Overview of HL40115MG Laser Diode
The HL40115MG is a high-performance violet laser diode developed by Ushio. Operating at a lasing wavelength of 405 nm, it delivers a continuous wave (CW) optical output power of 600 mW. This diode is engineered for demanding applications requiring high power, reliability, and precision.
Key Features:
Wavelength: 405 nm (violet)
Optical Output Power: 600 mW (CW)
Operating Current: 450 to 650 mA
Operating Voltage: 3.8 to 4.6 V
Threshold Current: 70 to 180 mA
Beam Divergence: Parallel to junction: 5° to 25° (Full angle 1/e²); Perpendicular to junction: 30° to 50° (Full angle 1/e²)
Transverse Mode: Multiple transverse modes (TE mode oscillation)
Package Type: 5.6 mm TO-can
Operating Temperature: 0 to 30°C
Storage Temperature: -40 to 85°C Applications:
Direct Imaging for PCB: Utilized in mask-less exposure systems for high-definition circuit patterning
Industrial Applications: Employed in precision measurement and inspection systems
Biomedical Applications: Serves as a light source in medical diagnostics and therapeutic devices
3D Printing: Used in additive manufacturing processes requiring high-intensity illumination
Overview of HL40115MG Laser Diode
The HL40115MG is a high-performance violet laser diode developed by Ushio. Operating at a lasing wavelength of 405 nm, it delivers a continuous wave (CW) optical output power of 600 mW. This diode is engineered for demanding applications requiring high power, reliability, and precision.
Key Features:
- Wavelength: 405 nm (violet)
- Optical Output Power: 600 mW (CW)
- Operating Current: 450 to 650 mA
- Operating Voltage: 3.8 to 4.6 V
- Threshold Current: 70 to 180 mA
- Beam Divergence: Parallel to junction: 5° to 25° (Full angle 1/e²); Perpendicular to junction: 30° to 50° (Full angle 1/e²)
- Transverse Mode: Multiple transverse modes (TE mode oscillation)
- Package Type: 5.6 mm TO-can
- Operating Temperature: 0 to 30°C
- Storage Temperature: -40 to 85°C Applications:
- Direct Imaging for PCB: Utilized in mask-less exposure systems for high-definition circuit patterning
- Industrial Applications: Employed in precision measurement and inspection systems
- Biomedical Applications: Serves as a light source in medical diagnostics and therapeutic devices
- 3D Printing: Used in additive manufacturing processes requiring high-intensity illumination
