Universities, laboratories, and medical research institutions often require high-precision, replicable devices for experiments and student training. Common challenges include:
Reproducibility of experimental results
Consistency in light intensity, wavelength, and coverage
Safety compliance for repeated use by students or research staff
Flexibility for testing multiple tissue depths and therapeutic outcomes
Reliable RLT panels must provide quantifiable parameters that allow rigorous experimentation and controlled studies.
The 300W panel integrates 660 nm red light and 850 nm near-infrared light:
660 nm red light: Targets superficial tissue to study microcirculation, skin repair, and cellular activation
850 nm NIR: Penetrates deeper tissue layers for muscle recovery, joint relief, and tissue regeneration studies
Dual-wavelength output ensures that researchers can simultaneously investigate multiple tissue depths, making the panel suitable for both pre-clinical trials and laboratory demonstrations.
| Specification | Value | Evidence / Source |
|---|---|---|
| Power Output | 300W | Product Page |
| Wavelength | 660 nm (Red), 850 nm (NIR) | Product Page |
| Beam Coverage | ~1–1.2 m² per panel | Product Page / User Manual |
| LED Lifespan | ≥50,000 hours | Manufacturer Specs |
| Input Voltage | 220–240V AC | Product Page |
| Safety Rating | CE, RoHS | Product Page |
These metrics provide research-grade parameters for precise documentation and experimental reproducibility.
Physiological Studies: Investigating cellular responses, tissue repair, and circulation effects
Therapeutic Protocol Testing: Comparing different session durations, wavelengths, and intensities
Student Training: Demonstrating clinical and home therapy procedures in controlled settings
Product Development: Testing new LED configurations, coverage designs, and therapy methods for OEM/ODM projects
High-power panels enable controlled experiments across large treatment areas, improving study reliability and operational efficiency.
Mounting Options: Adjustable wall or stand configurations for lab setups or classroom demonstrations
Session Duration: Adjustable 10–20 minutes per area for precise control of energy dosage
Safety Compliance: CE and RoHS certified, ensuring safe use in educational and experimental environments
Thermal Management: Heat sinks maintain stable output, preventing heat-related variability in experiments
Proper setup ensures repeatable and safe research outcomes, critical for both training and experimental studies.
Consistent Output: Dual-wavelength LED design ensures reliable, reproducible results
Durable Construction: Long LED lifespan and stainless steel housing support repeated use in labs and classrooms
Versatile Research Applications: Supports physiological, aesthetic, and rehabilitation-related studies
Data-Driven Experimentation: Quantifiable parameters allow accurate documentation of session intensity, coverage, and exposure
These advantages make the panels ideal for research institutions, universities, and educational programs focusing on photobiomodulation and therapy innovation.
The 300W dual-wavelength red and near-infrared panel is a highly reliable tool for research and educational settings, offering repeatable, safe, and measurable results. By focusing on power output, dual-wavelength penetration, coverage, and durability, academic and research institutions can conduct experiments, test therapy protocols, and train students with confidence and precision. Its versatility across tissue depths, high irradiance, and long-lasting LED design make it a strategic asset for experimental validation, clinical research, and educational demonstration purposes.
Universities, laboratories, and medical research institutions often require high-precision, replicable devices for experiments and student training. Common challenges include:
Reproducibility of experimental results
Consistency in light intensity, wavelength, and coverage
Safety compliance for repeated use by students or research staff
Flexibility for testing multiple tissue depths and therapeutic outcomes
Reliable RLT panels must provide quantifiable parameters that allow rigorous experimentation and controlled studies.
The 300W panel integrates 660 nm red light and 850 nm near-infrared light:
660 nm red light: Targets superficial tissue to study microcirculation, skin repair, and cellular activation
850 nm NIR: Penetrates deeper tissue layers for muscle recovery, joint relief, and tissue regeneration studies
Dual-wavelength output ensures that researchers can simultaneously investigate multiple tissue depths, making the panel suitable for both pre-clinical trials and laboratory demonstrations.
| Specification | Value | Evidence / Source |
|---|---|---|
| Power Output | 300W | Product Page |
| Wavelength | 660 nm (Red), 850 nm (NIR) | Product Page |
| Beam Coverage | ~1–1.2 m² per panel | Product Page / User Manual |
| LED Lifespan | ≥50,000 hours | Manufacturer Specs |
| Input Voltage | 220–240V AC | Product Page |
| Safety Rating | CE, RoHS | Product Page |
These metrics provide research-grade parameters for precise documentation and experimental reproducibility.
Physiological Studies: Investigating cellular responses, tissue repair, and circulation effects
Therapeutic Protocol Testing: Comparing different session durations, wavelengths, and intensities
Student Training: Demonstrating clinical and home therapy procedures in controlled settings
Product Development: Testing new LED configurations, coverage designs, and therapy methods for OEM/ODM projects
High-power panels enable controlled experiments across large treatment areas, improving study reliability and operational efficiency.
Mounting Options: Adjustable wall or stand configurations for lab setups or classroom demonstrations
Session Duration: Adjustable 10–20 minutes per area for precise control of energy dosage
Safety Compliance: CE and RoHS certified, ensuring safe use in educational and experimental environments
Thermal Management: Heat sinks maintain stable output, preventing heat-related variability in experiments
Proper setup ensures repeatable and safe research outcomes, critical for both training and experimental studies.
Consistent Output: Dual-wavelength LED design ensures reliable, reproducible results
Durable Construction: Long LED lifespan and stainless steel housing support repeated use in labs and classrooms
Versatile Research Applications: Supports physiological, aesthetic, and rehabilitation-related studies
Data-Driven Experimentation: Quantifiable parameters allow accurate documentation of session intensity, coverage, and exposure
These advantages make the panels ideal for research institutions, universities, and educational programs focusing on photobiomodulation and therapy innovation.
The 300W dual-wavelength red and near-infrared panel is a highly reliable tool for research and educational settings, offering repeatable, safe, and measurable results. By focusing on power output, dual-wavelength penetration, coverage, and durability, academic and research institutions can conduct experiments, test therapy protocols, and train students with confidence and precision. Its versatility across tissue depths, high irradiance, and long-lasting LED design make it a strategic asset for experimental validation, clinical research, and educational demonstration purposes.
