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DIGITAL CAMERA
FinePix S8000fdSERVICE MANUAL
US/EU/EG/EE/CH/JP-model
Ref.No.: ZM00700-101Printed 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)
Confidential: FUJIFILM Service Center Use Only
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Confidential: FUJIFILM Service Center Use Only
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
specified.
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-OUT
After 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
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Confidential: FUJIFILM Service Center Use Only
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 fluorescent 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 fluorescent tubes is also excluded.
*2: Definition 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 solder
When 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 difficult 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
difficult.
First apply solder to the area immediately around the
through hold and then feed the solder into the hole.
5 During repairs (or modifications) removing solder
from inside through holes is difficult.
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.
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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 correctbonding 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 flux 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 iron
A soldering iron with a temperature control is best.
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Solder wire (thread)
Use the lead-free solders specified below.
Solder type: Sn96.5Ag3Cu0.5 (Displayed symbol: SnAgCu)
Wire diameter: 0.6, 0.8 or 1.0 mm
Sample:
Flux
Conventional flux can be used.
Solder application wires (mesh, wicking wire, etc.)
Conventional application wires can be used.
lead-free
Wire diameter0.8mm
Solder type (Displayed symbol)
SnAgCu
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MEMO
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CONTENTSConfidential: FUJIFILM Service Center Use Only
CONTENTS
1. General ....................................................... 1-1
1-1. Product specification ............................................1-11-2. Explanation of Terms ...........................................1-4
1-3. Names of External Components ..........................1-5
2. Disassembly ............................................... 2-12-1. Names of internal Components ...........................2-1
2-2. Removing the REAR CONST ..............................2-2
2-3. Disassembling the REAR CONST .......................2-4
2-4. Assembling the new type of MODE DIAL ............2-6
2-5. Removing the LCD ..............................................2-7
2-6. Removing the COMPL PWB CP-1 ......................2-8
2-7. Removing the LENS ASSY ................................2-10
2-8. Disassembling the FRONT CABINET ............... 2-11
2-9. Disassembling the FLASH ASSY ......................2-13
2-10. Disassembling the EVF .....................................2-15
2-11. Attachment locations for
SPACERS and SHEETS ...................................2-16
2-11-1. Attaching the CP1 ST SHEET to
the COMPL PWB CP-1 ........................2-16
2-11-2. Attaching the CONDENSER SHEET
to the COMPL PWB ST-1 .....................2-16
2-11-3. Attaching the MODE DIAL SHEET to
the MODE FPC HOLDER ....................2-17
2-11-4. Attaching the LCD SIDE SPACER,MONITOR SHIELD SHEET,
MONITOR SHEET A and
MONITOR SHEET B to
the MONITOR HOLDER ......................2-17
2-11-5. Attaching the ZOOM UNIT SHEET to
the ZOOM UNIT ...................................2-18
2-11-6. Attaching the PW1 SHEET to
the COMPL PWB PW-1 .......................2-18
3. Schematics ................................................. 3-1
3-1. Description of CCD circuit operation ....................3-13-1-1. Overview ................................................3-1
3-1-2. IC931 (CCD imager) ..............................3-1
3-1-3. IC912 (V driver) ......................................3-2
3-1-4. IC905 (H driver, CDS, AGC and
A/D converter) ........................................3-2
3-2. Description of CP1 circuit operation ....................3-3
3-2-1. Circuit Description ..................................3-3
3-2-2. Outline of Operation ...............................3-3
3-2-3. LCD Block ..............................................3-3
3-2-4. EVF Block ..............................................3-3
3-2-5. Lens Drive Block ....................................3-4
3-3. Description of PWA Power Circuit Operation .......3-5
3-3-1. Overview ................................................3-5
3-4. Description of ST1 flash circuit operation ............3-6
3-4-1. Charging circuit ......................................3-6
3-4-2. Flash Circuit ..........................................3-6
3-5. Description of SYA circuit operation .....................3-7
3-5-1. Configuration and Functions ..................3-7
3-5-2. Internal Communications Paths .............3-8
3-5-3. Key Operations ......................................3-8
3-5-4. Power Supply Control ............................3-9
3-6. Block Diagram ...................................................3-11
3-7. Overall connection Diagram ..............................3-123-8. Circuit Diagrams ................................................3-13
3-8-1. CA1 BLOCK .........................................3-13
3-8-2. CA2 BLOCK .........................................3-14
3-8-3. CCD BLOCK ........................................3-15
3-8-4. CP1_CAA BLOCK ................................3-16
3-8-5. CP1_DMA BLOCK ...............................3-17
3-8-6. CP1_PWA BLOCK ...............................3-18
3-8-7. CP1_SYA BLOCK ................................3-19
3-8-8. CP1 TCA BLOCK .................................3-20
3-8-9. FLASH BLOCK ....................................3-21
3-8-10. MAIN BLOCK .......................................3-22
3-8-11. POWER BLOCK ..................................3-23
3-8-12. STA BLOCK .........................................3-24
3-8-13. SYSTEM BLOCK .................................3-25
3-8-14. LENS BLOCK .......................................3-27
3-8-15. PW1 BLOCK ........................................3-28
3-8-16. ST1 BLOCK .........................................3-29
3-8-17. TB1 BLOCK .........................................3-30
3-8-18. TB2 BLOCK .........................................3-30
3-9. Mounted Parts Diagrams ...................................3-31
3-9-1. CA1 PWB ASSY ...................................3-31
3-9-2. CA2 PWB BLOCK ................................3-32
3-9-3. PW1 PWB BLOCK ...............................3-333-9-4. ST1 PWB BLOCK ................................3-33
3-9-5. TB1 PWB BLOCK ................................3-34
3-9-6. TB2 PWB BLOCK ................................3-34
3-9-7. CP1 PWB ASSY ...................................3-35
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CONTENTSConfidential: FUJIFILM Service Center Use Only
4. Adjustments ............................................... 4-1
4-1. Important point before adjustment .......................4-14-1-1. The handling of image files in
internal memory .....................................4-1
4-1-2. Adjustment when
Replacing Major Parts ............................4-2
4-2. Measuring instruments used ................................4-2
4-3. Use jig ..................................................................4-2
4-4. Calibration method of pattern box ........................4-3
4-5. Adjustment software installation ..........................4-3
4-5-1. Various downloading
software decompressions,
preservation methods, and notes ...........4-3
4-6. QR Code Reader (ZJ01134-100) Setup ..............4-4
4-7. Connecting to the PC for Adjustment ...................4-5
4-8. Explanation of the Adjustment Software ..............4-6
4-9. LENS DATA Read ................................................4-8
4-10. LENS DATA Input ..............................................4-12
4-11. GYRO OFFSET Adjustment ..............................4-15
4-12. MAIN PWB ASSY initialization ...........................4-18
4-13. LENS Adjustment (1.5 m) ..................................4-23
4-14. LENS Adjustment (INF) .....................................4-27
4-15. AWB Adjustment ................................................4-30
4-16. CCD Defect Detection .......................................4-33
4-17. CCD BLACK Defect Detection ...........................4-354-18. Firmware Upgrade .............................................4-38
4-19. End Setting ........................................................4-41
5. Inspection ................................................... 5-15-1. Required Measuring Equipment ..........................5-1
5-2. Connection of Measuring Equipment ...................5-1
5-3. Inspection and Factory Settings ..........................5-2
CONTENTS
6. Parts List .................................................... 6-1
6-1. Packing and Accessories .....................................6-16-1-1. US-model ...............................................6-1
6-1-2. EU-model ...............................................6-2
6-1-3. EG-model ...............................................6-3
6-1-4. EE-model ...............................................6-4
6-1-5. CH-model ...............................................6-5
6-1-6. JP-model ................................................6-6
6-2. Mechanical Block 1 ..............................................6-7
6-2-1. US/EU/EG/EE-model .............................6-7
6-2-2. CH-model ...............................................6-8
6-2-3. JP-model ................................................6-9
6-3. Mechanical Block 2 ............................................6-10
6-3-1. US/JP-model ........................................6-10
6-3-2. EU/EG/EE-model ................................. 6-11
6-3-3. CH-model .............................................6-12
6-4. Mechanical Block 3 ............................................6-13
6-4-1. US/EU/EG/EE/CH/JP-model ................6-13
6-5. Electrical parts ...................................................6-15
7. Appendix .................................................... 7-17-1. List of Related Technical Updates Issued ............7-1
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1. GeneralConfidential: FUJIFILM Service Center Use Only
1. General
1-1. Product specificationSystem
Model Digital camera FinePix S8000fd
Effective pixels 800 million pixelsCCD 1/2.35-inch CCD
Storage media Internal memory (approx. 58 MB)/xD-Picture Card (16/32/64/128/256/512 MB/1 GB/2 GB)/
SD/SDHC 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 pixels Still image: 3264 2448 pixels/3264 2176 pixels/2304 1728 pixels/
1600 1200 pixels/640 480 pixels ( / / / / )
Lens Fujinon 18 optical zoom lens
F2.8-F4.5
Focal length f=4.86 mm-84.24 mm (Equivalent to approx. 27 mm-486 mm on a 35 mm camera)
Digital zoom Approx. 5.1 (18 optical zoom lens is used together: Max. zoom scale: approx. 91.8)
Aperture F2.8 to F8.0 in 1/3 EV increments Manual/Auto selectable
Focal range Normal: Wide-angle: approx. 70 cm (2.3 ft.) to infinity
(In High-speed shooting mode: approx. 1 m (3.3 ft.) to infinity)
Telephoto: approx. 1.5 m (4.9 ft.) to infinity
(In High-speed shooting mode: approx. 1.5 m (4.9 ft.) to infinity)
Macro: Wide-angle: 10 cm to 80 cm (3.9 in. to 2.6 ft.)
Telephoto: 1.2 m to 3.5 m (3.9 ft. to 11.5 ft.)
Super macro: Approx. 1 cm to 10 cm (0.4 in. to 3.9 in.)
Focal length: fixed to approx. 60 mm (35 mm camera equivalent)Sensitivity AUTO/AUTO(400)/AUTO(800)/AUTO(1600)/Equivalent to ISO 64/100/200/400/800/1600/
3200 (max.number of recorded pixels: )/6400 (max.number of recorded pixels: )
(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 prior ity AE/Manual exposure
Scene position (NATURAL LIGHT), (NATURAL & ), (PORTRAIT), (LANDSCAPE),
(SPORT), (NIGHT), (FIREWORKS), (SUNSET), (SNOW), (BEACH),
(MUSEUM), (PARTY), (FLOWER), (TEXT), (AUCTION MODE)
Picture Stabilization Available
Intelligent Face Detection Available
Exposure compensation -2 EV to +2 EV in 1/3 EV-step increments (P, A, S, )
Shutter speed , , , , , , , , , , , , , : 1/4 sec. to 1/2000 sec*.
: 4 sec. to 1/1000 sec.*
: 4 sec. to 1/2 sec.*
: 1/45 sec. to 1/2000 sec.* (flash only).
P, A: 1/45 sec. to 1/2000 sec.* (4 sec. to 1/2000 sec.* when suppressed flash is set)
S, M: 4 sec. to 1/2000 sec.* *depend on Exposure mode
Continuous shooting Continuous shooting (TOP 3):
Number of recorded frames: up to 3 frames (Max. 1.5 frames/sec.)
Long period continuous shooting (LONG PERIOD):
Number of recorded frames: Depend on memory size. 1.9 sec. interval at N
depending on quality level. (Max. 0.5 frames/sec.)
High speed continuous shooting (TOP 15 ):
Number of recorded frames: up to 15 frames (Max. 7 frames/sec.)
Ultra high speed continuous shooting (TOP 15 ):
Number of recorded frames: up to 15 frames (Max. 15 frames/sec.)
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System
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)
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 Auto flash
Effective range: ( : AUTO): approx. 50 cm-8.0 m (1.6 ft.-26.2 ft.)
(Macro): approx. 30 cm-3.0 m (1.0 ft.-9.8 ft.)
Flash mode Red-eye removal set to OFF:Auto, Forced Flash, Suppressed Flash, Slow Synchro
Red-eye removal set to ON: Red-eye Reduction Auto, Red-eye Reduction & Forced Flash,
Suppressed Flash,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% coverageMovie 640 480 pixels/320 240 pixels ( / )
(30 frames per second with monaural sound)
Photography functions Intelligent face detection, Red eye removal, High-speed shooting, Best framing, Post shot
assist window, Frame No. memory, Histograms
Playback functions Intelligent face detection, Micro thumbnails playback, 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
Standard number of available frames/recording time per xD-Picture Card, SD Memory Card and internal memory
The number of available frames and recording time is approximate. Actual number of frames and recording time variesdepending on the types of Memory Card or shooting condition. Also, the number of frames and recording time displayed inthe LCD monitor may not decrease regularly.
Quality setting F N(30 fps) (30 fps)
Number of recordedpixels
3264 2448 3264 2176 2304 1728 1600 1200 640 480 640 480 320 240
Image data size 3.9 MB 2.0 MB 1.8 MB 980 KB 130 KB
Internal memory(approx. 58 MB)
14 29 32 57 91 448 62 sec. 17 min.
xD-PictureCard
16 MB 4 8 9 16 25 124 17 sec. 27 sec.
32 MB 8 16 18 32 51 249 34 sec. 55 sec.
64 MB 16 32 36 64 102 499 1.2 min. 1.8 min.
128 MB 32 64 72 128 204 999 2.3 min. 3.7 min.
256 MB 65 130 145 257 410 1999 4.7 min. 7.4 min.
512 MB 130 259 290 515 819 3995 9.3 min. 14.8 min.
1 GB 261 520 581 1031 1640 7996 18.7 min. 29.6 min.
2 GB 520 1031 2063 3199 15995 36.8 min. 59.2 min.
SD
Memory
Card
512 MB 126 251 281 499 793 3868 9.0 min. 14.3 min.
1 GB 252 503 563 999 1589 7746 18.1 min. 28.7 min.
2 GB 504 1000 2000 3100 15504 35.6 min. 57.4 min.
SDHC
Memory
Card
4 GB 996 1977 2229 3955 6131 30655 70.5 min.*
8 GB 1995 3959 4463 7919 12275 61375 141.1 min.*
*A movie recording will stop automatically when a movie file becomes approx. 2GB. If you want to continue recording anothermovie, press the shutter button again. The available recording time is displayed based on approx. 2GB.
113.5 min.*
227.3 min.*
1127
630 KB
1163
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Alkaline batteries
Ni-MH batteries 2500 mAh
Battery Type With LCD monitor ON With viewfinder (EVF) ON
Approx. 350 frames
Approx. 500 frames
Approx. 350 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 +23C (+73F), 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 111.3 mm 78.2 mm 79.3 mm/4.4 in. 3.1 in. 3.1 in.
(W/H/D) (not including accessories and attachments)Camera mass (weight) Approx. 410 g/14.5 oz. (not including accessories, batteries and Memory Card)
Weight for photography Approx. 505 g/17.8 oz. (including batteries and Memory Card)
Operating Conditions Temperature: 0C to +40C (+32F to +104F)
80% humidity or less (no condensation)
Accessories included AA-size Alkaline Batteries (LR6) (4)
Shoulder strap (1)
Lens cap (1 set)
A/V cable (1)
USB cable (1)
CD-ROM (1) Software for FinePix
Owners Manual (1)
Notes and Cautions (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
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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 levelof 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
maintains 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-second 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
performance 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 uncompressedformat. 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.
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1-3. Names of External Components
Shutter button
Mode dial
Zoom lever
POWER switch
Strap mount
Intelligent Face
Detection/Red-eye removal
button
Dual IS buttonStrap mount
Diopter adjustment dial
Flash
USB socket/A/V OUT(Audio/Visual output) socket
Speaker
Microphone
Terminal cover
DC IN 5V (power input)socket
AF-assist illuminator/Self-timer lamp Flash pop-up button
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Memory Card slot
Slot cover
Viewfinder (EVF) EVF/LCD (monitor selector) button
(Photo mode) button
(4-direction) buttonLCD monitor
Tripod mount
MENU/OK button
Cover lock release catch
Battery cover
Indicator lamp
DISP (Display)/
BACK button
Exposure
compensation button
(Playback) button
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2. DisassemblyConfidential: FUJIFILM Service Center Use Only
2. Disassembly
2-1. Names of internal Components
ZOOM UNIT
FRONT CABINET
HOLDER CHASSIS BSIDE CABI
SPEAKER
LENS ASSY
EVF UNIT
MONITOR HOLDER
COMPL PWB CP-1
LCD
BATTERY COVER
MICROPHONE
BACK CABINET
FLASH ASSY
COMPL PWB PW1
BATTERY HOLDER
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2. DisassemblyConfidential: FUJIFILM Service Center Use Only
1
5
2
3
4
HOOK A
6
A
A
2-2. Removing the REAR CONST
(1) Remove the screw (1.7 x 6.0).
(2) Open the BATTERY COVER and remove the screw
(1.7 x 6.0).
(3) Remove the screw (1.7 x 4.0).
(4) Remove the screw (1.7 x 4.0).
(5) Remove the screw (1.7 x 6.0).
(6) Push the MODE DIAL in the direction of arrow A.
At the same time, open the bottom of the BACK
CABINET in the direction of arrow A' and disengage
HOOK A.
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9
10
8
7
A
B
HOOK A
HOOK B
(7) Open the bottom of the BACK CABINET in the
direction of arrow A'. While pressing the BACK
CABINET in the direction of B, disengage HOOK B
(8) Lift off the REAR CONST in the direction of the
arrow.
(9) Unlock the connector and remove the MODE FPC.
(10) Remove the BATTERY COVER.
[Assembly]
Assemble by performing the disassembly procedure in
reverse.
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5
7
6
6
4
9
2
1
3
8
13
14
10
11 MODE DIAL KNOB
12 MODE DIAL HOLDER
CLICK SPRING
12 DIAL SPRING
12
2-3. Disassembling the REAR CONST
(1) Remove the 2 screws (1.7X3.0).
(2) Remove the BUTTON BASE in the direction of the
arrow.
(3) Remove the SELECT BUTTON in the direction ofthe arrow.
(4) Peel off the MODE DIAL SHEET.
(5) Remove the screw (1.7 x 4.0).
(6) Remove the 4 screws (1.7 x 3.5).
(7) Remove the DEC STRAP GRIP, STRAP HOLDER
and MODE DIAL EARTH.
(8) Remove the 2 screws (1.4 x 2).
(9) Remove the MODE FPC.
(10) Remove the screw (1.7X3.0).
(11) Remove the MODE DIAL KNOB.
(12) Remove the DIAL SPRING, CLICK SPRING and
MODE DIAL HOLDER.
(13) Remove the screw (1.7X3.0).
(14) Remove the DEC LED.
[Assembly]
Assemble by performing the disassembly procedure in
reverse.
[Note: Screw in (10)]
The new type of MODE DIAL: 1.7X3.0
The old type of MODE DIAL: 1.7X6.0
Revised: 18, Sep. 2008
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[Notes on Assembly]
(1) Use a cotton bud or similar implement to coat area A
with grease.
(2) Coat the inner periphery of B also.
(3) Coat section C with grease.
* Check that the grease is spread evenly over the
surface.
ALPHA STICK : ZS00141-100
FLOIL G-347S : ZS00140-100
Guide to coating layer thickness (actual size)
Guide to coating layer thickness (actual size)
A
B
C
Revised: 18, Sep. 2008
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2. DisassemblyConfidential: FUJIFILM Service Center Use Only
2-4. Assembling the new type of MODE DIAL
(1) Fit the DIAL HOLDER into the MODE DIAL KNOB.
(2) While holding the DIAL HOLDER in place, attach the
MODE DIAL KNOB.
(3) Fit the CLICK SPRING.
(4) Fit the DIAL SPRING.
(5) Fit the screw (SPECIAL SCREW 1.7 x 6.0).
(6) Fit the KNOB DIAL SPACER.
Revised: 18, Sep. 2008
2 MODE DIAL KNOB and
DIAL HOLDER
CLICK SPRING
4 DIAL SPRING
3
5 SPECIAL SCREW 1.7X6.0
1
6 DIAL KNOB SPACER
Convex (large)
Convex (small)
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1
2
(7) Attach the ADHESIVE MODE LABEL.
(8) Attach the MODE LABEL so that the concave (AUTO)
is aligned with the convex on the MODE DIAL KNOB.
2-5. Removing the LCD
(1) Shift the LCD in the direction of the arrow.
(2) Unlock the connector and remove the LCD FPC.
[Assembly]
Assemble by performing the disassembly procedure in
reverse.
7 ADHESIVE MODE LABEL
AUTO
8 MODE LABEL
Revised: 18, Sep. 2008
Concave
Convex
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4
3
2
1
5
6
2-6. Removing the COMPL PWB CP-1
(1) Remove the MONITOR SHIELD PLATE.
(2) Remove the 3 screws (1.7 x 4.0).
(3) Remove the screw (1.7 x 4.0).
(4) Remove the MONITOR HOLDER.
(5) Pull back the CONDENSER COVER far enough to
reveal the capacitor terminals.
* If you use tweezers for this, take care not to touch
the main capacitor terminals.(6) Discharge the main capacitor.
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12
7
10
8
11
10
9
13
9
9
14
15
A
16
(7) Remove the screw (1.7 x 4).
(8) Peel off the CP1 ST SHEET.
(9) Remove the solder in 12 locations.
(10) Unlock the connector and remove the FPC.
(11) Open the CARD COVER.
(12) Remove the JACK COVER.
(13) Remove the COMPL PWB CP-1 in the direction of
the arrow, taking care with the USB connector.
(14) Unlock the connector and remove the FPC.
(15) Unlock the connector and remove the FPC.
* Take care as there is an adhesive spacer affixed to
the back of the FPC at A.
(16) Remove the FPC in the direction of the arrow.
[Notes on Assembly]
The COMPL PWB CP-1 should be attached with the
CARD COVER open.
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1
2
5
7
8
4
9
10
3
6
11
12
2-7. Removing the LENS ASSY
(1) Remove the screw (1.7 x 3.5).
(2) Remove the screw (1.7 x 4).
(3) Remove the HOLDER CHASSIS in the direction of
the arrow.
(4) Remove the 2 screws (1.7 x 6.0).
(5) Remove the screw (1.7 x 4.0).
(6) Remove the SIDE CABI.
(7) Remove the screw (1.7 x 4.0).
(8) Remove the STAND.
(9) Remove the 2 screws (1.7 x 4.0).
(10) Remove the EVF UNIT.
(11) Remove the 3 screws (1.7 x 5.5).
(12) Remove the LENS ASSY in the direction of the
arrow.
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2. DisassemblyConfidential: FUJIFILM Service Center Use Only
2
1
7
4
3
6
3
5
2-8. Disassembling the FRONT CABINET
(1) Remove the 3 screws (1.7 x 3.0).
(2) Remove the BATTERY HOLDER unit, COMPL PWB
and TB-1.
(3) Remove the 4 screws (1.4 x 3).
(4) Remove the ZOOM UNIT.
(5) Remove the 2 screws (1.7X4.0).
(6) Pop up the FLASH and remove the 2 screws (1.7 x
4.0).
(7) While holding down the ST BUTTON, remove the
HOLDER CHASSIS B in the direction of the arrow.
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13
11
9
128
10(8) Remove the 4 screws (1.7 x 5.0).
(9) Remove the FRONT RING LENS.
(10) Remove the 5 screws (1.7 x 6.0).
(11) Remove the MIDDLE LENS RING.
(12) Remove the 2 screws (1.7 x 3.5).
(13) Remove the BATT SUB HOLDER.
[Assembly]
Assemble by performing the disassembly procedure in
reverse.
Run the MICROPHONE wire harness in the layout
shown in the figure.
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2. DisassemblyConfidential: FUJIFILM Service Center Use Only
4
3
2
1
8
7
6
5
2-9. Disassembling the FLASH ASSY
(1) Remove the ST SHAFT in the direction of the arrow.
(2) Remove the SPRING POP LOCK L.
(3) Remove the SPRING POP LOCK R.
(4) Remove the FLASH unit in the direction of the arrow.
(5) Remove the 2 screws (1.7 x 6.0).
(6) Remove the ST TOP COVER in the direction of the
arrow.
(7) Pull out the SI TUBE.
(8) Remove the LAMP ASSY, STEP UP TRANS and
FLASH HOLDER.
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2. DisassemblyConfidential: FUJIFILM Service Center Use Only
[Assembly]
Assemble by performing the disassembly procedure in
reverse.
Run the wire harness in the layout shown in the figure.
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7
8
4
6
5
32
1
3
2
6
4
5
7
8
A
9
1
INDICATOR
2-10. Disassembling the EVF
(1) Remove the EVF KNOB SPACER.
(2) Remove the screw (1.7 x 3.0).
(3) Remove the EVF DIAL KNOB.
(4) Remove the screw (1.4 x 3.0).
(5) Remove the screw (1.7 x 3.0).
(6) Remove the EVF HOLDER.
(7) Remove the screw.
(8) Remove the EVF GEAR.
[Assembling the EVF]
(1) Rotate section A as far as it will go in the direction of
the arrow.
(2) Attach the EVF GEAR as shown in the figure, taking
care with the arrow markings on the top of the EVFGEAR.
(3) Fasten the screw (1.7 x 3.5).
(4) Attach the EVF HOLDER.
(5) Fasten the screw (1.7 x 3.0).
(6) Fasten the screw (1.4 x 3.0).
(7) Attach the EVF DIAL KNOB as shown in the figure,
taking care with the indicators on the top of the EVF
DIAL KNOB.
(8) Fasten the screw (1.7 x 3.0).
(9) Attach the EVF KNOB SPACER.
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2. DisassemblyConfidential: FUJIFILM Service Center Use Only
1
2
2-11. Attachment locations for SPACERS and SHEETS2-11-1. Attaching the CP1 ST SHEET to the COMPL PWB CP-1
(1) Affix the CP1 ST SHEET as shown in the figure.
(2) Affix the ADHESIVE CP1 A as shown in the figure.
2-11-2. Attaching the CONDENSER SHEET to the COMPL PWB ST-1
Affix the CONDENSER SHEET as shown in the figure.
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1
2
3
4
2-11-3. Attaching the MODE DIAL SHEET to the MODE FPC HOLDER
Affix the MODE DIAL SHEET as shown in the figure.
2-11-4. Attaching the LCD SIDE SPACER, MONITOR SHIELD SHEET, MONITOR SHEET A andMONITOR SHEET B to the MONITOR HOLDER
(1) Affix the LCD SIDE SPACER as shown in the figure.
(2) Affix the MONITOR SHIELD SHEET as shown in the
figure.
(3) Affix MONITOR SHEET A as shown in the figure.
(4) Affix MONITOR SHEET B as shown in the figure.
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2. DisassemblyConfidential: FUJIFILM Service Center Use Only
2-11-5. Attaching the ZOOM UNIT SHEET to the ZOOM UNIT
Affix the ZOOM UNIT SHEET as shown in the figure.
2-11-6. Attaching the PW1 SHEET to the COMPL PWB PW-1
Affix the PW1 SHEET as shown in the figure.
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3. SchematicsConfidential: FUJIFILM Service Center Use Only
3. Schematics
3-1. Description of CCD circuit
operation3-1-1. Overview
The CCD peripheral circuit block is primarily made up of thefollowing ICs:
IC931 (MN39670PAJ-A) CCD imager
IC912 (AN20115A) V driver
IC905 (AD9971BCPZRL) CDS, AGC, A/D converter and H
driver vertical TG
3-1-2. IC931 (CCD imager)
[Construction]
1/2.35" square-pixel-type color frame read system
Solid-state image sensor
Effective pixels: 3360 (H) x 2472 (V) Total pixels: 3416 (H) x 2488 (V)
Optical black
Horizontal (H) direction: Front: 12 pixels; Rear: 44 pixels
Vertical (V) direction: Front: 6 pixels; Rear: 8 pixels
No. of dummy bits: 28 (H), 7 (V)
Terminal
No.
Terminal
symbolTerminal description Waveform Voltage
1, 4, 5 V5R, V5L, V6 Vertical shift register clock pulse -6 V, 0 V
2,3 V5A, V5B Vertical shift register clock pulse -6 V, 0 V, 12 V
6, 9, 10,
11, 14
V1S, V2, V3R,
V3L, V4
Vertical shift register clock pulse -6 V, 0 V
7, 8, 12,
13
V1A, V1B, V3A,
V3BVertical shift register clock pulse -6 V, 0 V, 12 V
18, 19 GND1, GND2 GND GND 0V
26 Vsub Board clock DC Approx. 8 V (differs for each CCD)
15, 17 VDD1, VDD2 Power supply DC 12 V
16 VO CCD output DC Approx. 10 V
25 SUB SW Board control0 V, 3.4 V
(During all-pixel read: 3.4 V)
22, 23, 27,
28
H1A, H2A,
H1B, H2B
Horizontal shift register clock
pulse0 V, 3.4, V
21 HLFinal horizontal shift register
clock pulse0 V, 3.4 V
20 RG Reset pulse 12.5 V, 16.0 V
24 PT Protection P well DC -6 V
----During sensor read
Pin 1
8
6
4412 H
V
Pin 15
8 7
B3V
123456
4V
R5V
L5V
A5V
B5V
6V
9
L3V
10
R3V
11
2V
A3V
12
B1V
13
A1V
14
S1V
21 22
A1H
282726252423
A2H
TP WS
BUS
busV
B1H
B2H
20
GR
192DNG
181DNG
LH
172DDV
16
OV
151DDV
edoidotohP
traptuptuO
retsigertfihslacitreV
Horizontal shift register
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3. SchematicsConfidential: FUJIFILM Service Center Use Only
3-2. Description of CP1 circuit
operation3-2-1. Circuit Description
Digital clamp
The black level for each line in the CCD output data is
prepared by calculating an average value for the opticallyblack 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 coefficient k and the
value for the current line multiplied by a coefficient (k-1).
Signal processor
Gamma () 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 circuit
AE and AWB are calculated by dividing the screen into 64
zones, while AF is calculated by dividing the screen into 6
zones.
SDRAM controller circuit
This circuit outputs the AS, CAS, RAS and address used for
SDRAM control. This circuit also refreshes the SDRAM.
Communication control
SIO: 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/SG
Generates the timing and 8-megapixel CCD control.
Digital encoder
Generates chroma signals from the color difference signals.
3-2-2. Outline of Operation
When 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 throughthe 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 orSD 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 Block
The 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.
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3-2-5. Lens Drive Block
Shutter drive
Based on the serial data signals (LENS_SCLK, LENS_SDI
and LENS_CSN) output from the ASIC (IC101), the shutter
motor drive signals (SOUT_1 and SOUT_2) are output from
the motor driver (IC951). These drive signals drive a moving-
magnet motor to open and close the shutter.
Aperture drive
Based on the serial data signals (LENS_SCLK, LENS_SDI
and LENS_CSN) output from the ASIC (IC101), the aperture
motor drive signals (IOUT_A+, IOUT_A-, IOUT_B+ and
IOUT_B-) are output from the motor driver (IC951). These
drive signals drive the stepping motor for the aperture and
operate the aperture mechanism.
Focus drive
Based on the serial data signals (LENS_SCLK, LENS_SDIand LENS_CSN) output from the ASIC (IC101), the focus
motor drive signals (FOUT_A+, FOUT_A-, FOUT_B+ and
FOUT_B-) are output from the motor driver (IC951). These
drive signals drive the stepping motor for the focus and
operate the focusing lenses. The focusing lens reference
position is detected using signals (FPIOUT) from a photo-
interrupter in the lens block that are detected by the ASIC.
Zoom drive
Based on the serial data signals (LENS_SCLK, LENS_SDI
and LENS_CSN) output from the ASIC (IC101), the zoom
motor drive signals (ZOUT_A+, ZOUT_A-, ZOUT_B+ and
ZOUT_B-) are output from the motor driver (IC951). These
drive signals drive the stepping motor for the zoom and
operate the zoom lenses. The zoom lens reference position
is detected using signals (FPIOUT) from a photo-interrupter
in the lens block that are detected by the ASIC.
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3. SchematicsConfidential: FUJIFILM Service Center Use Only
3-3. Description of PWA Power
Circuit Operation3-3-1. Overview
The power circuit is primarily made up of the following blocks:
Switching controller (IC501)
5.5 V power output (L5006 and Q5004) Digital 3.25 V power output (L5010)
Digital 1 V power output (L5011)
Analog power output (L5008 and Q5002)
LCD backlight power output (L5007)
EVF backlight power output (L5001 and Q5001)
Motor 5.26 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 (5.5 V), CH2 (digital 3.25 V), CH3
(digital 1 V), CH4 (analog), CH5 (EVF backlight) and CH7
(LCD backlight).
In response to feedback for the power output for the 5.5 V
system (CH1), VDD3 (CH2), VDD1.0 (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 specified current is
maintained.
Short-circuit protection circuit
If 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).
5.5 V power output
Outputs BOOST 5.5 V.
The BOOST 5.5V is fed back to the switching controller
(IC501 pin 27) to regulate the PWM.
Analog power output
+12 V (A) and -6 V (A) are output.
The +12 V (A) output is fed back to the switching controller
(IC501 pin 48) to regulate the PWM.
Digital 3.25 V power output
VDD3 is output.
VDD3 is fed back to the switching controller (IC501 pin 23) to
regulate the PWM.
Digital 1.0 V power output
VDD1.0 is output.
VDD1.0 is fed back to the switching controller (IC501 pin 22)
to regulate the PWM.
EVF backlight power output
A constant current (4.3 mA) flows 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 (25 mA) flows 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 5.26 V power output
VM5.26 V is output.
The VM5.26 V output is fed back to IC532 pin 3 to regulate
the PWM.
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3-4. Description of ST1 flash
circuit operation3-4-1. Charging circuit
The 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 mainelectrolytic capacitor with a direct current high voltage supply.
When the CHG signal is Lo (0 V), the charging circuit does
not operate.
Power switch
When the CHG signal is Hi, Q5407 switches on and charging
operation begins.
Power supply filter
C5401 acts as a power supply filter to smooth out any current
ripples caused by oscillating transformer switching.
Oscillator circuit
This 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 transformer
The oscillating transformer converts the low-voltage AC
power supply generated by the oscillation control circuit to a
high-voltage AC supply.
Rectifier circuit
This circuit rectifies 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 circuit
This 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 flash fires.
Flash control circuit
When the FLCLT signal input to the flash control circuit is Hi,
Q5409 is set to ON and flash firing commences. When theFLCLT signal is Lo, flash firing stops.
Trigger circuit
At the same time that Q5409 is set to ON by the FLCLT
signal and preparations for firing the flash are carried out, a
high-voltage pulse of several kilovolts is generated by the
trigger coil and applied to the flash unit.
Flash element
When a high-voltage pulse is applied to the flash unit by the
trigger circuit, current flows to the flash element and the flashfires.
* Take care to avoid electric shock.
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3-5. Description of SYA circuit operation3-5-1. Configuration and Functions
Refer to the block diagram for the overall configuration 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 Description
1 BAT OFF I Battery OFF detection signal
2 CARD ON O Power Supply for CARD Detection
3 VF. LED (G) O VF LED (green) ON/OFF control signal
4 TELE I TELE key detection
5 EXPOSURE I Exposure compensation key detection
6 RESET I Reset detection
7 XCOUT O Clock oscillation terminal (32.768kHz)
8 XCIN I Clock oscillation terminal (32.768kHz)
9 IC (FLMD0) - Power supply for program writing
10 XOUT - -
11 XIN - -
12 REGC - Regulator output stable-capacity connection
13 VSS - GND
14 VSS - GND
15 VDD - VDD
16 VDD - VDD
17 MAIN RESET I System reset
18 BACKUP CTL O Backup battery charging control
19 VF. LED (R) O VF side-LED (red) ON/OFF control signal
20 NOT USED - -
21 SHUTTER 2nd I Shutter 2nd detection
22 COMREQ I Command request input23 SHUTTER 1st I Shutter 1st detection
24 VR I VR key detection
25 PLAY I PLAY key detection
26 LCDBL O LCD backlight ON/OFF control signal
27 SCAN IN2 I Key matrix input
28 SCAN IN1 I Key matrix input
29 SCAN IN0 I Key matrix input
30 P ON O Digital ON/OFF control signal
31 NAND RESET O OneNAND reset signal
32 USB CONNECT I USB insertion detection
33 DC IN I DC JACK detection
34 SCAN OUT0 I/O Key matrix output
35 SCAN OUT1 I/O Key matrix output
36 SCAN OUT2 I/O Key matrix output
37 SCAN OUT3 I/O Key matrix output
38 SREQ I Serial communication request signal
39 PLLEN O PLLEN oscillation ON/OFF
40 LCD PWM O LCD backlight brightness current control
41 AV JACK I AV JACK presence detection
42 PRG SI/SCAN IN3 I UART6 data input for the flash/key matrix input
43 PRG SO/SCAN IN4 O/I UART6 data output for the flash/key matrix input
44 SCAN IN5 I Key matrix input
45 WIDE I WIDE key detection46 POP UP I Flash pop up detection
47 AVREF - Analog reference voltage input terminal
48 AVSS - GND
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Pin Signal Name I/O Description
49 BATTERY I Battery voltage detection (whether DC or battery)
50 VMONIT I Main capacitor charging voltage detection
51 TEMP I Camera temperature detection
52 NOT USED - -
53 STOP CHG I Detection of intervals where flash charging is prohibited
54 SCARD I Expansion memory card installation detection signal
55 CARD SW I CARD cover switch detection
56 XCARD I Expansion memory card installation detection signal
57 NOT USED - -
58 SCK O Serial clock output
59 SI I Serial data input
60 SO O Serial data output
61 CHG ON O Flash charging control circuit
62 FLMD0_SY O 8-bit microprocessor self-programming port
63 PW_ON I PW_ON key input
64 NOT USED - -
3-5-2. Internal Communications Paths
The 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.
8 bit
microprocessorASIC
COMREQ
SDO
PLLEN
SCK
SDI
MAIN RESET
3-5-3. Key Operations
Refer to the Owner's Manual for information on how to use the keys.
SCAN IN
SCAN OUT0 1 2 3 4 5
0 AUTO MOVIE M S P A
1Picture
StabilizationNatural Photo
High-sensitivity
Dual-shotSP1 SP2 -
2 EVF/LCD DISP/BACK FACE - F_MODE OK/MENU
3 UP LEFT DOWN RIGHT PW_TEST TEST
SREQ
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3-5-4. Power Supply Control
The 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 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 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 clockonly using the 320768 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 LCD BL (pin 26)
to High and turns on the backlight.
When the power is turned off, the microprocessor sets both PON , LCD BL and PAON Low and stops the power supply to thesystem. The microprocessor stops the main clock oscillation and switches to clock oscillation operation mode.
ASIC, memory CCD 8bit CPU LCD MONITOR
Power supply voltage 1.0 V, 1.8 V, 3.2 V 12.0 V, -6.0 V, 3.3 V 3.2 V 3.25 V
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
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MEMO
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3-6. Block Diagram
SW
FLASH
UNIT
BATTERY
BOX
*IC301(SYSTEM C.P.U.)
*IC302(BACKUP)
*Z3001
BACKUP BATTERY
*IC501(SWITCHING CONTROL)
*IC951(LENS DRIVER)
STROBE CHARGE
WIRE x 4
WIRE x 2
TB1
CP1
LCD
2.5inch
CN951
POWER
SHUTTER
*IC101(ASIC)
EV2MVR2
*IC121
(FLASH ROM)
NAND: 256Mbit
(SDRAM)
512Mbit
*xD CARD
*SD CARD
*IC181(AUDIO CODEC)(VIDEO AMP)
*LCD
*USB
FULL SPEED
*IC701(AS ANALOG)
*IC912(V. DRIVER)
*IC702(AS C.P.U.)
*IC703(MOTOR DRIVER)
AS=ANTI SHAKE
*SW PART
UP, DOWN, LEFT, RIGHT, OK/MENU,
F_MODE, DISP/BACK, EVF/LCD,
EXPOSURE COMPENSATION
WIRE x 2MIC
WIRE x 2
SPEAKER
CARD COVER DET. SW
CN144
xD CARD
SD CARD
AA x 4
6.0V
CN302 CN303
CN171
USB & AV JACK
CN910
AC ADAPTER JK501
CN110
FPC
(39pin)
SELF_LED
ELECTRIC
FLASH
TB2WIRE x 2
LENS
UNIT
*ZOOM,
FOCUS,
SHUTTER
FPC
(47pin)
FPC
(33pin)
WIRE x 2
AF_LED
WIDE
FPC
(8pin)
CA1
CA2
C
CN902CN932
N905
IC905(CDS, AGC, A/D_C)
(H. DRIVER)
(AS: ANTI SHAKE)
CCD8M PIXEL
POPUP SW
TOP
UNIT
AUTOMOVIE
MS
AP
ANTI SHAKENATUAL LIGHT
SHOOT W/WO FLASH
SP1SP2
FPC
(14pin)
CN175 CN176
EVF
FPC
(23pin)
FPC
(4pin)
LENS AS
CN701
C
BAT+
BAT-
N301 CN591
ST1
FPC
(16pin)
PW1
TELE
FACE
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3-7. Overall connection Diagram
TB1
CA2
CN910
10 AFESD2P
4 AFESD1P
11 GND
5 GND
12 GND
6 AFECKN
13 SUBGT
7 AFECKP
14 SUB
8 ND
15 TGHD
9 AFESD2N
16 TGVD
17 -6.0V(A)
18 -6.0V(A)
19 +3.3V(A)
20 +3.3V(A
1 GND
2 GND
3 AFESD1N
21 +12V(A)
22 +12V(A)
23 VDD3
24 VDD3
25 PAON3
26 CCDEN
27 CCDSD
28 CCDCK
29 GND
30 ADCK
31 GND
32 V1S
33 V1A
34 V1B
35 V2
36 V3R
37 V3L
38 V3A
39 V3B
40 V4
41 V5R
42 V5L
43 V5A
44 V5B45 V6
46 GND
Z 1 Z 2
47 GND
CN905
10V3A
4V5B
11V3L
5V5A
12V3R
6V5L
13V2
7V5R
14V1B
8V4
15V1A
9V3B
16V1S17GND18ADCK19GND20CCDCK
1GND2GND
3V6
21CCDSD22CCDEN23PAON324VDD325VDD326+12V(A)27+12V(A)28+3.3V(A)29+3.3V(A)30-6.0V(A)31-6.0V(A)32TGVD33TGHD34SUB35SUBGT36GND37GND38AFESD2P39AFESD2N40GND41AFECKP42AFECKN43GND44AFESD1P45AFESD1N46GND
Z1Z2
47GND
CN902
10 GND
4 V2
11 VDD
5 V1B
12 VDD
6 V1A
13 GND
7 V1S
14 RG
8 GND
15 GND
9 VO
16 HL17 GND18 VL19 VL20 GND
1 GND2 V3L3 V3R
21 SUBSW22 VSUB23 GND24 H1A25 H1B26 H2B27 H2A28 GND29 V5L30 V5A31 V5B32 V633 V5R34 V435 V3B
Z 1 Z 2
36 V3A37 GND
CN932
10GND
4V2
11VDD
5V1B
12VDD
6V1A
13GND
7V1S
14RG
8GND
15GND
9VO
16HL17GND18VL19VL20GND
1GND2V3L3V3R
21SUBSW22VSUB23GND24H1A25H1B26H2B27H2A28GND29V5L30V5A31V5B32V633V5R34V435V3B36V3A37GND
CN144
10
CARD
4
VDD
11
CARD/WP
5
CLOCK
12
WP
6
VSS
13
CD
7
DATA0
14
R/-B
8
DATA1
15
/RE
9
DATA2
16
/CE
17
CLE
18
ALE
19
/WE
20
/WP
1
DATA3
2
COMMAND
3
VSS
21
GND
22
D0
23
D1
24
D2
25
D3
26
D4
27
D5
28
D6
29
D7
30
VCC
31
GND
32
VCC
Z1 CN171
10DIN3
4SCL
11DIN2
5SDA
12DIN1
6DIN7
13DIN0
7DIN6
14DCLK
8DIN5
15HD
9DIN4
16VD17VCC18GND19DUMMY20LED+
1GREST2SHDB3SCEN
21LED-22FB23PWM24CP225CP126AVDD27DUMMY28AGND29VCOMH30VCOML31PCD32DUMMY33DUMMY34CP835CP736CP637CP538CP439CP3
Z 2 Z1
CN175
10CK0
4VEE
11SLEEP
5TOUT2
12RGT
6TOUT1
13DWN
7VSS
14INV
8VDD
15VS
9CK1
16HS17VIDBL18VIDGL19VIDRL20VIDBH
1DUMMY2DUMMY3DUMMY
21VIDGH22VIDRH23VEE
Z1Z2
CN176
DC_IN(5V)
4EVFCA
1EVFAN2EVFAN3EVFCA
Z1Z2
CN951
10
ST1
4
SHUTTER1
11
ST3
5
SHUTTER1
12
F_
HOME_
C
6
SHUTTER2
13
F_
HOME_
A
7
SHUTTER2
14
F_
HOME_
K,E
8
ST2
15
Thermistor
9
ST4
16
Thetmistor
17
GND
18
FocusB+
19
FocusA-
20
FocusB-
1
Z_
HOME_
A
2
Z_
HOME_
K,E
3
Z_
HOME_
C
21
FocusA+
22
Z_
PULSE_
C
23
Z_
PULSE_
K,E
24
Z_
PULSE_
A
25
GND
26
ZoomA-
27
ZoomA-
28
ZoomB-
29
ZoomB-
30
ZoomB+
31
ZoomB+
32
ZoomA+
33
ZoomA+
Z1
Z2
CN110
4
ZAV_
JACK
5
USBD(+)
6
GND
7
USBD(-)
8
USB_
VDD
1
GND
2
VIDEO_
OUT
3
AUDIO-OUT
Z1
Z2
Z3
Z4
CN302
10
SCANIN2
4
SCANIN2
11
SCANIN3
5
SCANIN1
12
SCANIN5
6
SCANOUT1
13
SCANIN4
7
SCANIN0
14
GND
8
SCANOUT0
9
SCANIN1
1
GND
2
VR
3
SCANIN3
Z1
Z2
CN701
10
POUT1P
4
BR_
B2
11
POUT1N
5
BRAA5
12
PINAP
6
POUT4P
13
POUT3N
7
PINBY
14
POUT3P
8
POUT2P
15
POUT4N
9
POUT2N
16
BRAA5
1
BR_
A1
2
BR_
A2
3
BR_
B1 Z1
Z2
JK501
W1-12400/SG2A2-JFF
1
2
3
CN591
4
AFLED_
CA
5
AFLED_
AN
6
GND
1
GND
2
SCANOUT2
3
SCANIN2
Z1
Z2
CN301
4
SCANIN2
5
SCANOUT2
6
GND
1
GND
2
AFLED_
AN
3
AFLED_
CA
Z1
Z2
CN303
4
WIDE
5
TELE
6
PW_
ON
7
GND
8
GND
1
GND
2
SHUTTER2nd
3
SHUTTER1st
Z1
Z2
CP1
LENS
BATTERY
xD & SD CARD
SPEAKER
LCD
MIC
TB2
CA1
TOP UNIT
EVF
PW1
EVFBL
USB & AVLENS AS
ST1
XAN
XKT
2
TRG
3
1
FLASHREFLECTOR
TRIGGERTRANS
BAT-
BAT+
BAT-
BAT+
MIC
GND
SP+
SP-
POPUP
GND
WT
GY
GY
BK
RD
WT
CE+
XKT
TRG_
GND
XAN
RD
CE-
BK
SW
TRG_
IN
DMA TCA DMA DMA
DMA
DMA
DMA
PWA
PWASYADMA
JW601
JW602
JW502
JW501
JW184
JW183
DMASYASYA
JW181
JW182
SYA
JW303
JW304
STASTASTA
JW545
JW541
JW542
JW543
JW544
JW546
JW541
JW542
JW651
JW652
JW593
CL592
CL593
CL594
CL595
JW594
JW591
JW592
CAA
RED
WHITE
GRAY
PINK
RED
WHITE
GRAY
BLACK
WHITE
GRAY
BLACK
RED
BLACK
GRAY
PINK
WHITE
(CAA)(DMA)(STA)(SYA)(PWA)(TCA)
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3-8. Circuit Diagrams3-8-1. CA1 BLOCK
0.1;B
C9008
MA2Z720-00L
D9004
0.1;B
C9002
REG3.0V
NJM2877F3-03QNJM2877F303P
IC904
1
2
3 4
5
FBMH1608HL601
1608
L9001
1;B1608
C9016
0.033;B1608
C9021
0.1;B
CB903
12
34
5P;CH
C9013
0.15;B
1608
C9018
0.1;B
C9006
0.01;B
1608
C9019
1AV4J11FL370GCN902
10 GND
4 V2
11 VDD
5 V1B
12 VDD
6 V1A
13 GND
7 V1S
14 RG
8 GND
15 GND
9 VO
16 HL17 GND18 VL19 VL20 GND
1 GND2 V3L3 V3R
21 SUBSW22 VSUB23 GND24 H1A25 H1B26 H2B27 H2A28 GND29 V5L30 V5A31 V5B32 V633 V5R34 V435 V3B
Z1 Z2
36 V3A
37 GND
AD9971BCPZRLQAD9971BCPZ-J
IC905
1LVDD
2LVSS
3DOUT1P
4DOUT1N
5TCLKP
6TCLKN
7DOUT0P
8DOUT0N
9LVSS
10 LVDD
11
H1
12
H2
13
HVSS
14
HVDD
15
H3
16
H4
17
RGVSS
18
HL
19
RGVDD
20
RG
21LDOIN
22LDOOUT
23CLI
24AVSS
25CCDINP
26CCDINM
27AVSS
28AVDD
29REFT
30REFB
31
LDOEN
32
SL
33
SDI
34
SCK
35
GPO1
36
GPO2
37
VD
38
HD
39
DVSS
40
DVDD
Z1
0.1;B
C9001
0.1;B
CB904
12
34
5P;CH
C9004
1SS400
1608
D9001
1000P;B
C9007
5P;CH
C9005
100K;1/16J
R9014
0.1;B
C9017
1000P;B
C9009
0.1;BCB902
1 2
3 4
0.1;BC9012
MA2J72700L
D9002
1AV4J11VR470GCN905
10V3A
4V5B
11V3L
5V5A
12V3R
6V5L
13V2
7V5R
14V1B
8V4
15V1A
9V3B
16V1S17GND18ADCK19GND20CCDCK
1GND2GND3V6
21CCDSD22CCDEN23PAON324VDD325VDD326+12V(A)27+12V(A)28+3.3V(A)29+3.3V(A)30-6.0V(A)31-6.0V(A)32TGVD33TGHD34SUB35SUBGT36GND37GND38AFESD2P39AFESD2N40GND41AFECKP42AFECKN
43GND
44AFESD1P
45AFESD1N
46GND
Z1Z2
47GND
1;B
C9025
1;B
C9026
0.1;B
C9024
4.7;1/16J
R9008
4.7;1/16J
R9009
15;1/16JR9010
22;1/16J
R9011
47;10-T
2125
C9010
82;1/16JR9017
AFESD2N
AFESD1N
AFESD2P
AFECKP
AFECKN
AFESD1P
V1S
V1A
V1B
V2
V3R
V3L
V3A
V3B
V4
V5R
V5L
V5A
V5B
V6
ADCK
CCDCK
CCDSD
CCDEN
VDD3
TGVD
TGHD
SUB
AFESD2P
AFESD2N
AFECKP
AFECKN
AFESD1P
AFESD1N
V3L
V3R
V2
V1B
V1A
V1S
V5L
V5A
V5B
V6
V5R
V4
V3B
V3A
SUBGT
CCD_H1
CCD_H2
+12V(A)
+3.3V(A)
-6.0V(A)
CA1C1-12400/SG2A2-JFF
TO CA2 CN932
CDS, AGC, A/D C
H. DRIVER
TO CP1(CAA)CN910
1.9
1.9
1.9
0.8
1.9
1.1
1.2
1.2
1.2
1.2
1.2
0.4
0.4
0.0
0.0
3.2
0.4
0.9
1.4
1.6
3.0
2.4
0.9
2.4
3.3
3.3
2.4
0.9
VOLTAGE: VIEW MODE, LCD ON
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3. SchematicsConfidential: FUJIFILM Service Center Use Only
3-8-2. CA2 BLOCK
MN39670PAJ(LCC)
IC93147;1/16J
R9301
UP05C8GQ9301
470;1/16JR9302
1.2K;1/16J
R9303
1;B
1608
C9302
1;B
1608
C9301
CN932
1234567891011121314
15
16
17
18
19
20
21
22
23
24
25
26
27
28
1
2
34
5
6
10GND
4V2
11VDD
5V1B
12VDD
6V1A
13GND
7V1S
14RG
8GND
15GND
9VO
16HL17GND18VL19VL20GND
1GND2V3L3V3R
21SUBSW22VSUB23GND24H1A25H1B26H2B27H2A28GND29V5L30V5A31V5B32V633V5R34V435V3B36V3A37GND
V1A
V5B
V3R
V2
V1B
V3B
V6
V3L
V4
V5R
V5A
V5L
CCD_
BUFFER_
OUT
V3A
V1S
CCD_OUT
V5L
V5A
V5B
V6
V5R
V4
V3B
V3A
V3L
V3R
V2
V1B
V1A
V1S
CA2C3-12400/SG2A2-JFF
CCD
TO CA1 CN902
+12V(A)
-6.0V(A) -1.1
-0.5
-0.5
-0.7
-0.8
-0.2
-0.5
-0.5
-0.6
-5.6
-5.6
-4.7
-4.7
-4.2
8.3
12.0
5.2
2.4
2.4
0.9
-6.1
0.0
8.3
2.4
0.9
VOLTAGE; VIEW MODE, LCD ON
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FinePix S8000fd Service Manual
3-15
3. SchematicsConfidential: FUJIFILM Service Center Use Only
3-8-3. CCD BLOCK
LENS
CCD
+12V(A)-6.0V(A)
MN39670PAJ
VDD
PT
VO
O_LPF
IC931
CA1
CA2
CAA
DMA
Q9301EF
11:24
10
VSUB
25
16
IC905
CDS, AGC, A/D C
AFESD1P, AFESD1N
AFESD2P, AFESD2N
AFECKP, AFECKN
CCDENT4
D4
SUBGTAB6
XSUBAA6
IC101IC904
NJM2877F3-03
VDD3
+3V
PAON3
AD9971BCPZRL
25CCDINP SL
4
5
1
+3.3V
14,19
T2,T1
V2,V1
U2,U1
3:8
21,31
AFESD[1:2]P/NAFECKP/N
18
15,17
24
SUBSW
VSUB
1:14
V1[S,A,B
],V2,
V3[A,B,R,L
],
V4,
V5[A,B,R,L
],V6,
V1[S,A,B], V2, V3[A,B,L,R],V4, V5[A,B,L,R], V6
IC912
V. DRIVER
AN20115A
26
HL21
27
28
20
H115
11
H3
12H2
16H4
20
VDRST
RG
28
46,27
7,26
REG
H. DRIVER
SYSTEM ASIC
32
CCDSDT3SDI
33
CCDCKU5SCK34
TGVDT6
VD37
TGHDT7HD
38
ADCKN6CLI
23
23
22
HL
H1B
H2B
H1A
H2A
RG
+3.3V -6.0V(A) +12V(A)
SUBCNT2
XSUB3
SUBCNTAB5
PAON3PAON3
U3VDRST
XV1
V6
XV2
W5
XV3
U6
XV9
AA5
XV10
AB4
XV4
AA4
XV5
AB3
XV6
Y4
AA3
XV7
W4
XV8
XSG1Y1
Y2
XSG2
XSG3W6
XSG4W1
XSG5T5
XSG6U4
33,29,41,30,44,31,35,37,36,39,38
XV1, XV2, XV3, XV4, XV5,XV6, XV7, XV8, XV9, XV10, XV11
32,34,40,42,43,1
XSG1, XSG2, XSG3,XSG4, XSG5, XSG6
Y3 XV11
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FinePix S8000fd Service Manual
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3. SchematicsConfidential: FUJIFILM Service Center Use Only
3-8-4. CP1_CAA BLOCK
+12V(A)
0;1/16Z
1608
C9215
FBMH1608HM102
L9236
+3.3
V(A)
AN20115A
QAN20115A---P
IC912
1 2 3 4 5 6 7 8 9 1 0 1 1
12
13
14
15
16
17
18
19
20
21
22
2324252627282930313233
34
35
36
37
38
39
40
41
42
43
44
Z 1 Z 2 Z 3 Z 4
1M;1/16J
R9207
1AV4J11VR470G
TO CA1 CN905
CN910
10AFESD2P
4AFESD1P
11GND
5GND
12GND
6AFECKN
13SUBGT
7AFECKP
14SUB
8ND
15TGHD
9AFESD2N
16TGVD
17-6.0V(A)
18-6.0V(A)
19+3.3V(A)
20+3.3V(A
1GND
2GND
3AFESD1N
21+12V(A)
22+12V(A)
23VDD3
24VDD3
25PAON3
26CCDEN
27CCDSD
28CCDCK
29GND
30ADCK
31GND
32V1S
33V1A
34V1B
35V2
36V3R
37V3L
38V3A
39V3B
40V4
41V5R
42V5L
43V5A
44V5B
45V6
46GND
Z1Z2
47GND
100K;1/16J
R9239
1;B
CB925
1
2
3
4
FBMH1608HM102
L9238 MA2Z720-00L
D9203
1;B
1608
C9215
0.1;B
C9223
-6V(A)ADCK
CCDCK
CCDSD
CCDEN
TGVD
TGHD
SUBGT
AFESD2P
AFESD2N
AFECKP
AFECKN
AFESD1P
AFESD1N
XSG2
XV7
XV8
XV9
XV10
XV3
XV11
XSG3
XSG5
XSG4
XV5
XSG6
XSUB
XSUBCNT
XV4
XSG1
XV1
XV6
XV2
VDRST
PAON3
VDD3
+3.3V(A)
VDD3
-6V(A)
+ 12 V( A) +1 2V (A )
-6V(A)
+3.3V(A)
VDD3
18K;1/16J
R9213
2K;1/16J
R9216
V5B
V3R
V5A
V1S
V3B
V1B
V3A
V5L
V1A
XSG5
V5R
V6
V3L
XV5
XSG4
XSG2
XSUBCNT
XV3
XSUB
XV11
XV8
XV9
XSG3
XSG6
VSUB
XV7
XV10
+12V(A)
-6V(A)
V6
V5B
V5A
V5L
V5R
V4
V3B
V3A
V3L
V3R
V2
V1B
V1A
V1S
ADCK
CCDCK
CCDSD
CCDEN
TGVD
TGHD
SUBGT
AFESD2P
AFESD2N
AFECKP
AFECKN
AFESD1P
AFESD1N
XV1
XSG1
XV6
XV4
XV2
VDRST
CCDEN
CCDCK
ADCK
CCDSD
TGVD
AFESD2N
TGHD
SUBGT
AFESD2P
AFECKP
AFECKN
AFESD1N
AFESD1P
V2
V4
XSG2
XV7
XV9
XV8
XV11
XV10
XSG3
XV3
XSG4
XSG5
XV5
XSG6
XSUBCNT
XSUB
VDRST
XV2
XV4
XV6
XSG1
XV1
PAON3
VSUB
PAON3
CAAC2-12400/SG2A2-JFF
TO DMA
TO PWA
V. DRIVER
3.2
0.6
0.4
0.2
3.0
3.0
3.2
0.2
3.2
3.2
2.5
-4.4
-0.5
-0.5
-1.1
-0.8
-0.2
-5.7
-5.7
-0.5
-0.5
-4.8
0.3
3.2
2.2
0.3
0.3
3.2
-6.
2
11.
9
0.6
0.6
3.2
-6.
2
11.
9
1.
2
-6.2
-4.83.2
0.0
1.6
VOLTAGE: VIEW MODE, LCD ON
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FinePix S8000fd Service Manual
3-18
3. SchematicsConfidential: FUJIFILM Service Center Use Only
3-8-6. CP1_PWA BLOCK
1;B
6.3
C5017
DAN217U
D5010
1
23
1;B
1608
C5031
1;B
16
1608
C5029
IC501
QBD9739KN---P
BD9739KN
1 UDSEL1
2 SWIN6
3 SWOUT6
4 DARIN2H
5 DARIN2H
6 DARIN2L
7 DARIN2L
8 PGND23
9 PGND23
10 DRAIN3L
11 DRAIN3L
12 DRAIN3H
13 DRAIN3H
14 PVCCH
15 STB1
16 STB23
17
STB4
18
STB5
19
STB6
20
STB7
21
FB3
22
INV3
23
INV2
24
FB2
25
SS23
26
FB1
27
INV1
28
SS1
29
VCC
30
VREGA
31
SWOUT1
32
SCP
33CT
34RT
35VREF
36NON7
37INV7I
38INV7V
39FB7
40INV6
41FB6
42GND
43DTC5
44NON5
45INV5
46FB5
47FB4
48INV4
49
SWOUT4
50
SWIN4
51
OUT4
52
OUT5
53
OUT6
54
PVCC
55
OUT1M
56
OUT1S
57
PGND
58
OUT7B
59
PVCCL
60
OUT1B
61
VBAT
62
SWIN7
63
SWOUT7
64
UDSEL5
Z1
Z2
Z3
Z4
2.2
;B
16
1608
C5030
47;M1AV4L2FM470MG
2125
L5012
2.2
K;1
/16J
R5006
0.1;B 10C5039
1;B
6.3
C5041
+3.3V(A)
VDD3
+5V(T)
VDD1.