Overview of HL67203HD Laser Diode
HL67203HD is a high-power AlGaInP laser diode manufactured by Ushio, emitting at a wavelength of 675 nm. It provides an optical output power of 1.3 W, making it suitable for demanding applications in medical and life science fields.
Key Features:
Wavelength: 675 nm (typical)
Optical Output Power: 1.3 W (continuous wave)
Operating Current: 1.38 A at 1.2 W output
Operating Voltage: 2.2 V at 1.2 W output
Threshold Current: 360 mA
Beam Divergence: Parallel to junction: 12° (FWHM); Perpendicular to junction: 32° (FWHM)
Transverse Mode: Multi-transverse mode
Oscillation Mode: TE mode
Package Type: 9 mm CAN package
Operating Temperature Range: -10°C to +75°C
Storage Temperature Range: -40°C to +85°C Applications:
Photodynamic Therapy (PDT): Used in cancer treatment by activating photosensitive drugs
Photoimmunotherapy: Emerging cancer treatment modality utilizing laser light
Life Science Research: Applications such as Raman spectroscopy and confocal microscopy
Medical and Healthcare Devices: Instruments requiring precise and powerful red light sources
Laser Modules: Integration into various laser systems for industrial or scientific use
Overview of HL67203HD Laser Diode
HL67203HD is a high-power AlGaInP laser diode manufactured by Ushio, emitting at a wavelength of 675 nm. It provides an optical output power of 1.3 W, making it suitable for demanding applications in medical and life science fields.
Key Features:
- Wavelength: 675 nm (typical)
- Optical Output Power: 1.3 W (continuous wave)
- Operating Current: 1.38 A at 1.2 W output
- Operating Voltage: 2.2 V at 1.2 W output
- Threshold Current: 360 mA
- Beam Divergence: Parallel to junction: 12° (FWHM); Perpendicular to junction: 32° (FWHM)
- Transverse Mode: Multi-transverse mode
- Oscillation Mode: TE mode
- Package Type: 9 mm CAN package
- Operating Temperature Range: -10°C to +75°C
- Storage Temperature Range: -40°C to +85°C Applications:
- Photodynamic Therapy (PDT): Used in cancer treatment by activating photosensitive drugs
- Photoimmunotherapy: Emerging cancer treatment modality utilizing laser light
- Life Science Research: Applications such as Raman spectroscopy and confocal microscopy
- Medical and Healthcare Devices: Instruments requiring precise and powerful red light sources
- Laser Modules: Integration into various laser systems for industrial or scientific use
