The FTIR-650S Fourier transform infrared spectrometer is a newly launched product in the FTIR-650 series product family that has been favored by market users in the past decade. This product has higher signal-to-noise in the low-frequency and high-frequency band areas. Infrared radiation is used for experience, and has product features such as better moisture resistance and anti-electromagnetic interference capabilities. It can be widely used in fields such as disease control, pharmaceuticals, basic scientific research, fine chemicals, electronics and electrical, petrochemical smelting and third-party testing. It is an ideal laboratory An indispensable analytical testing tool for scientific research and enterprise production, it is your right-hand man to improve your testing level.
Features:
1. Design of efficient optical path system
--Design of high-intensity infrared light source module
By optimizing the design of the infrared light source, the background energy value is increased by up to 50% compared to FTIR-650, which significantly enhances the infrared radiation energy in the low-frequency and high-frequency band areas, making the energy distribution in the entire band more balanced. --High performance interferometer module design
While inheriting the stability advantages of the corner mirror type interferometer, the optical system has been further optimized so that the FTIR-650S has a better signal-to-noise ratio. Compared with the FTIR-650, the corresponding signal-to-noise ratio value has been increased by 50%. It can better meet the practical application requirements for conventional weak signal detection.
2. Brand new appearance design
The more convenient power switch position design can effectively solve the pain points of customers' daily repetitive and laborious switching on and off. The more intuitive power switch style design can grasp the operating status of the instrument in a more timely and accurate manner; the more convenient hatch opening method is more convenient. Operators can complete sample pickup and placement more efficiently, thus effectively improving sample detection efficiency.
3. Multiple moisture-proof design
The larger-capacity desiccant cylinder structural design greatly reduces the frequency of desiccant replacement: the better moisture-proof design of the interferometer and detector effectively protects the optical system and detection system of the infrared spectrometer from external moisture and harmful gases.
interference and corrosion.
4. Anti-electromagnetic interference design
A more optimized electromagnetic interference design effectively reduces external electromagnetic radiation on the one hand, and on the other hand effectively improves the anti-electromagnetic interference capability of the system itself to meet the requirements of electromagnetic compatibility design specifications (EMC [Note]).
Note: EMC testing is also called electromagnetic compatibility testing, which specifically includes electromagnetic field interference (EMI) and anti-interference ability (EMS). It is one of the very important indicators of product quality.
