Method for controlling a hydrodynamic retarded that can be disengaged by a disconnect clutch

What is claimed is: 1. A method for controlling a hydrodynamic retarder in a motor vehicle that can be mechanically disengaged via a disconnect clutch, comprising a drive motor whose power output is controlled via an actuator such as a foot pedal or a lever; wherein subject to activation of the actuator, the drive motor is driven in a first operating state known as a traction operation wherein drive power of the drive motor is transmitted via a drive train of the motor vehicle to drive wheels to accelerate the motor vehicle and, in a second operating state known as an overrun operation, the drive power is transmitted from the drive wheels into the drive train; wherein the hydrodynamic retarder includes a driven bladed rotor and one of a bladed stator and a bladed counter-rotating rotor driven in a direction opposite to the direction of the bladed rotor, that together form a working chamber that can be filled with a working medium and drained of the working medium; wherein the driven bladed rotor is operable to be selectively disconnected by way of the disconnect clutch from the drive train and is operable to be connected with same for co-joint rotation; wherein in a braking mode initiated by an operator of the motor vehicle or by a driver assist system the bladed rotor is driven opposite the stationary bladed stator or in the opposite direction from the bladed counter-rotating rotor and with the working chamber filled, torque from the driven bladed rotor is transferred to the bladed stator or to the counter-rotating rotor; wherein in a non-braking mode initiated by an operator of the motor vehicle or by the driver assist system with the disconnect clutch disengaged the transfer of driving power to at least one of the driven bladed rotor and the bladed counter-rotating rotor is interrupted and the working chamber is drained of the working medium; wherein during the transition from the non-braking mode to the braking mode the disconnect clutch is engaged and the working chamber is filled with the working medium; and wherein during the transition from the braking mode to the non-braking mode the working chamber is drained of the working medium and the disconnect clutch is disengaged simultaneously or time-delayed; in the overrun operation the acceleration of the motor vehicle is collected or detected and compared with a pre-specified acceleration limit; and in the non-braking mode when the acceleration exceeds said acceleration limit the disconnect clutch is engaged, regardless of an initiation of the braking mode by the operator of the motor vehicle or the driver assist system and the working chamber is maintained drained. 2. The method of claim 1 , wherein that in the overrun operation in the non-braking mode, the engaged disconnect clutch is only subsequently opened at a start of the next traction operation. 3. The method of claim 1 , wherein the disconnect clutch that is engaged during the overrun operation in the non-braking mode is subsequently disengaged during the overrun operation as soon as the collected or detected acceleration is below a pre-specified amount of the acceleration limit. 4. The method of claim 3 , wherein the disconnect clutch that is engaged during the overrun operation in the non-braking mode is also disengaged again at a start of the next traction operation. 5. A method for controlling a hydrodynamic retarder in a motor vehicle that can be mechanically disengaged via a disconnect clutch, comprising a drive motor whose power output is controlled via an actuator such as a foot pedal or a lever; wherein the drive motor is driven in a first operating state known as a traction operation wherein drive power of the drive motor is transmitted via a drive train of the motor vehicle to drive wheels to accelerate the motor vehicle and, in a second operating state known as an overrun operation, the drive power is transmitted from the drive wheels into the drive train; wherein the hydrodynamic retarder includes a driven bladed rotor and one of a bladed stator and a bladed counter-rotating rotor driven in a direction opposite to the direction of the bladed rotor, that together form a working chamber that can be filled with a working medium and drained of the working medium; wherein the bladed stator is operable to be selectively disconnected by way of the disconnect clutch in respect to a stationary support and is operable to be connected with same for co-joint rotation, or the bladed counter-rotating rotor is operable to be selectively disconnected by way of the disconnect clutch from the drive train and is operable to be connected with same for co-joint rotation; wherein in a braking mode initiated by an operator of the motor vehicle or by a driver assist system, the bladed rotor is driven with the disconnect clutch engaged opposite the stationary bladed stator or via the bladed counter-rotating rotor that is driven in the opposite direction of the bladed rotor, and with a filled working chamber the torque from the bladed rotor is transferred to the bladed stator or the bladed counter-rotating rotor; wherein with the disconnect clutch disengaged in a non-braking mode by an operator of the motor vehicle or by a driver assist system, the coupling of the bladed stator opposite a stationary support or the drive power transfer from the drive train to the bladed counter-rotating rotor is interrupted; wherein during the transition from the non-braking mode to the braking mode the disconnect clutch is engaged and the working chamber is filled with the working medium; and wherein during the transition from the braking mode to the non-braking mode the working chamber is drained of the working medium and the disconnect clutch is disengaged simultaneously or time-delayed; in the overrun operation the acceleration of the motor vehicle is collected or detected and compared with a pre-specified acceleration limit; and in the non-braking mode when the acceleration exceeds said acceleration limit the disconnect clutch is engaged, regardless of an initiation of the braking mode by the operator of the motor vehicle or the driver assist system and the working chamber is maintained drained. 6. The method of claim 5 , wherein that in the overrun operation in the non-braking mode, the engaged disconnect clutch is only subsequently opened at a start of the next traction operation. 7. The method of claim 5 , wherein the disconnect clutch that is engaged during the overrun operation in the non-braking mode is subsequently disengaged during the overrun operation as soon as the collected or detected acceleration is below a pre-specified amount of the acceleration limit. 8. The method of claim 7 , wherein the disconnect clutch that is engaged during the overrun operation in the non-braking mode is also disengaged again at a start of the next traction operation. 9. A method for controlling a hydrodynamic retarder in a motor vehicle that can be mechanically disengaged via a disconnect clutch, comprising a drive motor whose power output is controlled via an actuator such as a foot pedal or a lever; wherein the drive motor is driven in a first operating state known as a traction operation wherein drive power of the drive motor is transmitted via a drive train of the motor vehicle to drive wheels to accelerate the motor vehicle and, in a second operating state known as an overrun operation, the drive power is transmitted from the drive wheels into the drive train; wherein the hydrodynamic retarder includes a driven bladed rotor and one of a bladed stator and a bladed counter-rotating rotor driven in a direction opposite to the direction of the bladed rotor, that together form a working chamber that can be filled with a working medium and drained of th