ATP6750- Research grade Transmission Grating Fiber Spectrometer Introduction: The ATP6750 high-sensitivity miniature spectrometer is an imaging spectrometer with high sensitivity, high transmittance, and spatial resolution. It adopts a high-efficiency optical path and zero aberration system design, which gives it spatial resolution characteristics. Its sensitivity is enhanced by 3-4 times compared to conventional fiber spectrometers. It adopts a super large numerical aperture optical design, which can receive all photons from the fiber (with a numerical aperture of 0.22). Make it particularly suitable for the analysis of low light signals, such as gas analysis Raman spectrometer, fluorescence spectrometer and other imaging analysis of weak light. ATP6750 adopts a high-sensitivity deep cooling back illuminated CCD, which significantly reduces the noise of the sensor and achieves a signal-to-noise ratio of * * (about 2 times higher than similar competitors). It outputs spectral data to a PC via USB 2.0. ATP6750 operates with a+12VDC power supply, with a maximum current of approximately 4A. characteristic: 1. Zero aberration transmission optical path design, high spatial resolution 2. The maximum number of spatial channels is 506 channels; 3. High sensitivity and high transmittance 4. With a large numerical space and an F-number of 1.2, it can receive all incident light from optical fibers; 5. Detector: Ultra low temperature refrigeration detector 6. Detector pixel: 2048X264 pixels 7. Spectral resolution: 0.1-3 nm (depending on spectral range and slit width) 8. Integral time: 0.2ms-1h 9. Power supply: DC 12V 10.ADC:16bit 11. Fiber optic input interface: SMA905 12. Data output interface: USB2.0 (High speed) 13. 20 pin dual row programmable external expansion interface
Introduction: The ATP6750 high-sensitivity miniature spectrometer is an imaging spectrometer with high sensitivity, high transmittance, and spatial resolution. It adopts a high-efficiency optical path and zero aberration system design, which gives it spatial resolution characteristics. Its sensitivity is enhanced by 3-4 times compared to conventional fiber spectrometers. It adopts a super large numerical aperture optical design, which can receive all photons from the fiber (with a numerical aperture of 0.22). Make it particularly suitable for the analysis of low light signals, such as gas analysis Raman spectrometer, fluorescence spectrometer and other imaging analysis of weak light. ATP6750 adopts a high-sensitivity deep cooling back illuminated CCD, which significantly reduces the noise of the sensor and achieves a signal-to-noise ratio of * * (about 2 times higher than similar competitors). It outputs spectral data to a PC via USB 2.0. ATP6750 operates with a+12VDC power supply, with a maximum current of approximately 4A.
