Pneumatic brake assistance arrangement

What is claimed is: 1. A pneumatic brake assistance arrangement for an internal combustion engine, the pneumatic brake assistance arrangement comprising: a pneumatic conduit; a vacuum brake assistance unit comprising a vacuum chamber; and a vacuum pump comprising, an input shaft configured to be directly driven by the internal combustion engine, a pumping unit comprising a pump rotor and a suction port, the vacuum chamber of the vacuum brake assistance unit being connected with the suction port of the pumping unit, and a magneto-rheological clutch arranged between the input shaft and the pump rotor, the magneto-rheological clutch comprising, an input clutch body, an output clutch body, a closed clutch liquid gap arranged between the input clutch body and the output clutch body, the closed clutch liquid gap being filled with a magneto-rheological clutch liquid, a permanent magnet element configured to be shiftable between an engaged position wherein a magnetic field of the permanent magnet element penetrates the closed clutch liquid gap with a high magnetic flux, and a disengaged position wherein the magnetic field of the permanent magnet element is less than in the engaged position, and a pneumatic control circuit configured to move the permanent magnet element between the engaged position and the disengaged position, the pneumatic control circuit comprising a pneumatic actuation chamber comprising a piston and a passive pretension element, wherein, the pneumatic actuation chamber is connected to the vacuum chamber of the vacuum brake assistance unit via the pneumatic conduit, the piston is configured to directly shift the permanent magnet element into the engaged position when a high pressure exists in the vacuum chamber, and the passive pretension element is configured to pretention the piston so that the permanent magnet element is in the disengaged position or in the engaged position. 2. The pneumatic brake assistance arrangement as recited in claim 1 , further comprising a cavity defined by the input clutch body and the output clutch body, wherein, the piston is defined by the permanent magnet element, and the pneumatic actuation chamber is defined by the cavity. 3. The pneumatic brake assistance arrangement as recited in claim 1 , wherein the pneumatic actuation chamber further comprises a vacuum inlet connected with the pneumatic conduit. 4. The pneumatic brake assistance arrangement as recited in claim 3 , further comprising a venting channel configured to vent the actuation chamber with atmospheric pressure in a pneumatic opposition to the vacuum inlet. 5. The pneumatic brake assistance arrangement as recited in claim 1 , wherein the permanent magnet element is arranged so as to be shiftable in an axial direction. 6. The pneumatic brake assistance arrangement as recited in claim 1 , wherein, the input clutch body and the output clutch body are each configured to have a cup-shape so that the closed clutch liquid gap is provided as a cup-shaped gap defining a cup-shaped cavity between the input clutch body and the output clutch body, and the permanent magnet element, in the engaged position, is positioned inside the cup-shaped cavity. 7. The pneumatic brake assistance arrangement as recited in claim 1 , wherein, the piston directly shifts the permanent magnet element into the engaged position when the high pressure is present in the vacuum chamber, and the piston is pretensioned by the passive pretension element so that the permanent magnet element is in the engaged position.