MODEL: RM2010. Service Manual

MODEL: RM00 Service Manual

CONTENTS SECTION.Power supply to parts... SECTION. Tools and instruments for checking... SECTION 3.Block diagram... 3 SECRION 4.Product circuit schematic... 4 SECTION 5.PCB layout drawing...0 SECTION 6.Main IC function...3 SECTION 7.Critical integrated circuit block...4 SECTION 8.Part list... 69

SECTION POWER SUOOLY TO PART. Power AC~30v/50HZ,After Transformering.Rectifying And Regulating Supply DC+/-48V,DV+/-V.DC+9V.DC+5V And AC.V. DC+/-48V Power Supplied to Power Amplifier (Transistor SC500 SA943 D669A B649A...).3 DC+/-4V Power Supplyed to Control BD ICUPD63.4 DC+/-V Power Supplied to Main BD PhinoAMP IC NC553.Pre- Amplifier IC NE553.And Tuner BD IC..5 DC+/-9V Power Supplied to main BD IC PS8889,IC4066..6 DC+5V Power Supplied to ContrilBD CPU IC GMS97C5..7 AC~.V Power Supplied to VFD(SVAIMM4) Display. SECTION. TOOLS AND INSTRUMENTS FOR CHECKING. Tools:Multimeter Electric Soldering iron, Cutting Pliers And Antistatic ect.... Instruments: Standard Signal Generator, Audio Signal Generator, Voltmeter,Osclloscope, Distortion Appparatus, Audio Analyzer(A- Audio Test & Service Syetem)

ANT (75 ) FMRF AM LOOP ANT AM Tuner Board (RFAmp, Osc, Mix, IFAmp Detector, Decode) PHONO IN L+R 3 5 4N NE553 pre-amplifier 7, 3 SECTION3 Block diagram Audio out CD IN REC OUT TAPE IN L+R 3 30 L+R 6 7 L+R 4 8 IN3 CD 4066 Electic Swith INI PS8889 channel Select & EQ 5,8 6. 7. 8. TAPE (L+R) LOUD (L+R) AUX IN Lch Rch AUX IN L+R 3,9,0 5,6,,3 6 Power Sw +48 v -48 v -4 v 30VAC 50Hz AC~.V AC 0V Power Plug AC~.V To Z~Z4 34, 35, 36, 3,33 N NE553 Pre-Amp 7 Lch Rch To Power AMP To VFD Driver IC To VFD Lamppin U4 7805 U 78 U 79 3N4 PT63 VFD Driver/Control 3N GMS97C5 CPU Power AMplifier Circuit +5V To CPU, Reveiver head To Pre-AMP IC +V +9V U3 7809 -V To Pre-AMP IC VFD +5V 3N9 74AHCIG08 Key button Lch Z4 Rch Z3 Z Z To Z~Z4 Speaker Protection Circuit To channal Select IC Electic Swith IC Remote Reveiver head Headphone Jack Speaker ( L ) Speaker ( R ) LOUD (L+R) 8,5 7,6 4,9, Transformer C C Transistor sc500.sa943 D669A.B649A...

SECTION 4 4. MCU & VFD Driver Schematic Draning 4. Phono Pre-AMP Schematic Draning 4.3 Chammel Select & EQ Schematic Draning 4.4 Power AMP Schematic Draning 4.5 Remote Control Schematic Draning

D C B A 3 4 Title VFD.SCH MCU & VFD Driver Schematic Size Number Revision A4 Check By: Approved By: Date: 9-Sep-00 Sheet of File: E:\camen\MODEL\RM00&00L\Rm00(PROSON Drawn By: WORK)\protel\rm00-00w.ddb 3 4 D C KEY4 KEY3 KEY KEY STB CLK IC DIN DOUT SW4 SW3 SW SW 3 0 9 8 7 6 5 4 3 3N5 3 4 3N X5045 CS VCC SO RST WP SCK VSS SI 3 4 5 6 7 8 8 7 6 5 3N9 74AHCG08 4 5 6 7 8 9 0 3 4 5 6 VDD S/KS S/KS S3/KS3 S4/KS4 S5/KS5 S6/KS6 S7/KS7 S8/KS8 S9/KS9 S0K0 SK SK 3N4 PT63 OSC VSS LED LED LED3 LED4 LED5 VDD G G G3 G4 G5 5 5 50 49 48 47 46 45 44 43 4 4 40 B 7 8 9 30 3 3 33 34 35 36 37 38 39 S3G6 S4G5 S5G4 S6G3 S7G S8G VDD VEE S9G0 S0G9 G8 G7 G6 3 S8 MODE S DOWN S6 UP REMOTE 3C 33pF 3C 33pF 3R7 0K 4.433M 9 0 3 4 5 6 7 8 9 0 3N GMS97C5 p.0 p. p. p.3 p.4 p.5 p.6 p.7 RESET p3.0 p3. p3. p3.3 p3.4 p3.5 p3.6 p3.7 XT XT Vcc p0.0 p0. p0. p0.3 p0.4 p0.5 p0.6 p0.7 EA ALE PSEN p.7 p.6 p.5 p.4 p.3 p. p. Vss p.0 40 39 38 37 36 35 34 33 3 3 30 9 8 7 6 5 4 3 3Z 3R4 0K 3R 0K 3R6 0K 3R5 0K +5V S3 BAND S7 FM MODE S MEMORY S5 +5V 3 4 5 6 7 8 3 4 5 6 7 8 3RV 0K*8 3RV 0K*8 6 5 4 3 0 9 6 5 4 3 0 9-4V 5V -4V 3R3 0K 3R 56K 3D0 5V XP3 3 4 5 6 7 3C8 00uF/5V AUX S9 TAPE S6 LOUD S0 CD S4 PHONO S8 TUNER S BALANCE S5 TREBLE S9 BASS S7 SLEEP 3D N448 3D N448 3D3 N448 3D4 N448 3D6 N448 VFD SVAMM4 P3.6 P3.7 P3.5 P.3 P. P.0 P. 3R 0K 3R9 0K P0.0 P.5 3V3 STANDBY P.6 P.7 P0.3 P0.4 P0.5 P0.6 P0.7 P.6 P.5 P.4 P.3 P. P. P.0 3V LOUD 3V MUTE 3R8 K 3R7 K 3R6 K 3R8 K 3R7 K 3R6 K 3R5 K 3R4 K 3R9 0K 3R K 3R K 3R0 K 3R9 K 3R8 K 3R3 K 3R4 K MUTE DGND AC.V 0V AC.V -4V +5V 3C3 00uF/6V 3S0 3R 0K 3R0 0K 3C5 0.uF 89CLK 89DATA 89STB TAPE DIR MUTE STEREO TNUED CE DI DO CL XP 3 4 5 8 X.P TO TUNER TO EQ XS6 7 6 5 4 3 3 3C4 P3.3 P3.4 +5V 3M 0.0uF 3C9 uf/50v 3C0 uf/50v VOLUME VFD Driver 3D7 N448 +5V (3N.40) A A

D C B A 3 4 D PHONO R IN 4C 8pF 4R 470 4R 390 4C 80pF 4C7 47uF 4C3 80pF 4R6 500 4R3 K 4C4 000pF 4R5 K 4C6 5600pF 5 6 8 4NB 7 4R4 80K 4C5 0.0uF 4C7 47uF 4R7 00 4C8 47uF 4R6 00 4C5 4.7uF 4R5 00 +V -V PHONO L OUT PHONO R OUT C TO EQ * 4 NE553 GND PHONO L IN 4R4 470 4R3 390 4C8 4C4 4C3 4R 8pF 4C0 80pF 80pF K 000pF 3 4NA NE553 4R8 00 4C6 4.7uF 4C9 47uF 4R9 500 * 4R0 K 4R 80K 4C 4C 5600pF 0.0uF Title PHONO.SCH Phono Pre-Amplifier Schematic Size Number RM00 Revision A4 Check By: Approved By: Date: 9-Sep-00 Sheet of File: E:\camen\MODEL\RM00&00L\Rm00(PROSON Drawn By: WORK)\protel\rm00-00w.ddb 3 4 A B A

D C B A 3 4 D +9V C C4 0 3 4 5 6 3 4 5 6 7 8 9 R3 AGND INL INL IN3L IN4L SWOUT_L LOUD_L VRIN_L TREB_L BASS_L BASS_L FOUT_L ROUT_L VREFIN CT STB Vcc INR INR IN3R IN4R SWOUT_R LOUD_R VRIN_R TREB_R BASS_R BASS_R FOUT_R ROUT_R AVcc DATA CLK 3 4 3 3 30 9 8 7 6 5 4 3 0 9 8 7 Title Size A4 Number RM00 Revision Date: 9-Sep-00 Sheet of File: E:\camen\MODEL\RM00&00L\Rm00(PROSON Drawn By: WORK)\protel\rm00-00w.ddb B R6 K.7K 5 6 7 8 VCC- IN+ IN- OUT IN+ IN- OUT VCC+ 4 3 R3 K AUX R CD R -V +V C0 0uF 0uF C9 R7 K R5.K R3.K R7.K R5.K 4 3 8 9 0 3 4 5 L GND R 5 3 6 C6 47uF/6V 3 4 5 6 FROM PHONO OPAMP +V R 0 R39 00 R38 00 R 470 C34 00uF +9V CLK DATA STB TAPE DIR R36.K R34.K R37 K * CD4066 D9 N448 EQ.SCH * Channel Select & EQ Schematic Check By: Approved By: A A R35 K

D C B A 3 4 5 D D4 N400 N400 D3 N400 C3 C D N400 T.5A L 50V D8 FS6 N400 TA D5 N400 JACK OUT D6 D7 N400 L N400 C FS3 TA 0uF 7809 +9V U3 +V POWER UNIT GND -V Title AMP.SCH Power AMP (Main Board) Schematic Size Number RM00 Revision 30VAC B Check By: Approved By: Date: 9-Sep-00 Sheet of File: E:\camen\MODEL\RM00&00L\Rm00(PROSON Drawn By: WORK)\protel\rm00-00w.ddb 6 D V7 N555 C R6 0 SA943 V6 N540 R8 33K R9 7K R30 K V0 R70 56K R77 M R69 0K V6 N540 C0 00uF C 00uF V4 8050 C 0uF R73 0K V5 8050 V8 8050 R7 4.7K D3 V C3 V9 8050 D 4V D 4V C 4.7uF C9 00uF R55 K D6 N448 33uF/00V D5 N400 B R46 0 V SA943 V30 N555 V8 N540 R5 33K R58 7K C9 D4 4V D5 4V 00uF R67 47K R68 47K R6 33K R59 33K C7 0.uF C6 0.uF C4 0000uF D9 6A4 D0 6A4 D 6A4 D 6A4 C 00uF 5K C5 0000uF U4 C3 00uF C6 C7 0.uF C4 00uF C5 0.uF U 78 U 7805 79 00uF C0 000uF C 000uF Z Z Z Z XS 3 4 5 6 POW GND AC.V AC 0V AC.V -4V +5V 3 4 5 6 7 D7 N448 3 4 5 XP3 R63 470 R64 470 FROM EQ L GND R C 4.7uF XS3 R78 0K R75 47 C B A V XS3 3 4 5 VO VI G R L C B A V C8 47uF C7 47uF C8 47uF C7 47uF 30pF C4 C3 30pF C4 30pF C3 30pF R9 33 R48 33 C0 4.7uF C7 4.7uF C6 000pF L R G VI VO D3 N448 D4 N448 K TO XS3 HEADPHONE UNIT C5 0.uF C5 0.uF C6 0.uF C6 0.uF R7.5K VR 470 (OR 300ohm) D8 30V C8 4.7uF/63V R7.7K R 00 R80 3.3K/0.5W FS4 T6.3A FS5 T6.3A TO XS R8 5K R74 0K SPK SPK 0.047uF C CASE XP R57.5K VR 470 (OR 300ohm) Z3 XS 3 4 3 4 * Z4 D8 N400 Z3 Z4 D6 N448 C65 00uF A B SPEAKER SELECT UNIT D0 N448 D7 N448 TO SPEAKER OUT BOARD TO A/B BOARD TO HEADPHONE BOARD POWER SWITCH R8 0.0uF/50V T3.5A L 50V R83 K C66 0uF 00V D IN400 R84.K L R L R G G L R L R G G 3 4 5 6 D N400 SPA L SPB L SPA R SPB R 0.0uF/50V 0.0uF/50V NOTES WHEN A/B SWITCH WERE RELEASED AT THE SAME TIME THE Z AND Z WERE CLOSED THE Z3 WAS OPENED WHEN A/B SWITCH WERE SELECTED AT THE SAME TIME THE Z AND Z WERE OPENED THE Z3 WAS CLOSED CN + + + SPEAKER OUT UNIT - + A A 3 4 5 6 - - -

REMOTE.sch- - Thu Sep 9 4:04:59 00

SECTION 5 5. Control Board Component Diagram And Copper side Layout 5. Main Board Component Diagram And Copper Side Layout 5.3 Spk Out BD Component Diagrom And Copper Side Layout 5.4 Spk Select SW BD Component Diagram And Copper Side Layout 5.5 Headphone Board Component Diagram And Copper Side Layout 5.6 Power Board Component Diagram And Copper Side Layout

SECTION 6 6. PT63 : VFD Controller / Driver 6. NE553 : Dual Operational Amplifier 6.3 PS8889 : Channel Select / EQ Loudness Controller 6.4 GMS97C5 : 8-Brt Microprocessor Control Unit 6.5 4066B: Quad Bilateral Switch

SECTION 7 7. VFD Controller/Driver IC PT63 7. Operational Amplifier IC NE553 7.3 Channel Select/EQ IC PS8889 7.4 MCU IC GMS97C5 7.5 Quad Bilateral Switch IC 4066B 7.6 Power Amplifier Transistor : SC500, SA943;

NE553 Dual Operational Amplifier www.fairchildsemi.com Features Internal frequency compensation Slew Rate: 8V/µs Input noise voltage: 8nV Hz (fo = 30Hz) Full power bandwidth: 40KHz Description The NE553 is a internally compensated dual low noise OP AMP. The high small signal and power bandwidth provides superior performance in high quality AMP, all control circuits, and telephone applications. 8-DIP Internal Block Diagram Rev. 5.0 000 Fairchild Semiconductor International

NE553 Absolute Maximum Ratings Parameter Symbol NE553 Unit Power Supply Voltage VCC ± V Differential Input Voltage VIO ±3 V Input Voltage VI Supply Voltage V Power Dissipation PD 000 mw Operating Temperature Range TOPR 0 ~ + 70 C ELECTRICAL CHARACTERISTICS (VCC=5V, VEE= - 5V, TA = 5 C) Parameter Symbol Conditions Min. Typ. Max. Unit Input Offset Voltage VIO - - 0.5 4.0 mv Input Offset Current IIO - - 0 50 na Input Bias Current IBIAS - - 00 800 na Supply Current ICC - - 6.0 6 ma Input Voltage Range VI(R) - ± ±3 - V Common Mode Rejection Range CMRR TA = 5 C 70 00 - db Power Supply Rejection Ratio PSRR TA = 5 C 80 00 - db Output Voltage Swing VO(P-P) RL 600Ω ± ±3 - V Input Resistance RI TA = 5 C 30 300 - KΩ Short Circuit Current ISC - - 38 - ma Overshoot OS RL =600Ω, CL =00pF - 0 0 % Voltage Gain GV f = 0KHz. - V/mV Gain Bandwidth Product GBW CL =00pF, RL = 600Ω 8 0 - MHz Slew Rate SR RL =K, CL =00pF, RL =600Ω 6 8.0 - V/µs Input Noise Voltage VNI fo = 30Hz fo = KHz - 8.0 5.0 - nv/ Hz

NE553 Typical Performance Characteristics Figure. Open Loop Frequency Response Figure. Large Signal Frequency Response Figure 3. Supply Current vs Supply Voltage Figure 4. Input Bias Current vs Temperature Figure 5. Output Circuit Current vs Temperature Figure 6. Slew Rate 3

HCF4066B QUAD BILATERAL SWITCH FOR TRANSMISSION OR MULTIPLEXING OF ANALOG OR DIGITAL SIGNALS 5V DIGITAL OR ± 7.5V PEAK TO PEAK SWITCHING 5Ω TYPICAL ON RESISTANCE FOR 5V OPERATION SWITCH ON RESISTANCE MATCHED TO WITHIN 5Ω TYP. OVER 5V SIGNAL INPUT RANGE ON RESISTANCE FLAT OVER FULL PEAK TO PEAK SIGNAL RANGE HIGH ON/OFF OUTPUT VOLTAGE RATIO : 65dB TYP. at f IS = 0KHz, R L = 0KΩ HIGH DEGREE OF LINEARITY : < 0.5% DISTORTION TYP. at f IS = KHz, V IS =5V pp, V DD -V SS > 0V, RL = 0KΩ EXTREMELY LOW OFF SWITCH LEAKAGE RESULTING IN VERY LOW OFFSET CURRENT AND HIGH EFFECTIVE OFF RESISTANCE : 0pA TYP. at V DD -V SS = 0V, T amb =5 C EXTREMELY HIGH CONTROL INPUT IMPEDANCE (control circuit isolated from signal circuit 0 Ω typ.) LOW CROSSTALK BETWEEN SWITCHES : 50dB Typ. at f IS = 0.9MHz, R L =KΩ MATCHED CONTROL - INPUT TO SIGNAL OUTPUT CAPACITANCE : REDUCES OUTPUT SIGNAL TRANSIENTS FREQUENCY RESPONSE SWITCH ON : 40MHz (Typ.) QUIESCENT CURRENT SPECIF. UP TO 0V 5V, 0V AND 5V PARAMETRIC RATINGS DIP ORDER CODES SOP PACKAGE TUBE T & R DIP HCF4066BEY SOP HCF4066BM HCF4066M03TR INPUT LEAKAGE CURRENT I I = 00nA (MAX) AT V DD = 8V T A =5 C 00% TESTED FOR QUIESCENT CURRENT MEETS ALL REQUIREMENTS OF JEDEC JESD3B STANDARD SPECIFICATIONS FOR DESCRIPTION OF B SERIES CMOS DEVICES DESCRIPTION The HCF4066B is a monolithic integrated circuit fabricated in Metal Oxide Semiconductor technology available in DIP and SOP packages. The HCF4066B is a QUAD BILATERAL SWITCH intended for the transmission or multiplexing of analog or digital signals. It is pin for pin compatible with HCF406B, but exhibits a much lower ON resistance. In addition, PIN CONNECTION September 00 /9

HCF4066B the ON resistance is relatively constant over the full input signal range. The HCF4066B consists of four independent bilateral switches. A single control signal is required per switch. Both the p and n device in a given switch are biased ON or OFF simultaneously by the control signal. As shown in schematic diagram, the well of the n-channel device on each switch is either tied to the input when the switch is ON or to V SS when the switch is OFF. This configuration eliminates INPUT EQUIVALENT CIRCUIT the variation of the switch-transistor threshold voltage with input signal, and thus keeps the ON resistance low over the full operating signal range. The advantages over single channel switches include peak input signal voltage swings equal to the full supply voltage, and more constant ON impedance over the input signal range. For sample and hold applications, however, the HCF406B is recommended. PIN DESCRIPTION PIN No SYMBOL NAME AND FUNCTION, 4, 8, A to D I/O Independent Inputs/Outputs, 3, 9, 0 A to D O/I Independent Outputs/ Inputs 3, 5, 6, CONTROL AtoD Enable Inputs 7 V SS Negative Supply Voltage 4 V DD Positive Supply Voltage TRUTH TABLE CONTROL H L SWITCH FUNCTION ON OFF SCHEMATIC DIAGRAM ( OF 4 IDENTICAL SWITCHES AND ITS ASSOCIATED CONTROL CIRCUITY) /9

HCF4066B ABSOLUTE MAXIMUM RATINGS Symbol Parameter Value Unit V DD Supply Voltage -0.5 to + V V I DC Input Voltage -0.5 to V DD + 0.5 V I I DC Input Current ± 0 ma P D Power Dissipation per Package 00 mw Power Dissipation per Output Transistor 00 mw T op Operating Temperature -55 to +5 C T stg Storage Temperature -65 to +50 C Absolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these conditions is not implied. All voltage values are referred to V SS pin voltage. RECOMMENDED OPERATING CONDITIONS Symbol Parameter Value Unit V DD Supply Voltage 3to0 V V I Input Voltage 0 to V DD V T op Operating Temperature -55 to 5 C ELECTRICAL CHARACTERISTICS (T amb =5 C,Typical temperature coefficient for all V DD value is 0.3 %/ C) Test Condition Value Symbol Parameter V I (V) V DD (V) T A =5 C -40 to 85 C -55 to 5 C Min. Typ. Max. Min. Max. Min. Max. Unit 5 5 I L Quiescent Device 0/5 5 0.0 0.5 7.5 7.5 Current (all 0/0 0 0.0 0.5 5 5 switches ON or all µa 0/5 5 0.0 30 30 switches OFF) 0/0 0 0.0 5 50 50 SIGNAL INPUTS (V IS ) and OUTPUTS (V OS ) R ON Resistance V C =V DD R L = 0KΩ 5 470 050 00 00 Return to (V DD -V SS )/ 0 80 400 500 500 Ω V IS =V SS to V DD 5 5 40 300 300 ON Resistance RON (between any of R L = 0KΩ, V C =V DD 0 0 Ω 4 switches) 5 5 TDH Total Harmonic Distortion V C =V DD =5V,V SS = -5V V IS (p-p) = 5V, R L = 0KΩ (sine wave centered in 0V) f IS = KHz sine wave 0.4 % -3dB Cutoff Frequency (Switch on) -50dB Feedthrough Frequency (switch off) V C =V DD =5V,V SS = -5V V IS (p-p) = 5V, R L =KΩ (sine wave centered in 0V) V C =V SS = -5V V IS (p-p) = 5V, R L =KΩ (sine wave centered in 0V) 40 MHz MHz 3/9

HCF4066B Test Condition Value Symbol Parameter V I (V) V DD (V) T A =5 C -40 to 85 C -55 to 5 C Min. Typ. Max. Min. Max. Min. Max. Unit -50dB Crosstalk Frequency V C(A) =V DD = +5V V C(B) =V SS =-5V V IS(A) = 5V (p-p) 50Ω source, R L =KΩ 8 MHz t pd Propagation Delay Time (signal input to output) R L = 00KΩ, V C =V DD V SS = GND, C L = 50pF V IS = 0V square wave centered on 5V t r,t f = 0ns 0 40 0 0 7 5 ns C IS Input Capacitance 8 C OS Output Capacitance V C =V SS =-5 +5 8 C IOS Feedthrough 0.5 Input/Output Leakage Current Switch OFF CONTROL (V C ) V ILC Control Input Low Voltage V IHC I I Control Input High Voltage Input Leakage Current Crosstalk (control input to signal output) Turn - On Propagation Delay Time Control Input Repetition Rate V C =0V V IS = 8V, V OS =0V V IS =0V,V OS = 8V I IS <0µA V IS =V SS,V OS =V DD and V IS =V DD,V OS =V SS V IS <V DD V DD -V SS = 8V V C = 0V (sq. wave) t r,t f = 0ns R L = 0KΩ V IN =V DD, t r,t f = 0ns C L = 50pF, R L =KΩ V IS =V DD, V SS =GND R L =KΩ to GND C L = 50pF, V C = 0V sq. wave center on 5V t r,t f = 0ns V OS =/V OS at KHz 8 ±0-3 ±0. ± ± µa 5 0 5 5 3.5 3.5 3.5 0 7 7 7 5 8 ±0-5 ±0. ± ± µa 0 50 mv 5 35 70 0 0 40 5 5 30 5 6 0 9 5 9.5 C I Input Capacitance Any Input 5 7.5 pf pf V V ns MHz 4/9

HCF4066B TYPICAL APPLICATIONS (BIDIRECTIONAL SIGNAL TRANSMISSION VIA DIGITAL CONTROL LOGIC) TYPICAL APPLICATIONS (4-CHANNEL PAM MULTIPLEXER SYSTEM DIAGRAM) 5/9

HCF4066B TEST CIRCUIT C L = 50pF or equivalent (includes jig and probe capacitance) R L = 00KΩ R T =Z OUT of pulse generator (typically 50Ω) WAVEFORM : PROPAGATION DELAY TIMES (f=mhz; 50% duty cycle) 6/9

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SECTION 8

8. MAIN AMPLIFIER BOARD PARTS LIST. REF.NO PART NO. DESCRIPTION QTY

8. CONTROL BOARD PARTS LIST. REF.NO PART NO. DESCRIPTION QTY ref:

ref: ref: ref: ref: ref: ref: ref:

8.3 POWER BOARD PARTS LIST. REF.NO PART NO. DESCRIPTION QTY 8.4 SPEAKER SELECT SWITCH BOARD PARTS LIST REF.NO PART NO. DESCRIPTION QTY 8.5 HEADPHONE BOARD PARTS LIST. REF.NO PART NO. DESCRIPTION QTY ref: 8.6 SPERKER OUT BOARD PARTS LIST REF.NO PART NO. DESCRIPTION QTY