Image sensor, image sensing method, and image photographing apparatus including image sensor

What is claimed is: 1. An image sensor initially operating in a base mode according to a first sampling frequency and a first pixel exposure time, the image sensor comprising: a light condition detector that extracts illuminance information from a pixel signal received from pixels in a pixel array, and generates a low-illuminance information signal upon detecting that a value of the illuminance information is within a first range; a sampling controller that changes the first sampling frequency to a second sampling frequency for varying a maximum range of a pixel exposure time in response to the low-illuminance information signal; and an exposure time controller that changes the first pixel exposure time to a second pixel exposure time based on the maximum range of the pixel exposure time in response to the low-illuminance information signal. 2. The image sensor of claim 1 , wherein: after generating the low-illuminance information signal, the light condition detector generates a high-illuminance information signal upon detecting that the value of the illuminance information is within a second range different from the first range, the sampling controller changes the second sampling frequency to the first sampling frequency in response to the high-illuminance information signal, and the exposure time controller changes the second exposure time to the first pixel exposure time in response to the high-illuminance information signal. 3. The image sensor of claim 1 , wherein the image sensor further comprises a shutter that operates using a rolling shutter method in response to a control signal provided by the exposure time controller during a reset operation applied to the pixels. 4. The image sensor of claim 1 , wherein the image sensor further comprises a sampling circuit that samples the pixel signal in response to a control signal generated by the sampling controller in response to at least one of the first sampling frequency and the second sampling frequency. 5. The image sensor of claim 1 , wherein the first sampling frequency is defined as a first frames per second (FPS) rate, and the second sampling frequency is defined as a second FPS rate. 6. The image sensor of claim 1 , wherein the image sensor further comprises a shutter that resets the pixels in response to at least one of the first pixel exposure time and the second pixel exposure time. 7. The image sensor of claim 6 , wherein the exposure time controller controls the shutter such that the shutter adjusts a reset timing in response to the change from the first pixel exposure time to the second pixel exposure time. 8. The image sensor of claim 1 , wherein the second pixel exposure time is longer than the first pixel exposure time. 9. The image sensor of claim 1 , wherein: the image sensor further comprises a register, data defining the first sampling frequency and the second sampling frequency is stored in the register as first data, and data defining the first pixel exposure time and the second pixel exposure time is stored as second data in the register. 10. The image sensor of claim 9 , wherein the sampling controller references the first data stored in the register when changing the first sampling frequency to the second sampling frequency and the first and second data are stored in the register before the sampling controller changes the first sampling frequency to the second sampling frequency. 11. An image photographing apparatus comprising: a lens that receives light incident to an object; an image sensor that senses image information from the incident light communicated via the lens; a processor that controls the image sensor and performs signal-processing on the image information communicated via the image sensor, wherein: the image sensor initially operates in a base mode according to a first sampling frequency and a first pixel exposure time, and the image sensor comprises: a light condition detector that extracts illuminance information from a pixel signal received from pixels in a pixel array, and generates a low-illuminance information signal upon detecting that a value of the illuminance information is within a first range; a sampling controller that changes the first sampling frequency to a second sampling frequency for varying a maximum range of a pixel exposure time in response to the low-illuminance information signal; and an exposure time controller that changes the first pixel exposure time to a second pixel exposure time based on the maximum range of the pixel exposure time in response to the low-illuminance information signal. 12. The image photographing apparatus of claim 11 , wherein: after generating the low-illuminance information signal, the light condition detector generates a high-illuminance information signal upon detecting that the value of the illuminance information is within a second range different from the first range, the sampling controller changes the second sampling frequency to the first sampling frequency in response to the high-illuminance information signal, and the exposure time controller changes the second exposure time to the first pixel exposure time in response to the high-illuminance information signal. 13. The image photographing apparatus of claim 11 , wherein the image sensor further comprises a shutter that operates using a rolling shutter method in response to a control signal provided by the exposure time controller during a reset operation applied to the pixels. 14. The image photographing apparatus of claim 11 , wherein the image sensor further comprises a sampling circuit that samples the pixel signal in response to a control signal generated by the sampling controller in response to at least one of the first sampling frequency and the second sampling frequency. 15. The image photographing apparatus of claim 14 , wherein the first sampling frequency is defined as a first frames per second (FPS) rate and the second rate sampling frequency is defined as a second FPS rate different from the first FPS rate. 16. A method of operating an image sensor, the method comprising: determining whether the image sensor is operating in low-illuminance conditions, and upon determining that the image sensor is operating in low-illuminance conditions, defining: (1) a first sampling frequency, as a first frames per second (FPS) rate, for varying a maximum range of a pixel exposure time and (2) a first pixel exposure time for the image sensor, else upon determining that the image sensor is not operating in low-illuminance conditions, defining a second sampling frequency as a second FPS rate different from the first FPS rate and a second pixel exposure time different from the first pixel exposure time for the image sensor. 17. The method of claim 16 , wherein the determining of whether the image sensor is operating in low-illuminance conditions comprises calculating a histogram for a pixel signal received by the image sensor. 18. The method of claim 16 , further comprising determining whether or not the first FPS rate and the first pixel exposure time are appropriate for the low-illuminance conditions, and upon determining that at least one of the first FPS rate and the first pixel exposure time is not appropriate for the low-illuminance conditions, updating the at least one of the first FPS rate and the first pixel exposure time. 19. The method of claim 16 , wherein a light condition detector extracts illuminance information from a pixel signal received from pixels of a pixel array, and generates a low-illuminance info