Hydraulic system having energy recovery

What is claimed is: 1. A hydraulic system, comprising: a pump configured to pressurize fluid; a motor driven by a flow of pressurized fluid from the pump; an accumulator configured to receive fluid discharged from the motor and to discharge fluid to the motor; a first valve disposed between the accumulator and the motor, the first valve movable between a first position and a second position in response to a pressure difference between a first conduit and a second conduit fluidly coupled to the motor, the first valve movable to the first position when the first conduit has a higher pressure compared to the second conduit to connect said first conduit to the accumulator and disconnect the second conduit from the accumulator, the first valve movable to the second position when the second conduit has a higher pressure compared to the first conduit to connect said second conduit to the accumulator and disconnect the first conduit from the accumulator; a second valve disposed between the accumulator and the first valve, the second valve selectively movable to permit fluid discharged from the motor in deceleration to enter the accumulator; a third valve disposed between the accumulator and the first valve, the third valve selectively movable to permit fluid discharged from the accumulator to enter the motor to assist acceleration of the motor; and a controller configured to receive input regarding a current work cycle of a work tool, wherein the work tool is movable through segments of said work cycle by driven movement of the motor; make a determination based on the input that the current work cycle is associated with one of a plurality of modes of operation; and cause the accumulator to receive fluid and discharge fluid during different segments of the work cycle based on the determination. 2. The hydraulic system of claim 1 , further comprising a common passage fluidly connected between the first valve, the second valve, and the third valve. 3. The hydraulic system of claim 1 , wherein the set of modes of operation includes at least one of a truck loading operation, a trenching operation, a craning operation, a material handling operation, and a peak shaving operation. 4. The hydraulic system of claim 3 , wherein the input includes at least one of work tool speed, a work tool load, a work tool position, a series of work tool movements, and an operation manipulation of an input device. 5. The hydraulic system of claim 1 , further comprising the controller configured to implement a plurality of modes of operation, wherein each of the plurality of modes of operation includes a different combination of motor deceleration and motor acceleration segments during which the accumulator receives and discharges fluid, respectively. 6. The hydraulic system of claim 5 , wherein the number of segments during which the controller causes the accumulator to receive fluid is greater than the number of segments during which the controller causes the accumulator to discharge fluid. 7. The hydraulic system of claim 5 , wherein the number of segments during which the controller causes the accumulator to receive fluid is equal to the number of segments during which the controller causes the accumulator to discharge fluid. 8. The hydraulic system of claim 5 , wherein the number of segments during which the controller causes the accumulator to discharge fluid is always less than or equal to the number of segments during which the controller causes the accumulator to receive fluid. 9. The hydraulic system of claim 5 , further including an input device configured to generate a signal indicative of initiation of a segment of the plurality of segments, wherein the controller is configured to selectively cause the at least one accumulator to receive or discharge fluid based on the signal. 10. The hydraulic system of claim 9 , wherein the at least one input device is one of a tool control device, a speed sensor, a pressure sensor, and a position sensor. 11. A hydraulic system, comprising: a pump configured to pressurize fluid; a motor driven by a flow of pressurized fluid from the pump; an accumulator configured to receive fluid discharged from the motor and to discharge fluid to the motor; a first valve disposed between the accumulator and the motor, the first valve movable between a first position and a second position in response to a pressure difference between a first conduit and a second conduit fluidly coupled to the motor, the first valve movable to the first position when the first conduit has a higher pressure compared to the second conduit to connect said first conduit to the accumulator and disconnect the second conduit from the accumulator, the first valve movable to the second position when the second conduit has a higher pressure compared to the first conduit to connect said second conduit to the accumulator and disconnect the first conduit from the accumulator; a second valve disposed between the accumulator and the first valve, the second valve selectively movable to permit fluid discharged from the motor in deceleration to enter the accumulator; a third valve disposed between the accumulator and the first valve, the third valve selectively movable to permit fluid discharged from the accumulator to enter the motor to assist acceleration of the motor; and a controller configured to implement a plurality of modes of operation, wherein each of the plurality of modes of operation includes a different combination of motor deceleration and motor acceleration segments during which the accumulator receives and discharges fluid, respectively. 12. The hydraulic system of claim 11 , further comprising a common passage fluidly connected between the first valve, the second valve, and the third valve. 13. The hydraulic system of claim 11 , wherein the set of modes of operation includes at least one of a truck loading operation, a trenching operation, a craning operation, a material handling operation, and a peak shaving operation. 14. The hydraulic system of claim 13 , wherein the input includes at least one of work tool speed, a work tool load, a work tool position, a series of work tool movements, and an operation manipulation of an input device. 15. The hydraulic system of claim 11 , wherein the number of segments during which the controller causes the accumulator to receive fluid is greater than the number of segments during which the controller causes the accumulator to discharge fluid. 16. The hydraulic system of claim 11 , wherein the number of segments during which the controller causes the accumulator to receive fluid is equal to the number of segments during which the controller causes the accumulator to discharge fluid. 17. The hydraulic system of claim 11 , wherein the number of segments during which the controller causes the accumulator to discharge fluid is always less than or equal to the number of segments during which the controller causes the accumulator to receive fluid. 18. The hydraulic system of claim 11 , further including an input device configured to generate a signal indicative of initiation of a segment of the plurality of segments, wherein the controller is configured to selectively cause the at least one accumulator to receive or discharge fluid based on the signal. 19. The hydraulic system of claim 18 , wherein the at least one input device is one of a tool control device, a speed sensor, a pressure sensor, and a position sensor.