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VAA23001-R.3626.A 作成承認印 配布許可印 VAA23001 REPAIR MANUAL Copyright c 2004 by Nikon Corporation. All Rights Reserved. 無断転載を禁ず !! Printed in Japan February 2004 VAA23001-R.3626.A CONTENTS SPECIFICATIONS ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ M1-M2 DISASSEMBLING WARNING ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D 1 REAR COVER・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D 2 -D3 FRONT COVER ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D4 DISCHARGE MAIN CONDENSER ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D5 BATTERY COVER/BATTERY TERMINAL ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D5 BATTERY HOLDER/BATTERY TERMINAL/CONTROL RELEASE ・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D5 LCD / HOLDER MONITOR / SPRING PLATE A / HOLDER MICROPHONE / HOLDER FLASH ・・・・・ D6 CP1-PCB / TB1-PCB / CCD ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D7 FINDER UNIT・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D8 SEPARATE LENS-BARREL ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D9 SHUTTER ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D10-D11 STRAIGHT TUBE (1ST LENS FRAME) / KEY TUBE ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D12 BARRIER UNIT ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D12 3RD LENS UNIT / ZOOM MOTOR UNIT ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D13 ASSEMBLY 3RD LENS UNIT ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A1 ZOOM MOTOR UNIT ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A2 BARRIER UNIT ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3 STRAIGHT TUBE (1ST LENS FRAME) / KEY TUBE ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A4 SHUTTER ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A5-A6 ASSEMBLE LENS-BARRER / CCD BASE ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A7 FINDER UNIT・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A8 CCD / TB1-PCB / CP1-PCB ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A9 HOLDER FLASH / HOLDER MICROPHONE / SPRING PLATE A ・・・・・・・・・・・・・・・・・・・・ A10-A12 HOLDER MONITOR / LCD・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A10-A12 BATTERY COVER ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A13 CONTROL RELEASE / BATTERY HOLDER ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A13-A14 FRONT COVER ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A15 REAR COVER・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A16 ADJUSTMENT ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A17-A25 DISCRIPTION OF CIRCUIT・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ E1-E7 - E2200 - VAA23001-R.3626.A ELECTRICITY OVERALL WIRING ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ E8 OVERALL BLOCK DIAGRAM ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ E9 ASIC BLOCK DIAGRAM ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ E10 CCD BLOCK DIAGRAM ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ E11 LENS DRIVE BLOCK DIAGRAM ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ E12 POWER BLOCK DIAGRAM・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ E13 SYSTEM BLOCK DIAGRAM ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ E14 PWA CIRCUIT DIAGRAM (STROBE CIRCUIT DIAGRAM) ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ E15 FUSE configuration (CP1 PCB) ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ E16 INSPECTION STANDARD ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ R1-R7 TOOL LIST ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ T1-T3 - E2200 - VAA23001-R.3626.A SPECIFICATIONS Type E2200 digital camera Effective pixels 2.0 mega-pixels CCD 1/3.2-inch high-density CCD; total pixels: 2.14 mega-pixels Image size (pixels) 1600×1200, 1024×768 and 640×480 Lens 3×Zoom Nikkor f = 4.7 to 14.1mm (36 ~ 108mm by conversion with 35mm-format) F2.6 ~ F4.7 Digital zoom Max. 4.0× (by 0.2) Auto focus (AF) Contrast AF Focus range measured from lens 30 cm (1 ft.)-∞ at widest angle (W), 60 cm (2 ft.)-∞ at telephoto (T) (Approx. 4cm (shortest) ~ ∞ in Macro mode) AF area Automatically selected from 5 places when the scene mode with the center/assist function is selected. Finder Real image type zoom finder, field of viewfinder: Approx. 80% Monitor 1.6 type TFT LC, 80000-dot, with luminance adjustment (5 steps), with the GainUp function for low luminance Storage Media File system File format SD card Compliant with Design rule for Camera File systems (DCF), Exif 2.21, Digital Print-Order Format (DPOF) Compressed: Compliant with JPEG Movies: QuickTime Motion JPEG Metering 256-segment multi-metering Exposure control Programmed auto, exposure compensation (–2.0 ~ +2.0 EV in steps of 1/3 EV) Range (ISO equivalent) W: EV 0.8 to 17.7 T: EV 2.6 to 16.2 Shutter Shutter Speed Mechanical and charge-coupled electronic shutter 4-1/3000 sec. Aperture Range Electronically controlled open-selectable aperture, control steps: 2 (aperture "open"/small aperture (-2Av)) Sensitivity Equivalent to IS0050, with the automatic gain-up function Self-timer Approx. 10 seconds Built-in Speedlight Range Equipped with automatic pop-up W: 0.4 to 3.7 m (1.3 to 12.1 ft.) T: 0.4 to 2.0 m (1.3 to 6.6 ft.) Automatic sync control Sync method - M1 ・ E2200 - VAA23001-R.3626.A Interface USB 2.0 Video output User can choose from NTSC and PAL I/O terminals DC input terminal, Video output terminal which is also used as USB terminal Power sources Rechargeable battery EN-MH1 (nickel hydrogen battery: accessory) 2 pcs., lithium battery CR-V3 (available separately): 1 pc., AA nickel manganese battery (on the market): 2 pcs. or AA nickel dry battery (on the market): 2 pcs. and EH-61 AC adapter (available separately) Battery life (EN-EL1) Approximately 150 minutes (when EN-MH1 is used)/approximately 250 minutes (when CR-V3 is used) * Measurement conditions are those of Our Company (zooming when taking a picture, speed light photography with approx. 30% in the photography mode [Standard]). Dimensions (W×H×D) 88×65×38 mm Weight Approximately 140 g without battery and memory card Operating environment Temperature Humidity 0 - 40°C (32 – 104°F) Under 90% (no dew condensation) - M2 ・ E2200 - VAA23001-R.3626.A Disassembly � ������� ����������������������������������������������������������������������� �������������������������� ������������������������������������������������������������������ �������������������������������������������������� Points to notice for Lead-free solder products ・Lead-free solder is used for this product. ・For soldering work, the special solder and soldering iron are required. ・Do NOT mix up lead-free solder with traditional solder. ・Use the special soldering iron respectively for lead-free solder and lead solder. They cannot be used in common. Note : ① Be sure to remove the SD memory card and batteries before disassembly. ② When disassembling, make sure to memorize the processing state of wires, screws to be fixed and their types, etc. ③ Because electrical parts are easily damaged by static electricity, make sure that you are well earthed/grounded. - D1 ・ E2200 - VAA23001-R.3626.A Rear cover ・ Open the cover ( ① ). ・ Take out 2 screws ( ② : M1.7×5). ・ Take out 2 screws ( ③ : M1.7×4.5). ・ Take out 2 screws ( ④ : M1.7×4). ・ Uncover the bottom of the rear cover from card-lid side, and unhook the rear cover while pressing its upper part. (Fig. 1) ・ Uncover the rear cover by pulling it slowly backwards, and detach the FPC ( ⑤ ) from the connector. (Fig. 2) ・ The shaft strap ( ⑥ ) comes off. Rear cover ⑥ red ⑤ black ① ④ ② ③ - D2 ・ E2200 - VAA23001-R.3626.A Push. Rear cover Bottom card cover (Fig 1) ⑤ (Fig 2) - D3 ・ E2200 - VAA23001-R.3626.A Front cover ・ Remove the lead wire (black: ① ) and lead wire (red: ② ). ・ Remove the FPC ( ③ ). ・ Take out 3 screws ( ④ : M1.7×4). ・ Remove the front cover by pulling it forwards. ・ The stand (tripod: ⑤ ) comes off. ④ red ①② black ⑤ ③ ④ Front cover ② ① - D4 ・ E2200 - VAA23001-R.3626.A Discharge Main condenser � ������� ����������������������������������������������������������������������� �������������������������� ������������������������������������������������������������������ �������������������������������������������������� 2KΩ/5W Main condenser Battery cover / Battery terminal ・ Take out 2 screws ( ① : M1.7×2.5), and remove the battery terminal C ( ② ). ・ The battery cap ( ③ ), battery terminal D ( ④ ) and battery knob ( ⑤ ) come off. ・ Remove the battery cover shaft ( ⑥ ) and uncover the battery cover. Battery holder / Battery terminal / Control release ・ Take out 2 screws ( ⑦ : M1.7×3), and remove the battery holder. ・ Take out 2 screws ( ⑧ : M1.7×2.5). ・ Remove the lead wire (black: ⑨ ) and detach the terminal B ( ⑩ ). ・ Remove the lead wire (red: ⑪ ) and detach the terminal A ( ⑫ ). Battery holder ・ Take out 2 screws ( ⑬ : M1.7×3) and remove the control release. ⑦ ⑪ ⑫ ⑩ ⑧ Control release ⑬ ⑨ Front cover ⑥ ① ② ③ ④ ⑤ Battery cover - D5 ・ E2200 - VAA23001-R.3626.A LCD ・ Remove the FPC ( ① ). ・ Remove the lead wires (white: ② and red: ③ ). (Fig. 1) ・ Remove the LCD. Note) Handle the stopper of the FPC ( ① ) with care because it is fragile. Holder monitor ・ Take out 2 screws ( ④ : M1.7×4). ・ Take out the screw ( ⑤ : M1.7×2.5). ・ The holder monitor comes off. Spring plate A / Holder microphone ・ Take out the screw ( ⑥ : M1.7×3). ・ The spring plate A comes off. ・ The holder microphone comes off. Holder flash ② ③ ・ Take out the screw ( ⑦ : M1.7×4). (Fig 1) ・ Remove the lead wires (red: ⑧ and black: ⑨ ). ・ Remove the lead wires (black: ⑩ , gray: ⑪ and red: ⑫ ). ・ The holder flash comes off. ⑥ Spring plate A Holder microphone ⑩⑪⑫ LCD ⑧⑨ ②③ ⑦ Holder flash A black red gray black A red ① red ④ white Holder monitor ⑤ Stopper of FPC ( ① ) - D6 ・ E2200 - VAA23001-R.3626.A CP1-PCB / TB1-PCB / CCD ・ Take out the screw ( ① : M1.7×3). ・ Remove the FPC ( ② ). ・ Take out 2 screws ( ③ : M1.7×6). ・ The lens assembly comes off. ・ The spacer ( ④ ), LPF ( ⑤ ) and spacer ( ⑥ ) come off. ・ Remove the lead wires (gray: ⑦ and white: ⑧ ). ・ Take out the screw ( ⑨ : M1.7×3). ・ TB1-PCB comes off. ・ Unsolder the CCD ( ⑩ ) and disassemble the CCD and CP1-PCB. CP1-PCB ③ B TB1-PCB ⑨ gray C ⑦⑧ B ① ② ⑩ ④ C ⑤ ⑥ Lens assembly - D7 ・ E2200 - white VAA23001-R.3626.A Finder unit ① Finder unit Lens-barrel ・Take out 2 screws ( ① ). ・Remove the finder unit by lifting it in the direction indicated by the arrow. - D8 ・ E2200 - VAA23001-R.3626.A Separate Lens-barrel ② ① Shutter FPC ② ・Remove the solder of the shutter FPC and take out the screw ( ① ). ・Take out 4 screws ( ② ). Lens-barrel Finder gear A Finder gear B ・Detach the lens barrel by moving it slowly in the direction indicated by the arrow. The finder gear A and B come off at the same time. - D9 ・ E2200 - VAA23001-R.3626.A Shutter Turning tube ・Rotate the turning tube in the direction indicated by the arrow, to extend the lens-barrel to the maximum. Barrier joint plate ① ② A Barrier joint plate A 【Side view】 ・Remove the barrier joint plate by pulling it in the direction of A. - D10 ・ E2200 - VAA23001-R.3626.A Shutter unit Turning tube ・Rotate the turning tube to the full up position, to reduce the lens-barrel size. ・Remove the shutter unit by lifting it in the direction of the arrow. ① 2nd lens frame Shutter ・Take out 2 screws ( ① ) to separate the 2nd lens frame from the shutter. - D11 ・ E2200 - VAA23001-R.3626.A Straight tube (1st lens frame) / key tube Turning tube unit Lens-barrel cover Straight tube (1st lens frame) Key tube Turning tube ・Remove the turning tube unit from the lens-barrel cover. ・Remove the straight tube (1st lens frame) by pulling it backwards. ・Remove the key tube from the turning tube. Barrier unit Barrier ring Spring Barrier Name plate ・Remove the name plate. ・Remove the barrier by turning it slightly in the direction indicated by the arrow. ・Detach the spring to remove the barrier ring. - D12 ・ E2200 - VAA23001-R.3626.A 3rd lens unit / Zoom motor unit 3rd lens spring Focus motor 3rd lens unit Turning stopper ① Zoom gear D Zoom gear C Zoom motor Worm gear ① ② Motor base 1) Zoom motor unit ・Take out 2 screws ( ① ). ・The motor base comes off, so does the worm gear, zoom gear C, and zoom gear D. ・Take out 2 screws ( ② ). ・Remove the solder at 2 parts on the backside of the zoom motor, and detach the zoom motor. 2) 3rd lens unit ・Remove the 3rd lens spring. ・ Turn the focus motor shaft counterclockwise with a flathead screw driver, and remove the 3rd lens unit and turning stopper. - D13 ・ E2200 - VAA23001-R.3626.A Assembly 3rd lens unit Focus motor CCD base 3rd lens spring 3rd lens unit Turning stopper ・While turning the focus motor shaft clockwise with a flathead screwdriver, assemble the 3rd lens unit and the turning stopper into the CCD base. ・ Turn the focus motor shaft further until the 3rd lens unit slightly touches the bottom, then give it about one turn counterclockwise. Adhesive: Screw lock (Colorless) HH201002 ・Hook the 3rd lens spring. ・Apply the Screw lock (colorless) on both hooking ends of the 3rd lens spring. - A1 ・ E2200 - VAA23001-R.3626.A Zoom motor unit CCD base ② Zoom gear D Zoom gear C Zoom motor Worm gear ② ① Motor base ・Attach the zoom motor on the motor base, and tighten 2 screws ( ① ). ・Assemble the worm gear, zoom gear C and zoom gear D into the CCD base. ・Attach the motor base on the CCD base, and tighten 2 screws ( ② ). CCD base FPC 2 solderings Zoom motor ・Attach the FPC of the CCD base on the zoom motor, and solder it. - A2 ・ E2200 - VAA23001-R.3626.A Barrier unit Barrier ring Straight tube (1st lens frame) Spring Barrier Name plate ・Attach the barrier ring to the straight tube (1st lens frame), and hook the spring. ・Attach the barrier by turning it slightly in the direction indicated by the arrow. ・Attach the name plate. - A3 ・ E2200 - VAA23001-R.3626.A Straight tube (1st lens frame) / key tube Turning tube Light-shielding ring Key tube ・Assemble the light-shielding ring and key tube into the turning tube by following the above direction of the arrow. Straight tube (1st lens frame) Key tube ・Align the grooves of the key tube and 3 protrusions of the straight tube (1st lens frame) and assemble them. Turning tube unit Lens-barrel cover ・Assemble the turning tube unit into the lens-barrel cover. - A4 ・ E2200 - VAA23001-R.3626.A Shutter ① 2nd lens frame Shutter ・Assemble the shutter and 2nd lens frame with 2 screws ( ① ). Shutter unit Lens-barrel cover ・Assemble the shutter unit into the turning tube by following the above direction of the arrow. - A5 ・ E2200 - VAA23001-R.3626.A Turning tube ・Rotate the turning tube in the direction indicated by the arrow, to extend the lens-barrel to the maximum. Barrier joint plate ① ② A Barrier joint plate A 【Side view】 ・Attach the barrier joint plate by pressing slightly in the direction of A arrow. Turning tube ・Rotate the turning tube in the direction indicted by the arrow, to reduce the lens-barrel size. - A6 ・ E2200 - VAA23001-R.3626.A Assemble Lens-barrel / CCD base CCD base Gear shaft Adhesive: Cemedine 575 J67017 Lens-barrel Finder gear A Finder gear B ・Attach the gear shaft to the CCD base. ・Apply the cemedine 575 on the tip of the gear shaft from the backside of the CCD base. ・Assemble the finder gear A and B. ・Pass the shutter FPC through the hole of the CCD base, and assemble the lens-barrel. ・As shown in the below red circle (○), align the protrusions of the CCD base and finder gear A, and assemble them. ・Apply the cemedine 575 on the tip of the gear shaft. CCD base Finder gear A Gear shaft Adhesive: Cemedine 575 J67017 - A7 ・ E2200 - VAA23001-R.3626.A CCD base FPC ① ② ① Shutter FPC ・Tighten 4 screws ( ① ). ・Tighten the screw ( ② ) and solder the shutter FPC on the FPC of the CCD base. Finder unit ① Finder unit Lens-barrel ・Set the finder unit to W-end manually. ・ Enter the protrusion of the finder unit into the hole of the lens-barrel as shown by (○), and assemble them by pushing in the direction of the arrow. ・Tighten 2 screws ( ① ). - A8 ・ E2200 - VAA23001-R.3626.A CCD / TB1-PCB / CP1-PCB ・ Arrange the shield tape ( ① ), spacer ( ② ), and lens mount ( ③ ). Assemble the CCD ( ④ ) and solder the CP1-PCB. ・ Solder the lead wires (gray: ⑤ and white: ⑥ ). ・ Assemble the spacer ( ⑦ ), LPF( ⑧ ), and spacer ( ⑨ ) into the lens assembly. ・ Attach the CP1-PCB to the lens assembly, and tighten the 2 screws ( ⑩ : M1.7×6). ・ Connect the FPC ( ⑪ ). ・ Place the lead wires in position as shown below, and attach TB1-PCB. ・ Tighten the screw ( ⑫ : M1.7×3). ・ Tighten the screw ( ⑬ : M1.7×3). CP1-PCB ⑩ B TB1-PCB ⑫ ② gray ③ ⑤⑥ B ⑨ C ④ ① ⑧ ⑬ white ⑪ Direction for assembling LPF ( ⑧ ) ⑦ C Lens assembly TB1-PCB ⑥ ⑤ - A9 ・ E2200 - Lens unit-side CCDside VAA23001-R.3626.A Holder flash ・ Solder the lead wires (red: ① , gray: ② , and black: ③ ). (Fig. 1) ・ Place the lead wires in position as shown below. Attach the holder flash and tighten the screw ( ④ :M1.7×4). (Fig. 2) ・ Arrange the lead wires (red: ⑤ and black; ⑥ ) as shown below and solder them. (Fig. 3・Fig. 4) Holder microphone / Spring plate A ・ Attach the holder microphone. ・ Attach the spring plate A. ・ Tighten the screw ( ⑦ : M1.7×3). Holder monitor ・ Attach the holder monitor and tighten 2 screws ( ⑧ : M1.7×4). ・ Tighten the screw ( ⑨ : M1.7×2.5). LCD ・ Attach the FPC ( ⑩ ). ・ Attach the LCD. ・ Solder the lead wires (red: ⑪ and white: ⑫ ). (Fig. 5) ⑦ Spring plate A Holder microphone ①②③ LCD ⑤⑥ ⑪⑫ ④ Holder flash A black red gray black A red ⑩ ⑧ red white Holder monitor ⑨ - A10 ・ E2200 - VAA23001-R.3626.A Arrange wires of Holder flash ② ① ② ③ ① ③ (Fig 2) (Fig 1) Arrange wires of Holder microphone Holder microphone (Fig 3) For speaker: Lead wire (black: ⑥ ) Lead wire (red: ⑤ ) (Fig 4) - A11 ・ E2200 - VAA23001-R.3626.A Arrange LCD wires (Fig 5) - A12 ・ E2200 - ⑫ ⑪ VAA23001-R.3626.A Battery cover ・ Mount the battery cover knob ( ① ), battery terminal D ( ② ), battery cap ( ③ ) and battery terminal C ( ④ ) on the battery cover, and tighten 2 screws ( ⑤ : M1.7×2.5). ・ Attach the battery cover and front cover with the battery cover shaft ( ⑥ ). Control release / Battery holder ・ Attach the control release, and tighten 2 screws ( ⑦ :M1.7×3). ・ Attach the terminal ( ⑧ ) on the battery holder, and tighten the screw ( ⑨ :M1.7×2.5). ・ Solder the terminal ( ⑧ ) and lead wire (red: ⑩ ). (Fig. 1, Fig. 2) ・ Attach the terminal ( ⑪ ) on the battery holder, and tighten the screw ( ⑨ :M1.7×2.5). ・ Solder the terminal ( ⑪ ) and lead wire (black: ⑫ ). (Fig. 1, Fig. 2) ・ Attach the battery holder on the front cover, and tighten the screw ( ⑬ :M1.7×3). Battery holder ⑬ ⑩ ⑧ ⑪ ⑨ Control release ⑦ ⑫ Front cover ⑥ ⑤ ④ ③ ② ① Battery cover - A13 ・ E2200 - VAA23001-R.3626.A ⑧ ⑩ ⑪ ⑫ (Fig 1) Arrange lead wires (red: ⑩ and black: ⑫ ) (Fig 2) - A14 ・ E2200 - VAA23001-R.3626.A Front cover ・ Attach the front cover on the body by following the below direction. ・ Attach the stand (tripod: ① ). ・ Connect the FPC ( ② ). ・ Solder the lead wires (black: ③ and red: ④ ). ・ Tighten 3 screws ( ⑤ :M1.7×4). ・ Attach the shaft strap ( ⑥ ). red ③④ ⑤ black ① ② Body Front cover ⑤ ⑥ ④ ③ - A15 ・ E2200 - VAA23001-R.3626.A Rear cover ・ Connect the FPC ( ① ). ・ Attach the rear cover. ・ Tighten 3 screws ( ② :M1.7×4). ・ Tighten 2 screws ( ③ :M1.7×4.5). ・ Tighten 2 screws ( ④ :M1.7×5). Rear cover red ① black ② ④ ③ ・ Check if the hole of the rear cover and the USB terminal are aligned. Correctly aligned. - A16 ・ E2200 - VAA23001-R.3626.A ADJUSTMENT 1. Equipment IBM compatible PC/AT • AC adapter EH-62B • USB cable ( UC-E6) 2. Servicing tools • Pattern box • Color meter • Luminance meter • Siemens star chart • Calibration software (J65057) •Adjustment collimator (J63090) or Adjustment firmware 3. Adjustment items and order 1. Lens adjustment 2. AWB adjustment 3. CCD white dot defect compensation 4. CCD black dot defect compensation 5. USB storage information registration Note) If replacing the lens, CCD, optical filter, CP-1 board, it is necessary to perform the above 1-5 adjustments again. 2-4 adjustments should be made in the above order. 4. Setup 1) System requirements • Windows® 98 or Me, 2000, XP • IBM-compatible PC/AT with Pentium or higher processor • CD-ROM drive • 3.5-inch 2HD diskette drive • USB port • 40 MB or more RAM • Hard disk drive with 15 MB or more memory space • VGA or SVGA monitor with 256 or more color display 2) Installing calibration software • Insert the calibration software installation diskette into the diskette drive. • Open Explorer. • Copy "DscCalDi130c" folder of the floppy disk drive in any folder on the hard disk. - A17 ・ E2200 - VAA23001-R.3626.A 5. Installing USB driver If the USB driver is necessary, install Nikon View via CD-ROM packed with the camera. 6. Pattern box Before using the pattern box, turn its power on to carry out "Aging" approx. 30 minutes: the color temperature should be 3100 ± 20K by the adjustment with the color meter, and the luminance should be 900 ± 20cd/m2 by the adjustment with the luminance meter. When using the pattern box and for a while after its power turns off, the lamp and its surroundings are subject to high temperatures, so care should be taken when handling. • Procedure for correcting Pattern Box Note: Be sure to perform the aging correction. 1) Measure the measuring point (center of diffusion plate) with the Color Meter (J63081). 2) Adjust the pattern box so that the color temperature should be 3100±20K by using "VR for adjustment of the color temperature". 3) Measure the center of the diffusion plate with the Luminance Meter BM-3000 (J63068). 4) Adjust the pattern box so that the luminance should be 900±20cd/m2 by using "Knob for luminance adjustment". 5) Repeat from 1) to 4) So that the color temperature should be 3100±20k and luminance should be 900±20cd/m2. Knob for luminance adjustment Power switch VR for adjustment of the color temperature Iris unit Diffusion plate Area to be measured - A18 ・ E2200 - VAA23001-R.3626.A 7. Adjustments required when parts are replaced Lens Adj. AWB CCD Defects USB Lens Unit ○ ○ ○ × Optical filter ○ ○ ○ × CCD ○ ○ ○ × CP-1 ○ ○ ○ ○ ○ Adjustment is necessary. × Adjustment is not necessary. 8. Connecting the camera to the computer 1) Insert the camera connector of USB cable in the notch of the camera’s USB port. 2) Connect the cable to the USB port on PC. To USB port USB Cable AC Adapter - A19 ・ E2200 - VAA23001-R.3626.A 9. Calibration software When the calibration software starts, the following is displayed on the PC monitor. - A20 ・ E2200 - VAA23001-R.3626.A 10. Lens adjustment ※ For the lens adjustment, choose either the infinity adjustment with the collimator or the 1.5-m adjustment with the adjustment firmware. (However, in case of 1.5-m adjustment, the focus may not be sharp at infinity.) 10-1. Infinity adjustment [Preparations] • Turn the power switch of the adjustment collimator (C-DSC) J63090 to on. • Turn the power switch of the camera to on. • Siemens star chart • POWER switch of camera: ON [Conditions] • Set the adjustment collimator and the camera (front surface of lens) at the nearest distance between them. [How to] • Double-click on "DscCalDi130c". • Set the siemens star chart so that it comes center of the screen by checking through the viewfinder. • Click "Focus", then "Yes". • Lens adjustment value will appear on the screen. Judgment standard: xd0 = 0±50 , xd7 = 0±50 , xd13 = 0±50, xd19 = 0±50 • Click "OK". "Yes" Camera カメラ 調整用コリメータ Adjustment collimator (ジーメンスターチャート内蔵) (Siemens star chart built-in) Result of adjustment - A21 ・ E2200 - VAA23001-R.3626.A 10-2. 1.5-m Adjustment ※ For 1.5-m adjustment, it is necessary to (re)write the adjustment firmware, so before the adjustment, be sure to (re)write the firmware. Also, after completing the adjustment, do NOT forget to restore the original product firmware. Procedure for setting Adjustment firmware 1) Save the adjustment firmware and the product firmware in any folder. 2) Start up "DscCalDi130c" and click on "Firmware" button on the main menu to write the adjustment firmware. (If the camera is activated after completing writing the adjustment firmware, "SERVICE" is indicated in red letters on LCD panel.) 3) Follow the instructions of the below [How-to]. 4) Start "DscCalDi130c" and click "Firmware" on the main menu to write the product firmware. [Preparations] • Set the Siemens star chart. • Turn the power switch of the camera to on. [Conditions] • The siemens star chart should be A3-size or larger (Copy and enlarge A4-size siemens chart included in the service manual for the usage.) • Illumination over the object should be 400 lux ± 10% • Set the siemens star chart and the camera (front surface of lens) at 150 cm ± 3 cm distance between them. [How-to] • Double click on "DscCalDi130c". • Set the siemens star chart so that it comes center of the screen by checking through the viewfinder. • Click "Focus" then "Yes". • Lens adjustment values will appear on the screen. Judgment standard: xd0=0 ± 50, xd7 = 0 ± 50, xd13= 0 ± 50 xd19 = 0 ± 50 • Click "OK". "Yes" Camera カメラ 150cm±3cm Siemens star chart ジーメンス スターチャート - A22 ・ E2200 - Result of adjustment VAA23001-R.3626.A 11. AWB adjustment [Preparations] • Pattern Box(Color temperature: 3100±20K, Luminance: 900±20cd/m2) [Conditions] • Set the pattern box and camera (lens front) at "0cm" distance between them. Note) Do not allow outside light to enter in. [How to] • Double-click on "DscCalDi130c". • Click "AWB", then "Yes". • AWB adjustment values will appear on the screen. Judgment standard: CHECK=128±2, 128±2, 130±30 • Click "OK". "Yes" カメラ Camera Result of adjustment Pattern Box バターンボックス - A23 ・ E2200 - VAA23001-R.3626.A 12. CCD white dot defect compensation [Conditions] • With the lens shutter being closed, read the defect of CCD pixels. Then, make the correction data and rewrite the data by the following procedure. Correct the upper level of defective 512 pixels from the brightest number of CCD pixels.. [How to] • Double-click on "DscCalDi130c". • Select "CCD Defect" from Test menu of Calibration Software and click the "OK". Refer to FIG-1. • After adjustment, the adjustment value will appear on the screen. Refer to FIG-2. (FIG-2) CCD Defect (FIG-1) CCD Black 13. CCD black dot defect compensation [Conditions] • Fix the camera so that only the white part of the pattern box should be displayed on the screen. (Do not allow outside light to enter in as much as possible.) • With the lens shutter being opend, read the defect (black dots) of CCD pixels. Then, make the correction data and rewrite the data by the following procedure. Correct the upper level of defective 30 pixels (black dots in bright place) of CCD pixels. [How to] • Double-click on "DscCalDi130c". • Select "CCD Black" from Test menu of Calibration Software and click "OK". Refer to FIG-1. • After adjustment, the adjustment value will appear on the screen. Refer to FIG-3. (FIG-3) Camera カメラ Box Pattern バターンボックス - A24 ・ E2200 - VAA23001-R.3626.A 14. USB storage information registration USB storage data is important when the camera is connected to a computer via a USB connection. If there are any errors in the USB storage data, or if it has not been saved, the USB specifications will not be satisfied, so always check and save the USB storage data. [How to] • Connect the camera to a computer. • Double-click on the "DscCalDi130c". • Click on the "Get" button in the USB storage window and check the USB storage data. VID: NIKON PID: NIKON DSC E3200 Serial: Rev. : 1.00 • Check the “Serial” in the above USB storage data. If the displayed value is different from the serial number printed on the base of the camera, enter the number on the base of the camera, and click the "Set" button. • Check VID and Rev. entries in the USB storage data. If any of them are different from the values in 3. above, enter the details of 3. and click the "Set" button. - A25 ・ E2200 - OS GND V1A V1B NC NC V2 V3A V3B V4 VAA23001-R.3626.A 1. OUTLINE OF CIRCUIT DESCRIPTION 1-1. CP1 CIRCUIT DESCRIPTION 1. IC Configuration IC903 (RJ24N3AA3DT) CCD imager IC904 (LR366854) V driver IC905 H driver, CDS, AGC and A/D converter 20 19 18 17 16 15 14 13 12 11 Vertical CCD 2. IC903 (CCD imager) [Structure] Interline type CCD image sensor Image size Diagonal 5.62 mm (1/3.2 type) Pixels in total 1704 (H) x 1257 (V) Recording pixels 1600 (H) x 1200 (V) G B G B G B R G R G R G B G G B G G B R R G R G G B G B G R G B R G R G (Note) 1 2 3 4 5 6 7 8 9 10 OD GND OFD NC PW RS OOFD H1 NC H2 Horizontal CCD (Note) : Photo diode Fig. 1-1. CCD Block Diagram Pin No. Symbol Pin Description 1 OD 2, 19 GND GND 3 OFD Overflow drain 4, 9, 15, 16 NC NC 5 PW P well 6 øRS Reset gate clock 7 OOFD 8 øH1 Horizontal register transfer clock 0 V, 3.3 V 10 øH2 Horizontal register transfer clock 0 V, 3.3 V 11 øV4 Vertical register transfer lock -8.0 V, 0 V 13, 12 øV3A, øV3B Vertical register transfe clock -8.0 V, 0 V, 15.5 V 14 øV2 Vertical register transfer clock -8.0 V, 0 V 18, 17 øV1A, øV1B Vertical register transfer clock -8.0 V, 0 V, 15.5 V 20 OS Signal output Approx. 7.5 V Output transistor drain Waveform DC Voltage 15.5 V GND 0V DC -8 V 10 V, 14 V Overflow drain output Table 1-1. CCD Pin Description - E1 ・ E2200 - When sensor read-out 3. IC904 (V Driver) V driver is necessary in order to generate the clocks (vertical transfer clock, horizontal transfer clock and electronic shutter clock) which driver the CCD. IC904 is V driver. In addition the XV1-XV4 signals which are output from IC101 are the vertical transfer clocks, and the XSG signal which is output from IC102 is superimposed onto XV1 and XV3 at IC904 in order to generate a ternary pulse. In addition, the XSUB signal which is output from IC101 is used as the sweep pulse for the electronic shutter. 4. IC905 (CDS, AGC Circuit, A/D Converter and H driver) The video signal which is output from the CCD is input to Pin (27) of IC905. There are inside the sampling hold block, AGC block and A/D converter block. The setting of sampling phase and AGC amplifier is carried out by serial data at Pin (32) of IC935. The video signal is carried out A/D converter, and is output by 10-bit. A H driver is inside IC905, and H1, H2 and RG clock are generated at IC905. REFT REFB VREF 0~18 dB CCDIN CDS PxGA 6~42 dB 10-BIT ADC VGA INTERNAL CLOCKS 10 DOUT CLAMP HBLK CLP/PBLK RG H1-H4 4 HORIZONTAL DRIVERS AD9948 PRECISION TIMING CORE SYNC GENERATOR HD VD CLI INTERNAL REGISTERS VAA23001-R.3626.A 5. Lens drive block 5-1. Focus drive The four control signals (FIN1, FIN2, FIN3 and FIN4) with different phases which are output from the ASIC expansion port (IC106) are converted into drive pulses (FOUT1, FOUT2, FOUT3 and FOUT4) by the motor driver (IC951), and are then used to drive the stepping motor for focusing operation. Detection of the standard focusing positions is carried out by means of the photointerruptor (FOCUS PI) inside the lens block. 5-2. Iris and shutter drive The two control signals (IIN1 and IIN2) which are output from the ASIC expansion port (IC106) are converted into drive pulses (DP1 and DP2) by the motor driver (IC951), and are then iris opened/little and moved. The two control signals (SIN1 and SIN2) which is output from the ASIC (IC101) is converted into a drive pulse (SHUTTER 1 and SHUTTER 2) by the motor driver (IC951), and are then shutter opened and closed. 5-3. Zoom drive The two control signals (ZIN1 and ZIN2) which are output from 8-bit micro-processor are converted into drive pulses (ZOOM_DC1 and ZOOM_DC2) by the motor drive (IC951), and are then used to drive the DC motor for zoom operation. Detection of the standard zoom positions is carried out by means of the photointerruptor (ZOOM RESET1) inside the lens block. Getting of the zoom positions is carried out by means of the two photo-interrupters (ZOOM PLUSE1 and ZOOM PLUSE2) by counting 8-bit microprocessor inside the lens block. SL SCK SDATA Fig. 1-2. IC905 Block Diagram - E2 ・ E2200 - VAA23001-R.3626.A 6. Circuit Description 6-1. Digital clamp The optical black section of the CCD extracts averaged values from the subsequent data to make the black level of the CCD output data uniform for each line. The optical black section of the CCD averaged value for each line is taken as the sum of the value for the previous line multiplied by the coefficient k and the value for the current line multiplied by the coefficient 1-k. 6-2. Signal processor 1. γcorrection circuit This circuit performs (gamma) correction in order to maintain a linear relationship between the light input to the camera and the light output from the picture screen. 2. Color generation circuit This circuit converts the CCD data into RGB signals. 3. Matrix circuit This circuit generates the Y signals, R-Y signals and B-Y signals from the RGB signals. 4. Horizontal and vertical aperture circuit This circuit is used gemerate the aperture signal. 6-3. AE/AWB and AF computing circuit The AE/AWB carries out computation based on a 256-segment screen, and the AF carries out computations based on a 11-segment screen. 6-4. SDRAM controller This circuit outputs address, RAS, CAS, CS and WE data for controlling the SDRAM. It also refreshes the SDRAM. 6-5. Communication control 1. SIO This is the interface for the 8-bit microprocessor. 2. PIO/PWM/SIO for LCD 8-bit parallel input and output makes it possible to input and output individually, and three ports of them PWM output makes it possible to switch. It is prepared for 16-bit parallel output. 7. Outline of Operation When the shutter opens, the reset signals and the serial signals (“take a picture” commands) from the 8-bit microprocessor are input to ASIC (IC101) and operation starts. When the TG/SG drives the CCD, picture data passes through the A/D and CDS, and is then input to the ASIC as 10-bit data. The AF, AE, AWB, shutter, and AGC value are computed from this data, and three exposures are made to obtain the optimum picture. The data which has already been stored in the SDRAM is read by the CPU and color generation is carried out. After AWB and γ processing are carried out by RGB data, a matrix is generated and aperture correction is carried out for the Y signal, and the data is then compressed by the JPEG method by (JPEG) and is then written to card memory (compact flash). When the data is to be output to an external device, it is taken data from the memory and output via the USB. When played back on the LCD and monitor, data is transferred from memery to the SDRAM, and the data elongated by JPEG decorder is displayed over the SDRAM display area. 8. LCD Block LCD Block is in the CP1 board, and it is constructed by LCD driver (IC171) and around circuits. The video signal from the ASIC are converted into RGB signals by the LCD driver, and these RGB signals and the control signal which is output by the LCD driver are used to drive the LCD panel. The RGB signals are 1H transposed so that no DC component is present in the LCD element, and the two horizontal shift register clocks drive the horizontal shift registers inside the LCD panel so that the 1H transposed RGB signals are applied to the LCD panel. Because the LCD closes more as the difference in potential between the COM (common polar voltage: AC) and the R, G and B signals becomes greater, the display becomes darker; if the difference in potential is smaller, the element opens and the LCD become brighter. 6-6. TG Timing generated for 2 million/3 million pixels CCD control. 6-7. Digital encorder It generates chroma signal from color difference signal. 6-8. JPEG encorder and decorder It is compressed and elongated the data by JPEG system. - E3 ・ E2200 - VAA23001-R.3626.A 1-2. PWA POWER CIRCUIT DESCRIPTION 1. Outline This is the main power circuit, and is comprised of the following blocks. Switching controller (IC501) Digital and analog system power output (T5001, Q5001, IC502) Digital 3.25 V power output (L5004) Digital 1.53 V power output (L5005) LCD 15.0 V system power output (L5001, Q5002) Backlight power output (L5002) Motor system power output (IC955, L9551, Q9551) 2. Switching Controller (IC501) This is the basic circuit which is necessary for controlling the power supply for a PWM-type switching regulator, and is provided with seven built-in channels, only CH1 (digital system), CH2 (digital 3.25 V), CH3 (digital 1.53 V), CH5 (analog system), CH6 (LCD system) and CH7 (backlight system) are used. Feedback from digital system (CH1), 3.25 V (D) (CH2), 1.53 V (D) (CH3), analog system (CH5), LCD system (CH6) and backlight system (CH7) power supply outputs are received, and the PWM duty is varied so that each one is maintained at the correct voltage setting level. Feedback for the backlight power (CH7) is provided to the both ends voltage of registance so that regular current can be controlled to be current that was setting. 2-1. Short-circuit protection circuit If output is short-circuited for the length of time determined by the condenser which is connected to Pin (42) of IC501, all output is turned off. The control signal (P ON) are recontrolled to restore output. 3. Analog System Power Output 15.5 V (A), 3.45 V (A) and -8.0 V (A) are output. Feedback for the 15.5 V (A) is provided to the switching controller (Pins (53) of IC501) so that PWM control can be carried out. 4. Digital 3.25 V Power Output 3.25 V (D) is output. Feedback for the 3.25 V (D) is provided to the swiching controller (Pin (32) of IC501) so that PWM control can be carried out. 5. Digital 1.53 V Power Output 1.53 V (D) is output. Feedback for the 1.53 V (D) is provided to the switching controller (Pin (31) of IC501) so that PWM control to be carried out. 6. LCD System Power Output 15 V (L) and 5 V (L) are output. Feedback for the 15 V (L) is provided to the switching controller (Pin (56) of IC501) so that PWM control can be carried out. 7. Backlight Power Supply output Regular current (22 mA) is being transmitted to LED for LCD backlight. Feedback for the both ends voltage of registance that is being positioned to in series LED are provided to the switching controller (Pin (48) of IC501) so that PWM control to be carried out. 8. Motor System Power Output 4.4 V is output. Feedback for the 4.4 V is sent to pin (1) of IC955 for PWM control to be carried out. - E4 ・ E2200 - VAA23001-R.3626.A 1-3. SYA CIRCUIT DESCRIPTION 1. Configuration and Functions For the overall configuration of the SYA block diagram, refer to the block diagram. The SYA block centers around a 8-bit microprocessor (IC301), and controls camera system condition (mode). The 8-bit microprocessor handles the following functions. 1. Operation key input, 2. Clock control, 3. Power ON/OFF, 4. Storobe charge control, 5. Signal input and output for zoom and lens control. Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41~44 45 Signal AVREF AVSS IC (FLMD0) VDD REGC VSS XIN XOUT RESET XCIN XCOUT CLKSEL0 BAT_OFF LCD ON 3 USB CONNECT ZPULSE1 SREQ BACKUP_CTL BEEP FLMD1 LCD ON2 LCD ON PTCTL BL_ON PRG SO PRG SI PRG SCK MAIN RESET PW_LED SB. LED (R) AF. LED (G) VSS VDD P ON PA ON SCK SI SO CHG ON FLMD0_SY SCAN OUT 3~0 SCAN OUT 4 I/O I O I I O O I O I I I O O O O O O O I O O O O O O O O I O O O O Outline Analog standard voltage input terminal GND Power for program writing VDD Regulator output stability capacity connection GND Main clock oscillation terminal (4MHz) Main clock oscillation terminal Reset input Clock oscillation terminal (32.768 kHz) Clock oscillation terminal PLL oscillation ON/OFF Battery off detection signal input D/D converter (LCD system) ON/OFF signal USB power detection terminal Zoom motor drive pulse count (interruption) Serial communication requirement signal Backup battery charge control (L= charge) Buzzer Power for program writing D/D converter (LCD system) ON/OFF signal D/D converter (LCD system) ON/OFF signal Photo interruptor ON/OFF control Backlight ON/OFF Flash for serial data input Flash for serial data input Flash for serial clock output System reset (MRST) Self-timer LED (L = Lighting) SB LED (red) VF LED (green) GND VDD D/D converter (digital system) ON/OFF signal D/D converter (analog system) ON/OFF signal Serial clock output Serial data input Serial data output Strobe charge control FLMD0 pull-up power when self programming Key matrix output LED3 (H = Lighting) See next page → - E5 ・ E2200 - VAA23001-R.3626.A 46 47 48 49 50 51 52~56 57 58 59 60 61 62 63 64 ZM IN 2 ZM IN 1 AVREF ON SELF LED ASIC TEST PLLEN SCAN IN4~0 COMREQ ZRESET ZPULSE2 CARD TEMP_BAT NC VMONIT BATTERY O O O O O O I I I I I I I O Zoom motor drive signal 2 Zoom motor drive signal 1 AD VREF ON/OFF signal SELF LED (H = Lighting) ASIC control signal (ZTEST) PLL oscillation ON/OFF Keymatrix input Command request Zoom standard position Zoom motor drive pulse count SD card detection (L = card) Battery temperature detection Main capacitor charge voltage detection Battery voltage detection Table 3-1. 8-bit Microprocessor Port Specification 2. Setting of external port and communication The SYA block carries out overall control of camera operation by detecting the input from the keyboard and the condition of the camera circuits. The 8-bit microprocessor reads the signals from each sensor element as input data and outputs this data to the camera circuits (ASIC) or to the LCD display device as operation mode setting data. Fig. 3-1 shows the internal communication between the 8-bit microprocessor and ASIC. 8-bit micro processor ASIC MRST setting of external port ZTEST PLLEN CLKSEL0 SI communication SO SCLK SREQ COMREG Fig. 3-1 Internal Bus Communication System - E6 ・ E2200 - VAA23001-R.3626.A 3. Key Operaiton For details of the key operation, refer to the instruction manual. SCAN IN SCAN OUT 0 0 1 2 3 4 PW_TEST AUTO SCENE PORTRAIT LANDSCAPE MOVIE SET UP NIGHT SCENE SPORTS 1 2 ← → ↑ ↓ OK 3 PLAY DEL WIDE TELE MENU 4 PW_ON 1st 2nd TEST AV JACK 5 Table 3-2. Key Operation 4. Power Supply Control The 8-bit microprocessor controls the power supply for the overall system. The following is a description of how the power supply is turned on and off. When the battery is attached, IC952 is operating and creating 3.7 V, a regulated 3.2 V voltage is normally input to the 8-bit microprocessor (IC301) by IC302, clock counting and key scanning is carried out even when the power switch is turned off, so that the camera can start up again. When the power switch is off, the 8-bit microprocessor halts 4 MHz of the main clock, and operates 32.768 kHz of subclock. When the battery is removed, the 8-bit microprocessor power switches the secondary lithum battery for memory backup by IC302, and operates at low consumption. At this condition, the 8-bit microprocessor halts 4 MHz of the main clock, and operates clock counting by 32.768 kHz of sub clock. Also, the secondary battery for backup is charged 10 hours from it to be attached. When the power switch is on, the 8-bit microprocessor starts processing. The 8-bit microprocessor first sets both the PON signal at pin (34) and the PAON signal at pin (35) to High, and then turn on the power circuit. After PON signal is to High, sets external port of ASIC after approximately 100 ms. According to setting of this external port, carry out setting of the operating frequency and oscillation control in the ASIC. Also, it starts communication with ASIC, and confirms the system is operative. When the through image is operating, set the PAON signal to High and then turn on the CCD. When the through image is playing, set the PAON signal to Low and then turn off the CCD. When LCD panel turns on, set LCD ON signal at pin (22) to High, and then turn on the power. Set BLON signal at pin (24) to High, and turn on the backlight power. When the power switch is off, the lens will be stowed, and PON, PAON, LCDON and BLON signals to Low and the power supply to the whole system is halted. The 8-bit microprocessor halts oscillation of the main clock (4 MHz), and set operation mode of clock ocillation (32.768 kHz). - E7 ・ E2200 - RELEASE UNIT BACK SW UNIT 24 23 22 21 1 20 2 19 3 18 4 17 5 16 6 15 7 CN143 DATA3 COMMAND VSS VDD CLOCK VSS DATA0 DATA1 DATA2 CARD CARD/WP WP 1AV4J11B6390M 12 11 10 9 8 7 6 5 4 3 2 1 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 LCD PANEL 14 8 13 9 12 10 11 11 10 12 9 13 8 14 7 15 6 16 FOCUS_ST(-A) FOCUS_ST(B) FOCUS_ST(A) FOCUS_ST(-B) PIV FOCUS_PI FOCUS_LED PIV ZOOM_PI Z_PULSE_LED Z_PULSE_PI1 Z_PULSE_PI2 ZOOM_LED ZOOM_DC1 ZOOM_DC2 SH1 SH2 DP1 DP2 5 17 4 18 CN951 3 19 CN302 1AV4J11RV190G SCAN IN 0D SCAN IN 1D SCAN OUT 3 SCAN OUT 2 AF.LED(G) AL 3.2V SB.LED(R) SCAN IN 1 SCAN IN 2 SCAN IN 0C SCAN IN 4D SCAN IN 3C SCAN OUT 0 SCAN IN 3 SCAN IN 4 SCAN IN 3 SCAN IN 4C SCAN OUT 1 SCAN IN 2 SCAN IN 2C SCAN IN 2D SCAN IN 3D SCAN IN 1C SCAN OUT 3 1 2 2 1 3 1AV4J11SL240G 4 7 5 6 6 5 7 4 8 3 -1 CN301 LENS -2 SCAN IN 2E SCAN IN 1E SCAN OUT 4 NC AL3.2V PW_LED SCAN IN 0E VIDEO & -3 2 USB -4 1 -5 1AV4J11SJ070G -6 NC NC VSS VC1 VC2 VGL NC VGH VDD CP GRES GPCK GSRT STBYB VCOM STH STBYB RIT POL STB CLK D05 D04 D03 D02 D01 D00 VSH VSS VBC VRH VRL VDD CN171 1AV4J11SR330G VAA23001-R.3626.A 総合結線図 OVERALL WIRING SD (WHIT) 1AV4J11B5670G CL321 LED_CA GND GND GND GND GND GND USB_VDD USB D(-) GND USB D(+) ZAV_JACK NC VIDEO_OUT GND JW501 BAT+ (RED) CP1 W1400 XAN (RED) W1600 TRG (GRAY) (DMA) (CAA) (SYA) (PWA) W1500 XKT(BLACK) LED CL320 LED_AN JW601 LED_AN (GRAY) JW602 LED_CA CN110 TB1 JW502 BAT-(BLACK) TO BATTERY FLASH REFLECTOR W1-65000/SX792-JNK MODEL: E2200 OVERALL WIRING - E8 ・ E2200 - VAA23001-R.3626.A 総合ブロック図 OVERALL BLOCK DIAGRAM CP1 CCD BLOCK CDS/AGC/AD-C H Driver IC905 3M Pixel IC903 V Driver LENS BLOCK IIN1,2 SIN1,2 FIN(1:4) IC904 IC951 CN951 CCD LENS DRIVER LENS 3 SDRAM 64Mbit IC103 PLLEN ZRESET ZPULSE1,2 ZTEST ZMIN1,2 MRST PICTL AD(0:9) XSG(1A,2A,1B,2B) A(1:20) ADCK XV(1:4) SUBGT CCDEN CCDSD D(0:15) TGVD,TGHD Flash 16Mbit FD(0:7) CCDCK IC121 EEPROM 128Mbit XSUB IC106 D-FF CLKSEL0 SD(0:31) SCK CKIN1 CKIN2 CN143 BUZZER BEEP SDO IC101 4fsc X1101 28.63636MHz BACK SW UNIT IC301 8bit Micro Processor SREQ ASIC FD(0:4) IC152 VIDEO AMP CN110 USB/VIDEO LCDCLK LCDD (0:5) LCDVCOMD LCDPOL LCDLBRT PADYOUT DM DP SD CARD 4MHz X3001 LCD TIMING PULSE X 8 CLOCK GENERATOR RELEASE UNIT CN302 SDI IC111 CN301 VCC 32.768KHz X3002 REGURATOR IC302 Z3001 BACKUP DC/DC IC172 CONVERTER AMP LENS DC/DC CONVERTER IC955 V OUT LCD MONITOR Ni-MH ELECTRONIC LCD BACKLIGHT BL ON FLASH - E9 ・ E2200 MODEL: E2200 BLOCK DIAGRAM: OVERALL VAA23001-R.3626.A ASIC ブロック図 ASIC BLOCK DIAGRAM SDRAM IC101 ASIC BUS BUS CCD BLOCK SDRAM CONTROLLER DIGITAL CLAMP SIGNAL PROCESSOR SRAM JPEG CONTROLLER AF,AE,AWB COMPOSITE VIDEO UART D/A NTSC/PAL SRAM ENCODER RGB 6bit DATA ARM SRAM USB USB CONNECTOR DIGITAL I/F SD CARD SD PWM CCD DRIVER TG CCD 98MHz 4fsc CLKGEN PLL 36MHz BUS I/F 72MHz SIO PIO EEPROM IC301 MICRO PROCESSOR EXT PORT (LENS DRIVER) FLASH MEMORY - E10 ・ E2200 MODEL: E2200 BLOCK DIAGRAM: ASIC LENS O_LPF OD V1A, V1B, V3A, V3B, V2, V4 11, 12, 13, 14, 17, 18 CCD PW RS H2 H1 EF - E11 ・ E2200 SHT 1 21 15, 19 14, 18 27 +3.45V (A) 24, 26, 37 4, 5, 7, 8, 9, 10 6 10 8 OS 20 RJ24N3AA3DT IC903 3 OFD 7 OOFD Q9003 IC905 CDS, A/D C SW Q9002 LR366854 22 XSHT 14, 18, 20, 21 XV1,XV2,XV3,XV4 V. DRIVER 1 XSG1A, XSG1B, XSG2A, XSG2B 13, 15, 19, 23 IC909 REG ON/OFF TK11130CS 3.0V 25, 34, 35 D11 D2 2~4,7~13 IC904 5 4 6 AD9948 H. DRIVER RG H2, H4 H1, H3 31 5 17 32 1 VDD 33 VDD3 ~ -8.0V (A) +3.45V (A) 15.5V (A) MODEL: E2200 BLOCK DIAGRAM: CCD SUB GT XSUB XV1 XV2 XV3 XV4 XSG1A XSG2A XSG1B XSG2B CCDCK CCDSD CCDEN TGVD TGHD AD9 ADCK AD0 TO DMA(MAIN) VAA23001-R.3626.A CCD ブロック図 CCD BLOCK DIAGRAM VAA23001-R.3626.A レンズ駆動ブロック図 LENS DRIVE BLOCK DIAGRAM UNREG VDD3 SW REG. IC955 Q9551 L9551 D9551 C9554 BOOST4.4V UNIT LENS CN951 Q9509 12 15 PI_VCC ZPLUSE1 9 PICTRL (IC301 23pin) 10 ZPLUSE2 ZPULSE1 (IC301 16pin) Q9502 ZPULSE2 (IC301 59pin) 8 10 ZRESET 11 ZRESET (IC301 58pin) 7 Q9501 FPI 14 FPIOUT (IC101 231pin) 13 IC951 LB8649W ZMIN1 (IC301 47pin) ZMIN2 (IC301 46pin) FIN1 (IC106 2pin) FIN2 (IC106 5pin) FIN3 (IC106 6pin) FIN4 (IC106 9pin) SIN1 (IC106 12pin) SIN2 (IC106 15pin) IIN1 (IC106 16pin) IIN2 (IC106 19pin) 5 6 IN5 OUT5 IN6 OUT6 27 ZOOM_DC1 6 26 ZOOM_DC2 5 37 FOCUS_ST(A) 17 36 FOCUS_ST(-A) 19 35 FOCUS_ST(B) 18 34 FOCUS_ST(-B) 16 33 SH1 4 31 SH2 3 30 DP1 2 28 DP2 1 ZM.M ZOOM DRIVER 1 2 3 4 IN1 OUT1 IN2 OUT2 IN3 OUT3 IN4 OUT4 FC.M FOCUS DRIVER 9 10 11 12 IN9 OUT9 IN10 OUT10 IN11 OUT11 IN12 OUT12 SH.M IR.M IR/ST DRIVER - E12 ・ E2200 MODEL: E2200 BLOCK DIAGRAM: LENS 27 44 VR 69 63 62 OUT5 OUT1B 68 17, 18 OUT7B OUT6 DRAIN3L 12,13 DRAIN2L 3 OUTMINUS VINMINUS 29 25 82 81 75 66 67 IC501 SWITCHING MODULE BD9734KN MODF REG ON 28 STB6 26 23 22 STB2 3 STB5 STB7 STB1 VR501 SWOUT7 - E13 ・ E2200 - SWIN7 L5002 STEP UP CIRCUIT L5001, Q5002 STEP UP CIRCUIT L5005 STEP DOWN CIRCUIT L5004 STEP DOWN CIRCUIT L5003 STEP UP CIRCUIT T5001, Q5001 CONVERTOR TRANS IC955, L9551 Q9551 STEP UP CIRCUIT 4.4V 3.7V CURRENT DETECTOR CIRCUIT Q5006 Q5007 IC502 REG. MODEL: E2200 BLOCK DIAGRAM: POWER TO BACK LIGHT CL530 CL529 BL ON LCD ON3 LCD ON PA ON2 PA ON P ON +15V(B) +15V (L) VDD1.7 +5V (L) VDD3 -8.0V (A) +3.45V (A) +15.5V (A) BOOST 4.4V VAA23001-R.3626.A POWER ブロック図 POWER BLOCK DIAGRAM VAA23001-R.3626.A SYSTEM ブロック図 SYSTEM BLOCK DIAGRAM UNREG Boost4.4V ALWAYS3.2V BOOST4.4V 2 1 BACK UP 7 UNREG 8 6 2 3 32 5 Z3001 XCIN 10 AVref 48 AV REF ON 1 34 BEEP 56 SCAN IN0 55 SCAN IN1 54 SCAN IN2 62 SCAN IN3 57 SCAN IN4 PW_TEST CN301 CN302 -- AUTO SCENE MOVIE SET UP 44 SCAN OUT0 SPORTS 43 SCAN OUT1 OK 42 SCAN OUT2 41 SCAN OUT3 PORTRAIT LANDSCAPE NIGHT SCENE PLAY DEL WIDE TELE MENU PW_ON 1st 2nd TEST AVJACK 45 SCAN OUT4 XCOUT 11 XOUT 8 XIN IC301 ZPULSE1 ZPULSE2 ZM IN2 ZM IN1 7 16 59 46 8bit MICRO PROCESSORZRESET 47 58 PICTL 23 USB CONNECT 15 COMREQ 52 CLKSEL0 12 PLLEN 51 LCD ON2 21 LCD ON3 14 SREQ 17 SI 37 SO 38 CN301 CN302 PW_LED 30 SB_LED (R) 31 AF_LED (G) 29 LCD ON SELF LED SELF LED 49 SWD3.2V Q3001 CHG VMONIT CHG ON 39 VMONIT 63 LCD ON 22 18 BACKUP CTL +15V (B) P ON PA ON P ON 19 PA_ON 35 64 BATTERY SCK 36 ASIC TEST 50 MAIN RESET 28 CARD 60 TO PWA BLON BL_ON 24 13 BAT OFF 4 PAON2 PAON2 53 VDD 33 VDD 9 RESET 4 VDD LI BAT RESET OFF BATTERY BACKUP Q3002 AL3.2V IC302 6 TO DMA(MAIN) TO DMA (MAIN) TO TB1 X3002 32KHZ X3001 4MHZ ZPULSE1 ZPULSE2 ZM IN2 ZM IN1 TO DMA (LENS) ZRESET PICTL USB_CNT COMREQ TO DMA(MAIN) CLKSEL0 PLLEN LCD ON2 LCD ON3 SREQ SDO SDI SCK ZTEST MRST ZCARD - E14 ・ E2200 MODEL: E2200 BLOCK DIAGRAM: SYSTEM CONTROL VAA23001-R.3626.A PWA 回路図 ( ストロボ回路図 ) PWA CIRCUIT DIAGRAM (STROBE CIRCUIT DIAGRAM) FLASH REFLECTOR 2 1 5 6 7 8 R5423 4 Q9551 FDC633N 1 2 3 2 4 5 TFDC633N----K 3 1 R5432 5.6K;1/16D 1000P;B C5027 R5039 1K;1/16J 150K;1/16D R5036 BOOST4.4V BOOST4.4V 4 3 5 2 6 1 +15V(B) +15V(L) 3216 UNREG +15V(B) +15V(L) +15(L) +15.5V(A) +15.5V(A) R5030 R5031 59 VINPLUS 58 7 DRAIN1L 8 DRAIN1H 9 DRAIN1H 10 DRAIN2H 11 DRAIN2H 12 DRAIN2L 13 DRAIN2L 14 PGND2 15 PGND2 16 PGND3 SS2 INV6 IC501 BD9734KN SWITCHING MODULE 57 56 FB6 55 FB5 54 INV5 53 INV4 52 FB4 51 FB7 50 INV7V 49 INV7L 48 39 40 41 42 ���� ���� ���� -8.0V(A) ����� � ���� � ���� ���� ���� ���� R5023 ���� 1K;1/16D ���� R5022 1K;1/16D � C5023 0.01;B C5022 0.1;B R5021 C5021 ���� 1K;1/16D 0.01;B ���� R5020 1K;1/16D C5020 0.1;B � ��� -8.0V(A) -8.0V(A) ��� � ���� R5017 ���� ���� C5019 SCP 38 � 37 ���� ���� R5047 DELAY 36 43 VREGA 35 CT VCC SS1 34 44 VREF INV1 33 45 RT SWOUT1 32 � FB1 31 ���� FB2 30 ���� INV2 29 ���� 28 FB3 27 INV3 26 ���� 25 ���� 24 ���� MODF 23 ���� 22 PG23 ���� 21 REGON 46 20 DRAIN3H SYNC_DTC STB7 47 GND DRAIN3H STB6 NON7 DRAIN3L 19 STB5 DRAIN3L 18 STB4 17 ����� 3216 OUTPLUS DRAIN1L WT 10;1/16D R5061 100;1/16D C5035 10;10B PGND1 TO BACK LIGHT 75K;1/16D 60 CL530 R5046 R5029 NFPLUS CL529 R5027 150K;1/16D 62 R5028 63 VINMINUS OUTMINUS 150K;1/16D RD 9.1K;1/16D C5031 10;16B CKXAG501100KG EDK316BJ106KF-T 82K;1/16J +15.5V(A) 2.4K;1/16D ���� 64 10K;1/16D 180P;CH ���� ���� 65 DTC5 ���� 66 DTC6 67 SWOUT6 ���� 68 OUT6 OUT5 69 SWIN6 PVCC ���� SUB4 ���� PGND4 ���� MAIN4 � � SWOUT4 ���� � OUT7B � UDSEL5 � UDSEL4 ���� UDSEL2 ���� ���� 70 PVCCL ���� 71 PVCCH ���� VBAT1 SWOUT7 72 SWIN7 ���� VBAT2 73 61 ���� RB161M-20 74 STB23 <FOR DIGITAL 1.52V> 75 NFMINUS � CH3 76 STB1 RB161M-20 D5004 2125 16V POS-CAP D5006 ��� 6 77 VR501 3.3K 0;1/16Z LCDON +5V(L) LCDON3 LCDON3 Q5006 EMD2 P1-65500/SX792-JNK �������� ���� ���� +5V(L) 0.1;B C5017 1;B 1608 LCDON3 6.3V 6.3V 1;B 1608 C5016 1K;1/16D +5V(L) 0.01;B C5015 0.1;B C5014 R5013 PWA 1K;1/16D C5013 R5015 BLON PAON2 R5014 R5059 0;1/16Z ���� 5 78 1K;1/16D PAON2 R5058 0;1/16Z ���� PGND1 79 C5012 0.1;B PAON2 BLON R5057 0;1/16Z ���� 4 80 C5011 0.047;B BLON PAON R5010 � ���� 10;N 3MTR18-100 1AV4L2XA100NG � 3 PGIN OUT1B 81 ���� LCDON PON R5056 0;1/16Z 3 L5005 4.7K;1/16D 22K;1/16D � 82 ���� LCDON R5011 10;N 3MTR18-100 1AV4L2XA100NG D5005 R5005 R5006 ���� 2 83 PG1OUT ���� PON PAON ���� 1 ���� PON PAON C5006 1;B C5007 33;10-V R5007 620;1/16D R5055 0;1/16Z ���� ���� R5009 VDD1.7 ���� L5004 CH2 VDD1.7 � ���� ���� RB161M-20 3K;1/16D 620;1/16D VDD1.7 1 2 R5044 R5045 POS-CAP 0;1/16Z POS-CAP OM/ORTR25Z C5008 33;10-V R5043 4 12K;1/16D VOUT � ���� C5010 33;10-V NP IN REG 3.4V 12K;1/16D VDD3 OFF D5003 DAN217U CH1 VIN VCONT 5 GND ���� 12K;1/16D 1;B 6.3V 1608 C5032 C5036 0.1;B 3 VDD3 1AV4L2ND100MG IC502 QTK11134CS--J TK11134CS 2 ���� L5003 10;M CDPH4D19FNP-100MC 1 VDD3 84 ���� 2125 16V 1SS400 C5005 1;B D5002 3.3;N 2125 16V L5002 +3.45V(A) +3.45V(A) 1AV4L2FM470MG LBR2012T100M 3216 C5030 4.7;16B 3MTR18-100 1AV4L2XA3R3NG +3.45V(A) R5054 3 C5034 1;B CH7 2 C -9V 8.2K;1/16J ���� 1 4 VMONIT Q5007 EMD2 2012 L5007 47;M Q5008 2SA1774(R) E 3 R5037 10K;1/16D R5001 2125 16V R5003 Q5002 MCH5803 5 TRIG VMONIT 680;1/16D 330;1/16D R5060 10;N 3MTR18-100 1AV4L2XA100NG STOP TRIG R5038 B 2 R5002 10K;1/16D 4 2125 16V 5 R5053 100K;1/16J S 4 HN2D01JE Q5001 CPH3414 150K;1/16D 3 6 D G 15.5V 5 C5002 1;B 8 T5001 LDT565620T-VA1 (H=2.0) L5001 1 2 1AV4L51B5820G LDT565620T-VA1 CH6 1 C5004 1;B 2125 C5001 10;6.3B ! D5001 <FOR ANALOG> 7 STOP POS-CAP H=1.2 C9554 33;6.3-V R9551 390K;1/16D 15K;1/16D R9552 +15V(B) CH5 RDY Q9552 DTC144EM ! 2.0A 32V RDY UNREG F5002 F47K2R0C3LFND F5001 F47K2R0C3LFND CHG R9554 510K;1/16D 5 CHG C5420 4700P;B R5433 100K;1/16J VMONIT BOOST4.4V R9553 130K;1/16D 6 CE BLACK VDD 1AV4L26B3450G EXT JW502 C9553 IC955 XC9104D095MP 2125 L5012 22P;CH SW REG. FB C9552 10;6.3B C9551 10;6.3B 2.0A 32V F5003 F47K2R0C3LFND GND BAT- TRIG D9551 SD833-04SC L9551 10;M ! BAT+ STOP D5408 RB521S-30 D53LC TO BATTERY RDY Q5411 DTC144EM Q5410 2SA1745 OM/ORTR02Z 1608 F47K2R0C3LFND 2.0A 32V JW501 1K;1/16J Q5402 DTC114EM R5430 4.7K;1/16J B Q5401 DTC123JE F5004 2125 L5011 1AV4L26B3450G C R5429 6.2K;1/16D 3 E R5401 R5431 100K;1/16J 5 R5413 10K;1/16J 4 ! RED 1.2K;1/16J R5409 3 R5426 470K;1/16J 4 CHG 1 DAN222 C5406 0.01;B POS-CAP 2 Q5405 CPH5504 D5407 R5408 330;1/16J C5413 6800P;B 3 16V Q5407 3LN01S 33;1/16J Q5409 CY25BAJ-8F R5414 1K;1/16J R5406 270;1/16J C5407 6800P;B 1 R5420 R5424 1 220;1/16J C5409 0.033;F 2125 C5403 0.22;16B C5401 47;6.3-V C5404 1000P;B R5425 100K;1/8J-X S6A37 3 2 5 2 D5405 R5418 56;1/16J W1500 BLACK ������ ��������������� D5404 CMC01 2 XKT OM/ORDD58Z 0.01;630H OM/ORDD30HVZ 4 C5411 (K) (K) R5417 10M;1/8F-X 1 3 TRG C5410 0.047;350H R5422 T5402 1AV4L17B0160N ������ W1600 10K;1/16D GRAY 1AV4L17B0200G T5401 D5402 F1P8 R5419 82K;1/16D RED D5403 RR264M-400 ���� 220K;1/8J-X ������ ��������������� XAN W1400 4 3 5 2 6 1 - E15 ・ E2200 - MODEL: E2200 CIRCUIT DIAGRAM: CP1(PWA) VAA23001-R.3626.A FUSE 配置図(CP1 基板) FUSE configuration (CP1 PCB) レンズ側実装面 Populated surface of Lens F5003 F5001 ヒューズ仕様(RPNO.) Fuse specifications F5004 F5001 ~ F5004 2.0A 32V (423-031-1707) LCD側実装面 Populated surface of LCD F5002 - E16 ・ E2200 - VAA23001-R.3626.A The contents of inspection standards and tools for E2200 [1] Inspection standards ................................................................................................................................. R1 to R7 [2] Tools ......................................................................................................................................................... T1 to T3 - E2200 - INSPECTION STANDARDS Item External view Gap/Difference in height Outside and inside status Operation/Operability Operation Operability of buttons Lever/Knob Operation touch Each cover Monitor Shooting image Criteria • General components Gap: 0.3mm or less Difference in height: 0.15mm or less • When the battery cover is closed: Gap: 0.5mm or less (Difference between right and left must not be noticeable.) VAA23001-R.3626.A Applied tool(s) Visual observation • There must be no noticeable damage and soil. • When pushing the main body, noticeable noise must not be heard. (Observe and check it by naked eyes under fluorescent lamp and natural sunshine.) • While operating, any irregularities or irregular noise shall not be required. (Check it by shaking the camera while operating. Lightly hit the camera onto the Linoleum-laid desk while operating.) • No cave-ins of the buttons shall be required. • Malfunctions shall not be required. • Operator must feel "click" on each button. • "Click" must occur when or after a switch is ON. (Check it while operating normally.) • When clicking, normal touch shall be required. Any outstanding "caught-in-mechanism" touch or "rubbed-in-mechanism" touch or play shall not be required. (Check and observe the condition through normal operation.) • When operating a lever or knob by hand, any irregular conditions shall not be required. (Operate the camera in the actual photography procedure and check the operation touch.) • When closed, there must not be an extreme play. • Each cover can be opened/closed without any outstanding "caught-in-mechanism" touch or "rubbed-in-mechanism" touch or abnormal noise. (Open and close each cover and check it.) ・Inclined degree of image shall be 0.5 degree or less. ・PC monitor and print output (Output will be evaluated while the display range boundary of LCD unit is regarded as standard when the through-themonitor image is made.) - R1 ・ E2200 - Primary battery/ Secondary battery Photoshop Printer VAA23001-R.3626.A Item Lens capacity Focal length Open aperture F No. Peripheral light reduction Ghost/Flare Surface ghost Distortion Dust in a picture Lens barrel Zoom AF Distance measurement operation Shortest photograph distance Normal Macro Criteria Applied tool(s) Wide-end position (Compelling ∞ ) 4.7 mm +7.3% -0.9% Tele-end position (Compelling ∞ ) 14.1 mm +3.3% -4.7% Focal length measuring instrument Lens drive tool Wide-end position (Compelling ∞ ) F2.6 ±5.4% -0.8% Tele-end position (Compelling ∞ ) F4.9 +8.3% +2.0% Focal length measuring instrument Lens drive tool • • • • • Visual observation There must not be an extreme light reduction. There must not be an outstanding ghost/flare. There must not be an outstanding flare at the center. There must not be an outstanding deformation. There must not be an outstanding dust in a picture. • There must not be an abnormal action (for example, the unit operates one-sidedly or its operation is not smooth or it is caught). (As changing the camera's posture, check it in all the directions.) Visual observation • Focus must be fit in a selected area. (Select the AF area and check it.) Visual observation The focus of AF must be fit at the following distance. Tape measure • 30mm (in whole area) • 4cm (Wide-end position) , 30cm (Tele-end position) - R2 ・ E2200 - VAA23001-R.3626.A Item Shooting with a speed light Light adjustment accuracy Guide No. FULL (ISO100•m) Recycling time Wrong flash Quality of image Resolution in AF Criteria Applied tool(s) • Tele-end: 0.4 ~ 2.0m • Wide-end: 0.4 ~ 3.7m • Macro-wide-end 0.4 ~ 3.7 m In the above range, ± 0.5 Ev or less (Photography mode: AUTO , • Speed light: Compelling flash) • 6.8 ±0.4 EV (Charge for 10 seconds with the new primarybattery and perform measurement within 1 second.) • Within 6.5 seconds (Charge for 10 seconds with the new primary battery and perform measurement within 1 second.) Standard reflection plate • Wrong flash must not occur. (Check by loading/unloading a battery, giving a light shock and operating mode buttons except S2.) New primary battery The resolution must be in compliance with the following values in all the postures of the EIA J chart evaluation. • Horizontal center: 750 TV lines Vertical center: 750 TV lines Horizontal line(s) at each corner: 500 TV lines Vertical line(s) at each corner: 500 TV lines • Photography mode: AUTO, Image quality mode: HIGH • Wide-end position, aperture "open," distance 0.3m or more • Equip the 5100K viewer with the chart and shoot an object in the full range of angle of view. Then, open the recorded image data file through PHOTOSHOP and check the resolution visually. EIAJ chart - R3 ・ E2200 - Flash meter New battery Visual observation PHOTOSHOP VAA23001-R.3626.A Item Criteria Gradation/luminance level [Histogram's gray average value] • Black: 10 ± 5 Gray: 145 ± 10 White: 220 ± 15 • Photography mode: AUTO, Image quality mode: HIGH • Wide-end position, aperture "open", distance: 0.3m or more • Equip the 5100K viewer with the chart and shoot an object in the full range of angle of view. Open the recorded image data file through PHOTOSHOP and pick up a measurement section with the each color (its central area 64 × 64 pixels) with the rectangle selector tool. • Read the histogram's gray value and the gray standard deviation. • Measurement section Luminance level: Upper left 1 step: Black, 6 steps: Gray, Center: White Lower left 6 steps: Gray, 11 steps: Black [Histogram's standard deviation] ・ Gray: 3.0 or less Black: 3.0 or less ・Photography mode: AUTO, Image quality mode: HIGH ・Wide-end position, aperture "open", distance: 0.3m or more ・Equip the 5100K viewer with the chart and shoot an object in the full range of angle of view. Open the recorded image data file through PHOTOSHOP and pick up a measurement section with the each color (its central area 64 × 64 pixels) with the rectangle selector tool. ・Read the histogram's gray standard deviation. ・Measurement section Noise: Upper left 2 step: Black, 6 steps: Gray Lower left 6 steps: Gray, 10 steps: Black Noise - R4 ・ E2200 - Applied tool(s) Gray scale chart PHOTOSHOP Gray scale chart PHOTOSHOP VAA23001-R.3626.A Item Quality of image Reproduction of color Criteria B W Ye R R 210±20 190±20 205±20 Applied tool(s) G 210±20 195±20 15±10 B 210±20 20-55 0-15 Color bar chart PHOTOSHOP • Photography mode: AUTO, Image quality mode; HIGH • Equip the 5100K viewer with the chart and shoot an object in the full range of angle of view. Open the recorded image data file through PHOTOSHOP and pick up a measurement section with each color (its central area 64 × 64 pixels) with the rectangle selector tool. • Read the histogram's RGB. Finder View / Image Visual field frame/ frame line Shading Operation Dust, fluff and damage • There must be no blur, distortion, ghost, halation or other outstanding troubles in contrast, gradation, etc. • Blur, dirt or difference in thickness must be within the proper range to operate the stamped line and visual field frame. • You can check the whole finder visual field. • The finder must be activated smoothly in a link operation with the lens barrel zooming action. • The position and quantity must be as follows Zone Size Less than 10μm 10 ~ 20μm More than 20μm A 0 pc 0 pc 0 pc B 2pcs or less 3pcs or less 0 pc 1pcs or less 0 pc 0 pcs b ・Total:3pcs or less b/2 ・Interval:Less than b/2 b/6 B A C a/8 C - R5 ・ E2200 - a/2 a Visual observation Visual observation Visual observation VAA23001-R.3626.A Item LCD and others Monitor LCD View Visual field ratio Bright pixels or dim pixels on LCD Criteria Applied tool(s) • There must be no shading in the LCD display range. • Inclination between the monitor and the monitor frame must not be outstanding. • Through-the-monitor image: 96 to 100% • Play-back image: 98 to 100% B Visual observation Visual observation Visual observation A 1/2V V 1/2H H Zone Bright pixel Dim pixel A 1 6 B 3 6 Total 3 6 Bright pixels: Visible normally through 5% ND filter Dim pixels: Visible normally (Standard: Within the above quantity) Self-timer Operation time: 10 seconds LED blinks/lights • 10 ± 1 second • Blinks for 9 seconds and lights for 1 second. (Measure the time until release is done since the shutter release button was lightly pressed.) - R6 ・ E2200 - Visual observation Stop watch VAA23001-R.3626.A Item Criteria Electric characteristics Consumption current Applied tool(s) Constant voltage power supply Ammeter Start (Photography) • When card is not used: 0.27mA or less (when the power switch is OFF) • When card is used: 0.39mA or less (when the power switch is OFF) • 12mA or less (at "Sleep") (Connect 2.4V from the constant-voltage power supply and perform measurement.) • 1.1A or less (when the AUTO "0" start monitor is ON) B. C voltage (Alkaline battery) Level 1 • 2.125 ± 0.1V Constant voltage power supply Volt meter Stand-by Level 2 • 2.0 ± 0.1V Level 3 • Turned off automatically after 30 seconds since the voltage reached Level 2. Level 1 • 2.35 ± 0.1V Level 2 • 2.0 ± 0.1V Level 3 • Turned off automatically after 30 seconds since the voltage reached Level 2. Level 1 • 2.5 ± 0.1V Level 2 • 2.0 ± 0.1V Level 3 • Turned off automatically after 30 seconds since the voltage reached Level 2. (Ni-MH) (CR-V3) - R7 ・ E2200 - VAA23001-R.3626.A [2]工具一覧表 Tool List ※:新規工具 ※:New tool 工具番号 Tool No. J63080 名 称 Name パターンボックス LV-1450DC Pattern Box LV-1450DC 備 考 Remarks 共通(E4300, E3500, E3100, E2100, E5400, E3700, E3200, E2200, E8700) Common J63080A 交換用ハロゲンランプ(LV-1450DC 用) Spare Harogen Lamp (For LV-1450DC) LV-1450DC Exclusive J63081 カラーメータ(ミノルタカラーメータⅢ F) Color Meter(Minolta Color meter Ⅲ F) 共通 Common J63068 輝度計 BM-3000 Luminance Meter BM-3000 共通 Common POWER BM-3000 - T1 ・ E2200 - VAA23001-R.3626.A ※:新規工具 ※:New tool 工具番号 Tool No. ※J65057 名 称 Name キャリブレーションソフト Calibration Software 備 考 Remarks 共通 (E995,E775,E885 E5000, E2500, E4500 E5700, E4300, E3500 E3100, E2100, E5400 E3700, E3200, E2200 E8700) Common(E995,E775,E885 E5000, E2500, E4500 E5700, E4300, E3500 E3100, E2100, E5400 E3700, E3200, E2200 E8700) ※J63090 サービスマニュアル添付 Attached in Service Manual コリメータ(C-DSC) Collimator (C-DSC) 共通 Common ジーメンスチャート 共通 Common Siemens chart - T2 ・ E2200 - ジーメンススターチャート VAA23001-R.3626.A - T3 ・ E2200 -