Braking system for motor vehicles and method for the operation of a braking system

The invention claimed is: 1. A braking system for motor vehicles using a pressure medium applied to one or more wheel brakes and which, in a brake by wire operating mode, can be controlled both by a vehicle driver and independently of the vehicle driver, and is preferably operated in the brake by wire operating mode and can be operated in at least one fallback operating mode, comprising: a brake master cylinder, which can be actuated by a brake pedal and having at least one piston and at least one pressure chamber, to which can be connected to a brake circuit and the wheel brakes, an electrically controllable pressure supplying device for actuating the wheel brakes in the brake by wire operating mode, a simulation device having at least one elastic element, which provides an acceptable brake pedal feel to the vehicle driver in the brake by wire operating mode, wherein the simulation device has a hydraulic simulator chamber, which is hydraulically connected, via a first hydraulic connection to the pressure chamber of the brake master cylinder and which is further communication through a connection with an electrically actuated isolation valve with a pressure medium reservoir under atmospheric pressure, and a media separating device arranged in the connection between the simulator chamber and the isolation valve, wherein the media separating device does not allow fluid to flow through the media separation device from one side to the other. 2. The braking system as claimed in claim 1 , in that the media separating device further comprises a first hydraulic chamber for receiving the pressure medium, which is separated from a second hydraulic chamber by a media separating element that can be moved or deformed to a limited extent, wherein the second hydraulic chamber is hydraulically connected to the isolation valve. 3. A braking system for motor vehicles using a pressure medium applied to one or more wheel brakes and which, in a brake by wire operating mode, can be controlled both by a vehicle driver and independently of the vehicle driver, and is preferably operated in the brake by wire operating mode and can be operated in at least one fallback operating mode, comprising: a brake master cylinder, which can be actuated by a brake pedal and having at least one piston and at least one pressure chamber, to which can be connected to a brake circuit and the wheel brakes, an electrically controllable pressure supplying device for actuating the wheel brakes in the brake by wire operating mode, a simulation device having at least one elastic element, which provides an acceptable brake pedal feel to the vehicle driver in the brake by wire operating mode, wherein the simulation device has a hydraulic simulator chamber, which is hydraulically connected, via a first hydraulic connection to the pressure chamber of the brake master cylinder and which is further communication through a connection with an electrically actuated isolation valve with a pressure medium reservoir under atmospheric pressure, and a media separating device arranged in the connection between the simulator chamber and the isolation valve, wherein the media separating device further comprises a first hydraulic chamber for receiving the pressure medium, which is separated from a second hydraulic chamber by a media separating element that can be moved or deformed to a limited extent, wherein the second hydraulic chamber is hydraulically connected to the isolation valve, wherein the first hydraulic chamber is hydraulically connected to the simulator chamber and is in hydraulic communication with the pressure chamber. 4. The braking system as claimed in claim 2 further comprising in that the media separating device is embodied as a cylinder and piston arrangement, wherein the media separating element is a separating piston. 5. The braking system as claimed in claim 4 , further comprising a preloaded elastic element, on which the separating piston is supported, is arranged in the second hydraulic chamber. 6. The braking system as claimed in claim 2 in that the media separating element, comprises a flexible diaphragm. 7. The braking system as claimed in claim 1 further comprising in that the isolation valve is arranged in a second hydraulic connection between the pressure chamber and the pressure medium reservoir. 8. The braking system as claimed in claim 7 , further comprising in that the hydraulic simulator chamber is in communication with the second hydraulic connection between the pressure chamber and the isolation valve. 9. The braking system as claimed in claim 1 further comprising in that the first hydraulic connection is opened and closed by an electrically actuated simulator enable valve. 10. A method for the operation of a braking system of a brake by wire type of a vehicle comprising the steps of, providing a brake master cylinder, which can be actuated by means of a brake pedal and has at least one pressure chamber, communicating with a brake circuit for actuating wheel brakes, providing an electrically controllable pressure supplying device for actuating the wheel brakes, providing a simulation device, which provides an acceptable brake pedal feel to a driver of the vehicle in the brake by wire operating mode, providing the simulation device having a hydraulic simulator chamber, which is in hydraulic communication with the pressure chamber in the brake master cylinder and which is in communication by an electrically actuated isolation valve with a pressure medium reservoir under atmospheric pressure, in which a pressure medium is displaced into the pressure medium reservoir via the isolation valve in order to modify a force/displacement characteristic curve of a brake pedal actuation, limiting the quantity of the pressure medium displaced into the pressure medium reservoir to a predetermined maximum quantity by a media separating device arranged between the simulator chamber and the isolation valve, when the isolation valve is open, wherein the media separating device does not allow fluid to flow through the media separation device from one side to the other. 11. The method as claimed in claim 10 , further comprising the step of in that, when a predetermined condition is present, and when a first option has been chosen by the vehicle driver via an HMI interface, the isolation valve is not closed during operating the braking system when the brake pedal is actuated. 12. The method as claimed in claim 10 further comprising in that, when a predetermined condition is present, and when a second option has been chosen by the vehicle driver via an HMI interface, the isolation valve is closed when the brake pedal is actuated, and, remains closed during operating the braking system when the brake pedal is actuated. 13. The method as claimed in claim 10 further comprising in that, when the brake pedal is actuated, the isolation valve is closed to shorten the brake pedal travel in accordance with at least one of a choice of the vehicle driver via an HMI interface, in accordance with a variable relating to driving dynamics, in accordance with a signal from an open-loop, and a closed-loop control unit in the motor vehicle in which unit hazard detection is performed. 14. The braking system as described in the claim 1 further comprising wherein the simulation device and the media separating device operate together to provide the acceptable brake pedal feel. 15. The braking system as described in the claim 1 further comprising wherein the simulation device and the media separating device operate in a first mode to provide the acceptable brake pedal feel, and in a s