Panasonic BL-C30CE Service Manual

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Operating instructions manual (118 pages)

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IMPORTANT INFORMATION ABOUT LEAD FREE, (PbF), SOLDERING

If lead free solder was used in the manufacture of this product the printed circuit boards will be marked

PbF.

Standard leaded, (Pb), solder can be used as usual on boards without the PbF mark.

When this mark does appear, please read and follow the special instructions described in this manual

on the use of PbF and how it might be permissible to use Pb solder during service and repair work.

ORDER NO. KMS0504058CE

BL-C30CE / BL-C30E

Network Camera

(for Europe)

Summary of Contents for Panasonic BL-C30CE

Page 1 ORDER NO. KMS0504058CE Network Camera BL-C30CE / BL-C30E (for Europe) 2005 Panasonic Communications Co., Ltd. All rights reserved. Unauthorized copying and distribution is a violation of law. IMPORTANT INFORMATION ABOUT LEAD FREE, (PbF), SOLDERING If lead free solder was used in the manufacture of this product the printed circuit boards will be marked PbF. Standard leaded, (Pb), solder can be used as usual on boards without the PbF mark. When this mark does appear, please read and follow the special instructions described in this manual on the use of PbF and how it might be permissible to use Pb solder during service and repair work.
Page 2 1. ABOUT LEAD FREE SOLDER (PbF: Pb free) Note: In the information below, Pb, the symbol for lead in the periodic table of elements, will refer to standard solder or solder that contains lead. We will use PbF solder when discussing the lead free solder used in our manufacturing process which is made from Tin, (Sn), Silver, (Ag), and Copper, (Cu). This model, and others like it, manufactured using lead free solder will have PbF stamped on the PCB. For service and repair work we suggest using the same type of solder although, with some precautions, standard Pb solder can also be used. Caution - PbF solder has a melting point that is 50° ~ 70° F, (30° ~ 40°C) higher than Pb solder. Please use a soldering iron with temperature control and adjust it to 700° ± 20° F, (370° ± 10°C). In case of using high temperature soldering iron, please be careful not to heat too long. - PbF solder will tend to splash if it is heated much higher than its melting point, approximately 1100°F, (600°C). - If you must use Pb solder on a PCB manufactured using PbF solder, remove as much of the original PbF solder as possible and be sure that any remaining is melted prior to applying the Pb solder. - When applying PbF solder to double layered boards, please check the component side for excess which may flow onto the opposite side (See figure, below). 1.1. SUGGESTED PbF SOLDER There are several types of PbF solder available commercially. While this product is manufactured using Tin, Silver, and Copper, (Sn+Ag+Cu), you can also use Tin and Copper, (Sn+Cu), or Tin, Zinc, and Bismuth, (Sn+Zn+Bi). Please check the manufacturer’s specific instructions for the melting points of their products and any precautions for using their product with other materials. The following lead free (PbF) solder wire gauge are recommended for service of this product: 0.3mm, 0.6mm and 1.0mm.
Page 3 1.2. HOW TO RECOGNIZE THAT Pb FREE SOLDER IS USED MAIN BOARD...
Page 4 I/O BOARD...
Page 5 SUB BOARD...
Page 6 LENS BOARD RF BOARD...
Page 7 2. FOR SERVICE TECHNICIANS 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.
Page 8 3. Use a conductive mat on the work-table. 4. Do not grasp IC or LSI pins with bare fingers. 3. CAUTION 3.1. SAFETY PRECAUTIONS 1. Before servicing, unplug the power cord to prevent an electrical shock. 2. When replacing parts, use only manufacturer’s recommended components for safety. 3. Check the condition of power cord. Replace if wear or damage is evident. 4. After servicing, be sure to restore the lead dress, insulation barriers, insulation papers, shields, etc. 5. Before returning the serviced equipment to the customer, make the following insulation resistance test to prevent a shock hazard. 3.2. BATTERY CAUTION Danger of explosion if the battery is replaced incorrectly. Replace only with the same or equivalent type recommended by the manufacturer. Dispose of used batteries according to the manufacturer’s Instructions. The lithium battery is a critical component (type No. CR-1632/1HF). Please observe for the proper polarity an the exact location when replacing it and soldering the replacement lithium battery in. 3.3. TRADEMARKS - Adobe and Acrobat are either registered trademarks or trademarks of ...
Page 9 Adobe Systems Incorporated in the United States and/or other countries. - Ethernet is either a registered trademark or a trademark of Xerox Corporation in the United States and/or other countries. - Microsoft, Windows, Hotmail and ActiveX are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries. - Pentium is a trademark or registered trademark of Intel Corporation or its subsidiaries in the United States and other countries. - Screen shots reprinted with permission from Microsoft Corporation. - All other trademarks identified herein are the property of their respective owners. 3.4. INSULATION RESISTANCE TEST 1. Unplug the AC power cord and short the two prongs of the plug with a jumper wire. 2. Measure the resistance value with ohmmeter between the jumpered AC plug and each exposed metal cabinet part, such as screw threads, etc. Note: Some exposed parts may be isolated from the chassis by design. These will read infinity. 3. If the measurement is outside the specified limits, there is a possibility of shock hazard. The equipment should be repaired and rechecked before it is returned to the customer.
Page 10 3.5. POWER CAUTION The power socket wall outlet should be located near this equipment and be easily accessible. 3.6. PRECAUTIONS FOR USERS IN THE UNITED KINGDOM FOR YOUR SAFETY, PLEASE READ THE FOLLOWING TEXT CAREFULLY. This appliance is supplied with a moulded three pin mains plug for your safety and convenience. A 3 amp fuse is fitted in this plug. Should the fuse need to be replaced, please ensure that the replacement ...
Page 11 Check for the ASTA mark or the BSI mark on the body of the fuse. If the plug contains a removable fuse cover, you must ensure that it is refitted when the fuse is replaced. If you lose the fuse cover, the plug must not be used until a replacement cover is obtained. A replacement fuse cover can be purchased from yourlocal Panasonic Dealer. IF THE FITTED MOULDED PLUG IS UNSUITABLE FOR THE SOCKET OUTLET IN YOUR HOME THEN THE FUSE SHOULD BE REMOVED AND THE PLUG CUT OFF AND DISPOSED OF SAFELY. THERE IS A DANGER OF SEVERE ELECTRICAL SHOCK IF THE CUT OFF PLUG IS INSERTED INTO ANY 13 AMP SOCKET. If a new plug is to be fitted, please observe the wiring code as shown below. If in any doubt, please consult a qualified electrician. IMPORTANT: THIS APPLIANCE MUST BE EARTHED. How to replace the fuse: The wires in this mains lead are coloured in accordance with the following code: Blue: Neutral Brown: Live As the colours of the wire in the mains lead of this appliance may not correspond with the coloured markings identifying the terminals in your plug, proceed as follows. The wire which is coloured BLUE must be connected to the terminal in the plug which is marked with the letter N or coloured BLACK. The wire which is coloured BROWN must be connected to the terminal in the plug which is marked with the letter L or coloured RED. Under no circumstances should either of these wires be connected to the earth terminal of the three pin plug, marked with the letter E or the Earth symbol How to Replace the Fuse 1. Insert the flathead screwdriver into the groove either end of the fuse carrier. 2. Detach the fuse carrier and change the fuse.
Page 12 3. Replace the fuse into the fuse carrier and resecure into the mains plug. 3.7. CLEANING Clean the camera after the camera is turned off. 3.7.1. Cleaning the Main Unit Clean the unit with a dry and soft cloth.
Page 13 Note: - Do not use alcohol, polishing powder, cleanser, benzine, thinner, wax, petroleum products or hot water to wipe the camera. Also avoid pesticide, glass cleaner or hair spray. They may cause change in shape or color. - Do not apply pressure to the pan/tilt portion of the camera. Any forced movement can damage the internal mechanism. - If the pyroelectric infrared sensor has dust on it, it may not detect temperature differences. Keep the pyroelectric infrared sensor clean. 3.7.2. Cleaning the Lens If the lens has dust on it, the image may be unclear or out of focus.
Page 14 Note: Do not touch the lens directly. Fingerprints may cause an unclear image. 4. SPECIFICATIONS Network Camera Items Specifications Pan/Tilt Angle Pan: -50° to +50°, Tilt: -40° to +10° Number of Pixels 1/4-inch CMOS Sensor 320,000 pixels Illuminance 1-10,000 lx White Balance Auto/Manual/Hold Focus Fixed 0.5m (20 inches) - Infinity Caliber Ratio (F No.) F2.8 Horizontal Viewing Angle 43° Exposure Auto Other Specifications...
Page 15 Items Specifications Video Compression JPEG (3 Levels) Video Resolution 640 x 480, 320 x 240 (default), 160 x 120 Buffered Image *1 About 250 frames (320 x 240) with time display Frame rate *2 Max. 7.5 frames/second (640 x 480) Max. 15 frames/second (320 x 240 or 160 x 120) Supported Protocols TCP, UDP, IP, HTTP, FTP, SMTP, DHCP, DNS, DDNS, ARP, ICMP, POP3, NTP Message Transfer Pyroelectric Infrared Sensor or Timer Condition Image Transfer Method SMTP, FTP Interface Wired: 10Base-T/100Base-TX Ethernet RJ-45 connector x 1 Wireless: IEEE 802.11b/g (Embedded) Sensor Detection Method Pyroelectric Infrared Sensor Sensor Range Horizontally About 30°, Vertically About 85°, Distance About 5 m (16.4 feet) (When the temperature is 20 °C [68 °F]) Indicator Display Power/Network Communication/Camera operation/Ethernet link Dimension (WHD) About 74 mm (2.91 inches) x About 98 mm (3.86 inches) x About 73 mm (2.87 inches) Weight 200 g (0.44 lb.) (Only the unit) Power Supply AC adaptor: Input 100-240 V AC, 50/60 Hz Output 12 V DC, 750 mA Consumption: About 4.5 W (6.4 W during pan/tilt scan) Temperature Operation: +5 °C (+41 °F) to +40 °C (+104 °F) Storage: +0 °C (+32 °F) to +50 °C (+122 °F) Humidity Operation: 20%-80% (No Condensation) ...
Page 16 (See Panasonic Network Camera support website at http://panasonic.co.jp/pcc/products/en/netwkcam/ for details about the pyroelectric infrared sensor.) The sensor (pyroelectric infrared sensor) detects temperature differences with the infrared rays naturally emitted by human or animal bodies. The sensor trigger can acti-vate buffering images to the internal memory or transferring images by E-mail or FTP. The detection range is about 30° horizontally, about 85° vertically and about 5-m (16.4 feet) distance. Since the detection range is easily affected by the environment temperature or how fast the object speed is, consider your mounting location. Note: - The sensor can easily detect temperature differences of objects moving sideways within the detection range, but cannot easily detect objects moving slowly towards the sensor. Mount the camera where the objects often pass across the detection range (see Figure 1). - If the lens position does not match the sensor direction, the buffered or transferred images may not capture the object detected by the sensor (see Figure 2). We recom-mend you to set the pan/tilt range to match the sensor direction or to restrict the user's access level to disable the pan/tilt operation.
Page 17 About Location - If there is no temperature difference between human body and environment like in summer, the sensor may not detect anything. - If the object is less than about 1 m (40 inches) away from the camera, the camera may detect the object outside the range. - If the sensor is obstructed, the sensor does not detect anything. Remove the obstacle in front of the sensor. - The sensor may malfunction in the following areas. Avoid these locations.
Page 18 4.2. COLOR NIGHT VIEW MODE - Color night view mode (a to-adjusted) enables the camera to display images even in 1 lx ill minance. - 1 lx is the brightness about 2.5 m (8.2 feet) away from auxiliary fluorescent light. Color night view mode slows down the frame rate, and images may blur when viewing a moving object or using the pan/tilt operation. - When viewing a dark image, Color Night View mode a tomatically starts. The image will be brighter, but the refresh interval may slow down and image quality may decrease. - When the camera is aimed at a dark object when in Color Night View mode, specks of white or colored light may appear in the image. This is a characteristic of the CMOS image sensor. The product is not malfunctioning. 5. MAIN FEATURES Wireless Communication Network Camera corresponds to the wireless system based on IEEE 802.11b/g. Wireless installation will play an increasing role in flexible mounting. Communication via Ethernet cable is also available. Encryption establishes the security on the wireless network.
Page 19 Various remote monitoring features - Pyroelectric infrared sensor detects temperature differences caused by a human body or animals. - Detection can let camera transfer images by E-mail or FTP - Color night view mode (auto-adjusted) enables the camera to display images even in 1 lx ill minance Monitoring from PC or mobile phone - The camera images can be monitored over the Internet. - Pan/Tilt operation can move the lens horizontally from -50° to +50° and vertically from -40° to +10°. Privacy mode - Privacy mode hides the lens into the unit to protect privacy. - Pressing the privacy button on the front of the camera switches privacy mode on or off with a single touch. Privacy Monitoring Purpose Privacy feature Disabled Protecting privacy Monitoring Enabled Remote monitoring Easy installation using UPnP (Universal Plug and Play) When connecting the camera with a UPnP enabled router, the camera automatically configures its network settings. * Some UPnP enabled routers cannot configure the camera automatically. In this case, the router needs to be configured manually. Ask the router manufacturer how to configure it. See Panasonic Network Camera support website at http://panasonic.co.jp/pcc/products/en/netwkcam/ for more information. Supporting Viewnetcam.com service Viewnetcam.com service allows you to access the camera over the Internet with your favorite domain name (e.g. bob.viewnetcam.com) instead of a global IP address. * Viewnetcam.com service is the service for Panasonic Network Camera. See Viewnetcam.com website (http://www.viewnetcam.com) for more information. Multi-Language Display Top page, Single Camera and Multi-Camera page can be displayed in English, French, German, Italian, Spanish, Russian, Simplified Chinese or Japanese. If you select English or Japanese, all pages can be changed. But if you select other language, the Setup, Maintenance and Support pages are displayed only in English.
Page 20 *1 The sensor uses pyroelectric effect. Due to the effects of environment temperature, direct sunlight or air conditioner, it may detect the temperature differences by mistake, or the detection range may be shortened. *2 It may take some time to transfer images depending on the network condition. *3 1 lx is the brightness about 2.5 m (8.2 feet) away from auxiliary fluorescent light. Color night view mode slows down the frame rate, and images may blur when viewing a moving object or using the pan/ tilt operation. 6. PARTS LOCATIONS 6.1. FRONT VIEW Privacy Button To temporarily deactivate the camera, press the privacy button. Once pressed, the button changes from green to red. The video will be temporarily turned off, camera features become unresponsive and the viewed image turns to a gray screen. To return to normal operation, press the privacy button again. It should turn green within a few seconds. To restore video, click [Refresh] on the web browser. Privacy mode can also be controlled from mobile phones or PCs. Indicator Display...
Page 21 Power on Not on the LAN Orange Orange blinking On the LAN Orange Orange and green blinking Green Normal Operation *1 Green Automatic Setting Green blinking Setup Finished seting Green Using Getting IP address *2 Orange blinking Green blinking DHCP Got IP address Green Updating Firmware Orange blinking Pressing FACTORY DEFAULT Orange blinking Turning off RESET button (The camera restarts about 1 minute later.) UPnP Failure *3 Orange blinking (About a 2-second interval) In Privacy Mode Internal Failure Red blinking *1) The indicator turns orange if the camera is not connected to the LAN. *2) The indicator blinks orange if the camera is not connected to the LAN. *3) When the sensor is active, the interval between blinks may increase.
Page 22 Note: If the ceiling is made of wood, the camera can be installed on the ceiling. See Panasonic Network Camera support website at http://panasonic.co.jp/pcc/products/en/netwkcam/ for details. 7. CONNECTING YOUR NETWORK CAMERA 7.1. PREPARATION Prepare the following before connecting the Network Camera. - Set up software (Setup CD-ROM) - PC to fulfill the system requirements. - Ethernet Router or Wireless Router for LAN Connection. - Ethernet cable (two pieces of Category 5 straight cable). SYSTEM REQUIREMENTS Your PC (Personal Computer) and network must meet the following technical specifications for the camera to work properly.
Page 23 Item Description Operating System Microsoft Windows XP Microsoft Windows 2000 Microsoft Windows Me Microsoft Windows 98SE Pentium III (500 MHz or greater is recommended.) Protocol TCP/IP protocol (HTTP, TCP, UDP, IP, DNS, ARP, ICMP) Interface 10/100 Mbps network card installed Web Browser Internet Explorer 6.0 or later (Not included on the Setup CD-ROM) Note: See Panasonic Network Camera support website at http://panasonic.co.jp/pcc/products/en/netwkcam/ for the latest information about web browser. Abbreviations - UPnP is the abbreviation for Universal Plug and Play. 7.2. CONNECT THE CAMERA TO YOUR ROUTER Connect the camera to your router with an Ethernet cable to set up the camera. - Before you begin the installation, the UPnP feature in your router needs to be enabled. Usually, the default setting disables this feature. For more info, please visit, http://panasonic.co.jp/pcc/products/en/ netwkcam/ or contact your router's manufacturer. - These instructions assume your PC is already connected to the Internet and your home network includes a router that is UPnP (Universal Plug ...
Page 24 2. Connect the Ethernet cable to your router. 3. Connect the Ethernet cable to the camera. 7.3. TURN THE CAMERA ON Inserting the AC adaptor to the outlet powers up the camera.
Page 25 1. Connect the power cord from the AC adaptor to the DC In jack. 2. Connect the AC plug of the AC cord to the power outlet. - When you operate the camera, the power outlet should be near the camera and easily accessible. - Use only specified Panasonic AC adaptor PQLV202 (Order No.PQLV202X). 3. After the lens moves (pan/tilt operation), confirm that the indicator lights green after a minute. - If the indicator does not light green, see page 15 and 16 of the Installation/Troubleshooting. - A noise can be heard during pan/tilt operation. This is normal. 7.4. SETUP THE CAMERA...
Page 26 Important - To avoid any possible problems, temporarily disable any firewall or antivirus software. - This procedure explains installation of the camera on the same network that your PC is part of. - Before proceeding, close your web browser. 1. Insert the Setup CD-ROM into the CD-ROM drive of the PC. (If the Network Camera Setup window is not displayed automatically, double-click "Setup.exe" file on the Setup CD-ROM.) 2. Click [Camera Setup]. 3. Select the camera to set up and click [Execute]. - This program searches for the cameras that are connected to the router and displays the MAC Addresses, IP addresses and Port Numbers.
Page 27 - When searching for multiple cameras, the cameras can be identified with the MAC Addresses labeled near the Ethernet (LAN) port of the cameras. Note: - If more than 20 minutes have passed since the camera was turned on, the camera cannot be set up from the Setup Program. In this situation, restart the camera. - The Setup Program may not list any cameras due to your firewall or antivirus soft-ware settings on your PC. If you cannot disable your firewall or antivirus software, you can set up the camera entering the camera MAC address. 4. Click [Automatic setup (Local Access Only)].
Page 28 - For the first time installation or after pressing the Factory Default Reset button, only [Automatic Setup (Local Access Only)] can be selected. To set up the camera with Static or DHCP settings, after performing the [Automatic Setup (Local Access Only)], run the Setup Program again and select [Manual Setup]. 5. Enter the user name and password, and click [Save]. 6. The Enter Network Password window is displayed. Enter the user name and password that were set, and click [OK].
Page 29 7. To set the Wireless Configuration, check [Enable] and click [Next>]. - When [Disable] was selected, skip to step 9. - The Wireless Configuration can also be set at [wireless] in the Setup Page. 8. Set the Wireless Configuration.
Page 30 9. When the Single Camera page is displayed, the setup is completed. - If Security Warning window is displayed to install ActiveX Controls, click [Yes].
Page 31 - The image is a simulated screen image. Note: Check [Every visit to the page] for "Temporary Internet files" on your web browser. If it is not checked, the camera may display old images. 9. Click [Next] to set up the Internet access to the camera and go to step on the next page..
Page 32 - Click [Cancel] and go to 7.6. CONFIRMING THE WIRELESS LANSETUP , if you mount the camera. 7.5. TO SET UP INTERNET ACCESS TO THE CAMERA 1. Select the camera on the camera list to set up the Internet access and click [Execute]. - This program searches for the cameras that are connected to the router and displays the MAC Addresses, IP addresses and Port Numbers. - When searching for multiple cameras, the cameras can be identified with the MAC Addresses labeled near the Ethernet (LAN) port of the ...
Page 33 cameras. Note: If more than 20 minutes have passed since the camera was turned on, the camera cannot be set up from the Setup Program. In this situation, restart the camera. 2. Click [Automatic Setup (Internet Access)]. - For the first time installation or after pressing the Factory Default Reset button, only [Automatic Setup (Local Access Only)] can be selected. To set up the camera with Static or DHCP settings, after performing the [Automatic Setup (Local Access Only)], run the Setup Program again and select [Manual Setup]. 3. The Enter Network Password window is displayed. Enter the username and password that were set, and click [OK].
Page 34 4. To enable access over the Internet, check [Enable]. Not to enable access over the Internet, check [Disable]. And click [Next>]. - If you select [Disable], skip to step 8. Registration with the "Viewnetcam.com FREE DDNS service" By registering with the Viewnetcam.com FREE DDNS service, you can create a personalized web address at which your camera's live video can always be found on the Internet. For detailed information, access "http://www.viewnetcam.com". 5. To register with the "Viewnetcam.com FREE DDNS service", check [Register with Viewnetcam.com] and click [Next>].
Page 35 - When [Do not register with Viewnetcam.com] was selected at step 5, skip to step 8. 6. The Enter Network Password window is displayed. Enter the user name and password that were set, and click [OK]. 7. After a while, the "Viewnetcam.com FREE DDNS service" website is displayed. Follow the displayed instructions for registration. - If the message "Failed to configure the router's Port Forwarding by UPnP" is displayed, your router may not support UPnP or UPnP is not enabled. Enable your router's UPnP or set Port Forwarding manually following the router's manual and try Automatic Setup again. For more information about setting up a router, refer to the Panasonic Network Camera support web-site at http://panasonic.co.jp/pcc/products/en/ netwkcam. - If the message "Failed to register with Viewnetcam.com." is displayed, con-firm that the router is connected to the Internet. 8. When "Setup complete" is displayed, click [To Single Camera page]. - When [Enable] was selected at step 4. - When [Disable] was selected at step 4.
Page 36 Note: - The port number must be specified at the end of camera URL. For example Using port 80: http://(Cameraname).viewnetcam.com or http://IP Address Using any other port: http://(Cameraname).viewnetcam.com:Port Number or http://IP Address:Port Number - The URL for the local network access may be different from the one set up on the previous page. 9. When the Single Camera page is displayed, the setup is completed. - If Security Warning window is displayed to install ActiveX Controls, click [Yes]. - The image is a simulated screen image. Note: Check [Every visit to the page] for "Temporary Internet files" on your web browser. If it is not checked, the camera may display old images.
Page 37 7.6. CONFIRMING THE WIRELESS LANSETUP After setting each item for the wireless LAN, confirm that the camera works correctly. 1. Unplug the Ethernet cable and turn off the power (disconnect the AC plug). 2. Set the switch on the bottom of the camera to wireless. 3. Turn on the power by connecting the AC plug to the power outlet. - The camera switches from wired to wireless. 4. Start up the web browser on the PC. 5. Enter "http://IP address (or URL):Port No." in the address field and press [Enter]. (When port number is 80 (default), you do not need to enter port number.) - When the following Top Page is displayed, the wireless LAN setup is successful. - If the Top Page was not displayed, the settings for the camera are not identical with those for the router. Check the settings by using wired connection. If the settings are correct and you use a proxy server, set the web browser not to access the proxy server. If the Top Page is not displayed even after trying these methods, contact the retailer. - It takes about 1 minute for the new settings to be effective. - It is not possible to access the camera simultaneously by both wired and wireless connection. - Enter both the MAC addresses for the camera itself and the camera’s wireless module to enable the MAC address filtering ...
Page 38 feature on the wireless router. The wireless module MAC address is one value higher than the camera MAC address. 8. DISASSEMBLY INSTRUCTIONS 8.1. HOW TO REMOVE RF BOARD 1. Remove two Screws (A). And remove the Cabinet Cover. 2. Remove Screw (B) and Antenna Cable.
Page 39 3. Remove Antenna Cable from RF Board, and remove RF Board from Cabinet body. 8.2. HOW TO REMOVE MAIN BOARD AND I/O BOARD - 1-3 are the same as 8.1. HOW TO REMOVE RF BOARD. 4. Remove three Screws (B). 5. Remove Main Board and I/O Board form Cabinet Body.
Page 40 6. Remove Sub Flat Cable from Main Board. 7. Remove Main Board from I/O Board. 8.3. HOW TO REMOVE SUB BOARD - 1-3 are the same as HOW TO REMOVE RF BOARD. - 4, 5 are the same as HOW TO REMOVE MAIN BOARD AND I/O BOARD. 6. Remove two Screws (B). 7. Remove Antenna from Cabinet Body.
Page 41 8. Remove six Screws (B). 9. Remove Eye Block, Pan Motor Angle, Connect Angle and Washer. 10. Remove two Screws (B). 11. Remove Sub Flat Cable from Sub Board. 8.4. HOW TO REMOVE LENS UNIT - 1-3 are the same as 8.1. HOW TO REMOVE RF BOARD. - 4, 5 are the same as 8.2. HOW TO REMOVE MAIN BOARD AND I/O BOARD. - 6-9 are the same as 8.3. HOW TO REMOVE SUB BOARD.
Page 42 10. Remove two Screws (B). 11. Remove Tilt Motor Unit from Eye Block. 12. Remove two Spacers, Pan Gear and Pan Motor Unit from Eye Block. 13. Remove two Screws (B). 14. Remove Eye Left Cover, Eye Center Cover and Eye Right Cover from Eye Block. 9. THE CAUTIONS AT THE TIME OF ASSEMBLY 9.1. SUB FLAT CABLE INSERTION INSTRUCTION Put together Lens Button, Button Sheet, and Sub Board in a Cabinet Body, and fix with screws (B). Insert Sub Flat Cable into connector.
Page 43 9.2. ASSEMBLING INSTRUCTION OF WASHERS Attach Pan Motor Angle, Connect Angle, and washer to Cabinet Body and fix with screws (B). Caution After work, check visually that a spring washer is attached without fail.
Page 44 9.3. ASSEMBLING INSTRUCTION OF EYE BLOCK Insert Spacer into the boss of Eye Right Cover, then fix with Eye Left Cover and Screws (B). Caution After inserting the Spacer, the Lens Unit should be in the Eye Right Cover position for assembly to prevent the Spacer from dropping out.
Page 45 9.4. ASSEMBLING INSTRUCTION OF PAN MOTOR UNIT CABLE 1. Insert the Sub Flat Cable into the Main Board, and mount the Main Board and the Sub Board to the Cabinet Body and fixing it with Screws. 2. Insert the Cable of the Pan Motor to the Jig Board and turn on the power to of the board to check the home position operation of the Pan. If a step-out occurs during the home position operation, it is judged as being NG. After the check, take out the Pan Motor Cable.
Page 46 3. Insert the Cable of the Pan Motor to the Main Board 9.5. ASSEMBLING INSTRUCTION OF ANTENNA Mount the Antenna to the Cabinet Body and fix it with Screws (B).
Page 47 9.6. ASSEMBLING INSTRUCTION OF ANTENNA CABLE 1. Check that the Motor Cable is inserted properly. 2. Check the alignment of the Motor Cable.
Page 48 10. TROUBLE SHOOTING 10.1. STARTING UP OPERATION...
Page 49 *1 It does not turn on, when LED mode is "OFF" on web setup menu.
Page 50 *1 It does not turn on, when LED mode is "OFF" on web setup menu. 10.2. LED CIRCUIT CHECK...
Page 51 10.3. LAN BLOCK CHECK 10.3.1. Green Light On...
Page 52 10.3.2. Orange Light Blinking (1)
Page 53 10.3.3. Orange Light Blinking (2)
Page 54 10.4. CAMERA BLOCK CHECK...
Page 55 10.5. POWER SUPPLY BLOCK CHECK...
Page 56 10.5.1. Short Term Power Cut Detection Circuit Check...
Page 57 10.6. OTHER OPERATION CHECK 10.6.1. PAN Operation Check 10.6.2. TILT Operation Check...
Page 58 10.7. PYROELECTRIC INFRARED SENSOR CHECK...
Page 59 10.8. RF BLOCK...
Page 60 10.9. THE INSPECTION AFTER THE REPAIR Inspect the following items after the repair. - Confirm the status (specially MAC Address) refer to CONFIRMING THE STATUS. - PAN/TILT operation - Pyroelectric Infrared Sensor - Video quality 10.10. CONFIRMING THE STATUS When turning on the power, CPU makes a check using the self-diagnosis function. Check being able to the access to the devicedescribed below. When the self-diagnosis function of the device described below is NG turning on the power, CPU makes a check using the LEDindicator red-blinks.
Page 61 10.11. UPDATE FIRMWARE 10.11.1. Firmware Trouble Shouting The firmware updating is not completed due to power off, network failure or other causes.
Page 62 11. THE WAY OF THE INITIALIZE 11.1. FACTORY DEFAULT RESET BUTTON The camera has a FACTORY DEFAULT RESET button on the bottom.
Page 63 Pressing the FACTORY DEFAULT RESET button resets the camera to factory default. If you lose your user name and password, use this button to reset the camera. - Press the FACTORY DEFAULT RESET button for 1 second when the camera is on. - See Operating Instructions for default settings. - The indicator blinks orange, and then turns off for 10 seconds. - Do not turn off the camera until the indicator lights green. Note: - The Internal clock will not be reset, but the time format will return to AM/ PM mode. Set it again. - All buffered images are deleted when resetting the camera to factory default. - The reset operation takes about 1 minute. 11.2. RESETTING THE CAMERA TO FACTORY DEFAULT All camera settings are reset to factory default directly after the Execute button is clicked. 1. Click [Reset to Factory Default] on the Maintenance page. 2. Click [Execute].
Page 64 - The indicator blinks orange, and turn off for 10 seconds. - All camera settings (user name, password, IP address, subnet mask etc.) are reset to factory default. - If the camera is reset to factory default, the network connection mode changes to [Automatic Setup]. Reconfigure the camera seeing the Getting Started. Note: - Internal clock will not be reset, but the time format will return to AM/PM mode. Set it again. - Please refer to Operating Instructions for default settings. - Pressing FACTORY DEFAULT RESET button resets the camera to the factory default. - All buffered images are deleted when resetting the camera to factory default. - The reset operation takes about 1 minute. - Do not turn off the camera during the reset operation. 12. NETWORK CAMERA BL-C30 BLOCK DIAGRAM 13. CIRCUIT DESCRIPTION 13.1. MAIN BOARD...
Page 65 13.1.1. CPU Block CPU (IC101) Operating Power Supply: 3.3V (for I/O) 1.8V (for Core) 1.8V (for Inside PLL) 2.8V (Camera I/O) Package: 144 pin QFD Internal Component: 32bit RISC ARM720T, Hardware JPEG Encoder, Memory Controller, 10/100Base Ethernet MAC, I2C I/F, Serial I/F, SRAM (48KB) and etc are built-in. Outline of Operation: All system Control and image data from the camera is changed to JPEG data. Then, it is changed to packet and sent out from Ethernet I/F. 32.786 KHz is entered as External Clock and increase at Internal PLL. Then, it operates at 48.955 MHz. Flash Memory (IC102) and SDRAM (IC103) are accessed by CPU Bus. CMOS sensor (IC701) and Real Time Clock IC (IC104) on the Camera Block are accessed by I2C I/F. Ethernet PHY (IC201) is accessed by MII (Media Independent Interface) I/F. FLASH MEMORY (IC102) Operating Power Supply: +3.3V Package: 48 pin Ball CSP Capacity: 16Mbit Access Time: 70ns Outline of Operation: Stores programs for CPU operation, MAC address and customer setup data. Version up is available from Ethernet I/F. SDRAM (IC103) Operating Power Supply: +3.3V Package: 54 pin TSOP Capacity: 64Mbit Outline of Operation: Stores the memory for CPU work and temporary saved images. RESET IC (IC105) Reset voltage: 2.9V Package: 4 pin SOP Outline of Operation: When 3.3V power starts up, it emits about 150ms reset pulse after detecting 2.9V. Clear Setting Button (SW104) Outline of Operation: It is possible to bring back the setting value of a Network Camera to a factory- shipments state, when you push. GPI0 - Motor (PAN/TILT) Operation - Clear Setting SW - Privacy Mode SW - I2C - LED...
Page 66 - Pyroelectric Infrared Sensor - Short Term Power Cut Detection Port No. IC101 PIN No. Usage Description GPIOA0 TXD0 Serial(Not in use.) GPIOA1 RXD0 Serial(Not in use.) GPIOA2 PAN Motor 1 PAN Motor Control GPIOA3 PAN Motor 2 PAN Motor Control GPIOA4 PAN Motor 3 PAN Motor Control GPIOA5 PAN Motor 4 PAN Motor Control GPIOA6 I2C(SCL) I2C I/F(Clock) GPIOA7 I2C(SDA) I2C I/F(Data) GPIOB0 RF_P1 For RF Port Input(Application is not decided) GPIOB1 Serial(Not in use.) GPIOB2 Serial(Not in use.) GPIOB3 CLEAR SETTING Switch SW104 GPIOB4 Short Term Power Cut Detection Interruption...
Page 67 Port No. IC101 PIN No. Usage Description GPIOD7 Camera I/F(CMCLKIN) For Camera Data Input Pixel Clock GPIOE0 LED_R LED Control(Red) GPIOE1 LED_G LED Control(Green) GPIOE2 TILT Motor 1 TILT Motor Control GPIOE3 TILT Motor 2 TILT Motor Control GPIOE4 TILT Motor 3 TILT Motor Control GPIOE5 TILT Motor 3 TILT Motor Control GPIOE6 LENS Button SW801 GPIOE7 Reset For IC201(PHY) GPIOF0 MII I/F (MII_CRS) For IC201(PHY) Connection GPIOF1 MII I/F (MII_COL) For IC201(PHY) Connection GPIOF2 MII I/F (MII_TXD3) For IC201(PHY) Connection ...
Page 68 13.1.3. Camera Block <Basic Circuit Operation> This CMOS image sensor which consolidates sensor section and image process DSP by the 0.35umCMOS process consists of one chip. Each pixel which consists of four transistors has a micro lens for increased sensibility. It changes optical energy to analogue voltage. After that, analogue pixel voltage is converted into digital using the 10 bit AD Converter (ADC). At that time, Correlated Double Sampling (CDS) dramatically decreases Formulaic Pattern Noise (FPN). Analogue pixel voltage data which is converted to digital is finished using Gammacorrection, Color Correction and Color Space Conversion. Those signals are sent out as digital format 8bit span Y/UV with PCLK, Hsync and Vsync signals as a timing interface. In addition, the Image Processing Function of AE (Auto Iris) and AWB (Auto White Balance) is installed and it is automatically operated following an algorithm in the chip. Exposure control (Auto Iris) is adjusted by shutter speed. Setting up of each chip register is set at I2C (IC701:22/23 pin) by CPU (IC101) on Main Board. CMOS Color Image sensor (IC701) Operating Power Supply: +2.8V It is supplied by Main Board. (3 Terminal Regulator IC51) - +2.8VA: Analogue Part Power - +2.8VD: Digital Part Power Package: 40pin CLCC Image Sensor and its Process Circuit are installed. Total Number of Pixels: 652 x 492 pixels Available Number of Pixels: 652 x 488 pixels Image Area: 1/4 inch Optical Size Color Filter: RGB Beyer Alignment Input Clock: 16.318 MHz (It is supplied by IC101 of Main Board)
Page 69 1. PGA: Programmable Amplifier 2. Color Correction and Color Space Conversion are merged into one matrix operation for hardware simplification. Detail Circuit Diagram is showed as below.
Page 70 13.1.4. Power Supply Block Power Supply Block provides power that each block consumes. Input is DC 9V/500mA from AC adaptor. The circuit diagram and output voltage are showed as below.
Page 71 13.1.5. RTC Real Time Clock (IC104) Operating Power Supply: 3.3V (3V battery for back up) Package: 14 pin SOP Outline of Operation: Stores Clock Data and supplies 32.768 KHz Clock Signal to CPU (IC101). Backup Battery provides power when power supply is out. Lithium Battery (BAT1) Output Voltage: 3V Capacity: 125mAh Outline of Operation: A backup power supply for Real Time Clock (IC104). 13.1.6. Pyroelectric Infrared Sensor Block Pyroelectric Infrared Sensor (IC801) Operating Power Supply: +3.3V...
Page 72 Package: 3 pin Board Insertion Type Changes temperature variation into analogue signal which it emits, when a heat source, such as a person, comes into detection area. The analogue signal is amplified by Operational Amplifier (IC802). 2 Circuits Built-in Operational Amplifier (IC802) Operating Power Supply: +3.3V Package: 8 pin SSOP Amplifies analogue signal from Pyroelectric Infrared Sensor (IC801). The amplified analogue signal goes into Comparator (IC803). 2 Circuits Built-in Comparator (IC803) Operating Power Supply: +3.3V Package: 8 pin SSOP Composes Window Comparator Circuit. It generates digital signal (H L) to CPU, when the amplified analogue signal from Operation Amplifier is over stipulated voltage. (Standard value is about 0.6~1.6V.) Operation of Pyroelectric Infrared Sensor 1. Pyroelectric Infrared Sensor (IC801) emits analogue signal, when a heat source, such as a person, moves into the detection area. 2. Above signal is amplified by Operation Amplifier (IC802) which emits analogue signal. 3. Above signal is input to Comparator (IC803) and generates digital signal (H L), when signal amplitude is over standard voltage. 4. Above digital signal is input to CPU (IC101). 13.1.7. PAN Control Block A pan motor operates, when CPU (IC101) on a Main Board controls the Motor Driver IC (IC402) on the same board. A Constant Voltage Bipolar Drive System is employed. The Voltage of Motor Power (VM) is 3.3V. ø15 Stepping Motors are employed.
Page 73 13.1.8. TILT Motor Control Block A Tilt motor operates, when CPU (IC101) on a main board controls the motor driver IC (IC402) on the same board. A Constant Voltage Bipolar Drive System is employed. The Voltage of Motor Power (VM) is 3.3V. ø15 Stepping Motors are employed. 13.1.9. LED Control Block LED is controlled by CPU which is mounted on Main Board. Control data is input into LED Control Circuit which is mounted on Sub Board. (Three color LED is employed.) LED_R LED_G Color of LED Green Orange 13.2. RF BLOCK - Antenna - Receiver The receiving signal from the antenna is input to the RFIC (IC502) after being passed through the Antenna Switch (IC506) and amplified at LNA (Low Noise Amp). The RFIC (IC502) incorporates the LNA (Low Noise Amp), the Mixer for Frequency Converter and the Synthesizer generating the Receiving Local Signal. At the RFIC (IC502), the input signal is separated into the baseband signals of the In- Phase(RxI) and Quadrature (RxQ) to output.
Page 74 The baseband signal is input to the CPU&MAC/BBIC(IC601) and, after A/D conversion, the data are regenerated. - Transmitter The Data Frame (Data Packet) generated at the built-in MAC Part by the CPU&MAC/BBIC (IC601) is converted to the In-Phase (TxI) and the Quadrature (TxQ) and input to the RFIC (IC502). At the RFIC (IC502), it is converted to the RF Signal of the transmitting frequency band. After processing including impedance conversion, level adjustment and control of the unnecessary frequency component, it is sent from the antenna through the Antenna Switch (IC506). The RF Signal from the Power Amp (IC505) is fed back to the RFIC (IC502) after level detection. The gain is adjusted in the RFIC (IC502) for a constant transmitter output level. 14. IC DATA 14.1. IC2...
Page 75 Pin No. Pin Name Description Chip enable terminal ("H" ACTIVE) GND terminal VOUT Output voltage monitoring terminal (FFB) External Tr drive terminal (CMOS output) Power input terminal 14.2. IC51, 52 Pin No. Pin Name Description Power input terminal Ground terminal ON/OFF control terminal No connection VOUT Output terminal 14.3. IC101...
Page 77 Pin No. Pin Name Type Pin No. Pin Name Type MA14 MII_COL MA15 MII_TXD3 MA16 MII_TXD2 MA17 MII_TXD1 MA18 LVDD MII_TXD0 MA19 MII_TXEN MCS2# MII_TXCLK MCS1# MII_RXER MCS0# LVDD HVDD1 MOE# MII_RXCLK MWE0# MII_RXDV MWE1# MII_RXD0 HVDD1 MII_RXD1 MCLKEN LVDD MCLK MII_RXD2 MII_RXD3 MRAS# MII_MDC MCAS# MII_MDIO...
Page 78 MII_CRS GPIOB1...
Page 79 Pin No. Pin Name Type GPIOB2 GPIOB3 LVDD GPIOB4 GPIOB5 GPIOB6 GPIOB7 CMHREF CMVREF CMCLKIN CMCLKOUT CMDATA0 CMDATA1 HVDD2 CMDATA2 CMDATA3 CMDATA4 CMDATA5 CMDATA6 CMDATA7 LVDD GPIOD0 GPIOD1 CFCE2# CFCE1# CFIORD# CFIOWR# CFIREQ CFRST HVDD1 CFWAIT# CFSTSCHG# CFDEN# Pin No. Pin Name Type CFDDIR HVDD1 MA10 LVDD...
Page 80 MA13 Note: The terminal name marked with a "#" has an active low signal. 14.4. IC102...
Page 81 48-Ball CSP (Ball Pitch=0.8mm) Top View, Balls Facing Down (8 x 13mm for MX29LV160T/B; 6 x 8mm for MX29LV160AT/AB)
Page 82 14.5. IC103...
Page 84 14.6. IC104...
Page 85 Pin No. Pin Name Description Inputs I2C-BUS communications serial clock. Inputs/Outputs address, data, and acknowledges bit is in synchronization with I2C-BUS communications serial clock. This terminal is an open drain on output. Connect the proper pull-up resistor depending on the signal line capacity. FOUT This is a C-MOS output terminal with the output controlled by FOE. In case of FOE = "H", FOUT outputs at 32.768kHz. When no output , FOUT is at the "L" level. This is an input terminal that controls the FOUT output state. When this terminal is at the "H" level, FOUT becomes the output state. And when this terminal is at the "L" level, FOUT stops. /INT Outputs an interrupt signal such as the Alarm, Timer, and Time Update. This terminal is an open drain terminal. Connects to +(positive) power supply. (VDD) Same potential as VDD, but do NOT connect externally. Note: RX-8581SA (SOP-14pin) does not have this terminal. Connects to ground. 4, 6, 8, 9, N.C. Not connected to the internal IC. 12, 13 OPEN, or connect to GND or VDD. Note: Make sure that the 14pin~|22pin in RX-8581NB (SON- 22pin) ,which are the N.C. terminals, are mutually connected by an inner cone. Note: Be sure to connect a bypass capacitor of more than 0.1 F to the nearest terminal between VDD and GND.
Page 86 14.8. IC201...
Page 88 Pin No. Pin Name Description TP_RXN Twisted-Pair Receive (Data) Negative. TP_RXP Twisted-Pair Receive (Data) Positive. TP_TXN Twisted-Pair Transmit (Data) Negative. TP_TXP Twisted-Pair Transmit (Data) Positive. P0AC PHY (Address Bit) 0 / Activity LED. P1CL PHY (Address Bit) 1 / Collision LED. P2LI PHY (Address Bit) 2 / Link Integrity LED. P3TD PHY (Address Bit) 3 / Transmit Data LED. P4RD PHY (Address Bit) 4 / Receive Data LED. 10/100SEL 10Base-T / 100Base-TX Select. 10TCSR 10M Transmit Current Set Resistor. 100TCSR 100M Transmit Current Set Resistor. ANSEL Auto-Negotiation Select. DPXSEL I//O Half-Duplex / Full-Duplex Select. HW/SW Hardware/Software (Select). LOCK (Stream Cipher) Lock (Acquired). LSTA Link Status. MII/SI Media Independent Interface / Stream Interface (Select). NOD/REP Node/Repeater (Select).
Page 89 Pin No. MII Pin 100M Description Name Symbol Pin Name Collision (Detect). SCRS Symbol Carrier Sense. Management Data Clock. MDIO MDIO Management Data Input/Output. RXCLK SRCLK (Symbol) Receive Clock. 35 RXD0 SRD0 Symbol Receive Data 0-3. 34 RXD1 SRD1 33 RXD2 SRD2 RXD3 SRD3 RXDV Receive Data Valid. RXER SRD4 Symbol Receive Data 4. RXTRI Receive (Interface), Tri-State. TXCLK STCLK Symbol Transmit Clock. 45 TXD0-3 STD0 ...
Page 90 14.9. IC402 Pin No. Pin Name Description 1ch motor power supply voltage input terminal OUT1A H-bridge output terminal (1A) PGND GND terminal OUT2A H-bridge output terminal (2A) OUT3A H-bridge output terminal (2A) PGND GND terminal OUT4A H-bridge output terminal (4A) 4ch motor power supply voltage input terminal Control input terminal (H-bridge1) Control input terminal (H-bridge1) Control input terminal (H-bridge2) Control input terminal (H-bridge2) Control input terminal (H-bridge3) Control input terminal (H-bridge3) Control input terminal (H-bridge4) Control input terminal (H-bridge4) OUT4B H-bridge output terminal (4B) PGND GND terminal OUT3B H-bridge output terminal (3B) VM23 2, 3ch motor power supply voltage input terminal...
Page 91 Pin No. Pin Name Description OUT2B H-bridge output terminal (2B) PGND GND terminal OUT1B H-bridge output terminal (1B) Controller power supply voltage input terminal 14.10. IC701...
Page 92 Pin No. Type Symbol Description C[2:0] Video Chrominance Data[2:0] DGNDI Digital Ground for I/O Buffer DVDDI Digital Power for I/O Buffer No Connection 7-14 Y[7:0] Video Luminance Data[7:0] DGNDC Ground for Internal Digital Block DVDDC Power for Internal Digital Block DGNDI Digital Ground for I/O Buffer MCLK Master Input Clock VCLK Video Output Clock HSYNC Video Horizontal Line Synchronization signal. Image data is valid, when HSYNC is high. VSYNC Video Frame Synchronization signal. VSYNC is active at start of image data frame. I2C Standard data I/O port I2C Clock Input DGNDI Digital Ground for I/O Buffer DVDDI Digital Power for I/O Buffer No Connection AVDD Power for Analog Block AGND Ground for Analog Block STROBE Strobe Signal Output RESETB Sensor Reset, Low Active...
Page 93 Description d (Drain) Power, Drain tarminal s (Source) Source output terminal g (Ground) Ground terminal 14.12. IC802...
Page 94 Pin No. Pin Name Description OUTPUT -INPUT +INPUT +INPUT -INPUT OUTPUT 14.13. IC803...
Page 95 Pin No. Pin Name Description OUTPUT -INPUT +INPUT +INPUT -INPUT OUTPUT 14.14. IC804...
Page 96 Pin No. Pin Name Function VOUT Regulated voltage Output Ground Supply Voltage Input 15. TERMINAL GUIDE OF ICS, TRANSISTORS AND DIODES...
Page 97 16. HOW TO REPLACE A FLAT PACKAGE IC 16.1. PREPARATION - PbF (: Pb free) Solder - Soldering Iron Tip Temperature of 700°F ± 20°F (370°C ± 10°C) Note: We recommend a 30 to 40 Watt soldering iron. An expert may be able to use a 60 to 80 Watt iron where someone with less experience could overheat and damage the PCB foil. - Flux Recommended Flux: Specific Gravity 0.82. Type RMA (lower residue, non-cleaning type) Note: See ABOUT LEAD FREE SOLDER (PbF: Pb free) (). 16.2. PROCEDURE 1. Tack the flat pack IC to the PCB by temporarily soldering two diagonally opposite pins in the correct positions on the PCB.
Page 98 Be certain each pin is located over the correct pad on the PCB. 2. Apply flux to all of the pins on the IC. 3. Being careful to not unsolder the tack points, slide the soldering iron along the tips of the pins while feeding enough solder to the tip so that it flows under the pins as they are heated. 16.3. REMOVING SOLDER FROM BETWEEN PINS 1. Add a small amount of solder to the bridged pins. 2. With a hot iron, use a sweeping motion along the flat part of the pin to draw the solder from between the adjacent pads.
Page 99 17. CABINET AND ELECTRICAL PARTS LOCATION 18. ACCESSORIES AND PACKING MATERIALS...
Page 100 19. REPLACEMENT PARTS LIST Note: 1. RTL (Retention Time Limited) The marking (RTL) indicates that the Retention Time is limited for 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 ...
Page 101 governing parts and product retention. At the end of this period, the assembly will no longer be available. 2. Important safety notice Components identified by the mark indicates special characteristics important for safety. When replacing any of these components, only use specified manufacture's parts. 3. The S mark means the part is one of some identical parts. For that reason, it may be different from the installed part. 4. ISO code (Example : ABS-94HB) of the remarks column shows quality of the material and a flame resisting grade about plastics. 5. RESISTORS & CAPACITORS Unless otherwise specified; All resistors are in ohms ( ), k=1000 , M=1000k All capacitors are in MICRO FARADS ( F), p= ( F) *Type & Wattage of Resistor 19.1. CABINET AND ELECTRICAL PARTS...
Page 102 SPACER PSMH1273Z ANGLE PSJE1042Z LEAD WIRE,SUB FLAT CABLE PSMH1275Z ANGLE PSKM1117V1 CABINET BODY ABS-V0 PSMH1291Z ANGLE PSKF1087Y1 CABINET COVER ABS-V0 PSBD1017Z1 KNOB,SLIDE PSHA1014Z RUBBER PARTS,LEGS PSGT2655Z NAME PLATE(FOR BL-C30CE) PSGT2656Z NAME PLATE(FOR BL-C30E) PSME1009Z COVER PSQT2101Z JACK LABEL PSQT2141Z CE LABEL PSMX1027Z INSULATOR PSHR1323Y GUIDE,PAN GEAR ABS-HB PSHX1236Z SPACER PSKE1074Z1 EYE LEFT COVER ABS-V0 PSKV1043Z1 ...
Page 103 Ref. No. Part No. Part Name & Description Remarks A1 PQLV202X AC ADAPTOR A2 PFJA02A006Z POWER CORD(FOR BL-C30CE) A2 PSJA1106Z POWER CORD(FOR BL-C30E) A3 PQHE5004Y SCREW A4 XWG35FJ WASHER A5 XZB05X08A03 PROTECTION COVER(FOR SCREWS) A6 PSQX3601ZCD INSTRUCTION BOOK,CD-ROM A7 PSQW2348Z LEAFLET(FOR BL-C30CE) A7 PSQW2274Y LEAFLET(FOR BL-C30E) A8 PSQW2314Z LEAFLET(FOR BL-C30CE) A9 PSQW2284Z LEAFLET ...
Page 104 Ref. No. Part No. Part Name & Description Remarks C103 ECJ0EF1C104Z C104 ECJ0EF1C104Z C105 ECJ0EF1C104Z C106 ECJ0EF1C104Z C107 ECJ0EF1C104Z C108 ECJ0EC1H101J 100p C109 ECJ0EF1C104Z C110 ECJ0EC1H101J 100p C111 ECJ0EF1C104Z C112 ECJ0EC1H101J 100p C113 ECJ0EF1C104Z C115 ECJ0EC1H101J 100p C116 ECJ0EF1C104Z C117 ECJ0EF1C104Z C118 ECJ0EF1C104Z C119 ECJ0EC1H101J 100p ...
Page 105 C162 ECJ0EC1H121J 120p ...
Page 106 Ref. No. Part No. Part Name & Description Remarks C163 ECJ0EC1H121J 120p C164 ECJ0EC1H121J 120p C165 ECJ0EC1H121J 120p C166 ECJ0EC1H121J 120p C167 ECJ0EC1H221J 220p C202 ECJ0EC1H101J 100p C203 ECJ0EC1H101J 100p C204 ECJ0EC1H101J 100p C205 ECJ0EC1H101J 100p C206 ECJ0EC1H101J 100p C207 ECJ0EC1H101J 100p C208 ECJ0EF1C104Z C209 ECJ0EC1H270J ...
Page 108 Ref. No. Part No. Part Name & Description Remarks (COILS AND CERAMIC FILTER) L61 G1A220GA0005 COIL L101 G1C100K00031 COIL L102 J0JCC0000368 CERAMIC FILTER L103 EXC28BA221U CERAMIC FILTER L104 EXC28BA221U CERAMIC FILTER L105 EXC28BA221U CERAMIC FILTER L106 EXC28BA221U CERAMIC FILTER L107 J0JCC0000368 CERAMIC FILTER L108 J0JCC0000368 CERAMIC FILTER L109 J0JCC0000368 CERAMIC FILTER L110 J0JCC0000368 CERAMIC FILTER L111 J0JCC0000368 CERAMIC FILTER ...
Page 109 R137 ERJ2GEJ102 1k ...
Page 110 Ref. No. Part No. Part Name & Description Remarks R138 ERJ2GEJ103 10k R139 ERJ2GEJ103 10k R148 ERJ2GEJ103 10k R149 ERJ2GEJ103 10k R150 ERJ2GEJ103 10k R151 ERJ2GEJ103 10k R152 ERJ2GEJ103 10k R153 ERJ2GEJ103 10k R154 ERJ2GEJ103 10k R155 ERJ2GEJ103 10k R157 ERJ2GEJ470 R160 ERJ2GEJ103 10k R161 ERJ2GEJ103 ...
Page 111 Ref. No. Part No. Part Name & Description Remarks (CRYSTAL OSCILLATOR) X201 H0J250500028 CRYSTAL OSCILLATOR (OTHERS) PSHX1228Z PLASTIC PARTS 19.4. I/O BOARD PARTS Ref. No. Part No. Part Name & Description Remarks PCB2 PSWP2C30CE I/O BOARD ASS’Y (RTL) (ICS) IC2 C0DBAGZ00046 IC (TRANSISTORS) IC1 B1DHCD000018 TRANSISTOR(SI) Q1 PQVTDTC143E TRANSISTOR(SI) S (DIODES) D1 MA736 DIODE(SI) S D2 MA3082 DIODE(SI) S D3 ...
Page 112 Ref. No. Part No. Part Name & Description Remarks R1 ERJ3GEYJ103 10k R2 ERJ3GEYJ100 R3 ERJ3GEYJ244 240k R4 ERJ3GEYJ122 1.2k R5 ERJ3GEYJ750 R6 ERJ3GEYJ750 R8 ERJ3GEYJ750 R9 ERJ3GEYJ750 R10 ERJ3GEYJ100 R12 ERJ2GEJ101 R13 ERJ2GEJ272 2.7k (VARISTORS) SA1 D4ZZ00000024 VARISTOR (SAUGE ABSORBER) SA2 D4ZZ00000024 VARISTOR (SAUGE ABSORBER) SA3 D4ZZ00000024 VARISTOR (SAUGE ABSORBER) SA4 ...
Page 113 Ref. No. Part No. Part Name & Description Remarks C812 ECJ0EB1A104K 0.1 C814 ECJ3YF1A106Z 10 C815 ECJ0EF1C104Z 0.1 C816 ECUV1E104ZFV 0.1 C818 ECJ3YF1E105Z 1 Ref. No. Part No. Part Name & Description Remarks C819 ECJ0EB1H102K 0.001 PCB3 PSWP3BLC10N SUB BOARD ASS’Y (RTL) (CONNECTOR) (ICS) CN801 PQJS15A94Z CONNECTOR,15P S IC801 L2CD00000021 PHOTO ELECTRIC TRANSDUCER IC802 C0ABBA000025 IC (COIL) IC803 ...
Page 114 21. SCHEMATIC DIAGRAM 21.1. WAVEFORM 22. CIRCUIT BOARD 22.1. MAIN BOARD (COMPONENT VIEW) 22.2. MAIN BOARD (BOTTOM VIEW) 22.3. I/O BOARD (COMPONENT VIEW) 22.4. I/O BOARD (BOTTOM VIEW) 22.5. SUB BOARD (COMPONENT VIEW) 22.6. SUB BOARD (BOTTOM VIEW) 22.7. LENS BOARD (COMPONENT VIEW) 22.8. LENS BOARD (BOTTOM VIEW) 22.9. RF BOARD (COMPONENT VIEW) 22.10. RF BOARD (BOTTOM VIEW) A / BLC30CE/E...
Page 115 TP_GND C685 C635 C632 C696 C697 C693 L657 C636 C613 PSUP1461Z C619 C614 C617 C601 C633 C608 C694 C605 C686 C615 C606 C643 C616 C646 C695 L642 C628 L641 R644 C645 R645 R646 IC604 C644 L661 IC641 R641 C641 Q641 Q651 C637 R642...
Page 116 R604 C678 L658 LED601 C698 C676 TP11 R623 R621 C679 R622 L654 R620 X502 R628 R603 nTRST R602 C531 R605 C618 C631 C523 C530 R516 C526 C536 C524 IC601 R629 R631 R625 R624 R630 R632 L601 C547 W_LINK R626 L506 R519 C620 C626...
Page 117 +2.8V +2.8VD GND C701 +2.8VA L701 C702 C725 C726 PSUP1452Z BL-C30 LENS BOARD...
Page 118 C715 L702 C716 C714 C712 C724 C719 C720 BL-C30 LENS BOARD...
Page 119 TP_IROUT TP_MIN TP_MG TP_A3.3V TP_LED_G R810 Q802 SW801 C814 TP_FRST R880 C815 C810 R814 C811 R807 C812 R819 R812 R813 C809 C883 R890 C819 TP_CTS C887 TP_TXD R806 R881 C878 IC851 IC801 TP_RTS TP_D3.3 R803 TP_GND2 TP_FVPP C804 C805 R802 R804 TP_SEN BL-C30 SUB BOARD...
Page 120 C852 R852 SA851 C851 R855 C853 R856 C855 C854 R857 C863 C864 C858 R867 IC853 R866 R859 C860 IC854 C816 R858 R874 R877 C857 C873 R868 C865 C817 TP_GND4 R869 R870 R873 IC855 R882 C875 J801 C880 R886 TP_FIL2 R820 R883 R871 C869...
Page 121 BL-C30 I/O BOARD...
Page 122 BAT1 +3.3V PSUP1499Z DCIN BL-C30 I/O BOARD...
Page 123 CN402 C424 C423 C419 L404 C130 C111 R117 C108 TP+2.8V C129 C110 C109 C107 L107 R106 R107 R108 R157 R111 IC101 R112 R128 nSRST C157 C126 C146 C141 C140 C144 C124 C127 C142 C145 C139 C125 C208 C222 C211 TP_GND2 C220 C202 IC201...
Page 124 C402 C417 C415 C418 C143 IC402 Q402 PSUP1498Z Q401 R403 C404 RA401 R402 C408 RA110 RA108 C148 C416 L411 R131 L408 C149 RA109 R404 C147 R123 R164 C151 R165 R109 R152 C123 C128 L101 R124 RA111 R122 L106 R162 C116 R139 C210 R145...
Page 125 100M Communication 10M Communication 100M Communication 10M Communication...
Page 127 100M Communication (HUB Connection) 10M Communication (HUB Connection) Measurement Conditions (Heat Source Temperature: 40 C Set Distance: 10cm Moving Velocity: 300mm/sec)
Page 128 VRF33 AGND M1_RESET_L M0_MDIO M0_MDC RXD[3] RXD[2] RXD[1] RXD[0] RA651 RXD[0-3] RXD[0-3] C664 RXD2 VDD16 0.1u RXD1 VDD15 RXD0 TP_RXN RA653 RXDV TP_RXP M1_RXDV C657 VDD_IO37 VSS12 M1_RXC 0.1u VSS11 RXCLK M1_RXERR RXER 100TCSR M1_TXC 10TCSR VSS40 C665 RXTRI VDD8 R651 0.1u VDD7...
Page 129 C671 LAN_RXN 0.1u C670 0.1u AGND C672 LAN_RXP C673 0.1u LAN_TXN 0.1u C674 LAN_TXP 0.1u PHYCP AGND +3.3VM CN601 RF_nRST Q651 R674 R680 S_RX ETHER_LINK Q652 R678 R679 S_TX AGND LAN_TXN LAN_RXP LAN_TXP LAN_RXN AGND BL-C30 RF BOARD No.3 (2/2)
Page 130 CORE_VDD IO_VDD IO_VDD VRFCORE IO_VDD VRFCORE VRFCORE IC601 SD_DATA_20 WF1_TX2 SD_DATA_19 WF1_RFDATAOUT3 WF1_RF_DATAOUT_3 WF1_RFSHIFT WF1_RF_SHIFT SD_DATA_17 WF1_RFLOAD WF1_RF_LOAD SD_DATA_24 R620 SD_DATA_29 SD_DATA_31 AGND_A6 AGND AGND MEM_ADR[4] WF1_ADCP_Q ADC_QP MEM_ADDR_4 MEM_ADR[5] AGND_A8 MEM_ADDR_5 MEM_ADR[6] WF1_ADCN_I ADC_IN MEM_ADDR_6 MEM_ADR[7] AGND_A10 MEM_ADDR_7 WF1_DACP_Q DAC_QP MEM_ADR[9] L601...
Page 131 FL_DATA[0-7] MEM_ADR[0-22] VRF33 C627 IC602 100p MEM_ADR[16] MEM_ADR[17] MEM_ADR[15] nBYTE MEM_ADR[14] VSS2 MEM_ADR[13] MEM_ADR[0] VRF33 DQ15 MEM_ADR[12] FL_DATA[7] MEM_ADR[11] DQ14 MEM_ADR[10] FL_DATA[6] MEM_ADR[9] DQ13 MEM_ADR[20] FL_DATA[5] DQ12 FL_DATA[4] nMEM_WE C628 nRESET 0.1u DQ11 FL_DATA[3] RD/nBY DQ10 FL_DATA[2] MEM_ADR[19] MEM_ADR[18] FL_DATA[1] MEM_ADR[8] MEM_ADR[7] MEM_ADR[6]...
Page 132 WF1_RFRESET_L WF1_RFLOAD WF1_RFSHIFT WF1_RFDATAOUT0 WF1_RFDATAOUT1 WF1_RFDATAOUT2 WF1_RFDATAOUT3 VRF33A RFDATAIN CLK40 VRF25A VRF25D X502 AGND 40MHz VRF25A VRF33VCO AGND AGND XTAL_O VDD2A_64 XBIAS2 VDD3A XBIAS1 GND2A_62 XBIAS2 AGND TXIN_IP WF1_DACP_I BIASREF TXIN_IN WF1_DACN_I VDD2A_21 TXIN_QN WF1_DACN_Q GND2A_22 TXIN_QP WF1_DACP_Q VDD3PA_23 GND2A_57 NC24 IC502 RXOUT_IN...
Page 133 (Waveform 1) (Waveform 2) (Waveform 3-2) (Waveform 3-1) +2.8V CN701 PCLK R703 SIO_C R706 SIO_D R704 VSYNC R707 HSYNC R708 C717 C720 CLKIN 0.1u L710 RESET C718 100p +2.8VA PWDN C707 0.1u L701 Y[0] C708 Y[1] NC26 DGNDC15 100p Y[2] AVDD27 AGND28 C709...
Page 134 +A3.3V TP_MIN TP_FIL1 MIC851 C853 TP_MAMP2 R854 R857 +A3.3V 8200p 150K IC852 TP_MG C855 SA851 C859 OUT_A +A3.3V 330p R860 +A3.3V A_IN B_OUT C864 A+IN B-IN +A3.3V 5600p IC854 R867 B+IN OUT_A C856 A_IN B_OUT 0.1u A+IN B-IN B+IN TP_MAMP1 C868 R873 0.1u...
Page 135 TP_FIL2 R886 +A3.3V IC855 0.015u OUT_A C875 A_IN B_OUT R879 R882 A+IN B-IN R874 B+IN C879 R875 0.1u C873 0.039u R877 nPWD +A3.3V CTS_850 R881 (10) RTS_850 (11) RXD_850 (12) R880 (13) TXD_850 (14) (15) (16) +D3.3V +D3.3V TP_FGND TP_FSCK R887 (17) R888...
Page 136 TP_LED_G +D3.3V TP_D3.3 +D3.3V LED801 R810 TP_LED_R Q801 CN801 SW801 R818 1K R811 Q802 SW802 TP_IROUT CTS_850 TP_TXD TP_CTS TP_RXD TP_RTS RTS_850 10 10 +A3.3V TXD_850 11 11 +A3.3V RXD_850 12 12 IC803 TP_AMP +A3.3V nRST OUT_A 13 13 D801 C806 +12V R805...
Page 137 +12V +3.3V AC_STOP DGND DGND DCIN SHORT TERM POWER CUT DGND DETECTION CIRCUIT DC Jack +3.3V +3.3V 6.8u 240K Vout DGND DGND +12V +12V +3.3V +3.3V AC_STOP PHY_CT DGND DGND TPTX+ TPTX- TPRX+ PHY_CT TPRX- DGND DGND BL-C30 I/O BOARD...
Page 138 CAMERA I/F CAMVDD CN402 R401 CMCLKIN CMVREF CMHREF +3.3V CMCLKOUT 10 10 DGND DGND R402 nCMOS_RES 11 11 Q401 R403 nRST 12 12 Q402 CMDATA[0] nPWD 13 13 CMDATA[1] 14 14 CMDATA[2] 15 15 CMDATA[3] DGND 16 16 CMDATA[4] 17 17 CMDATA[5] 18 18 CMDATA[6]...
Page 139 +3.3V DGND nRST MII_MDIO MII_MDC RA201 MII_RXD3 MII_RXD2 C221 MII_RXD1 MII_RXD0 0.1u DGND C215 RXD2 VDD16 0.1u VDD15 RXD1 RXD0 TP_RXN R201 RXDV TP_RXP MII_RXDV C208 VDD_IO37 VSS12 R202 0.1u RXCLK VSS11 MII_RXCLK R203 RXER 100TCSR MII_RXER VSS40 10TCSR TP_25M L203 C216 RXTRI...
Page 140 +3.3VM CN201 +12V +12V +3.3V +3.3V ETHER_LINK Q201 DGND RF_nRST S_TX S_RX Q202 CN51 RXN_RF TXP_RF AC_STOP RXP_RF TXN_RF DGND DGND PHYCP SW201 RXP_IO TXP_IO TXP_IO TXN_IO RXN_IO TXN_IO TXP_RF TXN_RF RXP_IO RXN_IO DGND RXP_RF RXN_RF SW202 +3.3V TP_+3.3V CAMVDD TP+2.8V IC51 Vout...
Page 141 +3.3V CPU_ADR[17] C115 IC102 CPU_ADR[16] 100p CPU_ADR[15] nBYTE CPU_ADR[14] VSS2 CPU_ADR[13] CPU_DATA[15] DQ15 CPU_ADR[12] CPU_DATA[7] CPU_ADR[11] CPU_DATA[14] DQ14 CPU_ADR[10] CPU_DATA[6] +3.3V CPU_ADR[9] CPU_DATA[13] SD_ADR[1-20] DQ13 CPU_ADR[20] CPU_DATA[5] R162 CPU_DATA[12] RA106 nWP/ACC DQ12 CPU_DATA[4] CPU_ADR[14] SD_ADR[14] C116 CPU_ADR[15] SD_ADR[15] R163 nRESET 0.1u CPU_DATA[11] CPU_ADR[16]...
Page 142 CPU_DATA[0-15] +3.3V CPU_ADR[1-20] +3.3V nRST nLENS_COV nLENS_COV T_MOT1 T_MOT2 T_MOT3 T_MOT4 DGND +3.3V LED_G LED_R +3.3V nCMOS_RES nPWD SD_ADR21 CMDATA[0-7] DGND +1.8V +3.3V CAMVDD DGND RF_nRST RF_nPDOWN ETHER_LINK S_RX C167 IC101 S_TX 220p DGND DGND +12V +3.3V CMDATA[4] MA14 L112 CMDATA4 CMDATA[3] MA15...
Page 143 Lens Board VGA CMOS Sensor module [IC701, Hynix] 24pin CN701 RF Board TILT Motor Flash ROM Ether 20pin 28pin CN402 Block SD RAM Main Board RTC IC [CN201] Motor Drive [IC104] I2C BUS 2.8V Regulator [IC402, NEC] 32.768kHz Reset IC [IC101] CN401 Motor...
Page 144 (Waveform 1) (Waveform 2) CLKIN P C LK (Waveform 3-1) (Waveform 3-2) VS YNC H S Y N C (Waveform 4) Y [0 ]~[7]...

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Panasonic BL-C30CE Service Manual

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