Control unit of induction heating unit, induction heating system, and method of controlling induction heating unit

What is claimed is: 1. A control unit of an induction heating unit, in which the control unit controls an AC power output to a heating coil of a transverse type induction heating unit allowing an alternating magnetic field to intersect a sheet surface of a conductive sheet which is being conveyed to inductively heat the conductive sheet, the control unit comprising: a magnetic energy recovery switch which outputs the AC power to the heating coil; a frequency setting unit which sets an output frequency from a plurality of output frequencies in response to at least one of a relative permeability, a resistivity, and a sheet thickness of the conductive sheet; and a gate control unit which controls a switching operation of the magnetic energy recovery switch on the basis of the output frequency from the plurality of output frequencies which is set by the frequency setting unit. 2. The control unit of the induction heating unit according to claim 1 , wherein the frequency setting unit acquires an attribute information which specifies the relative permeability, the resistivity, and the sheet thickness of the conductive sheet, and selects a frequency corresponding to the acquired attribute information as the output frequency with reference to a table in which the relative permeability, the resistivity, and the sheet thickness of the conductive sheet, and the frequency are correlated with each other and are registered in advance. 3. The control unit of the induction heating unit according to claim 2 , further comprising: an output current setting unit which sets an output current value in response to at least one of the relative permeability, the resistivity, and the sheet thickness of the conductive sheet; a current measuring unit which measures an alternating current which flows through the induction heating unit; and a power supply unit which supplies a DC power to the magnetic energy recovery switch and adjusts an alternating current which is measured by the current measuring unit to the output current value which is set by the output current setting unit, wherein the magnetic energy recovery switch is supplied with the DC power by the power supply unit and outputs the AC power to the heating coil. 4. The control unit of the induction heating unit according to claim 3 , wherein the output current setting unit acquires an attribute information which specifies the relative permeability, the resistivity, and the sheet thickness of the conductive sheet, and selects a current value corresponding to the acquired attribute information as the output current value with reference to a table in which the relative permeability, the resistivity, and the sheet thickness of the conductive sheet, and the current value are correlated with each other and are registered in advance. 5. The control unit of the induction heating unit according to claim 2 , further comprising: an output transformer which is disposed between the magnetic energy recovery switch and the induction heating unit, lowers an AC voltage which is output from the magnetic energy recovery switch, and outputs the lowered AC voltage to the heating coil. 6. The control unit of the induction heating unit according to claim 2 , wherein the magnetic energy recovery switch includes, first and second AC terminals which are connected to one end and an other end of the heating coil, respectively, first and second DC terminals which are connected to an output terminal of a power supply unit, a first reverse conductivity type semiconductor switch which is connected between the first AC terminal and the first DC terminal, a second reverse conductivity type semiconductor switch which is connected between the first AC terminal and the second DC terminal, a third reverse conductivity type semiconductor switch which is connected between the second AC terminal and the second DC terminal, a fourth reverse conductivity type semiconductor switch which is connected between the second AC terminal and the first DC terminal, and a capacitor which is connected between the first and second DC terminals; the first reverse conductivity type semiconductor switch and the fourth reverse conductivity type semiconductor switch are connected in series in such a manner that conduction directions at the time of a switch-off become opposite to each other; the second reverse conductivity type semiconductor switch and the third reverse conductivity type semiconductor switch are connected in series in such a manner that conduction directions at the time of the switch-off become opposite to each other; the first reverse conductivity type semiconductor switch and the third reverse conductivity type semiconductor switch have the same conduction direction at the time of the switch-off as each other; the second reverse conductivity type semiconductor switch and the fourth reverse conductivity type semiconductor switch have the same conduction direction at the time of the switch-off as each other; and the gate control unit controls a switching operation time of the first and third reverse conductivity type semiconductor switches and a switching operation time of the second and fourth reverse conductivity type semiconductor switches on the basis of the output frequency which is set by the frequency setting unit. 7. The control unit of the induction heating unit according to claim 1 , further comprising: an output current setting unit which sets an output current value in response to at least one of the relative permeability, the resistivity, and the sheet thickness of the conductive sheet; a current measuring unit which measures an alternating current which flows through the induction heating unit; and a power supply unit which supplies a DC power to the magnetic energy recovery switch and adjusts an alternating current which is measured by the current measuring unit to the output current value which is set by the output current setting unit, wherein the magnetic energy recovery switch is supplied with the DC power by the power supply unit and outputs the AC power to the heating coil. 8. The control unit of the induction heating unit according to claim 7 , wherein the output current setting unit acquires an attribute information which specifies the relative permeability, the resistivity, and the sheet thickness of the conductive sheet, and selects a current value corresponding to the acquired attribute information as the output current value with reference to a table in which the relative permeability, the resistivity, and the sheet thickness of the conductive sheet, and the current value are correlated with each other and are registered in advance. 9. The control unit of the induction heating unit according to claim 1 , further comprising: an output transformer which is disposed between the magnetic energy recovery switch and the induction heating unit, lowers an AC voltage which is output from the magnetic energy recovery switch, and outputs the lowered AC voltage to the heating coil. 10. The control unit of the induction heating unit according to claim 1 , wherein the magnetic energy recovery switch includes, first and second AC terminals which are connected to one end and an other end of the heating coil, respectively, first and second DC terminals which are connected to an output terminal of a power supply unit, a first reverse conductivity type semiconductor switch which is connected between the first AC terminal and the first DC terminal, a second reverse conductivity type semiconductor switch which is connected between the first AC terminal and the second DC terminal, a third reverse conductivity type semiconductor switch which is connected between the second AC termi