Bandpass filter providing wide gain control range

What is claimed is: 1. A switched N-path bandpass filter, comprising: a bandpass filter including a first switched capacitor that filters an input signal, the bandpass filter generating an output signal based on the filtered input signal; and a gain control unit receiving the input signal and performing gain control and pre-distortion, the gain control unit performing the gain control between a voltage of the input signal and a current of the output signal of the bandpass filter, the pre-distortion being performed on the input signal in accordance with a transfer characteristic of the bandpass filter. 2. The switched N-path bandpass filter of claim 1 , wherein the transfer characteristic comprises at least one of a flatness factor of the bandpass filter and a Q factor of the bandpass filter. 3. The switched N-path bandpass filter of claim 1 , wherein the gain control unit comprises a predistorter performing the pre-distortion by compensating for a decrease in a quality factor according to the gain control of the gain control unit. 4. The switched N-path bandpass filter of claim 3 , wherein the gain control unit further comprises: a main transconductance circuit (Gm), an input terminal of the main Gm being coupled to a first terminal of the first switching capacitor; and a feedforward negative Gm, an input terminal of the feedforward negative Gm being coupled to the first terminal of the first switching capacitor, and wherein a first output of the main Gm is connected to a first output of the feedforward negative Gm, a second output of the main Gm is connected to a second output of the feedforward negative Gm, and the feedforward negative Gm performs the gain control by outputting a signal having a polarity reverse to a signal output by the main Gm. 5. The switched N-path bandpass filter of claim 1 , wherein the bandpass filter further includes a second switched capacitor and a third switched capacitor, the second and third switched capacitors filtering the input signal and extending a bandwidth of the signal filtered by the first switched capacitor. 6. The switched N-path bandpass filter of claim 4 , further comprising: a gyrator connecting the gain control unit, the second switched capacitor, and the third switched capacitor to each other, wherein a negative Gm improving a Q factor of the switched N-path bandpass filter is attached to the gyrator. 7. The switched N-path bandpass filter of claim 1 , further comprising: a common mode feedback circuit connected to two output terminals of the bandpass filter, the output signal being output by the two output terminals of the bandpass filter. 8. The switched N-path bandpass filter of claim 1 , further comprising: at least one negative feedback impedance element correcting the transfer characteristic of the bandpass filter, the at least one negative feedback impedance element being coupled between the first switching capacitor and two output terminals of the bandpass filter, the output signal being output by the two output terminals of the bandpass filter. 9. The switched N-path bandpass filter of claim 1 , wherein the gain control unit comprises: an inverter-based Gm converting the voltage of the input signal to the current of the output signal; a pre-distortion MOS array receiving the input signal and performing the gain control and the differential pre-distortion; and an output current driving MOS array receiving the input signal and driving a signal having a polarity reverse to that of the input signal.