Hydraulic trailer brake circuit for adjustable gain and improved stability

The invention claimed is: 1. A method of controlling pressurized fluid to a trailer brake system, comprising: providing a controlling, a fluid supply, a work machine brake system, a brake output in fluid communication with the trailer brake system, a base valve having a preset fixed gain fluidly coupled between the fluid supply and the brake output, a proportional control valve fluidly coupled to the fluid supply, a solenoid valve, and a shuttle valve; fluidly coupling the work machine brake system to the base valve via a pilot line; generating a base valve output pressure based on a fluid pressure in the pilot line and the preset fixed gain; identifying, with the controller, a valve set ratio for the proportional control valve; detecting a brake pressure in the work machine brake system with a sensor; determining a brake command by the controller as a function of the brake pressure and the valve set ratio; controlling an output pressure of the proportional control valve with the controller as a function of the valve set ratio and the brake command; producing fluid pressure to the brake output based on the greater of the output pressure of the proportional control valve and the base valve output pressure; providing a first brake and a second brake of the work machine brake system, the first brake generating a first brake pressure and the second brake generating a second brake pressure; and fluidly coupling a first sensor to the first brake for detecting the first brake pressure and a second sensor to the second brake for detecting the second brake pressure, wherein the first sensor and the second sensor are electrically coupled to the controller; wherein, the determining step comprises calculating the brake command as a function of the first brake pressure, the second brake pressure, and the valve set ratio. 2. The method of claim 1 , wherein the determining step comprises multiplying the valve set ratio by an average of the first and second brake pressures. 3. The method of claim 1 , wherein the determining step comprises multiplying the valve set ratio by either the higher or lower of the first and second brake pressures. 4. The method of claim 1 , wherein the controlling step comprises: calculating the brake command as a function of the first brake pressure, the second brake pressure, and the valve set ratio; comparing the brake command to the valve set ratio; and outputting a current to the proportional control valve based on the greater of the brake command and the valve set ratio. 5. The method of claim 1 , further comprising: providing the solenoid valve in fluid communication between the proportional control valve and the fluid output, where the solenoid valve includes a solenoid disposed in electrical communication with the controller; and operably controlling movement of the solenoid valve between an open position and a closed position, wherein in the open position the output pressure of the proportional control valve is fluidly coupled to the brake output, and in the closed position the output pressure of the proportional control valve is not fluidly coupled to the brake output. 6. The method of claim 1 , wherein the producing step comprises actuating the shuttle valve based on the greater of the output pressure of the proportional control valve and the base valve output pressure. 7. A braking system of a tractor trailer combination, comprising: a pressurized fluid supply; a first brake and a second brake of the tractor, the first brake providing a first brake pressure and the second brake providing a second brake pressure; a shuttle valve disposed in fluid communication with the first brake pressure and the second brake pressure; a base valve fluidly coupled to the supply, the base valve including an inlet and an outlet, where the inlet is fluidly coupled to the shuttle valve for receiving the greater of the first brake pressure and the second brake pressure; a proportional control valve fluidly coupled to the supply; a fluid output configured to be fluidly coupled to a braking system of a trailer; a first fluid path selectively fluidly coupling the supply to the fluid output via the base valve; and a second fluid path selectively fluidly coupling the supply to the fluid output via the proportional control valve; wherein, the base valve comprises a fixed gain and the proportional control valve comprises an adjustable gain. 8. The braking system of claim 7 , further comprising a second shuttle valve fluidly coupled between the base valve, the proportional control valve, and the fluid output, where the shuttle valve is movable in response to a difference between a first pressure output by the base valve and a second pressure output by the proportional control valve. 9. The braking system of claim 7 , further comprising a solenoid valve disposed in fluid communication between the proportional control valve and the fluid output, where the solenoid valve is movable between an open position in which the proportional control valve is fluidly coupled to the fluid output, and a closed position in which the proportional control valve is not fluidly coupled to the fluid output. 10. The braking system of claim 7 , further comprising: a controller; a sensor disposed in electrical communication with the controller, the sensor configured to detect the first and second brake pressures; wherein, the proportional control valve is operably controlled by the controller to provide an output pressure as a function of the first and second brake pressures. 11. The braking system of claim 10 , further comprising an operator display for communicating a valve set ratio to the controller; wherein, a brake command is determined by the controller as a function of the valve set ratio, the first brake pressure, and the second brake pressure; further wherein, when neither the first brake or second brake produce any brake pressure, the output of the proportional control valve is based on the valve set ratio. 12. A method of controlling pressurized fluid to a trailer brake system, comprising: providing a controller, a fluid supply, a work machine brake system, a brake output in fluid communication with the trailer brake system, a base valve having a preset fixed gain fluidly coupled between the fluid supply and the brake output, a proportional control valve fluidly coupled to the fluid supply, a solenoid valve, and a shuttle valve; fluidly coupling the work machine brake system to the base valve via a pilot line; generating a base valve output pressure based on a fluid pressure in the pilot line and the preset fixed gain; identifying, with the controller, a valve set ratio for the proportional control valve; detecting a brake pressure in the work machine brake system with a sensor; communicating the brake pressure to the controller via the sensor; determining a brake command by the controller as a function of the brake pressure and the valve set ratio; controlling an output pressure of the proportional control valve with the controller as a function of the valve set ratio and the brake command; producing fluid pressure to the brake output based on the greater of the output pressure of the proportional control valve and the base valve output pressure; determining an amount of current in proportion to the detected brake pressure; and sending the amount of current by the controller to the proportional control valve; wherein, the amount of current is adjustable based on the valve set ratio.