Abstarct: One of the main applications of electrical energy is heat generation. Reasons of using electrical energy to produce heat are: easy access, cleanliness, safety and fast heat production for medical, domestic and industrial applications. One of the reasons that makes the use of electrical energy non-economical for heat production is low efficiency of such systems. The heat generated by the electromagnetic induction method in addition to the above benefits, is more efficient than other methods of heating by electricity. Thanks to developments of power electronic device and price reduction of such equipment, using induction heating in industry and utensils become more popular than ever and is expanding. In this thesis, an induction heating system designed and implemented using FPGA and its performance has been analyzed. In this thesis an infrared sensor is used to measure the temperature of the object and an algorithm to control the temperature is presented. In addition a modulator for switching of inverter in induction heating applications baxsed on FPGA has designed. To reduce the pressure of switching of inverter in high-frequency, in this thesis a zero voltage switching technique is used. The FPGA-baxsed modulator capable to adjust dead time and frequency required for soft switching induction heating applications. At the end the practical results of the implemented system has presented and compared with simulation results.