H D R - F X 1 0 0 0 /F X 1 0R M 31 T-8

S E R V IM E N U A L CAVer. 1.2 2009.03Revision History Histor

Revised-1Replace the previously issued SERVICE MANUAL 9-852-622-32 with this Manual.

N MECHANISM (MDX-N220)

Photo: HDR-FX1000

LEVEL

2

US Model Canadian Model AEP Model UK Model E Model Australian Model Hong Kong Model Chinese Model Korea Model Tourist Model Japanese Model LinkS P E C IF IC IO N S AT M O D E IN F O RAT IO N B L E L M TA S E R V IC E O T E N D IS A S S E MLY B B L O C K IA G R A M S D F R A M S C H EAT IC D IA G R A M E M S C H E M IC D IA G R A M S AT P R IN TE D IRINGB O A R D S W R EPA IR PART S LIS T

The components identified by mark 0 or dotted line with mark 0 are critical for safety. Replace only with part num- ber specified. Les composants identifi s par une marque 0 sont critiques pour la s curit . Ne les remplacer que par une pi ce portant le num ro sp cifi .

D I G I LH DV I D ECOA M E R A TA RECORDERHDR-FX1000/FX1000E_L29-852-622-33

Sony EMCS Co.

2009C0800-1 2009.03 Published by Kohda TEC

These specifications are extracted from instruction manual of HDR-FX1000E.

SPECIFICATIONS

E N G L IS HSystem

J APA N E S E AP

Output connectors

Video recording system (HDV) 2 rotary heads, Helical scanning system Video recording system (DV) 2 rotary heads, Helical scanning system Still image recording system Exif Ver. 2.2* Audio recording system (HDV) Rotary heads, MPEG-1 Audio Layer -2, Quantization: 16 bits Fs48kHz (stereo) transfer rate: 384 kbps Audio recording system (DV) Rotary heads, PCM system Quantization: 12 bits Fs32kHz (stereo1, stereo2) Quantization: 16 bits Fs48kHz (stereo) Video signal PAL color, CCIR standards 1080/50i specification Usable cassette Mini DV cassette with the mark printed Tape speed (HDV) Approx. 18.831 mm/s Tape speed (DV) SP: Approx. 18.831 mm/s LP: Approx. 12.568 mm/s Recording/playback time (HDV) 60 min (using a DVM60 cassette) Recording/playback time (DV) SP: 60 min (using a DVM60 cassette) LP: 90 min (using a DVM60 cassette) Fast forward/rewind time Approx. 2 min 40 s (using a DVM60 cassette and rechargeable battery pack) Approx. 1 min 45 s (using a DVM60 cassette and AC Adaptor) Viewfinder Electric viewfinder (color) Image device 6.0 mm (1/3 type) 3CMOS sensor Recording Pixels (HDV/DV16:9 still recording): Max. 1.20 Mega (1 440 810) pixels** Gross: Approx. 1 120 000 pixels Effective (movie, 16:9): 1 037 000 pixels Effective (movie, 4:3): 778 000 pixels Effective (still, 16:9): 1 037 000 pixels Effective (still, 4:3): 778 000 pixels Lens G Lens 20 (Optical), Approx. 30 (Digital, when [D.EXTENDER] is set to [ON]) Focal length f= 4.1 - 82.0 mm (3/16 - 3 1/4 in.) When converted to a 35 mm still camera 29.5 - 590 mm (1 3/16 - 23 1/4 in.) (16:9), 36.1 - 722 mm (1 7/16 - 28 1/2 in.) (4:3) F1.6 - 3.4 Filter diameter: 72 mm (2 7/8 in.) Color temperature Automatically (one push) A/B [INDOOR] (3 200K) [OUTDOOR] (5 800K) Minimum illumination 1.5 lx (lux) (Fixed Shutter Speed 1/25, auto gain, auto iris) (F 1.6) * Exif is a file format for still images, established by the JEITA (Japan Electronics and Information Technology Industries Association). Files in this format can have additional information such as your camcorder fs setting information at the time of recording. **The unique pixel array of Sonys ClearVid CMOS sensor and image processing system (new Enhanced Imaging Processor) allows for still image resolution equivalent to the sizes described.

A/V Remote Connector 10-pin connector When A/V connecting cable is connected Video signal: 1 Vp-p, 75 (ohms) Luminance signal: 1 Vp-p, 75 (ohms) Chrominance signal: 0.3 Vp-p (burst signal), 75 (ohms) When component A/V cable is connected Y: 1 Vp-p, 75 (ohms), PB/PR, CB/CR: +/- 350 mV, 75 (ohms) Audio signal: 327 mV (at load

impedance 47 k (kilohms)), Output impedance with less than 2.2 k (kilohms) HDMI OUT jack TypeA (19-pin) i (headphones) jack Stereo-minijack ( 3.5 mm)

Input/Outpu t connectorsLANC jack Stereo mini-minijack ( 2.5 mm) HDV/DV jack i.LINK interface (IEEE 1394, 4-pin connector S100) MIC jack Stereo-minijack ( 3.5 mm)

LCD screenPicture 8.0 cm (3.2 type, aspect ratio 16:9) Total dot number 921 600 (1 920 480)

GeneralPower requirements DC 7.2 V (battery pack) DC 8.4 V (AC Adaptor) Average power consumption During camera recording using the viewfinder with normal brightness: HDV recording 6.2 W DV recording 6.0 W During camera recording using the LCD with normal brightness: HDV recording 6.4 W DV recording 6.2 W Operating temperature 0 C to 40 C (32 F to 104 F) Storage temperature -20 C to + 60 C (-4 F to + 140 F) Dimensions (approx.) 169 178 349 mm (6 3/4 7 13 7/8 in.) (w/h/d) including the projecting parts except for the grip belt 169 178 349 mm (6 3/4 7 13 7/8 in.) (w/h/d) including the projecting parts with the battery pack (NP-F570) Mass (approx.) 2.1 kg (4 lb 9 oz) including the lens hood with lens cover 2.3 kg (4 lb 15 oz) including the lens hood with lens cover, battery pack (NP- F570), cassette (DVM60) and large eyecup

AC Adaptor AC-L100

Power requirements AC 100 V - 240 V, 50 Hz/60 Hz Current consumption 0.35 A - 0.18 A Power consumption 18 W Output voltage DC 8.4 V* Operating temperature 0 C to 40 C (32 F to 104 F) Storage temperature -20 C to +60 C (-4 F to +140 F) Dimensions (approx.) 48 29 81 mm (1 15/16 1 3/16 3 1/4 in.) (w/h/d) excluding the projecting parts Mass (approx.) 170 g (6.0 oz) excluding the power cord (mains lead) * See the label on the AC Adaptor for other specifications.

Rechargeabl e battery pack NP-F570Maximum output voltage DC 8.4 V Output voltage DC 7.2 V Capacity 15.8 Wh (2 200 mAh) Dimensions (approx.) 38.4 20.6 70.8 mm (1 9/16 13/16 2 7/8 in.) (w/h/d) Mass (approx.) 100 g (3.5 oz) Operating temperature 0 C to 40 C (32 F to 104 F) Type Lithium ion Design and specifications are subject to change without notice.

HDR-FX1000/FX1000E_L2 2 These specifications are extracted from instruction manual of HDR-FX1000.

SPECIFICATIONS

E N G L IS HSystem

J APA N E S E AP

Video recording system (HDV) 2 rotary heads, Helical scanning system Video recording system (DV) 2 rotary heads, Helical scanning system Still image recording system

Output connectors

Exif Ver. 2.2* Audio recording system (HDV) Rotary heads, MPEG-1 Audio Layer -2, Quantization: 16 bits Fs48kHz (stereo) transfer rate: 384 kbps Audio recording system (DV) Rotary heads, PCM system Quantization: 12 bits Fs32kHz (stereo1, stereo2) Quantization: 16 bits Fs48kHz (stereo) Video signal NTSC color, EIA standards 1080/60i specification Usable cassette Mini DV cassette with the mark printed Tape speed (HDV) Approx. 18.812 mm/s Tape speed (DV) SP: Approx. 18.812 mm/s LP: Approx. 12.555 mm/s Recording/playback time (HDV) 60 min (using a DVM60 cassette) Recording/playback time (DV) SP: 60 min (using a DVM60 cassette) LP: 90 min (using a DVM60 cassette) Fast forward/rewind time Approx. 2 min 40 s (using a DVM60 cassette and rechargeable battery pack) Approx. 1 min 45 s (using a DVM60 cassette and AC Adaptor) Viewfinder Electric viewfinder (color) Image device 6.0 mm (1/3 type) 3CMOS sensor Recording Pixels (HDV/DV16:9 still recording): Max. 1.20 Mega (1 440 810) pixels** Gross: Approx. 1 120 000 pixels Effective (movie, 16:9): 1 037 000 pixels Effective (movie, 4:3): 778 000 pixels Effective (still, 16:9): 1 037 000 pixels Effective (still, 4:3): 778 000 pixels Lens G Lens 20 (Optical), Approx. 30 (Digital, when [D.EXTENDER] is set to [ON]) Focal length f= 4.1 - 82.0 mm (3/16 - 3 1/4 in.) When converted to a 35 mm still camera 29.5 - 590 mm (1 3/16 - 23 1/4 in.) (16:9), 36.1 - 722 mm (1 7/16 - 28 1/2 in.) (4:3) F1.6 - 3.4 Filter diameter: 72 mm (2 7/8 in.) Color temperature Automatically (one push) A/B [INDOOR] (3 200K) [OUTDOOR] (5 800K) Minimum illumination 1.5 lx (lux) (Fixed Shutter Speed 1/30, auto gain, auto iris) (F 1.6) * Exif is a file format for still images, established by the JEITA (Japan Electronics and Information Technology Industries Association). Files in this format can have additional information such as your camcorder fs setting information at the time of recording. **The unique pixel array of Sonys ClearVid CMOS sensor and image processing system (new Enhanced Imaging Processor) allows for still image resolution equivalent to the sizes described.

A/V Remote Connector 10-pin connector When A/V connecting cable is connected Video signal: 1 Vp-p, 75 (ohms) Luminance signal: 1 Vp-p, 75 (ohms) Chrominance signal: 0.286 Vp-p (burst signal), 75 (ohms) When component A/V cable is connected Y: 1 Vp-p, 75 (ohms), PB/PR, CB/CR: +/- 350 mV, 75 (ohms) Audio signal: 327 mV (at load impedance 47 k (kilohms)), Output impedance with less than 2.2 k (kilohms) HDMI OUT jack TypeA (19-pin) i (headphones) jack Stereo-minijack ( 3.5 mm)

Input/Outpu t connectorsLANC jack Stereo mini-minijack ( 2.5 mm) HDV/DV jack i.LINK interface (IEEE 1394, 4-pin connector S100) MIC jack Stereo-minijack ( 3.5 mm)

LCD screenPicture 8.0 cm (3.2 type, aspect ratio 16:9) Total dot number 921 600 (1 920 480)

GeneralPower requirements DC 7.2 V (battery pack) DC 8.4 V (AC Adaptor) Average power consumption During camera recording using the viewfinder with normal brightness: HDV recording 6.4 W DV recording 6.1 W During camera recording using the LCD with normal brightness: HDV recording 6.6 W DV recording 6.3 W Operating temperature 0 C to 40 C (32 F to 104 F) Storage temperature -20 C to + 60 C (-4 F to + 140 F) Dimensions (approx.) 169 178 349 mm (6 3/4 7 13 7/8 in.) (w/h/d) including the projecting parts except for the grip belt 169 178 349 mm (6 3/4 7 13 7/8 in.) (w/h/d) including the projecting parts with the battery pack (NP-F570) Mass (approx.) 2.1 kg (4 lb 9 oz) including the lens hood with lens cover 2.3 kg (4 lb 15 oz) including the lens hood with lens cover, battery pack (NP- F570), cassette (DVM60) and large eyecup

AC Adaptor AC-L100

Power requirements AC 100 V - 240 V, 50 Hz/60 Hz Current consumption 0.35 A - 0.18 A

Power consumption 18 W Output voltage DC 8.4 V* Operating temperature 0 C to 40 C (32 F to 104 F) Storage temperature -20 C to +60 C (-4 F to +140 F) Dimensions (approx.) 48 29 81 mm (1 15/16 1 3/16 3 1/4 in.) (w/h/d) excluding the projecting parts Mass (approx.) 170 g (6.0 oz) excluding the power cord (mains lead) * See the label on the AC Adaptor for other specifications.

Rechargeabl e battery pack NP-F570Maximum output voltage DC 8.4 V Output voltage DC 7.2 V Capacity 15.8 Wh (2 200 mAh) Dimensions (approx.) 38.4 20.6 70.8 mm (1 9/16 13/16 2 7/8 in.) (w/h/d) Mass (approx.) 100 g (3.5 oz) Operating temperature 0 C to 40 C (32 F to 104 F) Type Lithium ion Design and specifications are subject to change without notice.

HDR-FX1000/FX1000E_L2 3

E N G L IS H

J APA N E S E AP

(HDV)( 2 (DV)( 2 ( Exif Ver.2.2* (HDV)( ( MPEG-1 Audio Layer2 ( 16 Fs48kHz() ( 384kbps (DV)( PCM ( 12 Fs32kHz( ( (12) ( 16 Fs48kHz() ( NTSCEIA ( 1080/60i ( ((((((DV (HDV)( 18.812mm/ (DV)( SP18.812mm/ ( LP12.555mm/ /(HDV)( 60(DVM60) /(DV)( SP60(DVM60) ( LP90(DVM60) ( ( ( 240(DVM60) ( AC/( ( 145(DVM60) ( ( 6.0mm(1/3)3CMOS ( 112 ( 120 ( **(1 440810)(HDV/ ( DV 169) ( (169) ( 104 ( (43) ( 78 ( (169) ( 104 ( (43) ( 78 ( G ( 20()30( ( ) ( f=4.182.0mm ( 35mm ( 29.5590mm(16:9)( ( (4:336.1722mm) ( F1.63.4 ( 72mm ( ( (AB) ( [](3 200K)( ( [](5 800K) ( 1.5lx()( ( (1/30) ( ) ( (F1.6) *()(JEITA) (( (( **CMOS (( ((

(( 10 A/V 1 Vp-p75 Y1Vp-p75 C0.286Vp-p() 75 DA/V A/V Y1Vp-p75 PB/PR. CB/CR350mV75 327mV(47k) 2.2 k A(19) (3.5mm)

A/V( ( ( ( ( ( ( ( ( ( ( ( HDMI OUT( (i()(

/ LANC(((( HDV/DV( ( ( (2.5mm)( i.LINK(IEEE13944 S100) (3.5mm)

( ( 8.0cm(3.216:9) ( 1 920480 921 600

( ( ( ( ( ( ( ( ( ( ( ( ( 7.2V DC8.4V HDV6.4W DV6.1W HDV6.6W DV6.3W ( 040 ( 20+60 ( 169178349mm ( ) () ( 2.1kg() 2.4kg(NP-F770 DVM60 )

HDR-FX1000/FX1000E_L2 4 Model information tableModel Destination Color system HDR-FX1000 US, CND, E, KR, JE, J NTSC HDR-FX1000E AEP, UK, E, HK, AUS, CH, JE PAL

Abbreviation AUS : Australian model CH : Chinese model CND : Canadian model HK : Hong Kong model J : Japanese model JE : Tourist model KR : Korea model

HDR-FX1000/FX1000E_L2 5

E N G L IS H J APA N E S E AP

CAUTION Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type.

SAFETY-RELATED COMPONENT WARNING!! COMPONENTS IDENTIFIED BY MARK 0 OR DOTTED LINE WITH MARK 0 ON THE SCHEMATIC DIAGRAMS AND IN THE PARTS LIST ARE CRITICAL TO SAFE OPERATION. REPLACE THESE COMPONENTS WITH SONY PARTS WHOSE PART NUMBERS APPEAR AS SHOWN IN THIS MANUAL OR IN SUPPLEMENTS PUBLISHED BY SONY. ATTENTION AU COMPOSANT AYANT RAPPORT LA SCURIT! LES COMPOSANTS IDENTIFS PAR UNE MARQUE 0 SUR LES DIAGRAMMES SCHMATIQUES ET LA LISTE DES PICES SONT CRITIQUES POUR LA SCURIT DE FONCTIONNEMENT. NE REMPLACER CES COMPOSANTS QUE PAR DES PISES SONY DONT LES NUMROS SONT DONNS DANS CE MANUEL OU DANS LES SUPPMENTS PUBLIS PAR SONY.

SAFETY CHECKOUTAfter correcting the original service problem, perform the following safety checks before releasing the set to the customer. 1. 2. 3. 4. 5. 6. Check the area of your repair for unsoldered or poorly-soldered connections. Check the entire board surface for solder splashes and bridges. Check the interboard wiring to ensure that no wires are "pinched" or contact high-wattage resistors. Look for unauthorized replacement parts, particularly transistors, that were installed during a previous repair. Point them out to the customer and recommend their replacement. Look for parts which, through functioning, show obvious signs of deterioration. Point them out to the customer and recommend their replacement. Check the B+ voltage to see it is at the values specified. Flexible Circuit Board Repairing Keep the temperature of the soldering iron around 270C during repairing. Do not touch the soldering iron on the same conductor of the circuit board (within 3 times). Be careful not to apply force on the conductor when soldering or unsoldering.

HDR-FX1000/FX1000E_L2Unleaded solder Boards requiring use of unleaded solder are printed with the lead- free mark (LF) indicating the solder contains no lead. (Caution: Some printed circuit boards may not come printed with the lead free mark due to their particular size.) : LEAD FREE MARK Unleaded solder has the following characteristics. Unleaded solder melts at a temperature about 40C higher than ordinary solder. Ordinary soldering irons can be used but the iron tip has to be applied to the solder joint for a slightly longer time. Soldering irons using a temperature regulator should be set to about 350C. Caution: The printed pattern (copper foil) may peel away if the heated tip is applied for too long, so be careful! Strong viscosity Unleaded solder is more viscous (sticky, less prone to flow) than ordinary solder so use caution not to let solder bridges occur such as on IC pins, etc. Usable with ordinary solder It is best to use only unleaded solder but unleaded solder may also be added to ordinary solder.

6

E N G L IS H J APA N E S E AP

1. 2. 0 3. 4. 5.

6. 270 7. Lead Free 40 350 No. Pin IC Signal Name Pin No.

HDR-FX1000/FX1000E_L2

7 Signal Name 1 (20) REG_GND 1. SERVICE NOTE 11 (10) EEP_SO_C 1-1. POWER SUPPLY DURING REPAIRS 2 (19) E N G L IS H J APA N E S E AP RF_MON In this unit, about 10 seconds after power is supplied to the battery terminal using the regulated power supply (8.4V), the power is shut off so that the 12 (9) unit cannot operate. EEP_SO_S These following method is available to prevent this. 3 (18) Method: REG_GND Use the AC adaptor (AC-L100). 13 (8)

4 (17) SWP 14 (7) EEP_SCK_S 5 TAKE OUT A CASSETTE WHEN NOT EJECT 1-2. TO (16) FRRV 1 Remove the Power supply. 2 Remove two screws and the CS lid (24000) assy. 15 (6) 3 Supply +4.5V from the DC power supply to the loading motor and unload. D_2.8V 6 (15) REG_GND 16 (5) MD2_C 7 (14) GND 17 (4) MD2 8 (13) GND 18 (3) XCS_MC_FLASH_C 9 (12) EEP_SI_C 19 (2) XCS_MC_FLASH 10 (11) EEP_SI_S 20 (1) XSYS_RST

(FORCE EJECT)

C li d (24000) S assy

Loading motor

DC power supply (+ 4.5 Vdc)

1-3. SETTING THE FORCED POWER ON MODEIt is possible to turn on power by adjustment remote commander (RM-95 or NEW LANC JIG). Operate the VTR function using the adjustment remote commander.

1-3-1. Setting the Forced Camera Power ON Mode1) Select page: 0, address: 01, and set data: 01. 2) Select page: A, address: 10, set data: 01 and press the PAUSE (Write) button of the adjustment remote commander.

1-3-2. Setting the Forced VTR Power ON Mode1) Select page: 0, address: 01, and set data: 01. 2) Select page: A, address: 10, set data: 02 and press the PAUSE (Write) button of the adjustment remote commander.

1-3-3. Exiting the Forced Power ON Mode1) Select page: 0, address: 01, and set data: 01. 2) Select page: A, address: 10, set data: 00 and press the PAUSE (Write) button of the adjustment remote commander. 3) Select page: 0, address: 01, and set data: 00.

HDR-FX1000/FX1000E_L2 1-1

E N G L IS H J APA N E S E AP 1-4. USING SERVICE JIGConnect the CPC-13 jig (J-6082-443-A) to the CN1004 on the VC-543 board.CPC-13 (J-6082-443-A)1

20

10

11

Note: The pin number in ( ) is test terminal number of CN1004 on the VC-543 board.VC-543 BOARD (SIDE B)20 1

CN 1004

1-5. SELF-DIAGNOSIS FUNCTION1-5-1. Self-diagnosis FunctionWhen problems occur while the unit is operating, the self-diagnosis function starts working, and displays on the viewfinder or LCD screen what to do. Details of the self-diagnosis functions are provided in the Instruction manual.

1-5-2. Self-diagnosis Display

When problems occur while the unit is operating, the counter of the viewfinder or LCD screen shows a 4-digit display consisting of an alphabet and numbers, which blinks at 3.2 Hz. This 5-character display indicates the repaired by:, block in which the problem occurred, and detailed code of the problem.Viewfinder or LCD screenC:31:11

Blinks at 3.2Hz

CBlock Repaire by: d Detailed Code C : Corrected by customer H : Corrected by dealer E : Corrected by service engineer Indicates the appropriate step to be taken. E.g. 31 ....Reload the tape. 32 ....Turn on power again. Refer to 1-5-3. Self-diagnosis Code Table.

31

11

HDR-FX1000/FX1000E_L2 1-2

E N G L IS H J APA N E S E AP1-5-3. Self-diagnosis Code TableSelf-diagnosis Code Block Function C C C C C C C C C C C C C C C C 0 0 2 2 3 3 3 3 3 3 3 3 3 3 3 3 4 6 1 2 1 1 1 1 1 1 1 1 1 1 1 1 Detailed Code 0 0 0 0 1 1 2 2 2 2 2 3 4 4 7 9 0 0 0 0 0 1 0 1 2 3 4 0 0 2 2 7 Non-standard battery is used. The battery is too hot. Condensation. Video head is dirty. LOAD direction. Loading does not complete within specified time UNLOAD direction. Loading does not complete within specified time T reel side tape slacking when unloading. S reel side tape slacking when unloading. T reel fault. S reel fault. T reel and S reel FG short fault. FG fault when starting capstan. FG fault when starting drum. FG fault during normal drum operations. Retry fault when catching ones finger in cassette compartment. Vector fault (Judgement with the set state that is impossible actually for fault of sensors.) Vector fault (Judgement with the set state that is impossible actually for fault of sensors.) Vector fault (Judgement with the set state that is impossible actually for fault of sensors.) LOAD direction loading motor timeout. UNLOAD direction loading motor time-out. T reel side tape slacking when unloading. S reel side tape slacking when unloading. T reel fault. S reel fault. T reel and S reel FG short fault. FG fault when starting capstan. FG fault when starting drum. FG fault during normal drum operations. Use the InfoLITHIUM battery. Replace the battery or remove it and put it in cool place. Remove the cassette, and insert it again after one hour. Clean with the optional cleaning cassette. Load the tape again, and perform operations from the beginning. Load the tape again, and perform operations from the beginning. Load the tape again, and perform operations from the beginning. Load the tape again, and perform operations from the beginning. Load the tape again, and perform operations from the beginning. Load the tape again, and perform operations from the beginning. Load the tape again, and perform operations from the beginning. Load the tape again, and perform operations from the beginning. Load the tape again, and perform operations from the beginning. Load the tape again, and perform operations from the beginning. Load the tape again, and perform operations from the beginning. Load the tape again, and perform operations from the beginning.

C

3

1

9

8

Load the tape again, and perform operations from the beginning.

C C C C C C C C C C C

3 3 3 3 3 3 3 3 3 3 3

1 2 2 2 2 2 2 2 2 2 2

9 1 1 2 2 2 2 2 3 4 4

9 0 1 0 1 2 3 4 0 0 2

Load the tape again, and perform operations from the beginning. Remove the battery or power cable, connect, and perform operations from the beginning. Remove the battery or power cable, connect, and perform operations from the beginning. Remove the battery or power cable, connect, and perform operations from the beginning. Remove the battery or power cable, connect, and perform operations from the beginning. Remove the battery or power cable, connect, and perform operations from the beginning. Remove the battery or power cable, connect, and perform operations from the beginning. Remove the battery or power cable, connect, and perform operations from the beginning. Remove the battery or power cable, connect, and perform operations from the beginning. Remove the battery or power cable, connect, and perform operations from the beginning. Remove the battery or power cable, connect, and perform operations from the beginning. Remove the battery or power cable, connect, and perform operations from the beginning. If it does not recover, inspect the focus MR sensor of lens drive block (Pin q;, qs of CN5002 on the VC-543 board). If not faulty, inspect the focus motor drive circuit (IC6001 on the VC-543 board).

C

3

2

6

0

Difficult to adjust focus (Cannot initialize focus.)

HDR-FX1000/FX1000E_L2 1-3

E N G L IS H J APA N E S E APSelf-diagnosis Code Block Function C C 3 3 2 2 Detailed Code 7 9 2 7 Retry fault when catching ones finger in cassette compartment. Vector fault (Judgement with the set state that is impossible actually for fault of sensors.) Vector fault (Judgement with the set state that is impossible actually for fault of sensors.) Vector fault (Judgement with the set state that is impossible actually for fault of sensors.) EEPROM data are rewritten. Remove the battery or power cable, connect, and perform operations from the beginning. Remove the battery or power cable, connect, and perform operations from the beginning. Remove the battery or power cable, connect, and perform operations from the beginning. Remove the battery or power cable, connect, and perform operations from the beginning.

C

3

2

9

8

C E E

3 2 6

2 0 1

9 0 1

9 0 0

E

6

1

1

1

E

6

1

3

0

E

6

2

0

0

E

6

2

0

1

E E E

6 6 6

2 2 2

0 0 1

2 3 0

E

6

2

1

1

E

6

2

1

2

E

6

2

2

0

Make EEPROM data correct value. Inspect the zoom MR sensor of lens drive block (Pin es , ef of CN5002 on the VC-543 board) when zooming is performed Zoom operations fault when the zoom switch is operated and the zoom motor drive (Cannot initialize zoom lens.) circuit Focus lens initializing failure and zoom (IC6001 on the VC-543 board) when zooming is not performed. lens initializing failure occur simulta- Check both C: 32: 60 and E: 61: 10 of the self-diagnosis code. neously. Turn on the power and set to T (telephoto) end by rotating the ZOOM manual ring. While observing the iris blades in the lens, turn on the power again and check the iris blades in the lens work properly. Inspect the iris drive motor of lens drive block Reset position detect error when (Pin qh to ql of CN5002 on the VC-543 board), when the iris stepper iris is initialized. does not operate. Inspect the iris reset sensor of lens drive block (Pin qd to qg of CN5002 on the VC-543 board), when the iris operate. Steadyshot function does not work well. Inspect pitch angular velocity sensor (SE8501 on the GY-014 (With pitch angular velocity sensor board) peripheral circuits. output stopped.) Steadyshot function does not work well. Inspect yaw angular velocity sensor (SE8502 on the GY-014 (With yaw angular velocity sensor board) peripheral circuits. output stopped.) Inspect the steadyshot circuit (IC7001 on the VC-543 board). If Abnormality of IC for steadyshot. it does not recover, replace the VC-543 board. (Note) If an error occurs again, replace the lens block. IC for steadyshot and micro controller Inspect the steadyshot circuit (IC7001 on the VC-543 board). communication abnormality among. Inspect the EEPROM (IC4202 on the VC-543 board). If it does Shift lens initializing failure not recover, replace the VC-543 board. (Note) If an error occurs again, replace the lens block. Inspect the IC7001 and peripheral circuits on the VC-543 board. If it does not recover, replace the VC-543 board. (Note) If an Shift lens overheating (Pitch) error occurs again, replace the lens block. Inspect the IC7001 and peripheral circuits on the VC-543 board. Shift lens overheating (Yaw) If it does not recover, replace the VC-543 board. (Note) If an error occurs again, replace the lens block. Inspect the IC7001 and peripheral circuits on the VC-543 board. If it does not recover, replace the VC-543 board. (Note) If an Abnormality of lens thermister error occurs again, replace the lens block.

Note: When replacing the VC-543 board, remove the EEPROM (IC4202) from the VC-543 board that is going to be repaired. Install the removed EEPROM (IC4202) to the replaced VC-543 board.

HDR-FX1000/FX1000E_L2

1-4

1. SERVICE NOTEE N G L IS H J APA N E S E AP1-1. 8.4Vdc10 AC AC-L100

1-2. 1 2 2CS (24000) 3 4.5V

CS (24000)

(+4.5Vdc)

1-3. ON RM-95 NEW LA C JIG N VTR 1-3-1. ON 1 ) 00101 2 ) A1001PAUSEWrite 1-3-2. VTR ON ???? 1 ) 00101 ???? 2 ???? ) A1002PAUSEWrite ???? 1-3-3.1 ON (2 0 ) 1 )R G N 00101 E _G D 2 ) 11 (1 0 ) A1000PAUSEWrite 3 ) EEP_SO_C 00100 2 (1 9 ) R F_M N O 12 ( 9 ) HDR-FX1000/FX1000E_L2 EEP_SO_S 3 (1 8 ) 1-5 R G N E _G D

EEP_SCK_C 4 (1 7 ) S P W 14 ( 7 ) EEP_SCK_S 5 (1 6 ) FR V R 15 (6 ) 1-4. D_2.8V CPC-13J-6082-443-AVC-543CN1004 6 (1 5 ) CPC-13 E _G D (J-6082-443-A) R G N 16 ( 5 ) 1 M 2_C D 7 (1 4 ) G D N 17 ( 4 ) M 2 D 8 (1 3 ) G D N 18 ( 3 ) X S C C _M _FLA H S _C 9 (1 2 ) EEP_SI_C 19 ( 2 ) XCS_M C_FLASH 10 (1 1 ) EEP_SI_S 20 ) VC-543 CN1004 ( (1 ) VC-543 B XSYS_RST20 1

E N G L IS H J APA N E S E AP

20

10

11

CN 1004

1-5. 1-5-1. L C D 1-5-2. L C D4 3 . 2 H z 5 .% &C:31:11

*\

C

31

11

% * ' ggg

ggg

HDR-FX1000/FX1000E_L2 1-6

E N G L IS H J APA N E S E AP1-5-3. C C C C C C C C C C C C C C C C C C C C C C C C C C C C 0 0 2 2 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 4 6 1 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 0 0 0 0 1 1 2 2 2 2 2 3 4 4 7 9 9 9 1 1 2 2 2 2 2 3 4 4 0 0 0 0 0 1 0 1 2 3 4 0 0 2 2 7 8 9 0 1 0 1 2 3 4 0 0 2 LOAD UNLOAD UNLOAD T UNLOAD S T S FG FG FG

T S FG

LOAD UNLOAD UNLOAD T UNLOAD S T S

T S FG FG FG FG

C

3

2

6

0

MR VC-543 CN5002 q;, qs VC-543 IC600 1

HDR-FX1000/FX1000E_L2 1-7

E N G L IS H J APA N E S E AP C C C C E 3 3 3 3 2 2 2 2 2 0 7 9 9 9 0 2 7 8 9 0 EEPROM EEPROM MRVC-543 CN5002 es, ef VC-543IC6001

E

6

1

1

0

E

6

1

1

1

C: 3 2: 60E: 6 1: 10 Ttelephoto VC-543 CN5002 qhql VC-543CN5002 qd qg PITCH GY-014 SE8501 PITCH YAW GY-014 SE8502 YAW VC-543 IC7001 IC VC-543 IC VC-543IC7001 EEPRO MVC-543 IC4202 VC543

E

6

1

3

0

E E

6 6

2 2

0 0

0 1

E

6

2

0

2

E

6

2

0

3

E

6

2

1

0

E

6

2

1

1

(PITCH) (YAW )

E

6

2

1

2

E

6

2

2

0

VC-543 IC7001 VC-543 VC-543 IC7001 VC-543 VC-543 IC7001 VC-543

VC-54 3 VC-54 3 E EPR O MIC420 2 E P O M E R IC4202 VC-543

HDR-FX1000/FX1000E_L2 1-8E

2. DISASSEMBLYNOTE FOR REPAIR Make sure that the flat cable and flexible board are not cracked of bent at the terminal. Do not insert the cable insufficiently nor crookedly. When remove a connector, dont pull at wire of connector. It is possible that a wire is snapped. When installing a connector, dont press down at wire of connector. It is possible that a wire is snapped. Cut and remove the part of gilt which comes off at the point. (Be careful or some pieces of gilt may be left inside)

NOTE FOR DISCONNECTING THE HARNESS (COAXIAL CABLE)When disconnecting the harness (COAXIAL CABLE), do not pull the harness part but pull off the connector body with tweezers etc.

Harness (coaxial cable) Tweezers etc.

HDR-FX1000/FX1000E_L2 2-1

2-1. IDENTIFYING PARTS

Handle Section

Cabinet (R) Section CK-204 Board FP-969 Flexible Board MD-141 Board Mechanism Deck

AS-060 Board FP-966 Flexible Board FP-967 Flexible Board GP-025 Board HT-002 Board KY-105 Board MA-454 Board MJ-002 Board PD-372 Board PI-029 Board VF-178 Board

BT Panel Section

FP-965 Flexible Board HP-153 Board JK-376 Board

- DISASSEMBLY FLOW 2-2-1. OVERALL SECTION-1 Cabinet (L) Section VC-543 Board Main Frame 2-2-2. OVERALL SECTION-2 Cabinet (R) Section Handle Section-1 Lens Section

Cabinet (L) Section MS-405 Board

VC-543 Board Lens Section

GY-014 Board Prism Device (CM-097/104 Board)

2-2-3. CABINET (R) SECTION MD Section CK-204 Board AL Lid (24000) 2-2-4. MD SECTION Mechanism Deck 2-2-5. HANDLE SECTION-1 EVF Section 2-2-6. HANDLE SECTION-2 Control Panel Block PI-029 Board LCD Section

2-2-7. HANDLE SECTION-3 GP-025 Board Handle Section-4 2-2-10. CABINET (L) SECTION Cabinet (L) Block Cabinet (G) Block

2-2-9. LCD SECTION Hinge Block LCD 2-2-8. HANDLE SECTION-4 AS-060 Board Microphone Section

HDR-FX1000/FX1000E_L2 2-2

Ver. 1.1 2008.11

HELP2-2. DISASSEMBLY2-2-1. OVERALL SECTION-1Follow the disassembly in the numerical order given.

1 Cabinet (L) Section (1-1 to 1-6) 2 VC-543 Board (2-1 to 2-18) 3 Main Frame (3-1 to 3-2)

D C

E X P L O D E V IE W D

H A R D R ELIS T WA

Overall Section-2

(See Page 2-4)

2 VC-543 Board 1 Cabinet (L) Section(See Page 2-12)

A F

B E

1-5 (#49) 2-18E 1-6E (#49)A

B C D E

2-16 (#50)

F

HI G H

GH

3-2E

3-1 (#49)

HELP032-17 (#50) (#49)

HELP03

3 Main Frame

1-4 (#49) 1-2 1-1 (#49) Disconnect the flexible boards and harnesses. 2-11

2-10

HELP022-8 2-7 2-9

1-3 (Disconnect the flexible board) 2-12

2-13 2-14

VC-543

2-15 2-1

HELP012-2 2-6 HDR-FX1000/FX1000E_L2 2-3 2-2-2. OVERALL SECTION-2Follow the disassembly in the numerical order given.

2-3

2-4 2-5

1 Cabinet (R) Section (1-1 to 1-8) 2 Handle Section-1 (2-1 to 2-5) 3 Lens Section (3-1)

E X P L O D E V IE W D

H A R D R ELIS T WA

1 Cabinet (R)2-1 (Open)

2-4 (#119) 2-2 2-5E (#119)

Section

(See Page 2-5)

2 Handle Section-1(See Page 2-7)

1-2 1-7 (#49)

1-3 (#49)

1-6

1-4 (#49) (#49) (Open)

2-3

1-5 (Claws)

1-8E (#49)

Note: On installation of the lens block, adjust the position of the ND filter switch.

HELP04

3-1E (#119)

1-1 (#154)

BT Panel Section

Note: Prism Device cautions Tighten screws in the following order.

1

3 Lens SectionHELP052

3

Be sure not to insert the harnesses forcefully. (Standard: Insertion; 15N, Pull out; 10N)

HDR-FX1000/FX1000E_L2 2-4 2-2-3. CABINET (R) SECTIONFollow the disassembly in the numerical order given.

1 MD Section (1-1 to 1-2) 2 CK-204 Board (2-1 to 2-9) 3 AL Lid (24000) (3-1 to 3-7)

E X P L O D E V IE W D

H A R D R ELIS T WA

1 MD Section(See Page 2-6)

3 AL Lid (24000)1-2E (#53)

3-7E

1-1A

3-1 (#121)

2-4 (#53)

2-1 2-7 (#50)

3-2 (#53)A

2-2 3-4 (#53) 3-3 3-5

3-6

2-9E

2-5 (#53)

2-8 2-6 (#53) 2-3

2 CK-204 Board

HDR-FX1000/FX1000E_L2 2-5

2-2-4. MD SECTIONFollow the disassembly in the numerical order given.

1 Mechanism Deck (1-1 to 1-12)

E X P L O D E V IE W D

H A R D R ELIS T WA

1-12E

1 Mechanism Deck

1-11

1-1 (#153)

1-10 (#15) 1-8 1-7

1-4 (#50)

1-2 (#153)

1-3 (#153) 1-6 1-5

1-9

HEL P06

HDR-FX1000/FX1000E_L2 2-6 2-2-5. HANDLE SECTION-1Follow the disassembly in the numerical order given.

1 EVF Section (1-1 to 1-10)

E X P L O D E V IE W D

H A R D R ELIS T WA

HELP08

HELP09

1 EVF Section1-9 (Open) 1-4

1-2 (#49)

1-8 (#49) 1-5 (#49)

HELP07

1-10E (#49) 1-7 1-6

1-3 1-1 (Open)

Handle Section-2(See Page 2-8)

HDR-FX1000/FX1000E_L2 2-7 2-2-6. HANDLE SECTION-2Follow the disassembly in the numerical order given.

1 Control Panel Block (1-1 to 1-5) 2 PI-029 Board (2-1 to 2-10) 3 LCD Section (3-1 to 3-2)

E X P L O D E V IE W D

H A R D R ELIS T WA

Note: Be sure not to touch these parts.

1-4 (#49)

1-2 1-1 (#49)

1 Control Panel2-6 (#50)

Block2-7

2 PI-029 Board2-9 (#50) 1-5E 2-1

2-8 3-2E (#119)

2 2

HEL P10

2-10E

2-3

HELP10

3 LCD Section(See Page 2-11)

2-5

Handle Section-3(See Page 2-9)

2-4

1-3 (#53)

3-1 (#49)

HDR-FX1000/FX1000E_L2 2-8 2-2-7. HANDLE SECTION-3Follow the disassembly in the numerical order given.

1 GP-025 Board (1-1 to 1-2)

2 Handle Section-4 (2-1 to 2-8)

E X P L O D E V IE W D

H A R D R ELIS T WA

2-8E

2-7 (#49)

1 GP-025 Board1-1 (#50) 2-3 (#49) 1-2E 2-5 (#49) 2-6 2-4

2 Handle Section-4(See Page 2-10)

2-2

2-1 (#49)

HDR-FX1000/FX1000E_L2 2-9 2-2-8. HANDLE SECTION-4Follow the disassembly in the numerical order given.

1 AS-060 Board (1-1 to 1-4) 2 Microphone Section (2-1 to 2-7)

E X P L O D E V IE W D

H A R D R ELIS T WA

2-2 (#49) 2-7E

2-1

2-3

HELP12

2-4 2-5 (#49)

HELP13

2 Microphone Section

HELP111-2

1-1 2-6 (#49) 1-3 (#50) 1-4E (#53)

1 AS-060 Baord

HDR-FX1000/FX1000E_L2 2-10 2-2-9. LCD SECTIONFollow the disassembly in the numerical order given.

1 Hinge Block (1-1 to 1-10) 2 LCD (2-1 to 2-9)

E X P L O D E V IE W D

H A R D R ELIS T WA

HELP141-3

1-2 (Claws)

1-1 (#49) 1-9 (#49)

1 Hinge Block

2-9E

1 10 E

1-4

2-6 (#50)

2-3 (#50)

2-8

1-5 (#49)

2-5 1-7 (Claws) 2-2 2-7 (Claws) 2-4 (Claws) 2-1

2 LCD

1-8 1-6 (Dowels)

HDR-FX1000/FX1000E_L2 2-11 2-2-10. CABINET (L) SECTIONFollow the disassembly in the numerical order given.

1 Cabinet (L) Block (1-1 to 1-3) 2 Cabinet (G) Block (2-1 to 2-7)

E X P L O D E V IE W D

H A R D R ELIS T WA

1-1 (#49)

2-4

2 Cabinet (G) Block

2-3 (#53)

1-2 (#53) 2 1A

A

2-2

2-5 (#53)

B

1 Cabinet (L) Block

1-3E (Claws)

2 6

B

2-7E (Remove the Grip Belt) Cabinet (L) Insulating Sheet

HDR-FX1000/FX1000E_L2 2-12E

HE LPSheet attachment positions and procedures of processing the flexible boards/harnesses are shown.

HELP01

How to arrange Harness (DC-IN Connector).

VC543

Crease the Harness (DC-IN Connector) as shown in the figure.

HELP02 How to arrange Harness (Coaxial Cable).

VC-543

Harness (Coaxial Cable) Harness (Coaxial Cable) (G) Harness (Coaxial Cable) (B) HDR-FX1000/FX1000E_L2 (R)

HELP

HELP03 Sticking standard of Sheets (to VC-543 Board).a. VC-543 Board (Side A) b. VC-543 Board (Side B) VC Radiation

Lens Radiation Sheet (1212) Sheet (2828)

Electrostatic Sheet (VC)

VC-543 C-54Be careful not to bring it out of IC. Attach covering the IC. Sticking standard

VC-543

HELP04 How to arrange Harnesses (Coaxial Cable).Harness (Coaxial Cable) (R)

Harness (Coaxial Cable) (B)

Harness (Coaxial Cable) (G)

HDR-FX1000/FX1000E_L2

HELP

HELP05

Sticking standard of the Lens Radiation Sheet (2828).Sticking standard

Lens Radiation Sheet (2828) Lens Heat Sink

HELP06 How to fold the FP-983 Flexible Board.MD-141 Board Valley fold FP-983 Flexible Board

FP-983 Flexible Board

HDR-FX1000/FX1000E_L2

HELP

HELP07 Sticking standard of the Cushion (Mic)Control Switch Block (GZ92000)

Sticking standard

Cushion (Mic)

HELP08 Confirm the Diopter Adjustment Lever is on the left side when installing the VF Lens Assy.VF Lens Assy

Eye Cup (24000) Assy Diopter Adjustment Lever

HELP09 Sticking standard of the Tape (VF)FP-974 Flexible Board Tape (VF)

Reinforcing Part 1.0mm

HDR-FX1000/FX1000E_L2

HELP

HELP10 How to arrange Harnesses and Flexible Board.

The Harness (SW-116) wrap around the Harness (PR-074).

Harness (SW-116)

Harness (PR-074)

Craw

Harness (PR-074), Harness (SW-116)

Arrange the harnesses PR-074 and SW-116 under the flexible cable holder.

Arrange FP-966 flexible board inside the pin. Flexible Holder

Pin

FP-966 Flexible Board Roll up the harness (speaker (1.8 cm)) to the claw. Harness (Loudspeaker (1.8cm))

PI-029

HDR-FX1000/FX1000E_L2

HELP

HELP11

How to bent the Speaker Grille.

Bent the Speaker Grille.

Bend to the hole of Speaker Grille. Speaker Grille

HELP12 Sticking standard of the Tape (AS 1/2)

Handle 4 2m m Tape (AS 1/2)

Sticking standard

Sticking standard

HDR-FX1000/FX1000E_L2

HELP

HELP13 Crease the harness (Microphone) two points as shown in the figure.Microphone

Non Woven (T0.25)

2 1mm Microphone MA-454 Board

Creasee the Harnesses (Microphone)

HELP14 How to arrange Harnesses (SW-116).Claws Harness (SW-116) Panel Hinge Cabinet (B)

HDR-FX1000/FX1000E_L2

HELP

3. BLOCK DIAGRAMSLinkO V E R A L B L O C K IA G R A M L D (1/9) O V E R A L B L O C K IA G R A M L D (2/9) O V E R A L B L O C K IA G R A M L D (3/9) O V E R A L B L O C K IA G R A M L D (4/9) O V E R A L B L O C K IA G R A M L D (5/9) O V E R A L B L O C K IA G R A M L D (6/9) O V E R A L B L O C K IA G R A M L D (7/9) O V E R A L B L O C K IA G R A M L D (8/9) O V E R A L B L O C K IA G R A M L D (9/9) P O W E R L O C K IA G R A M B D (1/4) P O W E R L O C K IA G R A M B D (2/4) P O W E R L O C K IA G R A M B D (3/4) P O W E R L O C K IA G R A M B D (4/4)

HDR-FX1000/FX1000E_L2

3. BLOCK DIAGRAMS3-1. OVERALL BLOCK DIAGRAM (1/9)schematic diagram where the component is located. ( ) : Number in parenthesis ( ) indicates the division number of

PRISM D E V IC E

9CM-097B O A R D (R) VC-543B O A R D (1/9)

SD_DQ00 SD_DQ 31 CN3005 CN1201 D OA0- DOA11,DO B0- DOB11

AD_R_A02- AD_R_A13,AD_R_B02- AD_R_B13 IC1601 512M SDRAM

S D _C K IC1602 256M SDRAM S D _ X C S _ IC _ 1 8 0 1 V 22 S D _ C K _ IC _ 1 8 0 1 IC_1801_Y0- IC_1801_Y7

G9

H DV R EC /PB, HDV-i.LINK IC_1801_C0 IC_1801_C7 (4/24) A E23 F2 (4/24) J1

IC3001 C M O SIM AGER S EN SO R _HD , S EN SO R _VD

C MO S_SOC M O S_SC K, , C M O S_XC S SEN SO R_H D, SE NS O R _VD

C MO S_SOC M O S_SC K, , XCS_C MO S_R

V 21

SD _XC S

J8

SD_DQ00 SD_DQ31 SD_A00- SD_A12,SD_B A0,SD_BA1 S D _C K S D _XC S F7 S D _ X C A S _ IC _ 1 8 0 1 W 25

SD_DQ00_IC_1801 SD_DQ15_IC_1801 SD_A00_IC_1801 SD_A12_IC_1801 -

D 23 G 22 E25 H 23 IC_1801_HD, IC_1801_VD, IC_1801_FLD CK _IC_2201_O IC_1801_LNOPR IC_1801_LNOPB IC_1801_LNOY CHCK M7 XSYS_R ST J9

O VER ALL (4/9) (P AG E3-4)

LEN SB LO C K 32 29 17 20 CH C K XSYS_ RST R 21

4

S SS XW EN K 22 F 24 J20 K25

O VER ALL (2/9) (P AG E3-2) K3 L6

IC_1801_EVR E IC_1801_EVGR IC_1801_EVBL IC_1801_PLRE IC_1801_PLG R LEN S DR IVE HDI_Y0- HDI_Y7 J25

10

L22 O VER ALL (3/9) (P AG E3-3) B LO C K(1/3) IRIS (SH UTTER)

IC_1801_PLBL

CM-104B O A R D (G)D OA0- DOA11,DO B0- DOB11 CN5005 CN1202

D IC HR O IC PRISM

A D_G_A02 AD_G_A13, AD_G_B 02 AD_G_B13 -

HDI_C0- HDI_C7 VCK

AA11 B 16 C 17

U1

DV REC

EP_XH D E P_X VD

RYO0_D EH D, O1_D EVD , RYO2_D EFLDY O 3_SG O UT RY R _, R CO 0_E DH D , O 1_E DV D , R CO 2_ED FLDCO 3_FR M R EF RC R _, IC5001 C M O SIM AGER SEN SO R_H D, SEN SO R_VD

CM OS_SOC M O S_SC K, , CM O S_XC S CHCK 32 XSYS_RS T SE NS O R _H D , SE N SO R _V D

M7

C MO S_SOC M O S_S CK , X CS _C M O S_G ,

17

CHCK X SYS_ RST

IC1401 C A M ER A NALP R O C E SS O R SIG (3/24)

HDI_V D D24A00_CAM D31A07_CAM DXXA08_CAM DXX A13_CAM IC_1401_BUS_CLK A 14 HDI_HD,HDI_VD,H D I_O E

5 3O VER ALL (5/9)

D0_VM - D15_VM A1_VM - A19_VM XW AIT_VM

D V PB

N3 P3

RYI0_DE0- RYI3_DE3 RCI0_DE4 RCI3_DE7 HY O _S LG A T E HC O _FYI1 HYI_PLL27IN

J9

29

20

B 10 XCS_IC_1401_BUS XCS_IC_1401_RAM O VER ALL (2/9) (P AG E3-5) XCS_IC_1801_VM K2 C6 AE3 HCI_FYI0 L3 A 1 0 D 9 CAM _VD CAM _VD_HS (P AG E3-2) C KFSO DSCK_VM IC1801 A3 F 10 C9 B A D 1 0AS EBAN D T F S _F C O TH YR Q _FVD I C10 CAM_FLD

CM-097 (B) TH C RQ _FH DI B O A R D

11

SIGNAL P R O C E SS O RA9 , DO W N V LAT_SYN C _FC I F LAT _S YN C _F Y O 0 O VER ALL (4/9) CN1203 C 10 RDX_CAM B9 C O N V E R TE R , VLAT_IN_FYO 1 (P AG E3-4) CN3005

B 9 ALE_ CAM A 1 1

DO A0- DOA11, DO B0- DOB11

D 10 WR01_CAM D/A F9 DSCK_VM AD_B_A02- AD_B_A13, AD_B_B02- AD_B_B13

F S _ E D G E _R E F C O N V E R TE RL 2 4 F RA T _R E F O A6 D5 (5/24) N22 M 20 L20 EN 1 DIRA1

A DA TAO U T0 A DA TAO U T1 IC3001

S EN SO R _HD , S EN SO R _VD , S EN SO R _HD S EN SO R _VDSO R _H D , S EN S EN SO R _VD C MO S_SOC M O S_SC K, , DIRB1 C5 C7 D9 F8 G9 EN 2

CM O S

2

IC_1801_SRCH IC_1801_PCRERR IC_1801_FLD27MF IM AG ER

C MO S_SOC M O S_SC K, , C M O S_SOC M O S_SC K, MO S_XC S , XC S_C M OS_ R , S_CM O S _G , S_CM OS_B XC XC DIRA2 B7 O VER ALL (2/9) M FLG _QR ST N7 DIRB2 D6 IC E6 0 0 5 (P AG _ 3-2)1 / I C _C6 K 0 1 _ K1 C K27M FO1 CHCK M7 XSYS_R ST J9 32 29 17 20 C H C KXSYS_R ST

XC S_C M OS_ B

A_2.8V CHCK CHCK E X O SC XSYS_ RST AA8 AA7 Y8 A3 IR _ R S T _ S E N S D7

6

7O VER ALL (7/9) (P AG E3-7)

AUIN11 IC_1801_ADAO1 XPOW ER_ DO W N _D A1 C K 256F SO C K64F SO C KFSO

P 22 M 19 AC9 C24 J3 HM_R0 - HM_R7 HM_B0 - HM_B7 HM_Y0 - HM_Y7 CK _HM

12X1401 83.16MHz:FX1000E 83.076923MHz: FX1000

XSYS_ RST J2 C2 D5 B2 O VER ALL (8/9) (P AG E3-8)

1

C K 74M FO HM_HD HM_VD HM _FLD IC_1801_ADAO2 O VER AL L (8/9) (P A G E3-8)

O VER ALL (6/9) (P AG E3-6) C K13M FO1 R1 U2 N 25

D24A00_IC_4401 D31A07_IC_4401 CK64FS O CKFSO

M 25 P 25

A C 14 A C 15 DXXA08_IC_4401, DXXA09_IC_4401 SD _O SD _VD XCS_IC_1801_IC_4401

8O VER ALL (4/9)

CK_IC_2201_I IC_2201_VF_SYN C D 17 AB16 AE 15

B 21 XRST_VTR IC _1801_O E RE F VR EF FR RV ,TR R V,D R P

13O VER ALL (5/9) (P AG E3-5) AUIN21 AUIN22 ADATAIN 0 B 24 P 23 M 24 Y 16 M CLK

(P A G E3-4)

HDR-FX1000/FX1000E_L2

A : V ID E O IG N A L S A : A U D IO IG N A L S

08

3-1ADATAIN1 C K27M FO1 L19 K 24 M 22 KASY AO N

14

O VER ALL (5/9) (P AG E3-5)

3-2. OVERALL BLOCK DIAGRAM (2/9)schematic diagram where the component is located.

( ) : Number in parenthesis ( ) indicates the division number of

VC -543B O A R D (2/9)

LE NS D RIVEB LO C K(2/3)

IC6002

XSYS_RST M I_F1_SENS M I_F0_SENS MI_LED

B4 A4 F 20

M A NU AL ZOOM

MR R IN G CN5001 MZ_MR _XA

MZ_MR_XA, MZ_MR _A AMP (21/24) 5 3 7 1

MZ_MR_A MZ_MR _XB

AD_MZ_MR _A MZ_MR_A_DAC _MZ_MR_B AD CAM _VD B4 IR_RS T_LED LEN S_TEMP_AD A4 C5

4F 22 R 22

SSS

AB5 X C S _E E P _C F1 X C S _E E P _C IC4202 1 128K E E PR O M (17/24)

CN1004 (1/2)

12 MZ_MR_B 10 14 MZ_MR_B_DAC 8 Z O2 M _ A ,O O M _ X A , D1 0 Z B1 O CA M_V D B11 L12 IC_6001/IC_6501_C K

MZ_MR_XB, MZ_MR_B

O VE R A LL (1/9) (P A G E3-1)XW EN

AC5

E E P _ S I_ C ,E P _ S O _ C E P _ S C K _ C E E, E E P _ S I_ C ,E P _ S O _ C E P _ S C K _ C E E, C PC M A NU AL FO C U S

MR

R IN G

MI_F1_V C CMI_F0_ MF_MR_XA, MF_MR _XB, MF_MR _B, MF_MR_A M I_F1_VCC M I_F0_VCC

18 15

Q5001 S W ITCH

D_2.8V Z O O M _ B ,O O M _ X B Z Z_MR_A, Z_MR_B FO C U S +, C U S IC6001 FO ZO OM /F O C U S OT O RDRIVE M (21/24) K12 H 11

J9 XRST_IC _6001/IC_6501 CAM _SO , CAM_SI,CAM _SC K, XCS_SIO _C AM

DIR B1

IC4201 CA M ER A O N T R O L C (17/24)

CN1012 H E C K ) (FO RC

FP-971 F L E X IB L E B O A R D (1/4)

MS-405B O A R D (1/4)

C O N T R O S W IT C H L O C K L B (PZ24000) (1/2)

IRIS F 1 VCC M I_F1_SENS 17 M I_F1_SENS F_MR_A, E N1 K9 CN8602 (1/4) CN8606 RV501 M A N U IRLISR IN G A SENSO R IRIS F0 M I_F0_SENS MI_LED M I_F0_SENS F_MR_B IC _ 6 0 0 1 /IC _ 6 5 0 1 _ C K L9 M 22 ZOOM _S W _AD ZOOM _S W _AD 10 (1/2) ZOOM _S W _AD ZO OM _S W _AD 2 (ZOOM) W y T S E N SO R IRIS RE S ET IR_RS T_S ENS 14 CN5002 (1/2) IR_RS T_S ENS M9 (1/4)

ZOO M_S W _AD

10

DIRA1 IR_RS T_S ENS

2

O V E R A LL (1/9)D1X4201 20 MHz KEY_AD4 P H O TO(LENS_AD) P H O TO(LENS_AD) P H O TO(LENS_AD) S501 PH OT O / KEY_AD 4

IRIS M O TER SENSO R M

IR _RST_VC C IR _RST_VC C IR IS_A,IRIS_B, IRIS_XA,IRIS_XB Q5002 S W ITCH

13 15

D_2.8V

IRIS_A,IRIS_XA,IR IS_B,IR IS_XB AD_MZ_MR _A MZ_MR_A_DAC _MZ_MR_B AD MZ_MR_B_DAC B10 C2 B9 A2 DIRB2 EN 2 DIR A2 M8 L8 L9

(PA G E3-1)HDI_VD D24A00_CAM D 31A07_CAM -

C1 B6

154

O VE R A LL (8/9) (P A G E3-8)X B_TALLY _LED 9 E X PA N D E D FOCUS 9

MF_MR_XA, MF_MR_XB, MF_MR_B, MF_MR_A IRIS_A,IRIS_XA, IC6501 (22/24) M9 CA M_S O, CAM_SI, CAM _SC K, S_SIO _IC _6001/IC_6501 XC

IR_RS T_LE D

MAN UALF O C U S RING INPUT

L12

CAM _V D IC_6001/IC_6501_CK

3O VE R A LL - DXXA13_CAM (1/9) DXXA08_CAMIC_1401_BUS_CLK XCS_IC_1401_BUS XC S_IC _1401_RAM CAM _FLD

K1 J1 H2 D 13

CN1015

FP-981 F L E X IB L E B O A(1/4) RD

C N 0 0 4 C N 0 03

A S-060B O A R D (1/4) FP-982 F L E X IB L E B O A(1/4) RD

PI-029B O A R D (1/4)

FP-966F L E X IB L B O A R D E (1/2)(1/4)0 3 4 C N 802 K 1 28 801C N 0804 CN0003 (1/4) 1 CN7 IC401 Z_MR_A,Z_MR _B XR ST_IC_6001/IC _6501 H 11 MR Z_GM R_A, Z_GMR_B

IR IS_B,IRIS_XB

(P A G E3-1)ALE_C AM D7

CAM _VD_HS

A11

CS_SIRC S_1 D4201 SIRC S_ SIG_ FR O NT 48 (1/4) 49 (1/4) (1/4) 32 (1/4) (1/4) (1/2) 3 33

S IR C S _ S IG 4 R E M O TE ZOOM M OTOR M Zoom_A,Zoom_XA, Zoom_B, Zoom_XB

Z O O M _ A ,O O M _ X A , Z O O M _ BO M _ X B Z ZO ,

P _DRIV E_A , P _DRIV E_B

CAM _SO , CAM_SI,CAM _SC K, XCS_SIO _C AM K4 W R01_CAM L1 RDX _CAM L4 CAM _VD A7 DSCK_VM

CN1008 (1/2) S _ S IG S IR C S _ S IG S IR C _ F RC S _T IG S IR O N S

S IRN S O R IG SE C S _S (FR ON T) PITCH_AD_ IC7001 Y _DR IV E_A , Y_DRIV E _B

H2 IC7001 XRST_IC _6001 /IC_6501 B14 X B_TALLY _LED A3

CAM_VD DS CK _VM

C9

TA LLY _LED

39

IC 201 4 R EM O TE

D201 (R EC LAMP (BACK)) P ITCH/Y AW DRIVE XRST_IC_7001_CPU A6 XRST_IC_7001 A7 F 23 CS_SIRC S_2 D4202 SIR CS_SIG _REAR SIR CS_SIG SENSO R (BA CK) J9 (23/24) R7004 YAW _AD_ XRST_IC_7001_CPU

IC7001

PITC H_AD G5 YAW _AD J5 DATA D6 CL K D5 CAM_SI CAM _SO C AM _SCK XCS_SIO _CAM B11 A10 X SIRCS_IN

A B 11 Y11 A B 10 C22

D4203 D4204 35

GP -025B O A R D (1/2)CN7801

CN7802

C O N T R O S W IT C H L O C K L B (GZ92000)

S001

XCS_SIO _IC _6001/IC B22

2SS _KEY _AD2

1 2SS _KEY _AD2 33 (1/2) 2SS _KEY _AD2 KEY_AD1 1 START /ST O P

LENSTEMPS E N SO R

TEM P_OU T

47

L5004LENS_TEM P_AD

N 22

2ND_ZOOM _A D

2ND_ZO OM _AD

3

2ND_ZOOM _A D 31

2ND_ZOOM _A D

F IX

3

2nd_ZOOM_AD

RV001 W y T (HA NDLEZOOM ) ND_ VC C_ A N D_ VC C_D Q 50 04 Q 50 05 , S W IT C H D_2.8V N 20 BOD Y_AD BOD Y_AD

ND_ VC C_ A ND_ VC C_ D

2 BOD Y_AD BOD Y_AD R7801 32 R7802

VAR ND

XR ST_IC_6001/IC_6501

F2

R4211

F4 XSYS_RST XSYS_RST

16

I

R7806 O FF

F O C U S OT O R M SENSO R A-D ND_SENS_A ND_SENS_D A17 B8

ND_SW 1- ND _SW4

N D_SW 1- ND _SW4

B13 NTS C/XP AL _D ET SYS_V XFT R_ N R

N TSC /X PAL _DE T SYS_V SYS_V X FT R_ N R 2SS _KEY _A D2

O V E R A LL (8/9) (P A G E3-8)

17O V E R A LL (6/9) (P A G E3-6)

FP-967 F L E X IB L E B O A(1/2) RD(HA NDLEZOOM ) S7801 M

MR A C TIV ELE NS AC T U AT O R F_DR IVE+, F_DRIVEYAW

F_GM R_A, F_G MR_B

SHIFT_Y_DRIVE+,HIFT_Y _DRIVE S

CN5003 FO C U S +, C U S FO

F_MR_A,F_M R_B

Y _DRIV E_AY_DRIV E_B ,

AC6 B17 E4 HI_SI, HI_SO,XHI_SCK XCS_ CA M ER A XCS_M C _FLASH_C MD2_C HI_SI, HI_SO,XHI_SC K XCS_C AM ER A XCS_M C_FLASH_C MD2_C

18O V E R A LL (5/9) (P A G E3-5)

CN5002 (2/2)

LENSDR IVEB LO C K(3/3)

G Y-014B O A R DCN8501

SE8501 A C T IV E LEN SA C TU A TO R SHIFT_Y_OU T 6 SHIFT_P_OU T 5 SHIFT_P_DRIVE+, S HIFT_P _DRIVE YAW _AD _IC _7001 PITCH_AD_IC_7001 P _DRIV E_AP_DRIV E_B , PITCH _AD 2 IC_1801 _LNO PR YAW _AD 4 P IT C H

Q 2002 BU FF ER

2 4

D AT A 7 C LK 6 PITCH_AD YAW _AD

D AT A 7 C LK 6 10 IC8501 13

1

P ITC H/ 21 YAW S E N SO R 25 AMP 24 PIT CHS E N S O R SE8502 Y AW S E N SO R

08

HDR-FX1000/FX1000E_L2 3-2

3-3. OVERALL BLOCK DIAGRAM (3/9)schematic diagram where the component is located.

( ) : Number in parenthesis ( ) indicates the division number of

VC-543B O A R D (3/9)AU D IO_L_ I/O

C N1 014 AU D IO_L_ I/O

FP-973F L E X IB L B O A R D EAU D IO _L_I/O

20

JK -376B O A R D1 AU D IO _L

CN 9507 1

A : V ID E OSIG N A L A : A U D IOSIG N A L A : V ID E O /A U D IO N A L SIG

19

O VE R A LL (7/9) (P A G E3-7) A U DIO _R _I/O

6 AU D IO _R_I/O 18

31

V ID EO /D 3_P R A U DIO _R _I/O

16

V ID EO /D3_Pr 3 A UD IO _R

5 6

VID EO /D 3_P r

CN9508 9 A/V R

IC _1801_LN OPB

IC _1801_LN OY Q2 003

23 25 24BU FFER Q2 001 BU FFER LIN E _O UT _C/PB

LIN E_O U T_Y 4 CO MPO NENT O U TAM P 33

IC2001 (6/24)

2

35

1, 48 - 44 37 - 39 18

O V E R ALL (8/9) (P A G E3-8)

O VE R A LL (5/9) (P A G E3-5) S _C /D 3_PB

14

S_ Y/D 3_ Y LA NC _S IG LA N C _D C M ULTI_JAC K_IN

12 10 8 9

TPA -, TPA + ,T P B + T P B , S_C /D 3_Pb

7

S_Y/D3 _Y LA NC _S IG LA N C _D C JA C K_A D

9 11 13 12

TPA -, TPA + ,T P B + T P B , S_C/D 3_Pb

S_Y /D 3_Y LAN C _S IG LA N C _D C JA C K _A D

TPA , N TPA, T P B ,N T P B 5

10 2 4 7

CN9509

O V E R ALL (7/9) (P A G E3-7)

X V SP _S C K_BU , P _SO _BU VS 17 9 IC2002 12 V IDE O 15 O U TAM P 7 19

(6/24)

FP-981

A S-060B O A R D (2/4)

4

FP-982

PI-029B O A R D (2/4)H DV/D V

PD- 372 B O A R D

Q 60 01- Q 6003

C N6 002 BL _H

D901 (BA C KLIG H T)

F L E X IB L E BOARD (2/4)C N7 002

10

F L E X IB L E BOARD (2/4)

9 BL_V

1

CN 6001 B L_C O N T B A C KLIG H T D R IVE

BL_-V

BL_L O VE R A LL (1/9) (P A G E3-1)

IC _1801_PLR E

IC _1801_PLG R

Q2 005 BU FFER Q2 006 BU FFER C N 10 15 (2/4) P LR EPLG R

C N004 (2/4) 79

78

P A N E L_R A N EL_G P

C N 003 (2/4) 80

79

C N8 801 (2/4)

X C S _LC D _A D , X C S _LC D _A D , X C S_LC D _A D , X C S_LC D _A D , X C S _LC D _A D , X C S _LC D _A D ,

P LR EPLG R

5

C N8 802 (2/4) C N 003 (2/4)

B U FFER X C S_LC D , X C S_LC D , XC S _LC D , X C S _ LC D , X C S _ LC D ,

1 V D _SC K 2 V D _S C K XV D _SCK P A N E L_R A N EL_G P E P_X H D E P_X V D XV D _SCK X V D _S C K VD _SC K

X V D _SC K

C N 004 (2/4) 2 62 63 3 C N7 004 (2/4) 18 19 6

X R ST _V TR X R S T_V T R X R S T _V T R X R S T_V T R X R S T _V T R 17 X R ST _V T R X R S T_V TR 8

P A N E L_R A N EL_G P

21

2

20

3

R_IN G _IN

A9 K1

D2

E1

C N 6004 R 0 - R7

G0- G7 IC_1801_PLBL Q2 004 BU FFER PLBL BL_C O N T PA N E L_B B L_C O N T

77 66 78

67 PLBLBL_C O N T 4 15 PA N E L_B B L_C O N T

3 14 PA N E L_B BL_ C O N T 19 B_IN 4 F2 XH D J1 XV D K2

XC S_LC D _AD ,

IC6001 LC D D RIV E, A/D B 0 - B7

M4 L4

X HD O X VDO

12 11

LCD 901 3.2 IN CHW ID EC O L O R

IC _1801_E V R E

IC _1801_EVG R

Q2 009 BU FFER Q2 007 BU FFER Q2008

IC _1801_EVBL

E P_X H D

73

E P_X V D V D _SO , VD _S I E P_X H D EP _X V D V D _SO , VD _SI

74

74 75

E P_X H D E P_XV D V D _SO VD_ SI , E P_X H D E P_X V D

7 6

8 7

VD _S O , VD_SI

E P_X H D E P_XV D V D _SO VD _SI ,

17 16 X HD XVD V D _SO , VD _SI XVD_SCK

6 7

XR ST_VTR M3 M5 C O N VE R T E R

D C LK

13

LC D U N IT

V D _S O

20OV E R ALL (8/9) (P A G E3-8) B L_C O N T

C N1 008

FP-967F L E X IB L B O A R D E (2/2) G P-025B O A R D (2/2) FP-974 F L E X IB L E VF-178B O A R D FP-776 F L E X IB L E(2/2) 20 E V C _R 01 F N 78 (2/2) 14 E V F _R C N7 803 17 11 EVRE

BOARDE V F _R

C N620 1 E V F _R

E V F _R C N6202D 2 R 0 - R7

BOARDR0 - R 7

21O V E R ALL (6/9) (P A G E3-6) X LIN E _C N T1A X LIN E _C N T1B X LIN E _C N T2 X LIN E _C N T3A XLIN E_C NT 3B N X D4C

DD R A_S EL1 D D R A_S E L3 X PSV_D 4 X C S _ L C D _ A D ,S _ L CXDV D _ S C K XC X C S _ E V F _ A D ,S _ E V F XC EVG R

24

EVBL

28

E P_ X H D E P_X V D

32 31

EVF_G V F_B E

E P_X H D EP _X V D V D _SO , EVF_G

10

6

E V F _B

2 3

E P_X H D E P_X V D VD _S O , E VF_G

18

19

EVF_B

22 21

EP _X H D E P_ X V D VD _S O , EV F_G

10

9

E V F _B

6 7

E P_X H D E P_X V D V D _SO ,

EVF_G

E1

E V F _B E P_X H D

F2

J1 E P_X V D K2 V D _SO , VD_S I

X R S T _V T R M3 XC S_EVF_AD, XVD _SC K

IC6201 E V FD RIVE A/D C O N V E R TE R , G0- G7

B 0 - B7 V D _S C K XVD _SCK M4 L4 M5 X HD O X VDO D C LK S C K ,S C S

X V D _S C K V D _SC K V D _S C K X C S _E V F

G0 - G7

B0 - B7

35 36 33

HSY NC VS YNC D C LK

11 10 13

L CD 902 C O LO R V FUN IT E VD _S O , _S I VD VD _SI VD _SI VD _SI VD _SI V D _S O VD _SO , D_SI V

41

SI

5 X RS T_V TR X R S T_V T R X R S T_V T R

X R S T_V T R X R S T_V T R X R S T_V T R X R S T_V T R RESET

4 X C S_E V F_ AD ,

22

X C S_IC _2002

X C S_E V F_ AD , 30 XC S_EVF_AD , 4 24 X C S_E V F_A D , XC S_EV F_AD , 42 4 O V E R ALL (5/9) (P A G E3-5) X C S _E V F, X C S _E V F, X C S _E V F, X C S _E V F, X C S _E V F, X V D _S C K , 08

HDR-FX1000/FX1000E_L2 3-3

3-4. OVERALL BLOCK DIAGRAM (4/9)schematic diagram where the component is located.

( ) : Number in parenthesis ( ) indicates the division number of

VC -543B O A R D (4/9)

IC 1801_Y0 IC 1801_Y7 -

IC1801_C0 IC 1801_C 7 -

9

H D V R E C /P BHD V-i.LIN K ,

IC _2201_Y 0 IC _2201_Y7 H D V R E C /P BHD V -i.LIN K , IC _2201_C 0 IC _2201_C 7 -

N 24 N20

P23

ALE_IC_4401 W R01_IC_4401 R DX_IC _4401

27O V E R A LL (5/9) (P A G E3-5)

R Y O 0 _D E H D ,Y O 1 _D E V D , R

W R01_IC_4401 R DX_IC _4401

P24 P23

A : V ID E OS IG N A L A : A U D IOS IG N A L A : V ID E O /A U D IOIG N A L S A : V ID E O /A U D IO /S E R S IG N A L VOO VER ALL (1/9) (P A G E3-1) IC _1801_H DIC _1801_V D, , IC_1801_FLD C K _IC _2201_O

A3

IC 2801 HDV

C K_IC _2201_I A8 IC _2201_H DIC _2201_V D, , IC_2201_FLD G7 O M W EX OMCEX J2

R Y O 2 _D E FL DR Y O 3_S G O U T _, R C O 0 _ E D H D ,C O 1_ E D V D , R C O 2_ E D FL D _ , 3_F R M R E F R RCO

DV R EC HDV -i.LIN K, V-i.LIN K D P D00- P D07

PC L K 0 H7 IC 2201 T25 T23 J1 D IR 0 VS P_SI, S P _ S OX V S P _ S C K V , C ON VER TER (10/24) C7 B6 IC 2401 256M DD R-S DR AM (8/24) B MD T16- BM D T47 OM AD 00 OM AD 12, M A D B 0, M A D B 1 O O XC S_IC _2801

IN T E R L A C E /R O G R E S S IV E P

BMDQS0 BMDQS3 -

O M DQ 2 OM DQ 5 H D VO M C L K E O -M P E V ID G E N C O D E R /D E C O D E R , M P E G U D IO S IG N A L O C E S S O R A PR (7/24) R Y I0_D E 0 R Y I3_D E 3 R C I0 _D E4 R C I3_ D E 7 H Y O _S LG A T E

H C O _F Y I1 H YI_PLL27IN H C I_F YI0 T FS_FC O T H Y R Q _ FV D I DV PB

A9 B10 F7 C8 C10

IC 2601 H D V S T R E A M R O C E S S O M ,U X /D EM UX , V SIG N A L P R D PROCESSOR (9/24) R20 U21 R25 P20 XPEN0 F C LR 0 FRL X IA C C 0

28

O VER ALL (5/9) (P A G E3-5) G2

L1

11A8 O M C L KX OMCSX OH C R Q L L H D I (1/9) T V E R A _F V L A T _ S Y N C _F C I G8 (P A G E3-1) F LA T _S Y N C _F Y O 0 G9 G1 (P A G E3-5) J4 L2 C K _IC _2201_O VL AT _IN _ F Y O 1 FS_ED G E_R EF FR AT_REFO A D A TA O U T 0 A D A TA O U T 1 F2 C1 D2 C4 D3 IC_1801_S RC H IC _1801_P C R E R R F R R V , R T ,TR R V,D R P TR M C LK XC S_IC_2201 P24 M 20 IC_1801_F LD 27M F M FL G _ Q R S T C25 SW P C5 G3 F24 O VER ALL (5/9) K2 F3 F6 OMCKE

26K1 F9

G3

O M R SX

D24A00_IC_4401D31A07_IC_4401 DXXA00_IC _4401D XXA 10_IC _4401 -

D 24A00_IC _4401D31A07_IC _4401 B3 M C LK XC S_IC _2201

D24A00_IC _4401D31A07_IC _4401 -

29

IN T_IC _2201 XR ST_IC _2201 P20 D16 C K2 7 M F O 1

INT_IC _2201 XR ST_IC_2201

A D A TA IN 0 A3 A D A TA IN 1 M1 F1 D 25 F23 F24

8S C W IN XC S_IC_2601_HD XC S_IC _2601_D V A T F _LA T C H XR ST_IC _2601_D V O VER ALL (5/9) (P A G E3-5) E3 G23 H 24 E1 D 23

XR ST_IC _2601_ J3 H 23 CK_IC _2201_I IC _2201_V F_S Y N C AU IN21 CK_IC _2201_I IC _2201_V F_S Y N C AU IN21 A22 E 18 N23 A C 17 AA16 AUDAO AUDAI AUENO B19 B16 R1 W6 R FIN RECDT R EC CK A U IN22 A D A TA IN 0 N21 AC 18 Y17 AUENI C19 C16 W1 U3 H D VP B ,D V P B H D V R E C ,D V R E C

XRST_IC_2601_2

AU IN22 A D A TA IN 0

RECA1

30O VERALL (1/9) (P A G E3-1)

A D A TA IN 1 C K2 7 M F O 1 CKFSO CK64FS O A D A TA IN 1 C K2 7 M F O 1 C KFSO CK 64FS O M 23 M 21 A20 P21 M 24

AD 17 AD 16 AD 12 AD 18 H D V R E C /P BHD V-i.LIN K , EBS[0]- EBS[7] E R EE R D Y KCLK

V3

F19 F16 A 2 0C A 2 RE O VER ALL (6/9) (P A G E3-6)

CKFSO L1 CK 64FSO M3

08

22 31

HDR-FX1000/FX1000E_L2 3-4

3-5. OVERALL BLOCK DIAGRAM (5/9)schematic diagram where the component is located.

( ) : Number in parenthesis ( ) indicates the division number of

V C-543B O A R D (5/9)X CS_FLAS H X CS _FLA S H XRS T_V TR

H2

F1 B4

H DV-i.LINK, DV-i.LINK

H DV-i.LINK, DV-i.LINK

25FLASH _A15 FLASH_A20 -

A : V ID E O /A U D IOIG N A L SIC2402 16M FLASH PD00 - PD07

E12 TPA+,TPA-,TPB+,TPBO V E R A L(3/9) L (P A G E 3-3)

27ALE_IC_4401 K4 W R01_IC_4401 L1 RDX_IC_4401 L4 DXXA00_IC_4401 DXXA14_IC_4401 O VE RA LL (4/9) (PA G E3-4)

D 2 4 A 0 0 _ IC _ 44 - D 3 1 A 0 7 _ IC _ 44 0 1 01 (8/24)

28

O V ERA LL (4/9) (P A GE3-4) PC LK0 DIR0 X PEN0 FC LR 0 FR L VS P_SO X VS P _S CK , XR ST_VTR O VE RA LL (6/9) (P A GE3-6) X IA CC0 C1

L8 M8 L9 J8 J9 V S P _S I, S P _ S OX, V S P _ S C K V

M9

X3401 SW P Y18 AB18 X RST_V TR XCS_IC_2002

O VE RA LL (3/9) (P A GE3-3) W R01_IC_4401 E1 RDX_IC_4401 D1 IC3401 C2 HDV/DVi.LINK IN T E R F A C E (13/24) 24.576 MHz F23 J2 E20 D 22 IC_3401_PLL_ON XCS_IC_3401 XRST_LINK XR ST_PH Y PW D,C NA ,LPS, O F R2 TRRT IC_3401_PLL_ON XCS_IC_3401 XRST_LINK XR ST_PH Y PW D,C NA ,LPS, O F R2

26 37 13 14 5TRRT B8 E2 J6 D7

D12 IC4401 (1/2) M ECHAC ON T R O L (18/24) D24A00_IC_4401 D31A07_IC_4401 DXXA00_IC_4401 DXXA07_IC_4401 F R R TR RV, DRP V, D24A00_IC_4401 D31A07_IC_4401 DXXA00_IC_4401 DXXA07_IC_4401 -

V10

M ELOD Y

Q3602,Q3603 M OD ULA TOR

K ASY A ON

OV E RA LL (1/9) (P A GE3-1) K1 MCLK D24A00_IC_4401 D31A07_IC_4401 DXXA08_IC_4401, DXXA09_IC_4401 XR ST_VTR SD _O S D _VD

O VE RA LL (1/9) (P A GE3-1) V11

W 10 M ELOD Y _E NV KA SYA ON R E C _P R O O F CHIM E_SD A, HIME _S CL C XCS_IC_4401 OV E RA LL (7/9) (P A GE3-7)

OV E RA LL (6/9) B7 C KFSO P10 C7

B8

VREF

36

(PA G E3-6) Y8 IC_1801_OE RE F G4 MCLK D24A00_IC_4401 D31A07_IC_4401 VSP_SI,VS P_S O XVS P_S CK , D7 J1 E22 A6 XCS_IC_2801 XCS_IC_2201 XRST_IC_2201 INT_IC_2201 XCS_IC_1801_IC_4401

O VE RA LL (4/9) (P A GE3-4)

O V ERA LL (1/9) (PA G E3-1)

29 18XCS_IC_1801_VM DSCK_VM XWAIT_VM D0_VM - D15_VM

A1_VM - A19_VM

D0_VM - D15_VM

A1_VM - A22_VM B16 A10 V19

IC3601 (1/2) D S C ON TR O L, C O N TR OL HI (14/24)

AA 11 B4

Y10 R10

X C S _E E P E EP _X RD Y

1 3

IC3805 64K HI_SI, HI_SO ,XH I_SCK HI_SI, HI_SO ,XH I_SC K X CS _CAM E RA 2SS_KEY_AD 2 X C S_M C _FLASH _C MD2_C

OV E RALL (2/9) (PA G E3-2) FRRV F R R TRRT, TRRV, DR P V, E EP RO M (15/24) SW P

D24A00_IC_4401 D31A07_IC_4401 DXXA00_IC_4401 DXXA10_IC_4401 SW P

35 IC3806

C KE _VM E EP _TX D3, EE P _RXD3, _S CK 3 E EP

FP-971 F L E X IB L E BOARD (2/4) M S-405B O A R D (2/4)CN8602 SCW IN XCS_IC_2601_HD O VE RA LL (4/9) (P A GE3-4) IC3804 15 53 16M SDRAM 34 18 (15/24) XC S_SDR AM B 21 D 18

35C18 C17 CN1012 (2/4) (2/4) CN8603 G1 O V ERA LL (8/9) (PA G E3-8) XS YS_R ST 13 32M FLAS H (15/24) A18 19 H4

XCS_IC_2601_DV AT F _LA TC H

XC S _FLASH _VM

MS_DIO,MS_BS,MS_SCLK M S _ D IO , S _ B S , S _ S C L K M M DIO, BS, S CLK M EM OR Y TICK S

CN1004 (2/2) B22 RF_M ON G2 D13 B13 XRST_IC_2601_DV XRST_IC_2601_1 XRST_IC_2601_2 VS P_SO X VS P _S CK , A15 Y18

Q3601 LED D RIVE XMS_IN XM S_LED _ON XMS_IN MS_LE D _ON 21 12 XMS_IN MS_LE D _O N IN S 6 21 12

D8601U O P RO D 19 L23

38SIPA_CLR S IP A_RC K

O V ERA LL (7/9) (MS A CC E S S ) K20 K22 SIP A_E N ABLE

OV E RALL (6/9) (PA GE3-6)

32

(PA GE3-7)

17 16 C PC (F O RCH E C K ) 11

SW P FRRV

E EP_S I_S E EP _S O_S

A B 14 AB 17 A C 17

X C S_D A1 XCS_IC_8007

D23

HP_JAC K_IN

VSP_SI,VSP _S O XVSP _SCK , B10 HDMI_SCL

O VE RA LL (7/9) (P A GE3-7)

33O VE RA LL (8/9) 9 7 4 2 1 3 5 D10 Y15 A C14 AB13 E4 B17

E EP _S CK _S MD2 X CS _M C_FLA SH X SYS _R ST XC S_MC _FLASH _C

MD2_C HDMI_SDA XRST_HDMI AB10 XCS_IC _3201

34

(P A GE3-8) 08

HDR-FX1000/FX1000E_L2 3-5

3-6. OVERALL BLOCK DIAGRAM (6/9)schematic diagram where the component is located.

( ) : Number in parenthesis ( ) indicates the division number of

N M EC HANISM D (MDX-N220) MD-141B O A R DV ID E OH EA D

R E C D T R E C C K R E C A 1 RECDT RECCK RECA1 X O D D ,Y O D D CN 5201 O DD

46 44

A : V ID EO /A U D IO /SE R V O N AL SIG A : SERVO SIG N AL

R EC A2 R FIN R EC A2 R 40 F IN 42 IC E V E X E V E NY5201 N , S W P SWP 35 R EC /P B P AM

VC-543B O A R D (6/9) FP-983 F L E X IB L E O A R D B

CN 1001 C N001

C N003

CN 5001 C O N T 1SW _P S,ALL_P S , R F _M O N

IC 5004 C O N T 1SW _PS ,A LL_P S , R F _M O N (2/3)

38

30

CN 5402

31 30 7

M901 D V E N M O TO R E RUM

O V E R A LL (4/9) (P A G E3-4) RECDT RECCK R EC A1 R EC A2 H D V R E C ,D V R E C RECDT 16 R EC CK 19 R EC A1 23 22 RECDT RECCK R EC A1 R EC A2 DRUM _PW M

64 61 57 58

RECA2

C AP _P W M 44 IC 5401 (1/3) 41 45 (3/3) D R U M _E R RO R 14

(1/3) PW M D R IV E DRUM _V S 8 DRUM _V S

D R UM _FG

53 D RU M_U, W V,

52

D R U M _FG _SE N S

1

MD RUMF G O VE R A LL (1/9) (P A G E3-1) R F IN C K 13M F O 1 H D V P B, D V P B R FIN 29 41 CK 13M F O 1 R F IN C K 13M F O 1 V SP _S OXV SP _S C K , XFFR EW U P Q 5401 SW ITCH C A P S T A N /D R ULM /A D IN G M O T O R IV E O D 43

51 39

C AP_ERR OR IC 5003 14 (1/3)

8

C A P _V S

D RU M _P G 50 IC5401 (2/3) 49 51 59 2 3 4

D R UM _P G _S E N S FG _PG _C O M DRUM_COM D RUMP G

O V E R A LL (5/9) (P A C E V SP _S OXV SP _S G K3-5) , SW P X R S T _V T R V SP _S OXV SP _S C K , C K 13M F O 1 X RS T _V T R VS P _S OX V S P _S C K , PW M D R IV E (3/3)

V S P _S OX V SP _S C K , 35 34

C A P S T A N /D R ULM /A D IN G M O T O R IV E O D

O V E R A LL (2/9)

S Y S _V X4401 20M Hz D1 C1

40AB9 L22 A11 X CS _IC_5401 LM _LIM _D ET S R E E L_ F G X CS_IC_5401 38 LM _LIM _DET 50 S R E E L_ F G 48 X CS _IC_5401 LM _LIM _DET R E E L _F G S X CS _IC _5401 D R UM _FG U M _P G DR

42 30 32

37

C A P _V S C A P _F W D , CN5403 C A P _U V, W , UHE , VHE , M903 C A P ST A N O TO R M

M

(P A G E3-2)

17

X FT R _N R

O VE R A LL (8/9)

N TS C /X P A L_D E T V22

B4

C A P _FW D , IC 4401 C AP_ON CA P_FG C AP_O N

C A P _F G W HE FG 1, FG2 H U , H V, HW

4

C A P ST A N G F X S Y S _R S T (P A G E3-8) R 4402 F2 F4

39

(2/2) M E C H A C ON TR OL (18/24)

A9 B9 D 11 C O N T 1SW _PS ,A LL_P S , D R UM _FG U M _P G DR CA P_FG C O N T 1S W _P S,ALL_P S , 53 51 55 D RU M _P G 27 29 25 D RU M _F G C A P _F G

C O N T 1SW _PS ,A LL_P S , D RU M _F G R UM _P G D C A P _F G

D E W _D E T M OD E_SW _A M O D E _S W _C CN5401 D EW _D E T M OD E_SW _A M O D E _S W _C -

6

DE W S E N S O R S903 M O D ESW IT C H

FP-031 F L E X IB L E O A R D BO VE R A LL (9/9) (P A G E3-9) R E C _V O L_A /D _ CH 1 Y22 C A P _F W DC A P _ O N , C A P _F W DC A P _ O N , C A P _F W DC A P _ O N ,

M902

36 21X LINE _C NT 1A X LINE _C NT 1B X LINE _C NT 2 X LINE _C NT 3A

P 20 F20 P 22 P23 A C13 B15 XFFR EW U P TAPE_LED _O N 45 54 12 X FF R E W U P T A PE _ L E D _ O N SW P LO A D ,UN LO A D LM _LIM _D ET TAPE_LED_O N 35 26 68

X FFR EW U P

SW P

31 IC 5401 (3/3) LM_ (LO AD IN G O T O R ) M

MQ901

D902

X LINE _C NT 3B X D 4C N REC_PRO OF

N 20 R E C _P R O O F 68 T A PE _ E N D 21 20 (3/3) T A PE _ E N D _ C 28 T A P EE N D SEN SO R (TA PELED ) 12

O V E R A LL (3/9) (P A G E3-3) X C S _LC D _A D X C S _LC D X C S _ E VF _ A D X C S _E V F R 22 F1 D8 A B12 D6

LO A D ,UN LO A D

LO A D ,UN LO A D T A PE _ T O T R E E L_ F G P C A P S T A N /D R U M / L O A D IN G 19 M O T O R R IV E D 18

LO A D ,UN LO A D

29 TAPE_TO P_C 16

T _R E E L_ Q902 T A P ET O P S E N S O R H 902 T REEL ENSOR S

O V E R A LL (5/9) (P A G E3-5) X PS V_D 4 D D R A _S E L1 D D RA _S E L3 -

V D _ S OV, D _ S I, V D _ S C K X

XCS _IC_4401 H I_ S H I _ S O ,H I _ S C K I, X

R E C _P R O O F

38 41N23

AC6 Y14 A C 15 AB 11 Y11 B11

V23 DR UM _PW M C AP _P W M T A PE _ E N D T A PE _ T O P T R E E L _F G

D E W _D E T M O DE _SW _A O D E _S W _C -M DR UM _PW M C AP _P W M T AP E _ E N D T AP E _ T O P T R E E L _F G

33 32 47 49 46

47 48 33 31 34

11

D EW _D E T

69

M O DE _S W _A O D E _S W _C -M 44 D RUM _PW M C A P_PW M T A P E _ E N D T A P E _ TT RP E L_ F G O E 36 X RS T _V T R

D EW _D E T OD E _S W _A MO D E _S W _C M X R S T _V T R S R E E L_ F G

T A PE _ L E D _ O N

R E C _ P R O O FH IM E _S DA , C CH IM E _S C L

Q 5403 L E DD R IV E 25

MT_5V

R5413 S _R E E_ L

TA PE _LE D _K TA PE _LE D _A

25 26

REC_PRO OF

11

C HIM E _S DA , H IM E _S C L C H901 S R E E LS E N S O R

M IC902 S902 (R E CP R O O F )

4PIN CO NNE CTO R

O V ER A LL (8/9) (P A G E3-8) O V ER A LL (5/9) (P A G E3-5) C HIM E _S DA , H IM E _S CL C

XCC _DOW N R F _M O N C H IM E _ S DC H IM E _ S C L A,

74

X C C _D O W N

6

4226 C HIM E _S DA , H IM E _S CL C 54 R F _M O N

XCC _D OW N RF _M O N

X C C _D O W N

X C C _D O W N

18

S901 (C C D O W N )

08

HDR-FX1000/FX1000E_L2 3-6

3-7. OVERALL BLOCK DIAGRAM (7/9)schematic diagram where the component is located.

( ) : Number in parenthesis ( ) indicates the division number of

VC-543B O A RO V E R A LL (8/9) (P A G E 3-8) IC _1 801_A D A O 1_B U C K F S O _ BC K 64 F S O _ B U C K 2 5 6 FS O _B U U AU IN 11 A U IN 11 9 2

FP-982 FP-981CKFSO 10 12 K6 6 C K F S O CB U 4 F S O _ C K 6 4F S O _B U IC 8003 A U D IOA/D 1 6 8 14 12

MA-454B O A R D

FP-975 PI-029 B O A R D F L E X IB L E AS-060B O A R D F L E X IB L EC K 2 56 F S O C K 2 56 F S O _B U 7 11 C O N VRT E R E 13

(3/4) R D BOA (3/4) R D BOA

F L E X IB L E

O VERALL IC _1801_A D A O 1 IC 8006 9 (24/24) 11 13

1

M IC901 (M IC R O P H O N E ) CN 8301 INT _M IC _TO P_R ch IN T_M IC _

6 5 7

IC 8302 R 83 18

C N8303

BOARD

C N7011 C N 7004 (3/4) (3/4) C N0 04 (3/4)

C N0 03 (3/4)

C N 8802 (3/4)

C N 8801 (3/4) (3/4)

C N0 03 (3/4) C N 1015 C N0 04 (3/4) (1/9) (3/4) (P A G E3-1) XPO W E R _D OW N _D A1 5 BUFFER (24/24) 15

IC _ 1 8 0 1 _ A D A O 1 _ B U (Rch) B O TO M _R ch

3

11

3

M IC AM P 2 1 3 R 8313 M IC _R C H 7 M IC_LCH M IC _R C H 18 M IC_LCH 2 3 1

6

4

IC 7003 IN T_ R C H _O U T IN T_M IC_ 2 48 47 IN T_M IC_1 IN T_ M IC _2 33 IN T_M IC _2 INT_ V S P _ S O ,V S P _ S C K X XC S_D A1 V SPV_SSPO__SBOU_, BXUV,SXPV_SSPC_KS_CBKU_B U X CS _ IC _3 00 2_ B U 10 IC 8004 A U D IOD /A 5 4 18 T_ L C H _O U T IN M IC AM P 6 7 67 M IC _1 13 4 16 X P O W E R _ D O W N _ IC _ 3 0 0 2 _ B U 6 C O N VRT E R E 68 14 IC 8304 1

34

IN T_M IC _1

M IC903 (M IC R O P H O N E ) (Lch) 3 1 IN T_M IC _ P _ R ch TO IN T_M IC _ TO M _R ch BO CN 8302

6 5 2 3

7 IC 8303 M IC A M P 1

R 8317

R 8315 M IC AM P 3 2

D 8301

F _T A L LY _L E D 13

37F _T A L LY _ LE D (1/2) 9 5

F _T A L LY _L E D

29

F _T A L LY _L E D

28

X F_ TA L L Y _ LE D

53

5 C K FS O _B U 4 C K 6 4 FS O _B U 2 C K 2 56 F S O _B U 1

32

V S P _S O _B U ,V S P _S C K _B U X (24/24)

23

O V E R A L (3/9) L (P A G E 3-3) 6 7 (R E CLAM P(FR O N T )) 2 1 IC 8301 G A INC O N TR O L

IN T _R E F OVERALL (5/9) (P A G E3-5)

S IP A _R C K S IP A _ CL R

S IP A _E N A B L E

Q 8007 S W IT C H

83, 84 IC 8005 12 10 13 3

S H IF T E G IS T E R R (24/24)

7

IC 7105 1

MJ-002 B O A R D (BY)

G A IN 6 2 CO NTR O L X C S_IC _8007 KASYAO N O VE R A L (5/9) L (P A G E3-5) C N9001 (2/2) IN T_ M IC _1 J9001 C N7101

85 6 93

27

M IC (PLU GIN P O W E R ) E X T_M IC _JA C K_IN 5 4 E X T _L C H 2 10 E X T _R C H 3 1 EX T_M IC _JA C K _IN E X T _L C H E X T _R C H 1 3 5

1 3 5

C8 C1 IC 7101 E X TM IC

G6 H2

2 6

1 IC 7104 7

E X T_LC H _O U T _R C H _O U T EXT

A U _M IC _-1 63 A U _M IC _-1 62 19 IN T_M IC_2 A U _M IC _-1 9 3 75 74 3 77 5 E X TM IC AM P AUD IO _L_I/O (2/2)

A U _M IC _-1 A U_M IC_-1

5

91

18

AM P (2/2) A U _M IC _-2 A U _M IC _-2 51 50 A U _M IC _-2 30 AU _M IC _-2

31 A U _M IC _-2

IC8007 76 7 A UD IO _R _I/O

19

A U D IO O N T R O L C (24/24) 78

44

H P_L_O U T

H P _R _O U T 46 Q 8003 M U T IN G Q 88004 M U T IN G O V E R A L (3/9) L (P A G E 3-3)

43

Q 8002,Q 8006

XLR _M IC / M U T IN G EX T_M IC _JA C K _IN

75 74

LIN E _1/ X E X T _M IC XLR _M IC /LINE _1

7

6

E X T_M IC _IN S P_+,S P _Q 8001,Q 8005 M U TIN G

43O V E R A L (8/9) L (P A G E3-8)

X F _ T A LL Y _ LE D 52 XC H AR G _ LE D

33O V E R A L (5/9) L (P A G E3-5)

H P _JA C K _IN

HP-153B O A R DC N9201 H P _ JA C K _IN H P_L_O U T HP_R_O UT

1 3

8 6

5

4

S P 901 (L O U D S P E A K ER )

SP (+),SP(-) C N 7003

S P(+), SP(-)

S P_+,S P _-

S P_+,S P_-

8 C N1011

1

X C H A R G _ L ED

D 9201 CHG J9201

i(H E A D P H O N E ) 08

A

: A U D IO IG N A L S

HDR-FX1000/FX1000E_L2 3-7

3-8. OVERALL BLOCK DIAGRAM (8/9)schematic diagram where the component is located.

( ) : Number in parenthesis ( ) indicates the division number of

V C -54 3B O A R D (8/9)

HM _Y0- HM _Y7 HM _R0- HM _R7

HM _Y0- HM _Y7 HM _R0- HM _R7

D E _ H D MD 0 _ H D M ID 2 3 _ H D M I I, -

FP-965F L E X IB L E BOARDC N 1002 C N001

A : V ID E OS IG N A L A : A U D IOS IG N A L A : V ID E O /AU D IOIG N A L S

12O VERALL (1/9) (P A G E3-1) HM _B0- HM _B7 HM _H D HM _VD H M _FLD IC_1801_AD AO 2 C K_H M C K 7 4M FO HM _B0- HM _B7

42H M _H D H M_ VD H M _FLD IC_1801_AD AO 2 C K_H M C K 7 4M FO

IC3 201 C4 HDM I E9 S IG N A L E1 PRO CESSO R (11/24) G1

C7 C6

F12 H 12

H SYN C _H D MV SY NC _HD M I I, AD AO 1_H D MAD AO 2_HD M I I, ID CK

IC 3301 HDM IT R A N S M ITT E R D1 K3 TX0 , TX1 , TX2 (12/24)

TXC

HPD TM DS DATA0 - T M D S DATA2

TM D SC L O C K

2

HPD

19

HDMI OUT V SP_SI, S P _ S OX V S P _ S C K V , G 11 F10 2 56FS_H DM I 64FS_H D M I S D A ,S C L S D A ,S C L X CS _IC _3201 XR ST_H DM I VVSSPP__SSII,,VVSSPP__SSOO,,XXVVSSPP__SSCCKK

E1 H2

34C KFSO_BU X C S_IC _3201 XR ST_H D M I C2 F4 E11 J10 FS _H D M I H1 O V E R A LL (5/9) (P A G E3-5)

O V E R A LL (7/9) C K(P AF SE3-7) U 64 G O _ B C K 2 56 FS O _ B U IC_1801_AD AO 1_ BU E10 D 10 C 11

HD MI_SD A, D M I_SC L H H DM I_ SD A, DM I_SC L H

X C H A R G _L E D X F_TA LLY _LE D

41 24 39 1

G 11

N T S C /X P A L _D E T XS YS _ R S T SY S_V OVERALL (6/9) (PA G E3-6) OVERALL (2/9) S YS _V

C7

E10

N T S C /X P A L _D E T B8 N TS C /X P A L_ D E T

16

(PA G E3-2)

43A8 OV ERALL (7/9) (PA G E3-7) XS YS _R S T

X4001 32.768kH z L2 X SY S _R S T X SY S _R S T

L3

X SY S _R S T OVERALL (1/9) (PA G E3-1) OVERALL (5/9) (PA G E3-5) L6 M UL TI_JAC K_IN

E XT _M IC _IN

V9 M UL TI_JAC K_ IN LANC_DC

OVERALL (3/9) (PA G E3-3)

FP-971

MS-405B O A R D (3/4)

C O N T R O SW ITC HB L O C K L

A2

XCC_DO W N

OVERALL (6/9) (PA G E3-6) LA N C _S IGC N1012 (3/4) F L E X IB L E B O A R D (3/4) C N8602 C N8606 (PZ24000)(2/2)

LA N C _S IG

(3/4) 5 L AN C_ SIG LA M C_JA CK _IN (2/2) LA NC _S IG 9 J001

LA N C _S IG

IC 40015

L86 8

X LA N C _JA C K_IN XLA N C _JA C K _IN6

X LA N C _ JA C K_ IN K3 LA N C _S IG

F R O N T O N TR O L C

XLA MC _ JA CK _IN LA N C

CH 1_AU T O /M AN U AL CH 1_IN T/X LR 1 KE Y_A D 0

Y3 P9

IC 3601 (2/2)

D S C O N T R O L, (16/24) B 10 C 10 B1 B5 A6 LA NC _IN NC _O U X LA N C _P W R _O N A N C _ O N LA T XL X C S_D D 1 LAN C _IN A N C _ O U XLA N C _P W R _O N N C _O N C S_D D 1 L T X LA X J3 J2 L3 M3 K 13 LA N C_D C L2

7 LA N C_D C 7 LA N C_D C LA N C _D C 7

KE Y_A D 1

C 5 HI C O N TR O L

35B3 (14/24) F R _ E V E R _ S OR _ E V E R _ S C K F, F R _ E V E R _ S OR _ E V E R _ S C K F, KE Y_A D 3 D2 K EY _A D 4

M 15 X F U P SAT T B A TT _IN

F2

A7

B A TT _IN

N2

44OV ERALL (9/9) (PA G E3-9) K EY _A D 5 K EY _A D 6 K EY _A D 7 K EY _A D 8 D IAL_A_VM D IAL_B_VM

X V T R _O N _S W X C A M _O N _S W E2 E1 C2 B5 A3 W9 R8

W3 D 13 N 14

OS D_V X H ID S _R ST X H ID S C O N _M A D

D3 C8 G1

IC _4001_TXD 0, _4001 _R XD 0, IC IC _4001_S CK 0, _4001_XC S0 IC

B4

E3

V T R_D D _O N IC4 601

V T R _D D _O N

D C C O N T R O L, E S E TL A N CD R IV E R , (19/24)

IC_5401_13.5V A_1.2 D _1.2 D _1.2 V_ K V, V, D _1.0V E P _2.8 , D _2 .8 A_2.8 V V V, A_4.6 R P_4.6V, _4.6V V, AU D _1.5V A3 XRESET E P _1.8 , D _1 .8V V B2 B3 D _3.8V,M S_3.8V D _2.5V SP_+5V, LEN S _5VM T_5V,BL_ 5V , K2 XRESET XB A TT _IN FO _S W

X EJ E C T _S W D D _V R E F

P3 P5

15OV ERALL (2/9) (PA G E3-2) XRESET

K EY _A D 4 X B _T ALLY_LED

E11 Q 46 01,Q4602 S W IT C H D D_S D 1 N9

20D 14 E13 D4603 B L_ CO N T OVERALL (3/9) (P A G E3-3)

08

HDR-FX1000/FX1000E_L2 3-8

Ver. 1.1 2008.11The changed portions from Ver. 1.0 are shown in blue.

3-9. OVERALL BLOCK DIAGRAM (9/9)schematic diagram where the component is located.KY-105B O A R D F P -982 F L E X IB L E B O A R D (4/4) AS-060B O A R D (4/4) F P -981 F L E X IB L E B O A R D (4/4) VC-543B O A R D (9/9) FP-971 F L E X IB L E O A R D B MS-405 B O A R D (4/4) C O N T R O L ITCHB L O C K SW (PS24000)CN8802 CN8801 N 0 04 C N0 03 C CN1015 REC S7206 CN7201 (4/4) CN004 CN003 (4/4) (4/4) (4/4) (4/4) (4/4)

( ) : Number in parenthesis ( ) indicates the division number of

PI-029 B O A R D (4/4)

CN7004

CN7007

(4/4)

S TAR T/STO P DISPLAY/ B ATTIN F O X BATT_IN FO _S W 8 XB ATT_INFO _SW 7 X BATT_IN FO _S W (4/4) 37 (4/4) 36 X BATT_IN FO _S W 44

45 XBATT_IN FO _S W

CN1012 (4/4) CN8602 (4/4) CN8605 S301

z S7207 RESE T 10

XRESET 5

XRESET 27 55 XRESET

XRESET 26

XRESE T 54 K EY _A D 0 1 S /S PO WER C AM ER A S7201,S7204,S7209,S7211, S7214, S7216, S7217 1 6 S/S

S /S

S L O WT

F FM

R7205 A S S IG N R7208

K EY_AD 0

3

12

KEY_AD 1

K EY_AD 1

38

37 S8801 - S8803

44

KEY_AD 1

43

KE Y_A D1

C H1 _AUTO/M ANU AL K EY_AD 0 XVTR_ON_SW XCAM_O N_SW XVTR_O N_SW 3 3 XC A M _O N _S W 2 2 XVTR_ON_SW XCAM_O N_SW XVTR_O N_SW 4 XCAM _ON_SW 3 O F F(C H G ) VCR P L A YH REC R7212 R7215 K EY_AD 6 47

48 KE Y_A D6

K EY_AD 1 K EY_AD 3

C O N T R O S W ITC H L O C K L B (CF24000)R E Wm STO P s R7219

4

5

6

43 K E Y _ A D 6 _C K KEY_AD 6_ CK 42 K EY_AD 4 K EY_AD 5 K EY_AD 6 CN8004 IRIS/EX PO S UR E _KEY_AD5-4 11 IRIS_E XPO KEY_AD5-4 S204 IRIS/ S7202, S7205,S7210, S7213

PAUSE X M E M O R (V C R ) Y R7206 R7209 R7211 K EY_AD 2 10 5

KEY _AD 3 32 50 KE Y_A D3 K EY_AD 3

K EY_AD 3 31 49

44O VER ALL (8/9) (PA G E3-8) K EY_AD 7 K EY_AD 8 DIAL_A_VM DIAL_B_VM XVTR _ON _SW

L

CN1016 (2/2)

(MH

)CN8001 (2/2) K EY_AD 5 G AIN KEY_AD5-5 G A IN KEY_AD5-5

12

G AINL K E Y _AD5-7 E X P O S UR E S201 G AIN

P LA Y IN D E X D E L E T E R 7214, R 7216, R 7218 RPAN EL_7204 7202, R R E V ER S E 12 KE Y_A D4 6 3 9 PA N E L_R E VE R S E K EY_AD 4

K EY_AD 4

36 KEY_AD 4

35

46

K EY_AD 4 45 AM_ON _SW XC X BATT_IN FO _S W X E JE C T _S W X EY_AD 5 KRESET 4 21

G AIN H K E Y _AD5-6KEY_AD 5-7 G AINL 10 9 G AINH KEY_AD5-6

S202 S205 (G AIN H/M/L) V O L U M E /M E M O R Y R 7207 W HT BAL

+DATA O D E C R 7210 R 7213 W HT BAL KEY_AD6-1 W HT BAL KEY_AD6-1

-

5

Z E R O E TM E M S R 7217 P A N E L_O PEN K EY_AD 6_C K W TB B KEY_AD6-7 S7203, S7208,S7212,S7215 13 2 3 22 7 W TB P RE S E T KEY_AD 6-6 S206 W T BM E M O R Y R E S E T /A /B P PA N E L_O P EN KEY_AD 6_C K B

8 A

HT-002B O A R DS7401 (PANELR EV E R S E )

CN7401 O n e P u s W B K E Y _ A D 5 -3 h 6 W T BO N EP U S HK E Y _A D 5 -3 PRESET S207 SHUTTE R

CN7005

P A N E L_R E V ER SE 1 1

P A N EL_R EV E R S E

C O N T R OSLW IT C H L O C (A U 2 40 0 0 ) B KS P E E D E Y _ A D 6 -2 K 4 A U T O /L O C K S H U T T E S P E E D E Y _A D 6 -2 R K S203 S H U T TE R P E E D S

C K -2 0 4 O A R D BC N8003

FP-966F L E X IB L E O A R D B

(2/2)

IC403

PAN E L_

ASSIG N S001 1 S002 2 10 A S S IG N E Y _ A D 8 - 1 K1

11

A S S IG N E Y _ A D 8 -2 K2

CN8001

CN1016 K EY_AD 7 2

23

KEY _AD 7

R 80 19 L O C K E Y _ A D 7 -7 3 R 80 01 , R 80 04 , R 8 00 7, A U T O L O C K C K E Y _ A D 7 -7 LO K A U TO M ANUAL S208

M A G N E T IC SE N S O R 2 (PANELO P EN/C LO S E )

P A N E L_O PEN OPEN 9 Q P A N E L _ 7 0 01- Q 70 05 P A N EL_O P EN S003 3 12 A S S IG N E Y _ A D 8 - 3 K3

R 80 18 R 8 02 2 (1/2) K E Y _A D 8 19 (1/2) KEY_AD 8 6 R 80 11 , R 80 15 IC402 M A G N E T IC N S O R SE (PAN ELNORM AL)2

P A N E L_R E _O P EN R E_ OPEN

7

CN7013 (2/2) IN T E R F A C E P A N EL_R E VE R S E

D_2.8V S005 AU D IOLE VE L AU TO MAN

RV002 AU D IOLE VE L (DIAL)

13

R EC _LEVEL_VO L_C H 1

9

C H1_AUTO_M AN UAL

9

16

11

14

R EC _VOL_A/D_C H 1

CH1_AUTO/M ANUAL

DIAL_A_VM 22 DIAL_B_VM 23

3 2

D IA L _ A _ V M D IA L _ B _ V M

CN8002 E X E CKE Y_AD7-1 4 DIAL_A_VM 2 DIAL_B_VM 1

C O N T R O S W ITC H L O C K L B (KP24000)S304 SEL/ PU SHE X E C

E X E CKE Y_AD7-1 DIAL_A_VM DIAL_B_VM S301 - S303

S009 FO C U S AUT O MAN INFINITY 5 4 F O C U S _ A K ETYO_ A D 8 - 6 U F O C U S _ I N F KN I Y _ A D 8 - 7 I E TY R 8 03 1

R 80 29 , R 80 30

X E JE C T _S W M ENUKEY_AD7-2 P IC _PR O F EY_AD5-1 K

X E JE C T_S W 5

6 STATUS_KEY_AD 5-2 7 M EN UK EY _AD7-2 P IC _PR O F EY_AD5-1 K

S T A T U C H E C K E Y _A D 5-2 S MENU P IC T U R E P R O F IL E STATUS S004 PU SHAU T O 08 P U S H U T O O C UKSE Y _ A D 8 - 4 A F

1

R EC _VOL_A/D_C H 1 20 5

40

FP-969F L E X IB L E O A R D BCHECK O V E R ALL (6/9) (PA G E3-6) CN8005 X E JE C T _S W 1

X E JE C T _S W S101 (EJE CT )

HDR-FX1000/FX1000E_L2 3-9

3-10. POWER BLOCK DIAGRAM (1/4)schematic diagram where the component is located.

( ) : Number in parenthesis ( ) indicates the division number of

VC-543B O A R D (1/4)1 C N 4602 A C V _U N R E G B A T T /X E X T

C N901

LF4601 F IL T E R E V E R _ 3.0V 2.5V R E G IC 4607 (19/24) 4 VDD VOU T 3

D _2.5V D C IN

3 2

Q 46 15, Q 4616 Q 46 18, Q 4619 F4603 S T _U N R E G S T _U N R E G 1 CE D _1.2V_ K

S W ITC H

S W IT C H D4622

F4604

L4618 D _1.2V A_1.2V

D4621

(

)

Q 46 17 F4606

F4608 H 1 5 P V D D 1a H 1 4 PV DD 1b D 1 5 D VD D 3 J 1 5 P V D D 3a J 1 4 P V DD 3b LX1a G 1 5 LX1b G 1 4 IN1 H 1 3 LX3a K 1 5 LX3b K 1 4 L4601

L4606

D _2.8V L4612 A_2.8V

D _2.8V

BS W IT C H

C2 C1 F4607 E 1 P V D D 2a E 2 P V DD 2b IN3 J 1 3 LX2a D 1 LX2b D 2 IN2 E 3 L4605 D _1.0V POW ER (2/4) (P A G E3-11)

CN 4601 + 1 B A T T_ S _ UN R E G DC P A C K _S W

R 1 1 P V D D 4a P 1 1 PV DD 4b R 1 0 P V D D 6a P V DD 10 A 3 P V DD 12 A 4 LX4a R 1 2 LX4b P 1 2 IN4 N 1 1 LX6a R 9

L4602

L4608

L4615 L4613

A_4.6 V AU _4.6V L4610 2 BA T T_SIG 3 C 3 I_ CH A R G E IN H H 2 P U I_B A TT _X E X T P 1 0 PV DD 6b LX6b P9 IN6 N 1 0 IC 4612 3 .3V R E G D _1.8 V

BT901

S

B A T T E R Y ER M IN AL T

IC 4603 -2.8V R E G (19/24) D4_-2.8V

4

B A T T_ G N D

A 4 X PU IO _S IO _IB 4 VDD VOU T 3 2 Vin Vout 5 D _3.3V

A/V R

JK -376 BOARDC N 9508 4

C N 9507 13

FP-973F L E X IB L B O A R D E

HP-153B O A R D

C N 1014 8 LA NC _ D C

IC4 001 F R O N T O N TR O L C (16/24)

AI_ A C V S E N S E J7

F 1 P V D D 7a F 2 P VDD 7b

R4026 V T R _U N R E G

V T R _U N R E G

LX 7a G 1 LX7b G 2 IN7 F 3 O UT 9-1 A 1 3 16V_IN B 1 1 L4603

M S_3.8V 1 CE R4747

Q4 604 S W IT C H IN G

L4622

D4605 D _1 .5V D_ 3.8V A_2.8 V A U _+10V E P_2.8V D _2.8V D9201 CH G C N 9201 2 1 C N1011 E V E R_ 3.0V XC H AR G _ L E D

7 8

R1058 A I_ B A T T S E N S E 6 K

G 1 1 X O _C H A R G E L ED R4027 B A T T _ U N R EE V E R _ 3.0V G N 1 B _U N R E G P2 V R O F4601 A 5 PV D D 8 a B 5 P VD D 8b LX8a A6 LX8b B6 IN8 C 7 L4604

D4604 D _2.8V L4609 L4624 A_4.6V SP _+5V LE N S _5V M T_5 V

C

C O N T R OS W ITC H L O C K L B (PZ24000)

M S-405B O A R DVCC1 B 1 1 V C C 2 J2 AVCC L 1 0 AVR K 1 0 I_BA TTIN A 7 VOUT

B A TT _IN FR _EVER_SO M2 V O U T

N2 C S _O U T F4605 P1 V _U N R E G R 5 AV DD 1 L1 AV DD 3 P 1 5 D VD D 4 V B B1 O U T11 R 1 5 D VD D 1 A1 D VD D 2 A 1 2 P V DD 11 A 2 D4607 D4608

E V E R _ 3.0V L4627

E P _1.8V E V E R _ 3 .0 V

L4623 POW ER (3/4) (P A G E3-12)

IC_5401_13.5V AU _4.6V

MEMORY RV501 (ZOOM) W y T

J001 LAN C C N 8606 1D _2.8V

7

LANC_DCCN8603 VCC

L A N C_ D C IC 86 01 2.9V R E GMS _ 3 .8 V

FP-971 F L E X IB L E B O A R D

7

7

C N 1012 L A N C_ D C

M S _3.8V

O _S O _ DDD 2 X O_SCK_DD D1 X O _C S _ D DA 6

FR_EVER _SC K X C S_D D 1 X LA N C _O N X LA N C _P W R _O N L A N C_ D C

X O _ LA N C O NB5 X I_ LA NC P O W E R O B 1 N M 1 3 D IN L 1 3 C LK K 1 3 LD M3 X C TL 2 L3 W A K E_U P L2 LAN C_D C(5.6V) K1 S E N S E a A 1 0 P V D D 5a B 1 0 PV DD 5b LX5a A9 LX5b B9

IN5 C 8 L4607

VDD 4 +

5 1 3 R4738

L4628

S T _U N R E G L4626

R1062 D_1.5V V T R _U N R E G R P_4.6V

ST_UN R EG A_4.6V9 15 STICK 15 PR O D UO

3 VOUT VDD 4

K 2 SE N S E b IC 4611

POW ER

C O N T R OS W ITC H L

D8601

CE 1

M S _V CC _O N D _2.8V 16 13

16 13

M S _V CC _O N D _2.8V

RSTX K2

XRESET V T R _D D _O N

P 3 R S T_ O U T (R E S E T )

+IN E 9 B 1 2 D C C O N TR O L (19/24) E P _1.8V BL_5V

D

CAMERA O F F(C H G ) VCR

BLOCK (PS24000)4 3

C N8 605 XV TR _O N _S W X C A M _O N _S W

(MS A CCES S )

3 XV TR _ O N _S WC AM _O N _SW X 2 C N8602

CPC 3 2 XV TR _O N _S W XC A M _O N _SW

C N 1004D _2.8V

O _VTRDDON 3 E

B 4 XP U I_P O W E _VT R_S W R A 3 X PU I_M O D E_C A M _S W N 5 C TL1 N 1 2 C H6_SW C 5 AP PL_S W 1 V R P4 +IN E 10 C 1 4 OU TA E 1 3 SD 1 N 9 D4603 Q4601 ,Q 4602 S W ITC H

D _2.8V A_ 2.8V B L_ CO N T EP _2.8V D _2.8V POW ER (4/4) (P A G E3-13)

KY -105B O A R D PI-029B O A R D (1/2)

FP-982 A S-060 BOARD(F O RC H E C K )

6

FP-981

AA8 C8

X SY S _RS T

V R E F(2.5V) P5 Q4603 S W IT C H IN G L4616

BL_-25V S7207 RESET

C N 7201

C N 7007 C N 7004 (1/2)

F L E X IB L E BOARD (1/2) (1/2)

C N 8802 (1/2)

C N 8801 (1/2)

F L E X IB L E BOARD (1/2)CN1015(1/2) POW ER (2/4) (P A G E3-11) XH ID S_R S TM S _V CC _O N

D4602 IC 4601 D C C O N T R O L, E S E TL A N CD R IV E R , O U T10-1 C 1 5 10 BT7001 XRESET 27 LI_3V 26 XRESET 26 LI_3V 25 XRESET 54 LI_3V 55 R2 VC H R1 VBATT (19/24) C N004 CN 003 C N003 CN 004 5

55 56

LITHIUM STO R AG E BATTER Y 08 (1/2) (1/2) (1/2) (1/2)

HDR-FX1000/FX1000E_L2 3-10

3-11. POWER BLOCK DIAGRAM (2/4)schematic diagram where the component is located.

( ) : Number in parenthesis ( ) indicates the division number of

VC -543B O A R D (2/4)D_1.0V A_1.2V D_1.2V A_1.2VD_1.2V D_1.2V_K D_1.5V D_1.5V

BPO W E R (1/4) (P A GE3-10) D_1.8V D_2.5V D_2.8V A _2.8V D_1.8V D_2.5V D_2.8V A_2.8V AU_4.6V IC2002 HDV /DV H DMI IC2801 IC2601 IC2201 IC3401 IC3301 IC3201

AU_4.6V A_4.6V D4_-2.8V A_4.6VD4_-2.8V D_3.3V

HDMI H D V INT ER LA C E / H D V STR EAM H DV-M PEG ID E O V V ID E OO U T i.LINK TR AN S MITTER SIG NAL PR O G R E SS IV E PR O CE S S O R, E N C O D ER /D E C O D ER , AM P IN T E R F A C E (12/24 ) PR O CE S S O R

F E

(6/24) (13/24 )

(11/24 ) (10/24) D V SIG NA L SIG N ALP RO C E S SO R

IC2001

COMPONENT OU A (6/24) IC2401 256M DDR-S DRAM (8/24) IC2402 16M F LA SH (8/24) IC1801 B A S EBA N