Fan control system with electro-hydraulic valve providing three fan motor operational positions

What is claimed is: 1. A fan control system comprising: a tank, the tank adapted to hold a reservoir of hydraulic fluid; a pump, the pump in fluid communication with the tank, the pump adapted to receive a supply of hydraulic fluid from the tank and to discharge a flow of hydraulic fluid; a hydraulic motor, the hydraulic motor including a first motor port, a second motor port, a pressure control chamber, a swashplate, and an output shaft, the first motor port being in fluid communication with the pump to receive the flow of hydraulic fluid from the pump, and the second motor port being in fluid communication with the tank to return the flow of hydraulic fluid to the tank, the swashplate being movable over a range of travel between a forward position and a reverse position in response to a control pressure within the pressure control chamber, a zero position being disposed between the forward position and the reverse position, the output shaft, in response to the flow of hydraulic fluid moving into the first motor port, through the hydraulic motor, and out the second motor port, rotating in a first direction at a first rate when the swashplate is in the forward position and in a second direction at a second rate when the swashplate is in the reverse position, the second direction being in opposing relationship to the first direction, and the output shaft does not rotate in response to the flow of hydraulic fluid moving into the first motor port, through the hydraulic motor, and out the second motor port when the swashplate is in the zero position; a fan, the fan rotatably coupled to the output shaft of the hydraulic motor; and a control valve, the control valve interposed between the pump and the pressure control chamber, the control valve being adapted to selectively direct the flow of hydraulic fluid from the pump through the control valve into the pressure control chamber such that the control pressure in the pressure control chamber is pressurized to an idle pressure to move the swashplate to an intermediate position between the forward position and the reverse position, the intermediate position electro-magnetic actuator assembly being closer to the zero position than to the forward position and the reverse position, the output shaft rotating at an idle rate when the swashplate is in the intermediate position in response to the flow of hydraulic fluid moving into the first motor port, through the hydraulic motor, and out the second motor port, the idle rate being less than half of the first rate. 2. The fan control system according to claim 1 , wherein the control valve comprises a proportional control valve that includes: an adaptor, the adaptor defining a pump port, a control port, and a tank port, the pump port being in fluid communication with the pump, the control port being in fluid communication with the pressure control chamber, and the tank port being in fluid communication with the tank, a spool, the spool disposed within the adaptor and reciprocally movable over a range of travel between at least a tank flow position and a pump flow position, when the spool is in the tank flow position, the tank port and the control port are in fluid communication with each other, and the pump port is fluidly isolated from both the tank port and the control port, and when the spool is in the pump flow position, the pump port and the control port of the control valve are in fluid communication with each other, and the tank port is fluidly isolated from both the pump port and the control port, a spring, the spring arranged with the spool to bias the spool to the tank flow position, and an electro-magnetic actuator assembly, the electro-magnetic actuator assembly adapted to selectively maintain the spool in an intermediate pump flow position such that the flow of hydraulic fluid, from the pump through the control valve to the pressure control chamber, is sufficient to pressurize the pressure control chamber to the idle pressure. 3. The fan control system according to claim 2 , further comprising: a pressure relief valve, the pressure relief valve connected in parallel fluid relationship with the hydraulic motor and in fluid communication with the pump and the tank, the pressure relief valve adapted such that a pressurized flow of hydraulic fluid from the pump that exceeds a predetermined pressure threshold is diverted away from the hydraulic motor, through the pressure relief valve, to the tank. 4. The fan control system according to claim 2 , further comprising: an anti-cavitation check valve, the anti-cavitation check valve connected in parallel fluid relationship with the hydraulic motor and arranged such that a motor return flow of hydraulic fluid from the second motor port is permitted to pass through the anti-cavitation check valve to the first motor port. 5. The fan control system according to claim 2 , wherein the hydraulic motor includes a bias member, the bias member being arranged such that the swashplate is biased to the forward position. 6. The fan control system according to claim 5 , further comprising: a controller, the controller in electrical communication with the electro-magnetic actuator assembly of the proportional control valve, the controller adapted to selectively transmit a reverse signal and an idle signal to the electro-magnetic actuator assembly, the reverse signal adapted to maintain the spool in the pump flow position such that the control pressure in the pressure control chamber is pressurized to a reverse pressure to place the swashplate in the reverse position, and the idle signal is adapted to maintain the spool in the intermediate pump flow position to place the swashplate in the intermediate position. 7. The fan control system according to claim 6 , wherein the reverse pressure is greater than the idle pressure, and the idle signal has a first current, the reverse signal having a second current, the second current being greater than the first current, and the first current and the second current being proportional to the idle pressure and the reverse pressure. 8. The fan control system according to claim 6 , wherein the idle rate is no more than fifteen percent of the first rate. 9. A method of controlling a fan comprising: directing a flow of hydraulic fluid into a first motor port of a hydraulic motor through the hydraulic motor and out a second motor port of the hydraulic motor, the hydraulic motor including a pressure control chamber, a servo piston, a swashplate, and an output shaft, the servo piston movable in response to a control pressure within the pressure control chamber, the servo piston coupled to the swashplate such that the swashplate is movable in response to movement of the servo piston over a range of travel between a forward position and a reverse position with a zero position being disposed between the forward position and the reverse position, and the output shaft being rotatable in a first direction at a first rate when the swashplate is in the forward position and in a second direction at a second rate when the swashplate is in the reverse position, in response to the flow of hydraulic fluid moving into the first motor port, through the hydraulic motor, and out the second motor port, the second direction being in opposing relationship to the first direction, and wherein the output shaft does not rotate in response to the flow of hydraulic fluid moving into the first motor port, through the hydraulic motor, and out the second motor port when the swashplate is in the zero position; transmitting an idle signal from a controller to an electro-magnetic actuator assembly of an electro-hydraulic control valve to move a spool o