DR1-D2048x1088 (I/C)-192-G2-8 |
圖像傳感器 | CMOSIS CMV2000 |
技術(shù) | CMOS主動像元技術(shù) |
掃描模式 | 逐行掃描 |
光學(xué)尺寸 | 2/3英寸(12.76 mm diagonal) |
分辨率 | 2048 x 1088像元 |
像元尺寸 | 5.5 µm x 5.5 µm |
有效感光區(qū)域 | 11.26 mm x 5.984 mm (maximum) |
暗電流 | 125 e¯ /s @ 25°C |
滿阱容量 | 11 ke¯ |
光譜范圍 | < 350="" to="" 900="" nm="" (to="" 10="" %="" of="" peak=""> |
靈敏度 | 5.56 V / lux.s |
量子效應(yīng) | 60 % @ 550 nm with micro lenses |
填充因子 | 42 % without micro lenses |
動態(tài)范圍 | 60dB |
色彩模式 | 黑白 |
特性曲線 | Linear, Piecewise linear |
快門模式 | 全局快門 |
讀出模式 | 順序讀出 |
曝光時間 | 12.56 µs … 0.349 s / 20.8 ns steps |
幀頻 | 85 fps (full resolution), 570 fps (rot. VGA) |
像素時鐘 | 48 MHz |
數(shù)據(jù)通道 | 1 |
固定模式噪聲 | < tbd="" dn="" @="" 8=""> |
灰度分辨率 | 8 bit |
模擬增益 | 1 |
數(shù)字增益 | 0.1 to 15.99 (Fine Gain) |
配置接口 | GigE (Gigabit Ethernet) |
觸發(fā)模式 | 自運(yùn)行(無觸發(fā))/接口觸發(fā)/外觸發(fā)輸入/軟件觸發(fā) |
特點(diǎn) | 可設(shè)置感興趣的區(qū)域/相機(jī)自帶shading校正/觸發(fā)輸入/圖像信息等 |
接口 | GigE (Gigabit Ethernet) |
工作溫度 | 0°C ... +50°C |
供電 | +12 V … +24 V DC (±10 %) |
功耗 | < 5.5=""> |
鏡頭接口 | C口(CS口可選) |
尺寸 | 55 x 55 x 51.5 mm³ |
重量 | 260 g |
相機(jī)控制 | GUI (GEVPlayer) and Pleora SDK for image acquisition and development of applications Demodulator DLL for implementation in GigE Vision and GenICam compatible image processing platforms HALCON extension package with demodulator sample |
DR1-D2048x1088 CMOS GigE Camera Series
The camera series DR1-D2048x1088(I/C)-G2 is based on the CMOSIS CMOS image sensors CMV2000. The CMOSIS CMOS image sensors CMV2000 are optimized for low light conditions and are available as standard monochrome, as NIR enhanced (I) and as colour (C) versions . The cameras have the GigE interface. Three camera models with different CMOS sensors are available.
Frame rates of the DR1-D2048x1088(I/C)-192-G2-8 camera
Resolution | Frame rate |
2048 x 1088 | 85 fps |
1024 x 1024 | 180 fps |
800 x 600 | 306 fps |
640 x 480 | 381 fps |
480 x 640(rotated VGA) | 570 fps |
512 x 512 | 709 fps |
Sensor Properties CMOSIS CMV2000
■ 2/3" CMOS image sensor
■ 2048 x 1088 pixel (2.2 megapixel resolution)
■ pixel size: 5.5 µm x 5.5 µm
■ Global Shutter
■ Micro lenses
■ Full Well Capacity 11 ke-
■ spectral range: 350 - 900 nm
Camera Properties ■ configurable region of interest (ROI)
■ Up to 8 regions of interest (MROI) and decimation
■ 2 look-up tables (10-to-8 bit) on user-defined image region (Region-LUT)
■ Crosshairs overlay on the image
■ ultra low trigger delay and low trigger jitter
■ lens mount: C-Mount (option CS-Mount)
■ MV form factor: 55 x 55 mm² (W x H)
Description
Due to their excellent capabilities of managing high frame rates CMOS cameras are at the fore front of high speed image capturing and image analysis. Until recently CMOS high speed cameras were used as compact camera heads with an internal image buffer or as landed camera heads with a CameraLink full interface and frame grabbers with a large image buffer.
Applications such as motion analysis (e.g. in the area of bionic, sports or biomechanical analysis) and process failure analysis (e.g. burst or fracture of tools, failure of handling systems, breakdown of packaging systems) require frame rates which are increasingly being provided by fast CMOS standard cameras. These are also used in machine vision applications. The preferred camera choice for such applications are standard machine vision cameras with a GigE interface due to their flexibility in long transmission distance. For even faster motion analysis cameras with a double frame rate, being captured with a GigE interface and a combined link aggregation with recording systems are required.
Photonfocus has recognized the need and requirements of these applications. Their double rate (DR) camera technology displays a double bandwidth for data transmission via the standardized GigE Vision interface, common for machine vision applications. The technology is based on the standard software protocol GeniCam. This Photonfocus technology is based on standard bandwidth tools and standard software libraries used for high speed image capturing. Even a multiple camera system set-up can be easily implemented due to the usage of the GigE standard, in contrary to a point-to-point connection as used in Link aggregation solutions. With the GigE standard the data transmission is not getting interrupted.
Comparison of data rates of different interfaces used in machine vision
This technology eliminates the complications of systems using cameras with link aggregation right from the beginning. The user receives frame rates up to 487 fps at VGA resolution and 180 fps at resolution of 1024 x 1024 pixels from the DR-camera. The important and frequently desired benchmark of 500 fps at VGA resolution and 200 fps at mega pixel resolution are achieved nearly.
Once more Photonfocus demonstrates its industry leader position in the area of cutting edge high speed camera systems. The double rate (DR) camera technology is up to 25% faster than conventional CameraLink base cameras and even * faster than mainstream cameras with a standard GigE interface.
An additional advantage of the implemented modulation technology is the capability to save unmodified image formats. The storage space for all image sequences is almost half the size of standard solutions. This is made possible thanks to the real picture format saving which enables fast sequence search runs. In image analysis applications NIR markers are often used to enable data capturing. For applications working on higher wave lengths (e.g. in the near infrared area) a specific NIR sensor from CMOSIS can be used in the same camera type.
The input and output interface of the G2 GigE cameras series of Photonfocus could be simulated with LTspice IV. LTspice IV is a free, high performance SPICE simulator, schematic capture and waveform viewer. LTspice IV can be downloaded from the homepage of Linear Technology Corporation. The input and output schematic and necessary part library could be found as a ZIP under specifications.
Product Availability
DR1-D2048x1088-192-G2-8 for sale
DR1-D2048x1088I-192-G2-8 for sale
DR1-D2048x1088C-192-G2-8 for sale