Photonfocus MV4-D1280-L01-3D06-G2 Alternatives & Competitors

The 3D CMOS cameras MV4-D1280-L01-3D06-FB (LUX1310) are designed for high triangulation rates. The LUXIMA CMOS image sensor LUX1310, which is optimized for high frame rates and high sensitivity, was combined with two robust algorithms to determine the triangulation line in the FPGA of the camera. The user can either employ a FIR algorithm for asymmetric line profiles or a robust COG algorithm for symmetric profiles.

The triangulation algorithm activated in the camera calculates the line position of a line with 1/16 sub-pixel accuracy. In addition to the output of the height profiles, qualifiers are also output, which can be used to suppress artifacts or characterize the surface.

The camera is equipped with GigE interfaces and is therefore able to capture 3D profiles without a frame grabber or to set up cost-effective multi-camera systems as used for the inspection of profiles. The camera is available with GigE, 10 GigE and 10 GigE fiber interface, according to the GigE Vision and GenICam standards. In addition, the cameras have a complete encoder interface that can be configured for the TTL, RS422, HTL and dHTL interface standards, as well as various outputs. External devices with an RS485 interface can also be optionally controlled. Of course all I/O's are galvanically decoupled from the camera electronics.

3D triangulation rate at different ROI's:

FEATURES:

• Linear Mode / multiple slope (High Dynamic Range Mode)
• Temperature monitoring of camera
• Low trigger delay and low trigger jitter
• Extended trigger input and strobe output functionality
• 4x Isolated inputs or shaft encoder A, B, Z, Y interface (RS422, TTL, D-HTL, HTL)
• 3x Isolated outputs (2x open drain, 1x TTL highspeed)

The 3D CMOS cameras MV4-D1280-L01-3D07-GT (LUX1310) are designed for high triangulation rates. The LUXIMA CMOS image sensor LUX1310, which is optimized for high frame rates and high sensitivity, was combined with a robust Multi Peak Linefinder algorithm to determine up to four triangulation lines in a single scan in the FPGA of the camera.

The triangulation algorithm activated in the camera calculates the line position of the four laser lines with 1/64 sub-pixel accuracy. In addition to the output of the height profiles, qualifiers are also output, which can be used to suppress artifacts or characterize the surface.

The camera is equipped with GigE interfaces and is therefore able to capture 3D profiles without a frame grabber or to set up cost-effective multi-camera systems as used for the inspection of profiles. The camera is available with10 GigE interface, according to the GigE Vision and GenICam standards. In addition, the cameras have a complete encoder interface that can be configured for the TTL, RS422, HTL and dHTL interface standards, as well as various outputs. External devices with an RS485 interface can also be optionally controlled. Of course all I/O's are galvanically decoupled from the camera electronics.

3D triangulation rate at different ROI's:

FEATURES:

• Up to 65600 profiles/s @ 1280 x 11 resolution
• Detection of up to 4 peaks in a single scan
• High reliability and accuracy of 3D reconstruction, due to the non-linear interpolation technique used in the detection algorithm
• Laser line detection with up to 1/64 sub pixel accuracy
• Linear Mode / multiple slope (High Dynamic Range)
• Configurable region of interest (ROI)
• Temperature monitoring of camera
• Low trigger delay and low trigger jitter
• Extended trigger input and strobe output functionality
• 4x Isolated inputs or shaft encoder A, B, Z, Y interface (RS422, TTL, D-HTL, HTL)
• 3x Isolated outputs (2x open drain, 1x TTL highspeed)
• Free GUI available (PF 3D Suite) for an easy system set up and visualisation of 3D scans

The 3D CMOS cameras MV4-D2048x1088-C01-3D06-G2 are designed for high triangulation rates. The CMOSIS CMOS image sensor CMV2000, which is optimized for high frame rates and high sensitivity, was combined with two robust algorithms to determine the triangulation line in the FPGA of the camera. The user can either employ a FIR algorithm for asymmetric line profiles or a robust COG algorithm for symmetric profiles.

The triangulation algorithm activated in the camera calculates the line position of a line with 1/16 sub-pixel accuracy. In addition to the output of the height profiles, qualifiers are also output, which can be used to suppress artifacts or characterize the surface.

The camera is equipped with GigE interfaces and is therefore able to capture 3D profiles without a frame grabber or to set up cost-effective multi-camera systems as used for the inspection of profiles. The camera is available with GigE, 10 GigE and 10 GigE fiber interface, according to the GigE Vision and GenICam standards. In addition, the cameras have a complete encoder interface that can be configured for the TTL, RS422, HTL and dHTL interface standards, as well as various outputs. External devices with an RS485 interface can also be optionally controlled. Of course, all I/O's are galvanically decoupled from the camera electronics. The field-tested cooling concept of the MV4 housing provides for a sufficient electronics cooling.

FEATURES:

• Linear Mode / multiple slope (High Dynamic Range Mode)
• Configurable region of interest (ROI)
• Temperature monitoring of camera
• Low trigger delay and low trigger jitter
• Extended trigger input and strobe output functionality
• 4x Isolated inputs or shaft encoder A, B, Z, Y interface (RS422, TTL, D-HTL, HTL)
• 3x Isolated outputs (2x open drain, 1x TTL highspeed)

The CMOS camera MV1-D1024E-3D02-160-G2 was developed for laser triangulation of highly reflective materials. The Photonfocus CMOS sensor A1024B with a full well capacity (FWC) of 200 ke^- optimized for high dynamic range applications and a high signal to noise ratio (SNR) was combined with a robust algorithm for line determination.

The laser line detection algorithm is able to compute the peak position of a laser line with sub-pixel accuracy. Thus, the height profile of an object gets computed within the camera, making additional calculations in the PC needless.

3D triangulation rate on different region of interest:

Laser line with LinLog® Technology:	Laser line without LinLog® Technology:

Typical triangulation setup:

Features:

• Detection of a laser line (peak detector) with sub-pixel accuracy
• Configurable region of interest (ROI)
• Dynamic range up to 120dB via LinLog®
• Image correction
• Ultra low trigger delay and low trigger jitter
• Extended trigger input and strobe output functionality
• Isolated inputs (2 single ended, 2 differential) and outputs (2 single ended)
• A/B shaft encoder interface (RS-422 (G2 models) or HTL (H2 models))
• Free GUI available (PF 3D Suite) for an easy system set up and visualisation of 3D scans

The camera MV0-D1280-O01-3D06-288-G2 is based on the ON Semiconductor PYTHON1300 CMOS image sensor. The PYTHON1300 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)
• 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
• 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
• with Shaft Encoder

The camera MV2-D1280-O01-3D06-G1 is based on the ON Semiconductor PYTHON1300 CMOS image sensor. The PYTHON1300 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)
• 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
• 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
• with Shaft Encoder

The camera MV0-D2048x1088-C01-3D06-768-G2 is based on the CMOSIS CMV2000 V3 CMOS image sensor. The CMV2000 V3 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)
• 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
• 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
• with Shaft Encoder

Parallel Structured Light™ - the future of industrial machine vision

Photoneo’s unique patented technology provides high quality and high resolution 3D data even for dynamic scenes. While ToF or Active Stereo systems provide real-time stream of data, the accuracy and resolution is limited. Sequential Structured Light systems provide high quality data, but at low FPS and only when the scene is completely static.

Paradigm shift in Machine Vision opens new Frontiers

Ability to provide high-quality area snapshot 3D data in near real-time opens new frontiers for industrial automation. Robots do not need to stop to acquire data (hand eye use case) or can manipulate objects moving at random motion. Never again compromise between the ability to scan dynamic scenes and the resulting resolution and data quality.

Benefits of MotionCam-3D Color:

Scanning in & rapid motion: one frame acquisition, 40 m/s

High resolution & accuracy: 2 MP, 0.150 mm

Practical scanning range: 3 models: from 36 cm - 3 m

No 3D motion blur: 10 µs per pixel exposure time

Industry ready: IP65, PoE, Thermal calibration

Operating Modes:

Dynamic scenes /0.9 Million 3D points / @ 20 FPS / Accuracy 0.6 mm at Z=1000 mm

Static scenes / 2 Million 3D points / Accuracy 0.3 mm at Z=1000 mm