Oscillator circuit using comparator

The invention claimed is: 1. An oscillator circuit using a comparator having a differential unit and a gain unit, comprising: a charge-discharge control unit configured to connect to an output of the differential unit, the charge-discharge control unit being configured to control charge-discharge of Miller capacitance between the gate and the drain of a MOSFET serving as an amplifier of the gain unit and gate capacitance of the MOSFET; and an output control unit configured to control an output of the gain unit. 2. The oscillator circuit according to claim 1 , wherein the output of the differential unit is configured to be connected to the gate of the MOSFET, and the output control unit has a first transistor having a drain being configured to be connected to the output of the gain unit, a source being configured to be connected to a reference potential of the oscillator circuit, and a gate being configured to be connected to the output of the differential unit. 3. The oscillator circuit according to claim 2 , wherein the charge-discharge control unit includes: a logic circuit configured to receive a control signal to control the oscillator circuit; and an inverter configured to receive an output of the logic circuit, and wherein the output control unit further includes: a second transistor having a drain configured to be connected to the output of the gain unit, a source configured to be connected to the drain of the first transistor, and a gate configured to be connected to the output of the inverter; and a switch configured to be inserted between the output of the differential unit and the gate of the first transistor, and having a gate being configured to be connected to the output of the inverter. 4. The oscillator circuit according to claim 3 , wherein the output control unit further includes a third transistor having a drain configured to be connected to the gate of the first transistor, a source configured to be connected to the reference potential of the oscillator circuit, and a gate configured to be connected to the output of the logic circuit. 5. The oscillator circuit according to claim 3 , wherein the charge-discharge control unit further includes a fourth transistor having a drain configured to be connected to the gate of the MOSFET, a source configured to be connected to the reference potential of the oscillator circuit, and a gate configured to be connected to the output of the logic circuit. 6. The oscillator circuit according to claim 1 , wherein the charge-discharge control unit includes a first inverter configured to receive a control signal to control the oscillator circuit, and wherein the output control unit includes: a logic circuit configured to receive the output of the first inverter and the output of the gain unit; and a first transistor having a drain configured to be connected to the output of the gain unit, a source configured to be connected to a reference potential of the oscillator circuit, and a gate configured to be connected to the output of the logic circuit. 7. The oscillator circuit according to claim 6 , wherein the logic circuit includes: a second inverter configured to receive the output of the gain unit; a negative AND circuit configured to receive the output of the second inverter and the output of the first inverter; and a third inverter configured to receive the output of the negative AND circuit, and wherein the output of the third inverter is the output of the logic circuit. 8. The oscillator circuit according to claim 7 , wherein the second inverter has a logical threshold voltage that is higher than a logical threshold voltage of the first inverter. 9. The oscillator circuit according to claim 6 , wherein the charge-discharge control unit further includes a second transistor having a drain configured to be connected to the gate of the MOSFET, a source configured to be connected to the reference potential of the oscillator circuit, and a gate configured to be connected to the output of a negative OR circuit, the negative OR circuit being configured to receive the output of the first inverter and the output of the differential unit. 10. The oscillator circuit according to claim 3 , wherein the control signal is a signal generated based on the output of the gain unit or a signal externally input to the oscillator circuit, and wherein the control signal is input to one of the inputs of the differential unit. 11. The oscillator circuit according to claim 6 , wherein the control signal is a signal generated based on the output of the gain unit or a signal externally input to the oscillator circuit, and wherein the control signal is input to one of the inputs of the differential unit.