Page 1 ORDER NO. KMS0505064CE Network Camera BB-HCM381CE / BB-HCM381E (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 ...
Page 2 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. 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 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 manufac turer’s specific instructions for the melting points of their products and any precautions for using their ...
Page 3 product with other materials. The following lead free (PbF) solder wire sizes are recommended for service of this product: 0.3mm, 0.6mm and 1.0mm. 1.2. HOW TO RECOGNIZE THAT Pb FREE SOLDER IS USED Main Board Tilt Board...
Page 4 Lens Board...
Page 5 Video Board CCD Board...
Page 6 I/O Board 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. 3. Use a conductive mat on the work-table. 4. Do not grasp IC or LSI pins with bare fingers.
Page 7 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. BR-2032-1VC). Please observe for the proper polarity an the exact location when replacing it and soldering the replacement lithium battery in. 3.3. TRADEMARKS - Adobe, Acrobat and Reader are either registered trademarks or trademarks of Adobe Systems Incorporated in the United States and/or other countries. - Ethernet is either a registered trademark or a trademark of Xerox ...
Page 8 Corporation in the United States and/or other countries. - Microsoft, Windows 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. - SD mark is a trademark of the SD Card Association. - 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 9 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 10 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 11 3. Replace the fuse into the fuse carrier and resecure into the mains plug. 3.7. CLEANING After the camera is turned off by disconnecting the AC plug, clean the camera. 4. SPECIFICATIONS Network Camera Specifications Item Description Zoom 12 steps, 42x (21x Optical Zoom, 2x Digital Zoom) 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), 380,000 pixels (Effective Pixels) Illumination 3-100,000 lx (0.09-100,000 lx when in color night view mode) White Balance Auto/Manual/Hold Focus Auto/Manual (40 steps) Zoom 12 steps of 42x Zooming (21x Optical Zoom, 2x Digital Zoom) Minimum Object Distance Wide: 5 mm (0.2 inches) Tele: 1 m (40 inches) Caliber Ratio (F No.) Tele: F1.6-Wide: F3.6 Horizontal Viewing Angle Tele: 2.6° (Optical)/1.3°(Digital), Wide: 51° Exposure Auto Other Specifications...
Page 12 Item Description Video Compression JPEG/3 Levels Video Resolution 640 x 480, 320 x 240 (default), 160 x 120 Buffered Image *1 About 125 frames (320 x 240) with time display (SD memory card is not inserted.) Audio Communication 2-way Half Duplex Audio Bandwidth 300 Hz-3.4 KHz Audio Play Method Play with ActiveX Input Encoding Method Encoding with ActiveX Audio Input *2 3.5 mm Mini Jack Audio Output *2 3.5 mm Stereo Mini Jack (output is mono), Line Level Frame rate *3 Max. 12 frames/second (640 x 480) Max. 30 frames/second (320 x 240 or 160 x 120) Supported Protocols IPv4/IPv6 Dual-Stack IPv4: TCP, UDP, IP, HTTP, FTP, SMTP, DHCP, DNS, ARP, ICMP, POP3, NTP, IPsec, UPnP IPv6: TCP, UDP, IP, HTTP, FTP, SMTP, DNS, ICMPv6, POP3, NDP, NTP, IPsec IPsec Feature ESP Encryption, ESP Authentication Transport mode/Tunnel mode IKE (Internet Key Exchange) IKE (Internet Key Pre-Shared Key Exchange) Cipher Algorithm DES-CBC, 3DES-CBC, AES-CBC Message-Digest HMAC-MD5, HMAC-SHA-1 Algorithm Message Transfer ...
Page 13 *2) Use only the included Audio/Video Cable when connecting an external microphone, speaker, or TV. *3) Frame rate may slow down depending on the network environment, the PC performance, the image quality, enabling IPsec, SD memory recording or what object you view. 5. MAIN FEATURES IPv6 Network Camera Your Panasonic Network Camera supports IPv6 (Internet Protocol Version 6), IPv6 was created to address the additional IP addresses that will be needed as the Internet continues to expand. Since the camera also supports IPv4 that's currently used, it is "dual stack" design will seamlessly operate while IPv6 is phased in. For more information in IPv6 you wish to visit http://www.ipv6.org/. See page 15 for more information. Audio 2-way Communication (Walkie-talkie Type) 2-way audio communication is now possible between your Network Camera and PC. By connecting a user-supplied microphone and speaker *3 to both the camera and to the PC, you will be able to speak to and hear anyone within range of the camera. For example, the camera can be used in the following various locations: - In the baby's room, to hear if the baby is crying. - At the front door, to see and hear who is at the door. - In the children's play room, to see and hear if they are safe. Note: PLEASE NOTE that under certain circumstances, audio/video recording may be PROHIBITED by law. This device should be used only in compliance with all applicable federal, state and local statutes. Better Image Quality The CCD sensor and the color night view mode provides better image quality and low light performance. - The CCD sensor gives you clear image. - You can monitor live video (Motion JPEG) that refreshes its image 30 frames per second. - Color night view mode allows you to monitor the camera in low illuminance. Remote Pan/Tilt/Zoom/Focus The following features allow you to operate Network Camera from web browser on your PC. High speed Pan/Tilt operation can move the lens horizontally from -175° to +175° and vertically from -120° to 0° in mounting on the table and from 0° to +90° in mounting on the ceiling. This movable lens allows you to view a wide range of perspective from a distant place. Network Camera has a 42x magnifying capacity: a 21x optical zoom and a 2x digital zoom. Automatic and Manual Focusing features provide you with detailed and distinct images. Additionally, the following control features are available to easily and quickly monitor the camera.
Page 14 Click to Center .. When you click a certain point on the camera image, the point is centered on the image. Preset Position .. You can register 8 preset positions. When you click each button, the image switches to its position. Output Control .. You can control the external devices (Open or Short to GND) (E.g., turning the light on or ringing a buzzer). Video Output Network Camera has an analog composite output terminal. You can view images from Network Camera on TV and record them on videotapes. SD Memory Card *4 Recording The camera has an SD memory card slot. You can record camera images to the SD memory card. If you enable alarm buffer/transfer, you can record the image at the timing of signal detection of door sensor or light. About 58,000 images (320 x 240 resolution and standard quality) can be recorded to 1 GB SD memory card. If you enable 1-minute interval timer buffer/transfer, you can record the images for about 41 days. Enhanced Multi-Camera Page Multi-Camera page displays up to 4 cameras while supporting each audio 2-way communication. The previous model displays only 4 cameras, but this camera can switch 3 sets of 4 cameras. Additionally, the camera can displays maximum 12 cameras on a page in a static image. 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. 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. The Setup, Maintenance and Support pages are displayed only in English or Japanese. *1) To connect in IPv6, subscribe to the ISP's "IPv4/IPv6 Dual-Stack" or "IPv6 over IPv4 Tunneling" service. The camera does not work in IPv6-only network. *2) Audio feature does not work well on cell phones. Talk button and Listen button cannot be used simultaneously. In consequence of traffic and network environments, the audio may be delayed or may break up. *3) The speaker connected to the camera requires a built-in amplifier. *4) SD memory card is sold separately. The camera supports 1 GB, 512 MB, 256 MB, 128 MB or 64 MB Panasonic SD memory card. 6. PARTS LOCATIONS...
Page 15 6.1. FRONT VIEW Indicator Power on Not on the LAN Orange blinking On the LAN Orange blinking Green blinking Green Normal Operation *1 Green Automatic Setting Green blinking Setup Finished setting Green blinking Green Using Getting IP address *2 Green blinking DHCP Got IP address Green Updating Firmware Orange blinking Pressing FACTORY DEFAULT Orange blinking Turning off RESET button (The camera restarts after that.) Orange blinking (About a 2-second UPnP Failure interval) 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. 6.2. REAR VIEW...
Page 16 6.3. BOTTOM VIEW 7. CONNECTING YOUR NETWORK CAMERA 7.1. 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.
Page 17 Item Description Operation System Microsoft Windows 98SE operating system Microsoft Windows 2000 operating system Microsoft Windows Me operating system Microsoft Windows XP operating system Network Protocol TCP/IP network protocol installed. (HTTP, TCP, UDP, IP, DNS, ARP, ICMP) Interface 10/100Mbps Ethernet card for your network connection Web Browser Internet Explorer 6.0 or later (Not included on the Setup CD-ROM). Note: Pentium II 300 MHz or greater CPU is recommended to prevent performance degradation. - Ethernet switching Hub or wireless Router for LAN Connection. - Ethernet cable (two pieces of Category 5 straight cable, or a piece of Category 5 cross cable). - Setup CD-ROM The setup program simplifies Network Camera installation. Adobe Acrobat Reader 4.05 or later enables you to see the Operating Instructions on the Setup CD-ROM. If Adobe Acrobat Reader is not installed on the PC, double-click "ar405eng.exe". Refer to "ReadmeEng.txt" for the directory and file structure ofthe Setup CD- ROM. Note: - Do not scratch, smudge, write or label either surfaces of the Setup CD- ROM. Setup CD-ROM may have a scratch on the surface.
Page 18 Pallet) to the highest selection possible. Note: Optimum video viewing will be seen when the color quality is set to 24bit or higher. This change should not cause any problems with other applications on your PC. 7.2. CONNECTING THE NETWORK CAMERA When checking the operation of the network camera, set up a configuration to be either of the two connecting patterns described below. For a configuration to be set up when connecting to the Internet, refer to the Operating Instructions. Use Category 5 cross cable when connecting directly to the PC. 7.2.1. Wired Connection 7.3. 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. Make the settings (IP address and subnet mask) of the network camera consistent with those ...
Page 19 of the PC. - Do not select establish the DHCP and DDNS about settings of the network camera and PC. For more detailed information, refer to the Operating Instructions. 8. MOUNTING Two ways of mounting are shown in the following figures. MAC Address and Serial Number are indicated on the bottom label of the main unit of the Network Camera. Please record both of them on the Network Camera Memo on Operating Instruction. They are indispensable for setting network parameters after mounting the Network Camera and for future customer servicing. 8.1. MOUNTING ON THE TABLE Mount the Network Camera at an even place where vibrations etc. are few. 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. 8.2. MOUNTING ON THE CEILING Please set the Tilt range to [On the ceiling] on Camera Setup window on Operating Instruction. Two ways of wiring can be considered; wiring through a hole made in the ceiling or wiring without making a hole for a cable in the ceiling. Please select either one of the two.
Page 20 Wiring through a hole made in the ceiling 1. Fix the Ceiling Plate B on the ceiling with Screws B. - Fix the Ceiling Plate B more than 100 mm (4 inches) off the wall or other obstacles from its center. - Make sure the Network Camera is firmly mounted on a beam of wood etc. When there is no beam, apply a board on the other side of the ceiling to make sure the Network Camera does not drop. 2. Make a hole for a cable.
Page 21 3. Fix firmly the Ceiling Plate A on the bottom of Network Camera. - Make sure the Network Camera, using coins etc., is firmly fixed.
Page 22 4. Fix the Ceiling Plate A to the Ceiling Plate B and fix them firmly with Screws A. 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 " " of the ...
Page 23 main unit. - When removing the Ceiling Mounting Cover, move it in the counterclockwise direction. Adjust both "l" and let down the main 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. A Ceiling Mounting example (Making holes on mortar wall) 1. Fit the Ceiling Plate B to the mounting position and put marks. 2. Make holes at the marks and put plastic plugs (customer provided) into them.
Page 24 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. 9. DISASSEMBLY INSTRUCTIONS 9.1. DISASSEMBLY INSTRUCTIONS (MAIN BOARD AND I/O BOARD)
Page 25 1. Remove three Screws (C). And remove the Cabinet Cover.
Page 26 2. Remove the Screw (B). And remove the I/O Board.
Page 27 3. Remove the Lead Wire and the two FFCs from the Connectors. 4. Remove three Screws (B). And remove the Main Board. 9.2. DISASSEMBLY INSTRUCTIONS (TILT BOARD)
Page 28 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. Remove two FFCs, FPC and Lead Wire from the Connectors. 4. Remove two Screws (A2). 9.3. DISASSEMBLY INSTRUCTIONS (VIDEO BOARD, LENS BOARD AND CCD BOARD) 1, 2 are same as 9.2. DISASSEMBLY INSTRUCTIONS (TILT BOARD).
Page 29 3. Remove eight Screws (A). 4. Remove the Upper Tilt Cover. And remove the Lower Tilt Cover.
Page 30 5. Remove the FFC (1), FFC (2) and FPC from the Connector. 6. Remove two Screws (A). And remove the Video Board. 7. Remove two Screws (B). And remove the Lens Board. 8. Remove two Screws (36-4). And remove the CCD Board. 9.4. DISASSEMBLY INSTRUCTIONS (CCD UNIT) 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.
Page 31 4. Remove the Tilt Belt. 5. Remove the Tilt Block Ass’y (Camera Unit).
Page 32 6. Remove four Screws (A1). And remove the Tilt Gear. 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.
Page 33 10. Remove the FFC (1) and FFC (2) from the Connector. 11. Remove two Screws (B). And remove the Lens Board. 12. Remove two Screws (A3). And remove the Video Board. 13. Remove three Screws (E). And remove the CCD Unit from the Lens Guide Ass’y. 10. THE CAUTIONS AT THE TIME OF ASSEMBLY 10.1. FFC (VIDEO-CCD) 10.2. LEAD WIRE 1. Bind two position of the Pan Motor lead to measure as illustrated 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.
Page 34 10.3. FFC 1. Infold the wide size FFC (21P). (once) Caution 1: Mind the way of infolding. 2. A Core Cushion is wound around a Filter and stuck. Caution 2: The Filter has not overflowed a Core Cushion. 3. It lets two FFC in a Filter.
Page 35 Caution 3: In case you let a FFC, a Filter turns a field without the break of a Core Cushion up. 4. A hook of a Core Stopper is caused and it hooks on a Filter.
Page 36 10.4. 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.
Page 37 2. Attach Tilt Board Spacer. Caution 2: 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. 10.5. LENS BOARD...
Page 38 When fix Lens Board by the Screws, please use the jig not to shift Lens Guide Ass’y.
Page 39 10.6. CCD UNIT...
Page 40 1. Affix the LPF, CCD Rubber, and CCD Board (in that order) to the 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. Caution 4: The CCD Rubber can be affixed in any direction. LPF is no inside and outside. Caution 5: Inspect the LPF and the surface of the CCD glass with a magnifying glass, and remove any dust before assembling. Caution 6: After assembling, lightly shake the Lens Unit. If you hear no rattling, the parts have been assembled securely. 11. ADJUSTMENTS 11.1. TOOLS AND EQUIPMENT FOR ADJUSTMENT AND REPAIR (1) HP light box - Light Box [with Standard Accessories]: VFK1164TDVLB - Lamp [for Light Box]: VFK1164LA02 - Color Chart: VFK1164TDVCB - Color Temp. Conversion Filter for 5100K: VFK1164LBB12 - ND Filter: VFK1164ND06 - Collimator (Infinity Adjustment Lens)[with Focus Pattern Chart]: ...
Page 41 VFK1164TCM02 - Attachment Ring: 46mm (2) LAN Cable [Cross] (3) Personal Computer (4) AC Adaptor: Part No. PSLP1242 (5) HCM PTZ CAMERA Service Tool (6) DC power supply (7) Camera stand (8) Tool Board for Adjustment 11.2. PREPARATION - Cable Connection Tools and Equipment which need for each adjustment Zoom IRIS VIDEO Tracking (1) Light Box (with Lamp) Color Chart Focus Pattern Chart Color Temp. Conversion Filter for 5100K ND Filter Collimator (Infinity Adjustment Lens) Attachment Ring (2) LAN Cable (3) Personal Computer (4) AC Adaptor (5) HCM PTZ CAMERA Service Tool Note: Collimator must be inserted all the way into light box until reaching stop point.
Page 42 11.3. HP LIGHT BOX (High-Precision) This light box enables the improvement of adjustment accuracy from a previous light box. Features 1. Hight-Internesity Luminance and Long Life Made Possible by New Halogen Lamp (20W / DC12V) Luminance:=1,900 cd/m iLuminance conversion:5,900lux) (compared with conventional models: 2.4 times) Life: Over 1,000 hours (Rate compared with conventional modela: Over 10 times) 2. Compact Desing Specific volume compared with conventional models: Approx.65% (Not including camera stand) 3. Attachment of Collimator (Collimator: Infinity Adjustment Lens) It is possible to screw up a collimator to the Light Box. And it is very easy to compensate for the slant(shear of the optical axis) caused by the weight of the collimator itself. 4. Attachment of Chart and Optical Filters For easy and quick replacement to the charts, the light box is equipped with the slot and the chart holder. Also, it is equipped with the slota for optical filters, one for color temperature conversion filters, one for cokor compensation filters. It is very convenient to set up for a color condition according to adjustment procedure. 5. Integrated Cooling Fan To prevent the tempereture from rising inside the Light Box and to extend the life of the lamp, it is equipped.
Page 43 <Specifications> Size: 90mm (W)~197.5mm (D)~70mm (H) Weght: 750 g Power Supply External DC regulated power supply (DC more than 2A) Lamp: DC12V 20V halogen lamp (Life: 2,000 hours) Luminance: 1,900 cd/m ±100 cd/m (center of the emission face) (iluminance conversion: 5,900 lux) Homogeneity Within ±10% Color 3,100 K ±100K temperatur: (center of the emission face) CIE X = 0.430 ±0.02 y = 0.400 ±0.02 chromaticity coordinate: Internal filter: LB60 + M50 (modifited: 1.5mm thickeness) Preparation 1. DC power supply: More than 2A at 12V---1 set (For Light box) 2. Camera stand: ---2 pieces (Use for DVC type by situation) 3. Compact transmission chart 4. Various kinds of thin coating optical filter Installation example (Camcorde) 1. Attach one camera stand to the bottom of the Light Box and attach the other one to tripod mount at the bottom of the camcorder. Next, adijust ...
Page 44 the Light Box. Screw the end of collomator into the rotary ring one the front of the Light Box to attach. 3. Attach the other end (lens side) of the collimator to the filter mounting screw of the camcorder's Lens. If it dose not fit, use the step-UP ring provided with the collimator. 4. Load the compact transmission chart (gray-scale/color chart) in the chart holder and insert the chart holder into the chart slot. 5. Connect the DC regulated power supply (DC 12V ±0.2V, Aapprox. 2.0A) to the Light Box using the provided DC cord (red (+), black (-)) and turn on the power switch at the rear of the Light Box. 6. While shooting the chart with the camcorder, adjust (using fine control) the chart holder posiyion as well as the height of the Light Box an camcorder until the desired angle of view is achieved. * Hint: Tightening the clipping knob fixes the rotary ring firmly. When it is completely tightened, the collimator attached to the rotar ring is at right angles to the emission face of the Light Box or chart. If the collimator cannot be attachedto the camcorder, try tightening the clipping knob to compensatefor shearing of the optical axis in the collimator. On the other hand, if the collimator can be attached to the cam-corder, try loosening the clipping knob slightly to make a little room around the clipping knob. Optical Filter (Made by Triacety cellulose) Camcorder adjustment requires a commercially-available a color temperature conversion filter. For all ...
Page 45 To use a slip-in filter, insert i into the Light Box filter slot. It is possible to insert 7 slip-in filters at a time into the filter slot. <How to Make a Slip-in Filter> 1. Cut the desired optical filter to 45mm~45mm. 2. Remove the seal at the rear of the filter mount,stick the optical filter in the filter mount (over the hole), then fold the filter mount in half. 3. It is recommended that you write the filter factor on the filter mount. Kind of Chart and Filter (Spare parts rout) 11.4. LENS ADJUSTMENT PROCEDURE Lens Adjustment consists of 2 items below: - Iris Adjustment - 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 HCM CAMERA Service Tool. (2) Select Model No. BB-HCM381A. (3) Power on the BB-HCM381CE. 1. Iris Adjustment Equipment - None Procedure 1. Connect the Set from PC through LAN.
Page 46 2. Press the [Iris] button. - Adjustment completes with no error Displays “Adjustment OK” - Adjustment completes with no error Displays “Adjustment NG” 3. If “Iris Adjust NG” is displayed, see SECTION 12.4&12.5 TROUBLESHOOTING. 2. Zoom Tracking Adjustment Equipment - Focus Pattern Chart - Collimator - Light Box Procedure 1. Place a ND filter in the HP light box. 2. Attach the focus pattern chart to the collimator. 3. Adjust the set's lens at the same height as the HP light box. 4. With keeping the end of the set's lens inserting into the Collimator, insert the focus chart side of the collimator into the HP light box. 5. Connect the Set from PC through LAN to output image. 6. Set the zoom position to Telephoto End and adjust the position so that the Focus Pattern Chart is displayed in the full screen. 7. Press the [Tracking] button. - Adjustment completes with no error Displays “Adjustment OK” - Adjustment completes with no error Displays “Adjustment NG” 8. If “Tracking Adjust NG” is displayed, see SECTION 12.4&12.5 TROUBLESHOOTING. 3. Auto Adjustment Equipment - Focus Pattern Chart - Collimator - Light Box Procedure 1. Set up the HP light box, collimator and the set the same way as 2. Zoom Tracking. 2. Connect the Set from PC through LAN to output image. 3. Set the zoom position to Telephoto terminal and adjust the position so that the Focus Pattern Chart is display in the full screen. 4. Press the [Auto] button. - Adjustment completes with no error Displays “Adjustment OK”...
Page 47 - Adjustment completes with no error Displays the error item 5. See SECTION 12.4&12.5 TROUBLESHOOTING for the error item. 11.5. VIDEO ADJUSTMENT PROCEDURE 1. Tools - Collimator - Light Box - Color Chart - Color Temp. Conversion Filter for 5100K 2. Adjustment Procedure 1. Place the Color Temp. Conversion Filter in the HP light box. 2. Remove the Focus Chart block from the Collimator and attach it with screwing its end into the rotating ring on the front of the light box. 3. Start-up the HCM PTZ CAMERA Service Tool. 4. Select Model Name: HCM381A 5. Install the Active-X for the Video Adjustment to the PC. 6. Connect the tool board to the tilt board of the set. 7. Turn on the Set. 8. Execute browser (IE) and open the single camera page. 9. Adjust the set's lens as the same height as the collimator, and perform an image pickup of the inside of the collimator. 10. Press the "Video Adjustment" button. 11. After displaying “Please shoot the Light Box without chart” and adjust the position and zoom range without the Color Chart so that the White image is displayed in the full screen. 12. Press the "OK" button. 13. Follow the message after displaying dialog. 14. After displaying "Please shoot Color Chart", set the Color Chart to HP light box. 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. 15. Press the "OK" button.
Page 48 16. When the adjustment completes with no error, the "Adjustment OK" is displayed. When the adjustment completes with an error, the error item is displayed. *1 When Security Warning window is displayed under the address bar, please execute next steps. 1. Click security warnig. 2. Permit the blocked contents. *In the case of "Adjustment NG", see SECTION 12.5 TROUBLESHOOTING of the TILT BLOCK ASSY (Camera Unit). Items which needs the adjustment Items Iris Adjustment Trucking Video Adjustment Adjustment Replace the Lens Unit Replace the CCD Circuit Board Replace the IR Cut Filter (PS0F1101) CCD Unit (Lens Unit + CCD Circuit Board) Replace the Lens Circuit Board Repair the Lens Block Repair the Zoom/Focus Block Replace the EEPROM (IC1009) Dark Screen Discolored Out of Focus Note: Collimator must be inserted all the way into light box until reaching stop point. - Viewing angle when taking the Color Chart...
Page 49 12. TROUBLE SHOUTING 12.1. STARTUP OPERATION 12.2. OTHER FUNCTION CHECK...
Page 50 12.3. IMAGES BLOCK CHECK...
Page 52 12.4. CAMERA UNIT CHECK...
Page 54 12.5. LENS PCB CHECK...
Page 56 12.5.1. ZOOM Operation Check...
Page 57 12.6. SOUND BLOCK CHECK...
Page 58 12.6.1. External Microphone...
Page 59 12.6.2. Speaker Output 12.6.3. Common Flow for External Microphone and Speaker Output...
Page 60 12.7. PAN/TILT OPERATION CHECK 12.7.1. PAN Operation Check...
Page 61 12.7.2. TILT Operation Check...
Page 62 12.8. LAN BLOCK CHECK...
Page 63 12.9. SD CARD CHECK...
Page 65 12.10. POWER SUPPLY BLOCK CHECK...
Page 67 12.11. RTC CIRCUIT CHECK...
Page 68 12.12. I/O TERMINAL CHECK...
Page 69 12.13. LED CIRCUIT CHECK...
Page 70 12.14. INITIALIZATION OPERATION CHECK...
Page 71 12.15. VERSION UPGRADE CHECK...
Page 72 12.16. UPDATE FIRMWARE 12.16.1. Update Firmware Update Firmware window allows the user to install the latest version of the Network Camera internal operating system (Application and Camera firmware). In most cases, this will never be necessary. ...
Page 73 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. 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 (IC101) on the Main board by CPU (IC103) on the Main board. And the upgrade of the software for Camera is practiced to set CPU (IC902) on Video board to Boot mode, and to rewrite Flash ROM in CPU (IC902) by way of serial interface by CPU (IC103) on the Main board. 12.16.2. Firmware Trouble Shouting When update missed. When Update Firmware is interrupted by power off, or for network troubles and other problems, follow the procedure below.
Page 74 13. THE WAY OF THE INITIALIZE 13.1. FACTORY DEFAULT RESET Button The camera has a FACTORY DEFAULT RESET button.
Page 75 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. - The indicator blinks orange, and then turns off for 5 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 on the internal memory are deleted when resetting the camera to factory default. The buffered images on the SD memory card are not deleted. - The reset operation takes about 1 minute. 14. BLOCK DIAGRAM 15. CIRCUIT DESCRIPTION 15.1. CAMERA UNIT Camera Unit is composed of the lens unit, CCD board, VIDEO board and LENS board. It has functions which are video signal imaging/processing/output and lens control (Iris, Focus, Zoom).
Page 76 15.1.1. 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. The object focused by lens unit are converted to electronic signal. This electronics image signal is read by drive signals and output to IC1001 (7pin) Q1101. 15.1.2. Video Board Function CCD output signal process and analog Y/C/Composite VIDEO signal output Zoom, Focus, Iris in LENS UNIT and the entire signal process control 15.1.2.1. CPU Block - CAMERA CPU (IC902) Power-supply voltages: +3.3V, +5V (for A/D, D/A) Package: 100pin QFP Clock frequency: 12.288MHz (X901) Total control of Camera Unit: lens control (Focus, Zoom, Iris), setting/ control for Video DSP (IC803), setting/control for CDS&AGC (IC801), drive signal generation for CCD (IC1001) Within Flash Rom stored Firmware for Camera Unit operation.
Page 77 The communication with MAIN CPU (IC101) on MAIN board is established by the serial signals (RXD_232C, TXD_232C) via CN902. Also, the communication with CDS&AGC (IC801) and Video DSP (IC803) is established by the serial signals (CS_CDS, SDI_DSP, SDCLK_DSP, SDO_DSP, SLD_DSP). At the time of CPU (IC902) program upgrade, it is set to the upgrade mode by BOOT1 and BOOT2 signal in MAIN CPU (IC101), and the data is transferred via the serial signals (RXD_232C, TXD_232C) and written. The timing synchronization with Video DSP (IC803) is performed by FV_DSP, EP1_DSP and EP2_DSP. The lens control is performed by signals including PWM connected to the lens board via CN904. 15.1.2.2. 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 noise in CDS circuit. Then, after being adjusted to the specified level in accordance with the serial signal (CS_CDS, SDI_DSP, SDCLK_DSP) instruction from CAMERA CPU (IC902) in GCA circuit, it is converted to 10bit, the digital signal with the sampling frequency: 14,31818 MHz of ADCLK input signal by A/D converter. This output signal is adjusted in order that OB (Optical Black) on CCD output signal shall be standard level by OBP signal. - VIDEO DSP (IC803) Power-supply voltages: +3.3V Package: 120pin QFP Clock frequency: 28.636MHz (X801) Processes CDS IC (IC801) output signal and outputs Y signal and C signal. Outputs CCD drive signal. Writing each setting to this IC and reading of data is performed by the serial signal (CS_CDS, SDI_DSP, SDCLK_DSP, SDO_DSP, SLD_DSP) in CAMERA CPU. <Video signal process> The signal input from CDS IC (IC801) is composed of luminance signal process and color signal process. - Luminance signal process...
Page 78 1. Horizontal/Vertical edge enhance 2. Gamma correction for grey-level 3. Adjusts level correctly 4. D/A converts for output - Color signal process 1. RGB matrix to convert to RGB signal 2. White Balance by CAMERA CPU instruction 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. The detection data is read by the serial signal in CAMERA CPU. <CCD drive signal and Timing signal generation> Outputs CCD drive signal [horizontal (H1, H2, RG) and vertical (V1~V4)] and Timing signal [Composite Synchronization signal, CAMERA CPU interrupt timing signal (VD, EP1, EP2) and signal for CDS IC (SP1, SP2, ADCLK, OBP)]. The signal timing is set by the serial signal in CAMERA CPU. - V Driver (IC802) Power-supply voltages: -5V, +3.3V, +12V Package: 20pin SOP Generates CCD vertical drive signal from CCD vertical drive timing signal in VIDEO DSP (IC803). CCD vertical drive timing signal with +3.3Vp-p is converted to binary (- 5V~0V) and to ternary (-5V~0V~+12V), and is output as V1~V4 signal.
Page 79 15.1.3. Lens Board Function Zoom, Focus and Iris in LENS UNIT driving. 15.1.3.1. IRIS Drive Block...
Page 80 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. The HALL_OUT signal is transferred to MAIN board as the information for Iris position and also, its AC component is transferred through C1032 to IC1010 for stabilization of Iris drive, and then a stabilized signal is produced. This stabilized signal is added to HALL OUT signal. In DC bias Generator (IC1008), DC voltage is generated by I2CBUS signal (SCL, SDA) from MAIN board, and the voltage will apply to PWM signal bias voltage (4pin output), OP amp bias (+1.3V: 3pin output), HALL bias circuit (IC1007) (1pin output) for HALL device bias voltage generation in LENS UNIT and HALL OUT signal DC level decision (2pin output). 15.1.3.2. Zoom Motor Drive Block...
Page 81 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. In phase A: 6V power Q1004 6pin Q1004 1pin ZAP signal motor phase A ZAN signal IC1002 14pin IC1002 19pin R1005 GND, or, 6V power Q1004 3pin Q1004 4pin ZAN signal motor phase A ZAP signal IC1002 16pin IC1002 19pin R1005 GND In phase B: Q1005 3pin Q1005 4pin ZBP signal motor phase B ZBN signal IC1002 11pin IC1002 6pin R1006 GND, or, 6V power Q1005 6pin Q1005 1pin ZBN signal motor phase B ZBP signal IC1002 9pin IC1002 6pin R1006 GNDThe motor driving direction is determined by ZMDIR signal.
Page 82 It shall be READ/WRITE by I2CBUS signal (SCL, SDA). Memorizes the values of LENS adjust, VIDEO adjust and VIDEO DSP install. When the power is ON or camera unit is reset, it is READ and installed to each system. 15.1.3.5. LED Block A line crack and a control signal relay a Tilt board and a Video board from Main CPU by which control of LED was mounted on the Main board, and it is inputted into the LED control circuit mounted in the Lens board. (As for LED, the 3 color LED is used.) LED_G LED_R LED COLOR Orange Green OFF the light 15.1.4. Camera Unit Power Supply Block The power block generates power supply to be used in each part. 15.2. CPU PERIPHERAL BLOCK - The IC103 is a system LSI for a network camera containing the CPU. - The power supply voltages are +3.3V (I/O) and +1.8V.
Page 83 - The CPU is a 32-bit RISC CPU and performs mainly hardware control, TCP/IP protocol processing and applications such as http and FTP. - The clock setting is 65.536MHz, which is the four times of 16.384MHz oscillation in the X101 by PLL. - There are two types of external bus: the General-purpose bus through SRAM I/F and the bus for SDRAM only. - The General-purpose bus is connected to a Flash Memory for program storage. - The capacity of the Flash Memory (IC101) is 32Mbit (2Mx16bit); the program, the setting information for the network camera and the MAC address are stored. - The SDRAM (IC105) is 64Mbit (4Mx16bit) and used for the CPU processing work, the communication data storage and the sound and image data storage. - The RESET IC (IC106) monitors the power supply voltage, detects the rising edge of +3.3V and generates the Hardware ResetSignal. - The IC302 is a RTC (Real Time Clock) and is used for the time setting of the image transfer. It is backed up at power-off by a lithium battery (BAT501). The I/F with the CPU has a dedicated controller. (5-line I/F) - The Encryption block inside the IC103 is an IPsec communication encryption engine and is used at the software protocol processing. - The camera CPU (IC902) on video board is connected to the CPU (IC103) through serial interface. Signal Flow 1. When a request from the PC is received through LAN, the CGI command is analyzed at the CPU and the requestedimage/sound data are generated. 2. The JPEG image and sound data accumulated on the SDRAM are formed in IP packet by the protocol processing. 3. If the IPsec is not encrypted, it is sent without change. If it is encrypted, this is carried out in the Encryption Block and a header is added to send to the Ethernet MAC part.
Page 84 15.3. VIDEO DECODER & JPEG BLOCK VIDEO DECODER (IC201) Operating Power Supply: +3.3V Package: 100 pin QFP Operating Clock: 24.54MHz The video decoder (IC201) converts the analog video signal output from the camera unit into the digital signal in real time. It converts each analog signal of Y/C into 8 bit *2 digital signal of Y/UV. Image Data Flow 1. The analog Y/C signal is sent to the video decoder from the camera unit. 2. The above data is converted into 8 bit YUV data with the video decoder ...
Page 85 (IC201), and then sent to VIDEO-I/F of JPEG (IC103). 3. IC103 is system LSI for the network camera with built-in CPU. 4. This LSI are built into JPEG encode circuit, memory management unit (MMU), and the SDRAM controller. 5. Image data (YUV) input from the camera block is captured by SDRAM by way of JPEG encode block MMU SDRAM controller. (1) 6. The captured YUV data are input to the JPEG Encode Block again and the JPEG processing is performed here. The compressed encode data are stored in SDRAM. (2) 7. A header is added to the encoded JPEG data by a direction of the CPU and it is transferred to a network after a protocolprocessing. (3) 15.4. SOUND BLOCK External Microphone / Speaker Jack (CN504) Used with connecting a external microphone or a speaker with a built-in amplifier through dedicated cable when a external microphone is used or the sound is output from a camera. ALC Amplifier (IC502) Power Supply Voltage: 3.3V Amplifier for Auto Level Control PCM CODEC (IC501) Power Supply Voltage: 3.3V Clock Frequency: Contains a built-in PLL function and generates a clock from the BCLK (256 KHz). Contains an amplifier, LPF, gain adjustment, AD/DA converter, host I/F, PCM serial I/F and speaker output function.
Page 86 Sound Signal Flow [Microphone sound] 1. The sound data input from A/V jack (CN504) is amplified by the amplifier in the PCM CODEC (IC501) and the ALC (IC502), then input as the built-in microphone to the PCM CODEC (IC501) again. When the level of the input sound signal is more than the set value, the gain is changed and the output signal level is kept constant at the ALC (IC502). Sound distortion is controlled when the input is excessive. 2. In the PCM CODEC (IC501), by a register setting from the host, amplification, A/D conversion and gain adjustment are performed. The sampling frequency of the A/D conversion is 8kHz and it is converted to the PCM in the format of 8bit and É law. Then, 64kbps data are output to the ASIC (IC103) through the Serial I/F. The data transfer CLK of the Serial I/F is BCLK (256 kHz). 3. performed in the ADPCM Block of the ASIC (IC103) and the data is transferred as sound data. [Speaker Sound] 1. The ADPCM sound data are sent from the PC and decompressed in the ADPCM block of the ASIC (IC103). The data are transferred as the sound data of 64kbps to the PCM CODEC (IC501) through the Serial I/F. 2. After the law to linear conversion, amplification and D/A conversion are performed, they are output to A/V jack (CN504) as sound output signal in the PCM CODEC (IC501).
Page 87 15.5. LAN BLOCK Composed of the IC103 (CPU), the IC202 (ETHER-PHY), the CN505 (RJ45 with a built-in transformer). The transformer in the CN505 provides isolation between the Set and the Ethernet. The IC103 (CPU) and the IC202 (ETHER-PHY) are connected by a signal called MIIBus and it makes Ether net data sending and receiving possible. Sending The electrical signal sent from the IC103 is converted to Ethernet data at the IC202 and sent from the CN505 . Receiving The Ethernet data received from the CN505 is converted to electrical data at the IC202 and received to the IC103. 15.6. MOTOR DRIVE BLOCK 15.6.1. PAN Control Block A PAN motor is performed when CPU mounted on the Main board controls the motor driver IC on this substrate (IC401). Moreover, the absolute position of the PAN operation is detected by the photo sensor (IC301) mounted on this board is realized using the photo sensor (IC301) mounted on this substrate. The detection signal of a photo sensor is detected level by comparator (IC305) and is input to CPU port. 15.6.2. TILT Control Block A TILT motor is performed when CPU mounted on the Main board controls the motor driver IC on a TILT board (IC4). Moreover, the absolute position of the PAN operation is detected by the photo sensor (IC3) mounted on this board is realized using the photo sensor (IC3) mounted on this substrate The detection signal of a photo sensor is detected level by comparator (IC305) and is input to CPU port. At the time of TILT ...
Page 88 operation, phase current from a motor driver is enlarged, and while not operating, it is controlled to lessen (C-CONT). (At the time of operation: C-CONT=’L’, At the time of stop: C-CONT=’H’) 15.7. SD CARD BLOCK When playing sounds, the data written on the SD Card are read out by the SD Card Controller (IC303) and divided into IP Packets in the ASIC (IC103) to be sent to the LAN. When recording sounds, the JPEG-compressed image data at the ASIC (IC103) are written on the SD Card by the SD Card Controller (IC103) through the SD Card connector. 15.8. MAIN PART POWER SUPPLY BLOCK The power block generates power supply to be used in each part.
Page 89 15.9. OTHERS 15.9.1. I/O Terminal - The Input terminal has two systems; both of them are connected to the Input Port of the IC103 GPIO. - Due to Internal Pull-up Resistance, the PNP Transistor (Q501, Q502) on the following stage is usually in the OFF state and the Input Port connected to the collector is at L level. - If the terminal is short-circuited with the GND or the signal of L level is input, the PNP Transistor goes ON and the Input Port goes to H level.
Page 90 - The CPU checks the state of this port regularly to detect a change in this signal. - The Output terminal is controlled by the Output Port of the IC103. When the Port output is L, the transistor (Q503) on the following stage is OFF and, when the output is H, the transistor is ON. This transistor has open collector output and it controls external equipment via external pull-up. 15.9.2. Clear Setting SW - The CLEAR SETTING SW (SW101) is connected to the Input Port of the GPIO. It is usually at H level and goes to L level when the SW is pressed. - The CPU monitors this Input Port regularly and, if it detects that this SW is pressed longer than the set period, the setting values other than the RTC are returned to the factory settings. 16. TERMINAL GUIDE OF ICS, TRANSISTORS AND DIODES...
Page 91 17. HOW TO REPLACE A FLAT PACKAGE IC 17.1. 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.
Page 92 Type RMA (lower residue, non-cleaning type) Note: See ABOUT LEAD FREE SOLDER (PbF: Pb free) (). 17.2. PROCEDURE 1. Tack the flat pack IC to the PCB by temporarily soldering two diagonally opposite pins in the correct positions on the PCB. 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. 17.3. REMOVING SOLDER FROM BETWEEN PINS 1. Add a small amount of solder to the bridged pins.
Page 93 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. 18. CABINET AND ELECTRICAL PARTS LOCATION...
Page 94 19. ACCESSORIES AND PACKING MATERIALS...
Page 95 20. REPLACEMENT PARTS LIST Note: 1. RTL (Retention Time Limited)
Page 96 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 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 20.1. CABINET AND ELECTRICAL PARTS...
Page 97 PSMH1257Y FRAME,TILT PSHX1214X SPACER PSWQ2HCM180N DC MOTOR,TILT PSKM1108Z2 CABINET BODY ABS-V0 PSHR1291Z GUIDE, PAN SLIDER POM-HB PSWQ1HCM381N DC MOTOR, PAN POM-HB PSHX1252Z PLASTIC PARTS,CORE STOPPER PSKF1092Y1 CABINET COVER ABS-V0 PSGT2653Y NAME PLATE(FOR BB-HCM381CE) PSGT2654Y NAME PLATE(FOR BB-HCM381E) PSQT1999Z LABEL, AC ADAPTOR COUTION PSQT2000Z LABEL, FACTORY DEFAULT PSWEHCM381A CCD UNIT ASS'Y (RTL) 33-1 VXW0482-1 LENS NUIT 33-2 PS0F1001Z OPTICAL FILTER,LPF 33-3 PSHG1203Z CCD RUBBER 33-4 ...
Page 98 Ref. No. Part No. Part Name & Description Remarks A1 PFJA02A006Z POWER CORD(FOR BB-HCM381CE) A1 PSJA1106Z POWER CORD(FOR BB-HCM381E) A2 PSWEHCM381CE AC ADAPTOR(FOR BB-HCM381CE) A2 PSWEHCM381E AC ADAPTOR(FOR BB-HCM381E) A3 PSZMHCM381N MOUNTING BRACKET, CEILING STAY PLATE ASS'Y A3-1 PSZMHCM381A MOUNTING BRACKET, CEILING STAY PLATE 1 A3-2 PSMD1045Y MOUNTING BRACKET, CEILING STAY PLATE 2 A4 PSKL1023Y2 STAND,CEILING ATTACHMENT A5 XTB4+20AFJ SCREW A6 XYN3+J6FJ SCREW A7 PSQX3588ZCD ...
Page 99 Ref. No. Part No. Part Name & Description Remarks PCB1 PSWP1CM381CE MAIN BOARD ASS’Y (RTL) (ICS) IC101 PSWI1CM381CE IC IC102 C0JBAF000548 IC IC103 C1DB00001114 IC IC104 C0JBAB000636 IC IC105 C3ABPG000134 IC IC106 C0EBE0000231 IC IC201 C1AB00002063 IC IC202 C1CB00001689 IC IC203 C0JBAB000633 IC IC204 PFVITC74V74T IC S IC206 C0JBAE000332 ...
Page 100 C129 ECJ0EF1C104Z ...
Page 101 Ref. No. Part No. Part Name & Description Remarks C130 ECJ0EF1C104Z C131 ECJ0EF1C104Z C132 F1J0J1060006 C133 ECJ0EF1C104Z C134 ECJ0EF1C104Z C135 ECJ0EF1C104Z C136 ECJ0EF1C104Z C137 ECJ0EF1C104Z C138 ECJ0EF1C104Z C139 ECJ0EF1C104Z C140 ECJ0EC1H101J 100p C141 ECJ0EF1C104Z C142 ECJ0EF1C104Z C143 ECJ0EF1C104Z C144 ECJ0EF1C104Z C145 ECJ0EF1C104Z C146 ECJ0EF1C104Z C147 ECJ0EF1C104Z ...
Page 102 C212 ECJ0EC1H101J 100p ...
Page 103 Ref. No. Part No. Part Name & Description Remarks C213 ECJ0EF1C104Z C214 ECUV1A105ZFV C215 ECUV1A105ZFV C216 ECJ0EF1C104Z C217 F1K0J1060020 C218 ECJ0EF1C104Z C219 F1K0J1060020 C220 F1K0J1060020 C221 ECJ0EF1C104Z C222 F1K0J1060020 C223 ECJ0EF1C104Z C224 ECJ0EF1C104Z C225 ECJ0EC1H101J 100p C226 ECJ0EC1H101J 100p C227 ECJ0EF1C104Z C228 ECJ0EF1C104Z C229 F1K0J1060020 C230 ...
Page 104 C273 ECJ0EF1C104Z ...
Page 105 Ref. No. Part No. Part Name & Description Remarks C274 ECJ0EC1H101J 100p C275 ECJ0EF1C104Z C301 ECUV1C104ZFV C302 ECJ0EF1C104Z C303 ECUV1C104ZFV C304 ECJ0EF1C104Z C305 ECUV1A105ZFV C306 ECUV1C104ZFV C307 F1J0J1060006 C308 ECJ0EC1H101J 100p C309 ECJ0EF1C104Z C310 ECUV1C104ZFV C311 F1J0J1060006 C312 ECJ0EC1H330J 33p C313 ECUV0J105KBV S C314 ECJ0EC1H330J 33p ...
Page 107 Ref. No. Part No. Part Name & Description Remarks (CONNECTORS) CN201 K1KB60A00135 CONNECTOR, 60P CN401 K1MN21A00025 CONNECTOR, 21P CN402 K1MN17A00035 CONNECTOR, 17P CN403 K1KA04BA0086 CONNECTOR, 4P (COILS, CERAMIC FILTERS AND IC FILTERS) L101 G1C100K00031 COIL L102 PSLQR2S601M COIL L201 PQLQR1RS601T COIL S L202 PQLQR1RS601T COIL S L203 G1C100K00031 COIL L204 G1C100K00031 COIL L205 G1CR12J00003 COIL ...
Page 108 R104 ERJ3GEYJ101 ...
Page 109 Ref. No. Part No. Part Name & Description Remarks R105 ERJ2GE0R00 R107 ERJ2GEJ103 10k R108 ERJ3GEYJ103 10k R109 ERJ2GEJ473 47k R110 ERJ2GEJ103 10k R112 ERJ2GEJ103 10k R113 ERJ2GEJ103 10k R114 ERJ2GEJ103 10k R116 ERJ2GEJ103 10k R117 ERJ2GEJ103 10k R119 ERJ2GEJ103 10k R120 ERJ2GEJ103 10k R122 ERJ2GEJ101 ...
Page 110 R235 ERJ3EKF51R1 ...
Page 111 Ref. No. Part No. Part Name & Description Remarks R236 ERJ3EKF51R1 R237 ERJ3EKF56R2 56.2 R238 ERJ3EKF56R2 56.2 R239 PQ4R10XJ330 S R240 ERJ2GEJ105X 1M R241 ERJ2GEJ101 R242 ERJ2GEJ102 1k R243 ERJ2GE0R00 R244 ERJ2GE0R00 R245 ERJ2GE0R00 R246 ERJ2GE0R00 R255 ERJ2GE0R00 R256 ERJ2GE0R00 R257 ERJ2GE0R00 R258 ERJ2GE0R00 R259 ERJ2GE0R00 ...
Page 112 R435 ERJ3EKF2702 Ref. No. Part No. Part Name & Description Remarks R436 ERJ3EKF1102 R437 ERJ2GEJ000 S (COMPONENT PARTS) RA203 D1H84704A024 RESISTOR ARRAY RA204 D1H84704A024 RESISTOR ARRAY RA301 D1H84704A024 RESISTOR ARRAY RA302 D1H84704A024 RESISTOR ARRAY RA303 D1H84704A024 RESISTOR ARRAY RA304 D1H84704A024 RESISTOR ARRAY RA305 D1H84704A024 RESISTOR ARRAY RA306 D1H84704A024 RESISTOR ARRAY RA307 D1H81034A024 RESISTOR ARRAY (SWITCH) SW101 ...
Page 113 Ref. No. Part No. Part Name & Description Remarks C7 ECUV1E104ZFV 0.1 C8 ECJ1VC1H471J 470p C9 PFCX1EY106ZF S C10 ECJ1VC1H471J 470p C11 ECUV1H331JCV 330p S C12 ECJ1VB1H221K 220p C13 ECUV1E104ZFV 0.1 C16 ECUV1H220JCV 22p C17 F4Z0K3360001 C18 ECJ0EC1H101J 100p C19 ECUV1E104ZFV 0.1 C20 ECUV1E104ZFV 0.1 C21 ...
Page 114 R19 ERJ3GEYJ101 Ref. No. Part No. Part Name & Description Remarks R20 ERJ3GEYJ101 20.5. LENS BOARD PARTS Ref. No. Part No. Part Name & Description Remarks PCB3 PSWP3HCM381N LENS BOARD ASS'Y (RTL) (ICS) IC1001 C0GBB0000029 IC IC1002 C0GBB0000029 IC IC1007 C0ABBA000166 IC IC1008 C0FBBD000102 IC IC1009 C3EBGC000045 IC IC1010 C0ABBB000220 IC IC1011 C0CBADC00044 IC (TRANSISTORS) Q1001 2SD0601ASL ...
Page 115 Ref. No. Part No. Part Name & Description Remarks C1029 PQCUV1A105KB 1 S C1030 ECUV1C104ZFV 0.1 C1031 ECUV1C104ZFV 0.1 C1032 ECUV1C104KBV 0.1 C1034 ECUV1A105ZFV 1 C1035 ECUV1A105ZFV 1 C1036 ECUV1A105ZFV 1 (CONNECTORS) CN1001 K1MN21B00061 CONNECTOR, 21P CN1002 K1MN18B00100 CONNECTOR, 18P (COILES) L1001 ELJFC6R8KF COIL L1002 ELJFC6R8KF COIL L1003 ...
Page 117 Ref. No. Part No. Part Name & Description Remarks PCB4 PSWP4CM381CE VIDEO BOARD ASS'Y (RTL) (ICS) IC801 C1AB00002190 IC IC802 C1AB00002188 IC IC803 C1AB00002189 IC IC805 C0JBAB000636 IC IC902 PSWI2HCM381A IC IC1152 PQVIC68B102M IC S IC1153 C0DBAGC00014 IC (TRANSISTORS) Q801 2SB1218A TRANSISTOR(SI) S Q802 2SB1218A TRANSISTOR(SI) S Q1151 2SB1218A ...
Page 118 Ref. No. Part No. Part Name & Description Remarks C828 ECST0JY226 S C829 ECJ0EF1C104Z C830 ECJ0EF1C104Z C831 ECJ0EF1C104Z C832 ECJ0EC1H150J 15p C833 ECJ0EC1H150J 15p C834 ECJ0EF1C104Z C835 ECJ0EF1C104Z C836 ECJ0EF1C104Z C837 F1H0G4750001 C838 F1H0G4750001 C839 ECUV1A105ZFV 1 C840 ECJ0EF1C104Z C841 ECJ0EF1C104Z C842 ECJ0EF1C104Z C843 ECST0JX476 S C844 ...
Page 119 C939 ECJ0EC1H101J 100p ...
Page 120 Ref. No. Part No. Part Name & Description Remarks C940 ECJ0EC1H101J 100p C941 ECJ0EC1H101J 100p C942 ECJ0EF1C104Z C1151 ECJ0EF1C104Z C1152 ECST1AX226 S C1153 F1K1C475A043 C1157 F1K1C475A043 C1158 ECJ0EF1C104Z C1159 F1K1C475A043 C1160 ECJ0EF1C104Z C1161 ECJ0EC1H151J 150p C1162 F1K1C475A043 C1163 F4Z0J4760001 C1164 ECJ0EF1C104Z C1165 ECJ0EF1C104Z C1166 ECJ0EF1C104Z C1167 ...
Page 121 R819 ERJ2GEJ101 ...
Page 122 Ref. No. Part No. Part Name & Description Remarks R820 ERJ2GE0R00 S R821 ERJ2GE0R00 S R822 ERJ2GE0R00 S R823 ERJ2GE0R00 S R824 ERJ2GE0R00 S R825 ERJ2GE0R00 S R826 ERJ2GEJ104 100k R827 ERJ2GEJ101 R828 ERJ2GEJ330 R829 ERJ2GEJ330 R830 ERJ2GEJ330 R831 ERJ2GEJ105X 1M R832 ERJ2GEJ561 R833 ERJ2GEJ103 10k ...
Page 123 R933 ERJ3EKF5602 Ref. No. Part No. Part Name & Description Remarks R934 ERJ2GEJ103 10k R935 ERJ2GEJ330 R936 ERJ2GEJ330 R937 ERJ2GEJ330 R938 ERJ2GEJ103 10k R939 ERJ2GEJ330 R940 ERJ2GEJ330 R941 ERJ2GEJ330 R942 ERJ2GEJ330 R943 ERJ2GEJ471 R944 ERJ2GEJ330 R1153 ERJ3EKF1103 110k R1154 ERJ3EKF1002 10k R1155 ERJ2GEJ152 1.5k R1156 D1BA1001A015 ...
Page 124 Ref. No. Part No. Part Name & Description Remarks R1105 ERJ3GEY0R00 R1106 ERJ3GEYJ151 20.8. I/O BOARD PARTS...
Page 125 Ref. No. Part No. Part Name & Description Remarks PCB6 PSWP6CM381CE I/O BOARD ASS'Y (RTL) (ICS) IC501 C1CB00001622 IC IC502 AN6123MS IC IC601 C0DBAFZ00054 IC (TRANSISTORS) Q501 PQVTDTA143EU TRANSISTOR(SI) S Q502 PQVTDTA143EU TRANSISTOR(SI) S Q503 B1GBGFCJ0002 TRANSISTOR(SI) Q601 B1DHCD000018 TRANSISTOR(SI) (DIODES) D601 MA736 DIODE(SI) S D602 MA736 DIODE(SI) S DA501 ...
Page 126 Ref. No. Part No. Part Name & Description Remarks C529 ECUV0J105KBV S C530 ECUV1H102KBV 0.001 C531 F1J0J1060006 C532 ECUV1C104ZFV C533 ECUV1C474KBV 0.47 C534 ECUV1H122KBV 0.0012 C535 ECUV0J105KBV S C537 ECUV1C104ZFV C542 F1J0J1060006 C547 ECUV1C104ZFV C549 ECUV0J105KBV S C550 ECUV1C104ZFV C551 ECUV1C104ZFV C552 ECUV1C104ZFV C553 ECUV1C104ZFV C554 ...
Page 127 F501 D4FBR200A003 FUSE ...
Page 128 Ref. No. Part No. Part Name & Description Remarks (COILS, CERAMIC FILTERS AND IC FILTER) L501 J0JCC0000079 CERAMIC FILTER L502 J0JCC0000079 CERAMIC FILTER L503 J0MAB0000185 IC FILTER L504 J0JCC0000079 CERAMIC FILTER L505 J0JCC0000079 CERAMIC FILTER L506 J0JCC0000079 CERAMIC FILTER L507 G1C100K00031 COIL L508 J0MAB0000185 IC FILTER L510 J0JCC0000079 CERAMIC FILTER L511 G1C100K00031 COIL L601 G0B150G00001 COIL L602 G1C6R8Z00005 COIL ...
Page 129 SA504 D4ZZ00000024 VARISTOR (SAUGE ABSORBER) Ref. No. Part No. Part Name & Description Remarks SA505 D4ZZ00000024 VARISTOR (SAUGE ABSORBER) SA507 D4ZZ00000024 VARISTOR (SAUGE ABSORBER) SA508 D4ZZ00000024 VARISTOR (SAUGE ABSORBER) SA510 D4ZZ00000024 VARISTOR (SAUGE ABSORBER) 21. FOR THE SCHEMATIC DIAGRAM Note: 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. MAIN BOARD (COMPONENT VIEW) 23.2. MAIN BOARD (BOTTOM VIEW) 23.3. TILT BOARD (COMPONENT VIEW) 23.4. TILT BOARD (BOTTOM VIEW) 23.5. LENS BOARD (COMPONENT VIEW) 23.6. LENS BOARD (BOTTOM VIEW) 23.7. VIDEO BOARD (COMPONENT VIEW)
Page 130 23.8. VIDEO BOARD (BOTTOM VIEW) 23.9. CCD BLOCK (COMPONENT VIEW) 23.10. CCD BLOCK (BOTTOM VIEW) 23.11. I/O BOARD (COMPONENT VIEW) 23.12. I/O BOARD (BOTTOM VIEW) A BBHCM381CE/E...
Page 131 10_G1 10_1 10_G2 10_12V 10_02 10_01 TP_12YIN R507 R519 MIC_AMP1 MIC_IM R520 TP_GNDIN C531 C524 Q502 MIC_AMP2 R515 C525 C528 Q501 C526 L507 R509 +A3.3V C536 R516 Q503 3.3V C554 C553 C552 TP_GND4 Bend Leg TP_GND2 +12VMC C537 TP_D3.3W C603 C609 C556 C619...
Page 132 CN501 CN601 L583 R517 L502 L501 R530 C561 IC502 SA501 R501 CN505 SA502 R505 C503 R506 C559 C509 DA502 C507 R508 C523 IC501 C529 L503 C611 C517 L508 R602 C613 IC601 R601 D602 Q601 CN502 R603 C621 C551 R604 R521 C615 C618 BAT501...
Page 133 IC1101 BB-HCM381 CCD BOARD BOTTOM VIEW...
Page 134 CN1101 R1103 TP1107 R1105 C1103 TP1102 R1102 TP1117 C1101 BB-HCM381 CCD BOARD COMPONENT VIEW...
Page 135 PSUP1419Z GND2 R812 +12V C1166 RESET R1153 R828 C834 R837 Q801 R839 Q802 R932 R847 IC1153 C854 R849 Q803 R843 RXD TXD Q1153 +3.3V-A C931 C929 C926 C908 C910 VIDEO C925 C923 LG R904 BB-HCM381 VIDEO BOARD BOTTOM VIEW...
Page 136 R804 C906 C818 D1156 L803 C826 Q1151 D1152 IC802 D1151 L1154 L1152 C810 R810 C838 C1153 L801 C921 C808 C843 C845 C847 L1151 DA901 CN902 CN904 BB-HCM381 VIDEO BOARD COMPONEMT VIEW...
Page 137 CN1002 CN1001 Q1008 R1037 L1003 C1017 R1019 C1019 C1018 IC1001 C1028 C1024 R1016 R1018 R1020 C1030 IC1010 R1033 R1013 R1015 C1029 C1023 C1032 C1031 BB-HCM381 LENS BOARD BOTTOM VIEW...
Page 138 PSUP1418Z R1002 R1001 C1004 5VALC R1009 C1003 C1001 C1033 C1002 Q1002 TP1028 L1002 C1012 R1007 TP_LED_R R1014 Q1005 Q1004 R1017 Q1006 Q1003 R1022 R1003 R1024 R1006 C1016 C1034 R1004 R1005 R1023 R1021 R1025 C1020 R1026 R1027 C1013 C1014 C1005 C1011 R1034 C1010 C1008...
Page 139 BB-HCM381 TILT BOARD BOTTOM VIEW...
Page 140 TP12 TP13 +12V TP11 V GND PSUP1537Z LED R +6.0V LED G BB-HCM381 TILT BOARD COMPONENT VIEW...
Page 141 SW101 R134 D301 R108 D302 C135 C136 PSUP1535Z IC105 IC304 C311 C155 R133 C310 C137 C305 C142 IC401 C253 L102 R237 C108 C158 L205 R432 C171 R105 R238 R323 R236 L101 C117 C169 C152 C165 C118 C151 C159 C167 R122 R123 C115 C114 CN201...
Page 142 Checker-OK TP_BAT C164 C160 C302 TP_GND3 C134 TP_RXD0 TP_1.8V C132 TP_GND1 IC302 C140 R112 R110 R113 R109 R204 C130 C268 C170 R110 C129 TP_25MHz C131 L202 C273 C113 C274 R205 C112 R202 RA201 C235 TP402 C248 R201 C145 C139 R210 C448 C453 TP403...
Page 145 Tilt Scan...
Page 146 10Base Hub Connection (un-communicating) 10Base Hub Connection (un-communicating)
Page 147 10Base Hub Connection (Communicating)
Page 150 Pan Scan...
Page 151 TP_CT L503 C560 6.3V10u +3.3V CN505 C549 GND9 1TPTX+ L511 2TPTX- C550 0.1u CN503 3TPRX+ 1000pF R522 RJ45 SDDAT3 R523 6TPRX- SDCMD L508 TS102 L510 GND1 R524 GND10 SDCLK C538 CN502 GND2 R525 SDDAT0 R526 SDDAT1 SDCLK SDDAT0 R527 SDDAT2 C539 R528 CARDDET...
Page 152 +12VMC +12V DC Jack TP_12VIN CN601 L602 L601 6.8u D601 TP_GNDIN TP_GND4 TP_GND3 TP_GND2 TP_D3.3V +3.3V Q601 L603 L604 R603 IC601 R601 Vout BB-HCM381A I/O BOARD 2/2 POWER SUPPLY BLOCK...
Page 153 TP1102 Q1101 C1102 1000p CN1101 R1103 TP1117 TP1107 4.7K TP1108 L1101 IC1101 C1106 C1105 16V4.7u 0.01u GND-9 GND-6 +12.0V Z1 Z2 Z3 Z4 R1104 R1105 R1106 -5.0V R1102 C1103 2200p BB-HCM381 CCD BOARD 1/1 CCD BLOCK...
Page 154 +3.3V CN902 R914 R901 +3.3V R902 R943 R942 R936 R903 VIDEO VIDEO_O VIDEO +5VA IMREAD DA901 RXD_232C +3.3V +5VA EP2_DSP TXD_232C R904 CS_CDS LED_R +3.3V R944 LED_G R915 C933 BOOT1 R918 C931 BOOT2 R913 0 EP1_DSP 12.288MHZ C920 +3.3V CPU_RES +3.3V X901 +3.3V...
Page 155 +3.3V R827 C843 6.3V22u +3.3V-D2 C808 +3.3V-C2 C823 6.3V47u C828 +3.3V-D1 6.3V10u +3.3V-C1 6.3V22u Q803 C804 0.1u R809 AVDD-19 AD(10) YPO(2) [2125] AD(9) YPO(3) BLKSH CDS_IN RA80133 BLKFB AD(8) YPO(4) C807 C810 AD(7) YPO(5) CDSIN C809 BLKC IC801 AD(6) YPO(6) RA802 33 R841 AD(5)
Page 156 L1151 +3.3V Q1153 L1153 L1156 IC1153 Vout 5 CE 4 C1157 [3216] 16V4.7u D1153 +12.0V L1152 R1153 L1154 220u 110K 1% IC1152 Q1152 -5.0V L1155 Q1151 D1151 D1156 BB-HCM381 VIDEO BOARD 3/3 POWER SUPPLY BLOCK...
Page 157 CN1001 L1001 6.8u C1006 +5.0V IC1011 +3.3V TP1011 C1034 Vout 5 C1003 TP1012 TP1062 C1024 0.22u +3.3V C1001 NC4 4 TP1069 C1002 ZENC C1012 R1026 R1016 FENC 6.8K 1% TP1015 LEDCNT TP1057 R1007 1K LEDCNT TP1063 L1002 +3.3V +3.3V TP1013 ZMDIR 6.8u TP1014...
Page 158 +12VC +6.0V +6.0VC +6.0V +6.0VC L1 10u 0.10 1% 25V10u PW_DOWNL Isen Vout C11 330p GAIN CE/SS CLK5 680K Vout 220p 6.8K V-GND LED-G LED-R VIDEO IMREAD PW_DOWNL +12V BOOT1 BOOT2 RESET +12VM +12VC +6.0VC TP10 OUT2B TILT_2B SENSE2 TP11 VREF2 TILT_2A 4700p...
Page 159 nSD_INT EXMCS2 EXMNWE0 EXMCS3 EXMNRD SD_WAIT +3.3V EXD[15-0] EXA[20-0] R128 EXA[19-0] R127 IC104 +3.3V +1.8V C116 +3.3V R126 TP_GND3 +3.3V IC106 0.1u 0.1u EXA[16] C104 DGND 4 OUT C120 6.3V10u TRSTN TRSTN +3.3V 0.22u C123 DGND 3 GND 3 Cd IC101 C106 C119...
Page 160 +3.3V C274 100p 0.1u P7 P8 TP_GND1 C273 DGND 25MHz C231 IC202 DGND X201 R262 R201 VDD48 P0AC DGND R214 C232 REF_IN VSS2 R202 R226 C265 REF_OUT P1CL R227 100p L206 VDD45 P2LI DGND TXD[3-0] TXD[3-0] VSS5 R228 R235 L205 R236 RA202 0.1u...
Page 161 RTCE +3.3V RTWR RTCLK RTCD RTINT +3.3V TP_1.8V +1.8V IC304 IC302 18 NC18 Vout 17 NC17 TP_BAT NC2 3 NC16 NC3 4 15 NC15 NC4 5 D302 Foe 6 NC13 WR 7 +3.3V Fsel 11 DATA Fout 0.1u BAT_IN D301 C303 DGND DGND...
Page 162 C-IN R401 C_OUT CN401 +3.3V Y-IN EXD[15-0] R402 Y_OUT PAN Control Block IC402 EXD[7] DGND EXD[6] VOUTA EXD[5] VOUTB EXD[4] AGND V-OUT EXD[3] VIDEO_OUT REFIN EXD[2] EXD[1] EXD[0] nDALDAC HM102 R403 LDAC EXMCS3 IMREAD nPDOWN EXA[0] EXMNWE0 HM102 R404 PTZ_TXD HM102 R405 PTZ_RXD...
Page 163 TILT BOARD (CN3) VIDEO BOARD CN902 Pump up Reg. DC-DC Converter DC-DC Converter (IC1153) (IC1152) (D1156,Q1151,etc.) +3.3V -5.0V +12.0V +12.0V -5.0V +3.3V (+12.0 ± 0.36V) (-5.0 ± 0.5V) (+3.3 ± 0.3V) V-Driver Main IC (IC802) (IC803,IC902,etc.) (IC902) CN904 CN801 CN1001 CN1101 LENS BOARD CCD BOARD...
Page 164 (DC Jack) BASE Block (RJ -45) (I/O) ( 3.5 DIN) PAN Block (EIAJ) (Audio) TILT Block (Camera unit) +12V CCD Board +12Vreg Audio Block Block /-5V LENS (Z57) [ IC1101] +3.3V RJ45 Module DC -DC [ CN505] Circuit Focus Motor LENS Board +3.3V Focus...

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