Image sensors, image acquisition devices and electronic devices utilizing overlapping shutter operations

What is claimed is: 1. An image sensor comprising: a pixel array including a plurality of unit pixels that are arranged in a matrix form that includes a plurality of rows and a plurality of columns, respective ones of the unit pixels configured to convert an incident light to an electric signal and configured to store the electric signal; and a row driver configured to sequentially scan the plurality of rows and configured to sequentially perform an electronic shutter operation and a read-out operation, the electronic shutter operation to reset the stored electric signal in each unit pixel and the read-out operation to read-out the stored electric signal in each unit pixel, wherein the electronic shutter operation includes a preliminary shutter operation and a main shutter operation which are sequentially performed on one row, and wherein the row driver is configured to overlap the main shutter operation on a first row of the plurality of rows and the preliminary shutter operation on a second row, different from the first row, of the plurality of rows, wherein the plurality of unit pixels comprises first unit pixels and second unit pixels which are alternatively arranged in a column direction, and wherein one of the first unit pixels and one of the second unit pixels commonly further comprise: a reset transistor coupled between a power supply voltage and a floating diffusion node; a sensing transistor coupled to the power supply voltage, the sensing transistor having a gate coupled to the floating diffusion node; and a selection transistor coupled to the sensing transistor and a corresponding column line. 2. The image sensor of claim 1 , wherein a unit time required for scanning the one row corresponds to 1 horizontal scanning (1H) time, and wherein the preliminary shutter operation on the one row is performed within a first 1 H time, and the main shutter operation on the one row is performed within a second 1H time after the first 1H time. 3. The image sensor of claim 2 , wherein respective ones of the first unit pixels comprise: a first photo detector configured to convert the incident light to the electric signal, the first photo detector having a first terminal coupled to a ground voltage; and a first transfer transistor coupled to a second terminal of the first photo detector and the floating diffusion node, wherein respective ones of the second unit pixels comprise: a second photo detector configured to convert the incident light to the electric signal, the second photo detector having a first terminal coupled to the ground voltage; and a second transfer transistor coupled to a second terminal of the second photo detector and the floating diffusion node. 4. The image sensor of claim 3 , wherein the row driver is configured to: apply a reset control signal to agate of the reset transistor; apply a selection control signal to a gate of the selection transistor; and apply a first transfer control signal to a gate of the first transfer transistor and apply a second transfer control signal to a gate of the second transfer transistors respectively. 5. The image sensor of claim 4 , wherein the row driver is configured to: perform the preliminary shutter operation by applying the first transfer control signal to the first transfer transistor as a preliminary shutter pulse, the first transfer control signal being activated within a preliminary shutter interval; perform the main shutter operation by applying the first transfer control signal to the first transfer transistor as a main shutter pulse, the first transfer control signal being activated within a main shutter interval; and perform the read-out operation by applying the first transfer control signal to the first transfer transistor as a read-out pulse, the first transfer control signal being activated within a read-out interval. 6. The image sensor of claim 5 , wherein the row driver is configured to activate the selection control signal during the read-out interval. 7. The image sensor of claim 5 , wherein the second 1H time is one 1H time interval behind from the first 1H time, wherein the row driver is configured to synchronize the main shutter operation on the first row and the preliminary shutter operation on the second row based on an address signal, and wherein the first row and the second row have a difference by two rows in the column direction. 8. The image sensor of claim 5 , wherein the second 1H time is consecutive to the first 1H time, wherein the row driver is configured to deactivate the reset control signal commonly shared by the respective first unit pixels and the respective second unit pixels during an interval that the preliminary shutter pulse is applied and during an interval that the main shutter pulse is applied, respectively, wherein the row driver is configured to synchronize the main shutter operation on the first row and the preliminary shutter operation on the second row based on an address signal, and wherein the first row and the second row have a difference by one row in the column direction. 9. The image sensor of claim 1 , wherein the row driver is configured to perform the electronic shutter operation on the plurality of unit pixels on a row basis, and wherein the image sensor is a rolling-shutter image sensor. 10. The image sensor of claim 1 , wherein the preliminary shutter operation performed on the first unit pixels does not overlap the preliminary shutter operation performed on the second unit pixels. 11. An image acquisition device comprising: an image sensor having a pixel array; a receiving lens configured to focus incident light on the pixel array; and a control engine configured to control the image sensor, wherein the image sensor comprises: the pixel array including a plurality of unit pixels that are arranged in a matrix form that includes a plurality of rows and a plurality of columns respective ones of the unit pixels configured to convert the incident light to an electric signal and configured to store the electric signal; and a row driver configured to sequentially scan the plurality of rows and configured to sequentially perform an electronic shutter operation and a read-out operation, the electronic shutter operation to reset the stored electric signal in each unit pixel and the read-out operation to read-out the stored electric signal in each unit pixel, wherein the electronic shutter operation includes a preliminary shutter operation and a main shutter operation which are sequentially performed on one row, and wherein the row driver is configured to overlap the main shutter operation on a first row of the plurality of rows and the preliminary shutter operation on a second row, different from the first row, of the plurality of rows, wherein the plurality of unit pixels comprises first unit pixels and second unit pixels which are alternatively arranged in a column direction, and wherein one of the first unit pixels and one of the second unit pixels commonly further comprise: a reset transistor coupled between a power supply voltage and a floating diffusion node; a sensing transistor coupled to the power supply voltage, the sensing transistor having a gate coupled to the floating diffusion node; and a selection transistor coupled to the sensing transistor and a corresponding column line. 12. The image acquisition device of claim 11 , wherein a unit time required for scanning the one row corresponds to 1 horizontal scanning (1H) time, the preliminary shutter operation on the one row is performed within a first 1H time, and the main shutter operation on the one row is performed within a second 1H time after the fir