Apparatus and method for control of a hydraulic brake system

I claim: 1. A brake system for a vehicle having a pair of front wheel brakes and a pair of rear wheel brakes, the system comprising: a reservoir; a master cylinder defining a longitudinally extending bore and being operable during a manual push-through mode by actuation of a brake pedal connected to the master cylinder to generate brake actuating pressure at a first output for hydraulically actuating at least one of the pair of front wheel brakes and the pair of rear wheel brakes during the manual push-through mode; a power transmission unit configured for selectively providing pressurized hydraulic fluid for actuating at least a selected one of the pair of front wheel brakes and the pair of rear wheel brakes in a boosted braking mode during a braking event; a pair of rear brake motors for selectively electrically actuating respective left and right rear wheel parking brakes; an electronic control unit for controlling at least one of the power transmission unit and the pair of rear brake motors; a pedal simulator integrated into the master cylinder by being at least partially enclosed within a housing of the master cylinder to create an integrated pressure simulator for providing predetermined brake pedal response, the pedal simulator including first and second springs longitudinally extending within the bore and a spring guide having a portion positioned radially between the first and second springs and supporting the first and second springs so as to resist buckling force of the first and second springs during operation of the master cylinder; a two-position three-way valve hydraulically connected with the master cylinder and the power transmission unit and with at least the selected one of the pairs of wheel brakes; the three-way valve selectively controlling hydraulic fluid flow from a chosen one of the master cylinder and the power transmission unit to at least the selected one of the pairs of wheel brakes; a normally-closed DAP valve located hydraulically between the power transmission unit and at least one of the three-way valve and at least the selected one of the pairs of wheel brakes; and an isolation valve and a dump valve associated with each wheel brake of the pair of front wheel brakes and the pair of rear wheel brakes, the isolation valve being located hydraulically between a respective wheel brake and the three-way valve, and the dump valve being located hydraulically between a respective wheel brake and the reservoir, for at least the selected one of the pairs of wheel brakes. 2. The brake system of claim 1 , wherein the integrated pedal simulator is configured to provide a progressive force-versus-travel curve for the brake pedal using a plurality of force-response springs of the pedal simulator. 3. The brake system of claim 1 , wherein the master cylinder includes an input piston having a shaft that extends into the pedal simulator such that the shaft moves in response to actuation of the brake pedal. 4. The brake system of claim 3 , wherein the shaft has a rounded end that cooperates with a resilient stop in response to actuation of the brake pedal beyond a predetermined distance. 5. The brake system of claim 1 , wherein the master cylinder and the pedal simulator are longitudinally aligned with one another within the housing of the master cylinder. 6. The brake system of claim 1 , wherein the three-way valve is configured to selectively switch the brake system between manual push-through mode and the boosted braking mode. 7. The brake system of claim 1 , wherein the isolation valves for the pair of front wheel brakes connect to the power transmission unit through the three-way valve, and the pair of rear wheel brakes bypasses the three-way valve to connect to the power transmission unit. 8. The brake system of claim 1 , wherein the electronic control module is a first electronic control module, the brake system including a second electronic control module, wherein a chosen one of the first and second electronic control modules controls the power transmission unit and at least the selected one of the pairs of wheel brakes, and the other one of the first and second electronic control modules controls the rear brake motors. 9. The brake system of claim 1 , including a replenishing check valve located fluidically between the reservoir and the power transmission unit for assisting with refilling of the power transmission unit under predetermined conditions. 10. The brake system of claim 1 , including a simulator test valve located fluidically between the reservoir and the master cylinder, the simulator test valve including a test valve spring biasing the simulator test valve toward a closed condition. 11. The brake system of claim 3 , wherein each of the first and second springs encircles the shaft of the input piston. 12. The brake system of claim 3 , wherein the first spring abuts the input piston. 13. The brake system of claim 1 , wherein the spring guide, the first spring, and the second spring all longitudinally overlap one another at a common position along the length of the bore. 14. A brake system for a vehicle having a pair of front wheel brakes and a pair of rear wheel brakes, the system comprising: a reservoir; a master cylinder operable during a manual push-through mode by actuation of a brake pedal connected to the master cylinder to generate brake actuating pressure at a first output for hydraulically actuating at least one of the pair of front wheel brakes and the pair of rear wheel brakes during the manual push-through mode; a power transmission unit configured for selectively providing pressurized hydraulic fluid for actuating at least a selected one of the pair of front wheel brakes and the pair of rear wheel brakes in a boosted braking mode during a braking event; a pair of rear brake motors for selectively electrically actuating respective left and right rear wheel parking brakes; an electronic control unit for controlling at least one of the power transmission unit and the pair of rear brake motors; a pedal simulator integrated into the master cylinder by being at least partially enclosed within a housing of the master cylinder to create an integrated pressure simulator for providing predetermined brake pedal response; a two-position three-way valve hydraulically connected with the master cylinder and the power transmission unit and with at least the selected one of the pairs of wheel brakes; the three-way valve selectively controlling hydraulic fluid flow from a chosen one of the master cylinder and the power transmission unit to at least the selected one of the pairs of wheel brakes; a normally-closed DAP valve located hydraulically between the power transmission unit and at least one of the three-way valve and at least the selected one of the pairs of wheel brakes; and an isolation valve and a dump valve associated with each wheel brake of the pair of front wheel brakes and the pair of rear wheel brakes, the isolation valve being located hydraulically between a respective wheel brake and the three-way valve, and the dump valve being located hydraulically between a respective wheel brake and the reservoir, for at least the selected one of the pairs of wheel brakes, wherein the isolation valves for the pair of front wheel brakes and the pair of rear wheel brakes connects to the power transmission unit through the three-way valve.