1 0 6 0gr cm 80 gr or more F FWD REW 55 gr or more CAUTION INVISIBLE LASER RADIATION WHEN OPEN AND INTERLOCKS DEFEATED AVOID EXPOSURE TO BEAM ADVARSEL USYNLIG LASER STRÅLING VED ÅBNING NÅR SIKKERHEDSAFBRYDERE ER UDE AF FUNKTION UNDGÅ UDS ÆTTELSE FOR STRÅLING VARNING OSYNLIG LASER STRÅLNING NÄR DENNA DEL ÄR ÖPPNAD OCH SPÄRR ÄR URKOPPLAD STRÅLEN ÄR FARLIG VORSICHT UNSICHTBARE LASERSTRAHLUNG...

Page 3: ...4 TP15 T2001 CT211 IC211 T2002 Antenna 75Ω unbalanced direct Modulation 1 kHz Dev 22 5kHz MONO 22 5kHz MAIN 6 75kHz PILOT RF Level dBuV EMF Output Level about 30mV at TP13 TP14 TP15 Anntena IRE Loop SG Moduration 1kHz 30 RF Level dBuV EMF Output Level about 30mV at TP13 TP14 TP15 CD PICK UP MAINTENANCE About pick up Optical lens Cleaning Clean a lens with swab of the cotton which moistened it with...

Page 4: ...29 8 6 7 11 22 2 13 14 15 17 18 16 3 4 5 1 23 53 21 22 22 24 Y03 Y01 Y02 Y05 Y05 Y04 Y04 Y05 Y06 Y07 55 56 51 52 54 Y11 Y11 Y12 Y14 Y13 Y15 Y15 Y16 Y16 Y19 Y19 Y21 Y20 Y20 Y18 Y18 Y17 Y13 Y08 Y09 Y10 Y10 Y10 Y09 Y07 Y07 71 72 73 74 75 76 57 58 This is a basic exploded view ...

Page 5: ...NG DECK MECHA 20 614 308 0534 SPRING PLATE REC 21 614 310 3899 SPACER MECHA CD DA11 22 614 325 6014 ASSY MECHA DA11T3CN SASH 23 614 307 2072 COVER PICK UP 24 614 322 2132 ASSY GEAR LID CD 25 614 329 2357 MOUNTING CD 26 614 303 0263 LATCH PUSH CD DOOR LOCKING 27 614 307 8821 PULLEY 28 614 303 0256 LATCH MAGNET 29 614 329 2456 SPRING DOOR CD 30 614 329 2333 LID CD 31 614 329 2234 DEC WINDOW CD 32 61...

Page 6: ...U K L2204 645 037 2377 TRANS ANT 796KHZ or 645 058 8792 TRANS ANT 796KHZ L2205 645 040 2739 TRANS OSC 796KHZ or 645 058 8822 TRANS OSC 796KHZ Q2001 405 151 4301 TR KTC3195 Y or 405 151 4806 TR KTC3195 O D6901 407 012 4406 DIODE 1SS133 D6902 407 012 4406 DIODE 1SS133 D6951 407 235 7406 LED LT7V34 81 URC1 LCD LIGHT D6952 407 235 7406 LED LT7V34 81 URC1 FRONT LIGHT IC601 410 517 4208 IC LC72338 9C41 ...

Page 7: ...FILTER 450KHZ T2002 645 039 9923 TRANS IF 10 7MHZ or 645 040 9981 TRANS IF 10 7MHZ or 645 060 4089 TRANS IF 10 7MHZ XF210 645 059 0047 FILTER BP or 645 026 2975 FILTER BP 108MHZ or 614 252 1045 FILTER LC XF211 645 054 1223 CERAMIC FILTER 10 70MHZ or 645 010 7665 CERAMIC FILTER 10 70MHZ or 614 240 2917 FILTER CERAM XF212 645 054 1223 CERAMIC FILTER 10 70MHZ or 645 010 7665 CERAMIC FILTER 10 70MHZ o...

Page 8: ... 2 59 64 11 32 33 62 8 VDD3V 63 23 Slice level Control Subcode Separation QCRC Syncrnous Detection EFM Demodulation VCO Clock Oscillator Clock Control Crystal Oscillator System Generator RAM Address Generatorl Digital Output General PurposePort Digital Attenuator 8X Over Sampling Digital Filter Interpolalation Mute C1 C2 Error Detection Correction Flag Processing 1bit DAC L P F CLV Digital Servo M...

Page 9: ...nected to 0V External VCO control phase comparator output pin PDO output current adjustment resistor connection pin Internal VCO power supply pin VCO frequency range adjustment Digital system ground pin Must be connected to 0V Slice level control EFM signal output pin EFM signal input pin Test input pin A pull down resistor is built in Must be connected to 0V Disk motor control output Can be set t...

Page 10: ...4 3 2 1 Vcc1 LDS LDD BH1 PH1 LF2 VR REF1 Vcc2 DRF CE DAT CL CLK DEF NC TBC FSC DGND SLI SLC RFS RFSM CV CV SLOF HFL TES TOFF TGL JP JP SL SL SLD SLEQ SPD SP SPG SPI SP AGND FE FE FA FA FD FD TO JP TD TD TA TH SCH TESI TE TE TB F E FIN1 FIN2 APC RF DET REF VCA I V BAL VCA INTER FACE SLC RF Amp TE T SERVO T LOGIC F SERVO F LOGICK SPINDLE SERVO SLED SERVO IC101 LA9242M MPB Servo Processing Signal for...

Page 11: ...9 18 17 16 15 14 13 IC211 LA1844ML Tuner System CONTROL CIRCUIT LOGIC CIRCUIT CCB INTERFACE CONTROL CIRCUIT 15 14 16 17 18 19 20 21 22 24 25 26 23 10 9 7 6 5 8 11 L4 L3 L2 L1 NC NC R1 R2 R3 R4 RSELO RIN RTRE RBASS1 RBASS2 ROUT LSELO LIN LTRE LBASS1 LBASS2 LOUT TEST VSS CE DI CL VDD Vref NC 12 13 1 2 30 29 28 27 4 3 LVref RVref IC411 LC75342M Function SW Electric Volume 2 Band Equalizer IC412 TA822...

Page 12: ... 70 71 AMIN SNS HOLD VDD VSS HCTR LCTR 69 79 2 18 17 16 15 14 13 12 11 10 9 8 7 TEST1 TEST2 PA0 PA1 PA2 PA3 PB0 PB1 PB2 PB3 PC0 PC1 PC2 PC3 6 5 4 3 PG0 SCK0 PG1 SO0 PG2 SI0 PG3 LATCH BUS DRIV LATCH BUS DRIV LATCH BUS DRIV SIO BUS DRIV 1 2 V DET SNSFF 1 16 1 17 PROGRAMMABLE DIVIDER LATCH UNIVERSAL COUNTER 20bits RAM 512 x 4bits ROM 8K x 16bits ADDRESS DECODER BUS DRIVER INSTRUC TION DECODER ADDRESS...

Page 13: ...function between universal counter input and general puropse input Frequency measurement The universal counter function is selected by an IOS instruction with Pn 3 and b3 0 LCTR frequency measure ment mode is set up by a UCS instruction with b3 0 and b2 1 and counting is started with a UCC instruction after the count time is selected The CNTEND flag is set when the count completes To operate this ...

Page 14: ... PE2 SO2 S20 PE3 SI2 S25 PM0 S26 PM1 S27 PM2 S28 PM3 39 38 37 36 30 29 28 27 I O I O LCD driver segment output general porpose input output and serial I O ports The IOS instruction is used to switch between the LCD driver segment output general purpose I O and serial I O functions and to switch between input and output of the general purpose input port function For use as segment output These pins...

Page 15: ... S16 S17 S18 S19 S20 S21 S22 S23 S24 S25 COM1 4M 3A 3B 3M T2 T9 T8 2A 2B 2h 1A 1B 1h SURR COM2 4C 3F 3G 3C T4 T3 4h 2F 2G 2C 1F 1G 1C SLEEP COM3 4K 3E 3D 3K T7 3h 2E 2D MONO 1E 1D 1K AM 1 A G K K K M M B F D C E 1 1h 3h 4h 2h T1 T9 T2 T4 T6 T7 T3 T5 T8 2 3 4 5 6 7 28 LCD60 IC BLOCK DIAGRAM DESCRIPTION 28 27 26 25 24 23 22 21 20 19 18 17 16 15 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Vcc Vcc DRIVER MUTE D ...

Page 16: ... LCD60 CN601 14P CN202 16P CN204 2P CN604 2P CN201 CN122 8P CD MECHANISM CN111 16P 16P CN113 6P 6P CN441 2P CN490 8P CN491 14P CN421 PHONES CN402 2P CN401 2P CN406 4P CN405 4P FU401 T2 5A L 250V AMPLIFIER P W B TUNER P W B AM LOOP ANT CN455 2P P T AC IN CN452 BL CN451 BW MOTOR SWITCH R P HEAD RED ORANGE YELLOW BROWN M TAPE DECK MECHANISM CN203 1P FM ANT ...

Page 17: ... 470 10K 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 1 2 3 5 4 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 2 1 KEY2 GND CN604 1 2 3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 1 2 3 4 5 6 7 8 9...

Page 18: ...220P 100 0 1 1SS133 1SS133 1SS133 330K 100P 0 022 100P 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 32 31 30 29 28 27 26 25 24 ...

Page 19: ...LIM SW J1308 D1401 D1402 D1403 J1119 J1317 J1318 C1457 J1206 J1300 J1212 J1104 J1306 J1108 C1783 J1100 J1207 C1476 C1478 D1410 J1120 J1304 J1322 J1114 J1117 J1113 J1116 C1492 J1107 IC102 IC101 J1103 X1451 J1105 J1215 R6201 R6201 R6112 R6112 C6910 C6910 C6501 C6501 C6203 C6203 C1772 C1772 C1782 C1782 C1475 C1475 C1404 C1404 R1773 R1773 R1465 R1465 R6201 C6201 C6903 R6905 C6901 C6901 C6204 C6204 R61...

Page 20: ...2 0 47 50 10K 0 01 0 01 KRA107M 3 9K 0 01 10 25 10K 2 7K 100 10 0 47 50 1 50 0 047 LA1844ML 820K KRA107M 27K 100 1000P 18K 0 022 0 022 0 033 680P 0 022 0 022 4 7 50 22 25 1SS133 2 2 50 2 2 50 68K KRC107M 2 2K 100 10 15K 0 022 0 1 1000P 1P KRC107M 10K 15K 0 022 KTC3195 330K 4 7K 0 022 1 0K SVC211 B C SVC211 B C SVC342 1000P KTC3195 O 560K 330 0 022 220 100P 22UH 22UH AM ANT TERMANL 1SS133 1SS133 56...

Page 21: ...7 D2006 L2001 IC211 C2131 C2142 R2131 C2024 C2005 C2002 R2001 C2001 C2001 C2014 C2014 C2022 C2022 C2001 R2002 C2014 R2005 C2013 R2004 R2003 C2011 C2011 C2015 C2015 R2008 R2008 C2117 C2117 C2122 C2122 C2702 C2702 R2801 R2801 R2701 R2701 C2115 C2115 R2301 R2301 C2114 C2114 R2303 R2303 R2302 R2302 C2120 C2120 C2011 C2012 C2008 C2015 R2014 C2017 C2003 C2003 C2101 C2101 C2802 C2802 C2209 C2209 C2311 C2...

Page 22: ...1K 2200P 18K 1K 560P BA3314 KRA102M TKTC3199 1SS133 KRC102M 47K 1500mA 1SS133 10 16 10 16 10K 0 01 KRC102M KRC102M 8 2K 1 5K 5 6K 8 2K 1 5K 5 6K 2 7K 100 10 1K 3 3K KRC107M 0 01 0 01 KTA1271 KRC107M 4 7K 1 50 NJM78L05A 1SS133 47 10 0 01 100K 10K 220 25 KTA1271 47K 4 7K 22U 22U 22U 1K 1K 10 25 10 25 1 2K 1 2K 22 16 100P 100P 1K 1K 100P 1K LC75342 220 16 100 12K 100K 12K 12K 22K 3 3K 1 2K 12K 22K 10...

Page 23: ...J4339 J4337 C4733 C4725 C4722 C4821 C4825 C4822 C4730 C4833 C4720 C4820 C4721 C4731 J4318 J4212 J4118 J4112 J4214 J4113 J4211 J4210 J4209 J4111 J4109 J4110 J4127 J4128 J4340 J4125 J4227 C4994 D4993 IC446 Q4995 J4129 Q4994 J4342 J4341 J4126 C4701 C4801 CN491 J4105 J4115 J4216 J4322 J4323 C4993 J4103 NIP CUT C4981 C4981 C4982 C4982 C4983 C4983 C4980 C4980 C4952 C4952 R4818 R4818 R4905 R4905 C4803 C4...

Page 24: ...K 1AD4B10D2410E T002A 94V 0 L4591 CN451 CN452 CN455 S6003 S6004 S6005 S6006 SOUND PRESET BASS SURROUND CLOCK TIME 1AD4B10D2410F T002A 94V 0 KEY0GND CN604 R6005 R6004 R6003 WIRING DIAGRAM POWER TRANSFORMER KEY KEYP W BOARD POWER TRANSFORMER P W BOARD This is a basic wiring diagram ...

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