Top 10 MV0-D1280-O01-144-G2 Alternatives

  • iRAYPLE L5027CG140E
  • Photonfocus MV0-D2592-O01-144-G2
  • Photonfocus OEM0-D1984-O01-144-G2
  • Photonfocus MV0-D2048-C01-160-G2
  • Photonfocus MV2-D2448-S01-G1
  • Photonfocus MV2-D2448-S01-G1
  • Photonfocus MV1-D1280-120-CL
  • Photonfocus DR0-D1920-S01-480-G2
  • Photonfocus MV1-D1312-240-CL
  • Photonfocus DR1-D1312-200-G2
  • Photonfocus HD1-D1312-80-G2
1
iRAYPLE L5027CG140E
No reviews yet.
Monochrome

The iRAYPLE L5027CG140E is a compact and versatile imaging solution from the 5000 series. It boasts several standout features and capabilities that make it suitable for various applications. This CMOS image sensor offers a high-resolution output of 2048 x 2 pixels with a bit depth of 12, ensuring crisp and detailed images. Its global shutter allows for capturing fast-moving objects without distortion, making it ideal for applications like industrial inspection and machine vision.

One of the standout features of the L5027CG140E is its wide range of image processing functions, including brightness enhancement, gamma correction, and LUT (Look-Up Table) support, enabling users to fine-tune their image output. It also supports various image formats, including BayerRG8, BayerRG10, BayerRG12, RGB8Packed, and YUV422Packed, offering flexibility in data output. Additionally, its PRNU (Photo Response Non-Uniformity) correction in target bright field ensures consistent image quality.

The L5027CG140E is designed for reliability and versatility, with a robust structure and compatibility with DC 12~24V wide-range power supply. It complies with CE, FCC, UL, and RoHS certifications, ensuring it meets international standards for safety and quality. With its compact dimensions and GPIO interface for external triggering, this camera is suitable for a range of industrial and scientific applications, such as quality control, robotics, and microscopy, where precise and high-speed imaging is essential.

2
Photonfocus MV0-D2592-O01-144-G2
No reviews yet.
Monochrome | Near-infrared

The camera series MV0-D2592(I)-O01-144-G2 is based on the ON Semiconductor PYTHON5000 CMOS image sensor. The PYTHON5000 CMOS image sensors are optimized for low light conditions and are available as standard monochrome and as NIR (I) version. The cameras have the GigE interface (GigEVision).

These cameras focus on demanding applications in industrial image processing. They are optimized for low light applications. Due to the global shutter, even high-speed applications with exposure times in the µs-area are possible.

FEATURES:

  • Configurable region of interest (ROI)
  • Up to 8 regions of interest (MROI)
  • Decimation in y-direction
  • 2 look-up tables (12-to-8Bit) on user-defined image region (Region-LUT)
  • Constant frame rate independent of exposure time
  • Crosshairs overlay on the image
  • Temperature monitoring of camera
  • Camera informations readable over SDK
  • Ultra low trigger delay and low trigger jitter
  • Extended trigger input and strobe output functionality
  • Status line in picture
3
Photonfocus OEM0-D1984-O01-144-G2
No reviews yet.
Monochrome | Near-infrared

The camera series OEM0-D1984(I)-O01-144-G2 is based on the ON Semiconductor PYTHON2000 CMOS image sensor. The PYTHON2000 CMOS image sensors are optimized for low light conditions and are available as standard monochrome and as NIR version. The cameras have the GigE interface (GigEVision).


These cameras focus on demanding applications in industrial image processing. They are optimized for low light applications. Due to the global shutter, even high-speed applications with exposure times in the µs-area are possible.


FEATURES:

  • Configurable region of interest (ROI)
  • Up to 8 regions of interest (MROI)
  • Decimation in y-direction
  • 2 look-up tables (12-to-8Bit) on user-defined image region (Region-LUT)
  • Constant frame rate independent of exposure time
  • Crosshairs overlay on the image
  • Temperature monitoring of camera
  • Camera informations readable over SDK
  • Ultra low trigger delay and low trigger jitter
  • Extended trigger input and strobe output functionality
  • Status line in picture
4
Photonfocus MV0-D2048-C01-160-G2
No reviews yet.
Monochrome | Near-infrared

The camera series MV0-D2048(I)-C01-160-G2 is based on the CMOSIS CMV4000 V3 CMOS image sensor. The CMV4000 V3 CMOS image sensors are optimized for low light conditions and are available as standard monochrome and as NIR (I) version. The cameras have the GigE interface (GigEVision).

These cameras focus on demanding applications in industrial image processing. They are optimized for low light applications. Due to the global shutter, even high-speed applications with exposure times in the µs-area are possible.

FEATURES:

  • Configurable region of interest (ROI)
  • Up to 8 regions of interest (MROI)
  • Decimation in y-direction
  • 2 look-up tables (12-to-8Bit) on user-defined image region (Region-LUT)
  • Constant frame rate independent of exposure time
  • Crosshairs overlay on the image
  • Temperature monitoring of camera
  • Camera informations readable over SDK
  • Ultra low trigger delay and low trigger jitter
  • Extended trigger input and strobe output functionality
  • Status line in picture
5
Photonfocus MV2-D2448-S01-G1
No reviews yet.
Monochrome

The camera series MV2-D2448-S01-G1 is based on the SONY IMX250 CMOS image sensor. The IMX250 CMOS image sensor is optimized for low light conditions and is available as standard monochrome version. The camera has the GigE interface (GigEVision).

These cameras focus on demanding applications in industrial image processing. They are optimized for low light applications. Due to the global shutter, even high-speed applications with exposure times in the µs-area are possible.

FEATURES:

  • Configurable region of interest (ROI)
  • Up to 8 regions of interest (MROI)
  • Decimation in y-direction
  • 2 look-up tables (12-to-8Bit) on user-defined image region (Region-LUT)
  • Constant frame rate independent of exposure time
  • Crosshairs overlay on the image
  • Temperature monitoring of camera
  • Camera informations readable over SDK
  • Ultra low trigger delay and low trigger jitter
  • Extended trigger input and strobe output functionality
  • Status line in picture


6
Photonfocus MV2-D2448-S01-G1
No reviews yet.
Monochrome

The camera series MV2-D2448-S01-G1 is based on the SONY IMX250 CMOS image sensor. The IMX250 CMOS image sensor is optimized for low light conditions and is available as standard monochrome version. The camera has the GigE interface (GigEVision).

These cameras focus on demanding applications in industrial image processing. They are optimized for low light applications. Due to the global shutter, even high-speed applications with exposure times in the µs-area are possible.

FEATURES:

  • Configurable region of interest (ROI)
  • Up to 8 regions of interest (MROI)
  • Decimation in y-direction
  • 2 look-up tables (12-to-8Bit) on user-defined image region (Region-LUT)
  • Constant frame rate independent of exposure time
  • Crosshairs overlay on the image
  • Temperature monitoring of camera
  • Camera informations readable over SDK
  • Ultra low trigger delay and low trigger jitter
  • Extended trigger input and strobe output functionality
  • Status line in picture


7
Photonfocus MV1-D1280-120-CL
No reviews yet.
Monochrome | Color

The camera series MV1-D1280(C)-120-CL is based on the e2v EV76C560 CMOS image sensor. The e2v EV76C560 CMOS image sensors are optimized for low light conditions and are available as standard monochrome and colour (C) version. The cameras have the CameraLink Base interface.

These cameras focus on demanding applications in industrial image processing. They are optimized for low light applications. Due to the global shutter, even high-speed applications with exposure times in the µs-area are possible.


FEATURES:

  • Configurable region of interest (ROI)
  • Decimation in x- and y-direction
  • 2 look-up tables (12-to-8Bit) on user-defined image region (Region-LUT)
  • Constant frame rate independent of exposure time
  • Crosshairs overlay on the image
  • Temperature monitoring of camera
  • Camera informations readable over SDK
  • Ultra low trigger delay and low trigger jitter
  • Extended trigger input and strobe output functionality
  • Status line in picture
8
Photonfocus DR0-D1920-S01-480-G2
No reviews yet.
Monochrome

The camera DR0-D1920-S01-480-G2 is based on the SONY IMX174 CMOS image sensor. The IMX174 CMOS image sensor is optimized for low light conditions and is available as standard monochrome version. The Double-Rate cameras are nearly 100% faster than standard GigE cameras and use only one data cable (no link-aggregation). The camera has the GigE interface (GigEVision).

ResolutionFrame rate [fps]
1920 x 120094
1920 x 1080104
1024 x 1024196
640 x 480402


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.

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 100% 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.

9
Photonfocus MV1-D1312-240-CL
No reviews yet.
Monochrome | Near-infrared

The camera series MV1-D1312(IE)-240-CL is based on the Photonfocus A1312 and A1312IE CMOS image sensors. These Photonfocus CMOS sensors with a full well capacity (FWC) of 90 ke- are optimized for high dynamic range applications and a high signal-to-noise ratio (SNR). The cameras have the CameraLink Base interface.


These cameras focus on demanding applications in industrial image processing. They offer an extraordinary wide dynamic range due to the LinLog® technology and a high framerate combined with high resolution. Due to the global shutter, even high-speed applications with exposure times in the µs-area are possible.


FEATURES:

  • Configurable region of interest (ROI)
  • Up to 512 regions of interest (MROI)
  • Decimation in y-direction
  • Image correction
  • 2 look-up tables (12-to-8Bit) on user-defined image region (Region-LUT)
  • Constant frame rate independent of exposure time
  • Crosshairs overlay on the image
  • 3x3 convolver for image preprocessing
  • Temperature monitoring of sensor and camera
  • Camera informations readable over SDK
  • Ultra low trigger delay and low trigger jitter
  • Extended trigger input and strobe output functionality
  • Status line in picture


10
Photonfocus DR1-D1312-200-G2
No reviews yet.
Monochrome | Near-infrared

The Double Rate camera series DR1-D1312(IE)-200-G2 is based on the Photonfocus A1312 and A1312IE CMOS image sensors with LinLog® technology. The Double-Rate cameras are nearly 100% faster than standard GigE cameras and use only one data cable (no link-aggregation). The Photonfocus A1312 CMOS sensors with a full well capacity (FWC) of 90 ke- are optimized for high dynamic range applications and a high signal-to-noise ratio (SNR). The cameras have the GigE interface (GigEVision).

Resolution Frame rate [fps]
1312 x 1082135
1024 x 1024180
800 x 600385
640 x 480585
544 x 512636


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

For this applications Photonfocus has developed the Double Rate (DR) camera technology which is setup on the standard implementation of the GigE interface and standard software protocols as GigEVision and GenICam. In the result high speed applications could be realized with standard tools and libraries. The setup of multi camera systems is easy and is not disabled as with link aggregation.

The Double Rate technology overcome the draw backs of link aggregation and enables frame rates of 585fps @ VGA resolution and 204fps @ 960 x 960 pixel. The Double-Rate camera DR1-D1312-200-G2-8 is 25% faster than standard Cameralink Base cameras and 100% faster than standard GigE cameras.


FEATURES:

  • Double Rate technology
  • Configurable region of interest (ROI)
  • Up to 512 regions of interest (MROI)
  • Decimation in y-direction
  • Image correction
  • 2 look-up tables (12-to-8Bit) on user-defined image region (Region-LUT)
  • Constant frame rate independent of exposure time
  • Crosshairs overlay on the image
  • 3x3 convolver for image preprocessing
  • Temperature monitoring of sensor and camera
  • Ultra low trigger delay and low trigger jitter
  • Extended trigger input and strobe output functionality