Recently, magnetic started with TDK and EPCOS subsidiary companies work TDK-Lambda, in 2013 to bring high cross at a new electronic technologies and products based on high-performance magnetic materials and demonstrate its wide range of innovative applications.
TDK show coming to a complete conceptual model of the main line of electric vehicles , the main products and technologies through which we describe as a wonderful blueprint technology is changing automotive applications . Including charging and driving the whole show in two parts , showcasing TDK key device in the charger current sensor , charger, car converter, and temperature sensors as well as electrolytic capacitors Axial Leaded charger , and a high-voltage battery current sensor , inverters current sensor and film capacitors, as well as sensor and magnet motors and other electric cars need to drive the important function of a single system components .
It is particularly worth mentioning is that in TDK 's show, wireless charging has not only the exclusive consumer electronics , and more than a fixed charging method , TDK is developing based on magnetic resonance technology , with a unique " automatic adjustment circuit " to enhance wireless charging efficiency technologies in order to achieve non-stop driving in wireless charging , in order to achieve true " unlimited" power supply . Wireless power consumption in traditional applications, the TDK 's high-performance magnetic materials for use in wireless power , to achieve a thin and high-performance products , in addition to establishing a thin flexible production technology to produce a shock -resistant coil products . Support the development of 5W, thickness 0.48mm (typ) of products, not only can be customized according to customer demand size and thickness , can also provide integrated NFC antenna Rx coil.
Furthermore , TDK particular show originally not used to improve heat resistance ( coercive force ) and the use of scarce and expensive Dy, Tb and other heavy rare earth elements , the development of techniques to achieve high coercive force , thereby achieving not by its price volatility risk , procurement risks of high magnetic magnet.
TDK show coming to a complete conceptual model of the main line of electric vehicles , the main products and technologies through which we describe as a wonderful blueprint technology is changing automotive applications . Including charging and driving the whole show in two parts , showcasing TDK key device in the charger current sensor , charger, car converter, and temperature sensors as well as electrolytic capacitors Axial Leaded charger , and a high-voltage battery current sensor , inverters current sensor and film capacitors, as well as sensor and magnet motors and other electric cars need to drive the important function of a single system components .
It is particularly worth mentioning is that in TDK 's show, wireless charging has not only the exclusive consumer electronics , and more than a fixed charging method , TDK is developing based on magnetic resonance technology , with a unique " automatic adjustment circuit " to enhance wireless charging efficiency technologies in order to achieve non-stop driving in wireless charging , in order to achieve true " unlimited" power supply . Wireless power consumption in traditional applications, the TDK 's high-performance magnetic materials for use in wireless power , to achieve a thin and high-performance products , in addition to establishing a thin flexible production technology to produce a shock -resistant coil products . Support the development of 5W, thickness 0.48mm (typ) of products, not only can be customized according to customer demand size and thickness , can also provide integrated NFC antenna Rx coil.
Furthermore , TDK particular show originally not used to improve heat resistance ( coercive force ) and the use of scarce and expensive Dy, Tb and other heavy rare earth elements , the development of techniques to achieve high coercive force , thereby achieving not by its price volatility risk , procurement risks of high magnetic magnet.