Ignition control device and ignition control method

The invention claimed is: 1. An ignition control device configured to, based on a pulse signal to be induced in an ignition coil in accordance with rotation of an internal combustion engine, cause a voltage to be supplied to an ignition plug included in the internal combustion engine, to be generated in the ignition coil, the ignition control device comprising: a switching element configured to energize the ignition coil; a biasing unit configured to bias control terminals of the switching element so that the switching element is turned on when the pulse signal is induced; a state detecting unit configured to detect a biased state of the switching element; and a control unit configured to set a timing for controlling de-energization of the ignition coil in response to a result of detection performed by the state detecting unit, and to generate an ignition control signal for controlling the switching element to be turned off in accordance with the timing, wherein the biasing unit includes a resistor element connected between a base and a collector of a transistor included in the switching element, the state detecting unit includes a dummy transistor configured to simulate a collector current of the transistor included in the switching element, and a base and an emitter of the dummy transistor are connected directly to the base and an emitter of the transistor included in the switching element, respectively. 2. The ignition control device according to claim 1 , wherein the state detecting unit is configured to detect the biased state of the switching element from a voltage between the base and the emitter of the transistor included in the switching element, or a direction of a current flowing through the ignition coil. 3. The ignition control device according to claim 1 , wherein the transistor included in the switching element comprises a multi-stage Darlington transistor. 4. The ignition control device according to claim 1 , wherein the pulse signal is a negative pulse to be induced in a primary winding of the ignition coil in accordance with the rotation of the internal combustion engine. 5. The ignition control device according to claim 1 , further comprising: a power generating unit configured to generate from the pulse signal to be induced in the ignition coil, a power supply voltage required for the ignition control device to operate; a first pulse signal generating unit configured to generate a first pulse from the pulse signal to be induced in the ignition coil; a second pulse signal generating unit configured to generate from a result of detection performed by the state detecting unit, a second pulse following the first pulse; and a driving unit configured to drive the switching unit based on the ignition control signal, wherein the control unit is configured to generate the ignition control signal in response to the first pulse and the second pulse. 6. An ignition control method for an ignition control device to, based on a pulse signal to be induced in an ignition coil in accordance with rotation of an internal combustion engine, cause a voltage to be supplied to an ignition plug included in the internal combustion engine, to be generated in the ignition coil, the ignition control method comprising: biasing, by a biasing unit of the ignition control device, control terminals of a switching element of the ignition control device configured to energize the ignition coil, so that the switching element is turned on when the pulse signal is induced; detecting, by a state detecting unit of the ignition control device, a biased state of the switching element; setting, by a control unit of the ignition control device, a timing for controlling de-energization of the ignition coil in response to a result of the detection; and generating, by the control unit of the ignition control device, an ignition control signal for controlling the switching element to be turned off in accordance with the timing, wherein the biasing unit includes a resistor element connected between a base and a collector of a transistor included in the switching element, the state detecting unit includes a dummy transistor configured to simulate a collector current of the transistor included in the switching element, and a base and an emitter of the dummy transistor are connected directly to the base and an emitter of the transistor included in the switching element, respectively.