Fingerprint detecting apparatus and driving method thereof

1 .- 19 . (canceled) 20 . A fingerprint detecting apparatus, comprising: a plurality of fingerprint sensor devices, wherein each of the plurality of fingerprint sensor devices comprises: a first conductive layer; a sensing electrode formed in the first conductive layer and configured to receive a response signal from a subject according to an application of a driving voltage; a shield layer formed under the first conductive layer, wherein the shield layer is connected to a ground potential; a second conductive layer formed under the shield layer; a third conductive layer formed under the second conductive layer; an amplifier configured to receive the response signal and generate an output signal by amplifying the received response signal according to a gain of the amplifier, wherein the amplifier receives the response signal and outputs the output signal from each fingerprint sensor device independently; and a gain controller formed under the shield layer and connected to an input and an output of the amplifier and configured to vary the gain of the amplifier, wherein the gain controller includes a plurality of sub-electrodes formed in the third conductive layer forming a plurality of feedback capacitances between the plurality of sub-electrodes and the second conductive layer, and wherein each of the plurality of sub-electrodes is selectively connected to the output of the amplifier to vary the gain of the amplifier. 21 . The fingerprint detecting apparatus of claim 20 , further comprising an external electrode configured to apply the driving voltage to the subject. 22 . The fingerprint detecting apparatus of claim 20 , wherein the first conductive layer comprises: a driving voltage applying electrode configured to apply the driving voltage to the subject, wherein the sensing electrode is spaced apart from the driving voltage applying electrode. 23 . The fingerprint detecting apparatus of claim 20 , further comprising a fourth conductive layer formed under the third conductive layer, wherein the fourth conductive layer is connected to the output of the amplifier and selectively connected to each of the plurality of sub-electrodes. 24 . The fingerprint detecting apparatus of claim 23 , further comprising a plurality of switches, wherein each of the plurality of switches is connected between each of the plurality of sub-electrodes and the fourth conductive layer, and wherein the plurality of switches are configured to selectively connect the plurality of sub-electrodes to the fourth conductive layer to vary the gain of the amplifier. 25 . The fingerprint detecting apparatus of claim 20 , wherein the third conductive layer includes a guard electrode formed between each of the plurality of sub-electrodes, spaced apart from each of the plurality of sub-electrodes, and connected to the ground potential. 26 . The fingerprint detecting apparatus of claim 20 , further comprising: a first switch configured to switch connection between the first conductive layer and the input of the amplifier; a second switch connected to the input of the amplifier and the output of the amplifier and configured to reset the gain controller; and a third switch connected to the output of the amplifier and configured to selectively output the output signal. 27 . The fingerprint detecting apparatus of claim 25 , wherein the first switch maintains an on-state while the driving voltage is applied to transmit the response signal to the input of the amplifier, wherein the second switch maintains an on-state before the driving voltage is applied and resets the gain controller, and wherein the third switch maintains an on-state after the driving voltage is applied, and outputs the output signal of the amplifier. 28 . The fingerprint detecting apparatus of claim 20 , wherein the third conductive layer is formed as part of a metal-insulator-metal (MIM) structure. 29 . The fingerprint detecting apparatus of claim 20 , wherein the first conductive layer includes a guard ring formed apart from the sensing electrode to surround the sensing electrode and connected to the ground potential. 30 . The fingerprint detecting apparatus of claim 20 , wherein the second conductive layer comprises: a feedback capacitance electrode forming a feedback capacitance with the third conductive layer; and a guard ring formed apart from the feedback capacitance electrode to surround the feedback capacitance electrode and connected to the ground potential. 31 . A method of driving a fingerprint detecting apparatus including a plurality of fingerprint sensor devices, each of the plurality of fingerprint sensor devices having a first conductive layer, a shield layer formed under the first conductive layer, a second conductive layer formed under the shield layer, and a third conductive layer formed under the second conductive layer, comprising: resetting a gain controller, wherein the gain controller is formed under the shield layer and connected to an input and an output of an amplifier and configured to vary a gain of the amplifier; connecting a sensing electrode to the input of the amplifier, wherein the sensing electrode is formed in the first conductive layer and configured to receive a response signal from a subject according to an application of a driving voltage, and wherein the input of the amplifier receives the response signal through the connection; determining, by the gain controller, the gain of the amplifier, wherein the gain controller includes a plurality of sub-electrodes formed in the third conductive layer forming a plurality of feedback capacitances between the plurality of sub-electrodes and the second conductive layer, and wherein the plurality of feedback capacitances are selectively connected to the output of the amplifier to vary the gain of the amplifier; generating an output signal of the amplifier by amplifying the received response signal according to the gain of the amplifier; and connecting the output of the amplifier to an external apparatus to output the output signal of the amplifier. 32 . The method of claim 31 , wherein the driving voltage is applied to the subject through an external electrode. 33 . The method of claim 31 , wherein the driving voltage is applied to the subject through a driving voltage applying electrode formed apart from the sensing electrode in the first conductive layer. 34 . The method of claim 31 , wherein the determining of the gain of the gain controller comprises selectively connecting the plurality of feedback capacitances to a fourth conductive layer, wherein the fourth conductive layer is formed under the third conductive layer and connected to the output of the amplifier. 35 . The method of claim 31 , wherein the resetting of the gain controller, the connecting of the sensing electrode to the input of the amplifier, and the connecting of the amplifier output to the external apparatus are performed exclusively from each other. 36 . The method of claim 31 , wherein the amplifier receives the response signal and outputs the output signal to the external apparatus from each fingerprint sensor device independently.