Method for controlling the deceleration of a vehicle and braking system therefor

What is claimed is: 1. A method for controlling the deceleration of a vehicle, wherein the vehicle includes a central control unit, a first brake circuit (BK 1 ) for a rear axle (HA) and a second brake circuit (BK 2 ) for a front axle (VA); the method comprising the steps of: in response to an electronically requested deceleration request (a) below a predetermined deceleration threshold value (a 1 ), activating only the first brake circuit that one of the brake circuits (BK 1 , BK 2 ) of the rear axle and the front axle, respectively, that permits a gradation in a change of pressure (Δp) for substantially continuous, jolt-free manipulation of the deceleration via the central control unit; and, causing the activation of that one of the brake circuits (BK 1 , BK 2 ) to be maintained as long as the predetermined deceleration threshold value (a 1 ) is not exceeded. 2. The method of claim 1 , wherein the other one of the axles from the rear axle (HA) and the front axle (VA), whose brake circuit (BK 1 , BK 2 ) is not connected in the event of the deceleration request (a) below the deceleration threshold value (a 1 ), remains pressure-free. 3. The method of claim 1 , wherein the manipulation of the deceleration is controlled at one of the rear axle (HA) and the front axle (VA) via a brake force of an ABS architecture (ABS 2 a , ABS 2 b ) and the other of the rear axle (HA) and the front axle (VA) is controlled via a brake force of an axle modulator; and, only the brake circuit (BK 1 ; BK 2 ) of the axle (HA; VA) whose brake force is controlled via the axle modulator is activated by the central control unit. 4. The method of claim 1 , wherein the axle (HA; VA) with the finer gradation (Δp) in the pressure change is activated by the central control unit when the deceleration request (a) lies in a range greater than 0, and in the event of a predefined or predefinable higher deceleration request (a), the brake circuit (BK 1 ; BK 2 ) for the hitherto unbraked axle (HA; VA) is automatically additionally activated by the central control unit. 5. The method of claim 4 , wherein the connection of the additional brake circuit (BK 1 , BK 2 ) takes place in dependence on at least one of the deceleration threshold value (a 1 ) and the pressure threshold value (p 1 ) and the differential slip threshold value (s 1 ). 6. The method of claim 4 , wherein a pressure jump that occurs in the additionally activated brake circuit (BK 1 ; BK 2 ) is compensated for by reducing the pressure in the brake circuit (BK 1 ; BK 2 ) having finer gradation (Δp). 7. The method of claim 3 , wherein the manipulation of the deceleration is effected by a brake force at the rear axle (HA) by the axle modulator. 8. A braking system for a vehicle comprising: a central control unit; an actuating element for the braking system having a brake valve (FBV); a first brake circuit (BK 1 ) for a rear axle (HA); and, a second brake circuit (BK 2 ) for a front axle (VA); said central control unit, in dependence upon at least one of the following: (i) a traveling speed of the vehicle; and, (ii) a deceleration request (a) by an electronic request for deceleration (XBR); being configured to activate and control only that one of said brake circuits (BK 1 , BK 2 ) from said first and second brake circuits (BK 1 , BK 2 ) that has a gradation in a change of pressure (Δp) for substantially continuous, jolt-fee manipulation of said deceleration (a); wherein said first brake circuit (BK 1 ) or said second brake circuit (BK 2 ) comprises an ABS architecture (ABS 2 a , ABS 2 b ) and the other brake circuit (BK 2 , BK 1 ), comprises an axle modulator; and, said central control unit connects only the brake circuit (BK 1 , BK 2 ) of the axle (HA; VA) whose deceleration is controllable via a brake force of the axle modulator. 9. A braking system for a vehicle comprising: a central control unit; an actuating element for the braking system having a brake valve (FBV); a rear brake circuit (BK 1 ) for a rear axle (HA); and, a front brake circuit (BK 2 ) for a front axle (VA); wherein a first brake circuit of said rear brake circuit (BK 1 ) and said front brake circuit (BK 2 ) permits a finer gradation in a change of pressure (Δp) for substantially continuous, jolt-free manipulation of the deceleration via the central control unit than a second of the rear brake circuit (BK 1 ) and the front brake circuit (BK 2 ); said central control unit, in dependence upon at least one of the following: (i) a traveling speed of the vehicle; and, (ii) a deceleration request (a) by an electronic request for deceleration (XBR); being configured to activate and control only said first brake circuit; and, wherein a maximum permissible deceleration request (a) in the event of which only said first brake circuit is activated lies in the range between 0 m/sec 2 and 2 m/sec 2 ; and, when the maximum permissible deceleration request (a) is exceeded, said central control unit automatically additionally activates the brake circuit (BK 1 ; BK 2 ) with an ABS architecture (ABS 2 a , ABS 2 b ).