Measuring multi-kW welding lasers on-line

Over the past few decades, high power lasers have become ubiquitous in the automotive industry. Nowadays, they are used to process numerous vehicle parts. Laser welding is one of the techniques that have been considerably developed and improved over time. Because of their flexibility and ease to be integrated into automated systems, it is more and more common to see laser welding systems operating directly into automobile assembly lines.

What does this look like? A beam from a diode-pumped solid-state laser (DPSSL) is delivered by a fiber optic cable mounted directly onto an automated robot arm.

Despite the high quality and reliability of such laser sources, they can fail unpredictably if a problem occurs in the laser delivery head. Since no production manager wants to see an entire batch of bodyworks being scrapped by bad welds, it has become part of quality control to periodically measure the power of welding lasers to make sure it is within specifications and to make sure nothing is failing catastrophically.

Laser specifications change over time for many reasons and it causes problems accross all industries. Learn about how laser output measurement solves numerous problems in YOUR industry. Download the guide below.

 

Gentec-EO's high-accuracy laser beam measurement instruments help engineers, scientists and technicians in all sorts of laser applications from the factory to the hospital, laboratory and research center. Learn about our solutions for these measurement types:

It is rarely useful to measure a laser before the end of its path since problems can occur after the site of measurement, at almost any point along the path that the light follows before it reaches the processed material. It is therefore mandatory to use a non-intrusive method to measure power right at the final delivery optic.

With the cooperation of a major car manufacturer, Gentec-EO has come up with a reliable and cost-effective solution. On a predetermined frequency, between the welding of two distinctive pieces, the robot is set to aim at a high power detector specially designed by Gentec-EO for such applications.

More precisely, the 6 kW laser is programmed to shoot for 30 seconds at a HP100A-12KW-HD high power detector. Optical energy is transformed into thermal energy within the detector and the output, a 0-10 V analog signal, is sent to the ADC of a data acquisition system.

The signal value is then compared to a so-called range of acceptability. If it is out of range, and alarm is ringed and the assembly line is stopped before anything becomes scrapped. This quality control method is mandatory to prevent the waste of several parts and possibly the slowdown of production lines.

Things to remember

  • Gentec Electro-Optics can provide the ideal quality control tool to measure the welding laser right at the end of the beam delivery system.
  • Gentec-EO high power detectors can be provided with an analog output.


Contact your Gentec-EO representative for more information about HP high power detectors.

 


Gentec-EO
Gentec Electro-Optics is specialized in laser beam and terahertz source measurement and analysis. With an outstanding 50-year track record of innovation, developing and providing state-of the-art technologies to the laser market, Gentec-EO has become The Expert of the laser beam measurement field. For all sorts of laser applications from the factory to the hospital, laboratory and research center, Gentec-EO offers the broadest range of off-the-shelf and custom solutions, and stands ready to serve you now and in the future.
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