Induction rice cooker
With many competing manufactures vying for market share, “huge market, low prices” best summarizes the induction rice cooker market. In this competitive environment, a product must be reliable, energy efficient and equipped with distinctive features, to fetch a higher price. Benefits must be highly consumer-oriented, such as faster cooking times, better cooking capabilities, or easy to use cleaning and safety features. Quick time to market is absolutely crucial.
Induction heating rice cooker system diagram
Induction rice cooker solutions from Infineon
Choosing Infineon allows you to differentiate from the competition and design precisely to consumer needs. In our broad portfolio of reliable, high-quality products, find IGBTs dedicated to the induction heating rice cooker, as well as all auxiliary products required to drive and control switches. Because we engineer our IGBTs, drivers and controllers to work together seamlessly, designs with Infineon components exemplify higher performance and better overall system efficiency. Explore our portfolio and find solutions that will take your induction rice cooker applications to the next level.
XC878 with vector computer, XE164 real time signal controller with MAC unit. Power board 23V–56V, 7.5A. 15W PMSM motor and plug-in 24V power supply. Using Infineon 6ED003L06 gate driver, BSC 196N10 MOSFETs, CoolSET™ ICE 3B0565 power supply and TLE 4264 LDO. Software package including source code. Sensorless FOC of PMSM with XE164. Sensorless FOC of PMSM with XC878.
Evaluation kit for the transmitter TDK 5101 and receiver TDA 5211/ TDA 5221 for 315MHz and output power of 5dBm. Evaluation kit for the receiver TDA 5221 and transmitter TDK 5101/TDK 5101F/TDK 5111 for 315MHz.
Evaluation kit for the transmitter TDK 5111 and receiver TDA 5221 for 315MHz and output power of 10dBm. Evaluation kit for the receiver TDA 5221 and transmitter TDK 5101/TDK 5101F/TDK 5111 for 315MHz.
This application board enables you to test the performance of the TLE7368 power supply for tri core microprocessor. The device consists of a step down pre regulator and three linear post regulators and two trackers providing various output voltages.
This application board enables you to test the performance of the TLF50201/211EL step down converter. It is equipped with a TLF50211EL for 5.0V output voltage. The board shows a possible space efficient layout for the core; see also TLF50211COREBOARD.
This application board enables you to test the performance of the TLF50281EL step down converter. It is equipped with a TLF50281EL for 5.0V output voltages. The board shows a possible space efficient layout.