Fibolux Customer Specific Semiconductor Laser Light Source

Specifications

Supply Voltage: 100 .. 244 V, 45 .. 65 Hz
Power: max. 300 W
Fuse: 3,15A T
Laser Diode: PL TB450B
Channels: 12
Laser Class: 4
Wavelength: typ. 450 nm
Modulation Bandwidth: typ 100MHz sine
Current Control Input Voltage Range: 0V .. 1,5V
Conversion Factor: 1A/V
Heat Resistance (Chip-Environment): ~21K/W
Size (W, D, H): 350 mm x 290 mm x 140 mm
Weight: 8 kg
Operation Temperature: 15 – 30 °C
Storage Temperature: -40 – 65 °C
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Features


  • High Power Laser Diode Setup: Equipped with 12 OSRAM PL TB450B laser diodes, this setup is designed for high-frequency analog applications.

  • Laser Class 4: This is a Class 4 laser product, emitting strong visible laser light. Proper safety measures must be followed to prevent injury.

  • Voltage Controlled Current Source: Each diode is operated by a voltage-controlled current source, with a control input range of 0V to 1.5V, corresponding to a current range of 0A to 1.5A.

  • Power Specifications: Operates on a supply voltage of 100 to 244 V, 45 to 65 Hz, with a maximum power consumption of 300 W.

  • Optical Specifications: Features a typical wavelength of 450 nm and a modulation bandwidth of approximately 100 MHz sine.

  • Electrical Specifications: Includes an SMA adapter for current control input, with a 50 Ohm impedance and a conversion factor of 1A/V.

  • Heat Management: The heat resistance of the chip-environment is approximately 21K/W, with a temperature increase of ~77K at 1.2A DC current.

  • Size and Weight: The setup measures 350 mm x 290 mm x 140 mm and weighs 8 kg.

  • Operating Conditions: Designed to operate within a temperature range of 15°C to 30°C, with a storage temperature range of -40°C to 65°C.

  • Safety Precautions: Ensure the voltage at the current control input is set to 0V before powering the device on or off to protect the laser diodes.

Applications


  • High Power Laser Applications: Utilize the high power OSRAM laser diodes for applications requiring strong laser output.

  • Research and Development: Ideal for laboratory settings where prototype testing and development of laser systems are conducted.

  • Optical Communication: Suitable for high-frequency analog modulation applications with a typical modulation bandwidth of 100MHz.

  • Material Processing: Use in applications that require precise laser cutting, engraving, or material modification.

  • Scientific Experiments: Conduct experiments that require controlled laser environments, with adjustable current and voltage settings.

  • Educational Demonstrations: Demonstrate laser safety and operation principles in educational settings, ensuring proper safety measures are in place.

  • Temperature-Sensitive Experiments: Perform experiments that require monitoring and controlling the temperature of laser diodes.

  • Electromagnetic Research: Study electromagnetic emissions and their effects, given the RF emissions from the setup.