Overview Features • Imager This camera uses a 1/2.8" “Exmor” CMOS (complementary metal-oxide semiconductor) image sensor (approx. 2.14 million effective pixels) that supports FULL HD (high definition) to produce high- quality images. • ISP Using the newly developed image signal processor (ISP), the following images can be obtained. - Full HD 60fps output image - Low focal plane image using the high-speed readout of imager The following functions are provided. - Advanced Noise Reduction (NR) - Newly provided tone correction (Visibility Enhancer) and Defog functions • Lens The camera is equipped with a bright lens with 20× optical zoom and F1.6 aperture (optical zoom + digital zoom = 240×). With consideration given environmental protection, this module is designed to operate with low power consumption and also incorporates lead-free and halogen-free circuit boards.
Overview Precautions • In case of abnormal operation, contact your Software authorized Sony dealer or the store where you Use of the demonstration software developed by Sony purchased the product. Corporation or use of the software with customer developed application software may damage hardware, Phenomena specific to CMOS image sensors the application program or the camera. Sony The following phenomena that may appear in images Corporation is not liable for any damages under these are specific to CMOS image sensors. They do not conditions. indicate malfunctions. Operation Rolling shutter As CMOS image sensors use shutters that capture Start the camera control software on your computer images line-by-line, there is a slight time difference after you turn on the camera and the image is displayed. between the top and bottom of an image. As a result, images may appear skewed if the camera is moved. Operation and storage locations White flecks Do not shoot images that are extremely bright (e.g., Although the CMOS image sensors are produced with light sources, the sun, etc.) for long periods of time. Do high-precision technologies, fine white flecks may be...
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Overview Notification on BSD License Application Software Please read the contents of description below at least once. FILE:sha2.c,sha2.h,sha2prog.c,sha2speed.c,sha2test.pl AUTHOR: Aaron D. Gifford - http://www.aarongifford.com/ Copyright (c) 2000-2001, Aaron D. Gifford All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. R edistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. R edistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. N either the name of the copyright holder nor the names of contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTOR(S) “AS IS” AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTOR(S) BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,...
Locations of Controls Locations of Controls Front Back Bottom Lens CN401 connector CN501 connector Tripod screw hole When a tripod is used, please use 5 mm ( in.) or less screw to attach it to the camera. Also, please be sure to attach the tripod securely.
Basic Functions Basic Functions Overview of Functions In general • Power On/Off The camera control is performed by VISCA Powers the camera on and off. Commands. When the power is off, the camera is able to accept the VISCA Commands although the screen is set Timing Chart non-displayed. As VISCA Command processing can only be carried • I/F Clear out one time in a Vertical cycle, it takes the maximum Clears the Command buffer of the FCB camera. 1V cycle time for an Acknowledge/Completion to be • Address Set returned. VISCA is a protocol, which normally supports a daisy If the Command/Acknowledge/Completion chain of up to seven connected cameras via RS-232C communication time can be less than the 1V cycle interface. In such cases, the address set command can time, then every 1V cycle can receive a Command. be used to assign addresses from 1 to 7 to each of the seven cameras, allowing you to control the seven General Commands cameras with the same personal computer. Although the FCB camera does not support direct connection of cameras in a daisy chain, be sure to use the address set command to set the address whenever a camera is connected for the first time. • ID Write Query Commands Sets the camera ID.
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Basic Functions Zoom Focus The FCB camera incorporates a 20× optical zoom lens Focus has the following modes. combined with a digital zoom function; this camera • Auto Focus Mode allows you to zoom up to 240×. The minimum focus distance is 10 mm at the optical wide end and 1000 mm at the optical tele end, and is • Optical 20×, f = 4.7 mm to 940 mm independent of the digital zoom. (F 1.6 to F 3.5) The Auto Focus (AF) function automatically adjusts the focus position to maximise the high frequency The horizontal angle of view is approximately 59.5 content of the picture in a center measurement area, degrees (wide end) to 3.3 degrees (tele end). taking into consideration the high luminance and Digital Zoom enlarges the center of the subject by strong contrast components. expanding each image in both the vertical and - Normal AF Mode horizontal directions. When 240× zoom is used, the number of effective picture elements in each direction This is the normal mode for AF operations. reduces to and the overall resolution deteriorates. - Interval AF Mode The mode used for AF movements carried out at Zoom has the following modes. particular intervals. The time intervals for AF movements and for the timing of the stops can be Using Standard Mode set in one-second increments using the Set Time Using Variable Mode Command. The initial setting for both is set to 5 There are eight levels of zoom speed. seconds. - Zoom Trigger Mode In these standard and variable modes, it is necessary to send Stop Command to stop the zoom operation.
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Basic Functions White Balance (WB) Auto Exposure Mode (AE) White Balance has the following modes. A variety of AE functions are available for optimal output of subjects in lighting conditions that range • Auto from low to high. This mode computes the white balance value output using color information from the entire screen. It • Full Auto outputs the proper value using the color temperature Iris, Gain and Shutter Speed can be set automatically. radiating from a black subject based on a range of • Gain Limit Setting values from 2500K to 7500K. The gain limit can be set at the Full Auto, Shutter This mode is the initial setting. Priority, Iris Priority, Bright, Spot Exposure and • ATW Manual in the AE mode. Use this setting when you Auto Tracing White balance (2000K to 10000K) want to obtain image in which signal-to-noise ratio is particularly important. • Indoor 3200K Base Mode • Shutter Priority Adjust with Variable Shutter Speed (1/1 to 1/10,000 • Outdoor sec., 16 high-speed shutter speeds plus 6 low-speed 5800K Base Mode shutter speeds), Auto Iris and Gain. • One Push WB 1) Flicker in the East Japan area (50 Hz power supply frequency) The One Push White Balance mode is a fixed white can be eliminated by setting shutter to 1/100s.
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Basic Functions Data 60/59.94/30/29.97 50/25 mode Gain mode Iris 1/10000 1/10000 OPEN 1/6000 1/6000 Iris curve 1/4000 1/3500 1/3000 1/2500 1/2000 1/1750 Gain curve 1/1500 1/1250 1/1000 1/1000 1/725 1/600 CLOSE 1/500 1/425 1/350 1/300 Dark Bright 1/250 1/215 Controlled Controlled by Iris 1/180 1/150...
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Basic Functions specified portions; and then the Gain and Iris are set. that is, the rest of the subject, except the headlights, The value of the designated portions and the becomes relatively dark, and poorly distinguished. surrounding areas should be calculated as 100%, the However, using the slow AE function means the AE rest should be set to 20%. The range of the Spot AE response speed will be slower, and response time will frame is fixed to 5 blocks vertically and 4 blocks be longer. As a result, even if the camera catches a high- horizontally. intensity subject (e.g., the headlights) for a moment, you can still easily distinguish the portions of the image surrounding the headlights. Horizontal 16 1 2 3 4 5 6 7 8 9 A B C D E F High Resolution Mode Vertical 16 This mode enhances edges and produces higher definition images. (8,7) Aperture Control Aperture control is a function which adjusts the edge...
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Basic Functions Low delay mode The NR effect is applied in levels based on the gain, and this setting value determines the limit of the effect. The low delay mode is a function to reduce the amount In bright conditions, changing the NR level will not of delay between the image sensor output and the have an effect. image output. During the low delay mode, the following functions High Sensitivity Mode cannot be used due to the HW constraint. • Digital zoom In this mode, the maximum gain increases, enabling to • Distortion correction obtain a brighter output even in a darker environment. However, if the gain reaches high level (up to 4x), the During the low delay mode, the angle of view is shifted image will have a large amount of noise. to the Tele side in the 720 output mode due to the HW constraint. Variable Gamma Mode There are standard (01h) mode and straight gamma (02h) mode. HLC (highlight correction) is a function to adjust AE and AF, and to perform the masking of light area as required when a high intensity spot light is detected. Gamma Offset It allows you to easily read the number of vehicles and number plate in the indoor parking area or in the You can set the brightness from -16 (00h) to +64 (40h) outdoor during the night. in each mode of variable gamma mode.
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Basic Functions Note Low-Illumination Chroma Suppress Mode Flicker on images with color enhancement is not a malfunction of You can configure a chroma suppress mode for low- the camera. Flicker can be reduced by setting the threshold level illumination conditions. This can be useful when color and the aperture control. noise is particularly noticeable in such conditions. Four levels (disabled and three levels) are available for Temperature Reading Function the low-illumination chroma suppress mode. The conversion value (hex) of the temperature sensor built into to the camera can be read by using a query ICR (IR Cut-Removable) Mode command. The conversion value has an error of ±3 C, An infrared (IR) Cut-Filter can be disengaged from the and because the temperature sensor is inside the camera, this value is not the ambient temperature. Use image path for increased sensitivity in low light it as a reference value. environments. The ICR will automatically engage depending on the ambient light, allowing the camera to be effective in day/night environments. “StableZoom” When the auto ICR mode is set to On, the image becomes black and white. “StableZoom” is a function for smoothly zooming up to approximately 24× using a combination of the optical zoom and digital zoom. The digital zoom can be Custom Color Gain further used to zoom up to 240×. At the wide end, you You can configure the color gain. Use this setting when can obtain images without any reduction in the...
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Basic Functions Freeze This function captures an image in the field memory of When Auto Slow Shutter is Off (initial setting) the camera so that this image can be output continuously. Shutter 1/60 sec Iris Because communication inside the camera is based on V cycle, OPEN the captured image is always the one 3V to 4Vs after the sending of a Command. Thus, you can not specify a time period after sending EVEN, ODD or a Command.
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Basic Functions Register Setting Note The camera’s initial settings can be changed by the After changing the register setting, turn off the camera, then turn it register setting command. on again. Register Setting Command: 8x 01 04 24 mm 0p 0q FF Privacy Zone Masking Settings mm: Register No. (=00 to 7F) For details, see page 16. pq: Register Value (=00 to FF) Register Inquiry Command: Motion detection For details, see page 18. 8x 09 04 24 mm FF mm: Register No. y0 50 0p 0p FF Title Display pp: Register Value (returned from the camera) • You can set a title of up to 11 lines. One line can contain up to 20 characters. The register setting items and No. are as follows. • You can set display on/off, the horizontal position of For details, see “Register Setting” on page 54, 55. Baud Rate: 00 the first character, blinking state and color for each Communication speed can be changed. line. Monitoring Mode: 72 • The camera gives priority to a title display when the The digital output mode can be configured.
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Basic Functions Privacy Zone Masking Function Details of Setting Commands Set Mask Privacy Zone masking protects private objects and Command: 8x 01 04 76 mm nn 0r 0r 0s 0s FF areas such as house windows, entrances, and exits Parameters: which are within the camera’s range of vision but not Setting Mask subject to surveillance. See “mm: Mask setting list” in “Parameters” on page 17. Privacy zone masking can be masked on the monitor to Selects new setting or resetting for the zone. See “nn: protect privacy. Setting” in “Parameters” on page 17. Sets the half value “w” of the Mask Width. Sets the half value “h” of the Mask Height. Features See “pp: x, qq: y, rr: w, ss: h” in “Parameters” on page 17. • Mask can be set on up to 24 places according to Pan/ Comments: To set the mask, first display the object at Tilt positions. the center of the screen. When “nn” is set to 1, the • Mask can be displayed on 8 places per screen current Pan/Tilt/Zoom Position is recorded in simultaneously. internal memory. • Individual on/off zone masking settings. When “nn” is set to 0, the Pan/Tilt/Zoom Position • Two colors can be individually set for each of in memory is not changed. 24 privacy zones.
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Basic Functions Example: 8x 01 04 78 00 00 00 03 00 07 FF Non Interlock Mask The mask color of Mask_A and Mask_B is White Command: 8x 01 04 6F mm 0p 0p 0q 0q 0r 0r 0s 0s (color code 07h), and the mask color of the other Mask (C to X) is Black (color code 00h). Parameters: Setting Mask Set Pan Tilt Angle See “mm: Mask setting list” in “Parameters” on page 17. Command: 8x 01 04 79 0p 0p 0p 0q 0q 0q FF Sets the center position “x” of the Mask on screen. Parameter: Sets the center position “y” of the Mask on screen. Sets the half value “w” of the Mask Width. Pan Angle Sets the half value “h” of the Mask Height. Tilt Angle See “pp: x, qq: y, rr: w, ss: h” in “Parameters” on page 17. See “Setting pan/tilt angle” in “Parameters” on Commands: Mask does not interlock with pan/tilt. page 18. The limitations of parameters are as follows. Comments: Pan/Tilt angle settings are hexadecimal (hexadecimal representation) data. x: ±50h The resolution of Pan/Tilt angle is 0.088 degrees. w: ±50h y: ±2Dh Notes h: ±2Dh • W hen you set the pan/tilt angle, locate the pan/tilt position at Note...
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Basic Functions Motion Detection (MD) Function Note The priority order of the mask display is in the sequence from A (highest) to X (lowest). This function instructs the camera to detect movement When you set the parameters of masks non-sequentially, it is within the monitoring area and then send an alarm recommended that you set the mask whose priority order is higher, signal automatically. first. The Detect signal goes out through the VISCA Command. pp pp pp pp: Mask bit Features 7 6 5 1 0 7 6 5 4 3 2 1 0 Mask - X W V U T S - - R Q P O N M • You can set a frame for the detection range of 16 (horizontally) × 8 (vertically) blocks.
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Basic Functions • When multiple motions are detected or motion is Sending Alarms detected in another frame within the set interval following the original time the alarm was issued, • When motion is detected, the Alarm Replay another alarm command is not issued. command is issued via the serial command (VISCA) • When motion is detected after the interval time communication line. elapsed, the alarm is issued again. Alarm issue Alarm issue Alarm issue Alarm issue Interval Interval Interval Alarm interval Motion is Motion is Motion is Motion is Motion is Motion is Motion is Motion is detected in detected in...
Basic Functions User’s Updating Extended Commands Extended commands support the following functions (described previously). Firmware Update Operation for Turn on this mode (for details, see “Extended Mode” in FCB series version 4.00 or later. “Register Setting” on page 55) to enable the following functions. Overview • Exposure Compensation The setting can be set in steps of approximately 0.2dB The details on the firmware version upgrade are (-128 (00h) to approximately +127 (FFh)). described. For details, see page 11. To perform the firmware version upgrade, the • Aperture Control following three steps are required. The setting can be set to 256 levels (00h to FFh). 1) Shifting to the maintenance mode using the Visca For details, see page 11. command • Custom Color Gain 2) Binary transmission (X model protocol) of the...
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Basic Functions 3) Finalizing setting using the Visca command Maintenance Mode The finalizing setting is performed using the Visca HOST command. CODE NAME+ You cannot read the correct camera firmware VERSION + CR version without performing this setting. Be sure to perform this setting. Firmware Update “ready” + CR Ready Message Update Procedure “reprogram ( )” + CR Enter Maintenance Mode “receive”+ CR HOST CAM_Power off Sending Firmware Binary 8x 01 04 00 03 FF with X modem protocol Enter Standby...
Basic Functions Eclipse When designing the housing, refer to the dimensional allowance as shown in the figure below. 19.5 (25/32) unit: mm (inches) Spectral Sensitivity Characteristics Green Blue 1000 Wavelength [nm] Use the graph as a reference value. (We can not guarantee these values.) This data is measured when the IR cut filter is removed and the characteristics of the lens and optical source characteristics are ignored.
Basic Functions Initial Settings, Custom Preset and Backup Initial Settings for the various functions of the FCB camera are indicated in the “Initial Settings” column. The “Custom Preset” column indicates whether the custom preset function can be used to store the settings. The function enables the stored settings to be recalled automatically when the camera is turned on. The “Back up at standby” column indicates whether the data is preserved even when the camera is in the standby mode. Custom Back up Mode/Position setting Initial Settings Preset at standby Zoom Position Wide end D-Zoom On/Off D-Zoom Separate/Combine Combine D-Zoom Position ...
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Basic Functions Custom Back up Mode/Position setting Initial Settings Preset at standby Camera Memory Same as the initial value setting Display On/Off Mute On/Off Auto ICR Alarm On/Off High Sensitivity Mode On/Off Gamma 0:standard Defog On/Off NR level (normal setting) NR level (independent setting) Disabled ...
Command List Command List Overview of VISCA VISCA/RS-232C Commands In VISCA, the device outputting commands, for example, a computer, is called the controller. The device receiving the commands, an FCB camera is This Manual outlines an RS-232C control protocol and called the peripheral device. In VISCA, up to seven command list for certain Sony cameras from which peripheral devices like the FCB camera can be control software can be developed. connected to one controller using communication THIS CONTROL PROTOCOL AND COMMAND conforming to the RS-232C standard. The parameters LIST IS PROVIDED BY SONY ON AN “AS-IS BASIS” of RS-232C are as follows. WITHOUT WARRANTY OF ANY KIND. SONY C ommunication speed: 9.6 kbps/19.2 kbps/ DOES NOT WARRANT ANY PARTICULAR RESULT 38.4 kbps/115.2 kbps FROM THE USE OF THIS CONTROL PROTOCOL Data bits : 8 AND COMMAND LIST AND DISCLAIMS AND Start bit : 1 EXCLUDES ALL WARRANTIES. EXPRESS OR Stop bit : 1 IMPLIED, WITH RESPECT TO THAT CONTROL Non parity PROTOCOL AND COMMAND LIST, INCLUDING, Flow control using XON/XOFF and RTS/CTS, etc., is...
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Command List VISCA Communication Specifications VISCA packet structure The basic unit of VISCA communication is called a packet. The first byte of the packet is called the header and comprises the sender’s and receiver’s addresses. For example, the header of the packet sent to the FCB camera assigned address 1 from the controller (address 0) is hexadecimal 81h. The packet sent to the camera assigned address 2 is 82h. In the command list, as the header is 8X, input the address of the camera at X. The header of the reply packet from the camera assigned address 1 is 90h. The packet from the camera assigned address 2 is A0h. Some of the commands for setting cameras can be sent to all devices at one time (broadcast). In the case of broadcast, the header should be hexadecimal 88h. When the terminator is FFh, it signifies the end of the packet. Packet (3 to 16 bytes) Header Message (1 to 14 bytes) Terminator Byte 1 Byte 2 Byte 3 Sender’s address...
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Command List Responses for commands and inquiries The Acknowledge message is not returned for these commands and inquiries, and only the completion A cknowledge message message of socket number 0 is returned. Returned by the FCB camera when it receives a Command execution cancel command. No Acknowledge message is returned for inquiries. To cancel a command which has already been sent, send the Cancel command as the next command. To C ompletion message cancel one of any two commands which have been Returned by the FCB camera when execution of sent, use the cancel message. commands or inquiries is completed. In the case of inquiry commands, it will contain reply data for the Cancel Packet Note inquiry after the 3rd byte of the packet. If the Cancel 8X 2Y FF Y = socket number Acknowledge message is omitted, the socket number X = 1 to 7: FCB camera address, Y = socket number will contain 0.
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8X 09 00 02 FF Y0 50 GG GG HH HH JJ JJ KK FF GGGG = Vender ID (0020: Sony) HHHH = Model ID 046C: FCB-EV7310 JJJJ = ROM revision KK = Maximum socket #(02) X = 1 to 7: FCB camera address (For inquiry packet)
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Command List VISCA Command/Acknowledge Protocol Command Command Message Reply Message Comments General Command 81 01 04 38 02 FF 90 41 FF (Acknowledge) Returns Acknowledge when a command has been accepted, and (Example) +90 51 FF (Completion) Completion when a command has been executed. 90 42 FF 90 52 FF 81 01 04 38 FF 90 60 02 FF (Syntax Error) Accepted a command which is not supported or a command (Example) lacking parameters. 81 01 04 38 02 FF 90 60 03 FF There are two commands currently being executed, and the (Example) (Command Buffer Full) command could not be accepted. 81 01 04 08 02 FF 90 61 41 FF Could not execute the command in the current mode. (Example) (Command Not Executable) 90 62 41 FF Inquiry Command 81 09 04 38 FF 90 50 02 FF (Completion) Acknowledge is not returned for the inquiry command. (Example) 81 09 05 38 FF 90 60 02 FF (Syntax Error)
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Command List VISCA Camera-Issued Messages Acknowledge/Completion Messages Command Messages Comments Acknowledge z0 4y FF Returned when the command is accepted. (y:Socket No.) Completion z0 5y FF Returned when the command has been executed. (y:Socket No.) z = Device address + 8 Error Messages Command Messages Comments Syntax Error z0 60 02 FF Returned when the command format is different or when a command with illegal command parameters is accepted. Command Buffer Full z0 60 03 FF Indicates that two sockets are already being used (executing two commands) and the command could not be accepted when received. Command Canceled z0 6y 04 FF Returned when a command which is being executed in a socket specified by the cancel (y:Socket No.) command is canceled. The completion message for the command is not returned. No Socket z0 6y 05 FF Returned when no command is executed in a socket specified by the cancel command, (y:Socket No.) or when an invalid socket number is specified.
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Command List Command List (5/6) Command Set Command Command Packet Comments CAM_IDWrite — 8x 01 04 22 0p 0q 0r 0s FF pqrs: Camera ID (=0000h to FFFFh) CAM_MD 8x 01 04 1B 02 FF MD On/Off 8x 01 04 1B 03 FF Function Set 8x 01 04 1C 0m 0n 0p 0q 0r 0s FF m: Display mode n: Detection Frame Set (00h to 0Fh) pq: Threshold Level (00h to FFh) rs: Interval Time set (00h to FFh) Window Set 8x 01 04 1D 0m 0p 0q rr 0s FF m: Select Detection Frame (0, 1, 2, 3) p: Start Horizontal Position (00h to 0Fh) q: Start Vertical Position (00h to 07h) rr: Stop Horizontal Position (01h to 10h) s: Stop Vertical Position (01h to 08h) Alarm (Reply) y0 07 04 1B 0p FF p: Detection Frame Number CAM_Continuous 8x 01 04 69 02 FF Zoom Position data Continuous Output On/Off ZoomPosReply 8x 01 04 69 03 FF (Reply) y0 07 04 69 0p 0p 0q 0q 0q 0q FF pp: D-Zoom Position...
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Command List Command List (6/6) Command Set Command Command Packet Comments CAM_ContrastAdjLevel Direct 8x 01 05 5D 01 0p 0q FF pq: 00h to FFh (Supported in FW version 00h to 7Fh: The smaller the value is, the lower the contrast 6.00 or later) becomes. 80h (Initial setting): No contrast adjustment 81h to FFh: The larger the value is, the higher the contrast becomes. CAM_ExExpComp Reset 8x 01 04 1F 0E 00 00 FF Exposure compensation reset 8x 01 04 1F 0E 02 pp FF Exposure compensation up pp: Step number pp=00h to 7Fh (However, 00h is the same operation as 01h.) Down 8x 01 04 1F 0E 03 pp FF Exposure compensation down pp: Step number pp=00h to 7Fh (However, 00h is the same operation as 01h.) Direct 8x 01 04 1F 4E 00 00 0p 0q FF Set the exposure compensation to the specified level pq: Level pq=00h to FFh CAM_ExAperture Reset 8x 01 04 1F 02 00 00 FF...
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Command List Block Inquiry Command List Lens Control System Inquiry Commands ..... Command Packet 8x 09 7E 7E 00 FF Byte Comments Byte Comments Byte Comments Destination Address Source Address Focus Near Limit (H) 0 Completion Message (50h) DZoomMode 0: Combine 1: Separate 0: Normal 1: Interval 2: Zoom Trigger Focus Near Limit (L) AF Sensitivity 0: Low 1: Normal Digital Zoom 1: On 0: Off Focus Mode 0: Manual 1: Auto Zoom Position (HH) Focus Position (HH) Low Contrast Detection 1: Yes 0: No...
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Command List Camera Control System Inquiry Commands ....Command Packet 8x 09 7E 7E 01 FF Byte Comments Byte Comments Byte Comments Destination Address Source Address WB Mode Gain Position 0 Completion Message (50h) Bright Position Aperture Gain Exposure Mode R Gain (H) Exposure Comp. Position 1 Terminator (FFh) High Resolution 1: On 0: Off VE (1: On 0: Off) Spot AE 1: On 0: Off Backlight 1: On 0: Off R Gain (L) Exposure Comp. 1: On 0: Off Slow Shutter 1: On 0: Off Shutter Position B Gain (H) Iris Position...
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Command List Other Inquiry Commands ..........Command Packet 8x 09 7E 7E 02 FF Byte Comments Byte Comments Byte Comments Destination Address Memory 1: Provided 0: Not provided Source Address ICR 1: Provided 0: Not provided 0 Completion Message (50h) System 1: 1/50, 1/25 0: 1/60, 1/30 Auto ICR Alarm (1: On, 0: Off) Auto ICR 1: On 0: Off Camera ID (HH) Power 1: On 0: Off 1 Terminator (FFh) ICR 1: On 0: Off Freeze 1: On 0: Off LR Reverse 1: On 0: Off Camera ID (HL) Privacy Zone 1: On 0: Off Mute 1: On 0: Off Title Display 1: On 0: Off Display 1: On 0: Off Camera ID (LH) Picture Effect Mode...
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Command List Extended Function1 Query Command ......Command Packet 8x 09 7E 7E 03 FF Byte Comments Byte Comments Byte Comments Destination Address Color Gain (0h (60%) to Eh (200%)) Advanced Privacy Source Address AF Interval Time (H) (1: Provided, 0: Not provided) Reserved E-Flip 0 Completion Message (50h) (1: Provided, 0: Not provided) AF Interval Time (L) AE Response Gamma High Sensitivity mode Digital Zoom Position (H) Spot AE Position (X) (1: On, 0: Off) NR Level (The lower 3 bits of the CAM_ NRInq return value pq are stored.) Chroma Suppress...
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Command List Extended Function2 Query Command ......Command Packet 8x 09 7E 7E 04 FF Byte Comments Byte Comments Byte Comments Destination Address Source Address Compensation level 0: Low 1: Mid 2: High 0 Completion Message (50h) Defog 0: Off 1: On Defog Level 0: Off 2: VE On 0: mid 1: low 2: mid 3: high 1 Terminator (FFh) Display brightness level setting 0: Dark to 6: Bright Brightness compensation selection 0: Very dark 1: Dark 2: Standard 3: Bright...
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Command List VISCA Command Setting Values Exposure control (1/2) Gain 47.8 dB (28 step) 60/59.94/ 50/25 mode 44.4 dB (26 step) 30/29.97 mode 41 dB (24 step) Shutter Speed 37.5 dB (22 step) 1/10000 1/10000 1/6000 1/6000 34.1 dB (20 step) 30.7 dB (18 step) 1/4000 1/3500 27.3 dB (16 step) 1/3000 1/2500 23.9 dB (14 step) 1/2000 1/1750 20.5 dB (12 step) 1/1500 1/1250 17.1 dB (10 step) 1/1000 1/1000 13.7 dB (8 step) 1/725 1/600...
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Command List Exposure control (2/2) Zoom Ratio and Zoom Position (for reference) Iris Gain Bright Optical Zoom Optical Zoom F1.6 47.8 dB (28 step) Ratio Position Data F1.6 44.4 dB (26 step) 1× 0000 F1.6 41 dB (24 step) 2× 1851 F1.6 37.5 dB (22 step) 3× 22BE 4× 28F6 F1.6 34.1 dB (20 step) 5×...
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Command List Digital Zoom Combine mode Lens control Digital Zoom Digital Zoom 0000 to 4000 to 7AC0 Ratio Position Data Zoom Position Wide end Optical Digital 1× 4000 Tele end Tele end 2× 6000 1000 to F000 Focus Position 3× 6A80 Far end Near end 4× 7000 1000: Over Inf 5× 7300 2000: 25 m 6× 7540 3000: 11 m 7× 76C0 4000: 7 m 8×...
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Command List Temperature Reading Conversion Value Register Setting (Reference Value) The register settings are enabled when the power is turned off and then back on again. After turning the power back on again, verify that the mode settings have Reading Value Temperature pq (hex) Conversion been changed. Value (ºC) Register No. Value −8 to −2 VISCA 9600 bps −3 to +3 Baud Rate (Iinitial Setting) 7 to 13 19200 bps 38400 bps 17 to 23 115200 bps 27 to 33 Monitoring 1080i/59.94 37 to 43 Mode (Iinitial Setting) 47 to 53...
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Command List Others Register No. Value FocusTrace @ZoomDirect AF Active Time (Iinitial Setting: 01) AF Interval Time FocusOffset 00-FF 00: None to Spot AE X position @DomeCover (Iinitial Setting: 00) FF: Max. AE Parameter Spot AE Y position Change During R Gain VE On, Defog (Iinitial Setting) B Gain Aperture Control Level Auto Slow 1/30 AE Response 1/15 Shutter Limit AutoICR On Off Threshold Level MD Threshold Level (Iinitial Setting) MD Interval Time MD Set Horizontal Position Extended MD Set Vertical Position Normal Shutter (Iinitial Setting) Chroma Suppress setting level Allowed up to...
Specifications Specifications Imager 1/2.8 Type “Exmor” CMOS Sensor Back light compensation Picture elements 2140K pixels On/Off Lens 20× Zoom Electronic shutter speed F= 4.7 mm (WIDE) to 94.0 mm 1/1 sec to 1/10000 sec (22 steps) (TELE), F1.6 to F3.5 White Balance Auto, ATW, Indoor, Outdoor, One Zoom movement speed Push WB, Manual WB, Outdoor Optical WIDE – Optical TELE Auto, Sodium Vapor Lamp (Fix/ 2.1 sec (Focus Tracking On) Auto/Outdoor Auto) 1.5 sec (Focus Tracking Off) Gain Auto/Manual Optical WIDE – Digital TELE 0 to 47.8 dB (0 to 28 step) 4.2 sec (29.97p/59.94p mode) Max. Gain Limit 4.6 sec (25p/50p mode) 10.2 to 47.8 dB (6 to 28 step) Digital WIDE – Digital TELE Noise Reduction 2.1 sec (29.97p/59.94p mode) On/Off (level 5 to 1 / Off, 6 steps) 2.5 sec (25p/50p mode) Defog mode On/Off Focus Movement time Color Enhancement ∞ to Near 0.7 sec On/Off...
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Specifications Interface FCB-EV7310 046240024006800+ (Kyocera-elco) • The FCB-EV7310 uses the LVDS transmitter IC chip. The LVDS receiver IC chip (e.g., THC63LVD1024, THC63LVD104C, BU90R102) is recommended. • Recommended connectors and cables Cable: #42 thin coaxial cable Connector: USL20-30S (KEL) LVDS Pixel Data Format Single Mode THS63LVD827 IN Pixel CLK Pixel Data THS63LVD827 OUT TA1 +/ TB1 +/ TC1 +/ TD1 +/ TCLK + Please ignore the value which can be “0” or “1”.
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Specifications Double Mode THS63LVD827 IN Pixel CLK Pixel Data EVEN EVEN THS63LVD827 OUT TA1 +/ TB1 +/ DATA TC1 +/ TD1 +/ TCLK + TA2 +/ TB2 +/ EVEN DATA TC2 +/ ...
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Specifications LVDS receiver circuit example Sony Corporation is not liable for any damages to user’s hardware incurred by the use of the circuit example shown below. LVDS receiver circuit example (Single output) * Not compatible with 1080p/60, 59.94, 50 • The switch (S001) selects whether to input the rising edge or falling edge of the signal.
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Specifications LVDS receiver IC (e.g., THC63LVD104C) Pin assigment Single mode LVDS input - CMOS output * Not compatible with 1080p/60, 59.94, 50 Pin No. Description Signal Pin No. Description Signal GND_1 TEST VSYNC VCC_37 HSYNC VCC_9 GND_44 GND_16 VCC_48 RA− TXOUT0−...
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Specifications LVDS receiver circuit example (Single output) • No.1 and 2 of S601 adjust the signal delay. No.3 selects whether to input the rising edge or falling edge of the signal.
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Specifications LVDS receiver IC (e.g., BU90R102) Pin assigment Single mode LVDS input - CMOS output Pin No. Description Signal Pin No. Description Signal Pin No. Description Signal PGND_1 HSYNC PVCC_2 VSYNC RESERVED VCC_53 PDWN GND_54 CONT11 MODE0 CONT21 CONT12 MODE1 CONT22 VCC_106 VCC_57...
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Specifications LVDS receiver circuit example (Double output) • No.1 and 2 of S601 adjust the signal delay. No.3 selects whether to input the rising edge or falling edge of the signal.
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Specifications Cable reference specifications (crossover) • Recommended connectors and cables Cable green: #42 thin coaxial cable Cable blue: #42 thin coaxial cable Connector: USL20-30S (KEL) Binding tape DIGITAL Image Output Y, Cb, Cr 4:2:2 FORMAT Color coding complies with BT709.
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Specifications Synchronized codes Blanking Active Video Area or Non-active Video Area XX for SAV XX for EAV Active Video Area First Field Non-active Video Area Active Video Area Second Field Non-active Video Area...
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Specifications Synchronized codes Interlace system (Comparable to SMPTE 274 M) lanking Non-active Video Area Active Video Area First Field lanking lanking Non-active Video Area Non-active Video Area lanking Active Video Area Second Field lanking lanking Non-active Video Area ...
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Specifications Synchronized codes Progressive system (Comparable to SMPTE 274 M, 296 M) Blanking Non-active Video Area Blanking Active Video Area Blanking Non-active Video Area SAV for Active Video Area SAV for Non-active Video Area EAV for Active Video Area ...
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Specifications Dimensions Front Back Bottom Within a depth Within a depth of 3 mm ( in.) of 3 mm ( in.) or less from the or less from the top surface bottom surface Screw for camera tripod within a depth of 5 mm ( in) or less (1/4-20UNC)
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Specifications CN501 Pin assignment Kyocera-elco 046240024006800+ Pin No. Name Level CMOS 5 V (Low: Max 0.1 V, High: Min 4.4 V) CMOS 5 V (Low: Max 1.0 V, High: Min 2.3 V) RESET Reset: Low (GND), Normal: Open (1.8V) VBS-OUT Y-OUT HD Analog Component CN401 KEL Co. USL00-30L-C Pb-OUT HD Analog Component Pin No. Name Level Pr-OUT HD Analog Component TXOUT3+ TXOUT3− DC IN 6 to 12 V DC TXCLKOUT+ DC IN 6 to 12 V DC TXCLKOUT− DC IN 6 to 12 V DC TXOUT2+ DC IN 6 to 12 V DC TXOUT2−...