Danisense released its latest Current Transducer for Automotive (EV) Test Benches & Battery Testing & evaluation systems. Featuring a very large aperture of 41.2mm, the DN1000ID current transducer enables power cables with large power connectors to be easily fitted to EV test benches allowing for quick changeovers.
The large aperture is an important advantage as test bench operators often face the issue that the power connectors fitted to the power cables are bigger than the diameter of the cable, making it difficult to fit them in the aperture of the current transducer and often requiring additional work to solve this issue. Comments Loic Moreau, Sales & Marketing Director at Danisense: “Our new DN1000ID device now offers the best compromise between the 1000A nominal current and aperture size by keeping the best measuring performances in accuracy and phase shift.”
Like all Danisense products the DN1000ID current transducers benefit from the high stability closed loop fluxgate technology. Further technical details include a linearity of 1 ppm, 5 ppm offset and a compact aluminium housing. Additional target applications for the product are power measurement and power analysis, MPS for particles accelerators, gradient amplifiers for MRI devices, precision drives as well as current calibration purposes.
Learn more about Danisense’s new Current Transducer DN1000ID here.
DANISENSE: Precision – Innovation
By combining complex magnetic performance with advanced electronics Danisense provides efficient and precise solutions that match the requirements of worldwide customers in demanding industries. Danisense was founded in 2012 and today is based in Denmark and Japan. The company’s founders and key employees are highly-experienced and possess specialized knowledge about high precision current transducers, enabling Danisense to create solutions that enable its customers to quickly and easy measure AC and DC currents with accuracies down to 1ppm. Its products are of the highest quality and have an extremely flat frequency response and outstanding DC stability.