advertisement
Order No.KMS0705340CE
F15
Network Camera
BB-HCM580A
(for U.S.A.)
© 2007 Panasonic Communications Co., Ltd. All rights reserved. Unauthorized copying and distribution is a violation of law.
BB-HCM580A
TABLE OF CONTENTS
PAGE
1 Warning -------------------------------------------------------------3
1.1. Battery Caution ---------------------------------------------3
1.2. About Lead Free Solder (PbF: Pb free) --------------3
1.3. For Service Technicians ----------------------------------4
1.4. Trademarks --------------------------------------------------4
2 Specifications -----------------------------------------------------5
3 Features -------------------------------------------------------------7
4 Technical Descriptions -----------------------------------------8
4.1. CPU Peripheral Block-------------------------------------8
4.2. Camera Block(Image signal processing,
LENS control) -----------------------------------------------9
4.3. Image Compression Block----------------------------- 12
4.4. LAN Block -------------------------------------------------- 13
4.5. Pan and Tilt Motor Control Circuit-------------------- 14
4.6. Power Supply Block ------------------------------------- 15
4.7. Others ------------------------------------------------------- 16
5 Location of Controls and Components -----------------17
6 Installation Instructions --------------------------------------18
6.1. Installation Guide----------------------------------------- 18
6.2. Setup Guide ----------------------------------------------- 21
7 Troubleshooting Guide ---------------------------------------23
7.1. Basic Operation------------------------------------------- 23
7.2. Other Function Check---------------------------------- 24
7.3. Power Supply Block Check---------------------------- 25
7.4. CPU Peripheral Block Check ------------------------- 26
7.5. LVDS Block Check--------------------------------------- 27
7.6. Image Block Check -------------------------------------- 28
7.7. LAN Block Check----------------------------------------- 29
7.8. Motor Block Check--------------------------------------- 30
7.9. Lens Block Check---------------------------------------- 31
7.10. I/O Terminal Check -------------------------------------- 33
7.11. SD Card Block Check----------------------------------- 34
7.12. RTC Circuit Check --------------------------------------- 35
7.13. LED Circuit Check --------------------------------------- 36
7.14. Diagnosis NG Check ------------------------------------ 37
7.15. Version Upgrade Check -------------------------------- 38
7.16. Resetting the Camera----------------------------------- 39
7.17. How to Change MAC Address Label---------------- 40
7.18. How to Replace a Flat Package IC ------------------ 41
8 Disassembly and Assembly Instructions --------------42
8.1. Disassembly Instructions------------------------------- 42
9 Measurements and Adjustments -------------------------48
9.1. Adjustment------------------------------------------------- 48
9.2. Tools and Equipment for Adjustment and
Repair ------------------------------------------------------- 49
9.3. HP Light Box (High-Precision) Operating
Instructions------------------------------------------------- 50
9.4. Lens Adjustment Procedure--------------------------- 52
9.5. Video Adjustment Procedure-------------------------- 53
10 Block Diagram --------------------------------------------------54
11 Schematic Diagram --------------------------------------------55
11.1. For The Schematic Diagram -------------------------- 55
11.2. Schematic Diagram-------------------------------------- 56
11.3. Waveform -------------------------------------------------- 70
12 Printed Circuit Board -----------------------------------------75
12.1. CPU Board (Component View) ----------------------- 75
12.2. CPU Board (Bottom View) ----------------------------- 76
12.3. Tilt Board (Component View)------------------------- 77
2
PAGE
12.4. Tilt Board (Bottom View) ------------------------------ 77
12.5. Lens Board (Component View)---------------------- 78
12.6. Lens Board (Bottom View)---------------------------- 78
12.7. Video Board (Component View) -------------------- 79
12.8. Video Board (Bottom View) -------------------------- 79
12.9. CCD Board (Component View)---------------------- 80
12.10. CCD Board (Bottom View)---------------------------- 80
12.11. IO Board (Component View) ------------------------- 81
12.12. IO Board (Bottom View) ------------------------------- 82
13 Appendix Information of Schematic Diagram -------83
13.1. Terminal Guide of ICS, Transistors and
Diodes ------------------------------------------------------ 83
14 Exploded View and Replacement Parts List ----------84
14.1. Cabinet and Electrical Parts Location -------------- 84
14.2. Accessories and Packing Materials ---------------- 85
14.3. Replacement Parts List -------------------------------- 86
BB-HCM580A
1 Warning
1.1.
Battery Caution
Danger of explosion if the battery is replaced incorrectly. Replace only with the same or equivalent type recommended by the manufacturer. Discard used batteries according to following caution:
Disposal or transportation of lithium batteries should be performed by permitted, in accordance with federal, state and local guidelines.
A battery continues to have no transportation limitations as long as it is separated to prevent short circuits and packed in strong packaging.
Commercial firms that dispose of any quantity of lithium cells should have a mechanism in place to account for their ultimate disposition. This is a good practice for all types of commercial or industrial waste.
When the lithium battery is exchanged, the clock settings are cleared. In this case, make clock settings again.
Recommend Type Number:
CR2032/H98 (BAT101) Manufactured by MATSUSHITA
CR Coin Cell Lithium Battery Information:
This product contains a CR Coin Cell Lithium Battery which contains Perchlorate Material - special handling may apply.
See www.dtsc.ca.gov/hazardouswaste/perchlorate
1.2.
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.
Caution
• PbF solder has a melting point that is 50 ° F ~ 70 ° F (30 ° C ~ 40 ° C) higher than Pb solder. Please use a soldering iron with temperature control and adjust it to 700 ° F ± 20 ° F (370 ° C ± 10 ° C).
• Exercise care while using higher temperature soldering irons.:
Do not heat the PCB for too long time in order to prevent solder splash or damage to the PCB.
• PbF solder will tend to splash if it is heated much higher than its melting point, approximately 1100 ° F, (600 ° C).
• 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).
3
BB-HCM580A
1.2.1.
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.
1.3.
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.
1.4.
Trademarks
• Adobe and Acrobat are either registered trademarks or trademarks of Adobe Systems Incorporated in the United States and/or other countries.
• Ethernet is a registered trademark of Xerox Corporation in the United States and/or other countries.
• Microsoft, Windows and Active X are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries.
• Pentium is a 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.
4
BB-HCM580A
2 Specifications
Zoom
Pan/Tilt Angle
Items
Number of Pixels
Illuminance
White Balance
Lens Brightness
Focus
Minimum Object Distance
Aperture (F No.)
Horizontal Viewing Angle
Vertical Viewing Angle
Exposure
Shutter Speed
Items
Image Compression
Image Resolution
Buffered Images
*2
Video Output
Video Output Terminal
*3
External Input/Output Interface
SD Card Slot
Frame Rate *4
Communication Protocols
Image Buffer/Transfer Triggers
Image Transfer Method
LAN Interface
Indicator Display
Dimensions (WxHxD)
Weight (Main Unit Only)
Power Supply
Power Consumption
Operating Temperature
Operating Humidity
Camera Specifications
Specifications
42 × zoom (21 × optical zoom, 10 levels, 2 × digital zoom, 2 levels)
Pan: -175 ° to +175 °
Tilt: -120 ° to 0 ° (ceiling mount); 0 ° to +90 ° (table mount)
1/4 inch CCD sensor, 320,000 pixels
2-100,000 lx *1 (0.09-100,000 lx when in Color Night View mode)
Auto/Manual/Hold
9 levels
Auto or Manual (40 levels)
Normal: 1 m-Infinity
Macro: 5 mm-Infinity
Normal
Wide: 1 m (3 feet 3 inches)
Tele: 1 m (3 feet 3 inches)
Macro
Wide: 5 mm (3/16 inches)
Tele: 1 m (3 feet 3 inches)
Wide: F1.6
Tele: F3.6
Wide: 51 °
Tele: 2.6 ° (21 × optical zoom); 1.3 ° (42 × zoom)
Wide: 38 °
Tele: 1.9 ° (21 × optical zoom); 0.9 ° (42 × zoom)
Auto
1/30 s, 1/100 s, 1/250 s, 1/500 s, 1/1000 s
Other Specifications
Specifications
JPEG (3 levels), MPEG-4
640 × 480, 320 × 240, 192 × 144
About 350 frames (320 × 240, standard image quality) with time display(when SD memory card is not inserted)
Analog composite (NTSC/PAL)
3.5 mm jack
External sensor input x 2
External output x 1
Full size
Max. 30 frames/second (640 x 480 *5 , 320 x 240, 192 x 144)
IPv4/IPv6 Dual-Stack
IPv4:
TCP, UDP, IP, HTTP, FTP, SMTP, DHCP, DNS, ARP, ICMP, POP3,NTP, UPnP™, SMTP Authentication,
RTP, RTSP, RTCP
IPv6:
TCP, UDP, IP, HTTP, FTP, SMTP, DNS, ICMPv6, POP3, NDP, NTP,RTP, RTSP, RTCP
Timer, Alarm 1, Alarm 2, Motion Detection
SMTP
*6
, FTP, HTTP
10Base-T/100Base-TX Ethernet RJ-45 connector
Power
Camera Operation
Ethernet Link
123 mm × 140 mm × 123 mm
(4 13/16 inches × 5 1/2 inches × 4 13/16 inches)
640g (1.41lb.)
AC adaptor: Input 100-120 V AC, 50/60 Hz
Output 12 V DC, 750 mA
About 5.5 W (10.5 W during pan/tilt scan)
Operation: +0 ° C (+32 ° F) to +40 ° C (+104 ° F)
Storage: +0 ° C (+32 ° F) to +50 ° C (+122 ° F)
Operation: 20 %-80 % (no condensation)
Storage: 20 %-90 % (no condensation)
5
BB-HCM580A
*1 When the shutter speed in 1/30 s.
*2 See Operating Instructions for details.
*3 Use only the included Audio/Video Cable when connecting a TV.
*4 Frame rate may slow down depending on the network environment, PC performance, image quality, SD memory recording, when viewing dark images, etc.
*5 30 frames/second is not possible when viewing MJPEG images at 640 × 480 resolution.
*6 The camera supports POP Before SMTP Authentication and SMTP Authentication. PLAIN, LOGIN, and CRAM-MD5 SMTP
Authentication are supported.
6
BB-HCM580A
3 Features
Zoom features
The camera features an optical zoom that allows you to magnify images by up to 21 × (10 levels of zoom) and a digital zoom that allows you to further magnify images by up to 2 × (2 levels of zoom), for a total zoom range of 42 × .
Automatic and manual focus feature
Focusing can be adjusted manually or automatically, allowing you to control the camera’s focus to suit your needs.
On-site and remote camera monitoring
Camera images can be monitored from a PC, both on-site and over the Internet. You can even use your mobile phone to view still images when you’re out of the house.
MPEG-4 and Motion JPEG (MJPEG) support
Live camera images can be viewed and buffered (i.e., stored in memory) in both MPEG-4 and JPEG (MJPEG) formats, allowing you to select the video format that best suits your needs.
Audio features
By connecting a microphone to your PC and an external speaker to the camera, you can talk to someone while seeing their image on your PC screen. If you have speakers or headphones connected to your PC, the person on the camera side can talk to you using a microphone connected to the camera.
Motion detection feature
The camera’s motion detection feature allows you to buffer or transfer camera images when the camera detects motion in the camera image.
Camera image buffering and playback
Camera images can be automatically buffered at specific times, when the camera’s external sensors (customer-provided) are triggered, or when the camera detects motion. You can program the camera to buffer these camera images, and then you can play back these images later while accessing the camera or save them to your PC. You can also program the camera to transfer images by E-mail or upload them to an FTP or HTTP server as they are being buffered.
PoE (Power over Ethernet) ready
The camera is compliant with PoE (IEEE 802.3af) standards, and contains a power receiving device that enables it to receive power from the same Ethernet cable used for network connection. This allows you to mount the camera in locations where there is no power outlet nearby, saving you the cost of installing a new power outlet. In addition, power can be supplied to the camera using an Ethernet cable of up to 100 m (about 328 feet) long, allowing you more freedom to install the camera wherever you want. PoE connection requires a PoE compliant hub or similar device. An optional AC adaptor can be used instead of a PoE connection if you want to connect the camera to a standard AC outlet.
SD memory card support
Camera images can be recorded to an optional SD memory card in addition to the camera’s internal memory.
The camera supports Panasonic SD memory cards from 64 MB to 2 GB in capacity, allowing you to store thousands of camera images on a single card.
UPnP™ support
When connecting the camera to a UPnP™ compatible router, the camera’s network settings can be automatically configured, making setup quick and easy. For more information, see Operating Instructions.
Viewnetcam.com support
After registering your camera with the Viewnetcam.com service, you can access the camera while away from home using an easy to remember Internet address of your choosing, such as ***.viewnetcam.com. For more information, see Operating
Instructions.
Multi-language support
The most commonly used camera pages can be displayed in English, French, German, Italian, Spanish, Russian, Simplified
Chinese, Korean, and Japanese. All camera pages can be displayed in English, French, Simplified Chinese, and Japanese.
7
BB-HCM580A
4 Technical Descriptions
4.1.
CPU Peripheral Block
• The IC102 is a system LSI for a network camera containing the CPU
• The power supply voltages are +3.3V (I/O) and +1.2V(inside).
• The CPU is performs mainly hardware control, TCP/IP protocol processing and applications such as http and FTP.
• The clock setting is 27MHz, 48MHz, 57MHz and 108MHz by inside, which multiphy 48MHz oscillation in the X101 by PLL.
• There are two types of external bus: the General-purpose bus and the bus for SDRAM only.
• The General bus is connected to a Flash Memory for program storage.
• The capacity of the Flash Memory (IC104) is 64Mbit (2Mx16bit); the program, the setting information for the network camera and the MAC address are stored.
• Two SDRAMs (IC103/106) of 128Mbit (8Mx16bit) are used, which are connected to CPU with bus width of 32bit, and are available for CPU processing work, storage of communication data, and storage of audio/image data.
• The RESET IC (IC101) monitors the power supply voltage, detects the rising edge of +3.3V and generates the Hardware Reset
Signal.
• IC110 is RTC (Real Time Clock), and is used for time setting of image transfer, etc. This is backed up by a lithium battery on the
IO board (BAT101) even at the time of power OFF. I2C Bus is used as I/F with CPU.
• There is an RTC block inside IC102, and this inside RTC block operates during the existence of electricity by importing the clock data from IC110 at the time of power ON.
• IC102 is equipped with the GPIO terminal, which is used for motor control, IO terminal control, etc.
• An SD memory card control block is included on IC102, and used by connecting an SD card slot (CN101).
• There is a green LED (LED101) near the SD card slot, and it lights while the SD card is being accessed.
• When LED(LED101) is turned off by pressing the FUNCTION switch(SW103) and the access to the SD card, the SD card can be safely pulled out.
8
4.2.
Camera Block(Image signal processing, LENS control)
[CCD Board, VIDEO Board]
BB-HCM580A
• IC701 is a CCD image sensor of approximately 320 thousand pixels, which outputs the image signal (CCD_OUT) of an VGA
(640x480) size.
• IC803: This IC is to remove noise in the CCD_OUT signal, adjust the gain and output the 10-bit data (AFE_D[9:0]).
The pixel clock (PCLK: 12.2727MHz) and CCD_Hdrive signal are output based on the timing of the synchronizing signals
(HD_AFE and VD_AFE) that are generated by the CLOCK signal from the IC804.The synchronizing signals (HD_AFE and
VD_AFE) are output from the CPU (IC102) on the CPU board.
The pixel clock (PCLK) and 10-bit data (AFE_D [9:0]) that are output from the IC803 are entered in the LVDS Transmitter IC on IC806, and after being parallel-serial converted, they are converted into the two-wire differential signals. Then the signals are transmitted to the LVDS Receiver IC (IC121) on the CPU board. In the LVDS Receiver IC (IC121), the signals are then serial-parallel converted to recover the pixel clock and the 10-bit data, which are entered into the CPU (IC102). (Refer to Fig.
1.)
• Frequency of the IC803 clock (CLOCK signal) is 24.5454MHz and the clock signal is generated in the IC804 based on timing of the crystal oscillator (X801).
• The IC803 is controlled by the serial signals (CS_AFE, SDI, and SCL) in the CPU (IC102).
The SDI and SCL signals in the serial signals are shared and used in the DA converter (IC903) and the motor driver (IC901) that are mounted on the LENS board. (Refer to Fig. 2.)
• Hard reset (RESET) of IC803 is controlled by GPIO of IC102 on the CPU board.
• IC802 receives the V drive timing signals (Vdrive: CH1, CH2, and XV1-XV4) from the IC803, and outputs the IC701 (CCD) drive
V drive signal (CCD_Vdrive: V1-V4).
• The power supplies used in the camera unit are generated +15V and -5.5V in the IC801 and +3.3V from the +5.7V power supplied from the TILT board.
The power supplies are generated +15V and -5.5V in the IC801 and +3.3V and -0.4V in the IC809 for driving the CCD.
Figure 1 Video Signal Transmission via LVDS
9
BB-HCM580A
Figure 2 Sharing of Serial Signals (SDI and SCL)
[CPU Board]
• Pixel clock and 10-bit RAW data that are output from the IC803 are transmitted to the LVDS Receiver IC (IC121) on the CPU board via the LVDS Transmitter. In the LVDS Receiver IC (IC121), they are serial-parallel converted to recover the pixel clock
(CAM_CLK) and 10-bit RAW data (CAMD [11:2]), and the recovered pixel clock and 10-bit RAW data are entered into the CPU
(IC102).
• In the VIDEO SIGNAL Processor unit that is imbedded in IC102, the RAW data is subjected to such signal processing as OB clamping, white balancing, and É¡ processing, then the RAW data is temporary recorded in the external SDRAM. The RAW data is subjected to the three-step processing that is composed of pixel correction, YC generation and scaling, and the data after the processing is recorded in the same external SDRAM as the image data.
• The synchronizing signals (CCDHD and CCDVD) and AFE control serial signals (AFE_LD, SDI, and SCL) from the CPU
(IC102), are sent to the AFE IC (IC803) on the VIDEO board via CN102 .
[LENS Board]
Camera has 21 X optical zoom lens. This lens unit has the ZOOM lens drive motor, the FOCUS lens drive motor, the IRIS unit, and the position detection circuit for ZOOM and FOCUS lens, respectively. These components are controlled from the CPU
(IC102) on the CPU board.
10
BB-HCM580A
[LENS drive motor control]
The CPU controls the driver (IC901) for the LENS motor drive that is mounted on the LENS board by the three-wire serial signals (SDI, SCL, and MO_LD) and by the motor drive timing signal (VD_MOT). The output current, pulse period, and the number of pulses are also set up by the driver. This LENS motor drive driver (IC901) controls both of the ZOOM lens drive and FOCUS lens drive motors using the micro step drive control method. The power supply to drive the motors is +5.7V that is supplied by the DC-DC converter circuit on the TILT board via the VIDEO board.
[IRIS drive control]
The IRIS has been adjusted in the factory and the adjusted values are saved in the Flash memory (IC104) on the CPU board. In the initialization process when the power is turned ON, the adjusted values are written in the DA converter (IC903) on the LENS board. No subsequent process to write the data into the DA converter will be carried out. Once the adjusted values are written in the DA converter, the output voltage from the DA converter can be controlled. The DA output is applied in the IRIS control circuit. The IRIS unit of the lens is controlled with the method called the Pulse Width Modulation (PWM).
[LED control]
Red and green LEDs are used in the LED (LED901) indicator. LEDs are turned on, blinked or turned off by turning ON/OFF the transistors (Q901 and Q902) that are connected to the LEDs. The transistors are turned ON/OFF from the output port of the
CPU (IC102) on the CPU board.
LED_R
H
H
L
L
LED_G
H
L
H
L
Q901
ON
ON
OFF
OFF
Q902
ON
OFF
ON
OFF
LED COLOR
Orange
Red
Green
OFF the light
11
BB-HCM580A
4.3.
Image Compression Block
• Image compression (JPEG/MPEG-4 encode) function, memory control unit (MCU), ETHERNET MAC, and SD card controller are built into IC102.
• Picture data input from the camera block is captured in SDRAM (1).
• Captured image data is input to the ZOM block, where the scaling of the image size is done, (an image size of 640 x 480, 320 x
240, or 192 x 177 is generated from the one with the size of 1280 x 1024, or an image size of 320 x 240 or 192 x 177 from the one with the size of 640 x 480), and is stored in SDRAM again (2).
• The scaled image data is input to the JPEG/MPEG-4 encode section of IC102, and the image is compressed. The compressed image data is stored in SDRAM again (3).
• After CPU processed the compressed image data for a communication protocol, the data is forwarded to the network via ETH-
ERNET MAC and ETHERNET PHY. And the image data of post-compression is processed for a file and is recorded on the SD card.
• As for the video output, the captured image data is scaled to a size of NTSC or PAL at the ZOM block, and then it is output from
VIDEO OUT and DAC sections as an analog video signal.
• This analog video signal is amplified by the video amplifier (IC109) and output from CN604 on the IO board with the output impedance of 75 Ω .
12
BB-HCM580A
4.4.
LAN Block
Composed of ETHERNET MAC Block inside of the IC102 and the IC105 (ETHER-PHY) on the CPU board, and the T601
(Transformer) and the CN605 (RJ45 jack) on the IO Board.
The T601 (Transformer) obtains isolation between the Set and the Ethernet.
ETHERNET MAC and the IC105 (ETHER-PHY) are connected by a signal called MIIBus and it makes Ether net data sending and receiving possible.
Sending
The communication data sent from the IC102 is converted to Ethernet signal (100Base-Tx, 10Base-T) at the IC105 and sent from the CN605 through the T601.
Receiving
The Ethernet signal received from the CN605 is converted to the communication data at the IC105 and received to the IC102.
13
BB-HCM580A
4.5.
Pan and Tilt Motor Control Circuit
PAN drive motor and TILT drive motor are driven under the control from the CPU (IC102).
[PAN drive control]
PAN drive control circuit is mounted on the CPU board.
For the PAN drive control, the CPU (IC102) generates a variety of pulses that are applied to the PAN motor diver (IC120) to control the speed and direction of the rotation of the motor. In addition, current to the PAN motor is controlled by applying the reference voltage to the motor driver (IC120). The reference voltage is generated based on the DA output from the DA converter
(IC119) that is connected to the data bus of the CPU (IC102) and the current to the PAN motor is used to control the torque of the PAN motor and to micro-step drive (2W1-2) the motor. The micro step drive is the method to increase the rotational resolution of the motor, and with this method of the micro step drive the accuracy of 0.9375
° (7.5
° /8) has been achieved for the PAN motor minimum step angle of 7.5
° . The motor control signal from the motor driver (IC120) for the PAN drive is applied to the PAN drive motor via the 4-pin connector (CN104).
In the position control, the home position for the PAN control is detected by the PAN sensor (IC116; photo coupler) when the power is turned on, and then the position is open-loop controlled by the software. In order to remove variations among products, the output from the PAN sensor (IC116) is input into the comparator (IC107) and the output (PAN_S) from the comparator is detected in the CPU (IC102).
The motor drive power supply (VM voltage) for the PAN drive motor driver (IC120) is +12V that is supplied from the IO board.
[TILT drive control]
The TILT drive control circuit is mounted on the TILT board.
The TILT motor driver (IC954) and TILT sensor (IC952) are mounted on the CPU board.
For the TILT drive control, the CPU (IC102) on the CPU board generates a variety of pulses that are applied to the TILT motor driver (IC954) to control the speed and direction of the rotation of the motor. Since the TILT drive control does not require such rotational resolution as required in the PAN drive control, but the “W1-2” control method is used. In the TILT drive unit, the accuracy of 1.875
° (7.5
° /4) has been achieved for the TILT motor minimum step angle of 7.5
° . The motor control signal from the motor driver (IC954) for the TILT drive is applied to the TILT drive motor via the 4-pin connector (CN953).
In the position control, the home position for the TILT control is detected by the TILT sensor (IC952; photo coupler) when the power is turned on, and then the position is open-loop controlled by the software. In order to remove variations among products, the output from the TILT sensor (IC952) is input into the comparator (IC107) on the CPU board and the output (TILT_S) from the comparator is detected in the CPU (IC102).
The motor drive power supply (VM voltage) for the TILT drive motor driver (IC954) is +12V that is supplied from the IO board via the CPU board.
14
BB-HCM580A
4.6.
Power Supply Block
The above figure shows the flow to supply power.
[Power supply circuit on the IO board]
• The DC powers of +12V and +3.3V are generated on the IO board.
• The +12V power is supplied by the AC adaptor. This +12V power is used on the following boards:
- IO board : +3.3V DC-DC converter circuit and output terminal of the IO terminal (CN601)
- CPU board : Power supply to drive the PAN motor drive driver
- TILT board : Power supply to drive the TILT motor drive driver, and DC-DC converter circuit for +5.7V that is supplied to the camera unit
*The +12V power is mainly used as the power to drive the PAN and TILT motors and as the source power of the +5.7V DC-
DC converter in the camera unit. The +12V power for the +5.7V DC-DC converter in the camera unit is separated from the
+12V power for driving the PAN/TILT motor in the common mode filter (L124) on the CPU board.
• The +3.3V power is generated from the +12V power in the DC-DC converter circuit (IC603). It is used on the following boards:
- IO board : Audio circuit and IO terminal unit
- CPU board : All of the +3.3V power supply
[Power supply circuit on the CPU board]
• On the CPU board, the +1.2V power used in the circuits internal to the CPU (IC102) is generated in the regulator (IC117).
[Power supply circuit on the TILT board]
• On the TILT board, the +5.7V power used in the camera unit is generated in the DC-DC converter unit (IC953) using the +12V power that is supplied from the IO board via the CPU board. This +12V power is used on the following boards:
- TILT board : Power supply to the TILT motor drive driver
• +5.7V power is used on the following boards.
- VIDEO board: DC-DC converter circuit (IC805) to generate the +3.3V power used in the camera unit
Power supply circuit (IC801) to generate the +15V and -5.5V powers to drive the CCD
- LENS board : Motor drive power supply to drive the FOCUS and ZOOM motors in the LENS unit
[Power supply circuit on the VIDEO board]
On the VIDEO board, four powers of +3.3V, +15V, -5.5V, and -0.4V are generated from the +5.7V power supplied from the TILT board.
The following two power supply circuits are mounted:
• The +3.3V power is used on the following boards:
- VIDEO board: All of the +3.3V
- LENS board : Power supply to the LENS motor drive driver, and power supply to drive the LED (LED901)
• The +15V and -5.5V powers are used on the following boards:
- VIDEO board: V driver circuit (IC802) to drive the CCD
- CCD board : CCD drive power supply
• The -0.4V power is used on the following board :
- VIDEO board: V driver circuit (IC802) to drive the CCD
*The -0.4V power is generated from the -5.5V power supply (IC809).
15
BB-HCM580A
4.7.
Others
[I/O Terminal]
• The Input terminal has two systems; both of them are connected to the Input Port of the IC102 GPIO.
• Due to Internal Pull-up Resistance, the PNP Transistor (Q600, Q605) on the following level 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.
• 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 IC102. When the Port output is L, the transistor (Q606) on the following level 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.
[CLEAR SETTING SW(SW102)]
• The Clear Setting SW (SW102) mounted on the CPU board 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(IC102) monitors this Input Port periodically and, if it detects that this SW is pressed longer than a specified period, the setting values other than the RTC are returned to factory settings.
16
5 Location of Controls and Components
BB-HCM580A
*1 Understanding the Camera Indicator
The camera’s indicator lights as follows according to the status of the camera. Understanding how and when the indicator lights can help you troubleshoot problems with the camera.
Camera Status or Operation
Normal Operation
When power is turned on (camera is starting up)
Obtaining IP address via DHCP
LAN cable not connected or no LAN connection
Automatic Setup In progress
Completed
Updating firmware
Factory reset (by software or by pressing the FACTORY DEFAULT
RESET button)
UPnP TM port forwarding error
Camera failure
Indicator Color and Pattern
Green
Orange → Flashing orange
Flashing green
Orange
Flashing green
Green
Flashing orange
Flashing orange → Off → The camera restarts)
Flashing orange (2-second intervals)
Flashing red
17
BB-HCM580A
6 Installation Instructions
6.1.
Installation Guide
18
19
BB-HCM580A
BB-HCM580A
20
6.2.
Setup Guide
BB-HCM580A
21
BB-HCM580A
22
7 Troubleshooting Guide
7.1.
Basic Operation
BB-HCM580A
23
BB-HCM580A
7.2.
Other Function Check
24
7.3.
Power Supply Block Check
BB-HCM580A
25
BB-HCM580A
7.4.
CPU Peripheral Block Check
26
7.5.
LVDS Block Check
BB-HCM580A
27
BB-HCM580A
7.6.
Image Block Check
28
7.7.
LAN Block Check
BB-HCM580A
29
BB-HCM580A
7.8.
Motor Block Check
30
7.9.
Lens Block Check
BB-HCM580A
31
BB-HCM580A
32
7.10. I/O Terminal Check
BB-HCM580A
33
BB-HCM580A
7.11. SD Card Block Check
34
7.12. RTC Circuit Check
BB-HCM580A
35
BB-HCM580A
7.13. LED Circuit Check
36
7.14. Diagnosis NG Check
BB-HCM580A
37
BB-HCM580A
7.15. Version Upgrade Check
38
7.16. Resetting the Camera
You can reset all of the camera’s settings to their factory default settings.
1. Click the [Maintenance] tab.
2. On the left side of the screen under [Maintenance], click [Reset to Factory Default].
BB-HCM580A
3. Click [Execute].
• The indicator flashes orange, and then turns off for a few seconds.
Note
• Do not turn off the camera while the camera is being reset. When the lens finishes panning and tilting, it is safe to turn off the camera.
• When the camera is reset, the following information will be deleted:
- All images buffered in the internal memory
- All alarm logs
- All camera settings (including the user name, password, IP address, subnet mask etc.)
The network connection mode changes to [Automatic Setup]. Reconfigure the camera by referring to the Setup Guide.
• When the camera is reset, the internal clock will not be reset, but the time format will be set to AM/PM mode. Change the setting if necessary
• See Operating Instructions for a list of the camera’s default settings.
7.16.1. Resetting the camera using the FACTORY DEFAULT RESET button
You can also reset all of the camera’s settings to their factory default settings by pressing the FACTORY DEFAULT RESET button for about one second with a pointed object. The camera must be turned on in order to reset it.
39
BB-HCM580A
7.17. How to Change MAC Address Label
MAC address label caution
When you replace the CPU board, you must also attach the new MAC address label(included with the CPU board). Attach the new MAC address label to to the unit by placing over the old MAC address label. Make sure the old address cannot be seen.
Throw away the old main board. It cannot be reused.
(IF the MAC address of the old CPU board is already registered via DDNS and thenused in a different camera, the camera cannot be used with DDNS service.)
40
BB-HCM580A
7.18. How to Replace a Flat Package IC
7.18.1. 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) (P.3).
7.18.2. Procedure
1. Tack the flat pack IC to the PCB by temporarily soldering two diagonally opposite pins in the correct positions on the PCB.
7.18.3. 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.
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.
41
BB-HCM580A
8 Disassembly and Assembly Instructions
8.1.
Disassembly Instructions
MAC address label caution
When you replace the CPU board, you must also attach the new MAC address label(included with the CPU board). Attach the new MAC address label to to the unit by placing over the old MAC address label. Make sure the old address cannot be seen.
Throw away the old CPU board. It cannot be reused.
(IF the MAC address of the old main board is already registered via DDNS and thenused in a different camera, the camera cannot be used with DDNS service.)
8.1.1.
How To Remove CPU Board and I/O Board
1. Remove three Screws (C). And remove the Cabinet Cover.
2. Remove the Screw (B). And remove the I/O Board.
42
3. Remove the Lead Wire and the two FFCs from the Connectors.
4. Remove three Screws (B). And remove the CPU Board.
BB-HCM580A
43
BB-HCM580A
8.1.2.
How To Remove Tilt Board
1. Remove the two Pan Screw Covers.
2. Remove four Screws (C), and remove the two Pan Covers.
Caution:
When remove Pan Screw Covers, please do not to injure Pan Screw
Covers.
3. Remove two FFCs, FPC and Lead Wire from the Connectors.
4. Remove two Screws (A).
44
8.1.3.
How To Remove Video Board, Lens Board and CCD Board
• 1,2 are the same as 8.1.2. How To Remove Tilt Board .
3. Remove eight Screws (A).
BB-HCM580A
4. Remove the Upper Tilt Cover. And remove the Lower Tilt Cover.
5. Remove the FFC (1), FFC (2) and FPC from the Connector.
6. Remove two Screws (A). And remove the Video Board.
7. Remove two Screws (A). And remove the Lens Board.
8. Remove two Screws. And remove the CCD Board.
45
BB-HCM580A
8.1.4.
How To Remove CCD Unit
• 1-4 are the same as 8.1.2. How To Remove Tilt Board .
5. Remove the Tilt Board Spacer.
6. Remove two Retaining Rings and three Spacers.
7. Remove Tilt Block Ass’y (Camera Unit) to under direction.
8. Remove the Tilt Belt.
9. Remove the Tilt Block Ass’y (Camera Unit).
46
10. Remove four Screws (A). And remove the Tilt Gear.
11. Remove four Screws (A). And remove the Upper Tilt Cover and the
Lower Tilt Cover.
12. Remove the Lens Cover.
13. Remove the FPC (1) from the Connector. And remove the Cable
Guide.
14. Remove the FFC (1) and Cable from the Connector.
15. Remove three Screws (E). And remove the CCD Unit from the Lens
Guide Ass’y.
BB-HCM580A
47
BB-HCM580A
9 Measurements and Adjustments
9.1.
Adjustment
9.1.1.
When adjustment is unnecessary
Exchanged by a set of CPU board and CCD Unit adjustment unnecessary
9.1.2.
When adjustments are necessary
• When adjustments are necessary in case of exchanged replacement parts.
It is necessary the following adjustment in case of exchanged these replacement parts.
replacement parts
CPU board
CCD board
Lens board
Lens
Optical Filter(LPF)
Iris Adjustment Tracking Adjustment
O
-
O
O
-
O
O
O
O
O
• When adjustments are necessary fault phenomenon.
It is necessary the following adjustment in case of these fault phenomenon.
Video
Adjustment
O
O
O
-
O fault phenomenon
Dark Screen discolored
Out of Focus
Iris Adjustment Track Adjustment
O
-
-
-
O
Video
Adjustment
O
O
-
48
9.2.
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 and VFK1164ND01
• Collimator (Infinity Adjustment Lens)[with Focus Pattern Chart]: VFK1164TCM02
• Attachment Ring: 46mm
(2) LAN Cable [Cross]
(3) Personal Computer
(4) AC Adaptor
(5) HCM5 PTZ CAMERA Service Tool
(6) DC power supply
(7) Camera stand
• Preparation
• Cable Connection
BB-HCM580A
(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) HCM5 PTZ CAMERA Service Tool
(6)DC Power Supply
(7)Camera Stand
Tools and Equipment which need for each adjustment
Zoom Tracking
O
-
O
-
O
O
O
O
O
O
O
O
O
-
-
-
-
O
IRIS
-
-
-
O
O
O
-
-
Note:
Collimator must be inserted all the way into light box until reaching stop point.
49
VIDEO
O
O
-
O
-
O
O
O
O
O
O
O
O
BB-HCM580A
9.3.
HP Light Box (High-Precision) Operating Instructions
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
2
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.
<Specifications>
Size:
Weght:
Power Supply:
Lamp:
Luminance:
90mm (W)~197.5mm (D)~70mm (H)
750 g
External DC regulated power supply
(DC more than 2A)
DC12V 20V halogen lamp (Life: 2,000 hours)
1,900 cd/m
2
±100 cd/m
2
(center of the emission face)
(iluminance conversion: 5,900 lux)
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
Homogeneity:
CIE chromaticity coordinate:
Within ±10%
Color temperatur: 3,100 K ±100K
(center of the emission face)
X = 0.430 ±0.02 y = 0.400 ±0.02
Internal filter: LB60 + M50
(modifited: 1.5mm thickeness)
50
BB-HCM580A
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 the height of each camera stand(using coares control) so that the central point of the emission face of the
Light Box aligns with the central point of the camcoder's lens.
2. Detach the end of the collimator (Infinity Adjustment Lens). Be sure to loosen the Light Box's clipping knob before attaching the collimator to 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 camcorder, 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 kinds of thin film filters, use the provided filter mount. To make a slip-in filter with the desired optical characteristics, follow the procedures below.
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)
51
BB-HCM580A
9.4.
Lens Adjustment Procedure
Lens Adjustment consists of 2 items below:
•Iris Adjustment
•Zoom Tracking 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 HCM5 CAMERA Service Tool.
(2) Select Model No. BB-HCM580.
(3) Power on the Set.
1. Iris Adjustment
Equipment
•None
Procedure
1. Connect the Set from PC through LAN.
2. Press the [Iris] button.
•Adjustment completes with no error → Displays “Adjustment OK”
•Adjustment comes out an error → Displays “Adjustment NG”
3. If “Adjustment NG” is displayed, see SECTION 7.6 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 TELE 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 comes out an error → Displays “Adjustment NG”
8. If “Adjustment NG” is displayed, see SECTION 7.6 TROUBLESHOOTING.
3. Auto Adjustment (Iris Adjustment and Zoom Tracking 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 TELE 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”
•Adjustment comes out an error → Displays “Adjustment NG”
5. If “Adjustment NG” is displayed, see SECTION 7.6 TROUBLESHOOTING.
52
BB-HCM580A
9.5.
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. Install the Active-X for the Video Adjustment to the PC.
4. Start-up the HCM5 PTZ CAMERA Service Tool.
5. Select Model No. BB-HCM580.
6. Power on the Set.
7. Execute browser (IE) and open the single camera page.
8. Adjust the set's lens as the same height as the collimator, and perform an image pickup of the inside of the collimator.
9. Press the "Video Adjustment" button.
10. 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.
11. Press the "OK" button.
12. Follow the message after displaying dialog.
13. After displaying "Please shoot Color Chart", set the Color Chart to HP light box. Adjust the position and zoom range so that the Color 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 Figure1.
14. Press the "OK" button.
15. When the adjustment completes with no error, the "Adjustment OK" is displayed.
16. When the adjustment comes out an error, the "Adjustment NG" is displayed.
16-1. When Security Warning window is displayed under the address bar, please execute next steps.
16-2. Click security warnig.
16-3. Permit the blocked contents.
16-4. In the case of "Adjustment NG", see SECTION 7.6 TROUBLESHOOTING.
Note:
Collimator must be inserted all the way into light box until reaching stop point.
• Viewing angle when taking the Color Chart
Figure1
53
BB-HCM580A
10 Block Diagram
N_P_DOWN
+3.3V
+12V
[CN954]
27pin
[CN804]
27pin
1/2 clock division
[CN804]
21pin
SUB V,
[CN701]
21pin
54
[CN902]
18pin
VIDEO_OUT
11 Schematic Diagram
11.1. 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.
BB-HCM580A
55
BB-HCM580A
11.2. Schematic Diagram
11.2.1. CPU Board
+3.3V
DGND
FROM_CS
CPUREB
CPUWEB2
1
SW102
2
3
5
4
(Power Reset)
2
VDD Cd
3
1
GND OUT
IC101
4
R105
0
+3.3V
C111
AD1
AD3
TP_NRESET
C112
6p
X101
48MHz
C113
5p
DGND
0.1u
DGND
DGND
DGND
+3.3V
R103
1K R104
1K
TP_CPUAD0
CPUAD[1]
CPUAD[2]
CPUAD[3]
CPUAD[4]
CPUAD[5]
CPUAD[6]
CPUAD[7]
CPUAD[8]
CPUAD[9]
CPUAD[10]
CPUAD[11]
CPUAD[12]
CPUAD[13]
CPUAD[14]
CPUAD[15]
CPUAD[16]
CPUAD[17]
CPUAD[18]
CPUAD[19]
CPUAD[20]
CPUAD[21]
CPUAD[22]
CPUAD[22-1]
CPUD[31-16]
+3.3V
R128
1K
CPUD[16]
CPUD[17]
CPUD[18]
CPUD[19]
CPUD[20]
CPUD[21]
CPUD[22]
CPUD[23]
CPUD[24]
CPUD[25]
CPUD[26]
CPUD[27]
CPUD[28]
CPUD[29]
CPUD[30]
CPUD[31]
CCD_NRST
N_P_DOWN
SDIO_LED
DAC_NCS
SENS_IN1
TP_CPUCS4
SENS_OUT1
PHO_STOP
TILT_S
PAN_S
TP_CPUWE3B
N_DEFAULT
R108
560
VSSC3
VSSC17
VSSC18
VSSC19
VSSD4
VSSD16
VSSE5
VSSE15
VSSF6
VSSF7
VSSF9
VSSF10
VSSF11
VSSF12
VSSF13
VSSF14
VSSG7
VSSG9
VSSG10
VSSG11
VSSG12
VSSG13
VSSH7
VSSH8
VSSH9
VSSH10
VSSH11
CPUD21
CPUD22
CPUD23
CPUD24
CPUD25
CPUD26
CPUD27
CPUD28
CPUD29
CPUD30
CPUD31
GPIO4/CPUAD23
GPIO5/CPUAD24
GPIO6/CPUAD25
GPIO7/CPUCS2
GPIO8/CPUCS3
GPIO9/CPUCS4
GPIO10/CPUWAIT
GPIO11/CPUCLK_54M
GPIO93/CPUWE0B
GPIO94/CPUWE1B
FROM_CS
CPUREB
CPUWE2B
CPUWE3B
CPUAD0
CPUAD1
CPUAD2
CPUAD3
CPUAD4
CPUAD5
CPUAD6
CPUAD7
CPUAD8
CPUAD9
CPUAD10
CPUAD11
CPUAD12
CPUAD13
CPUAD14
CPUAD15
CPUAD16
CPUAD17
CPUAD18
CPUAD19
CPUAD20
CPUAD21
CPUAD22
VSSA3
VSSA17
VSSB3
VSSB17
VSSC1
VSSC2
CPUD16
CPUD17
CPUD18
CPUD19
CPUD20
D16
E5
E15
F6
F7
F9
F10
F11
F12
F13
A13
E12
C12
D13
B13
D12
B12
C3
C17
C18
C19
D4
F14
G7
G9
G10
G11
G12
G13
H7
H8
H9
H10
H11
C11
B11
D11
A11
E10
B10
D9
C10
A10
A9
D10
B9
C9
E9
B16
C14
E13
B14
D14
A14
C13
F16
F15
D18
D15
E14
A16
C15
E16
B15
A15
A3
A17
B3
B17
C1
C2
A12
E11
F17
G14
E18
C16
E17
D19
G15
G17
G16
F19
F18
D17
E19
DGND
DGND
DGND
+3.3V
SW103
A0 A1
B0 B1
R106
1K
FUNC_SW
DGND
DGND
DGND
TP_EX_BUSY
+3.3V
DGND
DGND
C120
0.1u
L102
+3.3V
PAN2_DIS1 PAN1_PH1
+3.3V
L101
AGND
AGND
AGND
IC102
CCD[11-2]
(1)
+3.3V
AVDD
VDDI
(2)
(3)
AGND
VIDEO
C123
1u
O
(4)
R119
0
AGND
AGND
AGND
BB-HCM580A CPU BOARD No.1 (1/2)
56
BB-HCM580A
(1)
(2)
(3)
(4)
IC102
VDDQ
VDD
SDD18
SDD19
SDD20
SDD21
SDD22
SDD23
SDD24
SDD25
SDD26
SDD27
SDD28
SDD29
SDD8
SDD9
SDD10
SDD11
SDD12
SDD13
SDD14
SDD15
SDD16
SDD17
SDD30
SDD31
VDD9
VDD10
VDD11
VDD12
VDD13
VDD14
VDD15
VDD16
VDD17
VDD18
VDD19
VDD20
VDD21
VDD22
VDD23
VSSV17
VSSV7
VSSV6
VSSV5
SDA11
SDA12
SDD0
SDD1
SDD2
SDD3
SDD4
SDD5
SDD6
SDD7
SDA1
SDA2
SDA3
SDA4
SDA5
SDA6
SDA7
SDA8
SDA9
SDA10
SDBA0
SDBA1
SDDQM3
SDDQM2
SDDQM1
SDDQM0
SDWEB
SDCASB
SDRASB
SDCS
SDCKE
DRAMFCK
VSSU19
VSSU18
VSSU17
VSSU5
VSSU4
VSSU3
VSSU2
VSSU1
VSST16
VSST7
SDA0
A8
B8
C8
D8
E8
F8
G8
N8
N9
P8
R8
T8
L4
K1
L3
L2
L1
U8
V8
W8
V17
V7
V6
V5
K2
K6
K5
H1
J1
G1
K3
J5
H2
K4
D6
C6
C5
C4
H5
G6
B6
B4
H6
B5
D7
B7
F5
C7
A5
F3
G3
G4
A7
A6
D3
E3
F4
E2
G5
T16
T7
D5
E7
E6
E4
D2
E1
F2
J6
H3
F1
H4
J3
J4
G2
L5
J2
A4
U19
U18
U17
U5
U4
U3
U2
U1
DGND
L156
S800
A1
SDD[0]
SDD[1]
SDD[2]
SDD[3]
SDD[4]
SDD[5]
SDD[6]
SDD[7]
SDD[8]
SDD[9]
SDD[10]
SDD[11]
SDD[12]
SDD[13]
SDD[14]
SDD[15]
SDD[16]
SDD[17]
SDD[18]
SDD[19]
SDD[20]
SDD[21]
SDD[22]
SDD[23]
SDD[24]
SDD[25]
SDD[26]
SDD[27]
SDD[28]
SDD[29]
SDD[30]
SDD[31]
SDA[0]
SDA[1]
SDA[2]
SDA[3]
SDA[4]
SDA[5]
SDA[6]
SDA[7]
SDA[8]
SDA[9]
SDA[10]
SDA[11]
DGND SDD[0]
SDD[1]
SDD[2]
SDD[3]
SDD[4]
SDD[5]
SDD[6]
SDD[7]
A2
SDD[16]
SDD[17]
SDD[18]
SDD[19]
SDD[20]
SDD[21]
SDD[22]
SDD[23]
A5
7
6
5
8
RA114
1
2
3
4
47
A4
A3
SDA[10]
SDA[0]
SDA[1]
SDA[2]
SDA[3]
A5
7
6
5
8
RA116
1
2
3
4
47
+3.3V
DGND
SDA[10]
SDA[0]
SDA[1]
SDA[2]
SDA[3]
C157
6.3V10u
C203
R125
0.1u
47
C204
0.1u
VDDQ
C202
R132
R143
R144
C201
C200
0.1u
47
47
47
0.1u
0.1u
IC103
1 VDD1
2 DQ0
3 VDDQ3
4 DQ1
5 DQ2
6 VSSQ5
7 DQ3
8 DQ4
9 VDDQ9
10 DQ5
11 DQ6
12 VSSQ12
13 DQ7
14 VDD14
15 DQML
16 nWE
17 nCAS
18 nRAS
19 nCS
20 BA0
21 BA1
22 A10
23 A0
24 A1
25 A2
26 A3
27 VDD27
VSS54
DQ15
VSSQ52
DQ14
DQ13
VDDQ49
DQ12
DQ11
VSSQ46
DQ10
DQ9
VDDQ43
DQ8
VSS41
NC40
DQMH
CLK
CKE
NC36
A11
A9
A8
A7
A6
A5
A4
VSS28
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
54
53
52
51
50
49
48
47
SDRAM_L
R213
R212
R210
C208
47
47
47
0.1u
C206
R145
0.1u
47
R249 0
C191
R221
R223
R224
C134
C209
6.3V10u
C192
R214
C161
0.1u
47
0.1u
C136
0.1u
47
47
47
0.1u
0.1u
VDDQ
IC106
1 VDD1
2 DQ0
3 VDDQ3
4 DQ1
5 DQ2
6 VSSQ5
7 DQ3
8 DQ4
9 VDDQ9
10 DQ5
11 DQ6
12 VSSQ12
13 DQ7
14 VDD14
15 DQML
16 nWE
17 nCAS
18 nRAS
19 nCS
20 BA0
21 BA1
22 A10
23 A0
24 A1
25 A2
26 A3
27 VDD27
VSS54
DQ15
VSSQ52
DQ14
DQ13
VDDQ49
DQ12
DQ11
VSSQ46
DQ10
DQ9
VDDQ43
DQ8
VSS41
NC40
DQMH
CLK
CKE
NC36
A11
A9
A8
A7
A6
A5
A4
VSS28
48
47
46
45
44
43
42
41
40
39
54
53
52
51
50
49
38
37
36
35
34
33
32
31
30
29
28
DGND
SDRAM_H
R248
R247
R246
C160
47
47
47
0.1u
RA110
47
C194
R241
2
1
4
3
0.1u
8
47
7
5
6
R250 0
DGND
SDA[11]
SDA[9]
SDA[8]
SDA[7]
SDA[6]
SDA[5]
SDA[4]
SDD[15]
SDD[14]
SDD[13]
4
3
2
1
RA115
47
5
6
7
8
SDD[12]
SDD[11]
SDD[10]
SDD[9]
SDD[8]
SDA[11]
SDA[9]
SDA[8]
SDA[7]
SDA[6]
SDA[5]
SDA[4]
A2
A5
SDD[31]
SDD[30]
SDD[29]
SDD[28]
SDD[27]
SDD[26]
SDD[25]
SDD[24]
SDD[31-0]
SDA[11-0]
VDDQ
L103
DGND
NC
1 NC
2 VOUT
3
VSS
CE VIN
5
4
IC115
TP_VDDQ VDDQ
AD2
DGND
+1.2V_VDDI
DGND
DGND DGND
AVDD
DGND
B
E
C
Q101
AGND
VIDEOOUT
BB-HCM580A CPU BOARD No.1 (2/2)
57
BB-HCM580A
CPUAD[22-1]
CPUD[31-16]
CPUWEB2
TP_RD/nBY
CPUAD[17]
+3.3V
CPUAD[16]
CPUAD[15]
CPUAD[14]
CPUAD[13]
CPUAD[12]
CPUAD[11]
CPUAD[10]
CPUAD[9]
CPUAD[20]
CPUAD[21] R122
CPUAD[22]
CPUAD[19]
CPUAD[18]
CPUAD[8]
CPUAD[7]
CPUAD[6]
CPUAD[5]
CPUAD[4]
CPUAD[3]
CPUAD[2]
CPUAD[1]
10K
C3
B2
A2
C2
D2
A4
B4
D3
C4
A3
B1
A1
C1
D1
C5
A5
B5
D4
B3
D6
C6
A6
B6
D5 nRESET
A20
A21
RD/nBY
A18
A17
A7
A6
A5
A4
A3
A2
A1
A15
A14
A13
A12
A11
A10
A9
A8
A19 nWP/ACC nWE
IC104
A16
NC
E6
F6
VSS2
H6
DQ15
G6
E5
DQ7
DQ14
DQ6
F5
H5
DQ13
G5
DQ5
E4
F4
DQ12
DQ4
VDD
H4
G4
DQ11
G3
DQ3
H3
F3
DQ10
DQ2
DQ9
E3
G2
DQ1
H2
DQ8
F2
E2
DQ0 nOE
VSS1
G1
H1 nCE
F1
A0
E1
FLASH ROM
DGND
+3.3V
CPUD[31]
CPUD[23]
CPUD[30]
CPUD[22]
CPUD[29]
CPUD[21]
CPUD[28]
CPUD[20]
CPUD[27]
CPUD[19]
CPUD[26]
CPUD[18]
CPUD[25]
CPUD[17]
CPUD[24]
CPUD[16]
R142
0
AE1
CPUREB
FROM_CS
+3.3V
DGND
DGND
L115
241
DGND
PHY_NRST
MII_MDIO
MII_MDC
MII_RXD3
MII_RXD2
MII_RXD1
MII_RXD0
MII_RXDV
MII_RXCLK
Y3
R124
0
L112
241
+3.3V
MII_RXER
DGND DGND
25M
C164
0.1u
DGND
MII_TXCLK
L114
241
DGND
1 MDIO
2 MDC
3 RXD3/PHYAD1
4 RXD2/PHYAD2
5 RXD1/PHYAD3
6 RXD0/PHYAD4
7 VDDIO7
8 GND8
9 RXDV/PCS_LPBK
10 RXC
11 RXER/ISO
12 GND12
DGND DGND
Y
Y2
MII_TXEN
MII_TXD0
MII_TXD1
MII_TXD2
MII_TXD3
MII_COL
MII_CRS
N_P_DOWN
4
1
X102
3
2
25MHz
R133
1M
R148 0
R149 0
DGND
GND36
GND35
FXSD/FXEN
36
35
34
RX+
33
RX-
32
VDDRX
31
PD# 30
LED3/NWAYEN
29
LED2/DUPLEX 28
LED1/SPD100
LED0/TEST
27
26
INT#/PHYAD0 25
R136
6.80K 1%
DGND
C197
100p
8
7
6
5
RA101
4.7K
2
3
4
C181
0.1u
1
R152
0
R153
0
C178 0.1u
C183
100p
PHY
R141
0
DGND
DGND
DGND
LAN_TX_CP
X3
LAN_TXP
LAN_TXN
LAN_RXP
LAN_RXN
X4
BB-HCM580A CPU BOARD No.2
58
BB-HCM580A
+3.3V
+12V
+3.3V
LAN_TXN
LAN_TXP
LAN_TX_CP
SENS_IN1
A_FCK
A_DTI
A_BCK
A_DTO
VIDEOOUT
C220
1u
AGND
AVDD
R198 0
R201 0
R200 0
R154
47
R158
R159
R160
R161
47
47
47
47
IC109
4
5
6
Vin
GND
V+
Vsag
Vout
PS
3
2
1
C211
6.3V33u
C210
6.3V47u
P
DGND
AGND
CN105
GND1 GND21 1 21
2
3
GND2
LAN_RXN
GND22
LAN_RXP
22
23
LAN_TXN LAN_TXP 24 4
5
6
7
8
9
12
LAN_TX_CP
GND6
+3.3V7
+3.3V8
+3.3V9
+12V11
+12V12
GND25
GND26
+3.3V27
+3.3V28
25
26
27
28
SENS_OUT 29
10 SENS_IN1 SENS_IN2 30
11 +12V31 31
13
14
A_FCK
A_DTO
+12V32
+12V33
32
33
PCM_NCS 34
15
16
A_BCK
A_DTI
PCM_CLK
PCM_D
35
36
17 GND17 GND37 37
GNC 18 VIDEO_OUT
19 GND19
20 GND20
GND39
GND40
38
39
40
R199 0
R202 0
R155
47
R156
47
R162
R163
R164
47
47
47
+12V
(1)
(2)
(3)
(4)
(5)
(6)
(7)
(8)
(9)
C223 NC
AC2
IICSDA
IICSCL
AC1
+3.3V
DGND
AC3
32K R186
1K
1
2
3
4
IC110
INT1 VDD
XOUT
XIN
VSS
SDA
SCL
INT2
8
7
6
5
+3.3V
BAT
+3.3V
D101
DGND
BB-HCM580A CPU BOARD No.3 (1/2)
59
BB-HCM580A
(1)
(2)
(3)
LAN_RXP
LAN_RXN
(4)
(5)
(6)
SENS_OUT1
SENS_IN2
(7)
(8)
(9)
PCM_NCS
PCM_CLK
PCM_D
DGND
2 1
3
D103
+3.3V
Q102
B
C
E
DGND
R117
NC
DGND
AC_STOP
DGND
AD4
+1.2V_VDDI
+1.2V
1 NC
2 GND
3 CE
Vout
5
Vin
4
IC117
GND1 GND2 GND3 GND4
DGND
SDIO_LED
SDIOD3
SDIOCMD
SDIOCLK
SDIOD0
SDIOD1
SDIOD2
SDIOCD
SDIOWP
B
Q106
E
LED
C
R195
LED101
2 1
+3.3V
82
+3.3V
DGND
R187
R188
R189
R190
R191
R192
R193
R194
47
47
47
47
47
47
47
47
DGND
(SD Card)
DGND
CN101
1 SDDAT3
2 SDCMD
3 GND1
4 VSD
5 SDCLK
6 GND2
7 SDDAT0
8 SDDAT1
9 SDDAT2
10 CARDDET
11 COMMON
12 SDWP
13 FG
BB-HCM580A CPU BOARD No.3 (2/2)
60
BB-HCM580A
CN102
1 1
15 15
16 16
17 17
18 18
19 19
20 20
21 21
9 9
10 10
11 11
12 12
13 13
14 14
2 2
3 3
4 4
5 5
6 6
7 7
8 8
L131
L152
NC
R262
4
1
0
3
2
R263
0
L129
R259
169K 1%
L149
L150
L140
L128
L127
L126
DGND
L132
L133
L151
DGND
L125
+12V
R274
56K
DGND
DGND
N2
N3
AFE_LD
SCL
SDI
CCDVD
CCDHD
CCD_NRST
MO_LD
MDR_CLK
DA_LD
PWM
+3.3V
CN103
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
9 9
10 10
11 11
12 12
13 13
14 14
15 15
16 16
17 17
18 18
19 19
20 20
GNDM
DGND
R276
0
+12VM
1
L124
3
2 4
+12V
DGND
R231
R232
R233
R234
R235
L146
L147
L148
L135
R236
R237
L138
L139
R230
470
470
2.2K
2.2K
2.2K
2.2K
2.2K
2.2K
DGND DGND
HALL
ENC_CONT
FENC
ZENC
LED_G
LED_R
TILT_PH2/TILT4
TILT_PH1/TILT1
TILT_I12
TILT_I01/TILT3
TILT_I02
TILT_I11/TILT2
TC_CONT
C1
C2
+3.3V
(1)
(2)
(3)
(4)
(5)
CPUD[31-16]
DAC_NCS
CPUWEB2
CPUAD[22-1]
CPUD[23]
CPUD[22]
CPUD[21]
CPUD[20]
CPUD[19]
CPUD[18]
CPUD[17]
CPUD[16]
6
7
8
9
10
1
2
3
4
5
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
CS
WR
IC119
DGND
VOUTA
VOUTB
AGND
20
19
18
17
REFIN
A/B
16
15
VDD
CLR
14
13
LDAC
PD
12
11
CPUAD[1]
(7)
(6)
(9)
(8)
(10)
(11)
(12)
(13)
(14)
DGND
BB-HCM580A CPU BOARD No.4 (1/2)
61
BB-HCM580A
+3.3V
L121
10u
N1
7
8
5
6
BA117
Y800
2
1
4
3
CCD[5]
CCD[4]
CCD[3]
CCD[2]
CCD[11-2]
(1)
(2)
(3)
C328 100p
R282
NC
L153
10u
C339
100p
C338
0.1u
C337
6.3V10u
42
43
44
45
46
47
48
37
38
39
40
41
GND37
EDGE
OE
LVDSGND40
RXIN-
RXIN+
LVDSGND43
LVDSVDD
RESERVED1
RESERVED2
PLLGND
PLLVDD
IC121
VDDO24
D4
D5
D6
D7
D8
GNDO18
D9
D10
D11
D12
D13
24
23
22
21
20
19
18
17
16
15
14
13
C329
0.1u
C330
100p
C331 0.1u
DGND
L154
10u
C335 0.1u
L277
S241
+3.3V
BA118
Y800
5
6
7
8
L280
Y800
4
3
2
1
L279
Y800
CCD[9]
CCD[8]
CCD[7]
CCD[6]
CCD[10]
CCD[11]
R278
47
B
CCDCLK
(4)
(5)
(6)
(7)
(8)
(9)
(10)
(12)
(11)
(14)
(13)
+3.3V
DGND
2
1
IC116
3
4
DGND
R227
100
C
B
E
Q107
DGND
Z1 Z2 Z3 Z4
R165
10K
AE1
R174
10K
+3.3V
R170
4.7K
R168
100K
IC107
1
OUT_A V+
8
2
A_IN
3
A+IN
B_OUT
7
B-IN
6
4
GND B+IN
5
DGND
C207 0.1u
+3.3V
PAN1_PH1
PAN2_DIS1
PAN3_PH2
PAN4_DIS2
+3.3V
TP403 TP402 C324
0.01u
22
23
24
25
26
17
18
19
20
21
27
28
29
30
31
32
BC2
BC1
VREFA
VREFB
VCC
S5VOUT
GND
PWMSW
PHA1
PHB1
IN0
IN1
IN2
IN3
ENABLEA
TJMON
PAN DRIVER
VPUMP
VM2
NC14
AOUT1
NC12
RCSA
NC10
AOUT2
NC8
BOUT1
NC6
RCSB
NC4
BOUT2
NC2
VM1
8
7
6
10
9
3
2
1
5
4
16
15
14
13
12
11
IC120
NDALDAC
N_P_DOWN
R179
100K
AE2
R266
0.75 1%
R267
0.75 1%
GNDM
L123
10u
+12VM
PAN_S
TILT_S
PHO_STOP
R269
R270
R271
R268
0
0
0
0
GNDM
AF1 AF2 AF3 AF4
CN104
1 PAN_2B
2 PAN_2A
3 PAN_1A
4 PAN_1B
TO PAN Motor
DGND
BB-HCM580A CPU BOARD No.4 (2/2)
62
11.2.2. Tilt Board
10V10u
C968
0.1u
C965
10V33u(NeoCapa)
C964
0.01u
C963
6.49K 1%
R960
1.8K 1%
R961
D951
25V10u
C958
0.1u
C957
25V10u
C956
Camera Unit TO Video Board
TO TILT Motor
1u
C977
47p
47p
47p
47p
C976
C975
C974
C973
From CPU Board
16V47u
C972
0.01u
C966
0.1u
C971
100p
C970
0.1u
100p
C969
C967
NC
R952
0
R951
100p
C951
1u
C954
1u
C953
100
R958
100
R959 10K
R965
1u C961
0.1u
NC
C952
C959
2.2K
R966
15K
R956
39K 1%
R953
C955 1u
30K 1%
R954
63
From CPU Board
BB-HCM580A
BB-HCM580A
11.2.3. Lens Board
1u
C918
1K
R935
0.1u
C929
10K 1%
R907
6.8K 1%
R932
1000p
C925
NC
R926
22K
R922
7
8
5
6
+5
-6
07
8
0.1u
C927
4
+3
-2
01
4
3
2
1
0.1u
C903
1u 10K
C926 R905
2200p
C904
33K R931
NC
C902
470
R914
IC902
7
8
5
6
+5
-6
07
VCC
GND
+3
-2
01
4
3
2
1
0.1u
C923
820K
R925
NC
C920
1u
C917
10V33u
C916
0.1u
C915
330K
R929
3.9K
R927
27K
R930
330K
R928
6.8K
R920
0.1u
C919
NC
R940
1u
C914
47k
R939
100k
R938
0.22u
C930
FAN
25 SDNB
26 VMB
27 VSENHB
28 VSENLB
29 NC29
30 NC30
31 NC31
32 NC32
33 VSENLC
34 VSENHC
35 VMC
36 SDNC
RESET
OSCIN 12
SCLK 11
SDATA 10
SENAB 9
VD 8
VCC3V3 7
NC5 6
MUXOUT3 5
MUXOUT2 4
MUXOUT1 3
MUXOUT0 2
1
C901
0.1u
1u
C906
FAN,FBN,FAP,FBP
47K
R909
47K
R908
0.1u
C905
0.1u
C928
0.1u
C924
68K 1%
R919
1u
C921
33K 1%
R921
3
1
2
200
R903
180
R902
1u
C907
64
BB-HCM580A
11.2.4. Video Board
22p
C847
24.5454MHz
4 3
1
X801
2
DA801
10u
L803
10u
L802
0.1u
C838
0.1u
C833
0.1u
C843
0.1u
C842
DA802
NC
C897
NC
C896
0.1u
C891
BA805 S601
C895 0.1u
29
30
31
32
25
26
27
28
21
22
23
24
17
18
19
20
VD_in
Reset
RG
DVDD320
DVDD421
H1A
1/2clk_o
DVSS424
DVSS425
H2A
1/4clk_o
DVDD428
DVDD329
XV1
XV2
XV3
GND
NC
C892
SCK
SDATA
CS
41cont
MON
DVDD1
DLL_C
Test1
Test2
AVSS55
BLKSH
BLKFB
AVDD52
CDS_in
BLKC
AVDD49
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
0.1u
C841
1u
C836
0.1u
C835
1000p
C834
0.1u
C829
MON
100p
C840
0
R822
C828 0.1u
6.3V22u
C825
470p
C882
470p
C881
0.1u
C824
10u L813
1000p
C887
10u
C815
1u C814
1u
C812
PGND
13 C12B
14 PVDD
15 C11A
16 C12A
17 VM_C13
18
2.2u
C809
CLK 6
SVDD 5
SGND 4
EN 3
S1 2
SO 1
NC R807
NC R806
1000p
C886
1u
C813
0.1u
C893
0.1u
C823
0.1u
C821
3.3u
C819
11 XSG3
12 XV4
13 NC13
14 XSHT
15 VDD
16 VSS
17 VL
18 NC18
19 SHT
20 V4
IC802
XV3
XV2
XSG1
XV1
VH
NC5
VM
V1
V2
V3
6
5
10
9
8
7
4
3
2
1
0.1u
C822
1u
C820
4.7u
C880
0.1u
C879 0
R803
0.1u
C874
NC
R895
4.7u
C878
D801
100K
R809
0.1u
C876
1u
C875
10K 1% 120K 1%
R802 R801
0.1u
C877
NC
R804
4700p
C898
4700p
C899
65
BB-HCM580A
NC
C872
NC
C871
0.1u
C802
6.3V10u
C885
100p
C884
0.1u
C801
100K
R808
0.1u
C803
0.1u
C888
0.1u
C890
0.1u
C889
0.1u
C804
6.3V10u
C860
0.1u
C858
8V33u(POSCAP)
0.01u
C854
C856
2.7K
R832
47.0K 1%
R830
20.0K 1%
R831
0.1u
C873
D802
NC
C851
D
S
G
47
R829
10V10u
C850
0.1u
C849
10V10u
C848
NC
R837
6.3V10u
C864
0.1u
C863
100p
C862
10K
R833
29
30
31
32
25
26
27
28
33
34
35
36
INIT
VDD26
SYNC2
SYNC1
SYNC0
DE
GND31
D0
D1
D2
D3
VDD36
100p
C857
0.1u
C855
PRE1
PRE0
PDWN
DUAL
PRBS
VDD7
CLKIN
GND5
D17
D16
D15
D14
7
6
5
4
3
2
1
12
9
8
11
10
6.3V10u
C870
0.1u
C869
100p
C867
100p
C859
0.1u
C861
NC
R874
NC
R873
10K
R835
10K
R834
66
11.2.5. CCD Board
BB-HCM580A
-5.5V
8
9
10
11
12
13
14
IC701
VOUT
VL
VDD
GND
V4
V1
SUB
RG
V3B
V3A
H1
H2
V2A
V2B
7
6
5
4
3
2
1
Q701
R702
4.7K
1
2
3
CCD
+15V
L701
10u
G
L702
10u
R703
47 R704
47
R705
100
TP704
CN701
1 GND
2 GND
3 GND
4 CCD
5
6
7
8
9
GND
H4
+15.0V
V4
V1
H1
H3
H2
V3
10 V2
11 -5.5V
12 GND
13 SUB
14 H2
15 H1
16 GND
17 RG
18
GND
19
GND
20
GND
21
GND
I2
I1
I3
BB-HCM580A CCD BOARD
67
BB-HCM580A
11.2.6. IO Board
0.1u
C691
6.3V10u
C694
0.1u
C693
25V10u
C692
1200p
C627
10K
R627
1u
C629
1000p
C701
IP601
DA603
DA602
DA601
0.1u
C697
0.1u
C698
10K
R672
0.1u
C695
0.1u
C696
10K
R671
0.1u
C625 6.3V10u
C623
1M
R623
10p
C646
C636
1u[1608]
C638
1u[1608]
20K
R613
NC
C644
0.1u
C630
10u
C642
1u
C700
C699
0.047u
10u[1608]
C637
C634
1u[1608]
0.1u
C633
10u
C631
0.1u
C606
0.1u
C608
0.1u
C605
0.1u
C602
D621 D622
3.3k
R607
6.3V47u
C609
2.2K
R604
SA608
120p
C603
120p
C604
SA601
D634
152
L659
D633
D632
152
L658
D631
D630
152
L657
SA617
SA615
SA614
SA610
SA612
68
0.1u
C673
0.1u
C672
0.1u
C671
0.1u
C670
16V3300u
C613
Vbr=15.6V
D620
0.1u
C659
0.1u
C658
0.1u
C657
0.1u
C656
0.1u
C655
16V470u
C686
16V47u
C678
16V0.1u
C684
16V47u
C677
100V1u
C689
80V47u
C674
180K 0.25W
R652
180K 0.25W
R667
100V470p
C679
2
150V/0.1A
D639
1
0 5%
R668
3
Vbr=64.4V
D649
250V1000p
C690
220K 5%
R650
0
R669
220K 5%
R651
8.2V/5mA
D635
10V/5mA
D651
16V4.7u
C680
100V0.068u
C675
Vbr=64.4V
D650
45.3 1%
R663
6.3V10u
C619
0.01u
0.1u
C617
6.3V47u(POSCAP)
2.7K
C616
C615 R606
47.0K 1%
R609
20.0K 1%
R605
D602
NC
C614
D
S
G
47
R602
560 5%
R664
180K 1%
R657
NC
C685
NC
C681
0 5%
R656
1.2K
R666
37V/Vref=2.495V/150mA
C687
100p
25V10u
C612
0.1u
C611
25V10u
C610
0.068 2%
R655
100K 5%
R659
200V/1A
D638
6.8K 5%
R658
Vbr=64.4V
D652
BB-HCM580A
69
BB-HCM580A
11.3. Waveform
A3
A4
A1
A2
AA1
AA3
AA4
AB3
AB4
AB1
AB2
AC3
AC2
(CSDA)
AC1
(CSDL)
70
AA2
AA5
AA6
AB1
AB2
AB3
AB4
A5
A1
A2
A3
Power ON Start
Panscan
AG1
AG2
AG3
AG4
AF1
AF2
AF3
AF4
AE1
AE2
AD1
AD2
AD3
71
BB-HCM580A
AD1
AD2
AD4
AG1
AG2
AG3
AG4
AF1
AF2
AF3
AF4
BB-HCM580A
AH1
AH2
AH3
AH4
C1 - C2
E1 - E2
G
72
B
D1 - D2
F1
F2
H1
H2
H3
H4
I1
I2
I3
J4
J5
J6
L1
L2
L3
N1
N2
N3
73
BB-HCM580A
J1
J2
J3
K1
K2
K3
M1
M2
N1
N2
N3
BB-HCM580A
O P1
X1 X2
X3 X4
Y1
Y2
Y3
74
PanScan
Z1
Z3
Z2
Z4
BB-HCM580A
12 Printed Circuit Board
12.1. CPU Board (Component View)
LED101
LED
Q106
GND4
SW103
32K
R186
C222
R106
C110
IC110
X103
C223
R185
R110
+1.2V
25M
R125
C204
1 RA114
C202
R132
R143
R144
C150
C201
C157
C200
C151
BAT101
C101
1
C113
R127
R109
X101
R108 R118
R105
VIDEO
R119
R151
Q101
C262
R120
C350
IC116
1
C220
1
PQUP11499Z
C232
C215
PbF
IC103
C192
L156
C155
R213 R214
R212
R210
C208
C152
C161
C198
C153
C206
R145
C191
R221
R223
R224
C156
R249
C134
TP_VDDQ
IC106
R247
R246
C205
C160
C199
C194
R241
R250
RXP
C195
C136
RXN
+3.3V +12V
TXN TXP GND2 A
C315
C316
C314
C313
C308
C312
C311
C324
C307
R264 C310
BB-HCM580A CPU BOARD
75
BB-HCM580A
12.2. CPU Board (Bottom View)
SW102
CN104
C343
C340
C349
RA118
RA117
C342
IC121
20
C306
C305
L125
L151
L133
19
L146
R235
20
CN103
2
C323
C326
R281
R282 R254
L154
L153
21
L129
CN102
L140
1
1
L131
R274 2
L128 L150
R233 R234
R231 R232
L139 R230
C103 L138
RA113
L135
L147
L148
R236
R227
Q107
R261
R259
L126
L127
L149
L102
R174
IC107
C207
C216
C118
L101
C120
C116
C114
C115
C123
R114
R165
RA101
C119
R121
R113
R117
C147
C144
C141
C138
C145
C125
C128
L116
C135
C132
C165
C163
R104
R103
C162
C178
L114
L120
R140
R153
R152
R139
C179
R136
R133
R134
C321
R273 R272
C158
C171
R126
R124
R129
C169
C167
C131
C180
C182
C225
C172
40
C190
C212
R202
21
R199
C189
R138 R137
L124
20 1 R198
R201
BB-HCM580A CPU BOARD
76
12.3. Tilt Board (Component View)
HP
C953
L953
IC952
R951
R952
Vref
L956
L955
R963
L957 L958
R964
PbF
C954
C951
PQUP11488Z
Q952
L951
GND
IC953
L952
D951
LED-R
LED-G
A
+5V
BB-HCM580A TILT BOARD
12.4. Tilt Board (Bottom View)
19 1
20
CN951
2
R971
IC954
R953 R954 C955
Q953
R965
A
Q954
21
R966
R980 R981 R982 R988 R989
C956
C957
C958
20
A
CN952
R985 R986 R987
C971 C970
2
C977
C975
C976
C973
C974
1
R958
R961
L954
C968
1 27
CN954
BB-HCM580A TILT BOARD
BB-HCM580A
77
BB-HCM580A
12.5. Lens Board (Component View)
18 1
RA904
RA901 RA902 RA903
C919
C903
C926
IC904
+5VM
GND1
ALC
R931 PQUP11487Z
C904
GND2
PbF
R937
C927
R922
L901
C906
R907
Q902
Q901
+1.3V
3 1
CN901
R902
R903
A
BB-HCM580A LENS BOARD
12.6. Lens Board (Bottom View)
R908
R940
Q905
R910
R911
C916
C910 C911
R920
IC902
C920
C923
R918
R925
R923
Q903
R904
R912
R928
R929
R933
IC901
C901
C928
C924
C912
IC903
C921
BB-HCM580A LENS BOARD
78
12.7. Video Board (Component View)
R895
IC802
C842
C843
C821
IC804
R806
C805
C807
1
R807
R815
IC801
X801
R825
C844
C846
C886
C813
L813
R804
C877
C878
R898
C804
R801 R802
C875
C876
C895
L871
L804
Q803
L872
C890
C830
1
R879
R880
R823
R878
C836 R822
C841
R888
R886
R885
R882
27
R884
R881
CN804
1
R890
IC807
R892
21
CN805
C889
C888
C803
BB-HCM580A VIDEO BOARD
12.8. Video Board (Bottom View)
C809
R812
R816 R814
C806
-0.4V
C860
R829
C848
C872
R830
C854
R832
R831
1
IC805
R828
C850
C849
C851
C810
I_GND
C817
C853
C852
+15V
D801
L807
C859
IC806
R809
C838
C837
C831
24.54MHz
PbF
C855
C857
R833
+3.3V_L1
+3.3V_TD1
R894
PQUP11486Z
+3.3V_TD2
L870
L820
L819
C811
L818
MON
C840
C834
R821
C826
C827
C828
C825
R834
L809
GND
L801
R836
R837
R893
L810
DA802
TP_MDCLK
C802
C884
C885
+3.3V_L3
+3.3V_L2
C801
A
BB-HCM580A VIDEO BOARD
BB-HCM580A
79
BB-HCM580A
12.9. CCD Board (Component View)
7
IC701
8
1
14
12.10. CCD Board (Bottom View)
BB-HCM580A CCD BOARD
21
C708
1
CN701
1
R702
CCD
C704
C703 C702
R701
Q701
R704
R703
BB-HCM580A CCD BOARD
80
12.11. IO Board (Component View)
CN605
D646
D645
D647
D642
D640
D641
L620
C650 C651
R615
R647
R648
R616
T601
D643
C652
L655
L601
CN602
T602
L603
R659
R654
D638
C688
C683
C686
L662
D628
21
C694
C691
C692
C693 40
CN603
1 20
BOND LOCK
C613
A
1
2
CN601
4
11
12
3
CN604
4
1
2
PQUP11500Z
PbF D621
D622
BB-HCM580A IO BOARD
BB-HCM580A
81
BB-HCM580A
12.12. IO Board (Bottom View)
TP_RX
TP_RX
TP_TX
TP_TX
TP_DCIN
R631
R630R629
C653
R628
C654 L656
IO_G1 IO_1
IO_02 IO_01 IO_12V
4 4
IO_G2 R650
11 1
1
2 3
12
C638
C644
R613
R612
C630
C642
C677
C604 C603
SA601 SA608
R607
DA601 DA602 DA603
TP_EXMICIN
C657
C656
C646
MIC_AMP2
R627
C629
R623 C627
C623 R625
C678
R653
L642 L641 L640
C610
Q601
C602 C605 C608
C612
R606
C696
R671
C698
R672
TP_BIMICAMP1
C631
C633
L606
C701
R673
L602
C611
C614
D620
1 IC603
R609
R605
C616
C617
1
IC602
C625
IC601
2
TP_12V
L604
L659 L658 L657
D636
R622
R657
R661
D648
R656
TP_IOGND1
TP_IOGND1
R652
R667
C679
D639
C637 C632
R669
R668
L661
R651
C690
C689
D649
BB-HCM580A IO BOARD
82
13 Appendix Information of Schematic Diagram
13.1. Terminal Guide of ICS, Transistors and Diodes
BB-HCM580A
83
BB-HCM580A
14 Exploded View and Replacement Parts List
14.1. Cabinet and Electrical Parts Location
MAC address label caution
When you replace the CPU board, you must also attach the new MAC address label(included with the CPU board). Attach the new MAC address label to to the unit by placing over the old MAC address label. Make sure the old address cannot be seen.
Throw away the old main board. It cannot be reused.
(IF the MAC address of the old CPU board is already registered via DDNS and thenused in a different camera, the camera cannot be used with DDNS service.)
84
14.2. Accessories and Packing Materials
BB-HCM580A
85
BB-HCM580A
14.3. 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 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 ( Ω ), k=1000 Ω , M=1000k Ω
All capacitors are in MICRO FARADS ( µ F), p= µ ( µ F)
*Type & Wattage of Resistor
Safety
13
14
15
16
Ref.
No.
Part No.
Part Name & Description
PSKV1033Z2 COVER, PAN SCREW
PSKV1032Y2 COVER, PAN
PSKE1065Y2 COVER, PAN(LOWER)
PLASTIC PARTS, FCC
SHEET
PSHR1289Z SPACER ABS-VO
XUC3FJ RETAINING RING
B-F4-73 SPACER
PSMH1257Y FRAME, TILT
Remarks
ABS-VO
ABS-VO
ABS-VO
PC-V2
17
18
19
20
21
22
23
24
PSHX1214X SPACER
PQWQ2HCM581 TILT MOTOR
PQKM10754Z1 CABINET BODY ABS-VO
PQBC10496Z BUTTON ABS-VO
+HB
PSHR1291Z GUIDE, PAN SLIDER POM-HB
PQWQ1HCM581 PAN MOTOR POM-HB
25
26
27
28
29
30
PQKF10738W1 CABINET COVER ABS+PC-
VO
PQGT19720Z NAME PLATE
PARTS, PSHA1012Z RUBBER
LEGS(BIG)
PSHA1013Z RUBBER
LEGS(SMALL)
PARTS,
31
32
PQMC10526Z INSULATOR
PQWEHCM580A CPU BOARD AND CCD UNIT
ASS’Y(RTL)
32-1 VXW0798-Q LENS
32-2 K7ZD00000053 OPTICAL FILTER
32-3 PSHG1203Z RUBBER PARTS
32-4 XQN16+CJ6FJ SCREW
33
34
J0KD00000107 INSULATOR
PQHS10786Z SPACER
A XTW2+5LFJ45 SCREW
B XTB2+6GFJ SCREW
C PQHV2610PJ65 SCREW
D XYN26+C4FJ SCREW
E XQN16+C45FJK SCREW
14.3.2. Accessories and Packing Materials
14.3.1. Cabinet and Electrical Parts
Safety Ref.
No.
1
2
3
4
5
6
7
8
9
10
11
12
Part No.
Part Name & Description
PSKE1063T1 COVER, TILT UPPER
Remarks
ABS-VO
PQGB10026Z BADGE
PQJE10165X LEAD WIRE, FCC(VIDEO-
CCD)
PQZEHCM581 COVER, CABINET HOLDER POM-HB
PSMH1254X CHASSIS, LENS
PSDV1003Z TILT BELT
PSHR1287Z TILT GEAR
PQUP11417Z LEAD WIRE, FCC(VIDEO-
LENS)
PSKV1034Z1 COVER, LENS
POM-HB
PQKV10075Z1 COVER, SD
PSHR1285Z OPTIC CONDUCTIVE
PARTS, LED LENS
PSKE1064Z1 COVER, TILT LOWER
ABS-VO
ABS-VO
PS-HB
ABS-VO
86
Safety Ref.
No.
Part No.
Part Name & Description
Remarks
A1 PSHR1303Z COVER, LENS PROTECTION PS-HB
A2 PQMD10110Z MOUNTING BRACKET,
CEILING STAY PLATE B
A3 PQZMHCM581A MOUNTING BRACKET,
CEILING STAY PLATE A
A4 PSKL1023Y2 CEILING
CASTER
MOUNTING ABS-VO
A5 XYN3+J6FJ WASHER
A6 PQHV2610PJ65 SCREW
A7 XTB4+20AFJ SCREW
A8 XWG26D12VW WASHER, SMALL
A9 XWG4F16VW WASHER, BIG
A10 PQME10080Z ANGLE, SAFETY WIRE
A11 XZB20X30A05 PROTECTION COVER
A12 PQPH89Z PROTECTION COVER
A13 PQQX15704XCD INSTRUCTION BOOK, CD-
ROM
A14 PQQW15579Z LEAFLET, KEIYAKUSYO
A15 PSQW2018Z LEAFLET, LENS CAP
A16 PQQX15932Z INSTRUCTION
SETUP GUIDE
BOOK,
A17 PQQX15933Z INSTRUCTION
INSTALLATION GUIDE
BOOK,
A18 PQQX15931Z INSTRUCTION BOOK,
IMPORTANT INFORMATION
A19 PSJA1069Z POWER CORD
A20 PQLV202U AC ADAPTOR
P1 PQPK15900Z GIFT BOX
P2 PSPN1161Y ACCESSORY BOX
P3 PSPN1163Z ACCESSORY BOX
P4 PQPD10851Z CUSHION
P5 PSPD1232Z CUSHION
14.3.3. CPU Board Parts
Safety Ref.
No.
Part No.
Part Name & Description
Remarks
PCB1 PQWP1HCM580A CPU BOARD ASS’Y (RTL)
(ICS)
IC103 C3ABQG000070 IC
IC104 There is no parts supply of only
IC104. Please order PCB1.
IC106 C3ABQG000070 IC
(TRANSISTORS)
Q101 2SA1576R TRANSISTOR(SI) S
Q102 PQVTDTC143E TRANSISTOR(SI) S
Q106 PQVTDTC143E TRANSISTOR(SI) S
Q107 PQVTDTC143E TRANSISTOR(SI) S
(DIODES)
D101 MA741WK DIODE(SI) S
D102 MA111 DIODE(SI) S
D103 MA3082 DIODE(SI) S
LED101 B3ABB0000291 DIODE(SI)
(BATTERY)
BAT101 CR2032/H9B LITHIUM BATTERY
(CAPACITORS)
C101 ECUE1C104ZFQ 0.1
C102 F1G1H471A541 470p
C103 F1G1H471A541 470p
C105 ECUV1A105ZFV 1
C106 ECUV1A105ZFV 1
C107 ECJ0EB0J224K 0.22
C109 ECUE1C104ZFQ 0.1
S
C110 ECUE1C104ZFQ 0.1
C111 ECUE1C104ZFQ 0.1
C112 ECUE1H6R0CCQ 6
C113 ECUE1H5R0CCQ 5
C114 ECUE1H101JCQ 100p
C115 ECUE1C104ZFQ 0.1
C116 F1J0J1060006 10
C117 F1J0J1060006 10
C118 ECUE1H101JCQ 100p
C119 ECUV1A105ZFV 1
C120 ECUE1C104ZFQ 0.1
C121 ECUE1C104ZFQ 0.1
C122 ECUV1A105ZFV 1
C123 ECUE0J105KBQ 1
C124 F1J0J1060006 10
C125 ECUE1H101JCQ 100p
C126 ECUE1H101JCQ 100p
C128 ECUE1C104ZFQ 0.1
C129 ECUE1C104ZFQ 0.1
C132 ECUE1H101JCQ 100p
C134 ECUE1C104ZFQ 0.1
C135 ECUE1C104ZFQ 0.1
C136 ECUE1C104ZFQ 0.1
C138 ECUE1H101JCQ 100p
C139 ECUE1H101JCQ 100p
C140 ECUE1H101JCQ 100p
C141 ECUE1C104ZFQ 0.1
C142 ECUE1C104ZFQ 0.1
87
BB-HCM580A
Safety Ref.
No.
C143
Part No.
Part Name & Descrip-
ECUE1C104ZFQ 0.1
tion
Remarks
C144 ECUE1H101JCQ 100p
C145 F1J0J1060006 10
C146 F1J0J1060006 10
C147 ECUE1C104ZFQ 0.1
C148 F1J0J1060006 10
C149 ECUE1H101JCQ 100p
C150 ECUE1H101JCQ 100p
C151 ECUE1H101JCQ 100p
C152 ECUE1H101JCQ 100p
C153 ECUE1H101JCQ 100p
C155 ECUE1H101JCQ 100p
C156 ECUE1H101JCQ 100p
C157 F1J0J1060006 10
C160 ECUE1C104ZFQ 0.1
C161 ECUE1C104ZFQ 0.1
C162 ECUE1C104ZFQ 0.1
C163 ECUE1H101JCQ 100p
C164 ECUE1C104ZFQ 0.1
C165 F1J0J1060006 10
C166 ECUE1C104ZFQ 0.1
C167 ECUE1C104ZFQ 0.1
C168 ECUE1H101JCQ 100p
C169 ECUE1H101JCQ 100p
C170 F1J0J1060006 10
C172 ECUE1H120JCQ 12p
C174 ECUE1H120JCQ 12p
C175 ECUE1H101JCQ 100p
C176 ECUE1C104ZFQ 0.1
C178 ECUE1C104ZFQ 0.1
C179 ECUE1C104ZFQ 0.1
C180 ECUE1H101JCQ 100p
C181 ECUE1C104ZFQ 0.1
C182 ECUV1A105ZFV 1
C183 ECUE1H101JCQ 100p
C187 ECUE1H102KBQ 0.001
C188 ECUE1H102KBQ 0.001
C189 ECUE1H102KBQ 0.001
C190 ECUE1C104ZFQ 0.1
C191 ECUE1C104ZFQ 0.1
C192 ECUE1C104ZFQ 0.1
C193 F1K1E106A059 10
C194 ECUE1C104ZFQ 0.1
C195 ECUE1H101JCQ 100p
C196 ECUE1C104ZFQ 0.1
C197 ECUE1H101JCQ 100p
C198 ECUE1H101JCQ 100p
C199 ECUE1H101JCQ 100p
C200 ECUE1C104ZFQ 0.1
C201 ECUE1C104ZFQ 0.1
C202 ECUE1C104ZFQ 0.1
C203 ECUE1C104ZFQ 0.1
C204 ECUE1C104ZFQ 0.1
C205 ECUE1H101JCQ 100p
C206 ECUE1C104ZFQ 0.1
C207 ECUE1C104ZFQ 0.1
C208 ECUE1C104ZFQ 0.1
C209 F1J0J1060006 10
C210 ECST0JX476 47
C211 ECST0JX336 33
C212 ECUE1C104ZFQ 0.1
C213 ECUE1C104ZFQ 0.1
C214 ECUE1C104ZFQ 0.1
C215 ECUE1C104ZFQ 0.1
C216 ECUE1C104ZFQ 0.1
C218
C219
C220
ECUE1C104ZFQ 0.1
F1J0J1060006 10
ECUV0J105KBV 1
C221 ECUE1H6R0CCQ 6
C222 ECUE1C104ZFQ 0.1
C225 F1J0J1060006 10
C232 ECUV0J105KBV 1
C233 ECUV1C104ZFV 0.1
S
S
S
S
BB-HCM580A
Safety Ref.
No.
Part No.
C258 ECUE0J105KBQ 1
Part Name & Description
C259
C260
C261
ECUE1C104ZFQ 0.1
ECUE1C104ZFQ 0.1
F1J0J1060006 10
Remarks
C262 ECUE1C104ZFQ 0.1
C277 ECUE1C104ZFQ 0.1
C305 PFCX1EY106ZF 10 S
C306 ECUE1H101JCQ 100p
C307 ECUE1C104ZFQ 0.1
C308 ECJ1VB1E103K 0.01
C309 ECUE1C104ZFQ 0.1
S
C310 ECUV0J105KBV 1 S
C313 ECUE1H101JCQ 100p
C314 ECUE1C104ZFQ 0.1
C315 F2G1C4700016 47
C316 ECUV1C224ZFV 0.22
C317 ECUE1H470JCQ 47p
C318 ECUE1H470JCQ 47p
C319 ECUE1H470JCQ 47p
C320 ECUE1H470JCQ 47p
C321 ECUE1C104ZFQ 0.1
C322 PFCX1EY106ZF 10
C323 ECUE1C104ZFQ 0.1
C324 ECJ1VB1E103K 0.01
S
S
C325 ECUV1C105KBV 1
C326 F1J0J1060006 10
C327 ECUE1C104ZFQ 0.1
C328 ECUE1H101JCQ 100p
C329 ECUE1C104ZFQ 0.1
C330 ECUE1H101JCQ 100p
C331 ECUE1C104ZFQ 0.1
C332 ECUE1H101JCQ 100p
C334 ECUE1H101JCQ 100p
C335 ECUE1C104ZFQ 0.1
C336 F1J0J1060006 10
C337 F1J0J1060006 10
C338 ECUE1C104ZFQ 0.1
C339 ECUE1H101JCQ 100p
C340 ECUE1C104ZFQ 0.1
C342 ECUE1C104ZFQ 0.1
C343 ECUE1C104ZFQ 0.1
C344 ECUE1C104ZFQ 0.1
C349 ECUE1C104ZFQ 0.1
C350 ECUE1C104ZFQ 0.1
(CONNECTORS)
(COILS,CERAMIC FIL-
TERS AND IC FILTERS)
L101 G1C1R0JA0041 COIL
L102 G1C1R0JA0041 COIL
L103 G1C1R0JA0041 COIL
L112 J0JBC0000071 CERAMIC FILTER
L114 J0JBC0000071 CERAMIC FILTER
L115 J0JBC0000071 CERAMIC FILTER
L116 G1C1R0JA0041 COIL
L118 J0JBC0000071 CERAMIC FILTER
L120 J0JBC0000071 CERAMIC FILTER
L121 G1C100KA0066 COIL
L123 G1C100M00027 COIL
L124 PQVFCM04RC01 CERAMIC FILTER S
L125 PQLQR1KT COIL S
L126 J0JBC0000107 IC FILTER
L127 J0JBC0000107 IC FILTER
L128 J0JBC0000107 IC FILTER
L129 J0JBC0000107 IC FILTER
88
Safety Ref.
No.
Part No.
Part Name & Description
Remarks
L131 J0JBC0000107 IC FILTER
L132 J0JBC0000107 IC FILTER
L133 J0JBC0000107 IC FILTER
L135 J0JBC0000107 IC FILTER
L138 J0JBC0000107 IC FILTER
L139 J0JBC0000107 IC FILTER
L140 J0JBC0000107 IC FILTER
L146 J0JBC0000107 IC FILTER
L147 J0JBC0000107 IC FILTER
L148 J0JBC0000107 IC FILTER
L149 J0JBC0000107 IC FILTER
L150 J0JBC0000107 IC FILTER
L151 J0JBC0000107 IC FILTER
L153 G1C100KA0066 COIL
L154 G1C100KA0066 COIL
L156 J0JYC0000049 COIL
L277 J0JYC0000051 COIL
L279 J0JYC0000055 COIL
L280 J0JYC0000055 COIL
(RESISTORS)
R101 ERJ2GEJ103 10k
R102 ERJ2GEJ103 10k
R103 ERJ2GEJ102 1k
R104 ERJ2GEJ102 1k
R105 ERJ2GE0R00 0
R106 ERJ2GEJ102 1k
R107 ERJ2GEJ103 10k
R108 ERJ2GEJ561 560
R109 ERJ2GEJ472X 4.7k
R111 ERJ2RKF2201X 2.2k
R112 ERJ2RKF1002 10k
R113 ERJ2GEJ272 2.7k
R114 ERJ2RKF6801 6.8k
R115 ERJ2RKF4871 4.87k
R116 ERJ2RKF3302 33k
R118 ERJ2RKF1210 1.21k
R119 ERJ2GE0R00 0
R120 ERJ2GEJ151 150
R121 ERJ3GEYJ103 10k
R122 ERJ2GEJ103 10k
R124 ERJ2GE0R00 0
R125 ERJ2GEJ470 47
R126 ERJ2GEJ103 10k
R127 ERJ2GE0R00 0
R128 ERJ2GEJ102 1k
R129 ERJ2GEJ472X 4.7k
R132 ERJ2GEJ470 47
R133 ERJ2GEJ105X 1M
R134 ERJ2GE0R00 0
R135 ERJ2GEJ103 10k
R136 ERJ2RKF6801 68k
R137 ERJ3EKF49R9 49.9
R138 ERJ3EKF49R9 49.9
R139 ERJ3EKF49R9 49.9
R140 ERJ3EKF49R9 49.9
R141 ERJ2GE0R00 0
R142 ERJ2GE0R00 0
R143 ERJ2GEJ470 47
R144 ERJ2GEJ470 47
R145 ERJ2GEJ470 47
R146 ERJ2GE0R00 0
R148 ERJ2GE0R00 0
R149 ERJ2GE0R00 0
R150 ERJ2GEJ103 10k
R151 ERJ2GEJ103 10k
R152 ERJ2GE0R00 0
R153 ERJ2GE0R00 0
R154 ERJ2GEJ470 47
R155 ERJ2GEJ470 47
R156 ERJ2GEJ470 47
R158 ERJ2GEJ470 47
R159 ERJ2GEJ470 47
Safety Ref.
No.
Part Name & Description
R160 ERJ2GEJ470 47
R161 ERJ2GEJ470 47
R162 ERJ2GEJ470 47
R163
Part No.
ERJ2GEJ470 47
Remarks
R164 ERJ2GEJ470 47
R165 ERJ2GEJ103 10k
R166 ERJ2GEJ103 10k
R167 ERJ2GEJ103 10k
R168 ERJ2GEJ104 100k
R170 ERJ2GEJ472X 4.7k
R171 ERJ2GEJ104 100k
R174 ERJ2GEJ103 10k
R175 ERJ2GEJ472X 4.7k
R176 ERJ2GEJ104 100k
R179 ERJ2GEJ104 100k
R181 ERJ2GEJ103 10k
R182 ERJ2GEJ103 10k
R183 ERJ2GEJ103 10k
R184 ERJ2GEJ102 1k
R185 ERJ2GEJ102 1k
R186 ERJ2GEJ102 1k
R187 ERJ2GEJ470 47
R188 ERJ2GEJ470 47
R189 ERJ2GEJ470 47
R190 ERJ2GEJ470 47
R191 ERJ2GEJ470 47
R192 ERJ2GEJ470 47
R193 ERJ2GEJ470 47
R194 ERJ2GEJ470 47
R195 ERJ3GEYJ820 82
R196 ERJ2GEJ103 10k
R197 ERJ2GEJ103 10k
R198 ERJ2GE0R00 0
R199 ERJ2GE0R00 0
R200 ERJ2GE0R00 0
R201 ERJ2GE0R00 0
R202 ERJ2GE0R00 0
R203 ERJ2GEJ103 10k
R204 ERJ2GEJ103 10k
R205 ERJ2GEJ103 10k
R206 ERJ2GEJ103 10k
R207 ERJ2GEJ103 10k
R210 ERJ2GEJ470 47
R212 ERJ2GEJ470 47
R213 ERJ2GEJ470 47
R214 ERJ2GEJ470 47
R221 ERJ2GEJ470 47
R223 ERJ2GEJ470 47
R224 ERJ2GEJ470 47
R227 ERJ3GEYJ101 100
R230 ERJ2GEJ222 2.2k
R231 ERJ2GEJ222 2.2k
R232 ERJ2GEJ222 2.2k
R233 ERJ2GEJ222 2.2k
R234 ERJ2GEJ222 2.2k
R235 ERJ2GEJ222 2.2k
R236 ERJ2GEJ471 470
R237 ERJ2GEJ471 470
R240 ERJ2GE0R00 0
R241 ERJ2GEJ470 47
R243 ERJ2GE0R00 0
R246
R247
ERJ2GEJ470 47
ERJ2GEJ470 47
R248 ERJ2GEJ470 47
R249 ERJ2GE0R00 0
R250 ERJ2GE0R00 0
R251 ERJ3GEYJ152 1.5k
R254 ERJ2GEJ101 100
R259
R261
ERJ2RKF1693 169k
ERJ2RKF3243 324k
R262 ERJ2GE0R00 0
R263 ERJ2GE0R00 0
R265 ERJ2GE0R00 0
89
BB-HCM580A
Safety Ref.
No.
Part No.
Part Name & Descrip-
R266 ERJ14BQFR75 0.75
tion
R267 ERJ14BQFR75 0.75
R268 ERJ3GEY0R00 0
R269 ERJ3GEY0R00 0
Remarks
R270 ERJ3GEY0R00 0
R271 ERJ3GEY0R00 0
R272
R273
ERJ2RKF2702 27k
ERJ2RKF1102 11k
R274 ERJ2RKF5602 56k
R276 ERJ2GE0R00 0
R278 ERJ2GEJ470 47
R281 ERJ2GEJ103 10k
(COMPONENT PARTS)
(SWITCH)
(CRYSTAL OSCILLATORS)
X101 H0J480500027 CRYSTAL OSCILLATOR
X102 H0J250500078 CRYSTAL OSCILLATOR
X103 H0J327200193 CRYSTAL OSCILLATOR
E1 PSHR1290Z
(OTHER)
SPACER
14.3.4. Tilt Board Parts
Safety Ref.
No.
Part No.
Part Name & Description
Remarks
PCB2 PQWP2HCM580 TILT BOARD ASS’Y (RTL)
(ICS)
(TRANSISTORS)
Q951 PQVTDTC143E TRANSISTOR(SI) S
Q952 PQVTDTC143E TRANSISTOR(SI) S
Q953 2SA1576R TRANSISTOR(SI) S
Q954 2SC4081R TRANSISTOR(SI) S
(DIODES)
D951 MA736 DIODE(SI) S
(CAPACITORS)
C951 ECUE1H101JCQ 100p
C952 ECUE1C104ZFQ 0.1
C953 PQCUV1H105JC 1 S
C954 ECUV1A105ZFV 1
C955 ECUV1A105ZFV 1
C956 PFCX1EY106ZF 10
C957 ECUE1C104ZFQ 0.1
C958 PFCX1EY106ZF 10
S
S
C961 ECUV1A105ZFV 1
C962 ECJ1VB1E103K 0.01
C963 ECJ1VB1E103K 0.01
C964 F3Z1A3360001 33
C965 ECUE1C104ZFQ 0.1
C966 ECJ1VB1E103K 0.01
C967 ECUE1H101JCQ 100p
C968 ECJ2FF1A106Z 10
C969 ECUE1C104ZFQ 0.1
C970 ECUE1H101JCQ 100p
C971 ECUE1C104ZFQ 0.1
S
S
S
BB-HCM580A
Safety Ref.
No.
C972
Part No.
Part Name & Description
F2G1C4700016 47
Remarks
C973 ECUE1H470JCQ 47p
C974 ECUE1H470JCQ 47p
C975 ECUE1H470JCQ 47p
C976 ECUE1H470JCQ 47p
C977 PQCUV1H105JC 1 S
(CONNECTORS)
L951
L952
L953
L954
L955
L956
L957
L958
(COILS,CERAMIC FIL-
TERS AND IC FILTERS)
G1C100M00027 COIL
G1C220MA0315 COIL
G1C100M00027 COIL
G1C100M00027 COIL
J0JCC0000192 COIL
J0JCC0000192 COIL
J0JCC0000192 COIL
J0JCC0000192 COIL
(RESISTORS)
R951 ERJ2GE0R00 0
R953 ERJ2RKF3902 39k
R954 ERJ2RKF3002 30k
R956 ERJ2GEJ153 15k
R958 ERJ3GEYJ101 100
R959 ERJ3GEYJ101 100
R960 ERJ3EKF6491 6.49k
R961 ERJ3GEYF182 1.8k S
R963 ERJ14BQF1R5 1.5
R964 ERJ14BQF1R5 1.5
R965 ERJ2GEJ103 10k
R966 ERJ2GEJ222 2.2k
R971 ERJ2GE0R00 0
R972 ERJ2GE0R00 0
R973 ERJ2GE0R00 0
R974 ERJ2GE0R00 0
R975 ERJ2GE0R00 0
R976 ERJ2GE0R00 0
R977 ERJ2GE0R00 0
R978 ERJ2GE0R00 0
R979 ERJ2GE0R00 0
R980 ERJ2GE0R00 0
R981 ERJ2GE0R00 0
R982 ERJ2GE0R00 0
R983 ERJ2GE0R00 0
R984 ERJ2GE0R00 0
R985 ERJ2GE0R00 0
R986 ERJ2GE0R00 0
R987 ERJ2GE0R00 0
R988 ERJ2GE0R00 0
R989 ERJ2GE0R00 0
E2 PSHR1290Z
(OTHER)
SPACER
14.3.5. Lens Board Parts
ABS-VO
Safety Ref.
No.
Part No.
Part Name & Description
Remarks
PCB3 PQWP3HCM581 LENS BOARD ASS’Y (RTL)
(ICS)
Safety Ref.
No.
Part No.
Part Name & Description
Remarks
Q901 PQVTDTC143E TRANSISTOR(SI) S
Q902 PQVTDTC143E TRANSISTOR(SI) S
Q903 2SD0601ASL TRANSISTOR(SI)
Q904 UN9211 TRANSISTOR(SI) S
Q905 2SC4081R TRANSISTOR(SI) S
Q906 2SB766ARTX TRANSISTOR(SI) S
(DIODES)
LED901 B3AGB0000049 DIODE(SI)
(CAPACITORS)
C901 ECUE1C104ZFQ 0.1
C903 ECUE1C104ZFQ 0.1
C904 ECUV1H222KBV 0.0022
C905 ECUE1C104ZFQ 0.1
C906 ECUV1A105ZFV 1
C907 ECUV1A105ZFV 1
C908 ECUV1A105ZFV 1
C909 ECUE1C104ZFQ 0.1
C910 ECUV1A105ZFV 1
C911 ECUV1A105ZFV 1
C912 ECUE1C104ZFQ 0.1
C913 ECUV1A105ZFV 1
C914 ECUV1A105ZFV 1
C915 ECUE1C104ZFQ 0.1
C916 F3G1A336A035 33
C917 ECUV1A105ZFV 1
C918 ECUV1A105ZFV 1
C919 ECUE1C104ZFQ 0.1
C921 ECUV1A105ZFV 1
C922 ECUV1C224KBV 0.22
C923 ECUE1C104ZFQ 0.1
C924 ECUE1C104ZFQ 0.1
C925 ECUE1H102KBQ 0.001
C926 PQCUV1A105KB 1
C927 ECUE1C104ZFQ 0.1
C928 ECUE1C104ZFQ 0.1
C929 ECUV1C104KBV 0.1
C930 ECJ0EB0J224K 0.22
(CONNECTORS)
S
S
(COILS,CERAMIC FIL-
TERS AND IC FILTERS)
L901 ELJFC6R8KF COIL
L902 ELJFC6R8KF COIL
L903 ELJPA100KF COIL
(RESISTORS)
R901 ERJ2GE0R00 0
R902
R903
ERJ3GEYJ181 180
ERJ3GEYJ201 200
R904 ERJ3BQF3R3 3.3
R905 ERJ2GEJ103 10k
R906 ERJ3EKF1001 1k
R907 ERJ3EKF1002 10k
R908 ERJ2GEJ473 47k
R909 ERJ2GEJ473 47k
R910 ERJ3BQF3R3 3.3
R911 ERJ3BQF3R3 3.3
R912 ERJ3BQF3R3 3.3
R913 ERJ2GEJ102 1k
R914 ERJ2GEJ471 470
R915 ERJ2GEJ101 100
R916 ERJ2GEJ123 12k
R917 ERJ2GEJ123 12k
R918 ERJ2GEJ183 18k
R919 ERJ3EKF6802 68k
R920 ERJ2GEJ682 6.8k
R921 ERJ3EKF3302 33k
R922 ERJ2GEJ223 22k
(TRANSISTORS)
90
Safety Ref.
No.
Part No.
Part Name & Description
Remarks
R923 ERJ2GEJ153 15k
R924 ERJ2GEJ152 1.5k
R925 ERJ2GEJ824 820k
R927 ERJ2GEJ392 3.9k
R928 ERJ2GEJ334 330k
R929 ERJ2GEJ334 330k
R930 ERJ2GEJ273X 27k
R931 ERJ2GEJ333 33k
R932 ERJ3EKF6801 6.8k
R933 ERJ2GEJ684 680k
R934 ERJ2GEJ154 150k
R935 ERJ2GEJ102 1k
R936 ERJ2GEJ473 47k
R937 ERJ2GE0R00 0
R938 ERJ2GEJ104 100k
R939 ERJ2GEJ473 47k
(COMPONENT PARTS)
14.3.6. Video Board Parts
Safety Ref.
No.
Part No.
Part Name & Description
PCB4 PQWP4HCM581
(RTL)
Remarks
(ICS)
(TRANSISTORS)
Q803 B1DHAC000002 TRANSISTOR(SI)
(DIODES)
D801 MA111 DIODE(SI) S
D802 MA736 DIODE(SI)
DA801 MA143A DIODE(SI)
(CAPACITORS)
C801 ECUE1C104ZFQ 0.1
C802
C803
C804
ECUE1C104ZFQ 0.1
ECUE1C104ZFQ 0.1
ECUE1C104ZFQ 0.1
C805 ECUV1C105KBV 1
C806 ECUV1C105KBV 1
C807 ECUV1C224KBV 0.22
C808
C809
C810
ECUV1H104ZFV 0.1
F1J1C2250010 22
F1K1E225A085 22
C811 ECUV1H104ZFV 0.1
C812 ECUV1C105KBV 1
C813 ECUV1C105KBV 1
C814 ECUV1C105KBV 1
C815 PQCUV0J106KB 10
C816 ECUV1C105KBV 1
C817 F1K1E225A085 22
C818 F1J1E105A197 1
C819 F1J1A335A025 3.3
C820 F1J1E105A197 1
C821 ECUE1C104ZFQ 0.1
C822 ECUV1H104ZFV 0.1
C823 ECUE1C104ZFQ 0.1
C824 ECUE1C104ZFQ 0.1
S
BB-HCM580A
Safety Ref.
No.
Part No.
C825 ECST0JY226 22
Part Name & Description
C826 ECUE1C104ZFQ 0.1
C827 ECUE1C104ZFQ 0.1
C828 ECUE1C104ZFQ 0.1
Remarks
C829 ECUE1C104ZFQ 0.1
C830 F1J1E105A197 1
C831 ECUE1H101JCQ 100p
C832 PQCUV0J106KB 10
C833 ECUE1C104ZFQ 0.1
C834 ECUE1H102KBQ 0.001
C835 ECUE1C104ZFQ 0.1
C836 ECUV0J105KBV 1
C837
C838
PQCUV0J106KB 10
ECUE1C104ZFQ 0.1
C839 ECUE1H101JCQ 100p
C840 ECUE1H101JCQ 100p
S
C841 ECUE1C104ZFQ 0.1
C842 ECUE1C104ZFQ 0.1
C843 ECUE1C104ZFQ 0.1
C844 ECUE1C104ZFQ 0.1
C845 ECUE1H150JCQ 15p
C846 ECUE1H150JCQ 15p
C847 ECUE1H220JCQ 22p
C848 ECJ2FF1A106Z 10
C849 ECUE1C104ZFQ 0.1
C850 ECJ2FF1A106Z 10
C852 ECUE1H101JCQ 100p S
C853 ECUE1C104ZFQ 0.1
C854 ECJ1VB1E103K 0.01
C855 ECUE1C104ZFQ 0.1
C856 F4Z0K3360001 33
C857 ECUE1H101JCQ 100p
C858 ECUE1C104ZFQ 0.1
C859 ECUE1H101JCQ 100p
C860 F1J0J1060006 10
C861 ECUE1C104ZFQ 0.1
C862 ECUE1H101JCQ 100p
C863 ECUE1C104ZFQ 0.1
C864 F1J0J1060006 10
C865 ECUE1C104ZFQ 0.1
C866 F1J0J1060006 10
C867 ECUE1H101JCQ 100p
C868 ECUE1H101JCQ 100p
C869 ECUE1C104ZFQ 0.1
C870
C873
C874
F1J0J1060006 10
ECUE1C104ZFQ 0.1
ECUE1C104ZFQ 0.1
C875 ECUV1C105KBV 1
C876 ECUE1C104ZFQ 0.1
C877 ECUE1C104ZFQ 0.1
C878 ECJ1VB0J475K 4.7
C879 ECUE1C104ZFQ 0.1
C880 ECJ1VB0J475K 4.7
C881 F1G1H471A541 470p
C882 F1G1H471A541 470p
C883 ECUE1H101JCQ 100p
C884 ECUE1H101JCQ 100p
C885 F1J0J1060006 10
C886 ECUE1H102KBQ 0.001
C887 ECUE1H102KBQ 0.001
C888 ECUE1C104ZFQ 0.1
C889
C890
C891
C893
ECUE1C104ZFQ 0.1
ECUE1C104ZFQ 0.1
ECUE1C104ZFQ 0.1
ECUE1C104ZFQ 0.1
C895 ECUE1C104ZFQ 0.1
C898 ECUE1E472KBQ 0.0047
C899 ECUE1E472KBQ 0.0047
(CONNECTORS)
91
BB-HCM580A
Safety Ref.
No.
Part No.
Part Name & Description
Remarks
(COILS,CERAMIC FIL-
TERS AND IC FILTERS)
Safety Ref.
No.
Part No.
Part Name & Description
Remarks
(OTHER)
X801 H0J245500085 CRYSTAL OSCILLATOR
14.3.7. CCD Board Parts
L801 G1C100KA0066 COIL
L802 G1C100KA0066 COIL
L803 G1C100KA0066 COIL
L804 G1C100M00027 COIL
L805 G1C100MA0315 COIL
L806 G1C100M00027 COIL
L807 G1C100KA0066 COIL
L809 G1C100KA0066 COIL
L810 G1C100KA0066 COIL
L811 J0JBC0000115 COIL
L812 J0JBC0000115 COIL
L813 G1C100K00031 COIL
L818 J0JYC0000056 COIL
L819 J0JYC0000056 COIL
L820 J0JYC0000056 COIL
L870 J0JYC0000051 COIL
L871 J0JYC0000052 COIL
L872 J0JYC0000052 COIL
(RESISTORS)
R801 ERJ2RKF1203 12k
R802 ERJ2RKF1002 10k
R803 ERJ2GE0R00 0
R808 ERJ2GEJ104 100k
R809 ERJ2GEJ104 100k
R812 ERJ2GE0R00 0
R814 ERJ2GE0R00 0
R815 ERJ2GE0R00 0
R816 ERJ2GE0R00 0
R817 ERJ2GE0R00 0
R821 ERJ2GEJ333 33k
R822 ERJ2GE0R00 0
R824 ERJ2GE0R00 0
R825 ERJ2GEJ105X 1M
R826 ERJ2GEJ101 100
R827 ERJ2GEJ152 1.5k
R828 ERJ2GEJ100 10
R829 ERJ2GEJ470 47
R830 ERJ3EKF4702 47k
R831 ERJ3EKF2002 20k
R832 ERJ2GEJ272 2.7k
R833 ERJ2GEJ103 10k
R834 ERJ2GEJ103 10k
R835 ERJ2GEJ103 10k
R836 ERJ2GEJ103 10k
R838 ERJ2GEJ330 33
R872 ERJ2GEJ330 33
R875 ERJ2GEJ330 33
R876 ERJ2GEJ330 33
R877 ERJ2GEJ330 33
R878 ERJ2GEJ330 33
R879
R880
R881
R884
R887
ERJ2GEJ330 33
ERJ2GEJ330 33
ERJ2GEJ330 33
R882 ERJ2GEJ330 33
R883 ERJ2GEJ330 33
ERJ2GEJ330 33
R885 ERJ2GEJ330 33
R886 ERJ2GEJ330 33
ERJ2GEJ330 33
R888 ERJ2GEJ330 33
R889 ERJ2GEJ330 33
R890 ERJ2GE0R00 0
R892 ERJ2GEJ471 470
R893 ERJ2GE0R00 0
R894 ERJ2GEJ471 470
R897 ERJ3GEY0R00 0
R898 ERJ2GEJ101 100
Safety Ref.
No.
Part No.
Part Name & Description
Remarks
PCB5 PQWP5HCM581 CCD BOARD ASS’Y (RTL)
IC701
(ICS)
There is no parts supply of only
IC701. Please order PCB5.
(TRANSISTORS)
Q701 2SC39310DL TRANSISTOR(SI)
(CAPACITORS)
C701 ECUV1E104ZFV 0.1
C702 ECUE1H102KBQ 0.001
C703 ECUE1H222KBQ 0.0022
C704 F1K1C475A043 4.7
C705 ECUE1H102KBQ 0.001
C706 F1K1E225A085 2.2
C707 ECUV1E104ZFV 0.1
C708 ECUE1C104ZFQ 0.1
(CONNECTORS)
(COILS,CERAMIC FIL-
TERS AND IC FILTERS)
L701 G1C100KA0066 COIL
L702 G1C100KA0066 COIL
(RESISTORS)
R701 ERJ2GEJ105X 1M
R702 ERJ2GEJ472X 4.7k
R703 ERJ2GEJ470 47
R704 ERJ2GEJ470 47
R705 ERJ2GEJ101 100
14.3.8. IO Board Parts
Safety Ref.
No.
Part No.
Part Name & Description
PCB6 PQWP6HCM580 I/O BOARD ASS'Y (RTL)
(ICS)
(TRANSISTORS)
Q600 PQVTDTA143EU TRANSISTOR(SI) S
Q601 B1DHCD000018 TRANSISTOR(SI)
Q605 PQVTDTA143EU TRANSISTOR(SI) S
Q606 B1GBGFCJ0002 TRANSISTOR(SI)
(DIODES)
D601 MA736 DIODE(SI) S
D602 MA736 DIODE(SI) S
D620 B0BC01600022 DIODE(SI)
D621 B0BC3R700004 DIODE(SI)
D622 B0BC3R700004 DIODE(SI)
D630 B0BC01000014 DIODE(SI)
D631 B0BC01000014 DIODE(SI)
D632 B0BC01000014 DIODE(SI)
D633 B0BC01000014 DIODE(SI)
D634 B0BC01000014 DIODE(SI)
DA601 MA143A DIODE(SI) S
DA602 MA143A DIODE(SI) S
DA603 MA143A DIODE(SI) S
92
Safety Ref.
No.
Part No.
Part Name & Description
(CAPACITORS)
C602 ECUV1C104ZFV 0.1
C605 ECUV1C104ZFV 0.1
C606 ECUV1E104ZFV 0.1
C608 ECUV1C104ZFV 0.1
C610 PFCX1EY106ZF 10
C611 ECUV1C104ZFV 0.1
C612 PFCX1EY106ZF 10
C615 ECJ1VB1E103K 0.01
C616 F4Z0J4760001 47
C617 ECUV1C104ZFV 0.1
C619 F1J0J1060006 10
C652 F1L3D1020001 0.1
C653 ECUE1C104ZFQ 0.1
C655 ECUV1C104ZFV 0.1
C656 ECUV1C104ZFV 0.1
C657 ECUV1C104ZFV 0.1
C658 ECUV1C104ZFV 0.1
C659 ECUV1C104ZFV 0.1
C670 ECUV1C104ZFV 0.1
C671 ECUV1C104ZFV 0.1
C672 ECUV1C104ZFV 0.1
C673 ECUV1C104ZFV 0.1
C691 ECUE1C104ZFQ 0.1
C692 F1K1E106A059 10
C693 ECUE1C104ZFQ 0.1
C694 F1J0J1060006 10
C695 ECUV1C104ZFV 0.1
C696 ECUV1C104ZFV 0.1
C697 ECUV1C104ZFV 0.1
C698 ECUV1C104ZFV 0.1
C701 ECUV1H102KBV 0.001
S
S
S
(CONNECTORS AND JACKS)
S
(FUSES)
F601 K5H5021A0014 FUSE
(COILS,CERAMIC FIL-
TERS AND IC FILTERS)
L601 G0B150G00002 COIL
L602 G1C6R8Z00005 COIL
L603 G1C220ZA0011 COIL
L604 G1C100M00027 COIL
L621 J0MAB0000185 IC FILTER
L622 J0MAB0000185 IC FILTER
L630 J0JCC0000079 CERAMIC FILTER
L631 J0JCC0000079 CERAMIC FILTER
L632 J0JCC0000079 CERAMIC FILTER
L633 J0JCC0000079 CERAMIC FILTER
L634 J0JCC0000079 CERAMIC FILTER
L635 J0JCC0000079 CERAMIC FILTER
L640 J0MAB0000194 IC FILTER
L641 J0MAB0000194 IC FILTER
L642 J0MAB0000194 IC FILTER
L650 J0JBC0000082 IC FILTER
L654 J0JBC0000082 IC FILTER
L655 J0JBC0000082 IC FILTER
L656 J0JBC0000082 IC FILTER
L657 J0JBC0000082 IC FILTER
L658 J0JBC0000082 IC FILTER
L659 J0JBC0000082 IC FILTER
L663 PQLQR1RM601 COIL S
(RESISTORS)
R601 ERJ3GEYJ100 10
R602 ERJ3GEYJ470 47
93
BB-HCM580A
Safety Ref.
No.
Part No.
R603 ERJ3GEY0R00 0
Part Name & Description
R605 ERJ3EKF2002 20k
R606 ERJ3GEYJ272 2.7k
R608 PQ4R18XJ100 10 S
R609 ERJ3EKF4702 47k
R646 ERJ3GEYJ750 75
R647 ERJ3GEYJ750 75
R648 ERJ3GEYJ750 75
R649 ERJ3GEYJ750 75
R670 ERJ8GEYJ750 75
R671 ERJ3GEYJ103 10k
R672 ERJ3GEYJ103 10k
R673 ERJ3GEYJ101 100
(VARISTORS)
VARISTOR
ABSORBER)
VARISTOR
ABSORBER)
VARISTOR
ABSORBER)
VARISTOR
ABSORBER)
VARISTOR
ABSORBER)
(SAUGE
(SAUGE
(SAUGE
(SAUGE
(SAUGE
(TRANSFORMERS)
T601 G5BYC0000017 TRANSFORMER
A
BBHCM580A
advertisement
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Related manuals
advertisement
Table of contents
- 3 1.1. Battery Caution
- 3 1.2. About Lead Free Solder (PbF: Pb free)
- 4 1.3. For Service Technicians
- 4 1.4. Trademarks
- 8 4.1. CPU Peripheral Block
- 9 LENS control)
- 12 4.3. Image Compression Block
- 13 4.4. LAN Block
- 14 4.5. Pan and Tilt Motor Control Circuit
- 15 4.6. Power Supply Block
- 16 4.7. Others
- 18 6.1. Installation Guide
- 21 6.2. Setup Guide
- 23 7.1. Basic Operation
- 24 7.2. Other Function Check
- 25 7.3. Power Supply Block Check
- 26 7.4. CPU Peripheral Block Check
- 27 7.5. LVDS Block Check
- 28 7.6. Image Block Check
- 29 7.7. LAN Block Check
- 30 7.8. Motor Block Check
- 31 7.9. Lens Block Check
- 33 7.10. I/O Terminal Check
- 34 7.11. SD Card Block Check
- 35 7.12. RTC Circuit Check
- 36 7.13. LED Circuit Check
- 37 7.14. Diagnosis NG Check
- 38 7.15. Version Upgrade Check
- 39 7.16. Resetting the Camera
- 40 7.17. How to Change MAC Address Label
- 41 7.18. How to Replace a Flat Package IC
- 42 8.1. Disassembly Instructions
- 48 9.1. Adjustment
- 49 Repair
- 50 Instructions
- 52 9.4. Lens Adjustment Procedure
- 53 9.5. Video Adjustment Procedure
- 55 11.1. For The Schematic Diagram
- 56 11.2. Schematic Diagram
- 70 11.3. Waveform
- 75 12.1. CPU Board (Component View)
- 76 12.2. CPU Board (Bottom View)
- 77 12.3. Tilt Board (Component View)
- 77 12.4. Tilt Board (Bottom View)
- 78 12.5. Lens Board (Component View)
- 78 12.6. Lens Board (Bottom View)
- 79 12.7. Video Board (Component View)
- 79 12.8. Video Board (Bottom View)
- 80 12.9. CCD Board (Component View)
- 80 12.10. CCD Board (Bottom View)
- 81 12.11. IO Board (Component View)
- 82 12.12. IO Board (Bottom View)
- 83 Diodes
- 84 14.1. Cabinet and Electrical Parts Location
- 85 14.2. Accessories and Packing Materials
- 86 14.3. Replacement Parts List