Difference between revisions of "Woodpecker1 Camera"

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[[Woodpecker1_FAQ|Woodpecker1 Q&A]]<br/>
 
[[Woodpecker1_FAQ|Woodpecker1 Q&A]]<br/>
 
[[Woodpecker1_AFE|Woodpecker1 AFE Sensitivity Default]]<br/>
 
[[Woodpecker1_AFE|Woodpecker1 AFE Sensitivity Default]]<br/>
 
+
[[Woodpecker1 ReleaseNote|Woodpecker1 ReleaseNote]]<br/>
'''Release'''
+
[[Woodpecker1 Known Issue]]<br/>
{| class="wikitable"
 
|-
 
! Version !! Release Time !!ReleaseNote !! Known Issue
 
|-
 
| v1.26 || Nov 28, 2017 || [[WoodPecker1_SDK_v1.26_ReleaseNote|v1.26 ReleaseNote]] || [[WoodPecker1_SDK_v1.26_Known_Issue|v1.26 Known Issue]]
 
|-
 
| v1.23 || Jun 22, 2017 || [[WoodPecker1_SDK_v1.23_ReleaseNote|v1.23 ReleaseNote]] || [[WoodPecker1_SDK_v1.23_Known_Issue|v1.23 Known Issue]]
 
|-
 
| v1.22 || Jun 09, 2017 || [[WoodPecker1_SDK_v1.22_ReleaseNote|v1.22 ReleaseNote]] || [[WoodPecker1_SDK_v1.22_Known_Issue|v1.22 Known Issue]]
 
|-
 
| v1.21 || Apr 20, 2017 || [[WoodPecker1 SDK v1.21 ReleaseNote|v1.21 ReleaseNote]] ||
 
[[WoodPecker1 SDK v1.21 Known Issue|v1.21 Known Issue]]
 
 
 
|}<br/>
 
 
 
Woodpecker1 is all C mount, and can only be used with C-mount lens.<br/>
 
<br/>
 
  
 
'''Applications………………………………………………'''<br/><br/>
 
'''Applications………………………………………………'''<br/><br/>
Line 29: Line 12:
  
 
'''Features………………………………………………'''<br/><br/>
 
'''Features………………………………………………'''<br/><br/>
Intel®ATOMTM CPU E3845(quad-core 1.91GHz)<br/>
+
Intel® ATOM™ CPU inside (E3845@1.91GHz, quad-core, 64-bit)<br/>
• 4G-byte DRAM, 64G-byte storage soldered on board<br/>
+
• 4G-byte DRAM, 64G-byte storage, soldered on board<br/>
 
• 64-bit OS: Windows 10 IoT Enterprise and Linux(Ubuntu 16.04)<br/>
 
• 64-bit OS: Windows 10 IoT Enterprise and Linux(Ubuntu 16.04)<br/>
• 0.4 to 20MP CCD/CMOS image sensor<br/>
+
Image sensor resolution from 0.4 to 20MP<br/>
 
• HDMI display port<br/>
 
• HDMI display port<br/>
 
• 2 programmable constant current LED drivers<br/>
 
• 2 programmable constant current LED drivers<br/>
Free standard accessories: I/O module and connecting cables<br/>
+
• I/O module and connection cables are included<br/>
 
• Support connecting to other GigE or USB2.0 cameras<br/>
 
• Support connecting to other GigE or USB2.0 cameras<br/>
 
• Complete SDK and technical supporting documents<br/>
 
• Complete SDK and technical supporting documents<br/>
Rock-solid system stability, operating temperature from -40℃ to +80℃<br/>
+
Wide operation temperature from -40°C to +80°C<br/>
 
• 3-year warranty<br/><br/>
 
• 3-year warranty<br/><br/>
  
'''Open Industrial Smart Camera''' is a highly integrated x86 industrial machine vision system. It integrates image data acquisition, processing and system communication into the camera, providing a reliable and stable hardware platform for machine vision applications, running machine vision software developed by users or by any third party.<br/><br/><br/>
+
'''Open Industrial Smart Camera''' is a highly integrated x86 industrial machine vision system. It integrates image data acquisition, <BR/>processing and system communication into the camera, providing a reliable and stable hardware platform for machine vision applications, <br/>running machine vision software developed by users or by any third party.<br/><br/><br/>
'''Hardware Resources'''
+
'''Specifications'''
 
{| class="wikitable"
 
{| class="wikitable"
|    Model
 
!Detailed Information
 
 
|-
 
|-
|CPU Model||INTEL®ATOMTM CPU E3845
+
|CPU Model||INTEL®ATOM™ CPU E3845
 
|-
 
|-
 
|CPU Type||Quad-core 1.91GHz, 64-bit x86
 
|CPU Type||Quad-core 1.91GHz, 64-bit x86
 
|-
 
|-
|CPU L2 ||2M-Byte
+
|L2 Cache||2M-Byte
 +
|-
 +
|GPU||Support DirectX11, OpenGL3.0, OpenCL1.2
 
|-
 
|-
 
|Memory||4G-Byte DDR3L-1333(solder on board)
 
|Memory||4G-Byte DDR3L-1333(solder on board)
Line 60: Line 43:
 
|-
 
|-
 
|USB||3x USB 2.0 ports<br/>1x internal USB 2.0(inside camera casing, dedicated for USB dongle)
 
|USB||3x USB 2.0 ports<br/>1x internal USB 2.0(inside camera casing, dedicated for USB dongle)
 +
|-
 +
|Monitor Port||1x HDMI port, support resolutions from VGA (640x480) to 1080P
 
|-
 
|-
 
|Serial Port||1x RS232(TX and RX only)<br/>1x RS485
 
|Serial Port||1x RS232(TX and RX only)<br/>1x RS485
 
|-
 
|-
|I/O Module||8x isolated input ports,8x isolated output ports,1x isolated trigger input(5V/12V/24V DC supported)
+
|Trigger Input||1x Isolated trigger input(5V/12V/24VDC supported)
 
|-
 
|-
|Watchdog
+
|General Input||8x Isolated input ports(5V/12V/24VDC supported)
|Hardware Watching timer(1 to 256 second adjustable)
+
|-
 +
|General Output||8x Isolated NPN type output ports (Max current 0.3A, Max voltage 40VDC)
 
|-
 
|-
 
|LED Driver||2x constant current LED drivers, output current adjustable<br/>Camera LED driver only supports ROSEEK LED illuminator, with max output 0.3A/24V<br/>I/O module LED driver supports user's LED illuminator, with max output 1.5A/24V
 
|LED Driver||2x constant current LED drivers, output current adjustable<br/>Camera LED driver only supports ROSEEK LED illuminator, with max output 0.3A/24V<br/>I/O module LED driver supports user's LED illuminator, with max output 1.5A/24V
Line 72: Line 58:
 
|LED Indicator||5x red/green indicator: Power, LAN and 3x User-define LEDs
 
|LED Indicator||5x red/green indicator: Power, LAN and 3x User-define LEDs
 
|-
 
|-
|Monitor Port||1x HDMI port, support resolutions from VGA(640x480) to 1080P
+
|Delayed Triggering||Up to 32 delayed instances, each instance can be delayed up to 60 seconds, time
 +
precision is1us
 +
|-
 +
|Watchdog||Hardware Watching timer(1 to 256 second adjustable)
 +
|-
 +
|Encryption||Unique chip ID encryption; dedicated encryption chip LKT4300 (soldered on board)
 +
|-
 +
|Temperature Monitoring||Internal temperature sensor, real-time mainboard temperature monitoring
 +
|-
 +
|Remote Control||WoL (Wake on LAN) supported, remote control via Ethernet
 +
|-
 +
|OS(64bit)||Windows 10 IoT Enterprise, Linux (Ubuntu 16.04)
 
|-
 
|-
 
|Camera Power Consumption||12W Max
 
|Camera Power Consumption||12W Max
Line 88: Line 85:
 
|Certification||CE
 
|Certification||CE
 
|}<br/>
 
|}<br/>
'''Camera System Structure'''<br/><br/>
+
 
The main part of the Woodpecker1 series smart camera is Sensor, FPGA and CPU.<br/><br/>
+
'''Product Model'''<br/><br/>
 
{| class="wikitable"
 
{| class="wikitable"
 +
! style="text-align:left;"| Model!! Type!! Resolution!!Max<br/>FPS!!Shutter!!Sensor Description!!Sensitivity<br/>Ration
 
|-
 
|-
|Sensor||The Woodpecker1 series camera feature high-end global shutter CCD/CMOS for capturing high-speed moving objects.
+
|RSWP101MELN||Mono||0.4M(720×540)||200||Global Shutter||SONY CMOS IMX287LLR, 1/3", 6.9um||20
 
|-
 
|-
|FPGA||The ISP (Image Signal Preprocessing) engine with independent intellectual property is embedded in the FPGA for image interpolation, enhancement, noise reduction, white balance and color saturation adjustment.The FPGA also controls CCD, UART, IO, FLASH, etc.
+
|RSWP101SELN||Color||0.4M(720×540)||200||Global Shutter||SONY CMOS IMX287LQR, 1/3", 6.9um||12
 
|-
 
|-
|CPU||The Woodpecker1 series smart camera feature the Intel® ATOMTM CPU E3845 (Bay Trail Processor), which is highly computationally capable and capable of running a variety of machine vision applications, running machine vision software developed by the user or by any third party.
+
|RSWP112MELN||Mono||1.3M(1280×1024)||90||Global Shutter||ONSEMI CMOS NOIP3SN1300A, 1/2"||3.4
|}<br/>
 
'''• Simple Development'''<br/><br/>
 
- Windows OS: Microsoft Visual Studio 15<br/><br/>
 
- Linux OS: Ubuntu 16.04(C/C++)<br/><br/><br/>
 
'''• Thoughtful Service'''<br/><br/>
 
- The specified OS can be preinstalled at factory according to user's requirements<br/><br/>
 
- Support for convenient replacement of OS (only OS options supported by Woodpecker1)<br/><br/>
 
- Support system recovery functions, including BIOS and OS.<br/><br/><br/>
 
'''• Rich Resources'''<br/><br/>
 
- Provide a mature SDK, including all hard drivers. The user can call the corresponding API function to realize image acquisition, image preprocessing, exposure control, flash control, IO control and other functions.<br/><br/>
 
- You can use the IPP library provided by INTEL®. It is a library that is still expanding, and it is compatible with many fields and has good compatibility on Windows and Linux platforms. It is also a highly optimized set of functions for multimedia processing (image processing, video processing, etc.), data processing and communication (including parallel processing optimization, optimization of feature processors and other optimizations), supporting multi-core processors.<br/><br/>
 
- The Woodpecker1 series smart camera is an open, easy-to-develop platform that supports all third-party software, including OpenCV, HALCON, LabVIEW, Matlab, etc.<br/><br/><br/>
 
'''Product Standard'''<br/><br/>
 
{| class="wikitable"
 
! style="text-align:left;"| Model!! Mono/Color!! Resolution!!Max FPS!!Sensor!!Sensor Technology!!Optical Size!!Pixel Size!!Sensitivity Ration*
 
 
|-
 
|-
|RSWP105M||Mono||0.3MP(640×480)||120||SHARP RJ33B4AA0DT||Global Shutter CCD||1/3''||7.4um||14.9
+
|RSWP112SCLN||Color||1.3M(1280×1024)||90||Global Shutter||ONSEMI CMOS NOIP3SE1300A, 1/2"||2.9
 
|-
 
|-
|RSWP105S||Color||0.3MP(640×480)||120||SHARP RJ33B3AA0DT||Global Shutter CCD||1/3''||7.4um||10
+
|RSWP113MELN||Mono||1.6M(1456×1088)||107||Global Shutter||SONY CMOS IMX273LLR, 1/3", 3.45um||4.9
 
|-
 
|-
|RSWP105N||Mono||0.3MP(640×480)||200||SHARP RJ33B4AD0DT||Global Shutter CCD||1/3''||7.4um||14.9
+
|RSWP113SELN||Color||1.6M(1456×1088)||107||Global Shutter||SONY CMOS IMX273LQR, 1/3", 3.45um||3.0
 
|-
 
|-
|RSWP105A||Color||0.3MP(640×480)||200||SHARP RJ33B3AD0DT||Global Shutter CCD||1/3''||7.4um||10
+
|RSWP126MELN||Mono||2M(1616×1232)||30||Global Shutter||SHARP CCD RJ31N4AD0DT, 1/1.8", 4.4um||5.5
 
|-
 
|-
|RSWP115M||Mono||1.2MP(1280×960)||30||SHARP RJ33J4CA0DT||Global Shutter CCD||1/3''||3.75um||4.7
+
|RSWP126ACLN||Color||2M(1616×1232)||30||Global Shutter||SHARP CCD RJ31N3AD0DT, 1/1.8", 4.4um||3.7
 
|-
 
|-
|RSWP115S||Color||1.2MP(1280×960)||30||SHARP RJ33J3CA0DT||Global Shutter CCD||1/3''||3.75um||3.2
+
|RSWP130MELN||Mono||3.2M(2048×1536)||55.6||Global Shutter||SONY CMOS IMX265LLR, 1/1.8", 3.45um||4.7
 
|-
 
|-
|RSWP112M||Mono||1.3MP(1280×1024)||90||ONSEMI NOIP3SN1300A||Global Shutter CMOS||1/2''||4.8um||3.4
+
|RSWP130SCLN||Color||3.2M(2048×1536)||55.6||Global Shutter||SONY CMOS IMX265LQR, 1/1.8", 3.45um||3.0
 
|-
 
|-
|RSWP112S||Color||1.3MP(1280×1024)||90||ONSEMI NOIP3SE1300A||Global Shutter CMOS||1/2''||4.8um||2.9
+
|RSWP155MELN||Mono||5M(2448×2048)||15||Global Shutter||SHARP CCD RJ32S4AD0DT, 2/3", 3.45um||2.6
 
|-
 
|-
|RSWP126N||Mono||2MP(1616×1232)||50||SHARP RJ31N4AD0DT||Global Shutter CCD||1/1.8''||4.4um||5.5
+
|RSWP155ACLN||Color||5M(2448×2048)||15||Global Shutter||SHARP CCD RJ32S3AD0DT, 2/3", 3.45um||1.7
 
|-
 
|-
|RSWP126B||Color||2MP(1616×1232)||50||SHARP RJ31N3AD0DT||Global Shutter CCD||1/1.8''||4.4um||3.7
+
|RSWP150MELN||Mono||5.1M(2456×2048)||35.7||Global Shutter||SONY CMOS IMX264LLR, 2/3", 3.45um||4.7
 
|-
 
|-
|RSWP127S||Color||2MP(1616×1232)||15||SONY ICX274AQ||Global Shutter CCD||1/1.8''||4.4um||1.1
+
|RSWP150SCLN||Color||5.1M(2456×2048)||35.7||Global Shutter||SONY CMOS IMX264LQR, 2/3", 3.45um||3.0
 
|-
 
|-
|RSWP130M||Mono||3.2MP(2064×1536)||55||SONY IMX265LLR||Global Shutter CMOS||1/1.8''||3.45um||4.7
+
|RSWP1M0MELN||Mono||20M(5472×3648)||20||Rolling||SONY CMOS IMX183CLK, 1", 2.4um||2.0
 
|-
 
|-
|RSWP130S||Color||3.2MP(2064×1536)||55||SONY IMX265LQR||Global Shutter CMOS||1/1.8''||3.45um||3
+
|RSWP1M0SELN||Color||20M(5472×3648)||10||Rolling||SONY CMOS IMX183CQJ, 1", 2.4um||1.2
 
|-
 
|-
|RSWP155M||Mono||5MP(2448×2048)||15||SHARP RJ32S4AD0DT||Global Shutter CCD||2/3''||3.45um||2.6
+
|}<br/>
 +
*The sensitivity ratio is the sensitivity linear ratio obtained from the nominal sensitivity of the Sony CCD ICX445AQA. A larger value indicates a higher sensitivity.<br/><br/>
 +
 
 +
'''Camera System Structure'''<br/><br/>
 +
The main part of the Woodpecker1 series smart camera is Sensor, FPGA and CPU.<br/><br/>
 +
{| class="wikitable"
 
|-
 
|-
|RSWP155A||Color||5MP(2448×2048)||15||SHARP RJ32S3AD0DT||Global Shutter CCD||2/3''||3.45um||1.7
+
|Sensor||The Woodpecker1 series camera feature high-end global shutter CCD/CMOS for capturing high-speed moving objects.
 
|-
 
|-
|RSWP150M||Mono||5.1MP(2456×2048)||35.7||SONY IMX264LLR||Global Shutter CMOS||2/3''||3.45um||4.7
+
|FPGA||The ISP (Image Signal Preprocessing) engine with independent intellectual property is embedded in the FPGA for image interpolation, <BR/>enhancement, noise reduction, white balance and color saturation adjustment.The FPGA also controls CCD, UART, IO, FLASH, etc.
 
|-
 
|-
|RSWP150S||Color||5.1MP(2456×2048)||35.7||SONY IMX264LQR||Global Shutter CMOS||2/3''||3.45um||3
+
|CPU||The Woodpecker1 series smart camera feature the Intel® ATOMTM CPU E3845 (Bay Trail Processor),<BR/> which is highly computationally capable and capable of running a variety of machine vision applications, <br/>running machine vision software developed by the user or by any third party.
|-
 
|RSWP160M||Mono||6.3MP(3072×2048)||30||SONY IMX178LLJ||Rolling Shutter CMOS||1/1.8''||2.4um||1.6
 
|-
 
|RSWP160S||Color||6.3MP(3072×2048)||30||SONY IMX178LQJ||Rolling Shutter CMOS||1/1.8''||2.4um||1.1
 
|-
 
|RSWP1C0S||Color||12MP(4000×3000)||20||SONY IMX226CQJ||Rolling Shutter CMOS||1/1.7''||1.85um||0.74
 
 
|}<br/>
 
|}<br/>
*The sensitivity ratio is the sensitivity linear ratio obtained from the nominal sensitivity of the Sony CCD ICX445AQA. A larger value indicates a higher sensitivity.<br/><br/>
+
'''• Simple Development'''<br/><br/>
 
+
- Windows OS: Microsoft Visual Studio 15<br/><br/>
'''About Us'''<br/><br/>
+
- Linux OS: Ubuntu 16.04(C/C++)<br/><br/><br/>
Shanghai Ruishi Machine Vision Technology Co., Ltd (ROSEEK) was established in 2006. We focus on designing and manufacturing high performance and high reliability embedded imaging device. Our main products cover machine vision, ITS and security market.
+
'''• Thoughtful Service'''<br/><br/>
As the first company introduced smart camera to Chinese intelligent image processing market, ROSEEK now provides over 20,000 cameras per year for domestic and overseas customers from Asia, Eastern Europe, Africa and Australia.<br/><br/>
+
- The specified OS can be preinstalled at factory according to user's requirements<br/><br/>
All ROSEEK products are designed independently. We provide 3-year warranty with thorough support.<br/><br/>
+
- Support for convenient replacement of OS (only OS options supported by Woodpecker1)<br/><br/>
 
+
- Support system recovery functions, including BIOS and OS.<br/><br/><br/>
[[Woodoecker1 SDK Version]]
+
'''• Rich Resources'''<br/><br/>
 +
- Provide a mature SDK, including all hard drivers. The user can call the corresponding API function to realize image acquisition, image preprocessing, exposure control, flash control, IO control and other functions.<br/><br/>
 +
- You can use the IPP library provided by INTEL®. It is a library that is still expanding, and it is compatible with many fields and has good compatibility on Windows and Linux platforms. It is also a highly optimized set of functions for multimedia processing (image processing, video processing, etc.), data processing and communication (including parallel processing optimization, optimization of feature processors and other optimizations), supporting multi-core processors.<br/><br/>
 +
- The Woodpecker1 series smart camera is an open, easy-to-develop platform that supports all third-party software, including OpenCV, HALCON, LabVIEW, Matlab, etc.<br/><br/><br/>
  
 
'''Users of LED source can set parameters as follows:''' <br/><br/>
 
'''Users of LED source can set parameters as follows:''' <br/><br/>

Latest revision as of 06:59, 19 December 2018

Woodpecker1 Series Smart Camera

Woodpecker1 Q&A
Woodpecker1 AFE Sensitivity Default
Woodpecker1 ReleaseNote
Woodpecker1 Known Issue

Applications………………………………………………

• Surface inspection, High-accuracy measuring
• OCR, Bar code/2D code recognition
• Matching, Classification

Features………………………………………………

• Intel® ATOM™ CPU inside (E3845@1.91GHz, quad-core, 64-bit)
• 4G-byte DRAM, 64G-byte storage, soldered on board
• 64-bit OS: Windows 10 IoT Enterprise and Linux(Ubuntu 16.04)
• Image sensor resolution from 0.4 to 20MP
• HDMI display port
• 2 programmable constant current LED drivers
• I/O module and connection cables are included
• Support connecting to other GigE or USB2.0 cameras
• Complete SDK and technical supporting documents
• Wide operation temperature from -40°C to +80°C
• 3-year warranty

Open Industrial Smart Camera is a highly integrated x86 industrial machine vision system. It integrates image data acquisition,
processing and system communication into the camera, providing a reliable and stable hardware platform for machine vision applications,
running machine vision software developed by users or by any third party.


Specifications

CPU Model INTEL®ATOM™ CPU E3845
CPU Type Quad-core 1.91GHz, 64-bit x86
L2 Cache 2M-Byte
GPU Support DirectX11, OpenGL3.0, OpenCL1.2
Memory 4G-Byte DDR3L-1333(solder on board)
Storage 64G-byte eMMC5.0 Flash(solder on board)
Ethernet One Gigabit Ethernet by INTEL®I210 controller
USB 3x USB 2.0 ports
1x internal USB 2.0(inside camera casing, dedicated for USB dongle)
Monitor Port 1x HDMI port, support resolutions from VGA (640x480) to 1080P
Serial Port 1x RS232(TX and RX only)
1x RS485
Trigger Input 1x Isolated trigger input(5V/12V/24VDC supported)
General Input 8x Isolated input ports(5V/12V/24VDC supported)
General Output 8x Isolated NPN type output ports (Max current 0.3A, Max voltage 40VDC)
LED Driver 2x constant current LED drivers, output current adjustable
Camera LED driver only supports ROSEEK LED illuminator, with max output 0.3A/24V
I/O module LED driver supports user's LED illuminator, with max output 1.5A/24V
LED Indicator 5x red/green indicator: Power, LAN and 3x User-define LEDs
Delayed Triggering Up to 32 delayed instances, each instance can be delayed up to 60 seconds, time

precision is1us

Watchdog Hardware Watching timer(1 to 256 second adjustable)
Encryption Unique chip ID encryption; dedicated encryption chip LKT4300 (soldered on board)
Temperature Monitoring Internal temperature sensor, real-time mainboard temperature monitoring
Remote Control WoL (Wake on LAN) supported, remote control via Ethernet
OS(64bit) Windows 10 IoT Enterprise, Linux (Ubuntu 16.04)
Camera Power Consumption 12W Max
Power Supply 20 to 30VDC(24VDC recommended),2A Max
Operation Condition -40°C to +80°C
Hardware Structure Aluminum alloy casing, fanless design
Dimennsions 110×61×47mm
Weight 380g
Certification CE

Product Model

Model Type Resolution Max
FPS		 Shutter Sensor Description Sensitivity
Ration
RSWP101MELN Mono 0.4M(720×540) 200 Global Shutter SONY CMOS IMX287LLR, 1/3", 6.9um 20
RSWP101SELN Color 0.4M(720×540) 200 Global Shutter SONY CMOS IMX287LQR, 1/3", 6.9um 12
RSWP112MELN Mono 1.3M(1280×1024) 90 Global Shutter ONSEMI CMOS NOIP3SN1300A, 1/2" 3.4
RSWP112SCLN Color 1.3M(1280×1024) 90 Global Shutter ONSEMI CMOS NOIP3SE1300A, 1/2" 2.9
RSWP113MELN Mono 1.6M(1456×1088) 107 Global Shutter SONY CMOS IMX273LLR, 1/3", 3.45um 4.9
RSWP113SELN Color 1.6M(1456×1088) 107 Global Shutter SONY CMOS IMX273LQR, 1/3", 3.45um 3.0
RSWP126MELN Mono 2M(1616×1232) 30 Global Shutter SHARP CCD RJ31N4AD0DT, 1/1.8", 4.4um 5.5
RSWP126ACLN Color 2M(1616×1232) 30 Global Shutter SHARP CCD RJ31N3AD0DT, 1/1.8", 4.4um 3.7
RSWP130MELN Mono 3.2M(2048×1536) 55.6 Global Shutter SONY CMOS IMX265LLR, 1/1.8", 3.45um 4.7
RSWP130SCLN Color 3.2M(2048×1536) 55.6 Global Shutter SONY CMOS IMX265LQR, 1/1.8", 3.45um 3.0
RSWP155MELN Mono 5M(2448×2048) 15 Global Shutter SHARP CCD RJ32S4AD0DT, 2/3", 3.45um 2.6
RSWP155ACLN Color 5M(2448×2048) 15 Global Shutter SHARP CCD RJ32S3AD0DT, 2/3", 3.45um 1.7
RSWP150MELN Mono 5.1M(2456×2048) 35.7 Global Shutter SONY CMOS IMX264LLR, 2/3", 3.45um 4.7
RSWP150SCLN Color 5.1M(2456×2048) 35.7 Global Shutter SONY CMOS IMX264LQR, 2/3", 3.45um 3.0
RSWP1M0MELN Mono 20M(5472×3648) 20 Rolling SONY CMOS IMX183CLK, 1", 2.4um 2.0
RSWP1M0SELN Color 20M(5472×3648) 10 Rolling SONY CMOS IMX183CQJ, 1", 2.4um 1.2

  • The sensitivity ratio is the sensitivity linear ratio obtained from the nominal sensitivity of the Sony CCD ICX445AQA. A larger value indicates a higher sensitivity.

Camera System Structure

The main part of the Woodpecker1 series smart camera is Sensor, FPGA and CPU.

Sensor The Woodpecker1 series camera feature high-end global shutter CCD/CMOS for capturing high-speed moving objects.
FPGA The ISP (Image Signal Preprocessing) engine with independent intellectual property is embedded in the FPGA for image interpolation,
enhancement, noise reduction, white balance and color saturation adjustment.The FPGA also controls CCD, UART, IO, FLASH, etc.
CPU The Woodpecker1 series smart camera feature the Intel® ATOMTM CPU E3845 (Bay Trail Processor),
which is highly computationally capable and capable of running a variety of machine vision applications,
running machine vision software developed by the user or by any third party.

• Simple Development

- Windows OS: Microsoft Visual Studio 15

- Linux OS: Ubuntu 16.04(C/C++)


• Thoughtful Service

- The specified OS can be preinstalled at factory according to user's requirements

- Support for convenient replacement of OS (only OS options supported by Woodpecker1)

- Support system recovery functions, including BIOS and OS.


• Rich Resources

- Provide a mature SDK, including all hard drivers. The user can call the corresponding API function to realize image acquisition, image preprocessing, exposure control, flash control, IO control and other functions.

- You can use the IPP library provided by INTEL®. It is a library that is still expanding, and it is compatible with many fields and has good compatibility on Windows and Linux platforms. It is also a highly optimized set of functions for multimedia processing (image processing, video processing, etc.), data processing and communication (including parallel processing optimization, optimization of feature processors and other optimizations), supporting multi-core processors.

- The Woodpecker1 series smart camera is an open, easy-to-develop platform that supports all third-party software, including OpenCV, HALCON, LabVIEW, Matlab, etc.


Users of LED source can set parameters as follows:

Aperture LED drive current: 1-330mA
Output pulse width: 0-30000us
Glitter frequency: 50-160HZ
Advance output: 0-100us
Relative trig in delay time:
Sync/Strobe: The output is about 70μs delayed relative to trig in signal
Capture mode: The output is about 30μs delayed relative to trig in signal

Serial Port
There are 2 available serial ports of Woodpecker1.
The serial port names in Windows are COM5 and COM6.
COM1 reserves the serial port for the camera, which is dedicated for ROSEEK internal debugging.

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