Braking system for a vehicle

What is claimed is: 1. A braking system for a vehicle, the vehicle including a hydraulic brake device for applying a friction brake force to at least one wheel of the vehicle, the braking system comprising; a master cylinder in fluid communication with a reserve of brake fluid and in fluid communication with hydraulic brake device, the master cylinder operative to control the hydraulic brake device upon actuation; a mechanically controlled backup hydraulic cylinder in fluid communication with the reserve of brake fluid and in fluid communication with the master cylinder, the backup hydraulic cylinder being mechanically controlled to move brake fluid therein by delivering brake fluid to the master cylinder and then to the brakes, the backup hydraulic cylinder including a displaceable piston; and a force transmitting member moveable by an input device to displace the displaceable piston; and wherein initial movement of the force transmitting member occurs without displacement of the piston. 2. The braking system of claim 1 , wherein the master cylinder is indirectly in fluid communication with the reserve of brake fluid through the backup hydraulic cylinder. 3. The braking system of claim 1 , further comprising an electric brake force generator for actuating the master cylinder by moving brake fluid within the master cylinder through movement of at least one master cylinder piston. 4. The braking system of claim 1 , wherein the force transmitting member is spaced apart from the piston of the backup hydraulic cylinder prior to movement of the input device such that initial movement of the input device does not move brake fluid within the backup hydraulic cylinder to actuate the master cylinder. 5. The braking system of claim 1 , further comprising a pedal feel simulator for providing a driver with feedback from the braking system, the pedal feel simulator including at least one spring, the at least one spring compressible during an initial movement of the force transmitting member. 6. The braking system of claim 5 , wherein the at least one spring is operative to provide feedback to the driver through the force transmitting member and the input device during initial movement of the input device. 7. The braking system of claim 6 , wherein the at least one spring is a non-linear spring. 8. The braking system of claim 1 , wherein the mechanically controlled backup hydraulic cylinder is in fluid communication with the master cylinder through first and second ports, the first and second ports being normally open and closeable by an electrically controlled brake force generator. 9. The braking system of claim 8 , wherein displacement of the force transmitting member beyond a predetermined distance as a result of failure of the electrically controlled brake force generator causes the displaceable piston of the backup hydraulic cylinder to close an input port associated with the backup hydraulic cylinder and force brake fluid out of the backup hydraulic cylinder and into the master cylinder to in turn apply the friction brake force. 10. A braking system for a vehicle, the vehicle including a hydraulic brake device for applying a friction brake force to at least one wheel of the vehicle, the braking system comprising: a first hydraulic cylinder in fluid communication with a reserve of brake fluid and in fluid communication with the hydraulic brake device, the first hydraulic cylinder operative to control the hydraulic brake device upon actuation; an electrically controlled brake force generator for actuating the first hydraulic cylinder; first and second input ports associated with the first hydraulic cylinder, the first and second input ports being normally open; a mechanically controlled brake force generator including a second hydraulic cylinder, the second hydraulic cylinder in fluid communication with the reserve of brake fluid through a third input port and in fluid communication with the first hydraulic cylinder through the first and second input ports, the mechanically controlled brake force generator being mechanically controlled to move brake fluid within the second hydraulic cylinder and thereby pressurize the first hydraulic cylinder by delivering brake fluid to the first hydraulic cylinder in response to movement of a driver controlled input device beyond a predetermined distance; and first and second pistons in the first hydraulic cylinder, the first and second pistons movable in response to initial movement of the driver controlled input device below the predetermined distance to close the first and second input ports and force brake fluid from the first hydraulic cylinder to apply the friction brake force. 11. The braking system of claim 10 , wherein the system is operative in a first mode during initial movement of the driver controlled input device in which the first hydraulic cylinder is actuated electronically by the electrically controlled brake force generator and a second mode when the driver controlled input device is moved beyond a predetermined distance in which the second hydraulic cylinder is actuated mechanically by the mechanically controlled brake force generator. 12. The braking system of claim 11 , further comprising a brake pedal and wherein the system operates in the first mode in response to a first displacement of the brake pedal by a driver of the vehicle and the system operates in the second mode in response to a second displacement of the brake pedal by the driver. 13. The system of claim 12 , wherein the first displacement of the brake pedal is greater than the second displacement of the brake pedal. 14. The braking system of claim 10 , wherein the mechanically controlled brake force generator includes a force transmitting member mechanically movable in response to an action by a driver of the vehicle to mechanically displace a second piston of the second hydraulic cylinder. 15. The braking system of claim 14 , wherein the force transmitting member is spaced apart from the second piston of the second hydraulic cylinder prior to movement of the action by the driver such that initial action by the driver does not move brake fluid within the second hydraulic cylinder to actuate the first hydraulic cylinder. 16. The braking system of claim 14 , further comprising a biasing member disposed between the second piston of the second hydraulic cylinder and the force transmitting member for biasing the force transmitting member away from the second piston of the second hydraulic cylinder. 17. The braking system of claim 16 , wherein the biasing member is a non-linear spring operative to provide feedback to the driver. 18. The braking system of claim 10 , wherein the second hydraulic cylinder includes a piston moveable in response to movement of the driver controlled input device to close the third input port. 19. The braking system of claim 10 , wherein the system includes a brake pedal and wherein the system operates in a first mode to operate the electrically controlled brake force generator in response to a first displacement of the brake pedal by a driver of the vehicle and the system operates in a second mode to operate the mechanically controlled brake force generator in response to a second displacement of the brake pedal by the driver. 20. A method of braking a vehicle with a braking system, the braking system including a hydraulic brake device for applying a friction brake force to at least one wheel of the vehicle, a first hydraulic cylinder in fluid communication with a reservoir of brake fluid an