Circuit arrangement for an electromagnetic holding brake

What is claimed is: 1. A circuit arrangement for supplying an electromagnetic holding brake of an electric motor with an operating voltage from a higher-level control system disposed separately from the motor and the holding brake that releases the holding brake, and for supplying a holding voltage that is reduced relative to the operating voltage and holds the holding brake in the released position, the circuit arrangement comprising: a switching element connected to a terminal of the holding brake by which the operating voltage is applied to the holding brake; a voltage divider connected to receive and adjust a voltage tapped from the terminal of the holding brake relative to a reference voltage that is derived from an upper potential of the operating voltage; a comparator having a first input connected to receive the reference voltage, a second input connected to receive the voltage tapped from the terminal of the holding brake that was adjusted by the voltage divider and an output connected with the switching element, the comparator being configured to determine that the voltage at the second input has fallen below the reference voltage at the first input and to output a pulse-width modulated signal which operates the switching element in a pulsed mode so as to produce, on average, the holding voltage; and a starting capacitor connected with the second input of the comparator and dimensioned such that the pulse-width modulated signal is not emitted at the output of the comparator for an amount of time sufficient to initially apply the operating voltage to release the holding brake. 2. The circuit arrangement as recited in claim 1 , further comprising a smoothing capacitor connected to the second input of the comparator so as to convert the voltage tapped from the holding brake to a triangular voltage. 3. The circuit arrangement as recited in claim 1 , wherein the output of the comparator is coupled back to the first input via a resistor which is dimensioned such that a switching frequency of the switching element is in a range of 1-10 kHz. 4. The circuit arrangement as recited in claim 1 , further comprising a Zener diode and a resistor connected with the upper potential of the operating voltage so as to produce the reference voltage at the first input of the comparator. 5. The circuit arrangement as recited in claim 1 , further comprising a discharge diode configured to discharge the starting capacitor in a state in which no operating voltage is applied to the circuit arrangement. 6. The circuit arrangement as recited in claim 1 , wherein the switching element is configured as an n-channel MOSFET connecting a negative terminal of the holding brake to the lower potential of the operating voltage. 7. The circuit arrangement as recited in claim 1 , further comprising a free-wheeling switching element configured to block a free-wheeling current through the holding brake in a state in which no operating voltage is applied to the circuit arrangement. 8. The circuit arrangement as recited in claim 7 , further comprising a suppressor diode connected in parallel with the free-wheeling switching element.