Teledyne DALSA - Linea

Fast and flexible CMOS line scan camera with CameraLink or Gigabit Ethernet interface with monochrome and colour models in a compact and robust design.

Key Features

  • Sensor: single line CMOS line sensor (monochrome models); bilinear CMOS sensor (colour models)
  • Resolution: 16k (CL-HS), 2/4/8/16k (CL), 2/4/8k (GigE)
  • Line rate: up to 80 kHz
  • Features (Depending on model): TurboDrive, burst mode, T2IR, cycling mode, HDR imaging, programmable GPIOs, flat-field correction, binning (2x2), sub-pixel and parallax spatial corrections; multiple ROIs
  • Features of colour models: multiple ROIs for white balancing/calibration; bilinear colour architecture; RGB-, RG/BG- or G-data output formats
  • Configuration: GenICam or ASCII command compatible interfaces
  • Lens mount: M42, M72-mount or adapters for C-/F-mount lens
  • I/O: programmable trigger, signal and synchronisation
  • Interface: CameraLink HS, CameraLink or Gigabit Ethernet
  • Operating temperature: 0 °C up to 65 °C

Find the right model for your needs

Use the filters below to narrow down your selection based on your application requirements

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Nom de produit Wavelength range Resolution Horizontal (Px) Max. line freq. (kHz) Lens mount Interface Scan type Pixel size (µm) Manufacturer Dimension (depth, mm) Dimension (height, mm) Dimension (width, mm) Sensor type Weight (kg)
Monochrome; Visible 4096 80 M42 x 1; Nikon F-Mount CameraLink line 7.04 Teledyne DALSA 62 31 62 CMOS N/A
Monochrome; Visible 8192 80 M72 x 0.75; Nikon F-Mount CameraLink line 7.04 Teledyne DALSA 62 31 62 CMOS N/A
Monochrome; Visible 2048 52 C-Mount; M42 x 1; Nikon F-Mount Gigabit Ethernet line 7.04 Teledyne DALSA 62 31 62 CMOS N/A
Monochrome; Visible 4096 26 M42 x 1; Nikon F-Mount Gigabit Ethernet line 7.04 Teledyne DALSA 62 31 62 CMOS N/A
Monochrome; Visible 16384 48 M72 x 0.75; Nikon F-Mount CameraLink line 3.52 Teledyne DALSA 62 31 62 CMOS N/A
Monochrome; Visible 8192 13 M72 x 0.75; Nikon F-Mount Gigabit Ethernet line 7.04 Teledyne DALSA 62 31 62 CMOS N/A
Colour; Visible 8192 48 M72 x 0.75; Nikon F-Mount CameraLink line 7.04 Teledyne DALSA 62 31 62 CMOS N/A
Colour; Visible 4096 13 M42 x 1; Nikon F-Mount Gigabit Ethernet line 7.04 Teledyne DALSA 62 31 62 CMOS N/A
Colour; Visible 2048 26 C-Mount; M42 x 1; Nikon F-Mount Gigabit Ethernet line 7.04 Teledyne DALSA 62 31 62 CMOS N/A
Colour; Visible 4096 48 M42 x 1; Nikon F-Mount CameraLink line 7.04 Teledyne DALSA 62 31 62 CMOS N/A
Monochrome; Visible 16384 71 M72 x 0.75; Nikon F-Mount CameraLink HS line 3.52 Teledyne DALSA 62 31 62 CMOS N/A
Monochrome; Visible 2048 80 C-Mount; M42 x 1; Nikon F-Mount CameraLink line 7.04 Teledyne DALSA 62 31 62 CMOS N/A

Pourquoi choisir Teledyne DALSA - Linea ?

Flexible bandwidth limit with burst mode

With the burst mode, the line rate can be increased beyond the GigE Vision bandwidth limitation. By combining the high data acquisition rate in the on-board image buffer and comprehen­sive cycling modes and readout control, applications with fast burst acquisition can be realised. In this mode, images can be acquired at maximum line rate of the sensor with the data buffered on the main storage of the camera. The buffered data is only transferred during camera idle times e.g. when a conveyor belt moves forward.

Speed increase with TurboDrive

The TurboDrive feature allows an increase of the frame rate while loss-less data compression and transmission via Gigabit Ethernet extend the capability of the data throughput (typically 115 MB/s) achievable with GigE Vision systems. Still all the benefits of GigE networks - like mass market components and protocols and Ethernet technology for fast and inexpensive communication for distances of up to 100 m - can be used. Engineers can therefore use proven technology, keeping design and support easy, while there's a lot of potential to increase the speed of the application.

Multiple ROI feature

The Linea supports up to 4 regions of interest (ROI) within the image. Less image data lowers the bandwidth required, which results in an increased frame rate. Since the host software no longer needs to extract the ROIs, data processing on the host becomes faster,

Several camera configurations at once with cycling mode

The cycling mode implements a method to use various different user-controlled configurations. This means that you can work with different light sources, lighting angles, exposure times, gains etc. for every line. This way, a single pass with a single camera delivers a high amount of information which is comparable to that of multiple cameras or combinations of camera and frame grabber. With this feature, costly and complex hardware solutions can be avoided, since e.g. multiple illumination variants of the same object increase failure detection and production security. It can also reduce inspection time in cases where various illumination set-ups are mandatory to inspect one object.

Reliable data loss protection

With the trigger-to-image reliability (T2IR) framework, the image capture process is controlled and monitored end-to-end from the trigger to the transfer to the host memory. This way, data loss is clearly tracked and the reliability of the overall inspection process is improved.

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