Banner Engineering DF-G3 Discrete Fiber Amplifier Features World-Class Long Range Sensing Capability
Minneapolis, MN—December 8, 2015—Banner Engineering introduces its
The DF-G3 is available with a single discrete output or two dual discrete outputs. The dual discrete outputs can be independently taught to trigger at different intensity values, which is ideal for correct part-in-place or error-proofing, bottle down, and edge guiding applications.
“We developed the DF-G3 fiber amplifier to meet our customers’ need to precisely detect smaller targets at longer ranges” said Dennis Smith, Senior Marketing Manager, Banner Engineering. “With increased sensing power, the DF-G3 will solve difficult detection challenges in printing, packaging, and electronic assembly markets around the world.”
Users can also setup the sensor remotely via a multi-function input wire which can be configured to control the LED, gate the amplifier’s output, remote teach the amplifier, or setup a robust cross-talk avoidance ring with up to seven amplifiers to solve dense sensing point applications. The DF-G3 offers a simple interface to ensure easy setup and programming via displays and switches. The easy-to-read dual digital displays show both signal level and threshold simultaneously.
With expert TEACH and SET functions, the DF-G3 ensures optimal gain and threshold for all applications, but especially for low-contrast applications at long detection range. Users also have full control over all operating parameters, including threshold, light or dark operate, output timing functions, gain level and response speed.
Featuring energy-efficient light resistance, the DF-G3 provides stable detection in industrial lighting environments. The sensor’s level action fiber clamp ensures stable, reliable and trouble-free fiber clamping.
To learn more about Banner’s DF-G3 fiber amplifier visit bannerengineering.com.
Amplificador de fibra con capacidad IO-Link para detección de hasta 6 m, posicionamiento preciso y detección de agua. Salida: analógica, discreta, discreta dual.