System and method of hydraulic energy recovery for machine start-stop and machine ride control

What is claimed is: 1. A hydraulic control system for a machine having a power source, the hydraulic control system comprising: a fluid reservoir; a pump motor coupled to a power source via a shaft, the pump motor fluidly coupled to the fluid reservoir, the pump motor configured to provide pressurized fluid and to receive fluid to provide a power output to the shaft; an actuator having a first chamber and a second chamber, each of the chambers being fluidly coupled to the pump motor; an accumulator fluidly coupled to the pump motor and the actuator; an accumulator valve being movable between a closed and an open position, the accumulator valve fluidly coupled between the accumulator and the pump motor, and a controller in communication with the pump motor and the accumulator valve, wherein the controller is configured to: detect an operator command to operate the power source; determine a pressure of the accumulator; and move the accumulator valve to the open position to fluidly connect the accumulator with the pump motor to provide power output to rotate the shaft to assist in starting the power source and an accumulator charge valve movable between a closed and an open position, the accumulator charge valve adapted to selectively fluidly connect the accumulator with the actuator, wherein the controller is configured to move the accumulator valve to the closed position and move the accumulator charge valve to the open position to fluidly connect the accumulator with the actuator when pressure differential between a pressure of the accumulator and a pressure of the actuator is at a predetermined threshold range; a first valve movable between a closed and an open position, the first valve disposed between the pump motor and the actuator and between the pump motor and the accumulator, the first valve in communication with the controller and adapted to selectively fluidly connect the accumulator and the actuator with the pump motor, wherein the controller is configured to: move the accumulator valve to the closed position; move the accumulator charge valve to the open position; and move the first valve to the open position to allow the supply of the pressurized fluid from the pump motor to the accumulator in response to when an operating status of the power source is determined to be placed in an operating condition and the pressure at the accumulator is determined to be below a pressure threshold. 2. The hydraulic system of claim 1 wherein the controller is configured to: monitor the operation status of the power source to determine a stopped condition of the power source; command the power source to the stopped condition when a pressure of the accumulator is determined to be above the pressure threshold. 3. The hydraulic system of claim 2 comprising an accumulator drain valve movable between a closed and an open position, the accumulator drain valve in parallel arrangement with the accumulator valve, the accumulator drain valve in communication with the controller and adapted to selectively fluidly connect the accumulator with the fluid reservoir in response to when the power source is determined to be in the stopped condition. 4. The hydraulic system of claim 3 wherein the controller is configured to: determine when the power source is actuated to an operating condition; move each of the accumulator valve and the accumulator drain valve to the closed position; and move each of the accumulator charge valve and the first valve to the open position to allow the pump motor to charge the accumulator. 5. The hydraulic control system of claim 1 comprising: a ride control valve movable between a closed position and an open position, the ride control valve is fluidly coupled between the accumulator and the actuator, and in communication with the controller, wherein the ride control valve and the accumulator charge valve is in parallel arrangement; wherein the controller is configured to: move each of the accumulator valve and the accumulator charge valve to the closed position; and move the ride control valve to the open position to allow fluid communication between the accumulator and the actuator. 6. A method of operating a hydraulic control system having a power source, the method comprising: determining an operator command to operate the power source; determining a pressure at an accumulator; moving an accumulator valve to an open position to fluidly connect the accumulator with a pump motor, such that pressurized fluid from the accumulator is provided to the pump motor to provide power output to rotate a shaft of power source for assisting start of the power source; moving the accumulator valve to a closed position; selectively moving a first valve to an open position for supplying pressurized fluid from the pump motor to the accumulator in response to determining an operating status of the power source, and a pressure of the accumulator is below a pressure threshold; and selectively moving an accumulator charge valve to an open position to fluidly connect the accumulator with an actuator when a pressure differential between a pressure of the accumulator and a pressure of the actuator is at a predetermined threshold range. 7. The method of claim 6 further comprising: monitoring the operating status of the power source to determine a condition for stopping the power source; and command the power source to a stopped condition and the pressure at the accumulator is detected to be above the pressure threshold. 8. The method of claim 7 further comprising: determining the operating status of the power source is in an off condition, based on an operator command; and prior to commanding the power source to a stopped condition, moving the accumulator charge valve to an open position to allow the pump motor to charge the accumulator, and move a first valve to the open position. 9. The method of claim 6 further comprising: moving the accumulator valve to a closed position; and moving a ride control valve to an open position to allow fluid communication between the accumulator and the actuator. 10. A machine having a work tool movable through a range of motion, the work machine comprising: a power source; a fluid reservoir; a pump motor coupled to a power source via a shaft, the pump motor fluidly coupled to the fluid reservoir, the pump motor configured to provide pressurized fluid and to receive fluid to provide a power output to the shaft; an actuator having a first chamber and a second chamber, each of the chambers being fluidly coupled to the pump motor; an accumulator fluidly coupled to the pump motor and the actuator; an accumulator valve being movable between a closed and an open position, the accumulator valve fluidly coupled between the accumulator and the pump motor, and a controller in communication with the pump motor and the accumulator valve, wherein the controller is configured to: detect an operator command to operate the power source; determine a pressure of the accumulator; and move the accumulator valve to the open position to fluidly connect the accumulator with the pump motor to provide power output to rotate the shaft for assisting in starting the power source; and an accumulator charge valve movable between a closed and an open position, the accumulator charge valve adapted to selectively fluidly connect the accumulator with the actuator, wherein the controller is configured to move the accumulator charge valve to the closed position and move the accumulator charge valve to the open position to fluidly connect the accumulator with the actuator when pressure differential between a pressure of the accumulator and a pressure of the act