uEye Warp10 High-speed industrial camera
Ultra-fast, extremely high-resolution 10GigE industrial cameras
For users with particularly high demands in terms of resolution, image quality and transmission speed, IDS offers industrial cameras with a 10GigE high-speed interface and a wide variety of CMOS sensors with resolutions ranging from 5 megapixels (247 fps) to 45 megapixels (27.7 fps).
Particularly in applications where objects move very quickly and high resolutions are required at the same time, conventional GigE cameras (at 1 Gbps) reach the limits of their bandwidth.
The robust, GenICam-compliant uEye Warp10 cameras can capture even high-speed processes with precision and transmit image data via a Gigabit Ethernet-based network with virtually no delay.
This means the cameras really come into their own in inspection tasks, where scenes need to be captured, monitored and analysed in full detail and without motion blur.
Ultra fast
Large format sensors
GigE Vision
10-fold bandwidth
100 m Long-distance transfer
Optional: Active cooling
Which industrial camera is suitable for high-speed applications and high frame rates?
Industrial cameras with a 10 GigE interface are ideal for high-speed applications (particularly in multi-camera systems), as they provide the necessary bandwidth for lossless real-time transmission. The uEye Warp10 from IDS is specifically designed to meet these requirements.
Ultra-fast!
Thanks to 10GigE interface
Compared to 1GigE cameras, uEye Warp10 achieves up to 10 times the transmission bandwidth. The industrial camera thus offers users the fastest standard interface available on the market and transmits even large amounts of data to the image processing unit at high frame rates and with very low latencies.
Extremely high resolution!
Large format sensors up to 45 MP
uEye Warp10 cameras are not only available with C-mount lens holders, but also with TFL mount (M35 x 0.75) for the use of particularly high-resolution sensors. By combining the 10GigE interface and the TFL mount, large-format sensors with up to 45 MP can be integrated. For optimal heat handling, these cameras will feature an active cooling plate (optionally available).
Long-distance transfer possible!
Fast data transmission up to 100 metres
The GigE Vision standard-compliant industrial cameras enable high-speed data transfer over cable lengths of up to 100 metres without repeaters or optical extenders via standard CAT6A cables (under 40 metres also CAT5E) with RJ45 connectors. This benefits, for example, machine vision applications where data has to be transmitted quickly over a longer distance.
Easy to integrate!
Continue to use current network structures
For use in existing applications, uEye Warp10 cameras are backwards compatible with 1GigE, 2.5GigE and 5GigE and automatically adjust their speed. Installation on existing GigE vision structures is quick and easy; we also offer 10GigE interface cards.
An overview of the key features of the uEye Warp10 high-speed camera
Feature |
uEye Warp10 Specifications |
Advantages for high-speed applications |
|---|---|---|
Interface |
10GigE (10 Gbps Ethernet), backwards compatible |
Very high data rate for high frame rates and resolutions; Integration into existing networks |
Frame-based image capture |
Full-frame images with global shutter |
Distortion-free capture of fast-moving objects |
Resolution |
5 MP to 45 MP |
High level of detail and wide field of view despite high speed |
High frame rates |
Dependent on the sensor and ROI |
Flexible adaptation to process speed |
Low latency |
Fast, stable 10GigE transmission |
Near-real-time processing even under heavy data loads |
Long cable lengths |
Standard Ethernet up to 100 m, Power over Ethernet (PoE) |
Flexible system architecture with no loss of performance; Power supply via the interface is possible |
Industry standard |
GenICam / GigE Vision |
Easy integration into existing vision environments |
Industrial design |
Robust construction for 24/7 operation |
High reliability in continuous industrial operation |
10GigE cameras are ideal for image-based high-speed inspection with high frame rates.
Event-based cameras from the uEye EVS range, on the other hand, are designed for applications where an immediate response to fast movements is more important than complete image sequences – for example, in robotics or in drone detection and tracking.
High-speed applications with the uEye Warp10
The uEye Warp10 is specifically designed for high-speed industrial applications, wherever conventional GigE cameras reach their bandwidth limits. It captures fast-moving processes reliably and with high image quality, making it ideal for manufacturing, sorting and analysis.
Typical applications range from production lines handling very high part counts per minute, through conveyor systems and scientific analysis, to semiconductor manufacturing. The uEye Warp10 family offers the right performance for these applications.
Production line inspection (electronics, semiconductors, pharmaceuticals)
In high-speed production environments handling several hundred parts per minute, seamless detection is crucial. High bandwidths make it possible to capture every object in full and without data loss, even at resolutions exceeding 5 MP.
High-speed sorting (food, logistics, recycling)
Fast-moving objects on conveyor belts require short exposure times and high frame rates. This is the only way to reliably achieve blur-free images without motion blur – even at speeds exceeding 1 m/s.
Motion analysis and quality inspection (automotive, mechanical engineering)
Distortion-free image capture is essential when analysing dynamic processes, such as for vibration or position control. Global shutter sensors deliver precise results and ensure stable image quality even in difficult lighting conditions.
Print and web inspection (packaging, printing)
Continuously moving material webs travelling at high speeds place high demands on image data transmission. Stable and uninterrupted capture is crucial for reliably detecting defects, even over longer distances.
Microscopy, particle analysis and life sciences
Dynamic analysis processes, such as real-time particle characterisation, require high frame rates combined with low noise. Modern sensor systems enable the precise detection of even the finest structures and movements.