Electronic control dynamic brake proportioning
First Claim
Patent Images
1. A brake control method for a vehicle having a front wheel brake unit for applying a brake torque to the front wheel in accord with a vehicle operator braking demand and a rear wheel brake unit for applying a brake torque to the rear wheel, the method comprising the steps of:
- sensing the rotational speed of the front wheel;
sensing the rotational speed of the rear wheel;
sensing the vehicle operator braking demand;
determining a normalization factor, in the absence of a sensed vehicle operator braking demand, for normalizing the sensed rotational speed of the rear wheel to the sensed rotational speed of the front wheel;
normalizing the sensed rotational speed of the rear wheel to the sensed rotational speed of the front wheel in accord with the determined normalization factor when a vehicle operator braking demand is sensed;
comparing the rotational speed of the front wheel and the normalized sensed rotational speed of the rear wheel;
controlling the rear wheel brake unit when a vehicle operator braking demand is sensed to (A) increase the applied brake torque to the rear wheel while the normalized sensed rotational speed of the rear wheel is greater than the sensed rotational speed of the front wheel and (B) decrease the applied brake torque to the rear wheel the normalized sensed rotational speed of the rear wheel is less than the sensed rotational speed of the front wheel, whereby the normalized sensed speed of the rear wheel is maintained substantially at the sensed rotational speed of the front wheel.
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Abstract
Torque proportioning between the front and rear wheels of a vehicle is achieved by controlling the speed of each rear wheel, via modulation of the hydraulic brake pressure of the rear wheel during braking, to be the same as the speed of the front wheel on the same side of the vehicle.
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Citations
3 Claims
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1. A brake control method for a vehicle having a front wheel brake unit for applying a brake torque to the front wheel in accord with a vehicle operator braking demand and a rear wheel brake unit for applying a brake torque to the rear wheel, the method comprising the steps of:
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sensing the rotational speed of the front wheel; sensing the rotational speed of the rear wheel; sensing the vehicle operator braking demand; determining a normalization factor, in the absence of a sensed vehicle operator braking demand, for normalizing the sensed rotational speed of the rear wheel to the sensed rotational speed of the front wheel; normalizing the sensed rotational speed of the rear wheel to the sensed rotational speed of the front wheel in accord with the determined normalization factor when a vehicle operator braking demand is sensed; comparing the rotational speed of the front wheel and the normalized sensed rotational speed of the rear wheel; controlling the rear wheel brake unit when a vehicle operator braking demand is sensed to (A) increase the applied brake torque to the rear wheel while the normalized sensed rotational speed of the rear wheel is greater than the sensed rotational speed of the front wheel and (B) decrease the applied brake torque to the rear wheel the normalized sensed rotational speed of the rear wheel is less than the sensed rotational speed of the front wheel, whereby the normalized sensed speed of the rear wheel is maintained substantially at the sensed rotational speed of the front wheel.
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2. A brake control system for braking a front wheel and a rear wheel on a same side of a motor vehicle, the system comprising, in combination:
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means for sensing the rotational speed ω
f of the front wheel;means for sensing the rotational speed ω
r of the rear wheel;a front wheel brake unit for applying a brake torque to the front wheel in accord with a vehicle operator braking demand; a rear wheel brake unit for applying a brake torque to the rear wheel; means for sensing the vehicle operator braking demand; and control means for (A) determining a gain factor Ar in accord with the expression ω
f /ω
r in the absence of a sensed vehicle operator braking demand, (B) determining a normalized rotational speed ω
rn of the rear wheel in accord with the expression Ar ω
r when a vehicle operator braking demand is sensed, (C) comparing the rotational speed ω
f with the normalized rotational speed ω
rn, and (D) controlling the rear wheel brake unit to apply a brake torque value to the rear wheel to establish the normalized rotational speed ω
rn substantially equal to the rotational speed ω
f of the front wheel.
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3. A brake control system for braking front wheels and rear wheels of a motor vehicle having front and rear differentials for driving the front and rear wheels, the system comprising, in combination:
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means for sensing front differential gear input rotational speed ω
f ;means for sensing rear differential gear input rotational speed ω
r ;means for applying brake torque to the front wheels in accord with a vehicle operator braking demand; a rear brake unit for applying brake torque to the rear wheels; means for sensing the vehicle operator braking demand; and control means for (A) determining a gain factor Ar in accord with the expression ω
f /ω
r in the absence of a sensed vehicle operator braking demand, (B) determining a normalized rotational speed ω
rn of the rear differential gear input in accord with the expression Ar ω
r when a vehicle operator braking demand is sensed, (C) comparing the rotational speed ω
f with the normalized rotational speed ω
rn, and (D) controlling the rear brake unit to apply a brake torque value to the rear wheels to establish the normalized rotational speed ω
rn substantially equal to the front differential gear rotational speed ω
f.
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Specification