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ORDER NO. KMS0301664C1 Network Camera KX-HCM280 (for U.S.A.) 1. FOR SERVICE TECHNICIANS...
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ICs and LSIs are vulnerable to static electricity. When replacing, the following precautions will help to prevent recurring malfunctions. 1. Cover the plastic parts with aluminum foil. 2. Ground the soldering irons. 3. Use a conductive mat on the work-table. 4.
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2.3. TRADEMARKS - Netscape and Netscape Navigator are registered trademarks of Netscape Communications Corporation in the U.S. and other countries. - Adobe and Acrobat are either registered trademarks or trademarks of Adobe Systems Incorporated in the United States and/or other countries.
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2.5. POWER CAUTION The power socket wall outlet should be located near this equipment and be easily accessible. 2.6. MAINTENANCE To keep the Network Camera in the good condition, maintenance plays an important part. Please perform the recommended maintenance on a regular basis (as needed). After cleaning the dust from the lens with an air blower, please wipe the lens with a lens cleaning paper.
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3. SPECIFICATIONS Network Camera Specifications Item Description Pan/Tilt Angle Pan: -175° to +175°, Tilt: -120° to 0° (On the table) /0° to +90° (On the ceiling) Sensor Type 1/4 type CCD (Interlace type) Number of Pixels 380,000 pixels (Effective Pixels) Illumination 3-100,000 lx White Balance...
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Item Description Video Compression JPEG/3 Levels Video Resolution 640 x 480, 320 x 240 (default), 160 x 120 Buffered Image *1 About 560 frames (320 x 240) with time display Magnification 100% or 150% Frame rate *2 *5 Max. 10 frames/second (640 x 480 *4) Max.
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Optimum viewed image quality is achieved by having PC's video display property to 24 / 32 bit. 4. MAIN FEATURES EASY INSTALLATION Setup CD-ROM simplifies the installation. Insert the Setup CD-ROM and auto run program should start the application automatically. This program automatically finds the Network Camera on the network.
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EXTERNAL I/O (INPUT/OUTPUT) The external sensors/devices such as a door sensor can connect to External Sensor Input. The external sensors/devices are customer provided. The alarm/ timer trigger can activate the Image Transfer feature, which can send the images via e-mail or FTP (File Transfer Protocol). External Device Control Output can send a signal to activate the external devices such as a light around the Network Camera.
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Indicator can be controlled on Indicator Control window on Operating Instructions. Color indications are shown below. Power on Not on the LAN Orange Orange blinking *1 Orange On the LAN Orange Green blinking Green Normal Operation Green Using Getting IP address Green blinking DHCP Finish getting IP...
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5.3. BOTTOM VIEW 6. CONNECTING YOUR NETWORK CAMERA 6.1. PREPARATION Prepare the following before connecting the Network Camera. - PC to fulfill the system requirements. SYSTEM REQUIREMENTS The PC (Personal Computer) and the network must meet the following technical specifications for the Network Camera to work properly.
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*1 The Network Camera image is not displayed correctly in the Netscape v6.x. Use Netscape Navigator v4.7. Please refer to Panasonic Network Camera Site http://www.panasonic.com/netcam for the latest information of the web browser. Note: Pentium II 300 MHz or greater CPU is recommended to prevent performance degradation.
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The display color quality To insure the images you are viewing are the best they can be, set the Display property setting (color quality) to 24 bit or highher. Follow the next steps. 1. Close all applications so that you are looking at the Windows desktop.
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6.3. NETWORK CAMERA SETTING To access the network camera from a PC under the 6.2. CONNECTING THE NETWORK CAMERA, it is required to make the network settings of the PC consistent with those of the network camera. Using the setup CD-ROM, search the information from the PC about the network settings of the network camera.
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Note: If this camera is installed in a commercial or industrial building, local building code may require specific installation methods to be used. In such cases we strongly suggest that you contact your local building inspector so that the installation complies with any applicable building code. 7.2.
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2. Make a hole for a cable. 3. Fix firmly the Ceiling Plate A on the bottom of Network Camera.
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- Make sure the Network Camera, using coins etc., is firmly fixed. 4. Fix the Ceiling Plate A to the Ceiling Plate B and fix them firmly with Screws A.
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5. Connect the cable and fix the Ceiling Mounting Cover. Adjust the "l" of the Ceiling Mounting Cover to the "l" of the main unit. - Be careful not to nip the cable etc. 6. Move the Ceiling Mounting Cover in the clockwise direction until the "l" of it fits to the " "...
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unit. Wiring without making a hole for a cable in the ceiling - Please follow the steps 1), 3), 4), 5), 6). Making a hole is not necessary. - Please remove the tab of Ceiling Mounting Cover and wire through the notch.
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Note: Mortar wall is easy to come off in drilling. 3. Mount the Network Camera. Note: If this camera is installed in a commercial or industrial building, local building code may require specific installation methods to be used. In such cases we strongly suggest that you contact your local building inspector so that the installation complies with any applicable building code.
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1. Remove three Screws (C). And remove the Cabinet Cover.
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2. Remove the Screw (B1). And remove the I/O Board.
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3. Remove the Lead Wire and the two FFCs from the Connectors. 4. Remove three Screws (B2). And remove the Main Board. 8.2. DISASSEMBLY INSTRUCTIONS (TILT BOARD)
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1. Remove the two Pan Screw Covers. 2. Remove four Screws (A1), and remove the two Pan Covers. Caution: When remove Pan Screw Covers, please use the tools not to injure the Jig as illustrated in the figure and Pan Screw Covers. 3.
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1. Remove the two Pan Screw Covers. 2. Remove four Screws (A1), and remove the two Pan Covers. Caution: When remove Pan Screw Covers, please use the tools not to injure the Jig as illustrated in the figure and Pan Screw Covers. 3.
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4. Remove the Upper Tilt Cover. And remove the Lower Tilt Cover. 5. Remove the FFC (1), FFC (2) and FPC from the Connector. 6. Remove two Screws (A3). And remove the Video Board. 7. Remove two Screws (B). And remove the Lens Board.
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1. Remove the Tilt Board Spacer. 2. Remove two Retaining Rings and three Spacers. 3. Remove Tilt Block Ass’y (Camera Unit) to under direction. 4. Remove the Tilt Belt.
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5. Remove the Tilt Block Ass’y (Camera Unit). 6. Remove four Screws (A1). And remove the Tilt Gear.
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7. Remove two Screws (A2). And remove the Upper Tilt Cover and the Lower Tilt Cover. 8. Remove the Lens Cover. 9. Remove the FPC (1) from the Connector. And remove the Cable Guide. 10. Remove the FFC (1) and FFC (2) from the Connector.
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1. Remove the seven place of the solder on back side of the Main Board. 9. THE CAUTIONS AT THE TIME OF ASSEMBLY 9.1. SHIELD SHEET 1. Peel off the release paper, and paste the SHIELD SHEET on the surface of the Main Board. 2.
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9.2. FFC (VIDEO-CCD) 9.3. LEAD WIRE 1. Bind two position of the Pan Motor lead to measure as illustrated...
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in the figure. 2. Fix the Pan Motor, and (D) four parts securely. Caution: Through the locating pin of the cabinet to the locating hole. 3. Wire the lead of the Pan Motor as illustrated in the figure. 9.4. FFC 1.
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Mind the way of infolding. 2. Infold the wide size FFC (21P). (twice) Caution 2: Mind the way of infolding. 3. Insert the wide size FFC (21P) to the connector. (When insert the FFC, turn the contact side (silver side) to out direction.) Caution 3: Refer to caution of inserting time, and not insert tilting remarkably.
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9.5. FFC SHEET 1. Pass both FFCs through the FFC Sheet as shown, and insert A into B. Caution 1: Insert all the way to the FFC Sheet. 2. Attach Tilt Board Spacer. Caution 2:...
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Insert the pin on the front of the Tilt Board Spacer into the hole as shown. 3. Attach Tilt Board and secure with 2 Screws as shown. Caution 3: Insert the Locating Pins into the Locating Holes as shown. Caution 4: The FFC Sheet will stick out from behind the bottom of the Tilt Board as shown.
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9.7. CCD UNIT 1. Affix the LPF, CCD Rubber, and CCD Board (in that order) to the...
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Lens Unit, and secure using 2 Screws. Caution 1: Before assembling, remove dust from the inside of the lens as shown. Caution 2: Line up the top and bottom of the Lens Unit and CCD Board as shown. Caution 3: Insert the locating pins of the Lens Unit into the locating holes of the CCD Board as shown.
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- Color Temp. Conversion Filter for 5100K: YTU92001075 - Infinity Lens: YTU90021B - Attachment Ring: 46mm (2) LAN Cable (Cross) (3) Personal Computer (4) AC Adaptor: Part No. PSLP1242 (5) HCM280 Service Tool 10.2. PREPARATION - Cable Connection Tools and Equipment which need for each adjustment Zoom IRIS VIDEO...
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- Zoom Trucking Adjust Lens Adjustment Program has adjustment modes of individual items and an automatic adjustment mode which adjusts successively the all items. (1) Start-up the HCM280 Service Tool. (2) Power on the KX-HCM280. 1. Iris Adjustment Equipment - None Procedure 1.
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3. Auto Adjustment Equipment - Focus Pattern Chart - Infinity Lens - Light Box Procedure 1. Connect the Set from PC through LAN to output image. 2. Set the zoom position to Telephoto terminal and adjust the position so that the Focus Pattern Chart is display in the full screen.
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that the White Balance Chart is displayed in the full screen. 7. Press the "OK" button. 8. After displaying "Please shoot Color Bar Chart", change the White Balance Chart to the Color Bar Chart. Adjust the position and zoom range so that the Color Bar Chart is displayed in the full screen and the target on the screen is placed in the center of each color, as shown in the following Figure.
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11.9. CAMERA WILL NOT INITIALIZE When turning on the power, CPU makes a check using the self-diagnosis function. Check being able to the access to the device described below. When the self-diagnosis function of the device described below is NG turning on the power, CPU makes a check using the LED indicator red-blinks.
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Changes may be necessary to accommodate new operating systems or new web browsers that are not shown on Operating Instructions. In those cases, Update Firmware would be available from the Network Camera Technical Support Site at http://panasonic.co.jp/pcc/en/. Check the current firmware version on Operating Instructions.
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Note: - Do not turn off the power during Update Firmware. If the operation of Update Firmware is stopped, refer to Operating Instructions. - Buffered Images are erased when performing Update Firmware. The upgrade of the software for application is practiced to rewrite Flash memory (IC102) on the Main board by CPU (IC101) on the Main board.
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12. THE WAY OF THE INITIALIZE 12.1. NETWORK CAMERA RESET PROCEDURE-DEFAULT SETTINGS If the user forgets the settings or passwords, the Network Camera can be easily reset to the default settings. FACTORY DEFAULT RESET button initializes all the parameters except Date and Time setting.
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Note: When pressing the FACTORY DEFAULT RESET button, all buffered images are cleared. 12.2. RESET TO FACTORY DEFAULT Reset to Factory Default window initializes all the parameters including the ID, Password, IP address and Subnet Mask except Date and Time setting to the factory default. Please reconfirm before doing the Reset to Factory Default operation.
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AM/PM mode and Auto adjustment will be disabled. - If Reset to Factory Default is used, all user settings will be lost. You will have to reconfigure the entire Network Camera. 13. NETWORK CAMERA KX-HCM280 BLOCK DIAGRAM 14. CIRCUIT DESCRIPTION 14.1.
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FLASH MEMORY (IC102) Operating Power Supply: +3.3V Package: 48 pin TSOP Capacity: 16Mbit, Access Time: 90ns Stores programs and MAC Addresses, which are read in by the CPU for operation. Stores user set values also. An upgrade from 10/100 BASE-Tx is possible. SDRAM (IC103) Operating Power Supply: +3.3V Package: 54 pin TSOP...
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Receiving Operation 1. After receiving one packet of data, the LAN controller informs the CPU of it. 2. The CPU checks if the packet is normal. 3. If normal, the CPU transfers the data on the Receive Buffer to the data port, using the Remote DMA.
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(IC701). 3. JPEG (IC701) synchronizes the data to the falling edge of n VSYNC (start of 1 screen), and then accumulates the data from VIDEO-I/F in the Image buffer of DRAM (IC702). 4. The image data accumulated in the Image buffer of DRAM (IC702) is read out to JPEG CODEC, and then JPEG-compressed by pixel.
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Function DC Power Output Terminal 10.5-13.5V DC Maximum of 100 mA load drive is possible. External Sensor Input External Sensor Input receives the signal produced by the alarm sensors, e.g., door sensor, infrared ray sensor. Those signals can activate Image Transfer in the Alarm mode feature on Operating Instructions. Please use it by opening or GND short-circuit.
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do the wiring not by yourself. incorrect wiring could damage the network camera. You could receive the fatal electric shock. - External I/O (Input/Output) are independent. External Device Control Output is controlled only by External Output Control window on Operating Instructions. 14.1.7.
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mounted on this board is realized using the photo sensor (IC351) mounted on this substrate The detection signal of a photo sensor is detected by the AD converter built in IP CPU (IC101). At the time of TILT operation, phase current from a motor driver is enlarged, and while not operating, it is controlled to lessen (C-CONT).
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14.2.1. CCD Board Function Photoelectric transfer by CCD for an imaged object - CCD (IC1101) Effective pixels: 768 x 494 Power-supply voltages: 12V, -5V Image size: opposite angle 4.5 mm (1/4 SIZE) CCD is driven by horizontal drive signal (H1, H2, RG) and vertical drive signal (V1~V4) that are output from a VIDEO board.
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by FV_DSP, EP1_DSP and EP2_DSP. The lens control is performed by signals including PWM connected to the lens board via CN904. 14.2.2.2. Video Signal Process Block - CDS (IC801) Power-supply voltages: 3.3V Package: 36pin QFP Performs CDS (Correlate Double Sampling) process for CCD output signal from CCD board, AGC (Auto Gain Control) process and A/D conversion (10bit) CCD output signal is sampled with SP1 and SP2 signal to reduce...
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3. Gamma correction for R/G/B signal respectively 4. Color-Difference matrix to convert to the color-difference signal (R-Y, B-Y signal) and to adjust chroma/phase 5. Modulation process in accordance with NTSC standard 6. D/A converts for output Additionally, the detection process for AE (Auto Exposure), AF (Auto Focus) and AWB (Auto White Balance) is made for automatic control.
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14.2.3. Lens Board Function Zoom, Focus and Iris in LENS UNIT driving. 14.2.3.1. IRIS Drive Block...
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PWM signal from MAIN board is compared with HALL OUT signal in Drive AMP (IC1010), and drives Iris in LENS UNIT as ALC_MAIN [+] signal so that the difference between PWM and HALL OUT may be zero. HALL OUT signal is produced by IC1007 from HALL_OUT [+]/HALL_OUT [-] signal, which are produced depending on the Iris position in LENS UNIT, and generates voltage as large as Iris opens.
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The ZOOM motor, which type is a stepping motor, is driven with the motor driver (IC1002). The drive system is Constant Current Drive 2W1-2 Phase Excitation Micro Step Drive. It works by 1 step to the direction set by ZMDIR signal, per 1 clock of ZMCLK signal given to IC1002. The motor current flows as below.
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Current Drive 2W1-2 Phase Excitation Micro Step Drive. It works by 1 step to the direction set by FMDIR signal, per 1 clock of FMCLK signal given to IC1001. The motor current flows as below. In phase A: 6V power Q1003 6pin Q1003 1pin FAP signal...
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14.2.4. Power Block (Tilt Block Ass’y) The Power Block generates the power used in each part. 15. IC DATA 15.1. IC101 (CPU)
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Pin No. Pin Name Description Clock Mode Setting Terminal (GND Connection) Clock Mode Setting Terminal (GND Connection) VCC-RTC RTC Power Supply (+1.8V) XTAL2 Oscillator out EXTAL2 External Clock Terminal (32.768kHz) VSS-TRC RTC Power Supply (GND) Non-mask able Interrupt Request (External Pull-Up) IRQ0 Interrupt Request from LAN Controller IRQ1...
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Data Bus Pin No. Pin Name Description Data Bus Data Bus VSSQ Input/Output Power Supply (GND) Data Bus VCCQ Input/Output Power Supply (+3.3V) Data Bus Data Bus Data Bus Data Bus Data Bus Address Bus Address Bus Address Bus Address Bus VSSQ Input/Output Power Supply (GND) Address Bus...
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Pin No. Pin Name Description VCCQ Input/Output Power Supply (+3.3V) Address Bus (Unassigned) PTK4 Unassigned (LOW Output) Read Signal (Low Active) nWE0 Write Signal (Low Active) nWE1 Write Signal (Low Active) nICIORD IO Read Signal (Unassigned) nICIOWR IO Write Signal (Unassigned) RD/nWR Read (High Active)/ Write (Low Active) Unassigned (Internal Pull-Up)
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Pin Name Description Motor Current Control02 Motor Current Control12 PHASE2 Control Direction of Motor Current2 VREF2 Standard of Motor Current Control2 RC Connection for Oscillation2 Logic Power Supply RC Connection for Oscillation1 VREF1 Standard of Motor Current Control1 PHASE1 Control Direction of Motor Current1 Motor Current Control11 Motor Current Control01 OUT1B...
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Pin No. Pin Name Description nROM This pin is sampled at the end of RESET. For ISA operation this pin is left open end it is used as a ROM chip select output that goes active when nMEMR is low and the address bus contains a valid ROM address.
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Pin No. Pin Name Description IOS2 Input. External switches can be connected to these lines to select between predefined EEPROM configurations. The values of these pins are readable. nTXLED Transmit output. NBSELED Board Select LED activated by accesses to I/O space (nIORD or nIOWR active with AEN low and valid address decode for ISA).
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Pin No. Pin Name Description 21,29,40 AVDD +5.0V analog power supply pins or 3.3V power supply pins 50, 56, 71, 7, Ground pins. 94,14, 42, 66, 16 28, 36, 37 AVSS Analog ground pins. 75, 73, 69,67, 38 No-Connected pins 15.3.2.
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Pin Name Description DAVDD AD part Power Supply VRT2 Standard Voltage of AD Converter for S-Video C Parallel (high side) VIN6 S-Video2 C Parallel (C-2) Input When not to use, Open or AGND connection VIN5 Composite-5 or S-Video1 C Parallel (C-1) Input When not to use, Open or AGND connection AVDD Analog part Power Supply...
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Pin Name Description MODE[0] Input/Output Change Input when outside setting mode (Internal resistance Pull-Down) MODE[1] Inside/Outside terminals change Register MRA[0]. MODE[2] The Default of Register MRA[0] is External resistance Mode. MODE[3] MODE[3:2] Output Mode Selection 00: ITU-R BT.656(Processed by 8bit YCbCr SAV, EAV and blank) 01: 8bit (YCbCr) 10: 16bit (YCbCR) (ITU-RBT.601) 11: 24bit RGB...
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Pin Name Description 53~60 Y[7~0] Data Output B[7]:MSB, B[0]:LSB ITU-RBT.656 Output Mode time: YCbCr 8 bit Data Output 8 bit (YCbCr) Output Mode time: YCbCr 8 bit Data Output 16 bit (YCbCr) Output Mode time: Y 8 bit Data Output 24 bit RGB Output Mode time: G 8 bit Data Output DVDD Digital part Power Supply...
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Pin Name Description STATUS[2] Status Signal Output Select by Internal Register OMR[0] OMR[1]: 0 NTSC-PAL Recognition Output (Default) 0: NTSC/1: PAL OMR[1]: 1 HLOCK Synchronous detection Output 0: No detection/1: detection STATUS[1] Status Signal Output Un definition M[7] Field Memory Control signal; RE Output M[6] Field Memory Control signal;...
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Pin No. Pin Name Description Data Input/Output VDD3 VDD (3.3V) Data Input/Output...
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Pin No. Pin Name Description Clock CLKSEL Clock Select ZBLANK Blank Signal ZVSYNC Vertical Sync Signal ZHSYNC Horizontal Sync Signal PIXCLK Pixel Clock FIELD Field Identification PXEN Pixel Output Enable VDD5 (VDD3) VDD (5V) (When 3.3V Simple Power VDD (3.3V)) TEST/CLKSEL3 Test/Clock Select Brightness Data...
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Pin No. Pin Name Description MD15 DRAM Data MD14 MD13 V DD3 VDD (3.3V) MD12 DRAM Data MD11 MD10 VDD5 (VDD3) VDD (5V) (When 3.3V Simple Power VDD (3.3V)) DRAM Data DRAM Data ZRAS1 DRAM RAS1 ZRAS0 DRAM RAS0 ZCAS DRAM CAS DRAM Write Enable DRAM Output Enable...
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Pin Name A0 to A8 Address input Low address strobe UCAS Column address strobe (Upper byte control) LCAS Column address strobe (Lower byte control) Write enable Output enable I/O1 to I/O6 Data I/O Power supply Ground N.C. No connection 15.7. IC801...
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Pin Name Description D1~D9 Digital output DRDVDD Power Supply terminal for Output Buffer (3V) DVSS Digital Ground (0V) ADCLK ADC transform Clock input terminal DVDD Digital Power Supply terminal (3V) PBLK Pre-blanking terminal Optical Black Pulse input terminal SPBLK Black level sampling Clock terminal SPSIG Signal level sampling Clock terminal AVSS...
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Pin Name Description SUBO VOD Shutter Drive Pulse Input VL power supply Two readings Pulse Output VDD2a VMa (three readings driver) Power Supply Three readings Pulse Output Logic Power Supply Three readings driver Input Two readings driver Input SUBI VOD Shutter Drive Pulse Input No Connection Two readings driver Input Three readings driver Input...
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Pin Name Description XSUB CCD control pulse DKF_LD Line input Load T_CP Test pin (GND input) TY_K Title Killer SW "1" On, "0" Off ICD State Data Input SDCK State Data Set Clock State Data latch pulse AWB, AE, Detect Output EP(1) Iris detect area set pulse SP-A7[8] output SW EP(2)
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Pin Name Description C_OUT chroma Analog output D/A Upper bits current supply CBLK D/A Uup current supply REXT Reference Voltage input Y_OUT Y Analog Signal Output AVDD Analog Power Supply 3V Digital Power Supply 3V DICK Digital interface clock NRYBY Color-difference signal phase clock YPO(8) Y Parallel Output (8);...
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CPI(6) C Parallel Input (6) Pin Name Description CPI(5) C Parallel Input (5) CPI(4) C Parallel Input (4) CPI(3) C Parallel Input (3) CPI(2) C Parallel Input (2) CPI(1) C Parallel Input (1); LSB Line memory Control output Field Pulse ZOOM_HD Zoom HD Output AD(10)
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Pin Name Description Brightness signal Input Vout Video Out Vsag Video Sag Revision Power Save Power Save Control C Mute CTL Color signal mute Control Color signal Input 15.11. IC902...
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Pin Name Description Clock signal Input MODE Excitation Mode setting terminal Condenser outside terminal for reducible noise Logic side Power Supply terminal _RESET Reset signal terminal B Channel Current detection terminal PG-B Power Ground B Upper side PNP Transistor base terminal (_B aspect) B output Output side Power Supply B...
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Pin Name Description Vertical register transfer clock Vertical register transfer clock Vertical register transfer clock Vertical register transfer clock No connection VOUT Signal output Supply voltage Substrate clock Protective transistor bias Reset gate clock Horizontal register transfer clock Horizontal register transfer clock...
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16. TERMINAL GUIDE OF ICS, TRANSISTORS AND DIODES 17. HOW TO REPLACE THE FLAT PACKAGE IC If you do not have the special tools (for example: SPOT HEATER) to remove the SPOT HEATER’S Flat IC, If you have solder (large amount) a soldering iron and a cutter knife, you can easily remove IC’s even though large than 100 pin.
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19RMA - Soldering iron / Recommended power consumption is between 30 W to 40 W. / Temperature of Copper Rod 662 ± 50°F (350 ± 10°C) / (An expert may handle a 60~80 W iron, but beginner might damage foil by overheating.) - Flux / HI115 Specific gravity 0.863 / (Original flux should be replaced daily.) 17.2.
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After removing the Flat IC and when attaching the new IC, remove any of the excess solder on the land using the soldering wire, etc. If the excess solder is not removed from the land, the IC will slip and not be attached properly. 17.3.
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18. CABINET AND ELECTRICAL PARTS LOCATION...
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20. REPLACEMENT PARTS LIST Note: 1. RTL (Retention Time Limited) The marking (RTL) indicates that the Retention Time is limited for...
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this item. After the discontinuation of this assembly in production, the item will continue to be available for a specific period of time. The retention period of availability depends on the type of assembly and the laws governing parts and product retention. At the end of this period, the assembly will no longer be available.
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Ref. No. Part No. Part Name & Description Remarks PSKE1063Y1 COVER, TILT (UPPER) ABS-V0 PSGB1005Z BADGE, PANASONIC PSJE1037Z LEAD WIRE, FFC (VIDEO-CCD) PSZE1HCM180N COVER, CABLE HOLDER POM-HB PSMH1254Z CHASSIS, LENS PSDV1003Z FLAT BELT, TILT BELT PSHR1287Z GEAR, TILT GEAR POM-HB...
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Ref. No. Part No. Part Name & Description Remarks PSJA1069Z POWER CORD (AC CORD) PSLP1242Y AC ADAPTOR PSZMHCM180N MOUNTING BRACKET, CEILING STAY PLATE ASS'Y A3-1 PSZMHCM280M MOUNTING BRACKET, CEILING STAY PLATE 1 A3-2 PSMD1045Z MOUNTING BRACKET, CEILING STAY PLATE 2 PSKL1023Z1 STAND, CEILING ATTACHMENT ABS-V0...
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Ref. No. Part No. Part Name & Description Remarks L1002 ELJFC6R8KF COIL L1003 ELJPA100KF COIL 20.6. VIDEO BOARD PARTS Ref. No. Part No. Part Name & Description Remarks PCB4 PSWP4HCM180N VIDEO BOARD ASS'Y (RTL) (ICS) IC801 C1AB00001761 IC802 UPD16510GR IC803 C1AB00001347 IC804 C1AB00001606...
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1. DC voltage measurements are taken with an oscilloscope or a tester with a ground. 2. The schematic diagrams and circuit board may be modified at any time with the development of new technology. 22. SCHEMATIC DIAGRAM 22.1. WAVEFORM 23. CIRCUIT BOARD 23.1.
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23.12. I/O BOARD (BOTTOM VIEW) A KXHCM280...
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Motor Drive +12V/ TILT [ IC301] [ IC352] [ IC106] [ IC351] DC-DC Motor Serial i/f Motor UDN2916 UDN2916 SG233 SG233 (Stepping) [IC602] Circuit +12V (Stepping) TILT Board +5V/+12V TILT Block Power Block Motor control Motor control KX-HCM280 BLOCK DIAGRAM...
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LAN BLOCK DIAGRAM I/O BOARD MAIN BOARD IC501 LAN CONTROLLER IC101 REMOTE LOCAL CN501 DATA FIFO PORT (TRANS) (RJ-45) CN603 (One apparatus) PJ45 Module IC102 IC103 Buffer Buffer FLASH SDRAM INTERNAL X501 (25MHz)
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JPEG BLOCK DIAGRAM CAMERA UNIT IC101 IC701 CPU-DMAC JPEG CODEC 8bit Y DATA VIDEO I/F FIFO IC601 Video 8bit UV DATA Decoder PIXCLK nVSYNC nHSYNC FIELD IC103 SDRAM(64Mbit) X601 24.54MHz Image Code Buffer Buffer IC702 (DRAM 4Mbit)
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+12V AC Adaptor CN11 I/O BOARD 12V Output TP_V +12V (+11.4V~+13.2V) DC-DC Converter (IC21) +3.3V +3.3V (+3.3 ± 0.3V) DC-DC Converter (IC51) +1.8V +1.8V (+1.8 ± 0.15V) CN501 MAIN BOARD CN603 Main IC Motor Driver Internal core (IC101,IC701,etc) of IC101 (IC301) Motor Driver &...