Track and trace systems
ICR89x System

Faster. More reliable. More brilliant.

Your Benefits

  • Outstanding image quality thanks to a unique dual-line CMOS sensor that provides high read rates and OCR results
  • Intelligent decoding algorithms ensure reliable reading performance and high throughput.
  • High scanning frequency for high-resolution images (200 dpi) up to a conveyor velocity of 3.8 m/s
  • Integrated verifier for efficient analysis of 1D/2D code quality
  • High reliability with 80,000 h MTBF
  • Short downtime when devices are replaced thanks to the intelligent cloning module
  • High-contrast, even with color printing, due to optional blue/white illumination
  • Standby mode minimizes energy consumption


Faster. More reliable. More brilliant.

The track and trace system based on the line-scan camera ICR89x is the ideal solution for all high-end linear and 2D code reading applications in transport and logistics processes. The outstanding image quality of the integrated ICR89x camera also makes it suitable for use in OCR and video coding applications. The code reading system features a modular camera design, LED illumination, focus control functionality, and a high-performance decoder. The system can be supplemented with additional products such as volume measurement systems, when appropriate for the application.

At a glance
  • Dual-line CMOS sensor for maximum bar code and OCR read rates
  • Maximum scanning frequency up to 30 kHz for high-resolution images (200 dpi) at up to 3.8 m/s
  • Large reading field of up to 1,200 mm
  • Ability to read all common 1D and 2D codes and postal codes
  • Five image output channels for OCR, video coding, archiving, and diagnostics
  • Parameter cloning for all components
  • Intelligent control standby mode
  • Industrial design – an external PC is not required


Technical overview

  • Technical data overview

    Technical data overview

    Minimum object distance≥ 50 mm
    Read field width600 mm ... 1,200 mm
All technical data can be found accompanying the individual product