EKSPLA Industrial Femtosecond Laser
Model: EKSPLA FemtoLux 30
Exhibitor: SUPERBIN COMPANY, LTD.
Booth No: M128
Characteristic
FemtoLux 30
INNOVATIVE “DRY” COOLING SYSTEM
The FemtoLux 30 laser employs an innovative cooling system and sets new reliability standards among industrial femtosecond lasers. No additional bulky and heavy water chiller is needed. The chiller requires periodic maintenance – cooling system draining and rinsing and water and particle filter replacement. Moreover, water leakage can cause damage to the laser head and other equipment. Instead of using water for transferring heat from a laser head, the FemtoLux 30 laser uses an innovative Direct Refrigerant Cooling method. The refrigerant agent circulates from a PSU-integrated compressor and condenser, to a cooling plate via armored flexible lines. The entire cooling circuit is permanently hermetically sealed and requires no maintenance.
SIMPLE & RELIABLE COOLING PLATE ATTACHMENT
The cooling plate is detachable from the laser head for more convenient laser installation. The laser cooling equipment is integrated with the laser power supply unit into a single 4U rack-mounted housing with a total weight of 15 kg.
PERFECT AND VERSATILE TOOL FOR MICROMACHINING
The FemtoLux 30 femtosecond laser has a tunable pulse duration from <350 fs to 1 ps and can operate in a broad AOM controlled range of pulse repetition rates from a single shot to 4 MHz. The maximum pulse energy is more than 90 μJ operating with single pulses and can reach 250 µJ in burst mode, ensuring higher ablation rates and processing throughput for different materials. The FemtoLux 30 beam parameters will meet the requirements of the most demanding materials and micromachining applications. Innovative laser control electronics ensure simple control of the FemtoLux 30 laser by external controllers that could run on different platforms, be it Windows, Linux or others using REST API commands. This makes easy integration and
reduces the time and human resources required to integrate this laser into any laser micromachining equipment.
FEATURES
▶ 30 W typical max output power
▶ > 90 µJ max pulse energy
▶ > 250 µJ in a burst mode
▶ < 350 fs – 1 ps
▶ Single shot to 4 MHz (AOM controlled)
▶ <0.5% RMS power long term stability over 100 hours
▶ M² < 1.2
▶ Beam circularity > 0.85
▶ Zero maintenance
▶ Dry cooling (no water used)
▶ PSU and cooling unit integrated into single 4U rack housing
▶ Easy and quick installation
▶ Compatible with galvo and Polygon scanners as well as PSO controllers
▶ 2 years of total warranty
FemtoLux 30
INNOVATIVE “DRY” COOLING SYSTEM
The FemtoLux 30 laser employs an innovative cooling system and sets new reliability standards among industrial femtosecond lasers. No additional bulky and heavy water chiller is needed. The chiller requires periodic maintenance – cooling system draining and rinsing and water and particle filter replacement. Moreover, water leakage can cause damage to the laser head and other equipment. Instead of using water for transferring heat from a laser head, the FemtoLux 30 laser uses an innovative Direct Refrigerant Cooling method. The refrigerant agent circulates from a PSU-integrated compressor and condenser, to a cooling plate via armored flexible lines. The entire cooling circuit is permanently hermetically sealed and requires no maintenance.
SIMPLE & RELIABLE COOLING PLATE ATTACHMENT
The cooling plate is detachable from the laser head for more convenient laser installation.
The laser cooling equipment is integrated with the laser power supply unit into a single 4U rack-mounted housing with a total weight of 15 kg.
PERFECT AND VERSATILE TOOL FOR MICROMACHINING
The FemtoLux 30 femtosecond laser has a tunable pulse duration from <350 fs to 1 ps and can operate in a broad AOM controlled range of pulse repetition rates from a single shot to 4 MHz. The maximum pulse energy is more than 90 μJ operating with single pulses and can reach 250 µJ in burst mode, ensuring higher ablation rates and
processing throughput for different materials. The FemtoLux 30 beam parameters
will meet the requirements of the most demanding materials and micromachining applications. Innovative laser control electronics ensure simple control of the FemtoLux 30 laser by external controllers that could run on different platforms, be it
Windows, Linux or others using REST API commands. This makes easy integration and
reduces the time and human resources required to integrate this laser into any
laser micromachining equipment.
FemtoLux 30
INNOVATIVE “DRY” COOLING SYSTEM
The FemtoLux 30 laser employs an innovative cooling system and sets new reliability standards among industrial femtosecond lasers. No additional bulky and heavy water chiller is needed. The chiller requires periodic maintenance – cooling system draining and rinsing and water and particle filter replacement. Moreover, water leakage can cause damage to the laser head and other equipment. Instead of using water for transferring heat from a laser head, the FemtoLux 30 laser uses an innovative Direct Refrigerant Cooling method. The refrigerant agent circulates from a PSU-integrated compressor and condenser, to a cooling plate via armored flexible lines. The entire cooling circuit is permanently hermetically sealed and requires no maintenance.
SIMPLE & RELIABLE COOLING PLATE ATTACHMENT
The cooling plate is detachable from the laser head for more convenient laser installation.
The laser cooling equipment is integrated with the laser power supply unit into a single 4U rack-mounted housing with a total weight of 15 kg.
PERFECT AND VERSATILE TOOL FOR MICROMACHINING
The FemtoLux 30 femtosecond laser has a tunable pulse duration from <350 fs to 1 ps and can operate in a broad AOM controlled range of pulse repetition rates from a single shot to 4 MHz. The maximum pulse energy is more than 90 μJ operating with single pulses and can reach 250 µJ in burst mode, ensuring higher ablation rates and
processing throughput for different materials. The FemtoLux 30 beam parameters
will meet the requirements of the most demanding materials and micromachining applications. Innovative laser control electronics ensure simple control of the FemtoLux 30 laser by external controllers that could run on different platforms, be it
Windows, Linux or others using REST API commands. This makes easy integration and
reduces the time and human resources required to integrate this laser into any
laser micromachining equipment.
APPLICATIONS
▶ LCD, LED, OLED drilling, cutting and repair
▶ Microelectronics manufacturing
▶ Glass, sapphire and ceramics micro processing
▶ Glass intra volume structuring
▶ Micro processing of different polymers and metals
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