SSC-OPM1000 type optical radiometer Introduction: The SSC-OPM1000 light radiometer is a portable automatic range testing instrument. Using professional photoelectric detection probes and high-precision low-power digital chips, the detector undergoes strict spectral and angular characteristic correction, with stable performance and strong applicability. Temperature correction is also adopted to improve accuracy. It can be used to measure the irradiance of sunlight (300-1100nm), as well as to test solar simulators, simulated daylight xenon lamps, LED light sources, xenon lamps, halogen lamps, monochromatic light, etc. characteristic: 1. The spectral and angular characteristics have been strictly calibrated 2. Digital LCD display results, including temperature correction 3. One key switch, automatic range switching 4. Digital output interface (rechargeable) 5. Powered by lithium batteries 6. Measurement range 0-700mW/cm2300-1100nm Technical parameters: Project: SSC-OPM1000 radiometer Wavelength range: 300-1100nm; UV, visible, infrared, can be measured continuously or in sections Power range: 0-700.0mW/cm2; (Compared to NIM standards) Temperature correction range: 15-35 ℃; Cosine correction 4%; resolving power: 0.1μw; Normal operating conditions: normal temperature 25 ℃, atmospheric pressure; Temperature (0~40) ℃; Humidity<85% RH Response time:<0.4 seconds Test output: Optical power density value MW/cm2, real-time display of test results and recording Test results: Real time display, capable of real-time recording Screen display: 7-inch touch screen, using PLC control program, can be connected to other devices and transmit data Measurement error: <5% Built in: Portable lithium battery power supply 3000mAh, 24V, charging power supply: 220V, 50Hz
Introduction: The SSC-OPM1000 light radiometer is a portable automatic range testing instrument. Using professional photoelectric detection probes and high-precision low-power digital chips, the detector undergoes strict spectral and angular characteristic correction, with stable performance and strong applicability. Temperature correction is also adopted to improve accuracy. It can be used to measure the irradiance of sunlight (300-1100nm), as well as to test solar simulators, simulated daylight xenon lamps, LED light sources, xenon lamps, halogen lamps, monochromatic light, etc.
