Electric equipment of a vehicle, comprising an at least partly electric braking and steering device with high availability

What is claimed is: 1. A braking system of a vehicle having an at least partially electrical braking and steering device, comprising a steering system having an electric or electromechanical steering device, a steering gear mechanism, an electronic steering control device and an electric steering actuator; and an electronic or electronically brake pressure regulated brake system having an electropneumatic service brake device, the electropneumatic service brake device including an electropneumatic service brake valve device and an electronic brake control device, at least one electric service brake circuit having electropneumatic modulators, at least one electric service brake circuit having pneumatic wheel brake actuators associated with wheels of the vehicle, and a service brake activation element, wherein the electronic brake control device is configured to electrically control the electropneumatic modulators to generate pneumatic brake pressures or brake control pressures for the pneumatic wheel brake actuators on at least one of a specific wheel basis, a specific axle basis and a specific vehicle side basis, the at least one electric service brake circuit includes at least one electrical channel includes at least one electric brake value generator configured to sense activation of the service brake activation element and has output corresponding activation signals, and at least one electronic evaluation device is configured to receive the activation signals and input braking request signals based on the activation signals into the electronic brake control device, and the at least one pneumatic service brake circuit includes at least one pneumatic channel configured to load at least one control piston of the service brake valve device with a first activation force corresponding to activation of the service brake activation element representing a driver's braking request, and the service brake valve device is configured such that when the at least one control piston is loaded with the first activation force, the control piston directly or indirectly controls at least one double seat valve of the service brake valve device having an inlet seat and an outlet seat to generate pneumatic brake pressures or brake control pressures for actuation of the pneumatic wheel brake actuators, the braking system further comprising: a device containing the electronic evaluation device of the electropneumatic service brake valve device configured to generate a second activation force independently of a driver's braking request by loading a second activation force on the at least one control piston in the same direction as or in the opposite direction to the first activation force when a braking request which is independent of the driver's request is present; a first electrical energy source or a first energy supply circuit configured to supply energy to the electropneumatic service brake device independently from a second electrical energy source or a second energy supply circuit configured to supply energy to the electropneumatic service brake valve device and to the electric or electro mechanical steering device. 2. The braking system as claimed in claim 1 , wherein the brake pressure in the pneumatic wheel brake actuators is closed-loop or open-loop controlled solely pneumatically when the service brake activation element is activated when a fault in the electric service brake circuit is present, and otherwise the brake pressure in the pneumatic wheel brake actuators is closed-loop or open-loop controlled either electrically, solely pneumatically except when predefined critical conditions are present under which a vehicle movement dynamics controller which is configured to intervene electrically by a braking intervention or steering braking intervention generates electrical braking intervention control signals, or pneumatically in some of the pneumatic wheel brake actuators separate from pneumatic control of others of the pneumatic wheel brake actuators. 3. The braking system as claimed in claim 1 , wherein the electropneumatic service brake device is configured to control at least one of an electronic stability function and an anti-lock brake function in combination with a traction control function with traction control valves on front and rear axles of the vehicle. 4. The braking system as claimed in claim 1 , wherein the electronic brake control device is configured to receive, without the involvement of the driver, at least one of steering and braking request signals from at least one of an autopilot system and a driver assistance system generated as a function of driving operation conditions. 5. The braking system as claimed in claim 4 , wherein the at least one of steering and braking request signals are input into the steering device and into at least one of the electropneumatic service brake device and the electropneumatic service brake valve device. 6. The braking system as claimed in claim 5 , wherein respective control units of at least two of the autopilot system, of the driver assistance system, the steering device, the electropneumatic service brake device and the electropneumatic service brake valve device are connected to a databus. 7. The braking system as claimed in claim 6 , wherein in the event of a failure or fault in the second electric energy supply circuit, in the second electric energy source or in the steering device, the electropneumatic service brake device supplied by the first electric energy supply circuit or the first second electric energy source controls wheel-specific or side-specific braking interventions at the wheel brake actuators in response to steering request signals generated independent of the driver. 8. The braking system as claimed in claim 6 , wherein at least one electric signal generator supplied with electrical energy by the first electric energy source or by the first energy supply circuit is configured to be activated by the service brake activation element to output an electrical activation signal to the electronic brake control device. 9. The braking system as claimed in claim 8 , wherein the electric signal generator is an electric switch integrated into the electropneumatic service brake valve device. 10. The braking system as claimed in claim 6 , wherein at least one electric signal generator supplied with electrical energy by the first electric energy source or by the first energy supply circuit is configured to be activated by the pneumatic brake pressure or brake control pressure in the at least one pneumatic service brake control circuit to output an electrical activation signal to the electronic brake control device. 11. The braking system as claimed in claim 10 , wherein the electric signal generator is an electric pressure sensor integrated into the electropneumatic service brake valve device. 12. The braking system as claimed in claim 8 , wherein the electronic brake control device is configures such that when a failure or fault in the second electric energy supply circuit, the second electric energy source, or in the steering device ( 26 ) is present, steering request signals generated independent of the driver are not implemented. 13. The braking system as claimed in claim 5 , wherein in the event of a failure or fault in the first electric energy supply circuit, in the first electric energy source, or in the electric service brake circuit of the electropneumatic service brake device, the electronic evaluation device of the service brake valve device actuates the service brake valve device such that the service brake valve device implements braking reques