Introduction: TP730-I300 is the latest visible light transmittance/shading coefficient detector for architectural glass launched by our company in 2019. The instrument adopts the integrated design of the host and integrating sphere unit, which can directly complete the transmission spectrum, specular reflection spectrum, and diffuse reflection spectrum measurement. Adopting an extra-large sample chamber structure design, it can measure glass samples up to 300*300*20mm. It can measure the color of architectural reflective insulation coatings, camouflage coatings, and spacecraft thermal control coatings. The instrument can be extended to measure: optical parameters and thermal parameters of automobile glass, special fabrics, and organic liquids (fructose, glucose, sucrose). Features: 1. The optical system design of dual beams, dual gratings, and dual detectors and imported core components ensure the instrument's high-precision measurement and high stability. 2. The integrated design of the host and integrating sphere unit can directly complete the transmission spectrum, specular reflection spectrum, and diffuse reflection spectrum measurement. 3. Adopting the design of extra-large sample chamber structure, which can measure glass samples up to 300*300*20mm. 4. A general-purpose computer is used to automatically control the instrument, automatically calibrate the power-on, and automatically complete data acquisition and processing, with precise control and high measurement accuracy. 5. Using USB2.0 communication interface, the scanning speed is fast, and a single scan only takes 5 minutes. 6. Provide full-band transmission spectrum data, specular reflection spectrum data, and diffuse reflection spectrum data of glass samples, and the detection results are accurate, true and reliable. 7. Chinese operating software for architectural glass measurement can automatically detect the visible light transmittance of architectural glass, total solar transmittance, shading coefficient and other related parameters. 8. Chinese operating software for architectural glass measurement can realize: automatic instrument reset, measurement parameter setting, spectral data processing, data export (text format, EXCEL), test report printing, etc. 9. Chinese operating software for reflective thermal insulation coating measurement, which can measure the solar reflectance and near-infrared reflectance of coatings. 10. Chinese operating software for camouflage paint measurement, which can measure the visible light reflection factor and near-infrared reflection factor of camouflage paint. 11. It is suitable for standard updates and new functions are added. The company provides customers with free software upgrade services. Technical Parameters: Model: TP730-I300 Measurable sample classification: glass sample 35-300mm, built-in integrating sphere unit Wavelength range: 280-2500nm Wavelength accuracy: ±0.5nm (UV/VIS); ±2nm (NIR) Wavelength repeatability: ≤0.3nm (UV/VIS); ≤2nm (NIR) Transmittance accuracy: ±0.3%T Repeatability of transmittance: ≤0.2%T Spectral bandwidth: 2-5nm (UV-VIS) 5-20nm (NIR) Integrating sphere diameter: 100mm Stray light: ≤0.2%T Working mode: transmission, reflection, diffuse reflection Baseline flatness: ±0.004A (280-2500nm, after 30 minutes of preheating) Sample room size: 380*400*350mm Sample size: ≤300mm, thickness ≤20mm Communication interface: USB2.0 Dimensions: 810*800*380mm Weight: 70kg
Introduction: TP730-I300 is the latest visible light transmittance/shading coefficient detector for architectural glass launched by our company in 2019. The instrument adopts the integrated design of the host and integrating sphere unit, which can directly complete the transmission spectrum, specular reflection spectrum, and diffuse reflection spectrum measurement. Adopting an extra-large sample chamber structure design, it can measure glass samples up to 300*300*20mm. It can measure the color of architectural reflective insulation coatings, camouflage coatings, and spacecraft thermal control coatings. The instrument can be extended to measure: optical parameters and thermal parameters of automobile glass, special fabrics, and organic liquids (fructose, glucose, sucrose).
