An economical and compact X-ray measuring device. It is a useful tool to have on-site when handling X-ray sources.
This is an X-ray intensity measurement detector manufactured by Rigaku Innovative Technologies Europe (RITE). The company provides products that leverage its high technical expertise as a group of specialists in X-ray optical technology. The xPIN is based on a PIN photodiode and can measure down to the picoampere (pA) level. It offers flexibility and excellent operability, allowing users to select options based on the energy (wavelength) of the X-rays they wish to measure and their specific applications. It enables easy and accurate measurements in various situations.
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basic information
**Application** - X-ray intensity monitor - Alignment of optical systems for X-rays, etc. **Features** - Compact and space-saving, portable with one hand - Selection of PIN photodiodes and filters for the sensor section according to the desired energy range (wavelength) for measurement. EUV measurement options are also available. - We propose and provide the optimal grade and options according to your application. **Specifications** - Effective area of PIN diode: 10mm x 10mm - Operation mode: Photovoltaic (unbiased) / ±2.5V (biased) - Measurement range: 200nA full, resolution 1pA (+/-)400nA (unipolar, resolution 0.1pA) 20 µA full, resolution 0.1pA (+/-)40μA (unipolar, resolution 0.1nA) - Spectral range: 4-5keV (X-ray) / EUV *Other inquiries welcome.
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Applications/Examples of results
- X-ray intensity monitor - Alignment of X-ray optical systems, etc.
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Company information
RAD Device: The name of RAD Device Co., Ltd. is derived from "radiation" and key devices related to it. In physics, "radiation" refers to the process of energy emission such as electromagnetic waves and particles, and the research fields are diverse. Currently, the region of soft X-rays to UV with high energy and short wavelengths is a leading area of cutting-edge technology related to various applications, from astronomical observations to measurement and manufacturing (nanotechnology), where the devices used (such as detection and wavelength selection) play an important role. However, many existing products still face challenges in terms of performance, operability, and environmental resistance, indicating that this is a field where future advancements are expected. RAD Device was established with the aim of contributing to society by timely delivering key devices and related technical information to the research and development sites associated with radiation.
