Light-receiving device and lidar

What is claimed: 1 . An optical device, comprising: a light receiving element for detecting light reflected and transmitted from a subject; a voltage part for providing a first bias voltage or a second bias voltage to the light receiving element; and a controller for controlling the voltage part so that the second bias voltage provided from the voltage part is synchronized with a light output of a light emitting part to be provided to the light receiving element, wherein the controller inputs a seed signal to the light emitting part and the voltage part simultaneously, and wherein the voltage part outputs the second bias voltage based on a time when the seed signal is inputted. 2 . The optical device of claim 1 , wherein the second bias voltage comprises a voltage in which a sub bias voltage is added to the first bias voltage. 3 . The optical device of claim 2 , wherein the sub bias voltage is comprised in a range from −50V to +50V. 4 . The optical device of claim 2 , wherein the sub bias voltage comprises AC voltage or pulse-shaped voltage that changes to a time. 5 . The optical device of claim 4 , wherein a median value of the sub bias voltage is positioned between −50V to 100V. 6 . The optical device of claim 4 , wherein a shape of the sub bias voltage is changed to a linear shape or a stair shape. 7 . The optical device of claim 1 , wherein the light emitting part comprises at least one laser diode. 8 . The optical device of claim 1 , wherein the light receiving element comprises at least one avalanche photo diode. 9 . A Lidar module comprising: a light receiving element for detecting light reflected and transmitted from a subject; a first voltage part for providing a bias voltage to the light receiving element; a second voltage part for providing a sub bias voltage to the light receiving element; and a controller for controlling the second voltage part so that the sub bias voltage is synchronized with a light output of a light emitting part to be provided to the light receiving element, wherein the controller inputs a seed signal to the light emitting part and the voltage part simultaneously, and wherein the voltage part outputs the second bias voltage based on a time when the seed signal is inputted. 10 . The Lidar module of claim 9 , wherein the second bias voltage comprises a voltage in which a sub bias voltage is added to the first bias voltage. 11 . The Lidar module of claim 10 , wherein the sub bias voltage is comprised in a range from −50V to +50V. 12 . The Lidar module of claim 10 , wherein the sub bias voltage comprises AC voltage or pulse-shaped voltage that changes to a time. 13 . The Lidar module of claim 12 , wherein a median value of the sub bias voltage is positioned between −50V to 100V. 14 . The Lidar module of claim 12 , wherein a shape of the sub bias voltage is changed to a linear shape or a stair shape. 15 . The Lidar module of claim 9 , wherein the light emitting part comprises at least one laser diode. 16 . The Lidar module of claim 9 , wherein the light receiving element comprises at least one avalanche photo diode. 17 . A Lidar module comprising: a light receiving element for detecting light reflected and transmitted from a subject; a first voltage part for providing a bias voltage to the light receiving element; a second voltage part for providing a sub bias voltage to the light receiving element; and a monitoring photo diode(MPD) for detecting a light output outputted from a light emitting part and controlling the second voltage part so that the sub bias voltage is synchronized with the light output to be provided to the light receiving element, wherein the monitoring photo diode inputs a seed signal to the light emitting part and the voltage part simultaneously, and wherein the voltage part outputs the second bias voltage based on a time when the seed signal is inputted. 18 . The Lidar module of claim 17 , wherein the second bias voltage comprises a voltage in which a sub bias voltage is added to the first bias voltage. 19 . The Lidar module of claim 18 , wherein the sub bias voltage comprises AC voltage or pulse-shaped voltage that changes to a time. 20 . An optical device, comprising: a light receiving element for detecting light reflected and transmitted from a subject; a voltage part for providing a bias voltage to the light receiving element; and a controller for controlling the voltage part so that the bias voltage provided from the voltage part is synchronized with a light output of a light emitting part to be provided to the light receiving element.