Elmos Semiconductor SE
ELMOS Semiconductor AG: Contactless high-precision current sensing
ELMOS Semiconductor AG / Key word(s): Products/Innovation/ 19.06.2012 / 14:00 --------------------------------------------------------------------- Sensor system E524.50 for up to 500 kHz AC With the E524.50, ELMOS presents a sensor system for precise current measurement. The system features a compact size, galvanic isolation from the primary current, high dynamics, and it integrates an overcurrent alarm output configurable by the customer. Assembly tolerances can be compensated at application level by calibrating zero point and sensitivity, reaching high system precision. The sensor system includes the sensor cell, signal processing, and two permanent magnets for generating a magnetic field in support of the sensor element. Potential applications are electric vehicles and battery management as well as power inverters for solar and wind power stations. The E524.50 is based on the anisotropic magneto-resistive effect (AMR). The system measures the magnetic field generated by the primary conductor, with the sensitive axis being located at the level of the sensor element. The scale of the AMR effect makes a flux concentrator redundant. The fast amplifiers used in the feedback controlled circuit (closed-loop principle) allow for the wide measurement bandwidth from DC to beyond 500 kHz AC, making the fast detection of the actual quantities of pulse edges possible in particular. Typical total error is 1.5% FS (full scale, max. output signal) over the entire temperature range from -40 C to +125 C, thus below the typical tolerance of about 5% FS shown by current sensors based on the Hall effect. A special leadframe together with advanced packaging technology enable a 'system-in-package' solution (SIP): All system components for sensing the primary current are integrated into a JEDEC compatible SOIC16 package in a standard molding process. Additional mounting (through-hole technology) or soldering processes (e.g. wave soldering) for manufacturing the printed circuit board are unnecessary. The magnetic field differential is created by leading the primary conductor in a U shape below the sensor package. The sensor is situated on the U's axis of symmetry. By varying the geometry of the primary conductor, the differential magnetic field desired at the sensor location can be adjusted and optimized for different current ranges and applications. Thus only one current sensor is required, covering a wide range of different primary currents. For more information, datasheets, application descriptions and samples, please send an e-mail with the subject 'E524.50' to sales@elmos.com, visit our website www.elmos.com on the Internet, or call us at: + 49 231 7549 100. ELMOS Semiconductor AG is a developer and manufacturer of system solutions on semiconductor basis. For more than 25 years, our chips have made automobiles as well as industrial and consumer goods more performance and power efficient. Contact: ELMOS Semiconductor AG, Mathias Kukla, Heinrich-Hertz-Str. 1, 44227 Dortmund, Phone: +49 231-7549-0, Extension: -199, Fax: +49 231-7549-548, info@elmos.com, www.elmos.com End of Media Release --------------------------------------------------------------------- 19.06.2012 Dissemination of a Press Release, transmitted by DGAP - a company of EquityStory AG. The issuer is solely responsible for the content of this announcement. DGAP's Distribution Services include Regulatory Announcements, Financial/Corporate News and Press Releases. Media archive at www.dgap-medientreff.de and www.dgap.de --------------------------------------------------------------------- Language: English Company: ELMOS Semiconductor AG Heinrich-Hertz-Str. 1 44227 Dortmund Germany Phone: +49 (0)231 7549-575 Fax: +49 (0)231 7549-548 E-mail: invest@elmos.com Internet: http://www.elmos.com ISIN: DE0005677108 WKN: 567710 Listed: Regulierter Markt in Frankfurt (Prime Standard); Freiverkehr in Berlin, Düsseldorf, Hamburg, München, Stuttgart End of News DGAP-Media --------------------------------------------------------------------- 174511 19.06.2012
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