Mono602 HDRS System
Solar Light has developed the fastest performing DRS instruments on the market, keeping product research, formulation and clinical testing in mind. HDRSplus™ software is designed specifically for a clinical testing laboratory environment and simplifies all HDRS calculations.
Description
Hybrid Diffuse Reflectance Spectroscopy (HDRS) non-invasive SPF methods, in accordance with the ISO/DIS 23698 proposed standard, are currently being evaluated as an alternative to in vivo SPF testing to provide UVAPF and SPF values while eliminating the ethical and safety considerations present with current erythema in vivo test methods. Solar Light has developed this disruptive technology to augment its own technology used in the industry for the past 50 years. This new technology can be used today as an in vivo screening tool for development purposes.
As the Global Leader providing the current gold standard for SPF measurements today, Solar Light has developed the fastest performing DRS instruments on the market, keeping product research, formulation and clinical testing in mind. HDRSplus™ software is designed specifically for a clinical testing laboratory environment and simplifies all HDRS calculations.
Applications
ISO/DIS 23698 Proposed SPF Measurement Standard
Formulation Screening for Clinical Testing for Static, WR SPF and UVAPF
Spreading Analysis Used for Technician Training
Features
Fast SPF and UVAPF Results
Typical 30 Seconds per Measurement
Easy SPF & In Vitro Data Handling & Results
Integrated Data Processing System, Automated Computations and Data Reporting
Non-Invasive (No Skin Erythema)
Monochromatic Measurements from 290nm – 400nm
UVA Spectral Absorption Curves for Each Sample
Total Energy is Below the International UV Safety Measurement Threshold Minimums and Does Not Require Technician or Subject Safeguards
Subjects May Participate in a HDRS Test Once Per 7 Days
Laptop and HDRSplus™ Software Included
Visual Indicator for System Ready and Measurement Status
Small Footprint to Minimize Bench Space
Technical Specifications
| Applications: | Our state of the art single output 16S- Series Solar Simulators produce solar UV radiation in the 290-400nm range, and can be quickly and easily configured by the user to provide UVA only, UVB only, UVA+B, or full spectrum sunlight optionally. |
| Output Beam Size: | 0.4” (1 cm) |
| Beam Orientation: | Vertical Downward, Vertical Upward, or Horizontal (for all models – please specify at order) |
| Lamp Type: | Xenon Short Arc (For All Models) |
| Lamp Wattage (Nominal): | 150W (For All Models) |
| Beam Uniformity: | ±5% (For All Models) |
| Temporal Instability Classification: | A (IEC 60904-9 2007) A (JIS C 8912) A (ASTM E927 – 05) |
| Light Ripple: | < ±2% rms |
| Uniformity Classification: | B (IEC 60904-9 2007) B (JIS C 8912) B (ASTM E927 – 05) |
| Horizontal Beam Working Distance: | 3” (7.6 cm) |
| Vertical Beam Working Distance: | n/a |
| Long Term Drift (<4 Hours): | Near Zero |
| Power Limit: | Factory Set Limit is 150 watts max |
| Operating Temperature: | 32°F to 95°F / 0°C to 35°C |
| Storage Temperature: | -4°F to 185°F / -20°C to +85°C |
| Humidity: | 0 to 95% non-condensing |
| Cooling: | Forced air |
| Medical Safety Certifications: | EN61010-1 Laboratory, EN60335 Appliances, IEC60601-1 Medical |
| EMI/EMC: | EN55011 Emissions, IEC60601-1-2:2001, 2nd Rev 2 Medical, IEC61000-3-2 Harmonic, IEC61000-3-3 Flicker, IEC61000-4-2 ESD, IEC61000-4-3 Radiated, IEC61000-4-4 EFT, IEC61000-4-5 Surge, IEC61000-4-6 Conducted, IEC61000-4-11 Voltage Dip, IEC61000-4-8 Magnetic Field |
Documentation
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