A new passive wireless electric field sensor is disclosed. This sensor does not require direct attachment to a source of power which makes it passive. It is composed of a resonator loaded with varactors. The sensor is interrogated by a remotely located device transmitting and receiving the pulses of sine wave in the resonance frequency range of the sensor. Therefore, the sensor can be mounted in the vicinity of high voltage apparatus and interrogated from a safe distance.

A new passive wireless electric field sensor is disclosed. This sensor does not require direct attachment to a source of power which makes it passive. It is composed of a resonator loaded with varactors. The sensor is interrogated by a remotely located device transmitting and receiving the pulses of sine wave in the resonance frequency range of the sensor. Therefore, the sensor can be mounted in the vicinity of high voltage apparatus and interrogated from a safe distance.

A system and method for determining a change in a thickness and temperature of a surface of a material are disclosed herein. The system and the method are usable in a thermal protection system of a space vehicle, such as an aeroshell of a space vehicle. The system and method may incorporate micro electric sensors arranged in a ladder network and capacitor strip sensors. Corrosion or ablation causes a change in an electrical property of the sensors. An amount of or rate of the corrosion or the ablation and a temperature of the material is determined based on the change of the electrical property of the sensors.

There is provided a sacrificial sensor configured to be coupled with a part and provide an indication of damage in the part, wherein an electrical property of the sacrificial sensor is configured to change as the sacrificial sensor is damaged to indicate damage to the part.

There is provided a sacrificial sensor configured to be coupled with a part and provide an indication of damage in the part, wherein an electrical property of the sacrificial sensor is configured to change as the sacrificial sensor is damaged to indicate damage to the part.

A method and system for integrity testing of sachets. The method comprises the steps of disposing at least a portion of the sachet relative to an electrode structure; applying an AC bias voltage to the electrode structure; measuring an electrical property of the portion of the sachet over a frequency range, and determining the integrity based on the measured electrical property over the frequency range.

A method and system for integrity testing of sachets. The method comprises the steps of disposing at least a portion of the sachet relative to an electrode structure; applying an AC bias voltage to the electrode structure; measuring an electrical property of the portion of the sachet over a frequency range, and determining the integrity based on the measured electrical property over the frequency range.

A sensor unit is described for measuring parameters of a fluid, in particular a hydraulic fluid, in a fluid power unit, in particular a hydraulic power unit, as well as a fluid power unit with a sensor unit and a method for measuring parameters of a fluid in a fluid power unit. The sensor unit has a contact module and two electrode pairs with two electrodes each. The electrode pairs are connected to the contact module and the longitudinal axes of the electrode pairs are arranged essentially perpendicular to each other. This enables capacitive fluid level measurements with different orientations of the sensor unit without the need to adjust the sensor system. The additional measurement of other parameters of the fluid by means of the method efficiently allows for statements about the quality of the fluid to be made.

A sensor unit is described for measuring parameters of a fluid, in particular a hydraulic fluid, in a fluid power unit, in particular a hydraulic power unit, as well as a fluid power unit with a sensor unit and a method for measuring parameters of a fluid in a fluid power unit. The sensor unit has a contact module and two electrode pairs with two electrodes each. The electrode pairs are connected to the contact module and the longitudinal axes of the electrode pairs are arranged essentially perpendicular to each other. This enables capacitive fluid level measurements with different orientations of the sensor unit without the need to adjust the sensor system. The additional measurement of other parameters of the fluid by means of the method efficiently allows for statements about the quality of the fluid to be made.

A probe for non-intrusively detecting imperfections in a test object made from metallic, non-conductive, and/or composite materials. The probe may include a capacitive measuring apparatus that includes at least two coplanar electrodes, an adjustment device to adjust a spatial separation between the electrodes, and a separation device. The separation device may maintain a substantially constant distance between the at least two coplanar electrodes and the test object during test measurements.