Ideal for detection applications in tough terrain conditions, this R2000 laser beam scanner combines the performance of a long-range scanner with the simplicity of a detector
The speed and performance of the R2000 Detection are linked to the revolutionary PRT measurement principle, an authentic time-of-flight technology based on very short, high intensity light pulses. Thanks to this, the R2000 Detection benefits from exceptional ambient light immunity and unmatched precision, even at great distances.
This 2D sensor scanner uses an exclusive rotating measuring head instead of a complex rotating mirror system.
This method provides several important improvements, including a sweeping plane without oscillation and a 360 ° field of view. An extremely fine and precise light beam, only a few millimeters in diameter, can detect very thin cables and other small objects. If we add to these characteristics an angular resolution of 0.071 °, the highest on the market, we obtain a product with unprecedented performance. The internal measurement rate of 54,000 data points per second and rotation up to 30 Hz illustrate the performance of this product.
After acquiring 360 ° data points, a microprocessor evaluates the raw data and compares it to a maximum of four user-defined detection fields.
The true / false results of each detection zone can then logically be associated with one of the four digital outputs.
Configuration is simplified with a Device Type Manager (DTM) that can be embedded in any FDT application such as PACTware. This provides a clear and intuitive graphical configuration system that provides instant visual feedback.
The speed and performance of the R2000 Detection are linked to the revolutionary PRT measurement principle, an authentic time-of-flight technology based on very short, high intensity light pulses. Thanks to this, the R2000 Detection benefits from exceptional ambient light immunity and unmatched precision, even at great distances.
This 2D sensor scanner uses an exclusive rotating measuring head instead of a complex rotating mirror system.
This method provides several important improvements, including a sweeping plane without oscillation and a 360 ° field of view. An extremely fine and precise light beam, only a few millimeters in diameter, can detect very thin cables and other small objects. If we add to these characteristics an angular resolution of 0.071 °, the highest on the market, we obtain a product with unprecedented performance. The internal measurement rate of 54,000 data points per second and rotation up to 30 Hz illustrate the performance of this product.
After acquiring 360 ° data points, a microprocessor evaluates the raw data and compares it to a maximum of four user-defined detection fields.
The true / false results of each detection zone can then logically be associated with one of the four digital outputs.
Configuration is simplified with a Device Type Manager (DTM) that can be embedded in any FDT application such as PACTware. This provides a clear and intuitive graphical configuration system that provides instant visual feedback.