Configuration switch and bus participant comprising such a configuration switch

The invention claimed is: 1. A configuration switch for setting a specific configuration from a plurality of settable configurations, comprising: a plurality of selectable, mutually differing resistive-capacitive (RC) combinations implemented by a series connection of a capacitance and a parallel circuit having a plurality of parallel circuit branches each of which includes at least one mutually differing resistance and a switch connected in series with the resistance, wherein a specific RC combination is selectable by actuating at least one specific switch, and wherein each of the plurality of RC combinations has at least one specific, characteristic variable that is associated with a settable configuration; a pull-up resistor connected in series with the capacitance and the parallel circuit and further connected to a supply voltage; a switch element, including a transistor switch; a comparator including a Schmitt trigger having a first switching threshold and a different, second switching threshold, wherein the comparator is connected in parallel with the parallel circuit and an output, wherein to set a specific configuration, a specific RC combination of the plurality of RC combinations is selectable, wherein the switch element is arranged in such a manner and is controllable by the comparator such that the capacitance is chargeable via the resistance of the specifically selected RC combination and the pull-up resistor until reaching the first switching threshold and is dischargeable only via the resistance of the specifically selected RC combination and not the pull-up resistor until reaching the second switching threshold, wherein an output signal on the output of the configuration switch includes the specific, characteristic variable of the selected RC combination, and wherein the specific configuration to be set is established based on the specific, characteristic variable. 2. The configuration switch as claimed in claim 1 , wherein the specific configuration to be set and/or the plurality of settable configurations comprise an address of a bus participant, including a slave address of a Profibus- and/or ModBus participant. 3. The configuration switch as claimed in claim 1 , wherein the configuration switch is further embodied in such a manner that at least the RC combination selected to set the specific configuration is excited to self-oscillation. 4. The configuration switch as claimed in the claim 3 , wherein the characteristic variable includes at least one frequency of the self-oscillating RC combination selected to set the specific configuration so that the specific configuration to be set is determinable via the frequency of the output signal. 5. The configuration switch as claimed in claim 3 , wherein the configuration switch is further embodied in such a manner that the RC combinations have mutually differing duty factors, so that the characteristic variable includes supplementally a duty factor of the self-oscillating RC combination selected to set the specific configuration, so that the specific configuration to be set is determinable via the duty factor. 6. The configuration switch as claimed in claim 1 , wherein the configuration switch is further embodied in such a manner that when the output signal on the output is drawn to a low level, the capacitance discharges, and when the output signal on the output is switched to a high impedance, the capacitance charges as a function of the specifically selected RC combination according to a specific time constant, wherein the characteristic variable includes the specific time constant of the specifically selected RC combination, so that the specific configuration to be set is established via the output signal on the output of the configuration switch based on the specific time constant. 7. A bus participant, comprising: a configuration switch, including: a plurality of selectable, mutually differing resistive-capacitive (RC) combinations implemented by a series connection of a capacitance with a parallel circuit having a plurality of parallel circuit branches each of which includes at least one mutually differing resistance and a switch connected in series with the resistance, wherein each of the plurality of RC combinations has at least one specific, characteristic variable that is associated with a settable configuration; and an output, wherein to set a specific configuration, a specific RC combination of the plurality of RC combinations is selectable by actuating at least one specific switch, wherein an output signal on the output of the configuration switch includes the specific, characteristic variable of the selected RC combination, and wherein the specific configuration to be set is established based on the specific, characteristic variable; a pull-up resistor connected in series with the capacitance and the parallel circuit and further connected to a supply voltage; a switch element, including a transistor switch; a comparator including a Schmitt trigger having a first switching threshold and a different, second switching threshold, wherein the comparator is connected in parallel with the parallel circuit; and a computing unit, including a microprocessor, which is connected via a pin with the output of the configuration switch, so that the computing unit is fed the output signal which contains the characteristic variable, wherein the computing unit is adapted based on the characteristic variable to ascertain the specific configuration to be set from a plurality of settable configurations, wherein the switch element is arranged in such a manner and is controllable by the comparator such that the capacitance is chargeable via the resistance of the specifically selected RC combination and the pull-up resistor until reaching the first switching threshold and is dischargeable only via the resistance of the specifically selected RC combination and not the pull-up resistor until reaching the second switching threshold. 8. The bus participant as claimed in claim 7 , wherein the computing unit is further adapted to draw the output signal on the output to a low level, so that the capacitance discharges, and, after the discharging, to switch the output signal on the output to a high impedance, so that the capacitance charges as a function of the specifically selected RC combination according to the specific time constant, wherein the computing unit is adapted, furthermore, to ascertain the specific configuration to be set based on the specific time constant as characteristic variable. 9. The bus participant as claimed in claim 8 , wherein the computing unit is designed to ascertain the characteristic variable via a Schmitt trigger input or by an analog to digital converter input. 10. The bus participant according to claim 7 , wherein the configuration switch is embodied as a self-oscillating oscillator having a frequency set by the specifically selected RC combination, wherein the computing unit is further adapted to determine the frequency of oscillation of the configuration switch from the output signal, and wherein the computing unit is further adapted to set the specific configuration based on the frequency of oscillation. 11. The bus participant according to claim 7 , wherein the configuration switch is embodied as a self-oscillating oscillator having a frequency set by the specifically selected RC combination, wherein the configuration switch is further embodied such that the RC combinations have mutually differing duty factors, wherein the computing unit is further adapted to determine the frequency of oscillation of the configuration switch from the output signal and to determine a duty factor of the output