HL67213HD is a high-power AlGaInP laser diode manufactured by Ushio, designed for applications requiring a visible red light source. Operating at a wavelength of approximately 683 nm, it delivers a continuous optical output power of 1.3 W, making it suitable for demanding tasks in medical and industrial fields.
Key Features:
Wavelength: Typ. 683 nm
Optical Output Power: 1.3 W (CW)
Operating Current: 1350–1650 mA at 1.2 W
Operating Voltage: 2.2–2.6 V at 1.2 W
Threshold Current: 320–500 mA
Beam Divergence: Parallel to junction: 3°–11° (FWHM); Perpendicular to junction: 23°–43° (FWHM)
Package Type: 9 mm CAN package
Thermal Management: High heat dissipation capability
Operating Temperature Range: -10°C to +75°C
Storage Temperature Range: -40°C to +85°C
Mode of Operation: Multi-transverse mode, TE mode oscillation
Applications:
Photodynamic Therapy (PDT): Utilized in medical treatments involving light-sensitive drugs activated by laser light
Medical and Healthcare Devices: Instruments requiring precise and powerful red light sources
Life Science Research: Applications such as fluorescence excitation and bioimaging
Laser Modules: Integration into various laser systems for industrial or scientific use
HL67011DG is a high-performance laser diode emitting visible light at a wavelength of 671 nm. It delivers an optical output power of 210 mW with a low operating current of 210 mA, ensuring efficient energy consumption. Designed with a built-in monitor photodiode, it allows for precise monitoring of the laser’s performance. The diode operates effectively within a temperature range of -10°C to +75°C, making it suitable for various environmental conditions.
Key Features:
Wavelength: 671 nm (visible red light)
Optical Output Power: 210 mW
Operating Current: 210 mA (typical)
Built-in Monitor Photodiode: Enables real-time performance monitoring
Operating Temperature Range: -10°C to +75°C
Mode of Operation: Single transverse mode with TE mode oscillation
Applications:
Quantum Technology: Ideal for applications in quantum research and development
Life Sciences: Suitable for biological research applications requiring precise laser sources
Biomedical Fields: Applicable in medical diagnostics and therapeutic equipment
Optical Equipment: Serves as a reliable light source in various optical instruments
HL65312MG is a high-performance AlGaInP laser diode that emits visible red light at a wavelength of 662 nm. It delivers an optical output power of 12 mW in continuous wave (CW) operation, ensuring high brightness for demanding tasks. This laser diode operates efficiently with a low threshold current and a wide operating temperature range, making it suitable for various industrial and scientific applications. Its features and applications make the HL65312MG a versatile and reliable choice for professionals requiring a high-power red laser diode in scientific and industrial settings.
Key Features:
Wavelength: Emits at a typical wavelength of 662 nm, providing visible red light suitable for various applications
Optical Output Power: Delivers up to 12 mW in CW operation, ensuring high brightness for demanding tasks
Operating Current: Requires a typical operating current of 20 mA for CW operation at 10 mW output, offering efficient performance
Operating Voltage: Operates at a typical voltage of 2.2 V, with a maximum of 3.0 V during CW operation at 10 mW output
Beam Divergence: Angles of 7° (parallel) x 30° (perpendicular) during CW operation at 10 mW output, ensuring focused and directed laser output
Operating Temperature: Designed to function optimally within an operating temperature range of -40°C to +90°C
Monitor Photodiode: Equipped with an internal monitor photodiode for precise power monitoring and feedback control
Applications:
Laser Displacement Meters: Utilized in precise distance measurement systems for industrial and scientific purposes
Photoelectric Sensors: Serves as a light source in optical sensors for object detection and measurement
Optical Equipment: Acts as a reliable light source in various optical instruments and measurement devices
HL65311MG is a high-performance AlGaInP laser diode that emits visible red light at a wavelength of 662 nm. It delivers an optical output power of 12 mW in continuous wave (CW) operation, ensuring high brightness for demanding tasks. This laser diode operates efficiently with a low threshold current and a wide operating temperature range, making it suitable for various industrial and scientific applications.
Key Features:
Wavelength: Emits at a typical wavelength of 662 nm, providing visible red light suitable for various applications
Optical Output Power: Delivers up to 12 mW in CW operation, ensuring high brightness for demanding tasks
Operating Current: Requires a typical operating current of 20 mA for CW operation at 10 mW output, offering efficient performance
Operating Voltage: Operates at a typical voltage of 2.2 V, with a maximum of 3.0 V during CW operation at 10 mW output
Beam Divergence: Angles of 7° (parallel) x 30° (perpendicular) during CW operation at 10 mW output, ensuring focused and directed laser output
Operating Temperature: Designed to function optimally within an operating temperature range of -40°C to +90°C
Monitor Photodiode: Equipped with an internal monitor photodiode for precise power monitoring and feedback control
Applications:
Laser Displacement Meters: Utilized in precise distance measurement systems for industrial and scientific purposes
Photoelectric Sensors: Serves as a light source in optical sensors for object detection and measurement
Optical Equipment: Acts as a reliable light source in various optical instruments and measurement devices
PLT5 450GB is single mode 450 nm 100 mW laser diode with 5.6 mm package
PLT5 514 laser diode has . PLT5 514 is ideal for applications demanding reliable operations with a long lifetime and stable output power.
PLT 516 laser diode has . PLT 516 is ideal for applications demanding reliable operations with a long lifetime and stable output power.
The HL70021DG by USHIO is a high-performance laser diode designed for advanced applications requiring precision and reliability. This model operates at a wavelength of 700 nm and provides an optical output power of 210 mW. With a low operating current of 225 mA and a built-in monitor photodiode (PD), it ensures efficient and stable operation.
Key Features:
700 nm wavelength: Highest power single mode laser available at 700 nm
Low Operating Current: Efficient power usage with a typical current of 225 mA
High Operating Temperature: Reliable performance up to +75°C
Single Transverse Mode: Ensures excellent beam quality
Applications:
Quantum Technology: Suitable for quantum research, including atomic laser cooling and quantum computers
Life Science: Ideal for applications such as Raman spectroscopy and confocal microscopy
Biomedical: Effective for treatments like acne and blemish removal
Optical Equipment: Utilized as a light source in various optical devices
HL65303HD is a high-power AlGaInP laser diode emitting visible red light at a wavelength of 665 nm. It delivers an optical output power of 1.3 W in continuous wave (CW) operation, ensuring intense and focused laser output. Designed with a high wall plug efficiency of approximately 40%, this laser diode is housed in a 9 mm CAN package, facilitating efficient heat dissipation. Its multi-transverse mode and transverse electric (TE) mode oscillation make it suitable for various demanding applications.
Key Features:
Wavelength: Emits at a typical wavelength of 665 nm, providing visible red light suitable for various applications
Optical Output Power: Delivers up to 1.3 W in CW operation, ensuring high brightness for demanding tasks
Operating Current: Requires a typical operating current of 1.35 A for CW operation at 1.2 W output, offering efficient performance
Operating Voltage: Operates at a typical voltage of 2.25 V during CW operation at 1.2 W output
Beam Divergence: Angles of 10° (parallel) and 32° (perpendicular) during CW operation at 1.2 W output, ensuring focused and directed laser output
Operating Temperature: Designed to function optimally within an operating temperature range of -10°C to +55°C
Applications:
Photodynamic Therapy: Utilized in medical treatments that involve the activation of photosensitive compounds by specific wavelengths of light
Medical and Healthcare: Serves as a light source in various medical devices and diagnostic equipment
Life Science Research: Applied in laboratory experiments requiring precise and intense red light sources
Laser Modules: Integrated into laser modules for applications such as spectroscopy and optical sensing
HL85201MG laser diode is a high-power 850 nm laser diode that operates in a single transverse mode, providing excellent beam quality. It offers an optical output power of 250 mW (CW) and features a wide operating temperature range of -40 to +75°C. This laser diode is packaged in a 5.6 mm TO-18 can and is RoHS compliant, ensuring it meets environmental and safety standards.
The HL85201MG can be used as a light source for a variety of infrared illumination applications, including night vision devices, distance measurement sensors such as Time of Flight (ToF)*1, triangulation, and 3D sensing. Its high power and superior beam quality make it ideal for applications requiring precise and reliable infrared light sources.
Key Features:
High Power Output: 250 mW (CW) optical output power.
Single Transverse Mode: Ensures excellent beam quality.
Wide Operating Temperature Range: -40 to +75°C for versatile applications.
Compact Package: 5.6 mm TO-18 can.
RoHS Compliant: Meets stringent environmental and safety standards.
Applications:
Night Vision Devices: Provides reliable infrared illumination for enhanced visibility in low-light conditions.
Distance Measurement Sensors (ToF): Enables precise distance measurement using Time of Flight technology.
Triangulation: Offers accurate position detection for various industrial and scientific applications.
3D Sensing: Facilitates advanced 3D sensing for applications such as gesture recognition, facial recognition, and environmental mapping.
*1: Time of Flight (ToF) is a method for measuring the distance between a sensor and an object based on the time it takes for a light signal to travel to the object and back.
