Electronic circuit

The invention claimed is: 1. An electronic circuit comprising: a voltage control type switching device; an amplifying circuit that amplifies a gate control signal and generates a gate driving signal; a first gate resistor that has one end connected to a gate terminal of the voltage control type switching device; a second gate resistor that has one end connected to the gate terminal of the voltage control type switching device, and has a resistance value larger than that of the first gate resistor; and a switching circuit provided between the amplifying circuit and the first and second gate resistors and controlled by the gate control signal, wherein the switching circuit is arranged to switch the first gate resistor and the second gate resistor such that a gate voltage is applied for a predetermined time to the gate terminal of the voltage control type switching device via the first gate resistor and then the gate voltage is applied to the gate terminal via the second gate resistor when turning on the voltage control type switching device. 2. The electronic circuit according to claim 1 , wherein the switching circuit is arranged to turn the other end of the second gate resistor into a high-impedance state and ground the other end of the first gate resistor when turning off the voltage control type switching device. 3. The electronic circuit according to claim 1 , wherein the resistance value of the first gate resistor is not less than 1Ω and not more than 5Ω and the resistance value of the second gate resistor is not less than 1 kΩ. 4. The electronic circuit according to claim 1 , wherein on the assumption that the resistance value of the gate resistor is fixed at the resistance value of the first gate resistor, when T is an estimate value of the time from the start of flowing of a short-circuit current in the voltage control type switching device to breakage of the voltage control type switching device, the predetermined time is set to not less than 1/10 and not more than ⅕ of the estimate value T. 5. The electronic circuit according to claim 1 , further comprising: a current detection means that detects a gate current of the voltage control type switching device; and a gate terminal grounding means that grounds a gate terminal of the voltage control type switching device when the gate current detected by the current detection means becomes larger than a predetermined value. 6. The electronic circuit according to claim 5 , wherein the voltage control type switching device consists of one voltage control type switching element or a plurality of voltage control type switching elements connected in parallel. 7. The electronic circuit according to claim 1 , further comprising: a current detection means that detects a gate current of the voltage control type switching device; a current integrated value calculation means that calculates an integrated value of the gate current detected by the current detection means; and a warning signal output means that outputs a warning signal when a gate current integrated value calculated by the current integrated value calculation means exceeds a predetermined value. 8. The electronic circuit according to claim 7 , wherein the voltage control type switching device consists of one voltage control type switching element or a plurality of voltage control type switching elements connected in parallel. 9. The electronic circuit according to claim 1 , wherein the voltage control type switching device consists of one voltage control type switching element or a plurality of voltage control type switching elements connected in parallel. 10. The electronic circuit according to claim 9 , wherein the voltage control type switching elements are voltage control type switching elements chiefly made of SiC.