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ORDER NO.VM0509039CE Digital Video Camera/Recorder NV-MD10000GC NV-MD10000GK VOL.1 A-MECHANISM Colour (K)....................Black Type © 2005 Matsushita Electric Industrial Co., Ltd. All rights reserved. Unauthorized copying and distribution is a violation of law. TABLE OF CONTENTS PAGE 1 Safety Precaution -------------------------------------------------3 1.1. General Guidelines ----------------------------------------3 2 Warning --------------------------------------------------------------4 2.1. Caution for AC Cord (VJA0940 type) -----------------4 2.2. Prevention of Electro Static Discharge (ESD) to Electrostatically Sensitive (ES) Devices ----------5 2.3. Handling the Lead-free Solder --------------------------5 2.4. How to Replace the Lithium Battery (PROCEDURE)---------------------------------------------6 3 Service Navigation------------------------------------------------8 3.1. Service Information ----------------------------------------8 3.2. Service Caution---------------------------------------------8 4 Specifications ------------------------------------------------------9 5 Location of Controls and Components------------------ 10 6 Service Mode ----------------------------------------------------- 12 6.1. Error Display----------------------------------------------- 12 6.2. Service Menu---------------------------------------------- 13 7 Service Fixture & Tools --------------------------------------- 15 7.1. Service Extension Cables------------------------------ 15 7.2. Service Tools and Equipment ------------------------- 15 8 Disassembly and Assembly Instructions --------------- 16 8.1. Disassembly Frow Chart ------------------------------- 16 8.2. P.C.B. Layout---------------------------------------------- 16 8.3. Disassembly Procedures------------------------------- 17 8.4. Disassembly Procedures Mecha. Unit-------------- 29 8.5. Disassembly Procedures of Camera Lens Unit----------------------------------------------------------- 33 9 Measurements and Adjustments -------------------------- 34 9.1. Service Positions ----------------------------------------- 34 9.2. Location for Connectors of the Main P.C.B. & Mother P.C.B. --------------------------------------------- 36 9.3. Electrical Adjustment Procedures-------------------- 38 9.4. Mechanical Adjustment Procedures----------------- 43 10 Miscellaneous ---------------------------------------------------- 45 10.1. Abbreviations---------------------------------------------- 45 PAGE 2 1 Safety Precaution 1.1. General Guidelines 1. IMPORTANT SAFETY NOTICE There are special components used in this equipment which are important for safety. These parts are marked by (!) in the Schematic Diagrams, Circuit Board Layout, Exploded Views and Replacement Parts List. It is essential that these critical parts should be replaced with manufacturer’s specified parts to prevent X-RADIATION, shock fire, or other hazards. Do not modify the original design without permission of manufacturer. 2. An Isolation Transformer should always be used during the servicing of AC Adaptor whose chassis is not isolated from the AC power line. Use a transformer of adequate power rating as this protects the technician from accidents resulting in personal injury from electrical shocks. It will also protect AC Adaptor from being damaged by accidental shorting that may occur during servicing. 3. When servicing, observe the original lead dress. It a short circuit is found, replace all parts which have been overheated or damaged by the short circuit. 4. After servicing, see to it that all the protective devices such as insulation barriers, insulation papers shields are properly installed. 5. After servicing, make the following leakage current checks to prevent the customer from being exposed to shock hazards. 1.1.1. Leakage current cold check 1. Unplug the AC cord and connect a jumper between the two prongs on the plug. 2. Measure the resistance value, with an ohmmeter, between the jumpered AC plug and each exposed metallic cabinet part on the equipment such as screwheads, connectors, control shafts, etc. When the exposed metallic part has a return path to the chassis, the reading should be between 1MΩ and 5.2MΩ. When the exposed metal does not have a return path to the chassis, the reading must be infinity. 1.1.2. Leakage current hot check (See Figure 1) 1. Plug the AC cord directly into the AC outlet. Do not use an isolation transformer for this check. 2. Connect "A" to exposed metallic part on the set. And connect "B" to a good earth ground, as shown in Figure 1. 3. Use an AC voltmeter, with 1 kΩ/V or more sensitivity, to measure the potential across the resistor. 4. Check each exposed metallic part, and measure the voltage at each point. 5. Reverse the AC plug in the AC outlet and repeat each of the above measurements. 6. The potential at any point should not exceed 0.75 V RMS. A leakage current tester (Simpson Model 229 or equivalent) may be used to make the hot checks, leakage current must not exceed 1/2 mA. In case a measurement is outside of the limits specified, there is a possibility of a shock hazard, and the equipment should be repaired and rechecked before it is returned to the customer. Figure 1 3 2 Warning 2.1. 2.1.1. 2.1.2.1. Caution for AC Cord (VJA0940 type) Blue Brown Information for your safety Neutral Live As the colours of the wires in the mains lead of this appliance may not correspond with the coloured markings identifying the terminals in your plug, proceed as follows: IMPORTANT Your attention is drawn to the fact that recording of prerecorded tapes or discs or other published or broadcast material may infringe copyright laws. WARNING To reduce the risk of fire or shock hazard, do not expose this equipment to rain or moisture. CAUTION To reduce the risk of fire or shock hazard and annoying interference, use the recommended accessories only. FOR YOUR SAFETY DO NOT REMOVE THE OUTER COVER To prevent electric shock, do not remove the cover. No user serviceable parts inside. Refer servicing to qualified service personnel. 2.1.2. Important The wires in this mains lead are coloured in accordance with the following code: The wire which is coloured BLUE must be connected to the terminal in the plug which is marked with the letter N or coloured BLACK. The wire which is coloured BROWN must be connected to the terminal in the plug which is marked with the letter L or coloured RED. Under no circumstances should either of these wires be connected to the earth terminal of the three pin plug, marked with the letter E or the Earth Symbol. Caution for AC mains lead For your safety, please read the following text carefully. This appliance is supplied with a moulded three-pin mains plug for your safety and convenience. A 5-ampere fuse is fitted in this plug. Should the fuse need to be replaced please ensure that the replacement fuse has a rating of 5 amperes and it is approved by ASTA or BSI to BS1362 Check for the ASRA mark or the BSI mark on the body of the fuse. 2.1.2.2. Before use remove the Connector Cover as follows. If the plug contains a removable fuse cover you must ensure that it is refitted when the fuse is replaced. If you lose the fuse cover, the plug must not be used until a replacement cover is obtained. A replacement fuse cover can be purchased from your local Panasonic Dealer. 2.1.2.3. How to replace the Fuse 1. Remove the Fuse Cover with a screwdriver. If the fitted moulded plug is unsuitable for the socket outlet in your home then the fuse should be removed and the plug cut off and disposed of safety. There is a danger of severe electrical shock if the cut off plug is inserted into any 13-ampere socket. 2. Replace the fuse and attach the Fuse cover. If a new plug is to be fitted please observe the wiring code as shown below. If in any doubt, please consult a qualified electrician. 4 2.2. Prevention of Electro Static Discharge (ESD) to Electrostatically Sensitive (ES) Devices Some semiconductor (solid state) devices can be damaged easily by static electricity. Such components commonly are called Electrostatically Sensitive (ES) Devices. Examples of typical ES devices are integrated circuits and some field-effect transistors and semiconductor “chip” components. The following techniques should be used to help reduce the incidence of component damage caused by electro static discharge (ESD). 1. Immediately before handling any semiconductor component or semiconductor-equipped assembly, drain off any ESD on your body by touching a known earth ground. Alternatively, obtain and wear a commercially available discharging ESD wrist strap, which should be removed for potential shock reasons prior to applying power to the unit under test. 2. After removing an electrical assembly equipped with ES devices, place the assembly on a conductive surface such as aluminum foil, to prevent electrostatic charge buildup or exposure of the assembly. 3. Use only a grounded-tip soldering iron to solder or unsolder ES devices. 4. Use only an antistatic solder removal device. Some solder removal devices not classified as “antistatic (ESD protected)” can generate electrical charge sufficient to damage ES devices. 5. Do not use freon-propelled chemicals. These can generate electrical charges sufficient to damage ES devices. 6. Do not remove a replacement ES device from its protective package until immediately before you are ready to install it. (Most replacement ES devices are packaged with leads electrically shorted together by conductive foam, aluminum foil or comparable conductive material). 7. Immediately before removing the protective material from the leads of a replacement ES device, touch the protective material to the chassis or circuit assembly into which the device will be installed. CAUTION: Be sure no power is applied to the chassis or circuit, and observe all other safety precautions. 8. Minimize bodily motions when handling unpackaged replacement ES devices. (Otherwise harmless motion such as the brushing together of your clothes fabric or the lifting of your foot from a carpeted floor can generate static electricity (ESD) sufficient to damage an ES device). 2.3. 2.3.1. Handling the Lead-free Solder About lead free solder (PbF) 5 2.4. How to Replace the Lithium Battery (PROCEDURE) 1. Remove the Mother C.B.A.. (Refer to Disassembly Procedures.) 2. Unsolder the Lithium Battery “ML-621S/F9D” and then replace the new one. (See Figure B1.) 3. Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type. Fig. B1 Note: The lithium battery is a critical component. (Type No.: ML-621S/F9D) It must never be subjected to excessive heat or discharge. It must therefore only be fitted in equipment designed specifically for its use. Replacement batteries must be of the same type and manufacture. They must be fitted in the same manner and location as the original battery, with the correct polarity contacts observed. Do not attempt to re-charge the old battery or re-use it for any other purpose. It should be disposed of in waste products destined for burial rather than incineration. 6 CAUTION The battery used in this device may present a risk of fire or chemical burn if mistreated. Do not recharfe, disassemble, heat above 100 °C (212 °F), or incinerate. Replace battery with Panasonic part nmber ML-621S/F9D only. Use of another battery may present a risk of fire or explosion. Dispose of used battery promptly. Keep away from children. Do not disassemble and do not dispose of in fire. 7 3 Service Navigation 3.1. Service Information This service manual contains technical information which will allow service personnel's to understand and service this model. Please place orders using the parts list and not the drawing reference numbers. If the circuit is changed or modified, this information will be followed by supplement service manual to be filed with original service manual. Note 1: These movie camera uses AC Adaptor VSK0644. Note 2: 1) This service manual does not contain the following information, because of the impossibility of sevicing at component level. 1. Schematic Diagram, Block Diagram and P.C.B. layout of Main P.C.B./Mother P.C.B. 2. Parts List for individual parts of Main P.C.B./Mother P.C.B. 2) The following category are recycle module part. Please send them to Central Repair Center. *Main P.C.B. (VEP03G83A) *Mother P.C.B. (VEP08344A) When a part replacement is required for repairing each Main P.C.B. and/or Mother P.C.B., replace the assembly parts. (Main P.C.B. and/or Mother P.C.B.) The following circuits are contained in Main P.C.B. 1. Main Connection Circuit 2. Camera Circuit 3. LCD Circuit 4. Lens Drive Circuit 5. AVIO Circuit 6. MIC/IR Circuit 7. Video Circuit 8. Power Circuit 9. Control Circuit The following circuit is contained in Mother P.C.B.. 1. Mother Circuit 3.2. 3.2.1. Service Caution EEPROM data for spare parts of the Main P.C.B. When the Main P.C.B. is replaced, the fixed and average data must be changed by Tatsujin kit according to the Movie Camera’s suffix. Then, confirm and/or adjust the VTR and Camera section one by one. 8 4 Specifications 9 5 Location of Controls and Components 10 11 6 Service Mode 6.1. Error Display “PUSH THE RESET SWITCH” is displayed automatically on the EVF or the LCD Monitor when an undesirable condition has occured. 12 6.2. Service Menu When abnormal detection contents are confirmed a When I do the following operation automatic diagnosis cord is displayed. 1. Preparation Remove the tape from this machine. 2. Service menu is dieplayed. (see Fig. S1) Pushed [CURSOR DOWN ] button and [SURSOR LEFT simmultaneously for 3 seconds. 3. Operating automatic diagnosis cord is displayed. Item [3] is selected with the [CURSOR UP or DOWN [NO] is selected with the [CURSOR RIGHT ] button and [AUTO/MANUAL/FOCUS switch to FOCUS] button ] button. ] button. [YES] is selected with the [CURSOR UP or DOWN Press the [CURSOR CENTER] button. ] button. Fig. S1 NOTE: Do not operate items Except for 3 in the Service Menu. Self diagnosis cord contents are as follows. 13 Display contents (self diagnosis cord contents) Turn off the power supply after confirmation. Please do the error cord backup record the clear after repair completion. CLEAR METHOD If the Tape inserted, take out it before Service Mode operation. Making the mode dial of This Machine a tape recording mode, push [CURSOR LEFT ] button and [AUTO/MANUAL/FOCUS switch to FOCUS] button and [RECORDING START/STOP] button simultaneously for 3 seconds. 14 7 Service Fixture & Tools 7.1. Service Extension Cables 7.2. Service Tools and Equipment Parts Name DV Camcorder Personnel Computer AC Adaptor DC output Cable 232C (M3.5) I/F Cable Measuring Board 30 pin Flat Cable Step Up Ring Connection Board Connection Adaptor (60-20pin) TATSUJIN PC-Adjustment Program Parts No. ------- Q'ty 1 1 2 --VJA0941 VFK1395 VFK1308E VFK1317 VFK1164TAR43 VFK1309 VFK1897 VF0D2003AV30 2 15 1 1 2 1 1 1 1 Remarks The Camcorder being adjusted. With Tatsujin Software. The AC Adaptor for DV Camcorder. The AC Adaptor for M. Board. The AC Adaptor for DV Camcorder. The AC Adaptor for M. Board. For Collimator 43mm 8 Disassembly and Assembly Instructions 8.1. Disassembly Frow Chart This flow chart indicates the disassembly steps the cabinet parts, P.C.B. and Mecha. Unit in order to access to be serviced. When reinstalling, perform the steps in the reverse order. 8.2. P.C.B. Layout Fig. F1 16 8.3. Disassembly Procedures No. Flow-Chart for Disassembly Procedure No. 1 Item / Part Fig. Side Case (R) Fig.D1 Unit Fig.D2 Fig.D3 Fig.D4 2 Lens Unit Fig.D5 Fig.D6 Fig.D7 3 4 Mother P.C.B. Fig.D8 Main P.C.B. Fig.D9 Fig.D10 Fig.D11 5 Mecha Unit Fig. D12 6 Handle/EVF Unit Fig.D13 Fig. D14 Fig. D15 7 EVF Int P.C.B. Fig.D16 Fig.D17 Fig.D18 Fig.D19 8 EVF P.C.B. Fig.D20 9 Item / Part Zoom P.C.B. Fig. Fig.D21 Fig.D22 Removal (Screw,Connector,Flex. & Other) 8-Screws (A) Face Panel Shoulder Pad 1-Screw (B) 4-Tabs ND-Filter Case Unit 3-Screws (C) Focus Ring 3-Screws (D), 4-Screws (E), 4-Screws (F) 1-Connector FP6418 Side Case (R) Unit 4-Screws (G) 2-Connectors P6406, P6408 3-Screws (H) 3-Connectors FP6401, FP6404, PS6417 1-Screw (I), 2-Screws (J) MF Ring Unit, Lens Unit 4-Screws (K) 14-Connectors P6411, P6412, P6420, P6424, FP6402, FP6405, FP6407, FP6409, FP6410, FP6413, FP6414, FP6415, FP6416, FP6419 Mother P.C.B. 4-Screws (L) Grip Cover Unit 2-Screws (M), 2-Screws (N) Cassette Cover Unit 3-Screws (O), 2-Screws (P) 1-Connector P6751 EVR Int P.C.B., Side Case (L) Unit 1-Screw (Q) 5-Connectors FP2201, FP2202, FP2203, FP2204, FP5001 Mecha Frame Unit Main P.C.B. 3-Screws (R) Mecha Unit 2-Screws (S) Handle Unit 1-Screw (T) Accesories Shoe Spring 4-Screws (U) Shoe Hold Plate 2-Screws (V) Mic Unit 2-Screws (W) Slide Cover 3-Screws (X) EVF Unit 2-Screws (Y) EVF Ring, EVF Lock Ring EVF Cap 4-Screw (Z) 5-Tabs EVF Case Top, EVF Case Bottom 1-Connector FP6852 EVF/LCD Unit 3-Screws (a) EVF Int P.C.B. 1-Connector FP802 EVF P.C.B. 10 Front P.C.B. Fig.D23 Fig.D24 11 S/S P.C.B. Power Fig.D25 Fig.D26 12 AV Jack P.C.B. Fig.D27 Fig.D28 Fig.D29 13 Battery P.C.B. Int Fig.D30 Fig.D31 14 LCD Unit Fig.D32 15 Monitor P.C.B. Fig.D33 Fig.D34 Fig.D35 17 Removal (Screw,Connector,Flex. & Other) 3-Screws (b) Grip Cover 1-Screw (c) 1-Connector FP6651 Zoom P.C.B. 2-Screws (d) Remocon Sensor Window 2-Screws (e) Front P.C.B. 3-Screws (f) Grip op Unit 3-Screws (g) S/S Power P.C.B. 3-Screws (h), 2-Screws (i), 1-Screw (j) Side Case (L) 4-Screws (k), 1-Screw (l), 1-Screw (m), 1-Screw (n) L Earth Plate B 2-Screws (o) AV Jack Plate, AV Jack P.C.B. 4-Screws (p) Battery Case Unit 2-Screws (q) 1-Connector FP6751 Battery Holder, Battery Int P.C.B. 6-Screws (r) Hinji Earth Plate 1-Screw (s) LCD Unit 2-Screws (t) LCD Hinji Holder, Hinji Support Plate 2-Screws (u) 4-Tabs LCD Case Top Unit, LCD Hinji Unit LCD Frame 1-Connector FP901 Monitor P.C.B. Fig. D1 Fig. D3 Fig. D2 Fig. D4 18 Fig. D7 Fig. D5 Fig. D8 Fig. D6 19 Fig. D9 Fig. D11 Fig. D10 20 Fig. D14 Fig. D12 Fig. D15 Fig. D13 21 Fig. D16 Fig. D18 Fig. D17 22 Fig. D21 Fig. D19 Fig. D22 Fig. D20 23 Fig. D25 Fig. D23 Fig. D26 Fig. D24 24 Fig. D27 Fig. D28 Fig. D29 25 Fig. D30 Fig. D32 Fig. D31 26 Fig. D33 Fig. D34 27 Fig. D35 28 8.4. Disassembly Procedures Mecha. Unit Flow-Chart for Disassembly Procedure No. Item / Part 1 Cassette Up Unit 2 Cylinder Unit Fig. Removal (Screw, Connector, Flex. & Other) Fig. M1 It makes the mechanism position in Eject condition (For Battery) Fig. M2 3-Screws (A) Fig. M3 3-Tabs I remove the piece arrangement unit from rail department Fig. M4 1-Screw (B) Fig. M5 3-Screw (C) Cylinder Unit Fig. M1 Fig. M2 29 Fig. M3 30 Fig. M4 Fig. M5 31 Fig. M6 32 8.5. Disassembly Procedures of Camera Lens Unit The following flowchart describes order or steps for removing the Camera lens unit and certain printed circuit boards in order to make access to the item needing service. To reassemble the unit follow the steps in reverse order. Fig. L1 Fig. L2 33 9 Measurements and Adjustments 9.1. 9.1.1. Service Positions List of the extension cables Use the following extension cables when checking or adjusting individual circuit boards except module Parts. (Main P.C.B. and Mother P.C.B.) 34 9.1.2. Checking and repairing individual circuit boards except module parts (Main P.C.B. and Mother P.C.B.) How to use extension cables. 35 9.2. 9.2.1. Location for Connectors of the Main P.C.B. & Mother P.C.B. Main P.C.B. FP6506 K1MN18A00064 FP601 K1MN22A00065 FP6503 K1MN26A00068 FP201 K1MN39AA0017 FP602 K1MN26A00068 FP701 K1MN21AA0017 FP2204 K1MN08BA0060 FP2202 K1MN10BA0067 FP6501 K1MN12A00075 FP2201 K1MN18BA0067 PP3001 K1KA20BA0052 (COMPONENT SIDE) FP6504 K1MN27BA0058 FP6502 K1MN14BA0107 FP2203 K1MN18BA0060 FP5001 K1MN08BA0107 (FOIL SIDE) 36 Mother P.C.B. P6411 K1KA02BA0047 P6408 K1KA05BA0047 FP6403 K1MN10AA0058 FP6410 K1MN26AA0058 FP6405 K1MN22AA0068 FP6404 K1MN05BA0082 PS6417 K1KB40A00058 FP6416 K1MN39AA0017 P6412 K1KA02BA0047 P6406 K1KA30AA0184 FP6419 K1MN18AA0068 FP6409 K1MN26BA0059 FP6414 K1MN27BA0058 FP6401 K1MN21AA0017 FP6402 K1MN21AA0058 FP6415 K1MN26AA0058 FP6418 K1MN45BA0153 P6420 K1KA05BA0047 P6424 K1KA08BA0047 9.2.2. FP6413 K1MN14BA0059 FP6407 K1MN12AA0058 (FOIL SIDE) 37 9.3. 9.3.1. Electrical Adjustment Procedures Computer assisted adjustment system <TATSUJIN> adjustment. This unit employs the computer assisted system named; “TATSUJIN PC-Adjustment” for Electrical adjustment. 9.3.2. Set-up manual for DV-Camcorder. 1. SAVE THE SOFTWARE Install the effective model’s TATSUJIN Software to PC: Personal Computer. 2. SET-UP (CONNECTION) a. Remove the EVR cover of the DV Camcorder. Unlock the locking tab and remove the EVR cover as shown in Fig. E1. b. Make a connection. Connect the PC, the PC/IF Unit and the DV Camcorder as shown in Fig.E2 and E3. c. Check the SW position on Measuning Board. The position of SW on Measuning Board checks as shown in Fig. E4. Fig. E1 Fig. E2 Necessary Equipment & Tools for Connection. 38 Fig. E3 Rough image of set-up connection 39 Fig. E4 (Extension cables (VFK1317 × 2pcs) ----- Measuring Board (VFK1308E) ----- 232C I/F Cable (VFK1395)) 40 9.3.3. Set up PC-EVR adjustment program 1. Turn on the PC and install the TATSUJIN Adjustment Program into the PC. 2. TATSUJIN PC-Adjustment Program start in the following procedure. PC Menu : [Start] → [Program] → [win Tatsujin] → [DV Movie] → [MD10000 Series] 6. Saving for EEPROM data is complete, menu will appear. To perform each adjustment, display the adjustment menu by selecting the desired menu from “Camera Adjust,” “Video Adjust,” “LCD Adjust” or “EVF Adjust” and select each adjustment item. Fig. E5-1 The main menu display will be displayed. 3. Select the desired model. 4. Turn on the camcorder. Then, click “Start.” Fig. E5-4 Note: The adjustment data is stored to the EEPROM IC after each adjustment. 7. After adjustment, to end the software, select “Exit” in File menu or close the window. Fig. E5-2 5. The communication is complete, and the dialog will appear. Then, click “VCR (V) or Cam (C)” to save the EEPROM data, Fig. E5-5 Fig. E5-3 41 9.3.4. Initial guideline The table below shows which adjustments are necessary according to the unit parts and individual parts to be replaced. Make sure to perform these adjustments shown below as necessary. 42 9.4. 9.4.1. Mechanical Adjustment Procedures Adjustment item Item Adjustment at the time of the part exchange Half finished goods mechanism Clyinder Remarks Linearlty adjustment & BER value confirmation 9.4.2. Adjustment procedures lLinearlty adjustment & BER value confirmation 1. Remove the mechanism adjustment cover of tis machine as shown in Fig. D1. 2. The spcial tool at the time of electricity adjustment is connected. Reference of the connection figure of electricity adjustment. 3. The enbelope detection spcial tool board (VFK1641) is connected to EVR adjustment board as shown in Fig. D2. 4. The enbelope detection spcial tool board is connected to oscilloscope as shown in Fig. D2. 5. The post is adjusted with the post driver(VFK1899) so that recycles the normal tape which recorded NTSC signal and the detection wave-link become a flat as shown in Fig. D3. *At the time of the clyinder unit exchange unnecessary. 6. The post is adjusted with the post driver so that recycles a alignment tape(VFM3110EDS) and the detection wave-link become a flat once again. 7. Recycling the tape that video-taped it wirh this machine after adjustment, the BER value is confirmed withthe item of the BER the item of the BER confirmation of expert soft inside. Fig. D1 43 Fig. D2 Fig. D3 44 10 Miscellaneous 10.1. Abbreviations INITIAL/LOGO A INITIAL/LOGO ABBREVIATIONS ABBREVIATIONS A GND Analogue GND ALC MAIN Auto Level Control Drive A HASW Audio Head Amp Switching Pulse ALE Address Latch Enable A HSW Audio Switching Pulse A-LOCK Full Auto Switch A MUTE Audio Mute A-MUT(H) Audio Mute (H) A ORP Audio Overlap Pulse ANLPTH Analogue Loop Through High A. TR Auto Tracking AORP Audio Overlap Pulse A0-8, 0-17 Memory Address APCNT Aperture Control A3V2 AD Converter Reference Voltage APS Auto Power Save AB0-4 Address Bus ART VH Artifical Vertical Sync AB0-4, AB12-15 Address Bus Line 0-4, 12-15 AT CNT Automatic Tracking Gain Adjust ABSF Focus Encoder Input ATF Automatic Track Finding ACI Analogue Channel Cording IC ATFCLK 41.85MHz Clock AD AD Converter ATFG Auto Track Gain AD Auto Date, Analogue Digital Converter ATL Auto Lock Select AD CLK AD Clock ATN Absolute Track Number AD REC Audio Delayed REC ATR OFF(H) Auto Tracking Off (H) AD0-6 Address ATV Advanced TV AD0-6, ADR0-6 Address Data Line AUDIO(N) Audio (Normal) ADCLK Analogue Digital Converter Clock AUX Auxiliary ADCNT Analogue Digital Control AVDD Analogue VDD ADCS Analogue Digital Chip Select AVSS Analogue Ground A-DET Audio Detect AWTB Auto White Balance B-Y ADREC Audio Delaied Rec AWTR Auto White Balance R-Y ADUB Audio Dubbing AE Auto Expose BACK Back-up AECNT Auto Expose Control BACK UP Microcomputer Back-up AEE(H) Audio E-E (H) BACK VDD Back-up Power AEH Audio Erase Head BATT Battery AEIRQ Auto Expose Interrupt Request BATT ALARM Battery Alarm AF/MF Auto Focus/Manual Focus BATT REF Reference Voltage for Battery AF DIS CS AF DIS Chip Select BCB B Carrier Balance A-FADE(L) Audio Fade (L) BCBM(B-Y) B-Y Carrier Balance AF-AMP AF HALL Bias BCBM(R-Y) R-Y Carrier Balance AFCS Auto Focus Chip Select BD0-7 REC/Play In/Out Buss AFRP Audio PLL Voltage Control BDCK Standard Bus Data Clock (9MHz) AF-VN Zoom Encoder V-Ref (–) BDEN Standard Bus Data Enable AF-VP Zoom Encoder VREF (+) BEND Data Block End Request AGC Automatic Gain Control BF Burst Flag Pulse AGCCNT Automatic Gain Control Control BFA Burst Flag Pulse for Encorder AGND Analogue Ground/Audio Ground BFO/BFI Burst Flug Input/Output AGS Anti Ground Shooting BI, BO Buffer Input, Output AH(P) / (R) Audio Head (Play) / (Record) BL Back Light AHASW Audio Head Amp Switch Pulse BL ON Back Light ON (L) AHSW Audio Head Switch Pulse BL4V Back Light 4V AI, AO Buffer Input, Output BLC 0, 1 Back Light Y Control Out, In AIBCK Bit Clock (to A/D Converter) BLDI/O Back Light Drive Input/Output AIDAT Serial Data (to A/D Converter) BLK Blanking Pulse AILRCK L/R Clock (to A/D Converter) BLKA Blanking for Encorder AIMCK Master Clock (to A/D Converter) BLKA Blanking Pulse for Encorder ALC CNT Auto Level Control Control BLKI/O Blanking Pulse In/Out B 45 INITIAL/LOGO C ABBREVIATIONS ABBREVIATIONS INITIAL/LOGO BLKZ Blanking Pulse for Zoom Encorder CH1 Channel 1 (Odd Field) BM Balance Modulator CHR Character BQUIET Bus Out Control Signal CHR BACK Character Back-up BUF IN/OUT Buffer In/Out CHR MIX Character Mix B-Y KB B-Y Carrier Balance CI, CO Buffer In/Out B-YO B-Y Signal Out CI,CO Buffer Input & Output CIF Control Signal Forward Input C A In/Out Pre-Aperture In/Out CIF, CIR Positive Control Pulse, Negative Control Pulse CAPSTP Capstan Stop Flag CIR Control Signal Reverse Input C CNT Colour Control CK Clock C SYNC Composite Sync Signal CL/CLK Clock C/N Carrier/Noise CLASS Classeffication Signal for Compress (DCT/VLC) C0-7, C00-07 Chrominance Signal 0-7 CLASS 0.1 Class Control Signal Durring DCT/VLC CAGAIN Aperture Gain Control CLK135 13.5MHz System Clock CAM Camera CLK18 18MHz System Clock CAM CLK Camera Clock CLK2 Clock 2 (824XFH: 12.875MHz) CAM RST Camera Reset CLK246 24.576MHz Clock CAM SIOC Camera Serial In/Out Contol CLK27 27MHz System Clock CAM T Camera Test CLK450 450KHz Clock CAM TL Capstan Trque Limit CLKDCLK Digital Clock CAP EC Capstan Trque Control CLK-PH Clock Phase Control CAP P(H) Capstan Power On (H) CLK-REF Reference Clock CAP R/F/S Capstan Reverse (H)/Stop (M)/Forward (L) CLP-RST-H Clamp Reset High Signal CAP SW Capstan Power Control Switch CLX TFT X-axis Transmission Clock CAPSTP H Capstan Stop Flag (Stop High) CLX, CLX1-4 Shift Clock for X Direction (LCD Panel) CAPVM Capstan Motor Current CLY Shift Clock for Y Direction (LCD Panel) CAPVS Capstan Motor Power Control Switch CLY TFT Y-axis Transmission Clock CAS Compresion, Audio Process, Shuffling/Deshuffling CLY FG Cylinder FG Signal CAS Memory Address Strobe (Active Low) CMEMO0-3 Chroma Memory Output Signal 0-3 CASDOWN, DWN Cassette Down (L) CMIX Character Mix CB, CR Chroma B, Chroma R CMO Chrominance Memory Output CBLK Composite Blanking Pulse COMPC Position Detection Pulse CC Channel Cording COM RDY Serial Enable Signal CCA Curent Drive Control CMODE Camera Mode CCA Current Control Amp CNCLK Clock CCD Charge Coupled Devise CNR Chrominance Noise Reduction CCW Counterclockwise CNT, CONT Control CD SP0-7 Digital Chroma CO Control Out CDS Correlate Double Sampling Signal CO0-7 Chrominance Output 0 to 7 (Digital) CDS1, 2 Sampling Pulse for CCD Output Signal COM Common CE Chip Enable COM RDY Serial Transmission Enable CE Control Pulse Erase COMB Comb Filter CEC Capstan Error Code COS EQ Cosin Equalizer C-ERA(H) Control Erase (H) CP Clamp Pulse CFEM Chrominance Memory Signal CP ON(H) Camera Power On(H) CFM Chrominance Field Memory CP2, 20 Clamp Pulse CFM1-4 Chroma Field Memory Signal CP2A, CP2O Encoder Clamp Pulse CG CLK Character Generator Clock CPN Component Signal CG CLK DATA Clock Generator Data CPOB Clamp Pulse for Optical Blanking CG DATA Character Generator Data CPS Composite Signal CGC Chrominance Gain Control CPV Gate Scan Clock CGCS Character Generator Chip Select CR OUT Pre Apature Out CGO Character Generator Serial Data CR POW SW Camera Remote Power On Switch CH Charge CRA Aperture Gain Control 46 ABBREVIATIONS INITIAL/LOGO D ABBREVIATIONS INITIAL/LOGO CRA Pre Apature Gain Control DISCS Dis Chip Select CRST Camera Reset DISP Display CS Chip Select DL Delay Line CS 0-7 Chrominance Signal Out 0-7 DOBCK Audio A/D Convertor Bit Clock CSEL Clock Phase Select DOCTL Data Output Control Signal CSI 0-7 Chrominance Signal In 0-7 DODAT Serial Data (to D/A Converter) CTSW Crosstalk Switch DOLRCK Audio A/D Converter LR Clock CURR Current DOLRCK L/R Clock (to D/A Converter) CW Clockwise DOMCK Audio A/D Converter Master Clock CYL EC Cylinder Motor Trque Control DOMCK Master Clock (to D/A Converter) CYL PG Cylinder Motor PG DQ 1-16 Memory Data CYL VM Cylinder Motor Current or Power DRAM CAS D-RAM Colum Address Strobe DRAM OE D-RAM Out Enable D CLK Digital Clock DRAM RAS D-RAM Read Address Strobe D MODE Digital Mode Switch Signal DREC AV Delayed REC Start Pulse D01-03 Zoom 01-03 DRK Dark (LPF Switch for Auto Focus) DA UV SEL D/A Convertor U/V Select DS1, 2 Double Sampling Pulse DAC Digital Analogue Converter DSF 0-7 Data In/Out for Shaffling Memory DAG Digital Analogue Ground DSF 0-7 Input/Output Data to Shuffling Memory (18MHz) DB0-7 Data 0-7 DSP Digital Signal Processor DB0-7 Microprocessor Data DSP R/B DSP IC Rady/Busy DCC DC Clamp Control DSP-48K-H DSP IC Clock Select DCCNT DC Control DSTB Data Stobe Signal DCI Digital Channel Cording IC DSV Digital Sum Variation DCLR Digital Clear DV Digital Video DCP Digital Clamp Pulse DVB Digital Video Broadcast DCS-CLK, DA CAS & DV I/F Serial Clock DVC Digital Video Cassette DC-STP1 DCS Serial Start DVDD Digital VDD DC-STP2 DCS Serial Stop DVIO Digital Video Input Output DCT Discrete Cosine Transform (Compression) DVSS Digital Ground DCX7 Serial Data DX Shift Data for X Direction (for LCD) DEDP 0-3 Playback Data DY Shift Data for Y Direction (for LCD) DEDR 0-3 Rec Data DY TFT Y-axis Shift Data DEMO Demodulation DZ Digital Zoom DEMP A/D Convertor Empahsis Control DEMP De-Emphasis E Snap Electric Snap Shot DFD 0-7 Encode Data In/Out Between Shaffling Memory E ZM Electric Zoom DFD0-7 Encode Input/Output Signal for Shuffling Memory E2 CS or E2P CS EEPROM Chip Select DIBDCK Bit Clock E2 R/B EEPROM Rady/Busy DICLK Digital Clock E2P EEPROM DIDAT Serial Data EARP Earphone DIDAT Serial Data Durring Digital Audio In EC Torque Control DIF Digital Interface ECC Error Correction Cording DILRCK L/R Clock ECM Electric Condencer Mic DILRCK Serial Clock Durring Digital Audio In ECR Reference Voltage for Capstan Torque DIMCK Master Clock EDA Error Correction, DCI, ATF Servo DIMCK Mater Clock Durring Digital Audio In EE CS EEPROM Chip Select DIO 1-8 Data In/Out EE R/B EEPROM Read (H)/Busy (L) DIOS Data In/Out Select Control Signal EEPROM Electric Erasable Programable Read Only Memory DIOS Select Signal for Digital In/Out EIS Electric Image Stabilizer (DIS) DIS Digital Image Stabilizer EMP A/D Convertor Emphasis Control DIS R/B Digital Image Stabilizer Read (H)/Busy (L) ENAB Enable DIS R/B DIS IC Rady/Busy ENV Enverope DIS/KAND Digital Image Stabilizer/Sensitivity EOB End of Block E 47 INITIAL/LOGO ABBREVIATIONS Equalizer HD Horizontal Drive Pulse EVF Electric View Finder HDTV High Definition TV EXT DC External DC (AC Adaptor) HEX Hexadecimal EXT DC(H) AC Adaptor DC (H) HG Hall Gain EXT NOREG AC Adaptor 6V HID Head Switching Pulse EXT S DATA Serial Data for Edit HLT High Bright Signal EXT SCK Serial Clock for Edit HALL IN(+), (–) Input Signal from Hall IC EZOOM Electric Zoom HP Headphone HPF High Pass Filter HSE Modulated Data Output F G H ABBREVIATIONS INITIAL/LOGO EQ F ENC Lens F-Value HSP Timing Pulse for Shaffling Memory FACT MODE Factry Mode (not used in the service) HSS Horizontal Sync Signal FB Feed Back HSW Head Switching Pulse FC Saw Tooth Signal In HS-WT High Speed Zoom FCK Clock HSZ High Speed Zoom FCO Saw Tooth Signal Generator FENC Focus Encoder I/F Interface FEND Frame End Pulse I-2 C Inter Integrated Circuit FH2B FH/2 (15.625KHz / 2=7.8125KHz) ID(H) Wide Television (H) FIX OSD Auto Tracking Off (H) IMP Inter Microprocessor Protocol FLICK Flicker Output INF CCD Input Signal 1 FM Field Memory INF Input Frame Signal FM0-7 Field Memory 0-7 INS CCD Input SIgnal 2 FMCO0-3 Field Memory Chrominance Out 0-4 INTER Interval Recording FMDIR Focus Motor Direction INV Inverter FMOEM Field Memory Enable IOU R-Y Analogue Signal Output FMOEO Field Memory Enable IOV B-Y Analogue Signal Output FMT1-4 Focus Motor Terminal 1-4 IOY Y Analogue Signal Output FMY00-07 Field Memory Luminance Out 0-7 IR Infrared Rays FMYI0-07 Field Memory Luminance In 0-7 IRDET Imfrared Ray Detection FNO F Value IREF Current Adjustment Terminal FPS Frame Refference Signal IRIS/SH Iris / Shutter Control FR Capstan Reverse High IRQ Interrupt Request FRP Frame Refference Pulse ITI Insert & Track Information FRPSO Frame Start Pulse J JPEG Joint Photographic Image Cording Experts Group G1, G2, G3 Gap 1, 2 and 3 K I GCA Gain Control AMP KANDO Digital Gain Up GCNT Gain Control KB Carrier Balance G-CNT AGC Adjustment KEY IN Key Scan GCTRL Gain Control KND Digital Gain Up GENE Generator KNEE Luminance Compensate GF FG AMP Terminal GSW Ground for Switching Power LCD Liquid Crystal Display L H/M/N Hi-Fi / Mix / Normal LCD P(L) LCD Power On (L) H/N Hi-Fi / Normal LD Load Pulse H1, 2 H. CCD Drive Pulse LDD Liquid Direct Drive HAP Horizontal Aperture LEDCNT LED Control HASW Head AMP Switching Pulse LI-BATT Lithium Battery HB Hall Bias LOAD Loading HBR SET High Brightness Set LOAD F, R Loading Direction (F: Forward / R: Reverse) HBRST High Brightness Set LPF Low Pass Filter HCLR High Clear LRMONO Monoral Audio (L + R) HCP Shift Clock for Horizontal Drive LSB Least Significant Bit 48 INITIAL/LOGO LVL M M1-3 N O ABBREVIATIONS ABBREVIATIONS INITIAL/LOGO LPF Switch for Auto Focus P P SW Power Switch PB1-3 PNP Base 1-3 Motor Coil Terminal 1 to 3 PBCTL Play Back Control MA0-5 Microprocessor Address Data 0-5 PBCTL Pre-Branking Control Mbps Megahertz Bit Per Second PBH Head Amp Switch MD Modulation PBLK Pre-Blanking (Pulse) MD0-7 Microprocessor Data 0-7 PC1-3 Corrector of PNP Transistor MDT0-7 Microprocessor Data 0-7 PCBM Carrier Balance ME (TAPE) Metal Evaporated (Tape) PCH Phase Compensator (Hall AMP) MENB Focus Motor Enable PCI Phase Compensator (Current) MFF Manual Focus Far PCO Phase Compensator Out MFN Manual Focus Near PCS Switching Power Control MHSYNC Monitor Horizontal Sync Signal PCV Phase Compensator (Voltage) MIC Memory In Cassette PE Emitter of PNP Transistor MIG Meta In Gap PED Pedestal MIX N.R.D. Non Rec Data Mix PEDECNT Pedestal Control MOD Modulation PENO Alarm (L) MOUT Mic Out PFP Pilot Frame Position MP (TAPE) Metal Particle (Tape) PGA, B Power Ground A, B MPEG Moving Picture Image Cording Experts Group PGC Pulse Generator Comparator MPEG2 Moving Picture Image Cording Experts Group Phase 2 PGI Pulse Generator Input MRST Focus Motor Reset PGMM Pulse Generator Monostable Multivibrator MSB Most Signal Bit PGO Output of Pulse Generator AMP MVSYNC Monitor Vertical Sync Signal PMODE Select Signal for Normal / Wide Screen PON Power On N/F Near/Far Focus POR Power On Reset N/P NTSC/PAL POSCOM Common Position NB1-3 Base for NPN Transistor PREAMP Pre-AMP NC No Connection PREBLK Pre-Blanking NC1-3 Corrector of NPN Transistor PT Protect for V Voltage NCLR Power On Reset PWM Pulse Width Modulation NCP1 Clamp Pulse PWMB Pulse Width Modulation Pulse NCP2+VDH Clamp Pulse + Horizontal Drive Pulse Q2H Source Output Select NCP2+VDM Clamp Pulse + Gate Pulse NDE Non Liner De-Emphasis NE Emitor of NPN Transistor R CTL P Recorded Control Pulse (+) NLE Non Liner Emphasis R CTL R Recorded Control Pulse (–) NR Noise Reduction R/B Read/Busy NRD Non Rec Data R/L Direction Control for Data Transmition NRD BLK Non Rec Data Blanking RA Recording AMP NRD CLK No Rec Data Clock RA1 Rec AMP 1 NRE Read Enable Input (Low Active) RAC AC Rec Audio Current NWE Write Enable (Low Active) RAD Read Address Data RAE Read Address Enable Q R OB Optical Black RB Read Busy OBCNT Optical Black Control R-B R Bias OBREF Reference Voltage for Optical Black Control RCB R Carrier Balance OE Output Enable RE Read Enable OFH Horizontal Counted Down Clock Signal (Reference) RE(F), (S) Rotary Erase Head Transformer OFS Offset REB R Bias OP Operation AMP Output REC CC Rec Current Control OSD ON Screen Display REC CCNT Rec Current Control OVL Overlap Pulse RECCTRL Recording Control Pulse OZ Optical Zoom RECI Rec Amp Switch 49 INITIAL/LOGO S ABBREVIATIONS ABBREVIATIONS INITIAL/LOGO RENCF Lens Control (Forward) SWB Switching Pre-Drive Pulse RENCR Lens Control (Reverse) SYL EC Cylinder Torque Control RERASE Rotary Erase Head SYL FG Cylinder FG RGBIV1-2 1V Inverted Signal 1-2 RGO R/G OFF Offset Voltage for AWT R T PHOT Take-up Photo Transistor RSF Capstan Direction (Reverse / Stop / Forward) TBC Time Base Conntrol RST Reset TFT Thim Film Transistor RSTB R Strobe TH Thermostat for Battery RSTPWD Reset Power Down Input TI Test Mode Select RSTR Reset Read TL Torque Limit RSTW Reset Write TM Sub Code RT Saw Tooth Terminal TMD Sub Code Data RVCO Resister for Oscillation TRE Tracking Error Signal RW Read Write TREEL(P) Take-up Reel (Pulse) RWAE Read Write Enable TRFIX Tracking Fix TRIWAVE Tracking Wave T S PHOT Supply Photo Transistor TRP Tracking Position S/H Sampling Hold TRP Trap S/S Start/Stop TSR Head Switching Refference SBD Serial Data TST Time Scale Transfer SBI Serial Data Input SBO Serial Data Output U/V SEL R-Y/B-Y Select Signal SBT Serial Clock UNLOAD Un-Loading SCAN0-5 Key Scan 0-5 UNRE Microprocessor Read Enable SCK Serial Clock UNWE Microprocessor Write Enable SCR Search UV R-Y/B-Y SCR, S.C.R. Still Cue Review UV SEL R-Y/B-Y Select Signal SEG. Segment SET White Balance Set V1-V4 V. CCD Drive Pulse SH/IRIS Shutter/Iris Control VB VH Filter Switching SHIFT Capasitor for Phase Shift VCE Power Terminal SI Serial Data Input VCNTL Video Control SIC Shift In Clock Input VCO Voltage Control Oscillator SIOC Serial In/Out Control VCP Shift Clock Output for Vertical Drive SMCE Shaffling Memory Chip Enable VCTLD Video Control SMRS Shaffling Memory Read Strobe VCTRL Voltage Charge Control SMWE Shaffling Memory Write Enable VD Vertical Drive Pulse SMWS Shaffling Memory Read Strobe VDDX X Drive Power for Colour LCD SNAP Snap Shot VDDXY XY Drive Power for Colour LCD SNS LED Sensor LED VDDY Y Drive Power for Colour LCD SO Serial Data Output VDREC Video Delayed Rec SPA ATF Smapling Pulse Vgg Voltage for Gate IC SPEN 8 Bit Shift Register Enable Vgl Gate off Voltage SPK Speaker VID Video Signal Out SPO Reset for Switcing Power VIN Video In SPST 8 Bit Shift Register Strobe VITC Vertical Interval Time Code SREELP Supply Reel Pulse VITERBI One of Signal Detection Method SRT Start VL Low Voltage SSA Start Sync block Area VLC Variable Length Cording SSW Select Signal for Low Pass Filter VLOCKP Artificial Sync Pulse ST5V Safety Tab 5V VLP Artificial Sync Pulse STAB Safety Tab Switch VM Motor Voltage STB Stand by Signal VMD Velocity Mode Data STB Strobe VMD1-3 Electric Shutter Mode U V 50 INITIAL/LOGO ABBREVIATIONS VMODE NTSC/PAL Select Switch VMVH VH Filter Switching VORP Video Overlap VRB Voltage Refference Bottom VRBS Voltage Refference Bottom Output VREF1R3V Refference Voltage 1.3V VREF3R3V Refference Voltage 3.3V VREFH Refference Voltage High Side VREFL Refference Voltage Low Side VRI Refference Voltage Input VRO Refference Voltage Output VRT Voltage Refference Top VRTS Voltage Refference Top Output VS Switching Comparator VSS Vertical Sync Signal VSSX X Driver Power for Colour LCD VSSXY X-Y Driver Power for Colour LCD W W/N Mode Select for Window Mode W/N Wide / Normal WAD Write Address Enable WAE Write Address Enable WAERAE Write Address Enable WARI Interrupt WB White Balance WE Write Enable WEM Memory Write Enable WHD Wide Horizontal Drive Pulse WIDE A Wide Zoom WSB B AGC Control WSR R AGC Control WTV Wide TV X XP FG Logic Reset Y Y FM0-7 Y Field Memory 0-7 Z INITIAL/LOGO YCE Cylinder Error Code YGC Y Gain Control YMO 0-7 Y Field Memory 0-7 YNCST Noize Canceller YNR Luminance Noise Reduction YSDP 0-7 Digital Y Out 0-7 Z.ENC Zoom Encoder Z.MIC Zoom Mic ZENC Zoom Encoder Output ZMDIR Zoom Drive ZMEN Zoom Enable ZMT Zoom Motor Tele Side ZMT (+)/(–) Zoom Motor (+)/(–) ZMTER Zoom Motor Tele Side ZMW Zoom Motor Wide Side ZSW Zoom Switch 51 ABBREVIATIONS VM0509039CE Service Manual S1.1. Important Safety Notice Diagrams and Replacement Parts List Digital Video Camera NV-MD10000GC NV-MD10000GK Vol. 1 S1. About Indication of The Schematic Diagrams COMPONENTS IDENTIFIED WITH THE MARK HAVE THE SPECIAL CHARACTERISTICS FOR SAFETY. WHEN REPLACING ANY OF THESE COMPONENTS USE ONLY THE SAME TYPE. 1.Although reference number of the parts is indicated on the P.C.B. drawing and/or schematic diagrams, it is NOT mounted on the P.C.B. when it is displayed with "$" mark. 2.It is only the "Test Round" and no terminal (Pin) is available on the P.C.B. when the TP (Test Point) indicated as "٨" mark. 3.The voltage being indicated on the schematic diagram is measured in "Standard-Playback" mode when there is no specify mode is mentioned. 4.Although the voltage and waveform available on here is measured with standard frame, it may be differ from actual measurement due to modification of circuit and so on. 5.The voltage being indicated here may be include observational-error (deviation) due to internal-resistance and/or reactance of equipment. Therefore, handle the value indicated on here as reference. 6.Use the parts number indicated on the Replacement Parts List . 7.Indication on Schematic ˴ diagrams: Circuit name being connected. OFTR FEP This signal is connected to the EFP schematic diagram Name of Signal Table of contents S1. About Indication of The Schematic Diagrams .......................... S-1 S1.1. Important Safety Notice......................................................... S-1 S2. Voltage Chart ........................................................................... S-2 S2.1. Monitor P.C.B . ...................................................................... S-2 S2.2. EVF P.C.B. ........................................................................... S-2 S2.3. Mic Jack P.C.B. .................................................................... S-2 S2.4. Front P.C.B. .......................................................................... S-2 S3. Block Diagram .......................................................................... S-3 S3.1. Overall Block Diagram .......................................................... S-3 S4. Schematic Diagram .................................................................. S-4 S4.1. Interconnection Diagram ....................................................... S-4 S4.2. EVR INT 1 Schematic Diagram............................................. S-8 S4.3. EVR INT 2 Schematic Diagram............................................. S-8 S4.4. Battery INT Schematic Diagram............................................ S-9 S4.5. AV Jack Schematic Diagram ............................................... S-10 S4.6. Side R Schematic Diagram ................................................. S-11 S4.7. Side R Operation Schematic Diagram ................................ S-12 S4.8. Monitor Schematic Diagram ................................................ S-13 S4.9. EVF INT Schematic Diagram .............................................. S-14 S4.10. EVF B/L Schematic Diagram ............................................ S-14 S4.11. Handle Zoom Schematic Diagram ................................... S-15 S4.12. Mic Jack Schematic Diagram ............................................ S-15 S4.13. Zoom Schematic Diagram................................................. S-16 S4.14. Front Schematic Diagram ................................................. S-16 S4.15. S/S Power Schematic Diagram ......................................... S-17 S4.16. LCD Det Schematic Diagram ............................................ S-17 S4.17. Eject Schematic Diagram .................................................. S-17 S4.18. CCD Flex Schematic Diagram .......................................... S-18 S4.19. Holl Sensor Flex Schematic Diagram ............................... S-22 S5.11. Mic Jack P.C.B. ................................................................. S-30 S5.12. Zoom P.C.B. ..................................................................... S-31 S5.13. Front P.C.B. ...................................................................... S-31 S5.14. S/S Power P.C.B. .............................................................. S-32 S5.15. LCD Det P.C.B. ................................................................. S-32 S5.16. Eject P.C.B. ...................................................................... S-33 S5.17. CCD Flex .......................................................................... S-34 S5.17.1. CCD Flex (Component Side) ......................................... S-34 S5.17.2. CCD Flex (Foil Side) ...................................................... S-35 S5.18. Holl Sensor Flex ................................................................ S-36 S5. Print Circuit Board .................................................................. S-23 S5.1. EVR INT 1 P.C.B . ............................................................... S-23 S5.2. EVR INT2 P.C.B. ................................................................ S-23 S5.3 Battery INT P.C.B. ............................................................... S-24 S5.4. AV Jack P.C.B . ................................................................... S-25 S5.5 Side R P.C.B. ...................................................................... S-26 S5.6 Side R Operation P.C.B. ...................................................... S-27 S5.7. Monitor P.C.B. ..................................................................... S-28 S5.8. EVF INT P.C.B. .................................................................. S-29 S5.9. EVF P.C.B . ......................................................................... S-29 S5.10. Handle Zoom P.C.B. ......................................................... S-30 S6. Replacement Parts List ......................................................... S-37 S-1 S7. Exploded Views...................................................................... S-44 S7.1. Frame and Casing Section(1) ............................................. S-44 S7.2. Frame and Casing Section(2) ............................................. S-45 S7.3. Camera Lens Section......................................................... S-46 S7.4. LCD Section ........................................................................ S-47 S7.5. Video Mechanism Section................................................... S-48 S7.6. Packing Parts and Accessories Section .............................. S-49 S2. Voltage Chart S2.1. Monitor P.C.B. REF No. PIN No. REC QR6401 1 0 QR6401 2 2.9 QR6401 3 2.9 QR6401 4 0 QR6401 5 0 QR6401 6 0 PB 0 2.9 2.9 0 0 0 EE 0 2.9 2.9 0 0 0 S2.2. EVF P.C.B. REF No. PIN No. REC Q801 E 0.6 Q801 C 1.7 Q801 B 1.3 PB 0.6 1.7 1.3 S2.3. Mic Jack P.C.B. EE 0.6 1.7 1.3 REF No. PIN No. REC Q4901 E 0.4 Q4901 C 3.5 Q4901 B 0.9 Q4902 E 4.9 Q4902 C 2.3 Q4902 B 3.5 Q4903 E 0.4 Q4903 C 3.5 Q4903 B 0.9 Q4904 E 4.9 Q4904 C 2.2 Q4904 B 3.5 Q4905 E 4.9 Q4905 C 4.9 Q4905 B 4.2 Q4906 E 0 Q4906 C 0 Q4906 B 4.9 S-2 PB 0.4 3.5 0.9 4.9 2.3 3.5 0.4 3.5 0.9 4.9 2.2 3.5 4.9 4.9 4.2 0 0 4.9 EE 0.4 3.5 0.9 4.9 2.3 3.5 0.4 3.5 0.9 4.9 2.2 3.5 4.9 4.9 4.2 0 0 4.9 S2.4. Front P.C.B. REF No. PIN No. REC Q6801 E 3.7 Q6801 C 4.9 Q6801 B 3.4 Q6802 E 3.2 Q6802 C 4.9 Q6802 B 3.7 PB 3.7 4.9 3.4 3.2 4.9 3.7 EE 3.7 4.9 3.4 3.2 4.9 3.7 S3. Block Diagram S3.1. Overall Block Diagram AV JACK C.B.A. LENS S VIDEO IN/OUTPUT IRIS ZOOM FOCUS MIC JACK C.B.A. VIDEO/AUDIO IN/OUTPUT SPEAKER CCD MIC UNIT EXT MIC MIC SIDE(R) C.B.A. MOTHER C.B.A. AVIO CAMERA IC101 (CG/SSG) 2FCK X101 IC307 (EEPROM) IC110 (INVERTER) IC102 REG IC103 REG IC104,105,106 (CDS,AGC,AD) IC305 (CAMERA MICROCOMPUTER) IC303 (DIGTAL SIGNAL PROCESSOR) MIC/IR IC4801 (MIC AMP) IC3301 AVIO (D/A,A/D,AV OUT AMP) IC108 (V DRIVER) MOTHER C.B.A. DV TERMINAL IC3001 DUO (VIDEO I/O,VCO,COMPRESOR, SHUFFLE,SHUFFLE MEMORY, AUDIO PROCESSOR,ECC, ECC MEMORY,1394 I/F,JPEG COMPRESSION/EXPANSION, CARD I/F,DAC) IC701 (IRIS DRIVE, AF/ZOOM DRIVE) IC3201 RIP (MODULATION, VITERBI,EQ, MOTOR DRIVE CONTROL) IC5001 (HEAD AMP) HEAD IC3801 (USB 2.0 DRIVER) IC601 (CONTROLLER & SIGNAL PROCESSOR) LCD LENS DRIVE IC2001 (CONTROL MICROCOMPUTER) IC2201 (CYL/CAP/LOADING MOTOR DRIVE) CYLINDER MOTOR VIDEO CAPSTAN MOTOR MOTHER C.B.A. IC2002 (RTC/POWER CONTROL) SIDE (R) C.B.A. EVF INT C.B.A. IC2006 (EEPROM) CONTROL MONITOR C.B.A. 2.5"LCD EVF C.B.A. IC2017 (RESET) POWER LOADING MOTOR IC1001 (POWER) MAIN C.B.A. NV-MD10000GC/GK Overall Block Diagram 0.33"LCD S-3 *176 #.%/ .'&%106 <'0%8%% A)0& $ 57$$ 8A$ 84 84 84 4')&8 )0& )7+A.'& 64-'; 64-'; 84 8A4) 8A4) 5+)4 )0& 0% <59 <11/#& #84'( 864A-';A+0 52A176 52A176 52A176 5&# 5&# %/&A1 5&# 5&# 5&A&8 62# 62$ 62$ )0& )0& %#4&A.'& 64A-';A .%&A&'6 4')&8 A.%&A.'& 4'5'6 19'4A.%& 4)0& .7)+0A. 8*24 /+%8 /+%8 *2+0A. *2A4 #8+1-4# %#/'4#-4# *2+0A. 8+&'1-4# %10641.-4# /+%8 8,$) /+%8 /#+0%0-4# 8*24 =%? 219'4-4# 2.7)+0A. 4)0& .*2. .*2. 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Interconnection Diagram 1/4 NV-MD10000GC/GK Interconnectin Diagram N M %;.+0&'4 .1#& K ':/+%4 ':/+%. 64A-';A .%&A&'6 4)0& .7)+0A. 8*24 *2A. 42.7)A. 64A-';A /+%)0& /+%)0& 8$75 75$A& &A)0& 75$A& &A)0& &A)0& 5%+1 52.7)A. 5;+1 %=','%6? 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'8($.A8 'A%1/ 'A%-8 'A%-8 'A568 'A:568 'A:'0$ 'A'0$ 'A&5& 'A:&5) 'A&5) 'A$ 'A4 'A) '8(48 'A%-* 'A%-* 'A56* 'A:56* (2 -/0# 61'8( ','%6 0%=','%6? 0%=','%6? 5;+1 52.7)A. 5%+1 &A)0& &A)0& 75$A& &A)0& 75$A& 8$75 /+%)0& /+%)0& %4A219'4 42.7)A. *2A. 9&A4'/1 *2A4 *2+0A. /+%8 /+%8 8*24 2.7)+0A. 4)0& .*2. .*2. (2 -/0$# 61,#%- 219'4A.%& 4'5'6 2A.%&A.'& 4')&8 .%&A&'6 864A-';A %#4&A.'& )0& )0& 62$ 62$ 62# 62# &5%A)0& .%&A&'6 8,$. -4# 61#8,#%(2 -/0$# 61/#+0 -/0# (2 4)0& .*2. *2. 2.7)+0A* &A)0& *2176 8*24 75$A& 8+&'1176 *2+0A. 8$75 52.7)A. 5%+1 19 *24 8$75 75$A& &A)0& &A)0& &A)0& &A)0& &A)0& 5;A+1 &A)0& &A)0& 75$A& 5%A+1 &A)0& 8$75 52.7)A. 8$75 75$A& *2+0A. 8*24 &A)0& 2.7)+0A. *2. .*2. *24 4A)0& 5+0176 #7&+1A.176 #7&+1A4176 &8+0176 75$ &A)0& &A)0& #8,#%8,$ -4# 61.%&2#0'. (2 -/0$# 89, 4/4 20 NV-MD10000GC/GK Interconnectin Diagram 21 =%? S4.2. EVR INT 1 Schematic Diagram / S4.3. EVR INT 2 Schematic Diagram G F E D C 61/#+0 61'84A+06 61'84A+06 22 --## (2 -/0# (2 -/0$# 22 --## 6'56A. 6'56A. 6'56A. 6'56A. '8448 '8448 '8448 '8448 #6(+ #6(+ #6(+ #6(+ '08'.12' '08'.12' '08'.12' '08'.12' *+& *+& *+& *+& &%.- &%.- &%.- &%.- 2%56 2%56 2%56 2%56 2%56 2%56 2%56 2%56 2%56 2%56 2%56 2%56 2%56 2%56 2%56 8*24 &4'5'6 &4'5'6 2%56 &4'5'6 5&+A&+06 5&+A&+06 0% 8*24 &4'5'6 5&+A&+06 5A26% 5A26% 5&+A&+06 5A26% &$)' &$)' 5A26% &$)' %#/A#)0& %#/A#)0& &$)' %#/A#)0& 7#46+ 7#46+ %#/A#)0& 7#46+ 7#641 7#641 7#46+ 7#641 5;56'/456 5;56'/456 7#641 5;56'/456 5;56'/456 %#/A8& 0% %#/A8& 4 =? (4#/'A)0& B A NV-MD10000GC/GK EVR INT 1 Schematic Diagram 1 2 3 4 NV-MD10000GC/GK EVR INT 2 Schematic Diagram 5 6 S-8 7 8 9 10 S4.4. Battery INT Schematic Diagram G F 61$#66 (2 -/0$# & 0% )0& )0& )0& )0& )0& $ )0& & (. ,/#$ ,- -'%# % (,,# & 4 % % =()%? 0% % =()%? $ 61/#+0 2 --## +2 -*# % =()%? $ .$ ,,*% % =()%? $ $ - D $ 4 E 4. 61(4#/' (4#/'A)0& C B A NV-MD10000GC/GK Battery INT Schematic Diagram 1 2 3 4 5 6 S-9 7 8 9 10 S4.5. AV Jack Schematic Diagram (. ,/#$ 62# 62$ ,- 62$ % % ) 62# 62# 61/#+0 -/0## (2 (. ,/#$ % -(#$ 62# % ) G *24 75$A& 62$ *2. 62$ 8575 75$A& F ,- -*<$ %*#0)'LUR .$ ,,$% 5;A+1 .$ ,,$% 5%A+1 62# 62# .$ 52.7)A. ,,$% 62$ 62$ 8< &'&# =? 8< &'&# =? .$ 4A)0& ,,$% 5;A+1 4A)0& % 2 52.7)A. %. .$ #82 8A*24 ,- -*#$ 59)0& D ,,$% *2+0A. .A*2. 8A*24 % 2 )0& 2.7)+0A* .A*2. 4A)0& .$ ,,$% .$ =,,$%? 75$A& 8$75 8$75 75$A& &A)0& &A)0& 62# 62# 62$ 62$ 8A*24 &A)0& 5;A+1 &A)0& &A)0& 5%A+1 52.7)A. *2+0A. 8*24 2.7)+0A* .*2. 4A)0& 4. &A)0& &A)0& 2.7)+0A* %. 8< =&'&#? 2.7)+0A* =? (4#/' .$ ,- ,,$% .$ -*%$ % % %. ,,$% .$ C 5%A+1 .A*2. &A)0& %. E *2. 8< &'&# =? *24 %. ,,$% *2. *24 *2+0A. 8< &'&# % =? (. ,/#$ B ) ) )0& 0% & & ) ) 8$75 ,- -*<' =75$? 75$A& 75$A& 4 -=? 8575 % W A NV-MD10000GC/GK AV Jack Schematic Diagram 1 2 3 4 5 6 S-10 7 8 9 10 C A 1 &A)0& 864A-';A 864A-';A 864A-';A 4')&8 864A-';A 2A.%&A.'& 219'4A.%& &A)0& .%&A12'0 0% )7+A.'& &A)0& 864A-';AA 864A-';A 864A-';AA 4')&8 864A-';A 2A.%&A.'& 219'4A.%& .%&A12'0 2 =&'&#? =&'&#? 8< =&'&#? 8< =&'&#? 8< =&'&#? 8< =&'&#? 8< =&'&#? 3 4 5 S-11 6 7 /A%-8 /A568 /A%58 /A$ /A4 /A) /A%5* /A56* /48 /A%1/ /A1'8' /A(4 /A2%) /A8%5* /A29/ /A.'&8 /A1'8 /A.'&8 /A%-* &)0& &)0& &)0& /A*. 4'8A. /A%-* 4'8A8%% 8 /A%1/ /48 /A56* /A%5* /A) /A4 E /A$ =&'&#? /A%58 /A568 /A%-8 /A8%5* /A(4 /A1'8' /A2%) /A1'8 /A%-* /A%-* /A*. /A29/ /A.'&8 4'8A. 4 =? 52A176 52A176 /A$ /A) /A4 4'5'6 864A-';A 864A-';A 864A-';AA 864A-';AA 219'4A.%& 2A.%&A.'& .%&A12'0 4')&8 /A568 /A(4 /A8%5* /A%-8 /A%1/ /A56* /48 /A%58 /A%5* /A1'8' /A1'8 /A%-* /A%-* /A*. /A2%) /A29/ 4'8A8%% F 61/10+614 (2 -/0$# 4'8A8%% 8< 8< 4 =? 4 =? D 4'8A. /A.'&8 /A&A)0& /A29/ &A)0& 864A-';A 864A-';A 4'5'6 /A4 /A) /A$ /A&A)0& /A&A)0& 52A176 52A176 52A176 52A176 52A176 /A&A)0& 52A176 864A-';A 864A-';A 219'4A.%& 2A.%&A.'& 4')&8 .%&A12'0 /A568 /A(4 /A%-8 /A8%5* /A%1/ /A56* /A48 /A&A)0& /A%58 /A%5* /A1'8' /A1'8 /A%-* /A%-* /A2%) /A*. 0% )7+A.'& 485A8%% 485A. /A.'&8 /A.'&8 61/16*'4 (2 -/0$ S4.6. Side R Schematic Diagram G 6152 2 --#$# 8< (2 -/0$# 9 52A176 52A176 4'5'6 5 -*$# %. 615+&'A412 (.#/')0& B =.%&A12'0? 6. =)0&? 6. NV-MD10000GC/GK Side R Schematic Diagram 10 S4.7. Side R Operation Schematic Diagram G 864A-';A 0% &A)0& =219'4.%&59? 5 '8339/ 5 -&$ 4 4 =? 8< 4 5 -&$ =.'(64'9? =%#/? 5 '8339/ 4 - =&'&#? =? 8< =&'&#? 4 5 '8339/ & =219'4.%&? =#(/(? 4 =/'07? C =#761/0.? 5 '8339/ - 4 &A)0& 0% 5 '8339/ - 219'4A.%& 4 2A.%&A.'& =&1905612? =4+)*6((? 4')&8 =722.#;56+..? 5 '8339/ =&'&#? 864A-';A - =? 5 '8339/ 8< 864A-';A 864A-';A =5'6? 4 $#$$ D &A)0& 4 (2 -/0$# 8< =&'&#? E =? - F =8%4? 8< =&'&#? =? (.#/')0& B A NV-MD10000GC/GK Side R Operation Schematic Diagram 1 2 3 4 5 6 S-12 7 8 9 10 S4.8. Monitor Schematic Diagram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other Schematic Diagram 8CTKCVKQP%CVGIQT[ 4 1 .'&$.AC .'&$.AC - 2 3 4 5 6 S-13 7 8 9 10 S4.9. EVF INT Schematic Diagram / S4.10. EVF B/L Schematic Diagram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chematic Diagram 1 2 3 4 5 NV-MD10000GC/GK EVF B/L Schematic Diagram 6 S-14 7 8 9 10 S4.11. Handle Zoom Schematic Diagram / S4.12. Mic Jack Schematic Diagram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andle Zoom Schematic Diagram 1 2 3 NV-MD10000GC/GK Mic Jack Schematic Diagram 4 5 6 S-15 7 8 9 10 S4.13. Zoom Schematic Diagram / S4.14. Front Schematic Diagram G F 61/16*'4 E 2 --#$# % 4 & /#5&. 8 %-< 4'/1%10 %-< 6#..; %-< &A)0& %-< +4176 %-< .0%#.:7 =&'&#? =? & 4 - 8< % =$$%4? 84'(. & % 8=6?=;? =$$%4? % 84'(. 176 & <11/#& )0& 3 5. 84'(* 84'(* 4/ 4 =? +4 $4#$ 3 5&. 8%% 4 D <11/#& $)# (2 -/0$# & 2 --#$# % 61<11/59 W 4 / 61/16*'4 4 4 (.#/')0& C B A NV-MD10000GC/GK Zoom Schematic Diagram 1 2 3 4 NV-MD10000GC/GK Front Schematic Diagram 5 6 S-16 7 8 9 10 S4.15. S/S Power Schematic Diagram / S4.16. LCD Det Schematic Diagram / S4.17. Eject Schematic Diagram G F 5 -.$# 55 61/16*'4 (2 --#$# 219'4A59 &A)0& 219'4A.'& 55A59 5'A)0& 4 5 -.$# 61/16*'4 5 '5'$6 %. &A)0& %. 4 =? =)0&? & $##$ D ','%6A59 (.#/')0& 8< =&'&#? 4 2 --#$# =.%&A12'0? 219'4 8< =&'&#? 219'4 4 E 5 8/) 4. (4#/' C B A NV-MD10000GC/GK S/S Power Schematic Diagram 1 2 3 NV-MD10000GC/GK Eject Schematic Diagram NV-MD10000GC/GK LCD Det Schematic Diagram 4 5 6 S-17 7 8 9 10 S4.18. CCD Flex Schematic Diagram 1/4 NV- MD10000GC/GK CCD Flex Schenatic Diagram N M L K J +% /0 4 G 4 - 3 5%,%. % % (*%# *=4? S-18 % 4 =4? 8 )0&=0%? )0& 26 8 4 % 57$ 4=0%? % =()%#? 8&& 176 *=*? 4 4 - 8 4=0%? 0%=*? )0& 57$ % 8 )0&=0%? 26 =$? 4 =()%#? % (*%# 8 *=4? 3 5%,%. H 8 *=*? 4 8 0%=*? 8 4 - +% /0 176 8&& I 4 - % 2/4 5+)$ %. 5+)4 5+)) %. 615'0514 %. 22 --## *$ 57$$ 8$ 8$ 4 57$) 8 84 84 84 +% /0 3 5%,%. 8 *=4? =)? 4 - 8 )0&=0%? 26 57$ 57$4 *=*? 8 4 4 % 0%=*? 8 *4 84 4=0%? )0& 8) 8) =()%#? 176 8&& 8) % (*%# #? )0& % 8) % S-19 4 % # =? 4 8 8$ 8$ #)0&=$? *$ *$ 57$$ 8$ 8$ 4 *) *) 57$) 8 8 84 84 84 84 *4 *4 57$4 #)0&=4)? 5+)4 #)0&=4)? 8A4) 8A4) #)0&=4)? #)0&=4)? 5+)) #)0&=4)? 8) 8) 8) 8) 8 8 8$ 8$ NV- MD10000GC/GK CCD Flex Schenatic Diagram 4 8&& 4 - 4 % % (*%# =? 3 =5%,%.? 57$ )0&=0%? )0& 4=0%? 176 8&& % % 4 - 4 % % (*%# =? 3 =5%,%.? % (),# 4 26 4 =()%#? =()%#? G 4 % (*%# =4? 8 176 % *=4? 4=0%? 4 3 5%,%. 8 )0& *=*? 57$ % 8 )0&=0%? 26 =$? 4 % (*%# 8 *=4? 3 5%,%. 8 H *=*? 4 - 8 % (),# 4 4 4 F E D C B A NV- MD10000GC/GK CCD Flex Schenatic Diagram 3/4 1 2 3 4 5 6 S-20 7 8 9 10 11 3 5%,%. =)? 8 )0&=0%? *=4? 8 4 - 26 57$ *=*? 8 4 % 4=0%? )0& % 8) 8) =()%#? 176 8&& 8) % (*%# #? )0& 8) 4 - % (*%# =? 4 % 8 8$ % (*%# =? 4 3 =5%,%.? 8$ 8A$ % (),# 4 #)0&=4)? 5+)4 #)0&=4)? 8A4) 8A4) #)0&=4)? #)0&=4)? 5+)) #)0&=4)? 8) 8) 8) 8) 8 8 8$ 8$ 8A$ 8A$ #)0&=$? 5+)$ 4 4/4 11 12 13 14 15 16 17 S-21 18 19 20 NV- MD10000GC/GK CCD Flex Schenatic Diagram 21 S4.19. Holl Sensor Flex Schematic Diagram G F E 6. +% &0/5%6:. =4'8A8%%? D 6. =4'8A)0&? 6. =4'8A.? C B A NV-MD10000GC/GK Holl Sensor Flex Schematic Diagram 1 2 3 4 5 6 S-22 7 8 9 10 S5. Print Circuit Board S5.1. EVR INT 1 P.C.B. / S5.2. EVR INT2 P.C.B. G 2( 22 F E (Component Side) (Component Side) D (2 4 22 C B (Foil Side) (Foil Side) A NV-MD10000GC/GK EVR INT 1 P.C.B. 1 2 3 4 NV-MD10000GC/GK EVR INT 2 P.C.B. 5 6 S-23 7 8 9 10 S5.3 Battery INT P.C.B. G F % % 4 E -, .4 % (. D 2 +2 % .$ 4 % % C (2 B (Component Side) (Foil Side) A NV-MD10000GC/GK Battery INT P.C.B. 1 2 3 4 5 6 S-24 7 8 9 10 S5.4. AV Jack P.C.B. G -, -, F -, -, .4 E .% (Component Side) D % 4 8< (. .$ C % ,- % (. 8< 8< .$ .$ 8< % .$ % .$ % .$ % %. .$ % (. .$ .$ B .$ %. %. %. % (2 % 8< (Foil Side) A NV-MD10000GC/GK AV Jack P.C.B. 1 2 3 4 5 6 S-25 7 8 9 10 S5.5 Side R P.C.B. G F 5 E .6 .6 (Component Side) D 2 4 (2 C %. B (2 8< 8< 8< 8< 8< 8< 8< (2 4 4 8< A (Foil Side) 1 2 3 NV-MD10000GC/GK Side R P.C.B. 4 5 6 S-26 7 8 9 10 S5.6 Side R Operation P.C.B. G 5 5 5 F 5 5 & 5 5 5 5 E (Component Side) D 4 4 C 4 8< 8< 4 4 4 (2 8< 4 8< 4 4 8< 4 B A (Foil Side) 1 2 3 NV-MD10000GC/GK Side R Operation P.C.B. 4 5 6 S-27 7 8 9 10 S5.7. Monitor P.C.B. G F -/ -/ /- 4 4 % & /- /- 4 % (2 % 4 % 4 % 4 % /- 4 % 4 % 4 4 3 4 4 4 4 % 4 4 % 4 . % & & & & ,# ,# % 4 4 3 % 3 % & 4 3 3 3 4 (2 & ,# 4 & D 4 3 4 4 4 & 4 % E % % B 3 (Component Side) /- /- & -/ -/ C 4 4 3 3 4 4 (Foil Side) A NV-MD10000GC/GK Monitor P.C.B. 1 2 3 4 5 6 S-28 7 8 9 10 S5.8. EVF INT P.C.B. / S5.9. EVF P.C.B. % % % G F -/ 2 4 & % -/ 2( E 2( % -/ -/ % % (Component Side) D (Component Side) C (2 /- % /- % (Foil Side) B & 4 4 % % 4 & 4 4 (Foil Side) NV-MD10000GC/GK EVF INT P.C.B. 2 % 4 A 1 3 & 3 4 5 6 S-29 7 NV-MD10000GC/GK EVF P.C.B. 8 9 10 S5.10. Handle Zoom P.C.B. / S5.11. Mic Jack P.C.B. G F 5 2 5 5 -, E 4 4 % % 4 4 D 4 4 4 4 % % 4 % 3 4 4 4 4 4 3 4 3 3 %-; %-; 4 4 %-; % 4 3 (. 4 .( %-; %-; 2( :-% %-; %-; :-% :-% :-% C 3 4 4 % $. % $. 4 (Component Side) (2 %-; %-; ;-% B (Component Side) (Foil Side) (Foil Side) A NV-MD10000GC/GK Handle Zoom P.C.B. 1 2 3 4 NV-MD10000GC/GK Mic Jack P.C.B. 5 6 S-30 7 8 9 10 S5.12. Zoom P.C.B. / S5.13. Front P.C.B. G 3 % 4 % & % F 2( 4 & %-< %-< (Component Side) %-< 4 E 4 3 4 4 & %-< 2 D C 8< & 2 & %-< 4+ B (Foil Side) 4 % % A NV-MD10000GC/GK Zoom P.C.B. 1 2 3 (Component Side) 4 5 6 S-31 NV-MD10000GC/GK Front P.C.B. (Foil Side) 7 8 9 10 S5.14. S/S Power P.C.B. / S5.15. LCD Det P.C.B. G & F (Component Side) 4 5 <8 E %. %. 5 <8 (2 .4 4 4 D C (Foil Side) B (Component Side) A (Foil Side) NV-MD10000GC/GK S/S Power P.C.B. 1 2 3 4 NV-MD10000GC/GK LCD Det P.C.B. 5 6 S-32 7 8 9 10 S5.16. Eject P.C.B. G F -/ -/ 2 4 E /- 5 /- D C -/ /- /- -/ B (Component Side) (Foil Side) A NV-MD10000GC/GK Eject P.C.B. 1 2 3 4 5 6 S-33 7 8 9 10 S5.17. CCD Flex S5.17.1. CCD Flex (Component Side) G % E %+ F + D C + % B (Component Side) A NV-MD10000GC/GK CCD Flex(Component Side) 1 2 3 4 5 6 S-34 7 8 9 10 S5.17.2. CCD Flex (Foil Side) G 4 % % 4 % 4 4 4 4 % % F 4 % 4 %. 3 % % 4 E 4 3 % % 4 4 3 22 % %. D 3 4 4 4 4 % C 3 % 4 % 4 4 3 % % % 4 4 % B 4 4 4 %. (Foil Side) A NV-MD10000GC/GK CCD Flex(Foil Side) 1 2 3 4 5 6 S-35 7 8 9 10 S5.18. Holl Sensor Flex G F E 6. 6. 8,$) 6. +% D C B A NV-MD10000GC/GK Holl Sensor Flex 1 2 3 4 5 6 S-36 7 8 9 10 S6. Replacement Parts List Note: 1.* Be sure to make your orders of replacement parts according to this list. 2. IMPORTANT SAFETY NOTICE Components identified with the mark have the special characteristics for safety. When replacing any of these components, use only the same type. 3. Unless otherwise specified, All resistors are in OHMS, K=1,000 OHMS. All capacitors are in MICRO-FARADS (uf), P=uuF. 4. The marking (RTL) indicates the retention time is limited for this item. After the discontinuation of this assembly in production, it will no longer be available. E.S.D. standerds for Electrostatically Sensitive Devices, refer to “PREVENTION OF ELECTROSTATIC DISCHARGE (ESD) TO ELECTROSTATICALLY SENSITIVE (ES) DEVICES” section. Definition of Parts supplier: 1. Parts marked with [PAVC-CSG] in the remarks column are supplied from PAVC COMPANY CS Group (PAVC-CSG). S-37 S-38 S-39 S-40 S-41 S-42 S-43 S7. Exploded Views S7.1. Frame & Casing Section (1) 4 31 34 B65 B66 B67 78 B51 B79 B81 7 90(RTL) AV JACK P.C.B. 26 B80 B75 B76 B82 32 B34 9 93(RTL) S S & POWER P.C.B. 29 B53 B52 35 33 28 B37 B99 B36 8 B60 B98 B59 30 89(RTL) BATTERY INT. P.C.B. 53 92(RTL) FRONT P.C.B. B69 B97 B40 B38 55 23 B74 76 91(RTL) ZOOM P.C.B. B77 B42 B8 B1 B41 B70 65 B72 5 11 B71 B18 45 16 B63 B64 22 17 B13 B4 B43 B32 20 15 B39 B2 B45 38 B9 14 B57 19 B33 13 B73 B58 B61 B62 71 48 18 B68 3 B35 42 B25 B28 37 B19 B29 B31 1 B30 B47 60-1 46 50 B27 51 B26 60 B3 12 B49 B50 49 66 B85 39 6 B22 B88 24 62 B46 94(RTL) EJECT P.C.B. 27 B5 86(RTL) MOTHER P.C.B. 70 81 84 10 2 B6 B10 B21 B20 W1 71 B56 B84 61 B24 B55 B83 B12 85(RTL) 22 MAIN P.C.B. 82 B17 B11 B7 74 25 72 B87 B86 88(RTL) EVR INT.2 P.C.B. B14 B15 B93 B92 S-44 83 87(RTL) 79 EVR INT. P.C.B. 80 71 82 73 79 73 36 76 B16 21 74 72 80 S7.2. Frame and Casing Section (2) B180 B181 B179 B151 B152 B145 111 B182 B153 B147 B146 118 B154 154 154-1 110 B183 129 183(RTL) HANDLE ZOOM P.C.B. 128 B150 108 B149 131 B197 153 134 B148 123 B198 117 132 135 112 B159 124 160 B186 B187 B193 B194 116 125 133 B188 122 B134 138 182(RTL) EVF P.C.B. B163 B162 B161 143 136 B192 B195 177 B172 146 147 B135 120 149 120 166 184(RTL) MIC JACK P.C.B. 167 160-2 150 145 107 109 119 B170 B168 B126 B106 159 B139 B140 101 B107 B141 102 B142 B121 B116 185(RTL) LCD DET. P.C.B. B104 179(RTL) SIDE(R) P.C.B. 178 B177 B175 B176 B174 B127 B125 B123 B143 B138 B124 B109 B185 B144 B136 B137 105 B169 B167 B108 172 B166 B165 181(RTL) B164 EVF INT. P.C.B. 158 B184 B122 171 137 148 152 B190 B189 B191 B160 B171 121 125-1 127 B117 151 115 114 B120 104 B119 139 113 B105 168 B173 B118 B110 180(RTL) SIDE(R) OPERATION P.C.B. B129 B102 B103 103 B101 B199 169 B114 B112 S-45 B113 B115 B111 S7.3. Camera Lens Section B301 301-1 304 304-1 B303 302 B302 303 301 B304 304-2 B305 304-3 304-4 B307 B309 B308 B306 304-5 304-6 B310 304-7 304-8 304-9 304-10 B311 B312 S-46 S7.4. LCD Section 202 B203 203 204 B204 205 206 207 208 209 210 219-1 217 218 219(RTL) MONITOR P.C.B. 201 B205 201-1 212 B206 201-3 201-2 B201 216 B207 B202 213 B208 214 S-47 S7.5. Video Mechanism Section 503 503 -1 503 -2 504 B501 B507 501 -4 B506 501 B505 B504 B502 S-48 B503 S7.6. Packing Parts and Accessories Section 402 E External Stereo Microphone AC Adaptor 417 403 411 413 416 405 Battery Pack U. 412 Button-Type Battery 406 (GC)area only 415 406 (GK)area only 406 (GC)area only 404 Battery 401 S-49