Patent ID: 9647550
Date: 2017-05-09
CPC Classifications: A61B,H02M

Claim:
1. A negative voltage signal generation circuit, comprising: a negative voltage signal output terminal; a first ground terminal; a control signal generation unit, for generating a first control signal and a second control signal; a first thin film transistor (TFT) switch comprising a first gate electrode, a first source electrode and a first drain electrode, wherein the first TFT switch connects to the first ground terminal and the control signal generation unit, and the first TFT switch turns on/off a first current channel between the first source electrode and the first drain electrode according to on/off statuses of the first control signal; a second TFT switch comprising a second gate electrode, a second source electrode and a second drain electrode, wherein the second TFT switch connects to the first TFT switch, the control signal generation unit and the negative voltage signal output terminal, and the second TFT switch turns on/off a second current channel between the second source electrode and the second drain electrode according to on/off statuses of the second control signal; and a first capacitor comprising a first pole plate and a second pole plate, wherein the first pole plate connects to a first connection wire between the first TFT switch and the second TFT switch, and the second pole plate is connected to the control signal generation unit; wherein the second current channel is turned off when the first current channel is turned on, and the second current channel is turned on when the first current channel is turned off; wherein the first gate electrode is connected to the control signal generation unit for receiving the first control signal, either the first source electrode or the first drain electrode is connected to the first ground terminal, and either the first source electrode or the first drain electrode is connected to the second TFT switch; wherein the second gate electrode is connected to the control signal generation unit for receiving the second control signal, either the second source electrode or the second drain electrode is connected to the first TFT switch, and either the second source electrode or the second drain electrode is connected to the negative voltage signal output terminal; wherein the first pole plate electrically connects to the first ground terminal when the first current channel is turned on; wherein the second pole plate is charged by electrical charges which correspond to the first control signal issued from the control signal generation unit when the first current channel is turned on; wherein a voltage level corresponding to the second pole plate is changed to zero when the first current channel is turned off; wherein a voltage level corresponding to the first pole plate is changed to a negative voltage level for generating a negative voltage signal when the first current channel is turned off; wherein the second TFT switch outputs the negative voltage signal when the first current channel is turned off; the negative voltage signal generation circuit further comprising: a regulation resistor comprising a first terminal and a second terminal wherein the first terminal connects to the second TFT switch, the second terminal connects to the negative voltage signal output terminal, and the regulation resistor regulates a current magnitude of the negative voltage signal; the control signal generation unit comprising a control signal generator and a phase inverter; wherein the control signal generator connects to the first gate electrode, the second pole plate and an inversion input terminal of the phase inverter respectively, and an inversion output terminal of the phase inverter connects to the second gate electrode; either wherein the second control signal is formed by inverting the first control signal so that the control signal generator forms the first control signal for outputting the first control signal to allow the phase inverter to invert the first control signal for forming the second control signal or wherein the first control signal is formed by inverting the second control signal so that the control signal generator forms the second control signal for outputting the second control signal to allow the phase inverter to invert the second control signal for forming the first control signal; and the control signal generation unit further comprising a duty ration controller for controlling a duty ratio of the first control signal and/or the second control signal in order to control a turn-on duration time of the second current channel.