APPARATUS FOR CAPACITIVELY MEASURING CHANGES
First Claim
1. Apparatus for the capacitive measurement of changes in a sensor-active region of a sensor utilizing the production of an electrical field, wherein the sensor comprises at least two electrodes of which at least a first electrode is an at least one transmitting electrode producing the electrical field, and also a driver/evaluation unit for the evaluation of the changes measured by the sensor, wherein the at least one transmitting electrode is coupled to at least one further electrode and is arranged between the at least one further electrode and a reference potential and produces an electrical field by means of the driver/evaluation unit when in operation, wherein an output of the driver/evaluation unit is coupled to the at least one transmitting electrode and an input of the driver/evaluation unit is coupled to the at least one further electrode, wherein the at least one transmitting electrode and the at least one further electrode are fed with an independent signal with negative feedback, so that both the at least one transmitting electrode and the at least one further electrode each transmit a sensor signal, and wherein an electrical field is formed between the at least one further electrode and the reference potential due to the electrical field between the at least one transmitting electrode and the at least one further electrode that is produced by the at least one transmitting electrode, wherein a change of the capacitance between the at least one further electrode and the reference potential is detected by means of the driver/evaluation unit, and wherein the driver/evaluation unit is coupled to the at least one transmitting electrode in low impedance manner and to the at least one further electrode in high impedance manner.
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Abstract
An apparatus for capacitively measuring changes has a sensor (S) with a sensor-active region. The sensor has at least one transmitting electrode, which generates an electric field, and a further electrode (13) which is capacitively coupled to the transmitting electrode (15), wherein the transmitting electrode (15) is arranged between the further electrode (13) and an element (11) which is at a reference potential. An output of a driver/evaluation unit (5.0) is coupled to the transmitting electrode (15) and an input of the driver/evaluation unit (5.0) is coupled at high impedance to the further electrode (13), an electric field forming between the further electrode (13) and a reference potential on account of the electric field, generated by the transmitting electrode (15), between the transmitting electrode (15) and the further electrode (13). A change in the capacitance between the further electrode (13) and the reference potential is thus detected using the driver/evaluation unit (5.0). This provides a capacitive sensor which can be used to reliably detect changes in the sensor environment and is insensitive to a reference potential even in the case of a coating (18) or wetting (18).
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Citations
11 Claims
- 1. Apparatus for the capacitive measurement of changes in a sensor-active region of a sensor utilizing the production of an electrical field, wherein the sensor comprises at least two electrodes of which at least a first electrode is an at least one transmitting electrode producing the electrical field, and also a driver/evaluation unit for the evaluation of the changes measured by the sensor, wherein the at least one transmitting electrode is coupled to at least one further electrode and is arranged between the at least one further electrode and a reference potential and produces an electrical field by means of the driver/evaluation unit when in operation, wherein an output of the driver/evaluation unit is coupled to the at least one transmitting electrode and an input of the driver/evaluation unit is coupled to the at least one further electrode, wherein the at least one transmitting electrode and the at least one further electrode are fed with an independent signal with negative feedback, so that both the at least one transmitting electrode and the at least one further electrode each transmit a sensor signal, and wherein an electrical field is formed between the at least one further electrode and the reference potential due to the electrical field between the at least one transmitting electrode and the at least one further electrode that is produced by the at least one transmitting electrode, wherein a change of the capacitance between the at least one further electrode and the reference potential is detected by means of the driver/evaluation unit, and wherein the driver/evaluation unit is coupled to the at least one transmitting electrode in low impedance manner and to the at least one further electrode in high impedance manner.
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2. (canceled)
Specification