A brake system for an automotive vehicle includes a controller for operating friction and powertrain braking subsystems so that hydraulic pressure to the friction brakes is minimized during powertrain braking, while at the same time emulating the driver-interface operating characteristics of a pure
A brake system for an automotive vehicle includes a controller for operating friction and powertrain braking subsystems so that hydraulic pressure to the friction brakes is minimized during powertrain braking, while at the same time emulating the driver-interface operating characteristics of a pure friction-braking system during all operating conditions.
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1. A brake system for an automotive vehicle, comprising: a plurality of friction brake modules associated with a plurality of road wheels;a master cylinder having an input device activated by the operator of a vehicle;at least one isolation valve selectively permitting high pressure brake fluid from
1. A brake system for an automotive vehicle, comprising: a plurality of friction brake modules associated with a plurality of road wheels;a master cylinder having an input device activated by the operator of a vehicle;at least one isolation valve selectively permitting high pressure brake fluid from the master cylinder to actuate said friction brake modules; anda compliance and brake application subsystem interposed between the master cylinder and said friction brake modules, with said compliance and brake application subsystem comprising: a signal chamber fluidically connected with the output of said master cylinder, with said signal chamber having a movable piston having a first side subject to hydraulic pressure from the master cylinder and from a hydraulic pump, and a second side subject to hydraulic pressure from both said hydraulic pump and a resilient element pressing upon the second side of the movable piston, and with the second side of the movable piston partially defining a working chamber; anda controller determining the total amount of braking desired by the vehicle operator based upon at least the operator's activation of the master cylinder, with the controller applying the friction brakes with high pressure fluid from said hydraulic pump, and with the controller also selectively providing brake fluid to the signal chamber and the working chamber so that the operating characteristics of the master cylinder and input device emulate a master cylinder and input device used with an operator-applied friction braking system. 2. The brake system according to claim 1, further comprising a powertrain braking subsystem operated by said controller. 3. The brake system according to claim 2, wherein said powertrain braking subsystem comprises a regenerative braking system. 4. The brake system according to claim 1, further comprising an accumulator selectively receiving fluid from the hydraulic pump. 5. The brake system according to claim 1, further comprising a combination damping chamber and high pressure accumulator connected with the outlet of the hydraulic pump. 6. The brake system according to claim 1, wherein said input device comprises a brake pedal. 7. The brake system according to claim 1, wherein said brake system is operable in at least a first state in which the input device is in a braking request mode and neither the master cylinder nor the hydraulic pump apply positive pressure to the friction brake modules, and a second state in which the input device is in a braking request mode and the hydraulic pump applies positive pressure to the friction brake modules. 8. The brake system according to claim 1, further comprising a check valve located in a bypass conduit extending from an inlet side of said hydraulic pump to an outlet side of said pump, with the inlet side of said pump being operatively connected with said working chamber. 9. The brake system according to claim 1, wherein said master cylinder comprises a dual master cylinder feeding two hydraulic circuits, with said system having an isolation piston, whereby a loss of hydraulic pressure within one of said hydraulic circuits will not prevent pressure from building within the other of said hydraulic circuits. 10. A brake system for an automotive vehicle, comprising: a powertrain braking subsystem;a plurality of friction brake modules associated with a plurality of road wheels;a master cylinder having an input device activated by the operator of a vehicle;at least one isolation valve selectively permitting high pressure brake fluid from the master cylinder to actuate said friction brake modules; anda compliance and brake application subsystem interposed between the master cylinder and said friction brake modules, with said compliance and brake application subsystem comprising: a signal chamber fluidically connected with the output of said master cylinder, with said signal chamber having a movable piston having a first side subject to hydraulic pressure from the master cylinder and from a hydraulic pump, and a second side subject to hydraulic pressure from both said hydraulic pump and a resilient element pressing upon the second side of the movable piston, and with the second side of the movable piston partially defining a working chamber; anda controller operating the powertrain braking subsystem as well as the friction brake modules, with the controller determining the total amount of braking desired by the vehicle operator based upon at least the operator's activation of the master cylinder, and with the controller applying the friction brakes with high pressure fluid from said hydraulic pump, and with the controller also selectively providing brake fluid to the signal chamber and the working chamber so that the operating characteristics of the master cylinder and input device emulate a master cylinder and input device used with an operator-applied friction braking system. 11. The brake system according to claim 10, wherein said input device comprises a brake pedal. 12. The brake system according to claim 10, wherein said powertrain braking subsystem comprises a regenerative braking system. 13. The brake system according to claim 10, wherein said brake system is operable in at least a first state in which the input device is in a braking request mode and neither the master cylinder nor the hydraulic pump apply positive pressure to the friction brake modules, and a second state in which the input device is in a braking request mode and the hydraulic pump applies positive hydraulic pressure to the friction brake modules. 14. The brake system according to claim 10, further comprising a check valve located in a bypass conduit extending from an inlet side of said hydraulic pump to an outlet side of said pump, and with the inlet side of said pump being operatively connected with said working chamber, whereby fluid will be allowed to leave the working chamber without passing through the pump.
Seibert Wolfram (Pfungstadt DEX) Ocvirk Norbert (Offenbach am Main DEX) Schonlau Juergen (Niedernhausen DEX), Brake system with hydraulic brake force boosting and pedal travel simulator.
Willmann Karl-Heinz,DEX ; Breitenbacher Juergen,DEX ; Kellner Andreas,DEX ; Dreilich Ludwig,DEX, Method and apparatus for controlling the brake system of motor vehicles with electric drive.
Kade Alexander (Grosse Pointe Woods MI) Walenty Allen J. (Macomb MI) Leppek Kevin G. (Rochester Hills MI), Regenerative and friction brake blend control.
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