S 5800

DIGITAL CAMERA

FinePix S5800/S800

SERVICE MANUALUS/EU/EG/EE/CH-model

Ref.No.: ZM00692-102Printed in Japan 2008.09

WARNING THE COMPONENTS IDENTIFIED WITH THE MARK " " ON THE SCHEMATIC DIAGRAM

AND IN THE PARTS LIST ARE CRITICAL FOR SAFETY. PLEASE REPLACE ONLY WITH THE COMPONENTS SPECIFIED ON THE SCHEMATIC

DIAGRAM AND IN THE PARTS LIST. IF YOU USE PARTS NOT SPECIFIED, IT MAY RESULT IN A FIRE AND AN ELECTRICAL

SHOCK.

CAUTION BECAUSE THIS PRODUCTIS RoHS LEAD-FREE COMPLIANT, USE THE DESIGNATED

AFTER-SELES PARTS AND THE DESIGNATED LEAD-FREE SOLDER WHEN PERFORMING REPAIRS. (Refer to page 3 to page 5)

Condential: FUJIFILM Service Center Use Only

FinePix S5800/S800 Service Manual

2


1. Check the area of your repair for unsoldered or poorly soldered connections. Check the entire board surface for solder splasher and bridges.

2. Check the interboard wiring to ensure that no wires are "pinched" or contact high-wattage resistors.

3. Look for unauthorized replacement parts, particularly transistors, that were installed during a previous repair. Point them out to the customer and recommend their replacement.

4. Look for parts which, though functioning, show obvious

signs of deterioration. Point them out to the customer and recommend their replacement.

5. Check the B + voltage to see it is at the values specied.

6. Make leakage - current measurements to determine that exposed parts are acceptably insulated from the supply circuit before returning the product to the customer.

7. CAUTION: FOR CONTINUED PROTECTION AGAINST FIRE HAZARD, REPLACE ONLY WITH SAME TYPE 2.5 AMPERES 125V FUSE.

ATTENTION: AFIN D'ASSURER UNE PROTECTION PERMANENTE CONTRE LES RISQUES D'INCENDIE, REMPLACER UNIQUEMENT PAR UN FUSIBLE DE MEME, TYPE 2.5 AMPERES, 125 VOLTS.

8. WARNING: TO REDUCE THE ELECTRIC

SHOCK, BE CAREFUL TO TOUCH THE PARTS.

SAFETY CHECK-OUTAfter correcting the original problem, perform the following safety check before return the product to the customer.

WARNING!HIGH VOLTAGE

2.5A 125V

2.5A 125V

RISK OF FIRE-REPLACE FUSE AS MARKED


3


RoHS lead-free complianceBecause this product is RoHS lead-free compliant, use the designated after-sales parts and the designated lead-free solder when performing repairs.

With the exception of parts and materials expressly excluded from the RoHS directive(*1), all the internal connections and component parts and materials used in this product are lead-free compliant(*2) under the European RoHS directive.

*1: Excluded items (list of the main lead-related items) Lead included in glass used in uorescent tubes, electronic components and cathode-ray tubes Lead in high-melting-point solder (i.e. tin-lead solder alloys that contain 85% lead or more) Lead in ceramic electronic parts (piezo-electronic devices) Mercury contained in uorescent tubes is also excluded.

*2: Denition of lead-free A lead content ratio of 0.1 wt% or less in the applicable locations (solder, terminals, electronic components, etc.)

RoHS: The name of a directive issued by the European Parliament aimed at restricting the use of

certain designated hazardous substances included in electrical and electronic equipment.Designated substances (6): Lead, mercury, cadmium, hexavalent chromium, polybrominated biphenyls (PBBs) and

polybrominated diphenyl ether (PBDE)

When carrying out repairs, use a designated lead-free solder, bearing in mind the differing work practices for conventional solder (eutectic) and lead-free solder.

Differences in the soldering work for lead-free and eutectic solderWhen the soldering work practices for eutectic solder and lead-free solder are compared, the main differences are as shown below. In particular, when lead-free solder is used, the solder tends to be less workable than when eutectic solder is used. Accordingly, the soldering techniques used must take that into account.

Difference Countermeasure

1 The solder starts melting later. The initial melting point of lead-free solder is high, so you have to get used to it.

2 Poor wetting Move the tip of the soldering iron around to heat the entire connection to the melting temperature and assist wetting.

3 Solder feed rate is difcult to control. Use the solder (wire) diameter and soldering iron that are best suited to connection being soldered.

4 Wetting the insides of through holes is especially difcult.

First apply solder to the area immediately around the through hold and then feed the solder into the hole.

5 During repairs (or modications) removing solder from inside through holes is difcult.

Use a suitable wicking wire (with a suitable method and heating) and a suction tool.

6 There is serious carbonization of the soldering iron. Either put solder onto the soldering iron tip after completing the work, or turn the iron off frequently.

7 The surface is not glossy. Learn to recognize the appearance of the surface.


4


Setting temperature during lead-free soldering Lead-free solder melting temperature The melting point of eutectic (Sn-Pb) solder is 183C, while the melting point of lead-free solder (Sn-Ag-Cu) is 30C

higher at 220C.

Soldering iron tip temperature The temperature setting for the soldering iron used should be such that the tip of the soldering iron is at the correct

bonding temperature for the connection. This temperature is normally set at around 100C higher than the melting point of the solder.

However, the actual temperature should take into account the shape and size of the soldering iron tip, the heat tolerance of the connection and the workability of that temperature.

Correct bonding temperature The correct bonding temperature refers not to the temperature of the heat source, but to the bonding temperature that

will give the best bond strength.

Precautions when soldering with lead-free solder Soldering iron maintenance Because of the high soldering iron temperature in lead-free soldering, there is rapid carbonization of the ux adhering to

the tip of the soldering iron. (1) Always cover the tip of the soldering iron with solder when it is not being used. (2) If the tip is black from carbonization, wipe it gently with a paper towel soaked in alcohol until the solder will wet.

Uniform heating of the board and components To ensure that the lead-free solder wets the entire surface of the pattern and the lands despite its poor wetting

characteristics, you must move the tip of the soldering iron over a wide area to raise the temperature of the entire connection.

Soldering ironA soldering iron with a temperature control is best.


5


Solder wire (thread)Use the lead-free solders specied below.Solder type: Sn96.5Ag3Cu0.5 (Displayed symbol: SnAgCu)Wire diameter: 0.6, 0.8 or 1.0 mm

Sample:

FluxConventional ux can be used.

Solder application wires (mesh, wicking wire, etc.)Conventional application wires can be used.

lead-free

Wire diameter 0.8mm

Solder type (Displayed symbol) SnAgCu


6


MEMO


7

CONTENTSCondential: FUJIFILM Service Center Use Only

CONTENTS

1. General ....................................................... 1-11-1. Product specication ............................................1-11-2. Explanation of Terms ...........................................1-41-3. Names of External Components ..........................1-5

2. Disassembly ............................................... 2-12-1. Names of internal Components ...........................2-12-2. Removing the REAR CONST ..............................2-22-3. Disassembling the REAR CONST .......................2-32-4. Removing the LCD ..............................................2-42-5. Removing the COMPL PWB,CP-1 ......................2-52-6. Removing the SIDE CABI ....................................2-72-7. Removing the LENS ............................................2-82-8. Removing the FLASH UNIT and EVF UNIT ......2-10

2-8-1. Disassembling the FLASH UNIT .......... 2-112-8-2. Disassembling the ST HOLDER ..........2-13

2-9. Disassembling the LENS HOLDER TOP ...........2-152-10. Disassembling the CABI FRONT .......................2-172-11. Afxing locations for SPACERS and

SHEETS ............................................................2-182-11-1. Attaching the SPACER to the

COMPL PWB,CP-1 ..............................2-182-11-2. Attaching the

CA-1 HOLDER SHEET A and CA-1 HOLDER SHEET B to the CA-1 HOLER ........................................2-18

2-11-3. Attaching the SHEET and SPACER to the LCD HOLDER ............................2-19

2-11-4. Attaching the SPACER, LCD SPACER A and LCD SPACER C to the LCD .................2-20

2-11-5. Attaching the LCD SPACER B to the CABI BACK ..........................................2-21

2-11-6. Attaching the LENS SPACER and LCD SPACER B to the LENS HOLDER TOP ............................2-21

3. Schematics ................................................. 3-13-1. Description of CCD circuit operation ....................3-1

3-1-1. Overview ................................................3-13-1-2. IC931 (CCD imager) ..............................3-13-1-3. IC901 (V driver) and IC905 (H driver) ....3-23-1-4. IC905 (CDS, AGC and A/D converter) ...3-2

3-2. Description of CP1 circuit operation ....................3-23-2-1. Circuit Description ..................................3-23-2-2. Outline of Operation ...............................3-33-2-3. LCD Block ..............................................3-33-2-4. EVF Block ..............................................3-33-2-5. Lens Drive Block ....................................3-3

3-3. Description of PWA Power Circuit Operation .......3-43-3-1. Overview ................................................3-4

3-4. Description of ST1 ash circuit operation ............3-53-4-1. Charging circuit ......................................3-53-4-2. Flash Circuit ..........................................3-5

3-5. Description of SYA circuit operation .....................3-63-5-1. Conguration and Functions ..................3-63-5-2. Internal Communications Paths .............3-73-5-3. Key Operations ......................................3-73-5-4. Power Supply Control ............................3-8

3-6. Block Diagram .....................................................3-93-7. Overall connection Diagram ..............................3-103-8. Circuit Diagrams ................................................ 3-11

3-8-1. CA1 BLOCK ......................................... 3-113-8-2. CA2 BLOCK .........................................3-123-8-3. CCD BLOCK ........................................3-133-8-4. CP1 BLOCK (DMA) ..............................3-143-8-5. CP1 BLOCK (PWA) .............................3-153-8-6. CP1 BLOCK (STA) ...............................3-163-8-7. CP1 BLOCK (SYA) ...............................3-173-8-8. CP1 BLOCK (TCA) ..............................3-183-8-9. FLASH BLOCK ....................................3-193-8-10. MAIN/LCD DRIVER BLOCK ................3-203-8-11. POWER BLOCK ..................................3-213-8-12. SYSTEM CONTROL BLOCK ...............3-223-8-13. LENS BLOCK .......................................3-233-8-14. PW1 BLOCK ........................................3-243-8-15. TB1 BLOCK .........................................3-253-8-16. TB2 BLOCK .........................................3-26

3-9. Mounted Parts Diagrams ...................................3-273-9-1. CA1 PWB ASSY ...................................3-273-9-2. CA2 PWB ASSY ...................................3-283-9-3. TB1 PWB ASSY ...................................3-293-9-4. TB2 PWB ASSY ...................................3-293-9-5. MAIN PWB ASSY .................................3-31


8

CONTENTSCondential: FUJIFILM Service Center Use Only

4. Adjustments ............................................... 4-14-1. Important point before adjustment .......................4-1

4-1-1. The handling of image les in internal memory .....................................4-1

4-1-2. Adjustment when Replacing Major Parts .............................................4-2

4-2. Measuring instruments used ................................4-24-3. Use jig ..................................................................4-24-4. Calibration method of pattern box ........................4-34-5. Adjustment software installation ..........................4-3

4-5-1. Various downloading software decompressions, preservation methods, and notes ...........4-3

4-6. Connecting to the PC for Adjustment ...................4-44-7. Adjustment Software Description .........................4-54-8. MAIN PWB ASSY initialization .............................4-64-9. LENS Adjustment ...............................................4-104-10. AWB Adjustment ................................................4-134-11. CCD Defect Detection .......................................4-154-12. CCD Black Defect Detection ..............................4-174-13. Updating the Firmware ......................................4-194-14. Completion Settings ...........................................4-22

5. Inspection ................................................... 5-15-1. Required Measuring Equipment ..........................5-15-2. Connection of Measuring Equipment ...................5-15-3. Inspection and Factory Settings ..........................5-2

CONTENTS

6. Parts List .................................................... 6-16-1. Packing and Accessories .....................................6-1

6-1-1. US-model (S800) ...................................6-16-1-2. EU-model (S5800) .................................6-26-1-3. EG-model (S5800) .................................6-36-1-4. EE-model (S5800) ..................................6-46-1-5. CH-model (S5800) .................................6-5

6-2. Mechanical Block 1 ..............................................6-76-2-1. US/EU/EG/EE/CH-model

(S5800/S800) .........................................6-76-3. Mechanical Block 2 ..............................................6-8

6-3-1. US-model (S800) ...................................6-86-3-2. EU/EG/EE-model (S5800) .....................6-96-3-3. CH-model (S5800) ...............................6-10

6-4. Flash Block ........................................................ 6-116-4-1. US-model (S800) ................................. 6-116-4-2. EU/EG/EE/CH-model (S5800) .............6-12

6-5. Electrical parts ...................................................6-13

7. Appendix .................................................... 7-17-1. List of Related Technical Updates Issued ............7-1


1-1

1. GeneralCondential: FUJIFILM Service Center Use Only

1. General1-1. Product specicationSystem

Model Digital camera FinePix S5800 / S800

Effective pixels 8.0 million pixels

CCD 1/2.5-inch CCD

Storage media Internal memory (approx. 26 MB)

xD-Picture Card (16/32/64/128/256/512 MB/1 GB/2 GB)/SD Memory Card (FUJIFILM

recommendation)

File format Still image: DCF-compliant

Compressed: Exif ver.2.2 JPEG, DPOF-compatible

* Design rule for Camera File System compliant/DPOF compatible

Movie: AVI format, Motion JPEG

Audio: WAVE format, Monaural sound

Number of recorded 3264 2448 pixels/3264 2176 pixels/2304 1728 pixels/1600 1200 pixels/

pixels (Still image) 640 480 pixels ( / / / / )

Lens Fujinon 10 optical zoom lens F3.5-F3.7

Focal length f=6.33 mm-63.3 mm (Equivalent to approx. 38 mm-380 mm on a 35 mm camera)

Digital zoom Approx. 5.1 (10 optical zoom lens is used together: Max. zoom scale: approx. 51)

Aperture (Wide-angle) F3.5 to F13.6, 7 steps in 1/3 EV increments Manual/Auto selectable

Focal range Normal: Wide-angle: approx. 30 cm (1.0 ft.) to infinity (In High-speed shooting mode:

approx. 1.0 m (3.3 ft.) to infinity)

Telephoto: approx. 1.0 m (3.3 ft.) to infinity (In High-speed shooting mode: approx.

1.0 m (3.3 ft.) to infinity)

Macro: Wide-angle: 4 cm to 3.0 m (1.6 in. to 9.8 ft.)

Telephoto: 60 cm to 3.0 m (2.0 ft. to 9.8 ft.)

Super macro: approx. 1 cm to 1.0 m (0.4 in. to 3.3 ft.) (Wide-angle only)

Sensitivity Auto/Auto (800)/Auto (400)/Equivalent to 64/100/200/400/800/1600 (Standard output

sensitivity)

Photometry TTL 256-zones metering Multi, Spot, Average

Exposure control Program AE (When using P mode : Program Shift is enabled)/Shutter priority AE/Aperture

priority AE/Manual exposure

Scene position (NATURAL LIGHT), (NATURAL & ), (PORTRAIT), (LANDSCAPE),

(SPORT), (NIGHT), (FIREWORKS), (SUNSET), (SNOW), (BEACH),

(MUSEUM), (PARTY), (FLOWER), (TEXT)

Picture Stabilization Available

Exposure compensation -2 EV to +2 EV in 1/3 EV-step increments (P, A, S)

Shutter speed , , , , , , , , , , , , : 1/4 sec. to 1/1000 sec*.

: 3 sec. to 1/1000 sec.*

: 4 sec. to 1/2 sec.*

: 1/4 sec. to 1/1000 sec.* (flash only).

P, A, S: 4 sec. to 1/1000 sec.*

M: 4 sec. to 1/1000 sec.* *depend on Exposure mode

Continuous shooting Top-3: Number of recorded frames: up to 3 frames (Max. 1.3 frames/sec.)

Long-period: Number of recorded frames:

Depend on memory size. 1.8 sec. interval at N

depending on quality level. (Max. 0.6 frames/sec.)

Auto bracketing 1/3 EV, 2/3 EV, 1 EV

Focus Mode: Single AF, Continuous AF, Manual focus

AF system: TTL contrast-type, AF-assist illuminator

AF frame selection: AF (CENTER), AF (MULTI), AF (AREA)


1-2


System

White balance Automatic scene recognition/Preset (Fine, Shade, Fluorescent (Daylight), Fluorescent (Warm

White), Fluorescent (Cool White), Incandescent) /Custom

Self-timer Approx. 2 sec./10 sec.

Flash type Popping the flash up automatically

Effective range: ( : 800): approx. 50 cm-6.2 m (1.6 ft.-20 ft.)

(Macro): approx. 30 cm-3.0 m (1.0 ft.-9.8 ft.)

Flash mode Auto, Red-eye Reduction, Forced Flash, Suppressed Flash, Slow Synchro, Red-eye

Reduction + Slow Synchro

Viewfinder 0.24 inches, approx. 230,000 pixels low-temperature polysilicon TFT color LCD finder,

Approx. 97% coverage

LCD monitor 2.5 inches, Aspect ratio: 4:3; approx. 230,000 pixels low-temperature polysilicon TFT color

LCD monitor, Approx. 97% coverage

Movie 640 480 pixels/320 240 pixels ( / )

(30 frames per second with monaural sound)

A series of continuous image can be recorded depending on the available space on an

Memory Card or internal memory.

A movie recording will stop automatically when a movie file becomes approx. 2GB. If you

want to continue recording another movie, press the shutter button again. The available

recording time is displayed based on approx. 2GB.

Photography functions High-speed shooting, Best framing, Post shot assist window, Frame No. memory,

Histograms

Playback functions Trimming, Slide Show, Multi-frame playback, Sorting by date, Image rotate, Histograms

(Highlight warning), Voice memo

Other functions PictBridge, Exif print, Language ( , English, Francais, Deutsch, , Italiano, ,

, , , , Nederlands, , , Magyar, Polski, Svenska), Time difference, FinePix photo mode( -mode), Discharging rechargeable batteries

Quality setting F N (30 fps) (30 fps)Number of recorded pixels

3264 2448 640 480 640 480 320 240

Image data size 3.9 MB 2.0 MB 1.8 MB 980 KBInternal memory (approx. 26 MB)

15 27 43 211

xD-P

icture Card

16 MB 9 16 25 124

32 MB 18 32 51 249

64 MB 36 64 102 499 1.8 min.

128 MB 72 204 999 3.7 min.256 MB 145 410 1999 7.4 min.

290 819 3995 14.8 min.

1 GB 581 1640 7996 29.6 min.

2 GB 1163 2063 3199 15995 59.2 min.

SD

Mem

oryC

ard

281 793 3868 14.3 min.

1 GB 563 1589 7746 28.7 min.2 GB 1127 3100 15504 57.4 min.

SD

HC

Mem

oryC

ard

4 GB 2229 6131 30655

8 GB

6

4

8

16

3265

130

261

520

126

252504

996

1995

13

8

16

32

64130

259

520

1031

251

5031000

1977

3959 4463 12275 61375

Standard number of available frames/recording time per xD-Picture Card, SD Memory Card and internal memoryThe number of available frames and recording time is approximate. Actual number of frames and recording time varies depending on the types of Memory Card or shooting condit ion. Also, the number of frames and recording time displayed in the LCD monitor may not decrease regularly.

512 MB

512 MB

*A movie recording will stop automatically when a movie file becomes approx. 2GB. If you want to continue recording another movie, press the shutter button again. The available recording time is displayed based on approx. 2GB.

3264 2176 2304 1728 1600 1200

630 KB 130 KB

29 sec. 46 sec.

17 sec. 27 sec.

55 sec.34 sec.

70 sec.

2.3 min.

113.5 min.*

227.3 min.*

4.7 min.

9.3 min.

18.7 min.

36.8 min.

9 min.

18.1 min.35.6 min.

70.5 min.*

141.1 min.*

128257

515

1031

499

9992000

3955

7919


1-3


Alkaline batteries

Ni-MH batteries 2500 mAh

Battery Type With LCD monitor ON With viewfinder (EVF) ONApprox. 300 frames

Approx. 500 frames

Approx. 300 frames

Approx. 500 frames

Input/Output Terminal

A/V OUT NTSC/PAL-type (with monaural sound)

(Audio/Visual output)

Digital input/output USB 2.0 Full-Speed, PTP (Picture Transfer Protocol)/MTP (Media Transfer Protocol)

DC input socket AC Power Adapter AC-5VX (sold separately)

Power Supply and Others

Power supply Use one of the following:

4 AA-size alkaline batteries

4 AA-size Ni-MH (Nickel-Metal Hydride) batteries (sold separately)

AC Power Adapter AC-5VX (sold separately)

Guide to the number of

available frames for

battery operation

According to the CIPA (Camera & Imaging Products Association) standard procedure for

measuring digital still camera battery consumption (extract):

When using alkaline batteries, use the batteries supplied with the camera. You can use Ni-

MH batteries also. The storage media should be xD-Picture Card.

Pictures should be taken at a temperature of +23oC (+73oF), with the LCD monitor turned

on, the optical zoom moved from full wide-angle to full telephoto (or vice-versa) and back

again to its original position every 30 seconds, the flash used at full power every second

shot and the camera turned off and then on again once every 10 shots.

Note: Because the number of available shots varies depending on the capacity of alkaline

batteries or the level of charge in Ni-MH batteries, the figures shown here for the

number of available shots using batteries are not guaranteed.

The number of available shots will also decline at low temperatures.

Camera dimensions 106.1 mm 75.7 mm 80.7 mm/4.2 in. 3.0 in. 3.2 in.

(W/H/D) (not including accessories and attachments)

Camera mass (weight) Approx. 307 g/10.8 oz. (not including accessories, batteries and Memory Card)

Weight for photography Approx. 402 g/14.2 oz. (including batteries and Memory Card)

Operating conditions Temperature: 0oC to +40oC (+32oF to +104oF)

80% humidity or less (no condensation)

Accessories included AA-size Alkaline Batteries (LR6) (4) Strap (1) Lens cap (1 set) A/V cable (1) USB cable (1) CD-ROM (1) Software for FinePix CX Owners Manual (1)Optional accessories xD-Picture Card 256MB/512MB/1GB/2GB

AC Power Adapter AC-5VX PC Card Adapter DPC-AD Compatible with xD-Picture Card of 16 MB to 512 MB, and SmartMedia of 3.3 V,

2 MB to 128 MB.

CompactFlash Card Adapter DPC-CF


1-4


1-2. Explanation of Terms

Deactivated batteries: Leaving an Ni-MH battery unused in storage for a long period may cause a rise in the level

of substances that inhibit current flow inside the battery and result in a dormant battery. A

battery in this state is referred to as deactivated.

Because current flow is inhibited in a deactivated Ni-MH battery, the batterys original level

of performance cannot be achieved.

EV: A number denotes Exposure Value. The EV is determined by the brightness of the subject

and sensitivity (speed) of the film or CCD. The number is larger for bright subjects and

smaller for dark subjects. As the brightness of the subject changes, a digital camera main-

tains the amount of light hitting the CCD at a constant level by adjusting the aperture and

shutter speed.

When the amount of light striking the CCD doubles, the EV increases by 1. Likewise, when

the light is halved, the EV decreases by 1.

Frame rate (fps): The frame rate refers to the number of images (frames) that are photographed or played

back per second. For example, when 10 frames are continuously photographed in a 1-sec-

ond interval, the frame rate is expressed as 10 fps.

For reference, TV images are displayed at 30 fps (NTSC).

JPEG: Joint Photographic Experts Group

A file format used for compressing and saving color images. The higher the compression

rate, the greater the loss of quality in the decompressed (restored) image.

Memory effect: If an Ni-MH battery is repeatedly charged without first being fully discharged, its perfor-

mance may drop below its original level.

This is referred to as the memory effect.

Motion JPEG: A type of AVI (Audio Video Interleave) file format that handles images and sound as a single

file. Images in the file are recorded in JPEG format. Motion JPEG can be played back by

QuickTime 3.0 or later.

Smear: A phenomenon specific to CCDs whereby white streaks appear on the image when there is

a very strong light source, such as the sun or reflected sunlight, in the photography screen.

WAVE A standard format used on Windows systems for saving audio data. WAVE files have the

.WAV file extension and the data can be saved in either compressed or uncompressed

format. Uncompressed recording is used on this camera.

WAVE files can be played back on a personal computer using the following software:

Windows: MediaPlayer

Macintosh: QuickTime Player

* QuickTime 3.0 or later

White Balance: Whatever the kind of the light, the human eye adapts to it so that a white object still looks

white. On the other hand, devices such as digital cameras see a white subject as white by

first adjusting the color balance to suit the color of the ambient light around the subject. This

adjustment is called matching the white balance.

Exif Print: Exif Print Format is a newly revised digital camera file format that contains a variety of

shooting information for optimal printing.


1-5


1-3. Names of External Components

Strap mount Strap mount

Zoom lever

Power switch

Mode dial

Continuous shooting button

Shutter button

Microphone

Speaker

Terminal cover

AF-assist illuminator/Self-timer lamp

USB socket/A/V OUT (Audio/Visual output) socket

DC IN 5V (power input) socket

Auto popup flash


1-6


Viewfinder (EVF)

Indicator lamp

LCD monitor

Tripod mount

DISP (Display)/BACK button

Exposure compensation button

Cover lock release button

Battery cover

EVF/LCD (monitor selector) button

Playback mode button

(Photo mode) button

(4-direction) button

MENU/OK button

Slot cover

Memory Card slot


2-1

2. DisassemblyCondential: FUJIFILM Service Center Use Only

2. Disassembly2-1. Names of internal Components

LENS ASSY

STRAP LENS HOLDER

LENS HOLDER BOTTOM

SIDE CABI

SPEAKER

CABI FRONT

LCD HOLDER

LENS HOLDER TOP

BATTERY COVER

MICROPHONE

FLASH ASSY

EVF UNIT

COMPL PWB CP-1

CABI BACK

LCD MONITOR

CARD COVER


2-2


3

4

1

2

5

6

7

2-2. Removing the REAR CONST

(1) Remove the 1 screw (1.7 x 6.0).

(2) Remove the 2 screws (1.7 x 6.0).

(3) Remove the screw (1.7 x 4.0).

(4) Open the BATTERY COVER and remove the screw (1.4 x 3.0).

(5) Lift off the REAR CONST in the direction of the arrow.

[Notes] Raise the REAR CONST slowly because the MODE

FPC is connected to the COMPL PWB, CP-1. Take care not to drop the CARD COVER.

(6) Unlock the connector and disconnect the exible cable.

[Assembly]Install the CARD COVER on the REAR CONST and the BATTERY COVER on the CABI FRONT and assemble by carrying out the disassembly procedure in reverse.

(7) Remove the BATTERY COVER.

[Notes on Assembly]Take care with the routing of the LENS FPC.


2-3


3

2

1

4

3

7

58

MODE CLICK SPRING

6 MODE DIAL KNOB

6 MODE DIAL SPRING6

2-3. Disassembling the REAR CONST


(2) Remove the BUTTON BASE in the direction of the arrow.


(4) Remove the MODE HOLDER PLATE in the direction of the arrow, taking care with the catches on the MODE DIAL HOLDER.

(5) Hold the MODE DIAL KNOB to one side with your hand and remove the screw (1.7 x 3.0).

(6) Remove the MODE DIAL SPRING, MODE CLICK SPRING and MODE DIAL KNOB.


(8) Remove the MODE DIAL HOLDER.

[Notes]Take care not to bend the MODE DIAL SPRING section.

[Assembly]Assemble by performing the disassembly procedure in reverse.


2-4


3

12

2-4. Removing the LCD

(1) Peel off the SHEET SHADE.

(2) Raise the LCD in the direction of the arrow.

(3) Unlock the connector and remove the LCD.



2-5


1

2

3

11

13

4

76

5

12

9

10

8

2-5. Removing the COMPL PWB,CP-1


(2) Remove the LCD HOLDER in the direction of the arrow.


(4) Discharge the main capacitor.

Take care not to touch the main capacitor terminals before discharging the capacitor.

(5) Remove the solder in 2 locations on the SPEAKER lead wires.

(6) Remove the solder in 2 locations on the MICROPHONE lead wires.

(7) Remove the solder in 4 locations on the lead wires from the EVF UNIT.

(8) Remove the adhesive and then remove the solder in 4 locations on the lead wires from the FLASH ASSY.

(9) Remove the solder in 2 locations on the AF LED lead wires.

(10) Remove the adhesive and then remove the solder in 2 locations on the lead wires from the COMPL PWB, PW-1.

(11) Unlock the connector and remove the LENS FPC.

(12) Release the 2 connector locks and remove the FPC for the EVF UNIT.

(13) Lift up the COMPL PWB, CP-1 in the direction of the arrow.


2-6


Red Red

Red

Gray

GrayPink

Gray

White

White

White

Black

Black

Black

PinkWhiteGray

(14) Unlock the connector and remove the FPC.

(15) Unlock the connector and remove the FPC for the ZOOM SW UNIT.


[Notes on Assembly] Take care to route the EVF UNIT FPC correctly.

15

14


2-7


2-6. Removing the SIDE CABI

(1) Open the JACK COVER and remove the 2 screws (1.7 x 3.0).


(3) Remove the SIDE CABI in the direction of the arrow, taking care with the SPEAKER lead wires.

(4) Remove the STRAP LENS HOLDER.


[Notes on Assembly]Stowing the SPEAKER lead wires as shown in gure.

2

3

1

4


2-8


2-7. Removing the LENS

(1) PEEL off the CA-1 HOLDER SHEET A.


(3) Remove the EARTH HOLDER A.


(5) Remove the EARTH HOLDER B.

(6) Remove the CA-1 HOLDER.

(7) Remove the STRAP EARTH.


(9) Press straight down on the SLIDE RETURN HOLDER (pale orange) and pop up the FLASH UNIT.

(10) Lift up the LENS HOLDER BLOCK in the direction of the arrow.

1 2

3

5

6

4

7

109

8


2-9


14

15

(11) Peel off the SHEET LENS FPC.

[Notes]When peeling off the SHEET LENS FPC, take care not to break any wires in the LENS FPC.

(12) Peel off the SHEET LEAD POWER.


(14) Release the 2 catches and remove the LENS HOLDER TOP in the direction of the arrow.

[Notes] When removing the LENS from the LENS HOLDER

BOTTOM, take care not to break any wires in the LENS FPC.

(15) Remove the LENS.


12

11

13

13

[Notes on Assembly]Stowing the lead wires as shown in gure.


2-10


1

2

35 4

2-8. Removing the FLASH UNIT and EVF UNIT


(2) Remove the FLASH UNIT in the direction of the arrow.

(3) Peel off the SHEET EVF B.


(5) Remove the EVF UNIT.



2-11


1

2

3

4

7

9

6

5 10

1112

8

2-8-1. Disassembling the FLASH UNIT

(1) Slide the SLIDE RETURN HOLDER in the direction of the arrow and pop up the FLASH UNIT.


(3) Remove the ST COVER TOP in the direction of the arrow.

(4) Push out the ST SHAFT in the direction of the arrow.

(5) Remove the ST POP SPRING.

(6) Push out the ST COVER SHAFT in the direction of the arrow.

(7) Remove the ST COVER BOTTOM.

(8) Peel off the SHEET ST A.

(9) Remove the 4 lead wires from the ST COVER BOTTOM guide slot and pull out the TUBE.

(10) Remove the solder in 1 location and remove the TRANS.

(11) Remove the FLASH HOLDER in the direction of the arrow.

(12) Remove the FLASH COVER.


2-12


13

(13) While releasing the 3 FLASH HOLDER catches, remove the LAMP ASSY.


[Notes on Assembly] Stowing the lead wires as shown in gure.

TUBE positioning.


2-13


1

2

3

5

6

4

B A

7

1110

9

8

2-8-2. Disassembling the ST HOLDER


(2) Remove the ST LOCK LEVER.

(3) Remove the LOCK SPRING.


(5) Remove the SLIDE PLATE.

(6) Remove the ST SLIDE HOLDER and SOLENOID SPRING.

(7) Remove the RETURN SPRING.

(8) Slide the SLIDE RETURN HOLDER in the direction of arrow (1) and remove it in the direction of arrow (2).

(9) Remove the 2 screws.

(10) Remove the COMPL PWB, TB-2.

(11) Remove the SLD UNIT.



2-14



Spring positioning and its meshing location with the motor.


2-15


2

4

3

57

1

6

8

2-9. Disassembling the LENS HOLDER TOP

(1) Remove the MICROPHONE.


(3) Remove the STRAP GRIP HOLDER.


(5) Remove the STRAP GRIP EARTH.

(6) Remove the solder in 4 locations.

(7) While pulling the 2 lead wires out of the groove in the LENS HOLDER TOP, remove the COMPL PWB, PW-1.

(8) Remove the 4 screws (1.7 x 2.5) and then remove BATTERY TERMINAL A and BATTERY TERMINAL B.


2-16


11

10

12

129

Pink

Black

(9) Peel off the AF LED SHEET.


(11) Remove the AF LED HOLDER.

(12) Remove the COMPL PWB,TB-1 and AF LED SPRING.




2-17


5

9

7

1

4

2

6

3

3

8

2-10. Disassembling the CABI FRONT


(2) Remove the STAND.


(4) Remove the LENS RING TOP, LENS RING MIDDLE and LENS RING BOTTOM.


(6) Remove the AF LED COVER.



(9) Remove the ZOOM SW UNIT.



2-18


2-11. Afxing locations for SPACERS and SHEETS2-11-1. Attaching the SPACER to the COMPL PWB,CP-1

(1) Attach the SPACER to the as shown in the gure on the right.

(2) Attach the SPACER to the as shown in the gure on the right.

2-11-2. Attaching the CA-1 HOLDER SHEET A and CA-1 HOLDER SHEET B to the CA-1 HOLER

(1) Attach the CA-1 HOLDER SHEET B to the CA-1 HOLDER as shown in the gure on the right.

(2) Attach the CA-1 HOLDER SHEET A to the CA-1 HOLDER as shown in the gure on the right.

2

1 2


2-19


32

2-11-3. Attaching the SHEET and SPACER to the LCD HOLDER

(1) Attach the SHEET LCD HOLDER B to the LCD HOLDER as shown in gure.

(2) Attach the SHEET LCD HOLDER B over the SHEET LCD HOLDER A as shown in gure.

(3) Attach the MAIN FLAME A and MAIN FLAME B as shown in gure.


2-20


2-11-4. Attaching the SPACER, LCD SPACER A and LCD SPACER C to the LCD

(1) Attach the SPACER to the LCD as shown in gure.

(2) Attach the two LCD SPACER A to the LCD as shown in gure.

(3) Attach the LCD SPACER C to cover the SHEET SHADE as shown in the gure on the right.

3

2


2-21


2-11-5. Attaching the LCD SPACER B to the CABI BACK

Attach the LCD SPACER B to the CABI BACK as shown in gure.

2-11-6. Attaching the LENS SPACER and LCD SPACER B to the LENS HOLDER TOP

(1) Attach the LENS SPACER to the LENS HOLDER TOP as shown in gure.

(2) Attach the LCD SPACER B to the LENS HOLDER TOP as shown in gure.


2-22


MEMO


3-1

3. SchematicsCondential: FUJIFILM Service Center Use Only

3. Schematics3-1. Description of CCD circuit

operation3-1-1. OverviewThe CCD peripheral circuit block is primarily made up of the following ICs:IC931 (ICX646COZ) CCD imagerIC905 (AD9971BCPZRL) H driver, CDS, AGC and A/D converterIC901 (CXD3445GA) V driver

3-1-2. IC931 (CCD imager) Interline CCD image sensor Image size: 7.183 mm diagonal (1/2.5-inch) Total pixels: 3336 x 2484 (H x V) Recorded pixels: 3264 x 2448 (H x V)

Terminal No. Terminal symbol Terminal description Terminal No. Terminal symbol Terminal description

1 SUB Board clock 18 VOUT Signal output

2 VL Protective transistor bias 19 VDD Circuit power supply

3 V1 Vertical resister transfer clock 20 RG Reset gate clock

4 V2 Vertical resister transfer clock 21 AGND GND

5 V3A Vertical resister transfer clock 22 VSS GND

6 V3B Vertical resister transfer clock 23 NC NC

7 V4 Vertical resister transfer clock 24 CSUB Board bias

8 V5A Vertical resister transfer clock 25 SUB_CONT Board biasc control

9 V5B Vertical resister transfer clock 26 DGND GND

10 V6 Vertical resister transfer clock 27 LH1 Horizontal resister transfer clock

11 V7 Vertical resister transfer clock 28 H1 Horizontal resister transfer clock

12 V8 Vertical resister transfer clock 29 H2 Horizontal resister transfer clock

13 V9 Vertical resister transfer clock 30 NC NC

14 V10 Vertical resister transfer clock 31 LV Vertical-horizontal sift clock

15 VST2 Vertical storage control 2 32 VHLD1 Vertical signal hold 1

16 VST1 Vertical storage control 1 33 VHLD2 Vertical signal hold 2

17 NC NC 34 NC NC

Horizontal register

Verti

cal r

egis

ter


3-2


CCDIN

RG

H1-H4

VDHD SDATASCKSL

CLI

DOUT

VRBVRT

PRECISIONTIMINGCORE

SYNCGENERATOR

PxGA VGA ADC12

2~36 dBVREF

CLAMP

INTERNALREGISTERS

INTERNALCLOCKS

CDS

CLAMP

HORIZONTALDRIVERS4

3-1-3. IC901 (V driver) and IC905 (H driver)The H driver and V driver are needed to create the clocks that drive the CCD (vertical transfer clock, horizontal transfer clock and the clock for the electronic shutter). IC901 is the V driver and uses the XV1 to XV15 output from IC101 to create the vertical transfer clock. XSG is superimposed in IC901 to create a three-value pulse. Also, the XSUB output from IC101 is the discharge pulse for the electronic shutter. The H driver is built into IC905 and the H1, H2 and RG clocks are generated by IC905.

3-1-4. IC905 (CDS, AGC and A/D converter)The video signals output from the CCD are input to pin 25 on IC905. IC905 contains the sampling hold block, AGC block and A/D converter block. The sampling phase and AGC amplier settings are specied based on the serial data from pin 33. Video signals are A/D converted and output by the LVDS.

3-2. Description of CP1 circuit operation

3-2-1. Circuit DescriptionDigital clampThe black level for each line in the CCD output data is prepared by calculating an average value for the optically black portions of the CCD and subtracting that value from subsequent data. The average value for a line in the optically black sections of the CCD is taken as the sum of the value for the previous line multiplied by a coefcient k and the value for the current line multiplied by a coefcient (k-1).

Signal processorGamma () correction circuit: Gamma correction is performed so that there is a linear correlation between the optical input to the camera and the optical output from the imaging screen. Color signal generation circuit: This circuit converts the CCD data to RGB signals.Matrix circuit: This circuit generates Y, R-G and B-G signals from the RGB signals.Horizontal/Vertical aperture circuit: This circuit generates the aperture signal.

AE, AWB and AF calculation circuitAE and AWB are calculated by dividing the screen into 64 zones, while AF is calculated by dividing the screen into 6 zones.

SDRAM controller circuitThis circuit outputs the AS, CAS, RAS and address used for SDRAM control. This circuit also refreshes the SDRAM.

Communication controlSIO: The interface with the 8-bit microprocessor. SIO for PIO, PWM and LCD: This is 8-bit parallel input/output that permits individual input/output and PWM output switching.

TG/SGGenerates the timing and 8-megapixel CCD control.

Digital encoderGenerates chroma signals from the color difference signals.


3-3


3-2-2. Outline of OperationWhen the shutter is released, a reset signal and serial signal (TAKE A PICTURE instruction) are sent from the 8-bit microprocessor as input for the ASIC and CPU and operation begins. When the TG/SG drives the CCD, the image data passes through A/D conversion and the CDS and is input to the ASIC as 12-bit data. The input data then passes through the digital clamp and is input to the SDRAM. This data is then used to calculate the AF, AE, AWB, shutter and AGC values. Exposure is normally carried out 3 more times to obtain the best possible image. The image data temporarily held in SDRAM is then loaded into the CPU and the colors are generated. The RGB data for each pixel is obtained by interpolating from the RGB data for the surrounding pixels. Following AWB and gamma () processing, the matrix is obtained and the aperture is corrected for the Y signal. This data is then compressed in JPEG format and written to card memory (xD-Picture card or SD card). When the data is output to external media, the data is taken from memory and output as serial data via USART. When images are displayed on the LCD or monitor, the data is transferred from memory to SDRAM, expanded into the SDRAM display area and then displayed.

3-2-3. LCD BlockThe LCD display circuit is on the CP1 board and includes its own power supply circuit. The signals from the ASIC are 8-bit digital signals and are input directly to the LCD. In the LCD, they are converted to RGB signals by the driver circuit. The LCD controls factors such as brightness and image quality using a 3-wire serial interface. Because the LCD elements close in response to differences in potential between the VCOM (common electrode voltage: AC) and RGB, the larger the difference, the darker the display. Conversely, a smaller potential difference opens the elements and brightens the display. In addition to video signals, timing pulses are also input directly to the LCD from the ASIC.

3-2-4. EVF BlockThe EVF display circuit is on the CP1 board and includes its own power supply circuit. The signals from the ASIC consist of 8-bit digital signals, serial control signals and synchronization control signals, and are input to the EVF driver IC. In the driver IC, the 8-bit digital signals are converted to RGB signals. The serial control signals are used to control factors such as the image quality.

3-2-5. Lens Drive BlockFocus driveThe 16-bit serial data signals (LENS_SD, LENS_CK and LENS_EN) output from the ASIC (IC101) are driven (FOCUS A+, FOCUS A-, FOCUS B+ and FOCUS B-) by the motor driver IC (IC951) and in turn drive the stepping motor used for focusing in microstep increments. The focus reference position is detected by a photo-interrupter (F_SENSE) in the lens block.

Zoom driveThe 16-bit serial data signals (LENS_SD, LENS_CK and LENS_EN) output from the ASIC (IC101) are driven (ZOOM A+, ZOOM A-, ZOOM B+ and ZOOM B-) by the motor driver IC (IC951) and in turn drive the stepping motor used for zooming in microstep increments. The zoom reference position is detected by a photo-interrupter (Z_SENSE) in the lens block.

ND lterThe ND lter drive signals (NDON and NDOFF) output from the ASIC (IC101) are driven using a xed current (ND+, ND-) and are inserted into or withdrawn from the ND lter light path by the motor driver (IC951).

Aperture driveA damped, coil-less galvanometer drive is used for the aperture.The hole sensor output in the lens is amplied by the hold-amplier circuit in the lens drive IC (IC971) and the difference between that output and the target aperture value as determined from the exposure amount output from the ASIC (IC101) is input to the servo-amp circuit (in IC971) and is automatically controlled so that it matches the target aperture size. The lens aperture control signal is output by IC971 and input to IN6B in IC951. IC951 operates as the driver for the lens drive.

Shutter driveThe shutter is driven by applying reverse voltage to the aperture drive coil. To drive the shutter, the OC_EN and OC_CONT signals are both maintained at the High level to input the Low level to IN6B in IC951. At the same time, the SHUTTER+ signal output from the ASIC (IC101) is set to the High level (input to IN6A in IC951) to operate the shutter. IC951 operates as the driver for the lens drive.


3-4


3-3. Description of PWA Power Circuit Operation

3-3-1. OverviewThe power circuit is primarily made up of the following blocks: Switching controller (IC501) 6 V power output (L5006 and Q5003) Digital 3.25 V power output (L5010) Digital 1.2 V power output (L5011) Analog power output (L5008 and Q5002) LCD backlight power output (L5007) EVF backlight power output (L5001 and Q5001) Motor 5.3 V power output (IC532, L5302 and Q5302)

Switching controller (IC501)The basic circuits required for controlling the PWM-type switching regulator power supply consist of 7 built-in channels. The channels are CH1 (6 V), CH2 (digital 3.2 V), CH3 (digital 1.2 V), CH4 (analog), CH5 (EVF backlight) and CH7 (LCD backlight). In response to feedback for the power output for the 6 V system (CH1), VDD3 (CH2), VDD1.2 (CH3), analog systems (CH4), EVF backlight (CH5) and LCD backlight (CH7), the PWM duty is varied so that the respective voltages are at the set values. For the backlight power supply (CH5 and CH7), the end-to-end voltage for the output resistance is used as feedback to regulate the constant current so that the specied current is maintained.

Short-circuit protection circuitIf output is short-circuited for an interval determined by the capacitor connected to IC501 (pin 32), all output is turned off. To recover operation, resend the control signal (P ON).

Analog power output+13 V (A) and -7.5 V (A) are output. The +13 V (A) output is fed back to the switching controller (IC501 pin 48) to regulate the PWM.

Digital 3.25 V power outputVDD3 is output. VDD3 is fed back to the switching controller (IC501 pin 23) to regulate the PWM.

Digital 1.2 V power outputVDD1.2 is output.VDD1.2 is fed back to the switching controller (IC501 pin 23) to regulate the PWM.

EVF backlight power outputA constant current (5.1 mA) ows to the LCD backlight LED. The end-to-end voltage for the resistance connected in series with the LED is fed back to the switching controller (IC501 pin 45) to regulate the PWM.

LCD backlight power outputA constant current (27 mA) ows to the LCD backlight LED. (A built-in timer and luminance sensor control the LCD PWM and select the current value.)The end-to-end voltage for the resistance connected in series with the LED is fed back to the switching controller (IC501 pin 37) to regulate the PWM.

Motor 5.3 V power outputBOOST 5.3 V is output. The BOOST 5.3 V output is fed back to IC532 pin 3 to regulate the PWM.


3-5


3-4. Description of ST1 ash circuit operation

3-4-1. Charging circuitThe UNREG power is supplied to the charging circuit, and when the CHG signal from the microprocessor is Hi (3.3 V), the charging circuit starts operating and charges the main electrolytic capacitor with a direct current high voltage supply. When the CHG signal is Lo (0 V), the charging circuit does not operate.

Power switchWhen the CHG signal is Hi, Q5407 switches on and charging operation begins.

Power supply lterC5401 acts as a power supply lter to smooth out any current ripples caused by oscillating transformer switching.

Oscillator circuitThis is a circuit that generates an AC voltage (pulses) that is used to step up the low-voltage DC UNREG power supply. This circuit generates a drive pulse with a frequency between 50 and 100 KHz. Because the oscillation is self-excited, the oscillation frequency varies according to the drive conditions.

Oscillating transformerThe oscillating transformer converts the low-voltage AC power supply generated by the oscillation control circuit to a high-voltage AC supply.

Rectier circuitThis circuit recties the high-voltage AC power supply generated by the second stage of T5401 so that it becomes a high-voltage DC supply and then stores it as charge in the main electrolytic capacitor (C5412).

Voltage monitor circuitThis circuit is used to maintain the voltage stored in C5412 at a constant level. The charging voltage is divided by R5405 and R5406 to reduce it to a low voltage and is then output as the monitor voltage (VMONIT). When the VMONIT voltage reaches the stipulated value, the CHG signal is set to Lo and charging stops.

3-4-2. Flash Circuit When the FLCLT signal is input from the ASIC extended port, the ash res.

Flash control circuitWhen the FLCLT signal input to the ash control circuit is Hi, Q5409 is set to ON and ash ring commences. When the FLCLT signal is Lo, ash ring stops.

Trigger circuitAt the same time that Q5409 is set to ON by the FLCLT signal and preparations for ring the ash are carried out, a high-voltage pulse of several kilovolts is generated by the trigger coil and applied to the ash unit.

Flash elementWhen a high-voltage pulse is applied to the ash unit by the trigger circuit, current ows to the ash element and the ash res.

* Take care to avoid electric shock.


3-6


3-5. Description of SYA circuit operation3-5-1. Conguration and FunctionsRefer to the block diagram for the overall conguration of the SYA block. The SYA block consists primarily of an 8-bit microprocessor (IC301).The functions of the 8-bit microprocessor include: 1. Control key input, 2. Clock management and backup; 3. Power ON/OFF; and 4. Flash charging control.

Pin Signal Name I/O Description1 BAT OFF I Battery OFF detection signal2 WIDE I WIDE key input3 VF. LED (G) O VF LED (green) ON/OFF control signal4 TELE I TELE key input5 SW 3.2 ON O SW 3.2 V power ON/OFF control signal6 RESET I Reset input7 XCOUT O Clock oscillation terminal8 XCIN I Clock oscillation terminal (32.768kHz)9 IC (FLMD0) - Power supply for program writing

10 XOUT O Main clock oscillation terminal11 XIN I Main clock oscillation terminal (4MHz)12 REGC O Stable-capacity connection terminal for regulator output for internal operations13 VSS - GND14 VSS - GND15 VDD - VDD16 VDD - VDD17 MAIN RESET O System reset (MRST)18 NOT USED - -19 VF. LED (R) O VF LED (red) ON/OFF control signal20 NOT USED - -21 SHUTTER 2nd I Shutter 2nd detection22 COMREQ I Command request input23 SHUTTER 1st I Shutter 1st detection24 NOT USED - -25 PLAY I PLAY key input26 BACKUP_CTL O Backup battery charging control27 SCAN IN2 I Key matrix input28 SCAN IN1 I Key matrix input29 SCAN IN0 I Key matrix input30 P ON O Digital ON/OFF control signal31 NAND RESET O NAND reset32 USB CONNECT I USB connection detection33 DC IN I DC JACK insertion detection34 SCAN OUT0 O Key matrix output35 SCAN OUT1 O Key matrix output36 SCAN OUT2 O Key matrix output37 SCAN OUT3 O Key matrix output38 SREQ I Serial communication request signal39 STOP CHG I Flash charge stop detection40 LCD PWM O LCD backlight brightness current control41 POP UP I Flash cover detection42 AV JACK I AV JACK presence detection43 BL ON O LCD backlight power ON/OFF control signal44 PRG SO/SCAN IN3 O/I Microprocessor write serial input/key matrix input45 PRG SI/SCAN IN4 I/I Microprocessor write serial output/key matrix input46 PRG SCK/SCAN IN5 O/I Microprocessor write serial clock/key matrix input47 AVREF - Analog reference voltage input terminal48 AVSS - GND


3-7


Pin Signal Name I/O Description49 BATTERY I Battery voltage detection50 VMONIT I Main capacitor charging voltage detection51 TEMP I Camera temperature detection52 NOT USED - -53 NOT USED - -54 SCARD I Expansion memory card installation detection signal (L = detected)55 CARD SW I CARD cover switch detection (L = detected)56 xD CARD I Expansion memory card installation detection signal (L = detected)57 NOT USED - -58 SCK O Serial clock output59 SI I Serial data input60 SO O Serial data output61 CHG ON O Flash charging control circuit62 FLMD0_SY O 8-bit microprocessor self-programming port63 PW_ON I PW_ON key input64 LENS_4M O LENS clock (4 MHz)

3-5-2. Internal Communications PathsThe SYA block detects input from the control keys and the status of the camera's circuits and controls the overall camera. Signals from the various detectors are read by the 8-bit microprocessor as input data and then output to the camera circuit (ASIC) as operation mode settings information.Figure 3-3 shows the 8-bit microprocessor and ASIC connections.

COMREQ

MAIN RESET

8 bitmicroprocessor

ASICSDO

SDI

SCK

SREQ

3-5-3. Key OperationsRefer to the Owner's Manual for information on how to use the keys.

SCAN INSCAN OUT

0 1 2 3 4 5

0 AUTO MOVIE M S P A

1 Picture Stabilization

Natural PhotoHigh-sensitivity Dual-shot

SP1 SP2 -

2 EVF/LCD DISP/BACK Exposure compensation

WER F_MODE OK/MENU

3 UP LEFT DOWN RIGHT PW_TEST TEST


3-8


3-5-4. Power Supply ControlThe 8-bit microprocessor controls the power supply for the entire system. This section discusses the starting and stopping of the power supply.When batteries are loaded, 3.2-volt power regulated by IC302 is supplied to the 8-bit microprocessor (IC301).Even when the Power switch is set to OFF, the microprocessor runs the clock and scans the keys in preparation for the next startup. When the power is OFF, the microprocessor stops the internal main clock (4 MHz) and runs on the sub-clock (32.768 kHz).When the power supply batteries are removed, the microprocessor stops the 4 MHz internal main clock and runs the clock only using the 32.768 kHz sub-clock used for the time. The microprocessor charges the backup battery for 10 hours after the battery is installed. When you set the Power switch to ON, the microprocessor initiates startup processing. First, it sets PON (pin 30) to High and activates the power circuit. Roughly 70 ms after setting PON to High, it sets the external port for the ASIC. This external port setting is then used to set the ASIC internal operating frequency and carry out oscillation control. It then begins communication with the ASIC and checks that the system is ready to run. When the live image is displayed, it sets PAON (ASIC) to High and activates the CCD power supply. During playback, it sets PAON to Low and turns the CCD power supply off. When the LCD panel is lit, it sets BLON (pin 43) to High and turns on the backlight. When the power is turned off, the microprocessor sets both PON and BLON Low and stops the power supply to the system. The microprocessor stops the main clock oscillation and switches to clock oscillation operation mode.

ASIC, memory CCD 8bit CPU LCD MONITORPower supply voltage 1.2V, 1.8V, 3.2V 13.0V, -7.5V, 3.5V 3.2V 3.25V At PW_OFF OFF OFF 32.768KHz OFF When the live image is displayed

ON ON 4MHz ON

In playback mode ON OFF 4MHz ON


3-9


3-6. Block Diagram

SWUNIT

FLASH REFLECTOR

BATTERYBOX

*IC301 (8bit MICRO PROCESSOR)

SUB CLOCK: 32.768KHzMAIN CLOCK: 4.000MHz

*IC302 (BATTERY BACKUP) *Z3001

BACKUP BATTERY

*IC501 (SWITCHING CONTROL) *IC951 (LENS DRIVER) *IC971 (HALL SENSOR)

WIREx4

TB1

CP1

LCD MONITOR

*TPO 2.5inch

TPO

CN951

POWERSHUTTER

*IC101 (ASIC)

FLASH

EV1MSSA*IC121 (PROGRAM FLASH)

32MByte

32MByte(SDRAM)

*xD CARD *xE CARD *IC151 (VIDEO DRIVER) *IC181 (AUDIO DRIVER)

*IC175 (EVF DRIVER)

*LCD *USB FULL SPEED

*SW PART EVF/LCD, DISP/BACK, EXPOSURE COMP., F_MODE, OK/MENU, UP, LEFT, DOWN, RIGHT, PLAY

MIC

SPEAKER

CARD COVER SW

CN144

xD CARD

xE CARD

CN301 CN302

CN171

AV & USB

CN101

AC ADAPTER

CN110

JK501

FPC(39pin)

ELECTRONICFLASH

TB2

SOLENOIDCOIL

WIREx2

WIREx2

WIREx2

WIREx2

LENS

UNIT

*ZOOM,

FOCUS,

SHUTTER

FPC

(51pin)

FPC(25pin)

PW1

WIREx2

AF_LED

WIDETELE

CCD UNIT

CN901

8M CCDIC931

POPUP SW

SWUNITAUTOMOVIE

MSPA

SP1SP2WER

IMAGE STABILIZERNATURAL LIGHT

SHOOTS 2 IMAGES

FPC(8pin)

FPC(14pin)

EVFUNIT

FPC

(4pin)

FPC

(23pin)

CN175 CN176

BAT+

BAT-

IC905 (CDS, AGC, A/D C, H. DRIVER)

IC901 (V. DRIVER)


3-10


3-7. Overall connection Diagram

JW18

11

MIC

JW18

21

GND

JW18

31

SP-

JW18

41

SP+

CN11

0

4ZA

V_JA

CK5

USB

D(+)

6G

ND7

USB

D(-)

8US

B_VD

D

1G

ND2

VIDE

O_O

UT3

AUDI

O-O

UT

Z1Z2

Z3Z4

CN175

10CK0

4VEE

11SLEEP

5TOUT2

12RGT

6TOUT1

13DWN

7VSS

14INV

8VDD

15VS

9CK1

16HS17VIDBL18VIDGL19VIDRL20VIDBH

1DUMMY2DUMMY3DUMMY

21VIDGH22VIDRH23VEE

Z1Z2

CN176

4EVFCA

1EVFAN2EVFAN3EVFCA

Z1Z2

JW30

1

1AF

LEDA

N

JW30

21

AFLE

DCA

JW30

41

GND

JW30

31

POPU

P

CN95

1

10ND

+

4FO

CUS

A+

11ND

+

5ZO

OM

VCC

12HA

LL IN

-

6ZO

OM

LED

13HA

LL O

UT-

7ZO

OM

SEN

SE

14HA

LL IN

+

8ND

-

15HA

LL O

UT+

9ND

-

16DR

IVE-

17DR

IVE+

18NC

19FO

CUS

LED

20FO

CUS

SENS

E

1FO

CUS

B-2

FOCU

S A-

3FO

CUS

B+

21FO

CUS

VCC

22ZO

OM

A+

23ZO

OM

B+

24ZO

OM

A-

Z1Z2

25ZO

OM

B-

JW95

21

SOLE

(-)

JW95

11

SOLE

(+)

JK50

11 23

JW50

11

BAT+

JW50

21

BAT-

JW54

1

PINK

1XA

N

JW54

2

WHI

TE1

TRG

_INJ

W54

3

GRA

Y1

TRG

_GNDJ

W54

4

BLAC

K1

XKT

JW59

11

BAT+

JW59

21

BAT-

JW60

21

AFLE

DCA

JW60

11

AFLE

DAN

JW65

21

GND

JW65

11

POP

UP

CN14

4

10CA

RD

4VD

D

11CA

RD/W

P

5CL

OCK

12W

P

6VS

S

13CD

7DA

TA0

14R/

-B

8DA

TA1

15/R

E

9DA

TA2

16/C

E17

CLE

18AL

E19

/WE

20/W

P

1DA

TA3

2CO

MM

AND

3VS

S

21G

ND22

D023

D124

D225

D326

D427

D528

D629

D730

VCC

31G

ND32

VCC

Z1

CN171

10DIN3

4SCL

11DIN2

5SDA

12DIN1

6DIN7

13DIN0

7DIN6

14DCLK

8DIN5

15HD

9DIN4

16VD17VCC18GND19DUMMY20LED+

1GREST2SHDB3SCEN

21LED-22FB23PWM24CP225CP126AVDD27DUMMY28AGND29VCOMH30VCOML31PCD32DUMMY33DUMMY34CP835CP736CP637CP538CP439CP3

Z2 Z1

CN30

1

10SC

AN IN

2

4SC

AN IN

2

11SC

AN IN

3

5SC

AN IN

1

12SC

AN IN

5

6SC

AN O

UT1

13SC

AN IN

4

7SC

AN IN

0

14G

ND

8SC

AN O

UT0

9SC

AN IN

1

1G

ND2

SCAN

OUT

23

SCAN

IN3

Z1Z2

CN30

2

45678G

ND

1G

ND2

SHUT

TER2

nd3

Z1Z2

CN901

10XV6

4XV14

11XV11

5XV13

12XV5

6XV9

13XV3

7XV8

14XV1

8XSG6

15XV12

9XV10

16XV217XSG518XV719XSG220XSG7

1GND2VDRST3XV15

21XSG322XSG423XSUB24XSG125XV426SUBGT127SUBGT228GND29ADCK30GND31CCDCK32CCDSD33CCDEN34+13V(A)35GND36-7.5V(A)37+3.5V(A)38VDD339TGVD40TGHD41PAON342GND43AFESD1N44AFESD1P45GND46AFECKN47AFECKP48GND49AFESD2N50AFESD2P51GND

Z1Z2

CN903

10 V5A

4 V10

11 V4

5 V9

12 V3B

6 V8

13 V3A

7 V7

14 V2

8 V6

15 V1

9 V5B

16 VL17 VL

1 GND2 Vst13 Vst2

18 SUB

Z1 Z2

19 GND

CN902

10 GND

4 LV

11 SUBCNT

5 GND

12 CSUB

6 H2

13 RG

7 H1

14 GND

8 GND

15 VDD

9 HL

16 VDD17 GND

1 GND2 VHLD13 VHLD2

18 VOUT

Z1 Z2

19 GND

CN101

10 GND

4 GND

11 PAON3

5 AFECKP

12 TGHD

6 AFECKN

13 TGVD

7 GND

14 VDD3

8 AFESD1P

15 +3.5V(A)

9 AFESD1N

16 -7.5V(A)17 GND18 +13V(A)19 CCDEN20 CCDSD

1 GND2 AFESD2P3 AFESD2N

21 CCDCK22 GND23 ADCK24 GND25 SUBGT226 SUBGT127 XV428 XSG129 XSUB30 XSG431 XSG332 XSG733 XSG234 XV735 XSG536 XV237 XV1238 XV139 XV340 XV541 XV1142 XV643 XV1044 XSG645 XV846 XV947 XV1348 XV1449 XV1550 VDRST51 GND

Z1 Z2

CP1

LENS

BAT

TER

Y

SPEAKER

LCD

MIC

TB2

CA1

CA2

EV

F

FLASH REFLECTOR

TB1 PW1

RD

WT

GY

BK

SOLE

SWSW

WT

RD

RD

WT

WT

BK

WT

BK

GY

PK

GY

PK

BK RE

D

(DMA)(TCA)(PWA)(STA)(SYA)

W1-11300/SG1A6-JFF

PWA

DMA

DMA

DMA

DMA

DMADMADMADMATCA TCA

STA SYA SYA SYA SYA PWA

WID

ETE

LEPW

_ON

GN

D

SHU

TTER

1st

xD/xE AV & USB

CN

904

10V5

A

4V1

0

11V4

5V9

12V3

B

6V8

13V3

A

7V7

14V2

8V6

15V1

9V5

B

16VL

17VL

1G

ND

2Vs

t13

Vst2

18SU

B19

GN

D

CN

905

10G

ND

4LV

11SU

BCN

T

5G

ND

12C

SUB

6H2

13RG

7H1

14G

ND

8G

ND

15VD

D

9HL

16VD

D17

GN

D

1G

ND

2VH

LD1

3VH

LD2

18VO

UT

19G

ND


3-11


3-8. Circuit Diagrams3-8-1. CA1 BLOCK

0.1;B

C9013

AD9971BC

PZRL

QAD

9971BC

PZ-J

IC905

1 LVDD

2 LVSS

3 DOUT1P

4 DOUT1N

5 TCLKP

6 TCLKN

7 DOUT0P

8 DOUT0N

9 LVSS

10 LVDD

11H1

12H2

13HV

SS

14HV

DD

15H3

16H4

17RG

VSS

18HL

19RG

VDD

20RG

21LDOIN

22LDOOUT

23CLI

24AVSS

25CCDINP

26CCDINM

27AVSS28AVDD

29REFT

30REFB

31

LDOEN

32SL

33SD

I

34SC

K

35GP

O1

36GP

O2

37VD

38HD

39DV

SS

40

DVDD

Z1

FBMH1608HM102

1608

L9031

0.1;BC9010

1;B

1608

C9077

1M;1/16J

R9036

12;1/16J

R9032

0.1;B

C9052

0.1;B

CB9

05

12

34

0.1;B

CB9

04

12

34

0.1;B

CB901

12

34

0.1;B

1608C9027

1000P;B

C9021

0.1;B

C9024

REG3.0V

NJM2877F3-03QNJM2877F303P

IC904

123 4

5

1000P;B

C9014

UP0421500Q9001

123 4

56

MA2

S111

D9003

1;B

C9301

0.1;B

C9302

0.01;B1608

C9035

0.15;B

1608

C9036

1;B

C9006

0.1;B

CB9

06

12

34

MA2

J72700L

D9001

0.1;B

16

C9080

0.1;B

16C9081

2.4K

;1/16J

R9044

10;B

2125

C9002

10

100K

;1/16J

R9043

7P;CH

C9029

50

7P;CH

C9028

50

2.7;1/16J

R9022

2.7;1/16J

R9019

VL2

V13

XV5

XV4

XSG4

XV12

XSG12

XV11

XSG11

XV10

XSG10

XV9

XSG9

TEST

2

TEST

1

XV18

XSG2

XV3

XV16

XV15

XSG14

XV14

XSG13

XV13

XSG3

XV2

XSG1

XV1

XSUB

AVS1

AVD1

DVD1

NC VH2

V12

NC

V8

V4

VM1

XV7

XV8

AVS2

AVD2

DVD2

VH1

VL1

V7

V11

V6

V5

V10V18

XV6

V3 V17

V16V2V1

V15

V14

SUB

VM2

XV17

V9

CXD3445GAQCXD3445GA--P

IC901

C1L2

L3D1

E2E1

F2F1

G2G1

H10

H11

G10

G11

F11

F10

E11

E10 H1 L6 K6 K7 L8 K8 K9 L9 J11

J10 J1 J2 K1 K3

K4K5

B11

C11

L10

L5L7

L4D2

B3B4

B5B6

B7B8

B9

D10

C10

D11A9A8A7A5A3A2B1C2A10A4A6H2K11

Z1 Z2Z3Z4

390K;1/16JR9040

27K;1/16J

R9039

0.1;B

C9082

0.1;B

C9083

3.3;1/16J

R9046

511AV4J11VR510G

CN901

10XV6

4XV14

11XV11

5XV13

12XV5

6XV9

13XV3

7XV8

14XV1

8XSG6

15XV12

9XV10

16XV217XSG518XV719XSG220XSG7

1GND2VDRST3XV15

21XSG322XSG423XSUB24XSG125XV426SUBGT127SUBGT228GND29ADCK30GND31CCDCK32CCDSD33CCDEN34+13V(A)35GND36-7.5V(A)37+3.5V(A)38VDD339TGVD40TGHD41PAON342GND43AFESD1N44AFESD1P45GND46AFECKN47AFECKP48GND49AFESD2N50AFESD2P51GND

Z1Z2

191AV4J11ZH190G

CN902

10 GND

4 LV

11 SUBCNT

5 GND

12 CSUB

6 H2

13 RG

7 H1

14 GND

8 GND

15 VDD

9 HL

16 VDD17 GND

1 GND2 VHLD13 VHLD2

18 VOUT

Z1 Z2

19 GND

191AV4J11ZH190G

CN903

10 V5A

4 V10

11 V4

5 V9

12 V3B

6 V8

13 V3A

7 V7

14 V2

8 V6

15 V1

9 V5B

16 VL17 VL

1 GND2 Vst13 Vst2

18 SUB

Z1 Z2

19 GND

47;10-T

2125

C9015

2.2K

;1/16J

R9004

330;1/16JR9007

0.1;BCB902

12

34

UP05C8P00Q9002

1234

56

FBMH1608HM102L9001

AFESD2P

Vst2

V5A

V8

V2

VHLD

2AFESD1N

V4

V5BLV

AFESD2N

AFESD1P

V7

AFECKN

V9

AFECKP

VHLD

1

V10

V6

+3V

V1 V3A

V3B

Vst1

XSUB

XV1

XSG1

XSG2

XSG3

XV11

XV12

XV13

XV3

XV14

XV15

VDR

ST

XSG

5

XV4

XV2

XSG

4

XV10

XV9

XSG

7

XV7

XSG

6

XV5

XV8

XV6

VDRST

XV15

XV14

XV13

XV9

XV8

XSG6

XV10

XV6

XV11

XV5

XV3

XV1

XV12

XV2

XSG5

XV7

XSG2

XSG7

XSG3

XSG4

XSUB

XSG1

XV4

PAON3

AFESD1N

AFESD1P

AFECKN

AFECKP

AFESD2N

AFESD2P

LV

VHLD2

VHLD1

Vst1

Vst2

V10

V9

V8

V7

V6

V5B

V5A

V4

V3B

V3A

V2

V1

CCD_OUT

TO CA2CN905

TO CA2CN904

V. DRIVER

CD

S, A

GC

, A/D

CH

. DR

IVER

REG.

TO CP1 (DMA)CN101

CA1C1-11300/SG1A6-JFF

VOLTAGE: VIEW MODE, LCD ON

1.9

3.2

3.2

-0.7

-1.4 3.2

3.0

0.9

3.5

2.6

0.9

2.6

3.5

0.9

2.6

0.4

1.4

1.9

1.4

1.6

1.9

3.01.9

1.3

3.2

3.0

3.2

1.3

1.1

1.2

1.2

1.3

1.1

1.9


3-12


3-8-2. CA2 BLOCK

ICX646CQZ-S(LCC)QICX646CQZ-SN

IC931

12

VL

34

5678910

11

12

13 14 15 16 17

NC

18

VOUT

19

VDD

20 21

AGND 22VSS

23NC24CSUB25SUB_CONT26DGND27

28

29

30

NC

3132

VHLD

1

33

VHLD

2

34

NC

19CN905

10 GND

4 LV

11 SUBCNT

5 GND

12 CSUB

6 H2

13 RG

7 H1

14 GND

8 GND

15 VDD

9 HL

16 VDD17 GND

1 GND2 VHLD13 VHLD2

18 VOUT19 GND

19CN904

10V5A

4V10

11V4

5V9

12V3B

6V8

13V3A

7V7

14V2

8V6

15V1

9V5B

16VL17VL

1GND2Vst13Vst2

18SUB19GND

Vst1

Vst2

V10

V9

V8

V7

V6

V5B

V5A

V4

V3B

V3A

V2 V1

VHLD

2

VHLD

1

LV

VHLD1

VHLD2

LV

V1

V2

V3A

V3B

V4

V5A

V5B

V6

V7

V8

V9

V10

Vst2

Vst1

8M CCD

SUB

V1

V2

V 3A

V 3B

V 4

V 5A

V 5B

V 6

V 7

V 8

V 9

V 1

0

V s

t2

RG

LH1

H1

H2

LV

V s

t1

CA2C2-11300/SG1A6-JFF

TO CA1CN902

TO CA1CN903

VOLTAGE: VIEW MODE, LCD ON

0.9

2.6

2.6

3.0

10.6

-1.1

-1.1

-1.1

-1.1

-1.1

-1.1

-1.1

-1.1

8.6

12.99.7

-222

.2

-333

.9

-5.0

-5.0

-1.1

-5.0

-7.5

10.5

-6.1

-7.1

-3.9


3-13


3-8-3. CCD BLOCK

LENS

8M CCD

EF

+13V(A) -7.5V(A)

ICX646CQZ

VDD VL

H2

RG

LH1

VOUT

O_LPF

IC931

Q9002

SW

28 29 20

SUB_

CO

NT

25

1

43.0V

5

IC905

CDS, AGC, A/D C

AFESD2PAFDSD2NAFECKPAFECKNAFESD1PAFESD1N

XSUBXV1XV2XV3XV4XV5XV6XV7XV8XV9XV10XV11XV12XV13XV14XV15XSG1XSG2XSG3XSG4XSG5XSG6XSG7

ADCKTGVDTGHD

PAON3SUBGT1SUBGT2

CCDCKCCDSDCCDEN

VDRST

Q9001

IC904NJM2877F3

PAON3

VDD

3

+3.5V(A) +13V(A) -7.5V(A)

AD9971BCPZRL

25CCDINP

20

12

16

15

11

19 2H

1

IC901CXD3445GA

3:16

, 31:

33

B1, B5, A2, A3, B4, B6, D10, B3, B9,D2, B8, B7, A8, A5, C10, A9, D11

L10, C11,J11, H1, G11, H11, L2, C1

RG

H2

H4

H3

H1

+3.5V(A)

REG.

H. DRIVER

V. DRIVER

1S

UB

SUBC2

V [1

, 2, 3

A, 3

B, 4

, 5A,

5B,

6:1

0]Vs

t [1,

2],

LV, V

HLD

[1:2

]

V [1, 2, 3A, 3B, 4, 5A, 5B, 6:10]Vst [1, 2], LV, VHLD [1:2]

E2, K1, F2, G2

A6, L5 A4, L7

XV [1:3]

K6, L8, K9XSG [5:7]

L6VDRST

D1XSUB

K3, K7, J2, K4, K8, K5, L9, J10, H10, F11, F10, E11, E10XV [4:15]

E1, F1, G1, J1XSG [1:4]

IC101EV1MSSAASIC

AFESD2P

AFDSD2N

AFECKP

AFECKN

AFESD1P

AFESD1N

CLIVDHD

DMACA1CA2

18

18

27 HL

3 W1

W2

U1

U2

V2

V1

P3

Y1

Y2

4

5

6

7

8

AA3

V3

AA5

AA4

M3

AB11

V4

AA7

AB7

AA6

AB6

V10

U10

AA10

AB10

AA9

U9

V9

AB9

23, 37, 38

AA8

AB8

U7

V7

U6

V6

V8

U8

AB5

AB4

V532 33 34

14,1

9

21,31

SL SDI

SCK

LDO

INLD

OEN

HVDD

RGVD

D


3-14


3-8-4. CP1 BLOCK (DMA)

AWG32/AWG30JW182

1 GND

AWG32/AWG30JW181

1 MIC

VDD1.8

0.1;

BC

1204

10;1/16JR1206

1000

P;B

C12

02

VDD3

1;B

C12

03

0.1;

BC

1205

0.1;

BC

1206

MRST

SDO

COMREQ

SREQ

ZAVJACK

ZSCARD

SDI

SCK

NAND_RESET

AWG32/AWG30JW183

1 SP-

AWG32/AWG30JW184

1 SP+

VDD3

DTC115EMQ1401

3.3K

RB1

44

12

34

56

78

EMD30Q1402

123 4

56VDD3

47K

RB1

42

12

34

56

78

47K

RB1

411

2

34

56

78

VDD

310

K;1/

16J

R10

61

CL179

CL188

CL185

CL175

10K;

1/16

J

R10

43

1K;1

/16J

R10

42

CL174

CL183

0.1;BC1019

CL177

CL189

VDD1.2

CL190

CL176

VDD3

CL184

CL182

VDD1.2

CL186

VDD3

0.1;BC1020

1M;1

/16J

R11

22

2.2;

1/16

JR

1046

CL187

3.3K;1/16D

R1036

VDD3

VDD3

VDD1.8

LCDCA

LCDAN

LCDCA

LCDAN

FLCTL

CARDSW

VDD3

0.1;BC1501

0.1;BC1026

0.1;BC1027

VDD

1.8

0.1;BC1028

0.1;BC1024

0.1;BC1023

0.1;BC1022

22;1/16JR1013

0.1;B

C1006

1;B

C1051

VDD3

10K

RB1

19

12

34

100;

1/16

JR

1025

100;

1/16

JR

1026

100;

1/16

JR

1027

3.9K;1/16D

R1053

1.6K;1/16DR1051

1K;1/16DR1052

75;1

/16D

R15

02

0;1/16ZR1805

0.1;BC1804

36K;

1/16

DR

1803

0.1;

BC

B182

12

34

2.2K;1/16JR1801

0;1/16ZR1804

TK70630HCL-G

QTK70630HC-GGIC182

1VCOUNT2GND3NP4 VOUT

5 GND

6 VIN VDD3

0.22;BC1802

0.01;BC1805

VDD3

1;BC1808

1;B

C18

07

1;B

C18

01

27K;1/16DR1802

0.1;BCB181

1 2

3 4

330P;BC1014

TK70626HCL-GQTK70626HC-GG

IC106

1 VCOUNT

2 GND

3 NP 4VOUT5GND6VIN

1;B

CB1

02

12

34

0.1;BC1052

100KRB125

12

34

R1033100;1/16D

4.7;

B

1608

C14

02

4.7;B 1608

H=1.0C1021 4.7;B 1608H=1.0

C1018

4.7;

B

1608C10

53

4.7;B

1608

C1503

4.7;B

1608C1001

4.7;

B6.

3

1608

C18

06

4.7;B 1608H=1.0

C1025

47K

RB1

43

34

47K

RB1

43

12

47K

RB1

43

78

NJM2561F1AQNJM2561F1A-P

IC151

1 PS

2 OUT

3 SAG 4IN5GND6VCC

R10

2210

K;1/

16J

R10

2110

K;1/

16J

K5R5658LCM-DR75QK5R5658LCM-N

IC121

A1

DNU

A2

DNU

A3

DNU

A10

DNU

A11

DNU

A12

DNU

B1

NC

B2

NC

B3

NC

B4

NC

B5

NC

B6

NC

B7

VSSo

B8

NC

B9

A9

B10

A13

B11

NC

B12

NC

C1

VSSd

C2

NC

C3

A1

C4

A3

C5

A6

C6

NC

C7

VCCo

C8

NC

C9

A8

C10

A12

C11

NC

C12

NC

D1

VDD

D2

A9

D3

A5

D4

A2

D5

A5

D6

NC

D7

NC

D8

NC

D9

A10

D10

A14

D11

NC

D12

DQ15

E1

A4

E2

A8

E3

A7

E4

A11

E5

A4

E6A7

E7

E8A15

E9NC

E10NC

E11DQ14

E12DQ13

F1NC

F2CKE

F3A6

F4DQ29

F5A0

F6NC

F7A11

F8NC

F9NC

F10DQ12

F11NC

F12DQM1

G1DQ30

G2DQ31

G3DQ28

G4DQ27

G9DQ11

G10DQ10

G11VSSQ

G12VDDQ

H1VSSQ

H2VDDQ

H3DQ26

H4DQ25

H9DQ9

H10DQ8

H11VDDQ

H12VSSQ

J1VDDQ

J2VSSQ

J3DQ24

J4DQM3

J9WEd

J10CAS

J11RAS

J12CS

K1VSSd

K2VDD

K3NC

K4NC

K9

VSSd

K10

CLK

K11

NC

K12

NC

L1

VSSQ

L2

VDDQ

L3

BA0

L4

BA1

L9

DQ6

L10

DQ7

L11

VDDQ

L12

VSSQ

M1

VDDQ

M2

VSSQ

M3

DQM2

M4

NC

M9

DQ4

M10

DQ5

M11

VSSQ

M12

VDDQ

N1

DQ18

N2

DQ19

N3

DQ23

N4

DQ22

N9N10

DQ3

N11

NC

N12

DQM0

P1

DQ16

P2

DQ17

P3

DQ20

P4

DQ21

P5

A10

P6P7

IO2

P8

IO3

P9

IO11

P10

INTo

P11

DQ1

P12

DQ2

R1

NC

R2

A3

R3

A1

R4

A0

R5

RDYo

R6

IO9

R7

IO10

R8 IO4

R9 IO5

R10 IO13

R11 DQ0

R12 NC

T1 NC

T2 A2

T3 CLKo

T4

T5 IO1

T6 VCCQo

T7 VCCQo

T8 IO12

T9 VCCQo

T10 IO6

T11 IO14

T12 VDD

U1 VDD

U2

U3 NC

U4 NC

U5 IO8

U6 NC

U7 NC

U8 NC

U9 VCCQo

U10 IO7

U11 IO15

U12 VSSd

V1 VSSo

V2 VCCo

V3 NC

V4 IO0

V5 NC

V6 NC

V7 NC

V8 NC

V9 NC

V10 NC

V11 VCCo

V12 VSSo

W1 DNU

W2 DNU

W3 DNU

W10 DNU

W11 DNU

W12 DNU

LCDCA

2.2;B10 1608

C17122.2;B101608

C1706

VDD3

1;B 10C1709

2.2;B10 1608

C1714

100K;1/16JR1704

LCDAN

2.2;1/16JR1703

0.1;

BC

1755

10K;1/16JR1755

0.47;BCB176

1 2

KCD-A210-BA-TPQKCD-A210-BAJ

IC175

C3 SCLK_3W

C2 SDAT_3W

B1 LD_3W

D2 SI_SEL

C1 SDA

D3 SCL

D1 ResetB

E2 DIN0

E1 DIN1

F2 DIN2

F1 DIN3

G1 DIN4

E3DI

N5

F3DI

N6

G2DI

N7

F4DV

ALID

G3HS

_IN

E4VS

_IN

G4CL

K_IN

F5VD

D

G5VS

S

F6VD

D_IO

G6QP

2_FB

REF

G7QP

2_IS

INK

E5QP2_PRE

E6QP2_CLK

F7VDDA_QP

D6VSSA_QP

E7QP1_REF0

D5QP1_CLKB

D7QP1_CLKA

C6QP1_FB5

C7VRT

B6VRB

B7VDDA_DAC

A7VSSA_DAC

C5

ROUT

B5GO

UT

A6BO

UT

B4VD

D_DI

S

A5DI

S_CK

0

C4DI

S_CK

1

A4DI

S_HS

B3DI

S_VS

A3DI

S_IN

V

B2DI

S_DW

N

A2DI

S_RG

T

A1TC

LK

D4NC

RB5

21S-

30D

1751

0.47;BCB176

3 4

Documents

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