Brake system and method of operating

What is claimed is: 1. A vehicle braking system comprising: a master cylinder having an input side configured to receive an input from a brake pedal and an output side configured to provide a master cylinder output, at least one braking circuit having at least one wheel cylinder and a brake pressure generator separate from the brake pedal; a simulator circuit including a pedal feel simulator coupled to the master cylinder output side through a switchable simulator valve, the pedal feel simulator providing a reaction force to the brake pedal when the switchable simulator valve is in an open position; at least one normally-open isolation valve operable to close and isolate the at least one braking circuit from the master cylinder and the simulator circuit; a primary pressure sensor operable to generate a braking request signal responsive to the input from the brake pedal; and a controller programmed to activate the brake pressure generator to apply a braking force to the at least one wheel cylinder of the braking circuit based on the braking request signal from the primary pressure sensor, the controller further being programmed to close the at least one normally-open isolation valve during activation of the brake pressure generator so that the master cylinder is coupled to the simulator circuit and decoupled from the braking circuit; wherein the controller is further programmed to identify an abnormal value for the braking request signal from the primary pressure sensor, and in response, the controller is programmed to open the at least one normally-open isolation valve and to observe a relationship between brake pedal actuation and pressure generated at the master cylinder output side using a secondary pressure sensor that is positioned in the braking circuit such that the controller determines whether the abnormal value is indicative of a primary pressure sensor malfunction or indicative of a malfunction of at least one of the pedal feel simulator and the switchable simulator valve. 2. The vehicle braking system of claim 1 , wherein the controller is programmed to switch from a primary brake-by-wire mode that utilizes the primary pressure sensor as an input for the brake pressure generator to a secondary brake-by-wire mode that utilizes a brake pedal travel sensor as an input for the brake pressure generator in response to the determination that the abnormal value is indicative of a malfunction of the primary pressure sensor and not indicative of a malfunction of either of the pedal feel simulator or the switchable simulator valve. 3. The vehicle braking system of claim 2 , wherein the master cylinder is a tandem master cylinder and the master cylinder output side includes a first outlet from a first chamber pressurized by a first piston adjacent the brake pedal and further includes a second outlet from a second chamber pressurized by a second piston remote from the brake pedal. 4. The vehicle braking system of claim 3 , wherein the at least one braking circuit includes first and second braking circuits respectively coupled to the first and second master cylinder outlets through respective first and second normally-open isolation valves. 5. The vehicle braking system of claim 3 , wherein the primary pressure sensor is coupled to the second outlet of the master cylinder. 6. The vehicle braking system of claim 3 , wherein the pedal feel simulator is coupled to the first outlet of the master cylinder. 7. The vehicle braking system of claim 1 , wherein the brake pressure generator includes a motor-driven piston. 8. The vehicle braking system of claim 1 , wherein the braking circuit further includes an apply pressure control valves in the form of a controller-modulated solenoid valve between an output of the brake pressure generator and the at least one wheel cylinder. 9. The vehicle braking system of claim 8 , wherein the controller is programmed to hold the apply pressure control valve in an open position to establish fluid communication necessary to observe the relationship between brake pedal actuation and pressure generated at the master cylinder output side using the secondary pressure sensor. 10. The vehicle braking system of claim 1 , wherein the controller is programmed to switch from a brake-by-wire mode that utilizes the primary pressure sensor as an input for the brake pressure generator to a secondary mechanical push-through back-up mode that utilizes the brake pedal without using the brake pressure generator or the pedal feel simulator in response to the determination that the abnormal value is indicative of a malfunction of at least one of the pedal feel simulator and the switchable simulator valve rather than a malfunction of the primary pressure sensor. 11. A method of operating a vehicle braking system, the method comprising: receiving an input from a brake pedal at an input side of a master cylinder and providing a master cylinder output corresponding to the brake pedal input at an output side of the master cylinder output; closing, by a controller signal, at least one normally-open isolation valve to isolate the output side of the master cylinder from at least one braking circuit having at least one wheel cylinder; opening, by a controller signal, a switchable simulator valve to open a fluid connection between the master cylinder output side and a simulator circuit including a pedal feel simulator to provide a reaction force to the brake pedal; generating a braking request signal with a primary pressure sensor responsive to the input from the brake pedal, the braking request signal being sent to a controller; driving a brake pressure generator of the at least one braking circuit, separate from the brake pedal, with the controller responsive to the braking request signal to achieve braking at the at least one wheel cylinder; identifying with the controller an abnormal value for the braking request signal from the primary pressure sensor; sending a controller signal, in response to identifying the abnormal value, to open the at least one normally-open isolation valve and to observe a relationship between brake pedal actuation and pressure generated at the master cylinder output side using a secondary pressure sensor that is positioned in the braking circuit; and determining with the controller, based on the observed relationship, whether the abnormal value is indicative of a primary pressure sensor malfunction or indicative of a malfunction of at least one of the pedal feel simulator and the switchable simulator valve. 12. The method of claim 11 , further comprising automatically switching via the controller from a primary brake-by-wire mode that utilizes the primary pressure sensor as an input for the brake pressure generator to a secondary brake-by-wire mode that utilizes a brake pedal travel sensor as an input for the brake pressure generator in response to the determination that the abnormal value is indicative of a malfunction of the primary pressure sensor and not indicative of a malfunction of either of the pedal feel simulator or the switchable simulator valve. 13. The method of claim 11 , wherein the brake pressure generator outputs brake pressure to a first braking circuit through a first control valve and outputs brake pressure to a second braking circuit through a second control valve. 14. The method of claim 13 , further comprising modulating an opening amount of each of the first and second control valves with the controller to set a first pressure provided to a first set of wheel cylinders of the first braking circuit and a second set of wheel cylinders of the second braking circuit. 15.