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Intelligent High Power Solid State Laser for Industry 4.0

The built-in intelligence of next generation TruDisk disk lasers from TRUMPF collects and monitors condition data and process parameters, and boosts energy efficiency through a new pulse function that ramps the current of the pump diodes down to zero amps, even during very short laser-off times between two processing steps.

Posted: May 29, 2017

Available for laser outputs of between 3 kW and 5 kW with fiber core diameters between 100 micrometers and 600 micrometers, next generation TruDisk disk lasers from TRUMPF are extremely compact, with a footprint of less than one square meter, and can withstand laser radiation reflected from the workpiece, making them ideal for joining, coating, additive manufacturing, hardening, and cutting with high quality and reproducibility in auto making, aerospace engineering, medical devices and electronics, right through to the supply sector and heavy industry. (first view)
Available for laser outputs of between 3 kW and 5 kW with fiber core diameters between 100 micrometers and 600 micrometers, next generation TruDisk disk lasers from TRUMPF are extremely compact, with a footprint of less than one square meter, and can withstand laser radiation reflected from the workpiece, making them ideal for joining, coating, additive manufacturing, hardening, and cutting with high quality and reproducibility in auto making, aerospace engineering, medical devices and electronics, right through to the supply sector and heavy industry. (second view)
Condition Based Services from TRUMPF are generated from the critical hub of the smart TruDisk beam source built-in control system known as CPX, where all of the condition data and process parameters are collected. During processing, a broad array of sensors measure multiple parameters, including the actual laser output at microsecond intervals, all internal and external signal characteristics, the utilization rate of the beam source, and the condition of additional components.
To boost the energy efficiency of their new TruDisk lasers, TRUMPF equips them with a new pulse function that makes it possible to ramp the current of the pump diodes down to zero amps even during very short laser-off times between two processing steps. A smart energy management system switches the laser between different power-saving modes for each operation, reducing energy consumption to a minimum. Redesigned disk laser optics ensure optimum use of the diode pump light.

The ability to carry out condition and trend analyses in condition monitoring and predictive maintenance is a basic prerequisite for successfully implementing lasers in digitalized and connected manufacturing environments. TRUMPF Inc. (Farmington, CT) introduces the latest generation of their TruDisk disk laser as the most advanced high power solid state laser on the market, with built-in intelligence and optimum hardware features for a digitalized future and Industry 4.0. “The new TruDisk is not just the smartest, most advanced generation of disk lasers we’ve ever developed, it’s also the most compact and energy efficient,” says Klaus Löffler, the managing director and head of sales at TRUMPF Lasertechnik GmbH (Ditzingen, Germany). “Combined with our Condition Based Services for condition and trend analyses, the new TruDisk lasers are the perfect production tool for superior Industry 4.0 production lines.”

Condition Based Services are a modular component of TruConnect technology for connected manufacturing and Industry 4.0 that increases the availability and productivity of connected laser systems while identifying potential cost savings. The critical hub of the smart TruDisk beam source is the built-in control system known as CPX. This is the laser’s brain, where all of the condition data and process parameters are collected. During processing, a broad array of sensors measure multiple parameters, including the actual laser output at microsecond intervals, all internal and external signal characteristics, the utilization rate of the beam source, and the condition of additional components.

The new TruDisk lasers also incorporate a clever new feature that significantly enhances the quality of the data obtained from the readings: Precision Time Protocol, which synchronizes all the sensors and provides them with an identical time stamp. But perhaps the most impressive development of all is how Condition Based Services will be used in the future. With the customer’s prior approval, these services will be used to analyze data parameters, carry out algorithm-based trend analyses, and take targeted measures to determine the risk of potential laser failure in advance and prevent unscheduled downtime.

The second major improvement inside these new lasers can be found in the new laser diodes, which are developed and produced at the U.S. plant in Princeton, NJ. These laser diodes are both compact and energy efficient to keep running costs down while also reducing the laser’s footprint, which – at just 0.85 sq m – is currently the benchmark for multi-kilowatt high-power lasers. There is even room in this small space for the laser’s smart cooling system, which enables the use of cooling water at feed temperatures of up to 26 deg C. This eliminates the need for an external cooling unit in the majority of cases. To boost the energy efficiency of these new lasers, the company has not only increased how efficiently the lasers work, they have also equipped them with a new pulse function that makes it possible to ramp the current of the pump diodes down to zero amps even during very short laser-off times between two processing steps. A smart energy management system switches the laser between different power-saving modes for each operation, reducing energy consumption to a minimum. The disk laser optics have also been redesigned to ensure optimum use of the diode pump light.

The TruDisk laser has proven its worth thousands of times over in practical applications. Real-time power regulation ensures the power applied to the workpiece remains stable from one operation to the next and throughout the system’s entire service life. What’s more, this technology is built to withstand laser radiation reflected from the workpiece, making it an extremely robust disk laser that is ideally suited to tough industrial environments. It also offers a modular design, making it easy to upgrade the machines with individual components and functions at a later point in time. This is a disk laser designed to tackle a remarkable range of applications. From auto making, aerospace engineering, medical devices, and electronics right through to the supply sector and heavy industry, the high beam quality of a TruDisk laser makes it a reliable tool for joining, coating, additive manufacturing, hardening, and cutting with high quality and reproducibility.

These new TruDisk lasers are available for laser outputs of between 3 kW and 5 kW with fiber core diameters between 100 micrometers and 600 micrometers. Further models are due to be released soon.

TRUMPF Inc., Farmington Industrial Park, 111 Hyde Road, Farmington, CT 06032, 860-255-6104, www.us.trumpf.com.

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