Compressor driving apparatus and refrigerator including the same

The invention claimed is: 1. A compressor driving apparatus comprising: a compressor including a cylinder that has a discharge end for discharging fluid in the cylinder, a piston disposed in the cylinder and configured to perform a linear motion in a direction toward the discharge end, and a motor configured to drive the piston; an inverter including a plurality of switches, the inverter being configured to convert direct current (DC) power into alternating current (AC) power and to output the converted AC power to the motor; an output current detector configured to detect an output current flowing through the motor; and an inverter controller configured to control the inverter based on the output current, wherein the inverter controller is configured to: control the inverter to fix an end of the piston at a first position spaced apart from the discharge end during a first period of a stroke of the piston, control the inverter to make a collision of the piston with the discharge end based on a change rate in an operation rate or a position error of the compressor being equal to or greater than a predetermined value, and control the inverter to fix the end of the piston at a second position spaced apart from the discharge end during a second period after the collision of the piston. 2. The compressor driving apparatus of claim 1 , wherein the inverter controller is further configured to, based on the change rate in the operation rate or the position error of the compressor being less than the predetermined value, fix the piston at the first position to define an end of the stroke. 3. The compressor driving apparatus of claim 1 , wherein the inverter controller is further configured to: calculate a reference position of the piston based on the output current, calculate a push amount of the piston when the change rate in the operation rate of the compressor is equal to or greater than the predetermined value, the push amount of the piston representing a displacement of the piston pushed by the fluid based on the stroke of the piston, calculate a current position of the piston based on the push amount of the piston, and output a switching control signal based on the current position and the reference position of the piston. 4. The compressor driving apparatus of claim 3 , wherein the inverter controller comprises: a reference position calculator for calculating the reference position of the piston based on the output current; a stroke calculator for calculating the stroke of the piston based on the output current; a push amount calculator for calculating the push amount of the piston based on the stroke of the piston; and a position calculator for calculating the current position of the piston based on the push amount when the change rate in the operation rate of the compressor is equal to or greater than the predetermined value. 5. The compressor driving apparatus of claim 1 , wherein the inverter controller is further configured to: calculate a reference position of the piston based on the output current, calculate a current position of the piston based on the stroke of the piston when the change rate in the operation rate of the compressor is less than the predetermined value, and output a switching control signal based on the current position and the reference position of the piston. 6. The compressor driving apparatus of claim 5 , wherein the inverter controller comprises: a reference position calculator for calculating the reference position of the piston based on the output current; a stroke calculator for calculating the stroke of the piston based on the output current; and a position calculator for calculating the current position of the piston based on the stroke of the piston when the change rate in the operation rate of the compressor is less than the predetermined value. 7. A refrigerator comprising the compressor driving apparatus according to claim 1 . 8. A compressor driving apparatus comprising: a compressor including a cylinder that has a discharge end for discharging fluid in the cylinder, a piston disposed in the cylinder and configured to perform a linear motion in a direction toward the discharge end, and a motor configured to drive the piston; an inverter including a plurality of switches, the inverter being configured to convert direct current (DC) power into alternating current (AC) power and to output the converted AC power to the motor; an output current detector configured to detect an output current flowing through the motor; and an inverter controller configured to control the inverter based on the output current, wherein the inverter controller is configured to: calculate a reference position of the piston based on the output current, calculate a push amount of the piston based on a change rate in an operation rate of the compressor being equal to or greater than a predetermined value, the push amount of the piston representing a displacement of the piston pushed by the fluid based on a stroke of the piston, calculate a current position of the piston based on the push amount of the piston, and output a switching control signal based on the current position and the reference position of the piston. 9. The compressor driving apparatus of claim 8 , wherein the inverter controller is configured to: calculate the current position of the piston based on the stroke of the piston based on the change rate being less than the predetermined value. 10. The compressor driving apparatus of claim 9 , wherein the inverter controller comprises: a reference position calculator for calculating the reference position of the piston based on the output current; a stroke calculator for calculating the stroke of the piston based on the output current; and a position calculator for calculating the current position of the piston based on the stroke of the piston when the change rate is less than the predetermined value. 11. The compressor driving apparatus of claim 8 , wherein the inverter controller comprises: a reference position calculator for calculating the reference position of the piston based on the output current; a stroke calculator for calculating the stroke of the piston based on the output current; a push amount calculator for calculating the push amount of the piston based on the stroke of the piston; and a position calculator for calculating the current position of the piston based on the push amount when the change rate is equal to or greater than the predetermined value. 12. The compressor driving apparatus of claim 8 , wherein the inverter controller is further configured to: control the inverter to fix an end of the piston at a first position spaced apart from the discharge end during a first period of the stroke of the piston, control the inverter to make a collision of the piston with the discharge end based on the change rate in the operation rate or a position error of the compressor being equal to or greater than the predetermined value, and control the inverter to fix the end of the piston at a second position spaced apart from the discharge end during a second period of the stroke of the piston after the collision of the piston. 13. A refrigerator comprising the compressor driving apparatus according to claim 8 .