JVC Gzmc500 Owners Manual

							(No.YF100)1-21 (9) Input the written down P/N in Scanner entry (yellow
column) in one-byte characters, then press the Enter
key. The ModelType and the Drive P/N columns
are filled in and the color of the column changes to
green.
(10) Input the written down serial number in Scanner entry
(yellow column) in one-byte characters, then press the
Enter key. The MFG ID and the Serial Number col-
umns are filled in and the color of the columns changes
to green. (UNKNOWN is displayed in MFG ID)
NOTE:
Make sure to input in Scanner entry (yellow col-
umn) as direct input to each column is not identified.
(11) Select NFF-NO VISUAL FAULT FOUND at the top of
Visual Inspection. Whole Visual Inspection section
changes to green to show the test availability.
(12) Press Failed at (Occurrence location) drop down but-
ton and select FIELD.
(13) Press the END User Name drop down button and se-
lect NO DATA.
Always select NO DATA for this item as JVC does
not use this item. However, if the item is left blank,
the test will not become available.
(14) Input the user model name in one-byte characters in
the Customer System item, then press the Add but-
ton. Select the user model name by pressing the drop
down button from the next time.(15) Press the drop down button to select the error symp-
tom in the Customer Error Symptom item.
(16) Input the movie unit serial number in one-byte charac-
ters in the Customer Error Description item. If there
is information such as failure occurrence conditions,
input those additional information in one-byte charac-
ters in English.
Input all items, then press the ENTER key. The
item section changes to green.
(17) When all the input and the selection have been made,
press the Save button. 
(18) When Save Completed is displayed below the
Save button, it is completed.
Click the close button (X button) in the far upper right
to close the Drive Login window.
6.2Starting the test
(1 ) Click the Scan Drive button in the test window.
The color changes to green and 
the test becomes available Select NFF-NO VISUAL FAULT FOUND Visual InspectionSelect FIELD
Select NO DATA
   Failed at 
(Occurrence location)
 item
END User Name itemDrop
down
button
Customer System item 
Customer Error Symptom item
Customer Error Description itemAdd button Input the user model name
Drop down button
Press Save button
Save Completed Drive Login window
Close button
Input the unit serial number an
d the detailed error symptom 
if necessary in one-byte
alphabetical characters.
When Save Completed is displayed, the preparation is completed.
Error display Remarks
ABNORMAL NOISE Use when abnormal noise is generated
from HDD
BAD SECTOR Nonuse
BOOT ERROR Use when it does not boot and boot failure
occurs
CANNOT BE 
DETECTEDWhen the unit is connected with USB, the
hard disk is not recognized.
DIAG FAIL Nonuse
FORMAT ERROR Use when formatting is incapable
HDD ERROR Use when the display such as Incorrect
media is shown
SYSTEM UNSTA-
BLEUse when the failure is in poor reproduc-
ibility
OTHER Use on other failures
NO INFO Use when there is no information and test
is carried out as a trial
Test window
Scan Drive button 
						

							1-22 (No.YF100)(2) When the serial number and the model name of the
Microdrive matches the recorded information in the
Microdrive, it is recognized as a drive available for the
test. START is displayed.
(3) If the serial number and the model name of the
Microdrive does not match the recorded information in
the Microdrive, the label may have been falsified.
In this case, the below display appears.
(4) Check the message and click the OK button.
(5) Check the serial number and the model name again,
return to 6.1(7), then Drive Login again.
(6) Check that the START display shows yellow line same
as in 6.2(2), press the TestOption button to select the
test details.(7) When the Test Option screen opens, a test can be
selected from the two types: Standard Sequence test
or Standard Sequence+Sequential Read Verify test.
In usual case, select the Standard Sequence test,
then press the Apply button.
(8) Press the Start ALL button to start the test. 
During the test the drive serial number is displayed in
the light blue line, and the PROGRESS window is
open to show the progress status.
6.3 Test results
(1) When the test has been finished, the color of the line
in the test window changes.
Blue:No defects(Drive Pass)
Red:Failures
NOTE:
The testing time varies according to Microdrives. It
takes about 2 to 3 minutes to carry out the Standard
Sequence test.

 START display
Yellow line
 OK buttonAí
START display disappears
Orange line
START displayYellow line
TestOption
Select this test
Apply buttonAí
Start ALL button
The test types are displayed
Std.Seq --- Standard Sequence test
Std.Seq + Seq RD VF ---Standard Sequence +
Sequential Read Verify test
Blue lineDrive Pass 
(Pass the test indication)  
						

							(No.YF100)1-23 
(2) View the test results by dragging the scroll bar as the
detailed results are displayed in horizontal rows.
Pass:No defects(Drive Pass)
Fail:Failures
(3) For more details, point the cursor to the red line and
double click to browse the error log.Refer to 6.4
Checking the error log for the details of the error log.
(4) The rest of the procedure varies according to the test
results. 

(1) Click the Test Option button to change the test
method to Standard Sequence+Sequential Read
Verify test, then press the Apply button.(2) Return to 6.2(1), and Drive Login again to perform
the test. Leave the test method (7) unchanged as
the method has already been changed in (1).
NOTE:
Testing time varies according to Microdrives. It
takes about 15 to 16 minutes to carry out the Se-
quence+Sequential Read Verify test.

(1) Physically format the Microdrive. (Low-level format)
NOTE:
Physical format (Low-level format) is different
from the ordinary format (Logical format) which is
usually carried out with PCs. Physical format
takes considerable time as it rearranges the hard
disk sectors. 
The arrangement of the sectors sometimes may
break up for some reasons (vibrations or heat
etc.) In those cases, the test results are NG as the
data read/ write are impossible even though the
hard disk itself is normal. 
It is necessary to physically format the Microdrive
once to confirm the Microdrive defect.
The easiest way to perform physical format
seems to be DDD CleanDisk. 
As mentioned earlier, although the development
of DDD had been finished, it can be used for the
purpose of physical format.
Commercially available tools that can completely
clear disks may also be used.
(2) Format the Microdrive with EVERIO.
NOTE:
Formatting (Logically formatting) the Microdrive
with EVERIO optimize the Microdrive format (sec-
tor size). If a hard disk is not logically formatted af-
ter being physically formatted, it can not either
record or playback. 
(3) Return to 6.2(1), and Drive Login again to perform
the test. Select the Standard Sequence test.
NOTE:
If the results of the retest show NG, it is identified
as Microdrive NG.
Red line Drive Fail
(Failed the test indication)
Drag the scroll bar
:›:É:¸:¾:w:Ë:¿:¼:w:Ê:º:É:Æ:Ã:Ã:w:¹:¸:«:¼:Ê:Ë:w:É:¼:Ê:Ì:Ã:Ë:Ê
:¸:É:¼:w:»:À:Ê:Ç:Ã:¸:Ð:¼:»
In this case, the Microdrive
failed to pass Defect MapCheck
Double click the red line 
to browse the error log
Blue line
Drive PassAí 
(Pass the test indication)  TestOption
Select this test
Apply button 
						

							1-24 (No.YF100)6.4 Checking the error log
There are two ways of viewing the error log.
(1) Double click on the line
(2) Refer to HiTest Dir
Normally, HiTest program is stored in C:/Program File/HiT-
est.
The error log (including the test OK error log) is in DANA in
the folder named log in the above mentioned C:/Program
File/HiTest folder. 
There are two files with a serial number as a file name such
as N2J62G6A and with extensions blb and log. 
The file with extension blb is used for analysis by part man-
ufacturers, so it is not used for checking the error log. JVC
uses the data with log extension (log data) only.
The log data is text data and can be browsed or printed by
using Notepad or WordPad.
Double click on the red line 
to browse the error log
 

 ^*K6GUV*KVCEJK*&&&KCIPQUVKE6GUV^
 ^8GT55^
 ^     
% *KVCEJK )NQDCN5VQTCIG 6GEJPQNQIKGU  ^
 

 

 ^&4+8+0(14/#6+10^
 

 5GTKCN 0WODGT     0-/5.)#
 /()+&
 /QFGN*/5&%(
 2CTV0WODGT    )
 /()&CVG
 (KTOYCTG 4GX     &01%##
 %WTTGPV /CZ.$#       /$ 
/$   -$
 2QYGT1P *QWTU     JQWTU 
  FC[U    JQWTU   OKP  UGE 
 6GUV &CVG 
 

 ^%7561/4+0(14/#6+10^
 

 %WUVQOGT50
 (CKNGFCV(+.&
 (CKN&CVG
 (CKN9GGM
 (CKNNKPI5VCVKQP01#
 (CKNNKPI.KPG0Q0#
 %WUVQOGT5[UVGO)
						

							(No.YF100)1-25 2.5 Format
As Windows file system, either FAT16 or FAT32 is used. There
is another file system called NTFS, which is used with Windows
2000 and Windows XP. 
FAT stands for File Allocation Table and it has been used since
the introduction of MS-DOS. 
Until the arrival of Windows 95 OSR2, FAT meant FAT16. 
When FAT32 appeared, FAT16 and FAT32 are distinguished re-
spectively. 
Generally, data and programs are dealt as files in computer re-
lated field. 
A file system is a function of OS (Operation System) such as
Windows.In FAT, files are stored as unit of boxes called clusters
in storage (drive) in the premises called a hard disk.
If they are just stored, it is hard to search them afterward. 
So the location of each file is written in the ledger (FAT) with the
number of each location.
You can see the location of the box (cluster) of certain file if you
check with the ledger (FAT). 
A ledger (FAT) is allocated to each storage (drive) unit.
The numbers 16 or 32 of FAT16 or FAT32 each indicates 16-bits
or 32-bits.
Inside a computer everything is descried in binary numbers. 
With FAT16, 16-bits worth: 2 to the 16th power (65536) boxes
can be controlled.And with FAT32, 32-bits worth: 2 to the 32nd
power (65536×65536) boxes can be controlled. 
That is why they are called FAT16 and FAT32.
The size of the boxes (clusters) changes like a balloon in propor-
tion to the capacity of the storage (drive).
However, the original size and the limit of the expansion size are
determined: 4K- bytes as minimum and 32K-bytes as maximum. 
As it was explained earlier, 65536 boxes (clusters) can be con-
trolled with FAT16. 
If the maximum capacity of a box (cluster) is 32K-bytes, the up-
per limit of the storage(drive) that can be recognized by Windows
is 65536~32KB=2G-bytes s.
It means that when a hard disk with more than 2G-bytes s is in-
stalled; it is divided into maximum 2G-bytes s with FAT16.
 (Table 1) Drive capacity and cluster size
The cluster size does not change how big or how small a file is. 
For example, if a 2G-byte drive is used in FAT16 to save a 1K-
byte file, one cluster (32K-bytes) is used to write in. 
If a 33K-byte file is saved, it is written in on a hard disk using two
clusters (64K-bytes). In both cases 31K-bytes is left unused. 
It is not necessarily good to minimize the cluster size at all times.  
Video and audio data become extremely large files. 
If a 2G-byte drive is used in FAT32, normally the cluster size be-
comes 4K-bytes occupying 2560 clusters to save a 10M-byte file.When Windows reads the file, it cannot deal the file as one file
unless the scattered clusters in the drive are rounded up.
Also, when writing in, the data are stored in each cluster and the
clusters should be placed in their original location. It is too ineffi-
cient as it takes too much time.
From the above examples the following can be said; 4K-byte
cluster size format for comparatively small files such as Windows
systems and various programs, 8 to 16 K-byte cluster size format
for medium files such as Office documents including MS Word, 
and 32K-byte cluster size format for large files such as video and
audio for efficient disk recording.
Media that are formatted in FAT16(FAT) or FAT32 can be used
with EVERIO.EVERIO does not support NTFS. 
If a NTFS-formatted medium is inserted into EVERIO, THIS
CARD IS NOT FORMATTED is displayed.
Originally, Microdrives were developed as mass storage for PC
and peripherals, and their main purpose is to store data. 
As a result, Microdrives are formatted in FAT32(4K-byte cluster
size) as same as other PC and peripherals.
Yet as previously mentioned, the files that are recorded/ read
with EVERIO are video/ audio files with enormous file size. 
Therefore, it is necessary to be formatted in the maximum 32K-
byte cluster size.
If it is formatted with EVERIO, it is automatically formatted in
FAT32(32K-byte cluster size)
If it is formatted in FAT32(32K-byte cluster size) with a PC, nor-
mally, this special format cannot be done. 
If you need to carry out this format with a PC for some reason,
input from MS-DOS prompt as follows.
format d: /z:64 (As d: is a Microdrive drive, it differs according to
the environment of each PC.)
/z:64 is a special setting for format, meaning that it is formatted
in 64sector cluster size (1sector=512-byte)
    (Table 2) Numbers of sectors and cluster size  
Besides the Instruction Book, EVERIO comes with a notice sheet
that is written Please read before use.
On the sheet, Format the provided Microdrive with the format
function in the menu is written.
If the provided Microdrive is not formatted before use, it cannot
process the data in the drive efficiently, as explained above, re-
sulting in slow access to the medium, temporary video halt, or
media error display. 
When a media error is displayed, selecting the CLEAN UP from
the menu and performing it can temporarily avoid the error. 
However, the media error will be displayed again while using
EVERIO.
Therefore, when media error is displayed, make sure to format
the Microdrive with EVERIO.
(Please do not forget to backup the user data.)
If the format is done with EVERIO, media with 2G-bytes and less
are formatted in FAT16 (64 sectors), and media with 2G-bytes
and over are formatted in FAT32 (64 sectors). Drive capacityCluster size
FAT16 FAT32
Less than 256MB 4KB
Same as 
FAT16
256MB and over - less than 512MB 8KB
512MB and over - less than 1024MB 16KB
4KB 1024MB and over-less than 2048MB 32KB
2GB and over - less than 4GB
Can not 
setting 4GB and over - less than 8GB
8GB and over - less than 16GB 8KB
16GB and over - less than 32GB 16KB
32GB and over 32KB
Numbers of sectors cluster size
1512B
21KB
42KB
84KB
16 8KB
32 16KB
64 32KB 
						

							1-26 (No.YF100) 2.6 Pict Bridge
GZ-MC100, GZ-MC200 and GZ-MC500 support PictBridge.
PictBridge is a standard that allows direct printing by connecting digital cameras and camcorders to printers.Conventionally, data
needed to be stored in a PC before printing pictures and still images taken by digital cameras or camcorders. The actual printing was
done by the instruction from the PC.Now direct printing is available by connecting PictBridge supporting devices via USB cables.
Digital cameras or camcorders of other makes have variety of functions that can be controlled on the camera or camcorder side: spec-
ify print settings such as sheet sizes, print specified images, Index Printing of a list of all images in scaled-down size, print multiple
copies of the same images, and print with date stamps. However GZ-MC100/200/500 can only use the basic required functions and
some partial functions of PictBridge. Please refer to the table below for the supporting functions.
Connect EVERIO and the printer in the following procedure.
(1) Set EVERIO in Playback Mode.
(2) Set the MODE lamp to Still image mode, and then select DIRECT PRINT in the MENU.
(3) Connect to the printer, and then turn the printer power on.
If EVERIO was connected to the printer before being set to DIRECT PRINT, it is recognized as mass storage (an external drive) by
the printer.The printer does not operate as it does not recognize EVERIO as a PictBridge device.If the printer power was on before
the printer is connected to EVERIO, contact noise may be generated.The printer may not operate properly as it does not recognize
the connection of the PictBridge device because of the contact noise.
Function Overview Support
Single Image print Single print of a single image @Á
Multiple Image print Print multiple images 
DPOF AUTOPRINT Auto print following DPOF files@¾
All image index  Index print of thumbnail-size DPOF images 
Print all the images within the medium
=ŽDSC images in the image format, of which the printer does not
support, are not necessarily output.
Area specified print Print trimmed images
Copy print Multiple print in specified numbers@¾
Date stamped print  Print with a shooting date stamp@¾
Specified sheet size print Print with sheet specification
Fixed size print  Print in specified print size
N-up layout print Print multiple copies of the same image on a single sheet
Print with file names Print images with file names
Borderless print Print pictures without white borders
DPS connection setup Initial sequence of the camera and the printer connection@Á
Printer error notice Display printer errors on the camera monitor@Á
Error detail notice Display the printer error detail on the camera monitor
Printing status notice Display the printer’s printing status on the camera monitor@¾
Disconnection permit notice Display the message to disconnect the cable safely 
Printing complete notice Display the completion of printing on the camera monitor
Print quality specification Print in specified print quality
Sheet variety specification Print in specified sheet variety
Print cancel from DSC While printing, request the printer to cancel printing from the camera @¾
USB cable cutoff recovery   Re-start printing after DPOF printing was halt due to the cable cutoff 
Printer sheet output recovery Automatically re-start feeding sheets after paper-out @Á
DSC error recovery  Re-start printing after a disruption due to the printer@¾ Printer status information
Printer settings
Print job control Standard print settings
All image print
Extended print settings
@Á: Basic required functions of PictBridge    @¾: Workable functions with EVERIO
=ŽItems that are not supported by Extended print settings or Printer settings are printed in default settings of the printer. 
Although GZ-MC100/200 are supported by above items, actual available functions depend on the printer function, and the functions
that are supported by both the printer and the camera are operable.  
						

							(No.YF100)1-27
SECTION 3
DISASSEMBLY
3.1 BEFORE ASSEMBLY AND DISASSEMBLY
3.1.1 Precautions
• Be sure to disconnect the power supply unit prior to mounting
and soldering of parts.
• Prior to removing a component part that needs to disconnect
its connector(s) and its screw(s), first disconnect the wire(s)
from the connector(s), and then remove the screw(s).
• When connecting/disconnecting wires, pay enough attention
not to damage the connectors.
• When inserting the flat wire to the connector, pay attention to
the direction of the flat wire.
• Be careful in removing the parts to which some spacer or
shield is attached for reinforcement or insulation.
• When replacing chip parts (especially IC parts), first remove
the solder completely to prevent peeling of the pattern.
• Tighten screws properly during the procedures. Unless
otherwise specified, tighten screws at a torque of 0.098N
·m
(1.0kgf·cm). However, as this is a required value at the time of
production, use the value as a measuring stick when
proceeding repair services. (See SERVICE NOTE as for
tightening torque.)
3.1.2 Destination of connectors
3.1.3 Disconnection of connectors (Wires)
Fig.3-1-13.1.4 Tools required for disassembly and assembly
Fig.3-1-2
•  Torque driver
Be sure to use to fastening the mechanism and exterior parts
because those parts must strictly be controlled for tightening
torque.
•  Bit
This bit is slightly longer than those set in conventional torque
drivers.
•  Tweezers
To be used for removing and installing parts and wires.
•  Chip IC replacement jig
To be used for replacement of IC.
•  Cleaning cloth
Recommended cleaning cloth to wipe down the video heads,
mechanism (tape transport system), optical lens surface.
3.2 ASSEMBLY AND DISASSEMBLY OF MAIN PARTS
3.2.1 Assembly and disassembly 
When reassembling, perform the step(s) in reverse order.
(*1) Order of steps in Procedure
When reassembling, preform the step(s) in the reverseorder.
These numbers are also used as the identification (location)
No. of parts Figures. 
(*2) Part to be removed or installed.
(*3) Fig. No. showing Procedure or Part Location.
(*4) Identification of part to be removed, unhooked, unlocked,
released, unplugged, unclamped or unsoldered.
S = Screw     L = Lock, Release, Hook
SD = Solder     CN = Connector
[Example]
• 4 (S1a) = Remove 4 S1a screws.
• 3 (L1a) = Disengage 3 L1a hooks.
• 2 (SD1a) = Unsolder 2 SD1a points.
• CN1a = Remove a CN1a connector.
(*5) Adjustment information for installation.
CN2a
CN2bMAIN  CN101
MAIN  CN10340
10
CONN. No. PIN No.CONNECTOR
Two kinds of double-arrows in connection tables respectively
show kinds of connector/wires.
: The connector of the side to remove: Wire : Flat wire : Board to board (B-B)
MONI BW  CN761
MINI BW  CN762 
FPC ConnectorWire
FPC ConnectorWire
WireFPC ConnectorLock Wire
FPC ConnectorLock WireFPC
ConnectorLock
B-B Connector
B-B ConnectorB-B Connector
·  Pull the both ends of the board in the direction of the arrow, and remove the B-B Connector. · Pull both ends of the connector in the arrow    
  direction, remove the lock and disconnect the flat  
 wire.
· Pull the both ends of the board in the direction of the 
  arrow, and remove the Connector.
· Extend the locks in the direction of the arrow for  
  unlocking and then pull out the wire. After    
  removing the wire, immediately restore the locks  
  to their original positions because the locks are  
  apt to come off the connector.
· Extend the locks in the direction of the arrow for  
  unlocking and then pull out the wire. After    
  removing the wire, immediately restore the locks  
  to their original positions because the locks are  
  apt to come off the connector. · Extend the locks in the direction of the arrow for  
  unlocking and then pull out the wire. After    
  removing the wire, immediately restore the locks  
  to their original positions because the locks are  
  apt to come off the connector.
Cleaning cloth
KSMM-01
Torque driver
YTU94088Bit
YTU94088-003
Chip IC replacement jig
PTS40844-2
Tweezers
P-895
(*4) (*5) (*2) (*3) (*1)
TOP COVER ASSY
UPPER ASSY
(Inc. VF ASSY,
SPEAKER/MONITOR)
E.VF UNIT(B/W)C1
C2-1
C2-24(S1a), 3(L1a),CN1a
(S2a),2(S2b),3(S2c)
2(SD1a),
L2,CN2a,b
2(S8),L8,CN8a-
-
NOTE 8[1]
[2]
[8]
STEP
No.PARTNOTE Fig.
No.POINT 
						

							1-28 (No.YF100) 3.2.2 ASSEMBLY/DISASSEMBLY OF CABINET PARTS AND ELECTRICAL PARTS
zDisassembly procedure
NOTE1a:
When removing the COVER(FR.)ASSEMBLY, remove the
SCREW (1-4) first for the smooth removal of other parts. 
NOTE1b:
When removing, remove the four SCREWS (1-4) first to
avoid damage or deformation of the ARM (COVER) AS-
SEMBLY and the STAY (COVER) ASSEMBLY.
During the procedure, be careful with opening and closing of
the BATTERY/ CF CARD COVER.
Also, be careful not to damage the parts with the ARM
(COVER) ASSEMBLY or the STAY (COVER) ASSEMBLY.
NOTE1c:
Be careful in handling the SPACER.
Attach the SPACER to adjust the edge of CN302.
NOTE1d:
When attaching, be careful not to pinch the WIRE.
Pay special attention on the inside of the TRIPOD and the
BATTERY wiring.
NOTE2a:
Although the illustration shows the battery/ CF card cover
closed, leave the cover open during the actual procedure.
NOTE2b:
When removing the COVER(FR.)ASSEMBLY, remove the
SCREW (8,9) first for the smooth removal of other parts. 
NOTE2c:
When removing, be careful not to lose the SHAFT(BELT).
NOTE4a:
When attaching, be careful with the position of the FPC.
NOTE4b:
During the procedure, be careful in handling the WIRE.
NOTE5:
When removing, be careful not to lose the part.
NOTE6a:
During the procedure, be careful not to damage the CON-
NECTOR or cut/break the WIRE.
NOTE6b:
When removing, be careful in handling the SPACER.
NOTE6c:
Be careful with the wiring and the affixing the SPACER.
NOTE6d:
When attaching, be sure to place the FPC WIRE inside.NOTE6e:
When attaching, lift the part (ARM) upward.
NOTE6f:
During the procedure, be careful not to deform the part
(ARM) or damage other parts.
NOTE7a:
Be careful with the positions of the SCREWS that are to be
removed. 
NOTE7b:
During the procedure, be careful with the grease.
NOTE8:
When attaching, be careful with the wiring,
zDestination of connectors
GRIP LOWER ASSY
COVER(FR.) ASSY
GRIP LOWER ASSY
TRIPOD 
BATT. CASE ASSY
COVER(TOP)
REG BOARD ASSY
CF ASSY
PLATE(ROTALY)
MONITOR ASSY
CAMERA ASSY[1]
[2]
[1]
[3]
[4]
[5]
[6]
[7]
[8]
[9]
[10]HOOD ASSY,2(S1a),2(S1b)
S2a,S2b,2(S2c),S2d
2(S1c),L1a, L1b,CN1a,b
2(S3)
3(S4),SPACER
S5a,S5b,2(S5a),L5
SPACER
SPACER,CN6a,b,2(S6),CN6c,L6,d,e,f,g,h
                       -
2(S7a),S7b,CN7a,b,L7a,b
3(S8)
                       -
3(S9)
                       -
FA1
FA2
FA3-1
FA3-2
FA3-3
FA4
FA5-1
FA5-2
FA5-3
FA6
FA7-1
FA7-2
FA8NOTE1a,b
NOTE2a,b,c
NOTE1c,d
-
NOTE4a,b
NOTE5
NOTE6a,b
NOTE6c
NOTE6d,e,f
NOTE7a,b
NOTE8
NOTE8
NOTE9
-
STEP
No.PART NAMEFig.
No.POINT NOTE
CN1a  REG  CN305  OPE3  -    6
CN1b  REG  CN307  BATT_TERM  -    6
CN6a REG  CN301  ANALOG  CN206 10
CN6b REG  CN302  ANALOG  CN207 27
CN6c REG  CN309  CF  CN9904 20
CN6d REG  CN303  ANALOG  CN208 30
CN6e REG  CN306  LCD-SUB  CN7802 30
CN6f  REG  CN310  CF SW  -    2
CN6g  REG  CN304  OPE2  -    12
CN6h REG  CN308  CDS, DIGITAL CN5103,103 
11/4,7
CN7a CF  CN9901  DIGITAL  CN9801 27
CN7b CF  CN9902  DIGITAL  CN9802 27
CONNECTORCN.NO.PIN
NO. 
						

							(No.YF100)1-29 Fig.FA1
Fig.FA2Fig.FA3-1
Fig.FA3-2
0.059Nnm(0.6kgfncm)
3
(S1b)1
(S1a)BATTERY/
CF CARD COVER
2
(S1a)
4
(S1b)
NOTE1b
ARM(COVER)
ASSY
STAY(COVER)
ASSY
HOOD ASSY
[1]

0.039Nnm(0.4kgfncm)
0.069Nnm(0.7kgfncm)
5
(S2a)
6
(S2b)
7
(S2c) 8
(S2c) 9
(S2d)7
(S2c)8
(S2c)
[2] [1]A A
A
C CB B
NOTE2c NOTE2b
NOTE2b
NOTE2aNOTE2a NOTE2b
SHAFT
(BELT)
BOTTOM VIEW
JIG CONNECTOR

0.039Nnm(0.4kgfncm)
10
(S1c)
11
(S1c)11
(S1c)10
(S1c)
CN1aL1a
L1b
CN1b
SPACER
NOTE1cWIRE(BATT)
TRIPOD
NOTE1d
NOTE1d
[1]
D
D
BOTTOM VIEW
[3]
E
E F
[1]
F
12
(S3)
13
(S3) 
						

							1-30 (No.YF100)Fig.FA3-3
Fig.FA4Fig.FA5-1
Fig.FA5-2
14
(S4)15
(S4)16
(S4)
SPACER 
NOTE4b
[4]
NOTE4aFPC
0.069Nnm(0.7kgfncm)
[5]
17
(S5a)
18
(S5b)19
(S5a)
20
(S5a)
L5
NOTE5
DRAWING FOR
SPACER ATTACHING
SPACER
REG BOARD ASSY
WIRE
(BROWN)CONECTOR
(CN302) WIRE
(BLACK)NOTE6a
NOTE6b 
SPACER SPACER
FOIL SIDE(B)
COMPONENT SIDE(A)c L6
b
CN6cCN6d
CN6a CN6h
CN6h
(CN308)CN6eCN6g
CN6fCN6b
CN6bCN6bd d
f f
a
ae e g g
21
(S6)
22
(S6)
[6]NOTE6c
NOTE6b
CN6e
(CN306)
CN6b
(CN302)
CN6a
(CN301)CN6f
(CN310)
CN6d
(CN303)
CN6c
(CN309) CN6g
(CN304) d
c c
b b e hghh
SPACER