Proximity switch and method for detecting an object to be sensed

What is claimed is: 1. A proximity switch comprising: an oscillating circuit configured to detect carbon based on a change in amplitude of a detection signal, wherein the oscillating circuit has a resonant frequency in a range of from 0.8 MHz to 20 MHz, wherein the oscillating circuit comprises a first pair of coils, a second pair of coils, and a capacitor, wherein the first pair of coils includes a first transmitting coil and a first receiving coil, and wherein the second pair of coils includes a second transmitting coil and a second receiving coil. 2. The proximity switch according to claim 1 , wherein the oscillating circuit has a resonant frequency in a range of from 1 MHz to 14 MHz. 3. The proximity switch according to claim 1 , wherein the first transmitting coil and/or the second transmitting coil are each formed as a printed transmitting coil. 4. The proximity switch according to claim 1 , wherein the first transmitting coil and/or the second transmitting coil has an inductance in a range of from 0.4 μH to 4 μH; and/or wherein the capacitor has a capacitance in a range of from 22 pF to 2.2 nF. 5. The proximity switch according to claim 1 , further comprising an amplifier configured to amplify a received signal received by the oscillating circuit, wherein the amplifier has at least one filter stage and at least one capacitive element matched to the resonant frequency of the oscillating circuit. 6. The proximity switch according to claim 5 , wherein the amplifier is set up to reduce external capacitive influences on a phase position of the excitation of the oscillating circuit. 7. A method for detecting carbon with a proximity switch, the method comprising: providing an oscillating circuit in the proximity switch, the oscillating circuit comprising a first pair of coils, a second pair of coils, and a capacitor, wherein the first pair of coils includes a first transmitting coil and a first receiving coil and the second pair of coils includes a second transmitting coil and a second receiving coil; emitting, by the proximity switch, a detection signal at a frequency in a range of from 0.8 MHz to 20 MHz, and detecting carbon using the oscillating circuit based on a change in amplitude of the detection signal. 8. The proximity switch according to claim 3 , wherein the first transmitting coil and/or the second transmitting coil has an inductance in a range of from 0.4 μH to 4 μH; and/or wherein the capacitor has a capacitance in a range of from 22 pF to 2.2 nF. 9. The proximity switch according to claim 1 , wherein the proximity switch is configured as an inductive proximity switch. 10. The method according to claim 7 , wherein the detection signal comprises only a single frequency. 11. The proximity switch according to claim 1 , wherein the detection signal is emitted by the oscillating circuit, the detection signal being emitted with the resonant frequency of the oscillating circuit. 12. The proximity switch according to claim 1 , wherein the resonant frequency is 7 MHz. 13. A proximity switch comprising: an oscillating circuit configured to detect carbon based on a change in amplitude of a detection signal, the oscillating circuit comprising a first pair of coils and a second pair of coils, the first pair of coils including a first transmitting coil and a first receiving coil, and the second pair of coils including a second transmitting coil and a second receiving coil; and an amplifier configured to amplify a received signal received by the oscillating circuit, wherein the oscillating circuit has a resonant frequency in a range of from 0.8 MHz to 20 MHz, and wherein the amplifier has at least one filter stage and at least one capacitive element matched to the resonant frequency of the oscillating circuit. 14. The proximity switch according to claim 13 , wherein the oscillating circuit has a resonant frequency in a range of from 1 MHz to 14 MHZ. 15. The proximity switch according to claim 13 , wherein the amplifier is set up to reduce external capacitive influences on a phase position of the excitation of the oscillating circuit. 16. The proximity switch according to claim 13 , wherein the proximity switch is configured as an inductive proximity switch. 17. The proximity switch according to claim 13 , wherein the detection signal is emitted by the oscillating circuit, the detection signal being emitted with the resonant frequency of the oscillating circuit. 18. The proximity switch according to claim 13 , wherein the resonant frequency is 7 MHz. 19. The proximity switch according to claim 1 , wherein the first pair of coils are wound in the same direction and the second pair of coils are wound in an opposite direction relative to one another.