Combined PDM with Frequency-Temperature Profile Adaptation Control for Induction Metal Hardening

During metal hardening applications, the load parameter variation is inherently encountered. At temperature close to hardening, these parameters specifically the magnetic permeability and electrical resistivity vary. Therefore, a suitable control method is often required to allow the induction heating system operating under optimum conditions. This paper proposes on new approach dealing with the issue of implementing a frequency adaptation control without using the conventional phase-locked loop (PLL). This technique seems to outweigh the PLL in many respects particularly in induction metal hardening. This approach takes into account the equivalent electrical quantities with respect to the temperature of the workpiece during the treatment process. This strategy is combined with pulse density modulation (PDM) to conduct power control improvement which account for material resistivity increase. Applied to a full bridge series resonant inverter, the proposed method of frequency tracking is assessed through power evaluation through simulation and experimental tests during the operating frequency range of hardening process. The simulation model is performed using Matlab/Simulink. The obtained results show better performances with efficiency higher than 90%. The algorithm is implemented using an experimental setup for evaluation.

[1]  Bilel Meziane,et al.  Comprehensive Power Control Performance Investigations of Resonant Inverter for Induction Metal Surface Hardening , 2016, IEEE Transactions on Industrial Electronics.

[2]  Enrique Maset,et al.  Improving the Efficiency of IGBT Series-Resonant Inverters Using Pulse Density Modulation , 2011, IEEE Transactions on Industrial Electronics.

[3]  Nam-Ju Park,et al.  A Power-Control Scheme With Constant Switching Frequency in Class-D Inverter for Induction-Heating Jar Application , 2007, IEEE Transactions on Industrial Electronics.

[4]  M. M. Eissa,et al.  Experimental investigation of full bridge series resonant inverters for induction-heating cooking appliances , 2009, 2009 4th IEEE Conference on Industrial Electronics and Applications.

[5]  Franco Bonollo,et al.  Induction heat treatment of a ISO C45 steel bar: Experimental and numerical analysis , 2006 .

[6]  Hirofumi Akagi,et al.  Pulse-density-modulated power control of a 4 kW, 450 kHz voltage-source inverter for induction melting applications , 1996 .

[7]  N. S. Bayindir,et al.  DSP-based PLL-controlled 50-100 kHz 20 kW high-frequency induction heating system for surface hardening and welding applications , 2003 .

[8]  Mainak Sengupta,et al.  Application of FPGA based PLL in a CSI fed induction heating prototype , 2014, 2014 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES).

[9]  H. I. Sewell,et al.  Dynamic load impedance matching for induction heater systems , 2003 .