Sanyo VPC-CA6OR, VPC-CA6EX, VPC-CA6EXBL, VAR-G8U, VPC-CA6EXOR Service Manual

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Page 1

SERVICE MANUAL

FILE NO.

Digital Movie Camera AC Adaptor

Contents

1. OUTLINE OF CIRCUIT DESCRIPTION ............................... 3

2. DISASSEMBLY ................................................................... 12

3. ELECTRICAL ADJUSTMENT ............................................. 17

4. USB STORAGE INFORMATION REGISTRATION ............ 21

5. TROUBLESHOOTING GUIDE............................................ 22

6. PARTS LIST........................................................................ 23

CIRCUIT DIAGRAMS & PRINTED WIRING BOARDS...........C1

VPC-CA6OR

(Product Code : 168 056 01) (U.S.A.) (Canada) (Korea) (Taiwan)

VPC-CA6EXOR

(Product Code : 168 056 02) (Europe) (U.K.) (South America) (China) (Australia) (Hong Kong) (Russia) (Middle East) (Africa) (General) (Korea) (Taiwan)

VPC-CA6EX

(Product Code : 168 056 06) (Europe) (U.K.) (South America) (China) (Australia) (Hong Kong) (Russia) (Middle East) (Africa) (General) (Korea) (Taiwan)

VPC-CA6EXBL

(Product Code : 168 056 08) (Europe) (U.K.) (South America) (China) (Australia) (Hong Kong) (Russia) (Middle East) (Africa) (General) (Korea) (Taiwan)

RoHS

•This product does not contain any hazardous substances prohibited by the RoHS Directive.

WARNING

•You are requested to use RoHS compliant parts for maintenance or repair.

•You are requested to use lead-free solder.

(This product has been manufactured using lead-free solder. Be sure to follow the

warning given on page 2 when carrying out repair work.)

CAUTION : Danger of explosion if battery is incorrectly replaced.

Replace only with the same or equivalent type recommended by the manufacturer. Discard used batteries according to the manufacturer’s instructions.

NOTE : 1. Parts order must contain model number, part number, and description.

2. Substitute parts may be supplied as the service parts.

3. N. S. P. : Not available as service parts.

Design and specification are subject to change without notice.

SX817/U, EX, EX2, EX3 SVA07/U, EX (R)

VAR-G8U

(Product Code : 126 301 33) (U.S.A.) (Canada) (Korea) (Taiwan)

VAR-G8EX

(Product Code : 126 301 34) (Europe) (U.K.) (South America) (China) (Australia) (Hong Kong) (Russia) (Middle East) (Africa) (General) (Korea) (Taiwan)

REFERENCE No. SM5310676

Page 2

PRODUCT SAFETY NOTICE

The components designated by a symbol ( ! ) in this schematic diagram designates components whose value are of

special significance to product safety. Should any component designated by a symbol need to be replaced, use only the part

designated in the Parts List. Do not deviate from the resistance, wattage, and voltage ratings shown.

WARNING

Do not use solder containing lead.

This product has been manufactured using lead-free solder in order to help preserve the environment. Because of this, be sure to use lead-free solder when carrying out repair work, and never use solder containing lead.

Lead-free solder has a melting point that is 30 - 40°C (86 104°F) higher than solder containing lead, and moreover it does not contain lead which attaches easily to other metals. As a result, it does not melt as easily as solder containing lead, and soldering will be more difficult even if the temperature of the soldering iron is increased. The extra difficulty in soldering means that soldering time will increase and damage to the components or the circuit board may easily occur. Because of this, you should use a soldering iron and solder that satisfy the following conditions when carrying out repair work.

Note:

If replacing existing solder containing lead with lead-free solder in the soldered parts of products that have been manufactured up until now, remove all of the existing solder at those parts before applying the lead-free solder.

Soldering iron

Use a soldering iron which is 70 W or equivalent, and which lets you adjust the tip temperature up to 450°C (842°F). It should also have as good temperature recovery characteristics as possible. Set the temperature to 350°C (662°F) or less for chip components, to 380°C (716°F) for lead wires and similar, and to 420°C (788°F) when installing and removing shield plates. The tip of the soldering iron should have a C-cut shape or a driver shape so that it can contact the circuit board as flat or in a line as much as possible.

Solder

Use solder with the metal content and composition ratio by weight given in the table below. Do not use solders which do not meet these conditions.

Metal content

Composition ratio by weight

Lead-free solder is available for purchase as a service tool. Use the following part number when ordering:

Part name: Lead-free solder with resin (0.5 mm dia., 500 g) Part number: VJ8-0270

Tin (Sn) Silver (Ag)

96.5 %

3.0 %

Copper (Cu)

0.5 %

– 2 –

Page 3

1. OUTLINE OF CIRCUIT DESCRIPTION

1-1. CCD CIRCUIT DESCRIPTION

1. IC Configuration

The CCD peripheral circuit block basically consists of the following ICs. IC903 (MN39830PMJ-A) CCD imager IC901 (AN20112A) V driver IC905 (AD9996BBCZ) CDS, AGC, A/D converter,

H driver

Pin 1

Pin 13

2. IC903 (CCD)

[Structure]

Interline type CCD image sensor

Optical size 1/2.5 type format Effective pixels 2864 (H) X 2160 (V) Pixels in total 2934 (H) X 2171 (V) Optical black

Horizontal (H) direction: Front 12 pixels, Rear 58 pixels Vertical (V) direction: Front 6 pixels, Rear 5 pixels

Dummy bit number Horizontal : 28 Vertical :7

Pin No.

Symbol Pin Description

Fig. 1-1.Optical Black Location (Top View)

Photo diode

VDD

GND

13 14

Vertical shift register

Output part

Horizontal shift register

11 12 23 24 17 18 19

Fig. 1-2. CCD Block Diagram

Waveform

Voltag e

8 9

ø ø ø

GND

SUBSW

V6 V5B V5A V4 V3B V3A V3L V3R

V2 V1 V1S

V5R V5L

Vsub

1, 23, 24

2, 3

4, 7, 8, 9, 11

5, 6, 10

12, 15

20, 21

5L, V5R, V6

5A, V5B Vertical register transfer clock

V1S, V2, V3L,

V3R, V4

1, V3A, V3B

VDD

ØRG

GND

Vertical register transfer clock

Signal output

Circuit power DC 12 V

Reset gate clock

GND Protection transister bias

Substrate controlSUB SW

SUB

L, H1

Substrate clock

Horizontal register transfer clock

Table 1-1. CCD Pin Description

-6.0 V, 0 V

-6.0 V, 0 V, 12 V

-6.0 V, 0 V

-6.0 V, 0 V, 12 V

Aprox. 12 V

4.5 V, 7.8 V

GND 0 V

-6.0 V

0, 3.3 V (When importing all picture element: 3.3 V)

Aprox. 6 V (Different from every CCD)

0 V, 3.3 V

When sensor read-out

– 3 –

Page 4

3. IC901 (V Driver)

In addition the XV1-XV6 signals which are output from IC101 are vertical transfer clocks, and the XSG signal is superimposed onto XV1, XV3 and XV5 at IC901 in order to generate a ternary pulse. In addition, the XSUB signal which is output from IC101 is used as the sweep pulse for the electronic shutter, and the RG signal which is output from IC905 is the reset gate clock.

VMSUB

3-level

OSUB

OV1

RESET

SUBCNT

VDC

CH1

V5R

V5L

V3R

V3L

V1S

2-level

24OV2

2-level

23OV4

2-level

21OV6

3-level

Level

conversion

Level

conversion

Level

conversion

Level

conversion

Level

conversion

Level

conversion

Level

conversion

Level

conversion

Level

conversion

Level

conversion

Level

conversion

2-level

3-level

Level

conversion

Level

conversion

Level

conversion

Level

conversion

Level

conversion

Level

conversion

Level

conversion

VHH

OV5R

OV5L

OV3R

OV3L

OV1S

OV5A

OV5B

OV3A

OV3B

GND

CH2

CH4

CH3

CH5

SUB

4. IC905 (H Driver, CDS, AGC and A/D converter)

IC905 contains the functions of H driver, CDS, AGC and A/D converter. As horizontal clock driver for CCD image sensor, HØ1 (A and B) and HØ2 (A and B) are generated inside, and output to CCD. The video signal which is output from the CCD is input to pin (A6) of IC905. There are sampling hold blocks generated from the SHP and SHD pulses, and it is here that CDS (correlated double sampling) is carried out. After passing through the CDS circuit, the signal passes through the AGC amplifier (VGA: Variable Gain Amplifier). It is A/D converted internally into a 14-bit signal, and is then input to ASIC (IC101). The gain of the VGA amplifier is controlled by pin (A2), (B3) and (C4) serial signal which is output from ASIC (IC101).

REFB

REFT

CLI

AD9996

14-BIT

ADC

CLAMP

INTERNAL

REGISTERS

CLO

DOUT

SCK

SDI

CCDIN

3V INPUT

1.8V OUTPUT

1.8V INPUT

3V OUTPUT

H1 TO H8

XV1 TO XV24

XSUBCK

6~42 dB

VGA

INTERNAL

CLOCKS

PRECISION

TIMING

GENERATOR

SYNC

GENERATOR

CDS

-3dB, 0dB, +3dB

LDO REG

CHARGE

PUMP

HORIZONTAL

DRIVERS

VERTICAL

TIMING

CONTROL

GP01 TO GP08

Fig. 1-4. IC905 Block Diagram

VREF

SYNC

Fig. 1-3. IC901 Block Diagram

– 4 –

Page 5

1-2. CP1 and VF1 CIRCUIT DESCRIPTION

1. Circuit Description 1-1. Digital clamp

The optical black section of the CCD extracts averaged values from the subsequent data to make the black level of the CCD output data uniform for each line. The optical black section of the CCD averaged value for each line is taken as the sum of the value for the previous line multiplied by the coefficient k and the value for the current line multiplied by the coefficient 1-k.

1-2. Signal processor

1. γ correction circuit

This circuit performs (gamma) correction in order to maintain a linear relationship between the light input to the camera and the light output from the picture screen.

2. Color generation circuit

This circuit converts the CCD data into RGB signals.

3. Matrix circuit

This circuit generates the Y signals, R-Y signals and B-Y signals from the RGB signals.

4. Horizontal and vertical aperture circuit

This circuit is used gemerate the aperture signal.

1-3. AE/AWB and AF computing circuit

The AE/AWB carries out computation based on a 64-segment screen, and the AF carries out computations based on a 6segment screen.

1-4. SDRAM controller

This circuit outputs address, RAS, CAS and AS data for controlling the SDRAM. It also refreshes the SDRAM.

1-5. Communication control

1. SIO

This is the interface for the 8-bit microprocessor.

2. PIO/PWM/SIO for LCD

8-bit parallel input and output makes it possible to switch between individual input/output and PWM input/output.

1-6. TG/SG

Timing generated for 6 million pixel horizontal addtion CCD control.

1-7. Digital encorder

It generates chroma signal from color difference signal.

2. Outline of Operation

When the shutter opens, the reset signals (ASIC and CPU) and the serial signals (“take a picture” commands) from the 8-bit microprocessor are input and operation starts.

When the TG/SG drives the CCD, picture data passes through the A/D and CDS, and is then input to the ASIC as 10-bit data. The AF, AE, AWB, shutter, and AGC value are computed from this data, and three exposures are made to obtain the optimum picture. The data which has already been stored in the SDRAM is read by the CPU and color generation is carried out. Each pixel is interpolated from the surrounding data as being either R, G, and B primary color data to produce R, G and B data. At this time, correction of the lens distortion which is a characteristic of wide-angle lenses is carried out. After AWB and γ processing are carried out, a matrix is generated and aperture correction is carried out for the Y signal, and the data is then compressed by JPEG and is then written to card memory (SD card). When the data is to be output to an external device, it is taken data from the memory and output via the USB I/F. When played back on the LCD and monitor, data is transferred from memery to the SDRAM, and the image is then elongated so that it is displayed over the SDRAM display area.

3. LCD Block

During EE, the YUV of 640 x 480 conversion is carried out for the 12-bit RGB data which is input from the A/D conversion block of the CCD to the ASIC in order to be displayed on the video, and then transferred to the SDRAM. The data which has accumulated in the SDRAM is converted to digital YUV signal in conformity to ITUR-601 inside the ASIC by SDRAM control circuit inside the ASIC, the data is sent to the LCD driver IC and displayed the image to LCD panel after gamma conversion is carried out. If the shutter button is pressed in this condition, the 12-bit data which is output from the A/D conversion block of the CCD is sent to the SDRAM (DMA transfer), and is displayed on the LCD as a freeze-frame image. During playback, the JPEG image data which has accumulated in the SD card is converted to YUV signals. In the same way as for EE, the data is then sent to the SDRAM, converted to digital YUV signal in conformity to ITUR-601 inside the ASIC, the data is sent to the LCD driver IC built-in LCD and displayed the image to LCD panel. The LCD driver is converted digital YUV signals to RGB signals from ASIC, and these RGB signals and the control signal which is output by the LCD driver are used to drive the LCD panel. The RGB signals are 1H transposed so that no DC component is present in the LCD element, and the two horizontal shift register clocks drive the horizontal shift registers inside the LCD panel so that the 1H/1V transposed RGB signals are applied to the LCD panel. Because the LCD closes more as the difference in potential between the VCOM (common polar voltage: AC drive) and the R, G and B signals becomes greater, the display becomes darker; if the difference in potential is smaller, the element opens and the LCD become brighter. In addition, the brightness and contrast settings for the LCD can be varied by means of the serial data from the ASIC.

– 5 –

Page 6

4. Lens drive block

4-1. Focus drive

The 16-bit serial data signals (LENS_SD) and (LENS_CK and LENS_EN) which are output from the ASIC (IC101) are used to drive (FOCUS A +, FOCUS A -, FOCUS B + and FOCUS B

-) by the motor driver (IC951), and are then used to microstepdrive the stepping motor for focusing operation. Detection of the standard focusing positions is carried out by means of the photointerruptor (F_SENSE) inside the lens block.

4-2. Zoom drive

The 16-bit serial data signals (LENS_SD) and (LENS_CK and LENS_EN) which are output from the ASIC (IC101) are used to drive (ZOOM A +, ZOOM A -, ZOOM B + and ZOOM B -) by the motor driver (IC951), and are then used to microstep-drive the stepping motor for zooming operation. Detection of the standard zooming positions is carried out by means of the photointerruptor (Z_SENSE) inside the lens block.

4-3. ND filter

The ND filter drive signals (NDON and NDOFF) which are output from the ASIC (IC101) are used to drive (ND + and ND -) by the motor driver (IC951), and then the ND filter is inserted into and removed from the beam path.

4-4. Iris drive

The drive method is a galvanometer type without braking coil. The output from the Hall sensor inside the lens is amplified by the Hall amplifier circuit inside the IC971 lens drive IC, and the difference between the current and target aperture determined by the resulting output and the exposure amout output from the ASIC (IC101) is input to the servo amplifier circuit (IC971) to keep the aperture automatically controlled to the target aperture. The lens aperture control signal is output from IC971 and is input to lens drive IN6B of IC951. IC951 functions as the driver for driving the lens.

5. Video clip recording and playback

5-1. Recording

The signals from the camera block are input to the ASIC where they are processed, and the image data that is stored in the IC103 SDRAM is input to the IC102 MPEG4 CODEC LSI. The CODEC LSI converts this data to encoded MPEG4 data, after which it is returned to the ASIC as streaming data, and the data is then written in sequence onto the SD card. At this time, the audio signals that are input to the built-in microphone are converted into digital data by the audio CODEC IC of IC181, and they are then input via the ASIC to IC102 (MPEG4 CODEC). The audio data is then encoded (AAC) by IC102, and then it is returned to the ASIC as streaming data and is then written in sequence onto the SD card together with the image signals described above.

5-2. Playback

The data is read from the SD card and input to IC102 as streaming data. The encoded data is decoded into image data by IC102 and then returned to the ASIC where it is displayed by the LCD or on a TV monitor. At this time, the audio data is also decoded by IC102, and it passes through the ASIC and is input to IC181 as digital data. D/A conversion is carried out at IC181, and the sound is then output to the speaker or to the LINE OUT terminal.

6. Audio CODEC circuit (IC181)

The audio signals from the microphone are converted into 16bit digital data. AD conversion is carried out at a maximum sampling frequency of 48 kHz. During audio playback, the 16-bit digital data is converted into analog signals and these drive the speaker or line out system. DA conversion is carried out at a maximum sampling frequency of 48 kHz.

4-5. Shutter drive

Reverse voltage is applied to the above aperture drive coil to operate the shutter. When the shutter operates, the OC_EN and OC_CONT signals are maintained at a high level, it is input to IN6B of IC951 with low level. At the same time the SHUTTER + signal that is output from the ASIC (IC101) becomes high (input to IN6A of IC951) and the shutter operates. IC951 functions as the driver for driving the lens.

– 6 –

Page 7

1-3. CP2 POWER CIRCUIT DESCRIPTION

1. Outline

This is the main power circuit, and is comprised of the following blocks. Switching controller (IC501) Analog 12 V power output (Q5001, L5003) Analog -6 V power output (Q5015, L5001) Digital 1.2 V power output (L5006) Digital 3.25 V power output (L5005) 5 V system power output (L5004) Backlight power output (Q5004, L5014) Digital 1.8 V power output (IC503, L5007) Motor system power output (IC531, Q5301, L5301)

2. Switching Controller (IC501)

This is the basic circuit which is necessary for controlling the power supply for a PWM-type switching regulator, and is provided with six built-in channels, only CH1 (analog 12 V power output), CH2 (analog -6 V power outuput), CH_M (digital 3.25 V power ouput), CH_SD (digital 1.2 V output), CH_SU (5 V system power output) and CH3 (backlight power output) are used. Feedback from digital system 12 V (A) (CH1), -6 V (A) (CH2), 3.25 V (D) (CH_M), 1.2 V (D) (CH_SD), 5 V (CH_SU) and backlight (CH3) power supply outputs are received, and the PWM duty is varied so that each one is maintained at the correct voltage setting level. Feedback for the backlight power (CH3) is provided to the both ends voltage of registance so that regular current can be controlled to be current that was setting.

2-1. Short-circuit protection circuit

If output is short-circuited for the length of time determined by internal fixing of IC501 , all output is turned off. The control signal (P ON) are recontrolled to restore output.

3. Analog System Power Output

12 V (A) is output. Feedback for the 12 V (A) is provided to the switching controller (Pin (3) of IC501) so that PWM control can be carried out.

4. Analog -6 V Power Output

-6 V (A) is output. Feedback for the -6 V (A) is provided to the swiching controller (Pin (31) of IC501) so that PWM control can be carried out.

5. Digital 1.2 V Power Output

VDD1.2 is output. Feedback for the VDD1.2 is provided to the switching controller (Pin (9) of IC501) so that PWM control to be carried out.

6. Digital 3.25 V Power Output

VDD3 is output. Feedback for the VDD3 is provided to the switching controller (Pin (13) of IC501) so that PWM control to be carried out.

7. 5 V System Power Output

+5.0 V (D) is output. Feedback for the +5.0 V (D) is provided to the switching controller (Pin (17) of IC501) so that PWM control to be carried out.

8. Backlight Power Supply output

Regular current is being transmitted to LED for LCD backlight. Feedback for the both ends voltage of registance that is being positioned to in series LED are provided to the switching controller (Pin (39) of IC501) so that PWM control to be carried out.

9. Digital 1.8 V Power Output

VDD1.8 is output. Feedback for the VDD1.8 is provided to the switching controller (Pin (3) of IC503) so that PWM control to be carried out.

10. Motor System Power Output

5.3 V is output. Feedback for the 5.3 V output is sent to pin (1) of IC531 for PWM control to be carried out.

– 7 –

Page 8

1-4. CP2 STROBE CIRCUIT DESCRIPTION

1. Charging Circuit

When UNREG power is supplied to the charge circuit and the CHG signal from microprocessor becomes High (3.3 V), the charging circuit starts operating and the main electorolytic capacitor is charged with high-voltage direct current. However, when the CHG signal is Low (0 V), the charging circuit does not operate.

1-1. Charge switch

When the CHG signal switches to Hi, IC541 starts charging operation.

1-2. Power supply filter

C5401 constitutes the power supply filter. They smooth out ripples in the current which accompany the switching of the oscillation transformer.

1-3. Oscillation circuit

This circuit generates an AC voltage (pulse) in order to increase the UNREG power supply voltage when drops in current occur. This circuit generates a drive pulse with a frequency of approximately 200-300 kHz, and drive the oscillation transformer. When the SW 3.2 V signal is input, the peak current during oscillation changes.

2. Light Emission Circuit

When FLCLT signal is input from the ASIC, the stroboscope emits light.

2-1. Emission control circuit

When the FLCLT signal is input to the emission control circuit, Q5402 switches on and preparation is made to the light emitting. Moreover, when a FLCLT signal becomes Lo, the stroboscope stops emitting light.

2-2. Trigger circuit

The Q5402 is turned ON by the FLCLT signal and light emission preparation is preformed. Simultaneously, high voltage pulses of several kV are emitted from the trigger coil and applied to the light emitter.

2-3. Light emitting element

When the high-voltage pulse form the trigger circuit is applied to the light emitting part, currnet flows to the light emitting element and light is emitted.

Beware of electric shocks.

1-4. Oscillation transformer

The low-voltage alternating current which is generated by the oscillation control circuit is converted to a high-voltage alternating current by the oscillation transformer.

1-5. Rectifier circuit

The high-voltage alternating current which is generated at the secondary side of T5401 is rectified to produce a highvoltage direct current and is accumulated at electrolytic capacitor C5412.

1-6. Charge monitoring circuit

The functions programmed in the IC541 monitor oscillations and estimate the charging voltage. If the voltage exceeds the rated value, charging automatically stops. Then, the ZCHG_DONE signal is changed to Lo output and a "charging stopped" signal is sent to the microcomputer.

– 8 –

Page 9

1-5. SYA CIRCUIT DESCRIPTION

1. Configuration and Functions

For the overall configuration of the SYA block, refer to the block diagram. The SYA block centers around a 8-bit microprocessor (IC301), and controls camera system condition (mode). The 8-bit microprocessor handles the following functions.

1. Operation key input, 2. Clock control and backup, 3. Power ON/OFF, 4. Storobe charge control.

21 KEY VREC

22 PLLEN

23 TRST

25 ST_CHG

Signal

SCK

CARD

BACKUP CTL

CHG_DONE

HOT LINE

TEST_MODE

LCD_PWM

NOT USED

VDD2

VSS2

VF_LED (R)

VF_LED (G)

NOT USED

BL ON

LENS_4M

MRST

NOT USED

USB_DET

MROUT

AV_JACK

BOOT_COMREQ

PRG ENA/DATA1

SW3.2ON

KEY_TELE

KEY_WIDE

KEY_PLAY

KEY_SET

KEY_UP

KEY_LEFT

VSS3

VDD3

RDSEL

CLK

DATA0

P ON

KEY_DOWN

KEY_RIGHT

I/O

Outline

Serial data clock

SD card detection (L= detection)

Backup battery charge control (L= charge)

Strobo condensor charge done detection (L= detection)

Hot line request

Test mode (L= test mode)

VDD

GND

Red LED (H= lighting)

Green LED (H= lighting)

LCD backlight control (H= ON)

Lens driver standard clock output

System reset output (L= reset)

USB detection (L= detection)

Panel open detection (H= open)

Key input VIDEO REC (L= input)

PLL control (H=ON)

T reset output (L= reset)

AV JACK detection (L= detection)

Strobo charge control (H= charge)

Command request input

Debugger terminal

SW 3.2 power control (L= ON)

Key input TELE (L= input)

Key input WIDE (L= input)

Key input PLAY (L= input)

Key input SET (L= input)

Key input UP (L= input)

Key input LEFT (L= input)

GND

VDD

Debugger terminal

Digital power control (H=ON)

Key input DOWN (L= input)

Key input RIGHT (L= input)

See next page →

– 9 –

Page 10

56 57

KEY_MENU

KEY_1ST

NOT USED

BAT_OFF

SREQ

KEY_POWER I Key input POWER (L= input)

KEY_2ND

RESET

XCIN

XCOUT

VSS1

XIN

XOUT

VDD1

BATTERY I

NOT USED O -

TH_TEMP

ASIC SI

ASIC SO

I Key input MENU (L= input)

I Key input 1st SHUTTER (L= input)

O-

I Key input 2nd SHUTTER (L= input)

O Serial data output

I Serial data input

Table 5-1. 8-bit Microprocessor Port Specification

Battery OFF detection (L= battery OFF)

Serial communication request signal

Reset input (L= reset)

Sub clock (32.768 KHz)

GND

Main clock (4 MHz)

VDD

Battery voltage detection (analog input)

Camera temperature detection (analog input)

2. Internal Communication Bus

The SYA block carries out overall control of camera operation by detecting the input from the keyboard and the condition of the camera circuits. The 8-bit microprocessor reads the signals from each sensor element as input data and outputs this data to the camera circuits (ASIC) or to the LCD display device as operation mode setting data. Fig. 5-1 shows the internal communication between the 8-bit microprocessor, ASIC and SPARC lite circuits.

SREQ

8-bit

Microprocessor

Fig. 5-1 Internal Bus Communication System

ASIC SO

ASIC SI

SCK

MRST

PLLEN

TRST

ASIC

– 10 –

Page 11

3. Power Supply Control

The 8-bit microprocessor controls the power supply for the overall system. The following is a description of how the power supply is turned on and off. When the battery is attached, a regulated 3.2 V voltage is normally input to the 8-bit microprocessor (IC301) by IC302, so that clock counting and key scanning is carried out even when the power switch is turned off, so that the camera can start up again. When the battery is removed, the 8-bit microprocessor operates in sleep mode using the backup battery. At this time, the 8-bit microprocessor only carries out clock counting, and waits in standby for the battery to be attached again. When a switch is operated, the 8-bit microprocessor supplies power to the system as required. The 8-bit microprocessor first sets the P ON signal at pin (40) to high, and then turns on the DC/DC converter. After this, low signal is output from pin (17) so that the ASIC is set to the reset condition. After this these pins set to high, and set to active condition. Once it is completed, the ASIC returns to the reset condition, all DC/DC converters are turned off and the power supply to the whole system is halted.

Power voltage

Power OFF

Power switch ON - Auto power OFF

CAMERA

LCD finder

Play back

Table 5-2. Camera Mode

Note) 4 MHz = Main clock operation, 32 kHz = Sub clock operation

ASIC,

memory

3.3 V 1.2 V

OFF

CCD

+3.4 V (A)

+12 V (A), -6 V(A)

OFF

8 bit CPU

3.2 V

(ALWAYS)

32KHz

4 MHz

– 11 –

Page 12

2. DISASSEMBLY

2-1. REMOVAL OF CABINET LEFT AND CP2 BOARD

1. Two screws 1.7 x 5

2. Dec grip

3. Cover battery

4. Three screws 1.7 x 5

5. Holder strap

6. Two screws 1.7 x 5

When assembling,

tighten the screws

order.

a → b → c → d

7. Two screws 1.7 x 6

8. Cabinet left

9. Gasket cabinet

10. Spacer FPC CA1

11. FPC

12. Remove the solder. (from speaker)

When assembling,

tighten the screws order.

A → B

13. Remove the solder. (from strobo)

14. Remove the solder. (from trans)

15. Remove the solder. (from CA1 board)

16. Screw 1.7 x 4

17. Three screws 1.7 x 3

18. CP2 board

NOTE: Discharge a strobe

capacitor with the discharge

jig (VJ8-0188) for electric

shock prevention.

Once the screws have

been removed, always

be sure to replace the

part with a new one.

When reassembling, the

gasket should be se-

curely inserted into the

cannel in the cabinet

left.

Strobo lead wire dressing method

Lead wire should not run around this screw.

Trigger transformer

CP2 board

Lead wire should not contact this chip part.

Lead wire and tube should not run on the trigger transformer.

– 12 –

Page 13

2-2. REMOVAL OF VF1 BOARD AND LCD

1. FPC

2. Cap joint

3. Assy joint LCD

4. Remove the assy LCD front

from the main body.

5. Holder joint

6. Spring HLD joint

7. Four screws 1.7 x 4

8. Cabi LCD back

9. Spacer FPC gasket 2

10. Spacer LCD back

11. FPC

12. Assy FPC gasket

13. Two spacer mic

14. Remove the solder. (from LCD)

15. Remove the solder. (from microphone)

16. Two screws 1.7 x 3.5

17. Holder mic

18. Two microphones

19. FPC

20. Two screws 1.7 x 3.5

21. VF1 board

22. Spacer LCD

23. Holder monitor

24. LCD

25. Cabi LCD front

When reassembling, the

gasket should be

securely inserted into

the cannel in the cabi

LCD front.

When assembling,

tighten the screws order.

a → b → c → d

When reassembling, the cabi LCD back

should be open by 90 degrees or more

(about 120 degrees).

– 13 –

Page 14

2-3. REMOVAL OF LENS ASSEMBLY, CP1 BOARD AND CA1 BOARD

1. Screw 1.7 x 3

2. Screw 1.7 x 4

3. Earth speaker

4. Connector

5. FPC

6. Lens assembly

7. Remove the solder.

When assembling,

tighten the screws order.

a → b → c

8. Screw 1.7 x 4

9. Two screws 1.7 x 4

10. Holder CP2

11. CP1 board

12. Screw 1.7 x 4

13. Holder CP1

14. Spring lock batt

15. Spring batt eject

16. Terminal batt

17. Dec cabi right

18. Lever lock battery

19. Three screws 1.4 x 3.5

20. CA1 board

When assembling,

tighten the screws

order.

A → B

When reassembling the CP1

board, be careful not to let the

chip touch against the cabinet

right.

When assembling,

tighten the screws order.

A → B → C

– 14 –

Page 15

2-4. REMOVAL OF CABINET RIGHT

1. Spacer flash

2. Compl, holder flash

3. Screw 1.7 x 2.5

4. Holder speaker

5. Speaker, 8

6. Screw 1.7 x 2.5

7. Earth unit back

8. Cabinet right

9. Assy unit back FPC

10. Assy button back

– 15 –

Page 16

2-5. BOARD LOCATION

CA1 board

VF1 board

CP2 board

CP1 board

– 16 –

Page 17

3. ELECTRICAL ADJUSTMENT

Firmware

Data

AWB

Focus

UV Matrix

R Bright

RGB Offset

Tint

B Bright

Gain

Phase

LCD

Calibration

Upload

PAF Cal.

LCD Type

H AFC Test

VCOMDC

VCOMPP

Cal Data

Cal Mode

EVF

USB storage

Get Set

VID

Set

PID

Set

Serial

Set

Rev.

Set

Setting

Language

Video Mode

VCO

Factory Code

Hall Cal.

Backrush pulse :

Set

Get

3-1. Table for Servicing Tools

Ref. No.

J-1

J-2

J-3

J-4

J-5

J-6

Pattern box (color viewer)

Calibration software

Chroma meter

Spare lump

Discharge jig

Collimator

Spare lump (collimator)

Name

J-1 J-2

J-3

Number

J-4

Part code

VJ8-0190

VJ8-0297

VJ8-0192

VJ8-0191

VJ8-0188

VJ8-0260

VJ8-0282

3-4. Setup

1. System requirements

Windows 98 or Me or 2000 or XP IBM R -compatible PC with pentium processor CD-ROM drive USB port 40 MB RAM Hard disk drive with at least 15 MB available VGA or SVGA monitor with at least 256-color display

2. Installing calibration software

1. Insert the calibration software installation CD-ROM into your CD-ROM drive.

2. Open the explorer.

3. Copy the DscCalDI_155 folder on the CD-ROM in the CDROM drive to a folder on the hard disk.

3. Installing USB driver

Install the USB driver with camera or connection kit for PC.

4. Pattern box (color viewer)

Turn on the switch and wait for 30 minutes for aging to take place before using Color Pure. It is used after adjusting the chroma meter (VJ8-0192) adjust color temperature to 3100 ± 20 K and luminosity to 900 ± 20 cd/m the lump and its circumference are high temperature during use and after power off for a while.

. Be careful of handling

J-5

3-2. Equipment

1. Oscilloscope

2. Digital voltmeter

3. AC adaptor

4. PC (IBM R -compatible PC, Pentium processor, Window

3-3. Adjustment Items and Order

1. Lens Adjustment

2. AWB Adjustment

3. CCD White Point Defect Detect Adjustment

4. CCD Black Point And White Point Defect Detect Adjustment In Lighted

Note: Item 1-4 adjustments should be carried out in sequence.

98 or Me or 2000 or XP)

5. Computer screen during adjustment

3-5. Connecting the camera to the computer

This camera requires a DC adaptor (sold separately) in order to use an AC adaptor.

1. Insert the DC adaptor to the camera.

2. Insert the AC adaptor’s cable to DC terminal of the DC adaptor.

3. Line up the arrow on the cable connector with the notch on the camera's USB port. Insert the connector.

4. Locate a USB port on your computer.

5. If “USB CONNECTION” is displayed, choose the “CARD READER”, and press the SET button.

– 17 –

Page 18

3-6. The adjustment item which in necessary in part exchange

CCD Black Point

Lens

Adjustment

AWB

Adjustment

CCD White Point

Defect Detect

Adjustment

And White Point

Defect Detect Adjustment In

Lighted

Factory

Cord

Setting

Language

Setting

COMPL PWB CP-1

COMPL PWB CP-2

COMPL PWB VF-1

ASSY FLEXIBLE

PWB CA1

LENS ASSY

: Be sure to carry out the necessary adjustments after replacing the unit. : Adjustment is possible from the menu setting screen of the camera and by using the calibration software.

3-7. Adjust Specifications

1. Lens Adjustment

USB storage

information registration

Reset

Setting

Camera

Collimator

Preparation:

POWER switch: ON If using a ready-made collimator, set to infinity.

Note:

Do not vibrate during the adjustment.

Adjustment method:

1. Set the camera 0 cm from the collimator. (Do not enter any light.)

2. Set the camera so that it becomes center of the screen in the collimator.

3. Double-click on the DscCalDi.exe.

4. Click the Focus, and click the Yes.

5. Lens adjustment value will appear on the screen.

6. Click the OK.

DscCalDi

Focus Result

STD_AFPOS=1905 FOCUS=-4,-6,-17,-77 ADJ_PZPOS=-11 LENS_ERR=0

Adjustment value determination is effectuated using the "STD

AFPOS" and "FOCUS" values.

If FOCUS=focus1, focus2, focus3, focus4 and the adjustment

values fulfill the conditions below, they are determined as within

specifications.

Adjustment value determination

1800<=STD_AFPOS<2000

-40<=focus1<=+40, -50<focus2<+50,

-60<=focus3<=+60, -200<=focus4<=+200 lens_error=0

– 18 –

Page 19

2. AWB Adjustment

Adjustment value determination

50<a1<310, 100<a2<550, 200<a3<750, 300<a4<950, 400<a5<1024 wc0=128 ± 2, wc1=128 ± 2, wc2=130 ± 40 wnc0=128 ± 2, wnc1=128 ± 2, wnc2=130 ± 40 801<ms1<=2500, 1201<ms2<=2900, 1251<ms3<=3100, 1401<ms4<=3600 100<=s1<=220, 100<=s2<=220, 100<=s3<=220, 100<=s4<=220, 100<=s5<=220 s1>s2>s3>s4>s5 0<=g<=255 0<=o<=255

Adjustment values other than the above are irrelevant.

Camera

Pattern box

(color viewer)

Preparation:

POWER switch: ON

Adjusting method:

1. When setting the camera in place, set it to an angle so that nothing appears in any part of the color viewer except the white section. (Do not enter any light.)

2. Double-click on the DscCalDi.exe.

3. Click the AWB, and click the Yes.

4. AWB adjustment value will appear on the screen.

5. Click the OK.

Dsc Calibration

AWB Result: 1: AGC=201,370,539,706,875 3F_AGC=0,0 WB=325,511,606 CHECK=128,128,138 WB_ND=322, 512, 600 CHECK_ND=128, 128, 139 IRIS_GAIN: 47 IRIS_OFFSET: 161 MS=1235,1618,1786,2176 IRIS=186,168,150,128,121 0 IRIS=0 Fno_FOR_ISO=56 SS_FOR_ISO=1177 YLEVEL_FOR_ISO=9960

Adjustment value determination is effectuated using the "AGC",

“CHECK", “CHECK_ND”, "MS", “IRIS”, “IRIS_GAIN” and “IRIS_OFFSET” values.

If AGC= a1, a2, a3, a4, a5, CHECK= wc0, wc1, wc2, CHECK_ND= wnc0, wnc1, wnc2, MS= ms1, ms2, ms3, ms4, IRIS= s1, s2, s3, s4, s5, IRIS_GAIN= g and IRIS_OFFSET= o the adjustment values fulfill the conditions below, they are determined as within specifications.

Copy

3. CCD White Point Defect Detect Adjustment

Preparation:

POWER switch: ON

Adjustment method:

1. Double-click on the DscCalDi.exe.

2. Select “CCD Defect” on the LCD “Test”, and click the “Ye s ”.

3. After the adjustment is completed, OK will display.

4. Click the OK.

4. CCD Black Point And White Point Defect Detect Adjustment In Lighted

Camera

Pattern box

(color viewer)

Preparation:

POWER switch: ON Setting of pattern box:

Color temperature: 3100 ± 20 (K) Luminance: 900 ± 20 (cd/m

Adjusting method:

1. Set the camera 0 cm from the pattern box. (Do not enter

any light.)

2. Double-click on the DscCalDi.exe.

3. Select “CCD Black” on the LCD “Test”, and click the “Ye s ”.

4. After the adjustment is completed, the number of defect

will appear.

– 19 –

)

Page 20

3-8. Factory Code Setting

1. Check the "Factory Code" display within the Setting group.

2. For U.S.A., Canada and NTSC general area If "FC_SANYO_U" does not appear, click on the " " mark located on the right of the "Factory Code" display BOX and select "FC_SANYO_U".

3. For Europe and PAL general area If "FC_SANYO_EX" does not appear, click on the " " mark located on the right of the "Factory Code" display BOX and select "FC_SANYO_EX".

3-9. Language Setting

1. Click on the " " mark located on the right of the "Language" display BOX.

2. Select language. (Default is English.)

3. End "DscCal" and remove the camera before turning the camera power OFF.

Calibration

AWB

Focus

UV Matrix

Cal Mode

Cal Data

USB storage

VID

Get

PID

Set

Backrush pulse :

Upload

Firmware

Data

PAF Cal.

EVF

LCD Type

Get

LCD

R Bright

RGB Offset

Tint

VCO

H AFC Test

Serial

Set

Rev.

B Bright

Gain

Phase

Set Set

Set

VCOMDC

VCOMPP

Hall Cal.

Setting

Language

Video Mode

Factory Code

3-10. Reset Setting Carry out reset settings after replacing CP1 board.

1. Turn on the camera.

2. Press the MENU button.

3. Toggle the SET button to the left two times to display the OPTION MENU.

4. Choose the RESET SETTINGS, and press the SET button.

5. Select RESET, and press the SET button.

3-11. The Compulsive boot starting method

1. Keep MENU button, SET button, and SHUTTER button depressed while switching on the power.

2. Connect the camera and the computer with USB cable.

3-12. Firmware uploading procedure

1. Uploading the firmware should be carried out if the version number (COMPL PWB XX-X) on the replacement circuit board is lower than the version of the distributed firmware. For XX-X, enter the name of the circuit board containing the firmware.

2. The firmware is distributed by e-mail in self-extracting archive format. Change the extension of the distributed file to .EXE and save it in your preferred folder.

3. When you double-click the saved file, the firmware (binary file) will be saved in the same folder.

4. The firmware must not be distributed without permission.

1. Overwriting firmware from the SD card

Preparation:

SD card: SD card with firmware rewritten into the root directory Data: S817Nxxx.BIN (xxx: version)

Overwriting method:

1. Insert the above SD card.

2. Turn on the camera.

3. Set the REC/PLAY button to the PLAY.

4. Press the MENU button. The PLAY MENU appears.

5. Toggle the SET button to the left two times to display the OPTION MENU.

6. Choose the FORMAT.

7. Toggle the SET button to the left for 2 seconds. FIRMWARE UPDATE will display.

8. Choose YES.

9. Press the SET button. Update is starting.

Note:

Do not turn off the camera’s power or remove the SD card while the firmware is being updated. The power will turn on automatically after the update is complete.

2. Overwriting firmware from the calibration software

Preparation:

PC with overwriting firmware copied to the preferred folder in the HD. Data: S817Nxxx.BIN (xxx: version)

Overwriting method:

1. Connect the camera’s USB/AV terminal to the computer’ USB connector.

2. The USB Connection screen appears on the camera’s LCD monitor. Choose the “CARD READER”, and press the SET button.

3. Double-click on the DscCalDi.exe.

4. Click the Firmware.

5. Choose the fimware file to use for overwriting, and click the Yes.

6. Update is starting. The message will appear, and choose OK.

7. After the update is complete, disconnect the USB cable and turn the camera’s power off.

Note:

Do not turn off the camera’s power while the firmware is being updated.

– 20 –

Page 21

4. USB STORAGE INFORMATION REGISTRATION

USB storage data is important for when the camera is connected to a computer via a USB connection. If there are any errors in the USB storage data, or if it has not been saved, the USB specification conditions will not be satisfied, so always check and save the USB storage data.

Adjustment method:

1. Connect the camera to a computer. (Refer to 3-5. Connecting the camera to the computer on the page 17.)

2. Double-click on the DscCalDi.exe.

3. Click on the Get button in the USB storage window and check the USB storage data. VID: SANYO PID: CA6 Serial: Rev. : 1.00

4. Check the “Serial” in the above USB storage data. If the displayed value is different from the serial number printed on the base of the camera, enter the number on the base of the camera. Then click the Set button.

5. Next, check VID, PID and Rev. entries in the USB storage data. If any of them are different from the values in 3. above, make the changes and then click the corresponding Set button.

Calibration

AWB

Focus

UV Matrix

Cal Mode

Cal Data

USB storage

VID

Get

PID

Set

Backrush pulse :

Upload

Firmware

Data

PAF Cal.

EVF

LCD Type

Get

LCD

R Bright

RGB Offset

Tint

VCO

H AFC Test

Serial

Set

Rev.

B Bright

Gain

Phase

Set Set

Set

VCOMDC

VCOMPP

Hall Cal.

Setting

Language

Video Mode

Factory Code

– 21 –

Page 22

5. TROUBLESHOOTING GUIDE

POWER LOSS INOPERTIVE

PUSH THE POWER

SW FOR A WHILE

IC301-51

KEY INPUT

LOW

IC302-7 5.3 V

(BOOST 5.3 V)

YES

IC301-9, 36, 59

(VDD)

HIGH

IC301-53 (RESET)

HIGH

IC301-49

(BAT OFF)

HIGH

IC301-58

OSCILLATION

YES

IC301-55

OSCILLATION

YES

HIGH

CHECK UNIT SW

CHECK CP2, IC531,

LOW

CHECK IC302, RB312

LOW

F5001

CHECK IC302

CHECK RB312

CHECK X3001

CHECK X3002

TAKING INOPERATIVE

PUSH SHUTTER

BUTTON

IC301-44, 52

KEY INPUT

YES

IC501-18, 29

(P ON, PA ON)

IC511-1 (PA ON3)

HIGH

SERIAL

COMMUNICATION

CHECK CP1 DMA

BLOCK

CHECK UNIT SW

LOW

CHECK IC101, IC301,

CP1 DMA BLOCK

PWA BLOCK

CHECK IC301,

CHECK IC301

NO PICTURE

IC101-W1 (XOUT)

CHECK

OSCILLATION

IC301-64, 63

(ASIC_SO, ASIC_SI)

CHECK SOLDERING

OF MEMORY

EACH PIN

MAIN CLOCK FOR SYSTEM OPERATION

NO OPERATION IF ABSENT CHECK X1102 OSCILLATOR

INCORRECT HANDSHAKING

BETWEEN 8-BIT CPU AND ASIC CHECK EACH INTERFACE

– 22 –

Page 23

6. PARTS LIST Parts list of optional AC adaptor: VAR-G8U/G8EX

LOCATION PARTS NO. DESCRIPTION LOCATION PARTS NO. DESCRIPTION

1 645 057 1503 CORD,POWER-1.2MK, VAR-G8EX OR 645 076 0235 CORD,POWER-1.5MK, VAR-G8EX 1 645 076 0228 CORD,POWER-1.5MK, VAR-G8U 2 645 080 1846 ADAPTOR,AC-DC

Parts list of digital camera: VPC-CA60R/ CA6EXOR/ CA6EX/ CA6EXBL

ACCESSORIES

1 636 099 9206 STRAP -SX817/J 2 645 086 6494 DISC,CD-ROM SSP 817 U1 (N.S.P.)

(APPRICATION SOFTWARE)(PDF INSTRUCTION MANUAL: Dutch, English, French, German, Italian, Korean, Russian, Spanish, Simplified_Chinese, Traditional_Chinese

2 645 086 6500 DISC,CD-ROM SSP 817 U2 (N.S.P.)

(APPRICATION SOFTWARE) 3 645 063 5816 BATTERY,RECHARGE,LI-ION OR 645 089 8990 BATTERY,RECHARGE,LI-ION 4 645 083 6787 CORD,POWER-1.2MK,

EXPECT VPC-CA60R ONLY 4 645 083 6794 CORD,POWER-1.9MK,VPC-CA6OR ONLY 5 645 086 7972 BATTERY CHARGER 6 645 087 1825 CABLE,DSC A/V 7 645 087 1818 CABLE,DSC USB 9053 636 096 7243 INSTRUCTION MANUAL(English)

(CAMERA APPRICATION SOFTWARE)

PACKING MATERIALS

LOCATION PARTS NO. DESCRIPTION

636 096 9339 CARTON INNER-SX817/EX,EXCEPT 636 096 9322 CARTON INNER-SX817/U,VPC-CA6OR ONLY

636 078 4659 CUSHION SHEET-SX792/KRNK 636 096 9261 REINFORCE PAD,A-SX817/J (BOTTOM)

VPC-CA6OR

Page 24

CABINET AND CHASSIS PARTS 1

LOCA TION PARTS NO. DESCRIPTION LOCATION PARTS NO. DESCRIPTION

1 636 096 5119 CABINET LEFT-SX817/J,

EXCEPT VPC-CA6EX 1 636 098 8897 CABINET LEFT-SX817/J2,VPC-CA6EX ONLY 2 636 096 5218 GASKET CABINET-SX817/J 3 636 098 8699 SPACER LENS LEFT-SX817/J 4 636 098 1515 ASSY COVER BATT-SX817/J 5 636 068 7967 SHAFT BATT-SX711/J 6 636 096 5515 HOLDER COVER BATT B-SX817 7 636 096 5157 DEC GRIP-SX817/J 8 636 096 5249 CAP JOINT-SX817/J,EXCEPT VPC-CA6EX 8 636 098 8927 CAP JOINT-SX817/J2,VPC-CA6EX ONLY 9 636 096 5591 ASSY JOINT LCD-SX817/J 10 636 096 7304 DEC LCD B-SX817/J,EXCEPT VPC-CA6EX 10 636 098 8941 DEC LCD B-SX817/J2,VPC-CA6EX ONLY 11 636 096 5263 DEC LCD A-SX817/J,EXCEPT VPC-CA6EX 11 636 098 8934 DEC LCD A-SX817/J2,VPC-CA6EX ONLY 12 636 098 0365 COMPL PWB,CP-2 F/W 13 636 096 8516 SPACER FPC CA1-SX817/J 14 636 096 5164 HOLDER STRAP-SX817/J 15 636 096 5331 LEVER COVER BATT-SX817 16 636 097 6566 SPRING COVER BAT-SX817/J 17 636 099 0586 ASSY,CABI LCD BACK-SV,EXPECT VPC-CA6EX 17 636 099 9244 ASSY,CABI LCD BACK-J2-SV,VPC-CA6EX ONLY 18 636 096 5317 HOLDER JOINT-SX817/J 19 636 096 9728 SPRING HLD JOINT-SX817 20 636 099 6700 SPACER MIC2-SX817/J 21 636 099 6717 SPACER MIC-SX817/J 22 645 090 2567 MICROPHONE

23 636 099 6724 SPACER HOLDER MIC-SX817/J 24 636 096 5188 HOLDER MIC-SX817/J 25 636 099 0562 SPACER LCD BACK-SX817/J 26 636 099 5024 SPACER FPC GASKET2-SX817J 27 636 096 5010 COMPL PWB,VF-1 28 636 099 0616 SPACER FPC GASKET-SX817/J 29 636 096 7908 ASSY,FPC GASKET-SX817 30 636 096 5638 SPACER LCD-SX817/J 31 636 096 5454 HOLDER MONITOR-SX817/J 32 636 099 0005 ASSY,WIRE LCD&EV1-SX817 33 636 099 0012 ASSY,WIRE LCD&EV1-SX817 34 645 083 4820 LCD(L5S30449P00) 35 636 096 4914 SPACER LCD FRONT-SX817 36 636 099 7509 SPACER FPC GASKET3-SX817 37 636 099 5017 ADHESIVE FPC GASKET-SX817 38 636 099 0654 ASSY,LCD FRONT-SX817/J,

VPC-CA6OR,VPC-CA6EXOR 38 636 099 1170 ASSY ,LCD FRONT-SX817/J2,VPC-CA6EX ONLY 38 636 099 1507 ASSY,LCD FRONT-SX817/EX3,

VPC-CA6EXBL ONLY 101 636 099 0609 ASSY,PAD SCREW-SV 102 636 099 0593 ASSY,PAD SCREW-SV 103 411 203 8401 SCR S-TPG PAN PCS 1.7X5 104 411 175 5705 SCR PAN PCS 1.7X3 105 411 178 9403 SCR S-TPG PAN PCS 1.7X4.0 106 411 177 6502 SCR S-TPG PAN PCS 1.7X4 107 411 177 0906 SCR S-TPG PAN PCS 1.7X3.5

Page 25

Cabinet 1

107

106

102

101

102

101

SX817/J PARTS LIST 1

103

105

103

104

103

Page 26

CABINET AND CHASSIS PARTS 2

LOCATION PARTS NO. DESCRIPTION LOCATION PARTS NO. DESCRIPTION

1 636 096 5485 HOLDER CP2-SX817/J 2 636 097 9826 COMPL PWB,CP-1 F/W 3 636 099 3570 HOLDER CP1-SX817/J 4 636 075 7998 LEVER LOCK BATTERY-SX713J 5 636 097 4777 LABEL SD PUSH-SX817/J 6 636 096 5379 DEC CABI RIGHT-SX817,EXCEPT VPC-CA6EX 6 636 098 8958 DEC CABI RIGHT-SX817/J2,VPC-CA6EX ONLY 7 636 096 5652 LABEL CAUTION BATT-SX817 8 645 087 1092 ASSY,LAMP-SX817 9 636 096 5416 HOLDER FLASH-SX817/J 10 636 097 2872 SPACER FLASH-SX817/J 11 613 210 8805 TUBE,SI,D1.5 12 636 096 5447 SPRING LOCK BATT-SX817/J 13 636 097 4692 SPACER INNER RIGHT-SX817 14 636 096 8479 SPACER LENS DUST-SX817/J 15 636 096 6826 EARTH SPEAKER-SX817/J 16 645 089 3070 LENS(ASSY) 17 645 086 7552 OPTICAL FILTER 18 636 082 8131 SPACER SX719 19 636 096 7663 COMPL,CA1 SV-SX817 20 636 096 8516 SPACER FPC CA1-SX817/J 21 636 097 4456 SPACER CA1-SX817/J 22 636 098 8750 ASSY,WIRE CA1&CP2-SX817

23 636 099 0579 ASSY,CABI RIGHT-SV, EXPECT VPC-CA6EX 23 636 099 9220 ASSY,CABI R-SX817/J2-SV,VPC-CA6EX ONLY 24 636 096 5522 SPRING BATT EJECT-SX817/J 25 636 096 5492 TERMINAL BATT-SX817/J 26 636 096 8455 SPACER LENS RIGHT-SX817/J 27 636 099 7233 SPACER MOVIE BUTTON-SX817 28 636 096 7892 EARTH UNIT BACK-SX817/J 29 636 096 7649 ASSY,UNIT BACK-FPC-SX817 30 636 099 6731 SPACER ZO OM BUTTON-SX817 31 636 096 5980 ASSY,BUTTON BACK-SX817/J 32 636 099 5048 SPACER UNIT BACK-SX817/J 33 636 097 4685 SPACER LENS UNIT_B-SX817 34 636 097 4678 SPACER LENS UNIT_A-SX817 35 636 096 4907 SPACER SPEAKER WT-SX817/J 36 636 096 5478 HOLDER SPEAKER-SX817/J 37 636 097 2858 ADHESIVE HOL SPEAKERSX817 38 636 096 8493 SPACER SPEAKER WIRE-SX817 39 645 086 5794 SPEAKER,8 104 411 175 5705 SCR PAN PCS 1.7X3 105 411 178 9403 SCR S-TPG PAN PCS 1.7X4.0 108 411 181 8707 SCR S-TPG PAN PCS 1.4X3.5 109 411 176 6701 SCR S-TPG PAN PCS 1.7X2.5

Page 27

Cabinet 2

108

109

104

109

SX817/J PARTS LIST 2

105

Page 28

ELECTRICAL PARTS

Note:

1. Materials of Capacitors and Resistors are abbreviated as follows ; Resistors Capacitors MT-FILM Metallized Film Resistor MT-POLYEST Metallized Polyester Capacitor MT-GLAZE Metallized Glaze Resistor MT-COMPO Metallized Composite Capacitor OXIDE-MT Oxide Metallized Film Resistor TA-SOLID Tantalum Solid Capacitor

2. Tolerance of Capacitor (10pF over) and Resistor are noted with follow symboles.

F ............1% G ............2% J ............5% K ............10%

M ..........20% N ..........30% Z ..........+80% ~ -20%

3. Capacitors U : µF P : pF

4. Inductors UH : µH MH : mH

5. N.S.P. : Not available as service parts.

LOCA TION PARTS NO. DESCRIPTION LOCATION PARTS NO. DESCRIPTION

COMPL,CA1 SV-SX817

636 096 7663

(SEMICONDUCTORS)

Q9001 305 212 7800 TR UP05C8G (N.S.P.)

(INTEGRATED CIRCUITS)

IC901 309 645 9905 IC AN20112A (N.S.P.) IC904 309 505 9403 IC TK11130CS (N.S.P.) IC905 309 669 6904 IC AD9971BCPZ (N.S.P.)

(DIODES)

D9001 307 223 5509 DIODE MA2Z720 (N.S.P.) D9002 307 210 1903 DIODE 1SS400 (N.S.P.) D9003 307 223 5509 DIODE MA2Z720 (N.S.P.) D9005 307 223 5509 DIODE MA2Z720 (N.S.P.)

(INDUCTOR)

L9001 945 059 8211 IMPEDANCE,600 OHM P (N.S.P.)

(CAPACITORS)

CB901 303 392 5500 CERAMIC 1U K 6.3V (N.S.P.) CB904 303 391 4306 CERAMIC 0.1U K 16V (N.S.P.) CB905 303 391 4306 CERAMIC 0.1U K 16V (N.S.P.) CB906 303 391 4306 CERAMIC 0.1U K 16V (N.S.P.) C9003 303 397 1606 CERAMIC 10U M 10V (N.S.P.) C9004 303 342 3303 CERAMIC 0.1U K 25V (N.S.P.) C9005 303 420 7902 CERAMIC 10U K 16V (N.S.P.) C9006 303 276 1307 CERAMIC 1000P K 50V (N.S.P.) C9010 303 338 0309 CERAMIC 0.1U K 10V (N.S.P.) C9031 303 381 8109 CERAMIC 1U K 6.3V (N.S.P.) C9032 303 391 0803 CERAMIC 1U K 25V (N.S.P.) C9033 303 391 0803 CERAMIC 1U K 25V (N.S.P.) C9034 303 397 7608 CERAMIC 1U K 25V (N.S.P.) C9035 303 281 5000 CERAMIC 0.033U K 25V (N.S.P.) C9036 303 323 6309 CERAMIC 0.1U K 16V (N.S.P.) C9053 303 338 0309 CERAMIC 0.1U K 10V (N.S.P.) C9057 303 441 5703 TA-SOLID 22U M 10V (N.S.P.) C9061 303 323 6309 CERAMIC 0.1U K 16V (N.S.P.) C9064 303 269 2809 CERAMIC 0.15U K 25V (N.S.P.) C9065 303 155 1800 CERAMIC 0.01U K 25V (N.S.P.) C9066 303 276 1307 CERAMIC 1000P K 50V (N.S.P.) C9067 303 276 1307 CERAMIC 1000P K 50V (N.S.P.) C9068 303 338 0309 CERAMIC 0.1U K 10V (N.S.P.) C9069 303 314 6400 CERAMIC 7P D 50V (N.S.P.) C9070 303 314 6509 CERAMIC 7P D 50V (N.S.P.)

(RESISTORS)

R9001 301 225 1804 MT-GLAZE 47 JA 1/16W (N.S.P.) R9002 301 240 9502 MT-GLAZE 820 JA 1/16W (N.S.P.) R9003 301 235 1405 MT-GALZE 1.2K JA 1/16W (N.S.P.) R9008 301 225 0906 MT-GLAZE 82K JA 1/16W (N.S.P.) R9031 301 224 9801 MT-GLAZE 220K JA 1/16W (N.S.P.) R9032 301 224 9009 MT-GLAZE 10K JA 1/16W (N.S.P.) R9035 301 224 8903 MT-GLAZE 100K JA 1/16W (N.S.P.) R9036 301 224 9405 MT-GLAZE 1.0M JA 1/16W (N.S.P.)

AL-SOLID Aluminum Solid Capacitor NP-ELECT Non-Polarized Electrolytic Capacitor OS-SOLID Aluminum Solid Capacitors with Organic

Semiconductive Electrolytic Capacitor DL-ELECT Double Layered Electrolytic Capacitor POS-SOLID Polymerized Organic Semiconductor Capacitor

R9039 301 240 9502 MT-GLAZE 820 JA 1/16W (N.S.P.) R9051 301 225 1101 MT-GLAZE 27 JA 1/16W (N.S.P.) R9055 301 225 1101 MT-GLAZE 27 JA 1/16W (N.S.P.) R9057 301 226 1506 MT-GLAZE 0.000 ZA 1/16W (N.S.P.) R9058 301 226 1506 MT-GLAZE 0.000 ZA 1/16W (N.S.P.) R9059 301 226 1506 MT-GLAZE 0.000 ZA 1/16W (N.S.P.) R9062 301 226 1506 MT-GLAZE 0.000 ZA 1/16W (N.S.P.) R9063 301 226 1506 MT-GLAZE 0.000 ZA 1/16W (N.S.P.)

(CONNECTOR)

CN901 645 077 01 11 SOCKET,PWB-PWB 40 (N.S.P.)

(MISCELLANEOUS)

636 097 0731 MOUNTING,LENS SX817 (N.S.P.) 309 645 1305 IC MN39830PMJ-A (N.S.P.) 41 1 181 8707 SCR S-TPG PAN PCS 1.4X3.5 (N.S.P.)

COMPL PWB,CP-1 F/W

636 097 9826

(VARISTORS)

VA131 308 050 0507 VARISTOR AVR-M1005C080MT VA134 308 050 1207 VARISTOR AVR-M1608C120MT

(SEMICONDUCTORS)

Q1301 305 172 4703 TR UNR32A3 OR 305 168 3703 TR DTC144EM OR 305 207 5002 TR RN1104FV Q1302 305 167 0406 TR EMD12 Q1403 305 167 0406 TR EMD12 Q9561 305 165 1207 TR EMD2 OR 305 186 7509 TR UP04312 00 OR 305 181 1403 TR NSBC124EPDXV6T5 OR 305 173 3804 TR PEMD2

(INTEGRATED CIRCUITS)

IC101 310 607 8508 IC KS755U2403CBP BGA (N.S.P.) IC102 310 577 7709 IC MBG124PBS-ME1 BGA (N.S.P.) IC103 310 593 9404 IC K4M563233G-HN75 BGA (N.S.P.) IC121 309 647 9705 IC S29PL032J60BFI120 BGA (N.S.P.) IC151 309 609 1402 IC BH76106HFV IC181 309 641 9404 IC WM8978GEFL IC182 309 650 3509 IC TK70630HC-G IC511 309 523 0505 IC T K11134CSCL IC951 309 674 2700 IC BU2232GU BGA (N.S.P.) IC971 309 646 8709 IC AK7331

(OSCILLA TOR)

X1102 645 069 4967 OSC,CRYSTAL 48.00000MHZ

(INDUCTORS)

L1005 945 059 8112 IMPEDANCE,1000 OHM P L1007 945 059 8112 IMPEDANCE,1000 OHM P L1008 945 053 5469 IMPEDANCE,120 OHM P L1011 945 059 8112 IMPEDANCE,1000 OHM P L1012 945 059 8112 IMPEDANCE,1000 OHM P

Page 29

LOCATION P ARTS NO. DESCRIPTION LOCATION PARTS NO. DESCRIPTION

L1301 945 072 7413 IMPEDANCE,90 OHM L1302 945 020 1869 INDUCTOR,750 OHM L1303 945 059 8112 IMPEDANCE,1000 OHM P L1304 945 059 8112 IMPEDANCE,1000 OHM P

(CAP ACITORS)

CB101 303 391 4306 CERAMIC 0.1U K 16V CB181 303 392 5500 CERAMIC 1U K 6.3V CB971 303 392 5500 CERAMIC 1U K 6.3V C1005 303 338 0309 CERAMIC 0.1U K 10V C1007 303 338 0309 CERAMIC 0.1U K 10V C1008 303 276 1307 CERAMIC 1000P K 50V C1009 303 276 1307 CERAMIC 1000P K 50V C1012 303 276 3103 CERAMIC 33P J 50V C1013 303 276 3103 CERAMIC 33P J 50V C1014 303 276 3103 CERAMIC 33P J 50V C1015 303 276 3103 CERAMIC 33P J 50V C1016 303 276 3103 CERAMIC 33P J 50V C1017 303 276 3103 CERAMIC 33P J 50V C1018 303 276 3103 CERAMIC 33P J 50V C1019 303 276 3103 CERAMIC 33P J 50V C1021 303 381 8109 CERAMIC 1U K 6.3V C1022 303 381 8109 CERAMIC 1U K 6.3V C1023 303 383 5205 CERAMIC 4.7U K 6.3V C1024 303 338 0309 CERAMIC 0.1U K 10V C1025 303 338 0309 CERAMIC 0.1U K 10V C1026 303 338 0309 CERAMIC 0.1U K 10V C1027 303 338 0309 CERAMIC 0.1U K 10V C1029 303 383 5205 CERAMIC 4.7U K 6.3V C1030 303 338 0309 CERAMIC 0.1U K 10V C1031 303 338 0309 CERAMIC 0.1U K 10V C1032 303 338 0309 CERAMIC 0.1U K 10V C1033 303 338 0309 CERAMIC 0.1U K 10V C1051 303 381 8109 CERAMIC 1U K 6.3V C1052 303 338 0309 CERAMIC 0.1U K 10V C1053 303 338 0309 CERAMIC 0.1U K 10V C1070 303 338 0309 CERAMIC 0.1U K 10V C1072 303 338 0309 CERAMIC 0.1U K 10V C1074 303 338 0309 CERAMIC 0.1U K 10V C1078 303 338 0309 CERAMIC 0.1U K 10V C1079 303 338 0309 CERAMIC 0.1U K 10V C1080 303 383 5205 CERAMIC 4.7U K 6.3V C1081 303 343 3104 CERAMIC 1U K 6.3V C1082 303 338 0309 CERAMIC 0.1U K 10V C1083 303 383 5205 CERAMIC 4.7U K 6.3V C1084 303 338 0309 CERAMIC 0.1U K 10V C1085 303 338 0309 CERAMIC 0.1U K 10V C1086 303 343 3104 CERAMIC 1U K 6.3V C1087 303 338 0309 CERAMIC 0.1U K 10V C1088 303 338 0309 CERAMIC 0.1U K 10V C1089 303 338 0309 CERAMIC 0.1U K 10V C1092 303 383 5205 CERAMIC 4.7U K 6.3V C1121 303 314 6400 CERAMIC 7P D 50V C1122 303 314 6400 CERAMIC 7P D 50V C1304 303 433 1102 CERAMIC 1U K 10V C1501 303 338 0309 CERAMIC 0.1U K 10V C1503 303 383 5205 CERAMIC 4.7U K 6.3V C1801 303 433 1102 CERAMIC 1U K 10V C1803 303 381 8109 CERAMIC 1U K 6.3V C1804 303 433 1102 CERAMIC 1U K 10V C1805 303 433 1102 CERAMIC 1U K 10V C1806 303 338 0309 CERAMIC 0.1U K 10V C1807 303 381 8109 CERAMIC 1U K 6.3V C1808 303 338 0309 CERAMIC 0.1U K 10V C1809 303 381 8109 CERAMIC 1U K 6.3V C1825 303 383 5205 CERAMIC 4.7U K 6.3V C1826 303 338 0309 CERAMIC 0.1U K 10V C1827 303 381 8109 CERAMIC 1U K 6.3V C5102 303 384 9202 CERAMIC 1U M 4V C5103 303 343 3104 CERAMIC 1U K 6.3V C5104 303 338 0309 CERAMIC 0.1U K 10V C9513 303 338 0309 CERAMIC 0.1U K 10V C9514 303 338 0309 CERAMIC 0.1U K 10V C9526 303 338 0309 CERAMIC 0.1U K 10V C9534 303 356 6208 CERAMIC 2.2U K 10V C9545 303 338 0309 CERAMIC 0.1U K 10V C9567 303 338 0309 CERAMIC 0.1U K 10V C9711 303 338 0309 CERAMIC 0.1U K 10V

C9712 303 294 6100 CERAMIC 100P J 50V C9714 303 381 8109 CERAMIC 1U K 6.3V C9716 303 338 0309 CERAMIC 0.1U K 10V C9717 303 279 5005 CERAMIC 4700P K 25V C9718 303 282 5108 CERAMIC 470P K 50V C9719 303 276 1307 CERAMIC 1000P K 50V C9720 303 338 0309 CERAMIC 0.1U K 10V C9721 303 338 0309 CERAMIC 0.1U K 10V C9722 303 381 8109 CERAMIC 1U K 6.3V

(RESISTOR P ACKS)

RB101 945 028 0710 R-NETWORK 10KX4 1/16W RB102 945 028 0697 R-NETWORK 100X4 1/16W RB103 945 028 0697 R-NETWORK 100X4 1/16W RB104 945 037 4372 R-NETWORK 220X4 1/16W RB105 945 037 4372 R-NETWORK 220X4 1/16W RB106 945 037 4372 R-NETWORK 220X4 1/16W RB107 945 037 4372 R-NETWORK 220X4 1/16W RB108 945 037 4372 R-NETWORK 220X4 1/16W RB109 945 037 0817 R-NETWORK 0X4 1/16W RB110 645 078 4606 R-NETWORK 220X2 0.063W RB141 945 028 0697 R-NETWORK 100X4 1/16W RB143 945 028 0710 R-NETWORK 10KX4 1/16W RB144 945 028 0710 R-NETWORK 10KX4 1/16W RB182 645 078 4644 R-NETWORK 2KX2 0.063W RB951 645 078 4606 R-NETWORK 220X2 0.063W RB971 645 078 4835 R-NETWORK 33KX2 0.063W RB972 645 078 4958 R-NETWORK 47KX2 0.063W RB975 645 078 5054 R-NETWORK 56KX2 0.063W

(RESISTORS)

R1001 301 226 1506 MT-GLAZE 0.000 ZA 1/16W R1002 301 225 1903 MT-GLAZE 68 JA 1/16W R1003 301 224 8804 MT-GLAZE 100 JA 1/16W R1005 301 224 9009 MT-GLAZE 10K JA 1/16W R1006 301 105 7902 MT-GLAZE 0.000 ZA 1/16W R1009 301 105 7902 MT-GLAZE 0.000 ZA 1/16W R1013 301 225 7905 MT-GLAZE 220 JA 1/16W R1014 301 225 7905 MT-GLAZE 220 JA 1/16W R1015 301 224 8804 MT-GLAZE 100 JA 1/16W R1016 301 224 9702 MT-GLAZE 22 JA 1/16W R1018 301 224 8804 MT-GLAZE 100 JA 1/16W R1042 301 224 9306 MT-GLAZE 1K JA 1/16W R1043 301 224 9009 MT-GLAZE 10K JA 1/16W R1052 301 262 1805 MT-GLAZE 3.6K DC 1/16W R1053 301 262 2307 MT-GLAZE 1.0K DC 1/16W R1054 301 269 3901 MT-GLAZE 4.7K DC 1/16W R1081 301 224 9009 MT-GLAZE 10K JA 1/16W R1083 301 224 8804 MT-GLAZE 100 JA 1/16W R1084 301 224 9009 MT-GLAZE 10K JA 1/16W R1085 301 225 1408 MT-GLAZE 47K JA 1/16W R1086 301 225 1408 MT-GLAZE 47K JA 1/16W R1087 301 224 9009 MT-GLAZE 10K JA 1/16W R1088 301 225 1903 MT-GLAZE 68 JA 1/16W R1089 301 224 9009 MT-GLAZE 10K JA 1/16W R1091 301 225 1408 MT-GLAZE 47K JA 1/16W R1093 301 224 9009 MT-GLAZE 10K JA 1/16W R1095 301 224 8804 MT-GLAZE 100 JA 1/16W R1121 301 278 1806 MT-GLAZE 470 DC 1/16W R1122 301 224 9405 MT-GLAZE 1.0M JA 1/16W R1201 301 225 8100 MT-GLAZE 10 JA 1/16W R1321 301 301 1605 MT-GLAZE 39 DD 1/16W R1322 301 301 1605 MT-GLAZE 39 DD 1/16W R1323 301 262 5209 MT-GLAZE 1.5K DC 1/16W R1324 301 312 9706 MT-GLAZE 11.8K DC 1/16W R1352 301 224 9009 MT-GLAZE 10K JA 1/16W R1401 301 224 8804 MT-GLAZE 100 JA 1/16W R1501 301 277 5409 MT-GLAZE 75 DD 1/16W R1502 301 262 2901 MT-GLAZE 220 DC 1/16W R1801 301 301 3500 MT-GLAZE 200 JA 1/16W R1802 301 301 3500 MT-GLAZE 200 JA 1/16W R1804 301 224 9306 MT-GLAZE 1K JA 1/16W R1805 301 224 9306 MT-GLAZE 1K JA 1/16W R1806 301 226 1506 MT-GLAZE 0.000 ZA 1/16W R1807 301 226 1506 MT-GLAZE 0.000 ZA 1/16W R1808 301 226 1506 MT-GLAZE 0.000 ZA 1/16W R1809 301 226 1506 MT-GLAZE 0.000 ZA 1/16W R1810 301 226 1506 MT-GLAZE 0.000 ZA 1/16W R1811 301 226 1506 MT-GLAZE 0.000 ZA 1/16W

Page 30

LOCA TION PARTS NO. DESCRIPTION LOCATION PARTS NO. DESCRIPTION

R9505 301 314 0503 MT- FI LM 2 2 FD 1/ 6W R9506 301 314 0503 MT- FI LM 2 2 FD 1/ 6W R9507 301 105 7902 MT-GLAZE 0.000 ZA 1/16W R9510 301 226 1506 MT-GLAZE 0.000 ZA 1/16W R9718 301 257 4101 MT-GLAZE 100K DC 1/16W R9719 301 257 4101 MT-GLAZE 100K DC 1/16W R9720 301 225 8100 MT-GLAZE 10 JA 1/16W R9721 301 262 1904 MT-GLAZE 6.8K DC 1/16W R9722 301 262 1607 MT-GLAZE 2.2K DC 1/16W R9723 301 262 2307 MT-GLAZE 1.0K DC 1/16W R9724 301 224 9504 MT-GLAZE 2.2K JA 1/16W R9726 301 262 1003 MT-GLAZE 33K DC 1/16W R9728 301 257 4101 MT-GLAZE 100K DC 1/16W

(THERMISTOR)

TH101 308 054 7700 TH NCP15WF104F03-RC

(CONNECTORS)

CN101 645 077 0104 PLUG,PWB-PWB 40P (N.S.P.) CN102 645 084 5284 PLUG,PWB-PWB 50P (N.S.P.) CN103 645 069 5216 SOCKET,FPC 27P (N.S.P.) CN110 645 086 0638 SOCKET,10P (N.S.P.) CN141 645 069 7548 SOCKET,CARD(SD) 1 (N.S.P.) CN951 645 082 0250 SOCKET,FPC 23P (N.S.P.)

COMPL PWB,CP-2 F/W

636 098 0365

(VARISTORS)

V A301 308 050 0507 VARISTOR AVR-M1005C080MT V A302 308 050 0507 VARISTOR AVR-M1005C080MT

(SEMICONDUCTORS)

Q3001 305 210 5709 TR UP0KG8D OR 305 200 9007 TR EML17 Q3003 305 183 7700 TR EMH10 Q3004 305 168 4007 TR DTA114EM OR 305 207 4708 TR RN2102FV OR 305 172 4802 TR UNR31A1 Q5001 305 210 9103 TR SCH2819-E Q5002 305 165 1207 TR EMD2 Q5003 305 182 9002 TR EMF18 Q5004 305 207 4401 TR US5U2 Q5005 305 165 1207 TR EMD2 Q5008 305 216 3204 TR EMD37 Q5015 305 210 5402 TR US5U29 Q5301 305 208 8606 TR FDC633N-NF Q5402 306 020 3701 TR CY25CAH-8F-T13 F10V

(INTEGRATED CIRCUITS)

IC301 310 598 3605 IC LC87F5932AUTQ7-TBM-E IC302 309 582 6203 IC BD4289FVM IC501 309 578 6507 IC MAX1567ETL+ IC503 309 650 1109 IC XC9215A18CD IC531 309 526 4005 IC XC9104D095M IC541 309 671 6602 IC TPS65560RGT

(DIODES)

D5001 307 248 2309 ZENER DIODE EDZ6.8B D5002 307 248 2309 ZENER DIODE EDZ6.8B D5003 307 210 5406 DIODE RB551V-30 D5004 307 210 5406 DIODE RB551V-30 D5301 307 232 3602 DIODE SD833-04SC D5401 307 245 6805 DIODE FPSN4 D5402 307 250 8009 DIODE MA2YF8000L D5404 307 205 5206 DIODE RB521S-30

(OSCILLAT ORS)

X3001 945 046 1416 OSC,CERAMIC 4.00MHZ X3002 645 080 8708 OSC,CRYSTAL 32.768KHZ

(INDUCTORS)

L5001 645 067 2354 INDUCTOR,10U M L5002 945 061 7417 INDUCTOR,47U M L5003 645 067 2378 INDUCTOR,10U M L5004 645 072 3681 INDUCTOR,2.4U N L5005 645 067 2378 INDUCTOR,10U M L5006 645 067 2378 INDUCTOR,10U M L5007 645 072 7573 INDUCTOR,4.7U N L5014 645 067 2354 INDUCTOR,10U M L5301 645 058 0918 INDUCTOR,10U M

(TRANSFORMERS)

T5401 645 086 4537 TRANS,STEP UP

T5402 645 069 2420 TRANS,STEP UP

(CAPACITORS)

C3001 303 391 0506 CERAMIC 10U K 6.3V C3002 303 369 0309 CERAMIC 1U Z 4V C3003 303 322 1008 CERAMIC 0.1U Z 16V C3004 303 322 1008 CERAMIC 0.1U Z 16V C3005 303 338 0309 CERAMIC 0.1U K 10V C3006 303 381 8109 CERAMIC 1U K 6.3V C3007 303 381 8109 CERAMIC 1U K 6.3V C3008 303 276 1901 CERAMIC 22P J 50V C3009 303 381 8109 CERAMIC 1U K 6.3V C3010 303 276 1307 CERAMIC 1000P K 50V C3011 303 338 0309 CERAMIC 0.1U K 10V C3013 303 381 8109 CERAMIC 1U K 6.3V C3014 303 317 2300 CERAMIC 20P J 50V C5005 303 338 0309 CERAMIC 0.1U K 10V C5006 303 279 5005 CERAMIC 4700P K 25V C5007 303 320 0607 CERAMIC 220P J 25V C5009 303 279 5104 CERAMIC 3300P K 50V C5011 303 371 8904 CERAMIC 10U M 6.3V C5012 303 393 2607 CERAMIC 22U M 6.3V C5013 303 393 2607 CERAMIC 22U M 6.3V C5014 303 393 2607 CERAMIC 22U M 6.3V C5015 303 393 2607 CERAMIC 22U M 6.3V C5016 303 279 5104 CERAMIC 3300P K 50V C5017 303 279 5104 CERAMIC 3300P K 50V C5019 303 371 8904 CERAMIC 10U M 6.3V C5020 303 279 5005 CERAMIC 4700P K 25V C5023 303 320 0607 CERAMIC 220P J 25V C5025 303 279 5104 CERAMIC 3300P K 50V C5027 303 338 0309 CERAMIC 0.1U K 10V C5033 303 383 5007 CERAMIC 1U K 16V C5036 303 370 0305 CERAMIC 4.7U K 6.3V C5039 303 384 6508 CERAMIC 10U K 6.3V C5041 303 371 8904 CERAMIC 10U M 6.3V C5042 303 408 5500 CERAMIC 2.2U K 16V C5045 303 420 7506 CERAMIC 4.7U K 16V C5047 303 380 6601 CERAMIC 0.22U K 6.3V C5049 303 420 7506 CERAMIC 4.7U K 16V C5051 303 383 5007 CERAMIC 1U K 16V C5301 303 371 8904 CERAMIC 10U M 6.3V C5302 303 276 1901 CERAMIC 22P J 50V C5303 303 381 6204 POS-SOLID 33U M 8V C5401 303 393 2607 CERAMIC 22U M 6.3V C5402 303 276 1307 CERAMIC 1000P K 50V C5403 303 381 8109 CERAMIC 1U K 6.3V C5404 303 276 1307 CERAMIC 1000P K 50V C5410 303 428 3401 CERAMIC 0.018U K 350V C5411 303 428 3609 CERAMIC 0.01U K 350V C5412 304 110 4607 ELECT 40U A 300V

(RESISTOR P ACKS)

RB301 945 028 0703 R-NETWORK 1KX4 1/16W RB302 645 068 6405 R-NETWORK 150KX2 1/16W RB303 945 042 8204 R-NETWORK 33KX4 1/32W RB304 945 028 0703 R-NETWORK 1KX4 1/16W RB305 945 028 0703 R-NETWORK 1KX4 1/16W RB306 945 028 0727 R-NETWORK 100KX4 1/16W RB312 645 078 4620 R-NETWORK 22KX2 0.063W RB313 945 028 0703 R-NETWORK 1KX4 1/16W RB541 645 078 5702 R-NETWORK 1KX2 0.063W RB542 645 078 5719 R-NETWORK 10KX2 0.063W

(RESISTORS)

R3001 301 224 9306 MT-GLAZE 1K JA 1/16W R3002 301 225 8001 MT-GLAZE 330 JA 1/16W R3004 301 225 3808 MT-GLAZE 1.5K JA 1/16W R3005 301 262 0600 MT-GLAZE 22K DC 1/16W R3007 301 225 0401 MT-GLAZE 330K JA 1/16W R3008 301 263 2306 MT-GLAZE 750 JA 1/16W R3009 301 225 7905 MT-GLAZE 220 JA 1/16W R3010 301 224 9306 MT-GLAZE 1K JA 1/16W R5001 301 257 4002 MT-GLAZE 68K DC 1/16W R5002 301 262 0709 MT-GLAZE 39K DC 1/16W R5003 301 262 8804 MT-GLAZE 51K DC 1/16W R5004 301 258 0409 MT-GLAZE 120K DC 1/16W R5005 301 290 2508 MT-GLAZE 13K DC 1/16W R5006 301 262 2406 MT-GLAZE 1.8K DC 1/16W R5007 301 257 4101 MT-GLAZE 100K DC 1/16W

Page 31

LOCATION PARTS NO. DESCRIPTION

R5008 301 262 2307 MT-GLAZE 1.0K DC 1/16W R5012 301 262 0600 MT-GLAZE 22K DC 1/16W R5013 301 290 2508 MT-GLAZE 13K DC 1/16W R5014 301 290 1303 MT-GLAZE 750 DC 1/16W R5015 301 284 5805 MT-GLAZE 16K DC 1/16W R5016 301 257 4002 MT-GLAZE 68K DC 1/16W R5017 301 312 5906 MT-GLAZE 76.8K DC 1/16W R5019 301 262 0907 MT-GLAZE 27K DC 1/16W R5020 301 263 2009 MT-GLAZE 8.2K DC 1/16W R5021 301 262 2109 MT-GLAZE 680 DC 1/16W R5022 301 267 0902 MT-GLAZE 150 DC 1/16W R5027 301 262 5605 MT-GLAZE 56K DC 1/16W R5029 301 258 0409 MT-GLAZE 120K DC 1/16W R5035 301 262 8903 MT-GLAZE 62K DC 1/16W R5036 301 224 8903 MT-GLAZE 100K JA 1/16W R5037 301 304 1206 MT-GLAZE 75K DC 1/16W R5038 301 263 5802 MT-GLAZE 330K DC 1/16W R5053 301 290 2508 MT-GLAZE 13K DC 1/16W R5054 301 262 2208 MT-GLAZE 820 DC 1/16W R5058 301 226 1506 MT-GLAZE 0.000 ZA 1/16W R5063 301 258 0409 MT-GLAZE 120K DC 1/16W R5065 301 299 4008 MT-GLAZE 510K DC 1/16W R5066 301 262 0709 MT-GLAZE 39K DC 1/16W R5069 301 258 6609 MT-GLAZE 10K DC 1/16W R5070 301 310 0705 MT-GLAZE 11 DD 1/16W R5301 301 309 2604 MT-GLAZE 470K DC 1/16W R5302 301 258 6906 MT-GLAZE 20K DC 1/16W R5303 301 257 4101 MT-GLAZE 100K DC 1/16W R5402 302 106 1609 MT-GLAZE 100K JD 1/8W R5403 301 224 8804 MT-GLAZE 100 JA 1/16W R5404 301 263 2108 MT-GLAZE 5.1K DC 1/16W R5405 301 267 1008 MT-GLAZE 6.2K DC 1/16W R5422 302 079 0203 MT -GL AZE 220K JKG 1/8W R5424 301 224 9009 MT-GLAZE 10K JA 1/16W

F5001 323 031 1700 FUSE 32V 2A F5002 323 031 1700 FUSE 32V 2A F5003 323 031 1809 FUSE 32V 2.5A F5004 323 031 1809 FUSE 32V 2.5A

CN301 645 084 2580 SOCKET,FPC 19P (N.S.P.) CN302 645 085 0745 SOCKET,PWB-PWB 50 (N.S.P.)

(FUSES)

(CONNECTORS)

COMPL PWB,VF-1

636 096 5010

IC331 309 599 3301 IC MRSS32W C1710 303 433 1102 CERAMIC 1U K 10V

C1711 303 381 8109 CERAMIC 1U K 6.3V C1712 303 372 7500 CERAMIC 2.2U K 6.3V C1713 303 381 8109 CERAMIC 1U K 6.3V C1714 303 397 7608 CERAMIC 1U K 25V C1715 303 397 7608 CERAMIC 1U K 25V C1716 303 397 7608 CERAMIC 1U K 25V C1717 303 383 5007 CERAMIC 1U K 16V C1718 303 383 5007 CERAMIC 1U K 16V C1719 303 382 7804 CERAMIC 2.2U K 10V C1720 303 372 7500 CERAMIC 2.2U K 6.3V C1721 303 382 7804 CERAMIC 2.2U K 10V C1722 303 372 7500 CERAMIC 2.2U K 6.3V C1724 303 381 8109 CERAMIC 1U K 6.3V C3301 303 381 8109 CERAMIC 1U K 6.3V

RB171 945 037 0817 R-NETWORK 0X4 1/16W RB172 945 037 0817 R-NETWORK 0X4 1/16W

R1710 301 228 4505 MT-GLAZE 2.2 JA 1/16W R1852 301 226 1506 MT-GLAZE 0.000 ZA 1/16W R1853 301 226 1506 MT-GLAZE 0.000 ZA 1/16W

CN171 645 069 2734 SOCKET,FPC 37P (N.S.P.) CN172 645 086 5374 SOCKET,FPC 27P (N.S.P.)

(INTEGRATED CIRCUIT) (CAP ACITORS)

(RESISTOR P ACKS)

(RESISTORS)

(CONNECTORS)

Page 32

Jul./’06

SANYO Electric Co., Ltd. Osaka, Japan