Process for operating a capacitive switch and a circuit of a capacitive switch
First Claim
1. Process for operating a capacitive switch, the switch having an oscillator which delivers a measurement signal, a capacitive sensor consisting of at least one sending electrode and one measurement electrode, and an evaluation circuit, comprising the steps of:
- frequency-spreading the measurement signal by a noise signal delivered by a noise source, emitting the frequency-spread measurement signal by the sending electrode of the capacitive sensor, sending the frequency-spread measurement signal to a first input of a correlator, sending a receive signal picked up by the measurement electrode of the sensor to the second input of the correlator, and sending an output signal of the correlator to the evaluation circuit.
1 Assignment
0 Petitions
Accused Products
Abstract
A capacitive switch is presented including an oscillator, with a gauge length and an evaluation circuit. The oscillator delivers a measurement signal and the gauge length has at least one sensor with a sending electrode and a measurement electrode. The switch has a low noise emission and is especially invulnerable to incident noise due to the fact that there is a noise source and two correlators. In the first correlator, frequency-spreading of the measurement signal takes place. The frequency-spreading measurement signal is connected to the second input of the second correlator and to the sending electrode. The measurement electrode is connected to the first input of the second correlator.
27 Citations
20 Claims
-
1. Process for operating a capacitive switch, the switch having an oscillator which delivers a measurement signal, a capacitive sensor consisting of at least one sending electrode and one measurement electrode, and an evaluation circuit, comprising the steps of:
-
frequency-spreading the measurement signal by a noise signal delivered by a noise source, emitting the frequency-spread measurement signal by the sending electrode of the capacitive sensor, sending the frequency-spread measurement signal to a first input of a correlator, sending a receive signal picked up by the measurement electrode of the sensor to the second input of the correlator, and sending an output signal of the correlator to the evaluation circuit. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9)
producing the frequency spreading of the measurement signal or the auxiliary signal by frequency modulation of the measurement signal or the auxiliary signal with the noise signal.
-
-
4. Process as claimed in claim 3, wherein frequency modulation of the measurement signal or auxiliary signal takes place by a transistor which is used at the same time as a noise amplifier, or using a phase locked loop (PLL) as a clock generator.
-
5. Process as claimed in claim 1, further comprising the step of:
producing the frequency spreading of the measurement signal or the auxiliary signal by phase shift keying the measurement signal or the auxiliary signal.
-
6. Process as claimed in claim 5, wherein frequency spreading of the measurement signal or the auxiliary signal takes place using a binary random signal obtained from the noise signal by 0/180°
- phase shift keying.
-
7. Process as claimed in claim 6, wherein phase shift keying takes place by means of an inverter, said inverter comprising an EX-OR gate or a ring mixer.
-
8. Process as claimed in claim 1, wherein an emitter diode of a transistor in breakdown operation is used as the noise source.
-
9. Process as claimed in claim 1 to 7 wherein a digital noise source with a pseudorandom sequence with a finite period length is used as the noise source.
-
2. Process for operating a capacitive switch, the switch having an oscillator which delivers a measurement signal, a capacitive sensor comprising at least one sending electrode and one measurement electrode, and an evaluation circuit, comprising the steps of:
-
generating, by a second oscillator, an auxiliary signal which has the same or a slightly different frequency from the measurement signal, frequency-spreading the measurement signal and the auxiliary signal by a noise signal delivered by the noise source, emitting the frequency-spread measurement signal by the sending electrode of the capacitive sensor, sending the frequency spread auxiliary signal to the first input of a correlator, picking up the received signal by the measurement electrode of the sensor sending the received signal to the second input of the correlator, and sending the output signal of the correlator to the evaluation circuit.
-
-
10. Circuit of a capacitive switch, comprising:
-
an oscillator delivering a measurement signal;
a gauge length having at least one sensor with a sending electrode and a measurement electrode;
an evaluation circuit, a noise source; and
first and second correlators, wherein frequency spreading of the measurement signal takes place in the first correlator by modulating the measurement signal and the noise source, wherein an output from the first correlator comprising the frequency-spread measurement signal is connected to a first input of the second correlator and to the sending electrode, and wherein the measurement electrode is connected to a second input of the second correlator. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
a second oscillator which produces an auxiliary signals, and a second inverter, wherein a first input of the second inverter is connected to the the output of the second oscillator and the second input of the second inverter is connected to the noise source, and wherein the output of the first inverter is connected to the sending electrode and the output of the second inverter is connected to the first input of the second correlator.
-
-
15. Circuit as claimed in claim 14, further comprising a matching network connected between the output of the second inverter and the first input of the second correlator.
-
16. Circuit as claimed in claim 13, wherein the inverter is an EX-OR gate.
-
17. Circuit as claimed in claim 14, wherein both the oscillators and the inverters are integrated in an IC.
-
18. Circuit as claimed in claim 10, wherein the evaluation circuit comprises a filter, an amplifier and a voltage comparator.
-
19. Circuit as claimed in claim 10, wherein the oscillator comprises an LC oscillator.
-
20. Circuit as claimed in claim 10 wherein the second correlator is a multiplier, relay or polarity correlator.
-
11. Circuit as claimed in claim 21, wherein the noise source comprises an emitter diode of a transistor in breakdown operation.
Specification