Compatible with eGrabber

– eGrabber Studio: eGrabber’s new interactive evaluation and demonstration application.

– GenICam Browser: This application provides access to the GenICam functionality in GenTL Producer.

– GenTL Console: This command line tool provides access to the functions and commands of the Euresys GenTL Producer.

Genicam compliant

Includes support for

– GenApi

– Standard Functional Naming Convention (SFNC)

– GenTL

Windows, Linux and macOS drivers available

– Support for Intel 64-bit platforms as well as ARM 64-bit platforms

Applications

Machine vision for electronics manufacturing

– High-speed image acquisition for AOI, 3D SPI, 3D lead/ball inspection machines.

– Very high resolution line scan image acquisition for flat panel display inspection and solar cell inspection

– Marker inspection

Machine vision for general manufacturing

– High frame rate image acquisition for inspection machines

– Line scan image acquisition for surface inspection machines

– Line scan image acquisition for textile inspection

– Robotic image acquisition

Machine vision for the printing industry

– High Speed Line Scan Image Acquisition for Print Inspection Machines

Video Capture and Recording

– High frame rate video capture for motion analysis and recording

Video Surveillance, Monitoring and Security

– Transmission and capture of HD video over long distance coaxial cables for traffic monitoring, surveillance and control

Line-scan Metadata insertion

When activated, this feature records metadata beside image data. Line metadata are captured every acquired image line.

Buffer metadata are only captured when the first image line of a buffer is acquired.

The metadata are composed with a configurable set of general purpose event counters, quadrature encoder

The metadata are composed with a configurable set of general purpose event counters, quadrature encoder position counters and/or I/O line status.

This feature allows line-scan applications to correlate image data with system events including motion

encoder positions.

Flexible line-scan camera operation through rate converters

– The rate converter is an intelligent, programmable frequency doubler/divider.

– Used with motion encoders and line-scan cameras, it allows the user to select the aspect ratio of pixels in that image.

– It provides a way to calibrate the acquisition chain to easily achieve square (1:1 aspect ratio) pixels.

C2C-Link Camera Synchronisation

Precise synchronisation of multiple connected facescan or linescan cameras

– Same card

– Different cards in the same PC

– Different cards in different PCs

Line Scan Trigger Capability 1/2

Coaxlink supports both continuous roll scanning (to inspect infinite, continuously moving surfaces without losing lines) and discrete target scanning (to capture images of targets moving in front of the camera).

(to capture images of targets moving in front of the camera).

– Triggers are used to initiate acquisition when the part is in position. Hardware triggers are from the motherboard I/O lines. Software triggers come from the application.

– Once initiated, the acquisition will continue indefinitely (for rolling the network):

– Continue indefinitely (for rolled-net monitoring applications)

– continue for a programmable number of lines (to acquire a target image of known length)

– continue until an end trigger signal is received (to acquire variable length target images)

– Controllable delay trigger to delay the start of acquisition by a programmable number of lines.

Line Scan Trigger Capability 2/2

– The Coaxlink image acquisition card controls the camera scan rate based on signals received from the motion encoder. If the part is moving faster, the camera’s acquisition line rate will increase.

increases. If the part is moving slower, the camera’s acquisition line rate decreases.

– The Coaxlink board interprets the A/B signals from the Quadrature Motion Encoder to know in which direction (forward or backward) the part is moving.

– The Coaxlink card can also be commanded to acquire laser lines when the object is moving only forwards or only backwards.

– When a backward movement is detected, the function called ‘Backward movement cancellation’ stops the acquisition. Line acquisition is automatically resumed when forward motion is resumed at the position where acquisition was interrupted.

– The rate converter enables the camera to acquire lines at any programmable resolution below or above the resolution of the motion encoder. This provides designers with an amazing degree of freedom in the application development process.

This provides designers with amazing freedom and flexibility in the application development process.

– The rate splitter allows the camera to acquire images at a resolution higher or lower than that of the motion encoder, and is implemented by splitting the encoder input signal using a programmable integer multiple.

input signal using a programmable integer multiplier.

Universal I/O Cable

– Compatible with a wide range of sensors and motion encoders

– Eight isolated current sense inputs (up to 30V, signalling up to 200kHz, individually galvanically isolated

up to 250VDC and 170VAC RMS)

– Four high-speed differential inputs (quadrature motion encoder support up to 5 MHz)

– Four isolated tactile outputs (up to 30V, 100 mA, signalling up to 100 KHz)

– Four high-speed 5V-compatible TTL inputs/LVTTL outputs (signalling up to 5 MHz)

High performance DMA (Direct Memory Access)

– Direct transfers to user-allocated memory and hardware boards displaying PCI addresses

– Hardware Dispersal – Aggregation Support

– 64-bit addressing capability

Area Scan Trigger Function

– Triggers are used to initiate acquisition when a part is in place. Hardware triggers come from Coaxlink’s I/O lines. Software triggers are from the application.

– Controllable delay triggers to control the point at which image acquisition is delayed.

– Trigger extraction feature allows certain triggers to be skipped.

– Camera exposure control allows the application to control the exposure time of the camera.

– When the system starts to acquire images, the Coaxlink capture card generates a signal at an appropriate point in time to control the lighting equipment connected to the output.

Micro-BNC (HD-BNC™) connectors provide reliable connections

– Trusted push-to-turn snap ring positive locking

– For quick and easy connection and disconnection

Connects up to 4 cameras to a single Coaxlink card

Memento Event Logging Tool

– Memento is an advanced development and debugging tool for Coaxlink and Grablink cards.

– Memento records an accurate log of all events related to the camera, the frame grabber card and its driver, and the application.

– For times containing timestamps, it provides developers with accurate timelines, as well as contextual information and logic analyser views.

– It can provide valuable collaboration during application development and debugging, as well as during machine operation.

Direct GPU Transfer

– Sample programs are available for AMD DirectGMA and NVIDIA (CUDA).

– GPU Direct Transfer eliminates unnecessary copies of system memory, reduces CPU overhead, and decreases latency, resulting in significant improvements in application data transfer times.

– Use AMD’s DirectGMA to capture image data directly to GPU memory. Compatible with AMD FirePro W5x00 and higher and all AMD FirePro S series products.