Ignition controlling device of gas appliance

What is claimed is: 1. An ignition controlling device of a gas appliance, wherein the gas appliance includes an ignition electrode, a burner and a gas valve; the ignition electrode is beside the burner; the gas valve is disposed on a gas pipe connected to the burner; the gas valve controls a gas flow of the gas in the gas pipe; the ignition controlling device comprising: a high-voltage provider including an oscillation circuit and a high-voltage circuit, wherein the oscillation circuit includes a step-up transformer; the step-up transformer has a secondary side, and the secondary side is electrically connected to the high-voltage circuit; the high-voltage circuit has an output terminal, wherein the output terminal is electrically connected to the ignition electrode to provide high-voltage pulses to the ignition electrode; a controller electrically connected to the oscillation circuit for controlling the step-up transformer to provide the high-voltage circuit with an AC voltage via the secondary side and the high-voltage circuit to provide the high-voltage pulses; a flame sensing circuit electrically connected to the output terminal of the high-voltage provider to detect a flame around the ignition electrode and the burner; a voltage sensing circuit electrically connected to the controller and the secondary side of the step-up transformer, wherein the voltage sensing circuit outputs a voltage signal to the controller and the controller controls the gas valve to supply the gas to the burner after detecting the AC voltage from the secondary side of the step-up transformer; the controller outputs a start signal to the oscillation circuit to control the high-voltage circuit to generate the high-voltage pulse; when the controller does not receive the voltage signal after outputting the start signal for a predetermined time period, the controller stops the gas valve for supplying the gas; wherein after a flame is detected by the flame sensing circuit, the controller controls the high-voltage provider to stop the high-voltage pulses. 2. The ignition controlling device of claim 1 , wherein the high-voltage provider has a discharge transformer, and the discharge transformer has a secondary side; the secondary side of the discharge transformer is the output terminal of the high-voltage provider; and the secondary side of the discharge transformer is electrically connected to the ignition electrode and the flame sensing circuit respectively. 3. The ignition controlling device of claim 2 , wherein the high-voltage provider has a starter; the secondary side of the discharge transformer has opposite ends electrically connected to the ignition electrode and a first end of the starter; a second end of the starter is electrically connected to a ground line of the ignition controlling device; the starter is conducted while the discharge transformer provides the high-voltage pulses via the secondary side. 4. The ignition controlling device of claim 3 , wherein the starter has a DIAC. 5. The ignition controlling device of claim 3 , wherein the flame sensing circuit has a capacitor; when the flame of the burner touches the ignition electrode, a flame signal generated by the flame to charge the capacitor; and when a voltage of the capacitor reaches a predetermined voltage, the controller controls the high-voltage provider to stop the high-voltage pulses. 6. The ignition controlling device of claim 5 , wherein the flame sensing circuit further includes a buffer circuit; the buffer circuit includes an operational amplifier; the buffer circuit and the controller are electrically connected with the operational amplifier. 7. The ignition controlling device of claim 3 , wherein the controller includes a microprocessor.