A fluid property detecting device includes a detection portion configured to detect electric characteristics of a detection target fluid, a calculation portion configured to calculate a property value of the detection target fluid, and a storage portion configured to store the property value calculated by the calculation portion. The storage portion stores, in advance, as the reference detection value, the detection value of the electric characteristic of a reference fluid detected by the detection portion, and the calculation portion calculates the property value of the detection target fluid on the basis of a value obtained by subtracting the reference detection value from a detection value of the detection target fluid.

A shock awareness system including a shock detector for measuring an electrical condtion in a body of water and a remote station in communication with the shock detector with the shock awareness system displaying a measured electrical condtion in the body of water in relation to a known hazardous electrical condtion in the body of water to enable an operator to determine a level of danger in a body of water.

A shock awareness system including a shock detector for measuring an electrical condtion in a body of water and a remote station in communication with the shock detector with the shock awareness system displaying a measured electrical condtion in the body of water in relation to a known hazardous electrical condtion in the body of water to enable an operator to determine a level of danger in a body of water.

A device includes a channel, a slit, and a cap. The channel is formed on a surface of the device. The slit separates the channel to a first portion and a second portion. The first portion comprises liquid metal, e.g., gallatin. The second portion comprises gas. The liquid metal moves within the channel between the first and the second portions in response to external stimuli, e.g., pressure. The liquid metal moving within the channel changes electrical characteristics, e.g., capacitive value, inductance value, resistance value, resonance frequency, etc., of the device.

A device includes a channel, a slit, and a cap. The channel is formed on a surface of the device. The slit separates the channel to a first portion and a second portion. The first portion comprises liquid metal, e.g., gallatin. The second portion comprises gas. The liquid metal moves within the channel between the first and the second portions in response to external stimuli, e.g., pressure. The liquid metal moving within the channel changes electrical characteristics, e.g., capacitive value, inductance value, resistance value, resonance frequency, etc., of the device.

A system for measuring the state of degradation of cooking oil or fat includes at least one fryer pot. A conduit is fluidly connected to the fryer pot for transporting cooking oil from the fryer pot and returning the cooking oil back to the fryer pot. A pump is provided for re-circulating cooking oil to and from the fryer pot. A sensor is disposed in fluid communication with the conduit and measures an electrical property of the cooking oil as the cooking oil flows past the sensor and is returned to the at least one fryer pot.

Provided is a gas detection device that includes a gas sensor, a power supply circuit that applies voltage to the gas sensor, and a control circuit that determines whether a leak of gas is present. The power supply circuit includes a reset power source that generates a first voltage, and a detection power source that generates a detection voltage for measuring resistance of a metal-oxide layer of the gas sensor. When a value of a current flowing through the metal-oxide layer is a predetermined value ITH or greater, the reset power source applies the first voltage to the gas sensor to perform a reset of resetting the metal-oxide layer of the gas sensor to a high-resistance state, and the control circuit determines that a leak of gas is present, depending on a state in which the reset is performed after the reset is performed for the first time.

Provided is a gas detection device that includes a gas sensor, a power supply circuit that applies voltage to the gas sensor, and a control circuit that determines whether a leak of gas is present. The power supply circuit includes a reset power source that generates a first voltage, and a detection power source that generates a detection voltage for measuring resistance of a metal-oxide layer of the gas sensor. When a value of a current flowing through the metal-oxide layer is a predetermined value ITH or greater, the reset power source applies the first voltage to the gas sensor to perform a reset of resetting the metal-oxide layer of the gas sensor to a high-resistance state, and the control circuit determines that a leak of gas is present, depending on a state in which the reset is performed after the reset is performed for the first time.

A detection system and a detection method for water content and conductivity are provided. The detection system includes a double-sided microstrip circuit and a detection circuit; the double-sided microstrip circuit includes a shielding ground layer; a measurement side circuit and a reference side circuit are respectively arranged at two sides of the shielding ground layer and both include an insulating layer and a wire; the detection circuit includes a signal generator connected to a microprocessor and a power divider; two output ends and a ground end of the power divider are respectively electrically connected to first ends of a reference wire, a measurement wire, and the shielding ground layer; a second end of the reference wire is connected to an amplitude and phase discriminator through a phase shifter; second ends of the measurement wire and the shielding ground layer are directly connected to the amplitude and phase discriminator.

A conductivity sensor for measuring the electrical conductivity of a liquid medium having at least a first coil, a current source and a control and evaluation unit, the current source being connected to the first coil. The conductivity sensor has the ability to determine a particularly large range of electric conductivity by at least a first electrode and a second electrode and at least one voltage measuring unit being provided, the voltage measuring unit being connected to the first electrode and the second electrode, the control and evaluation unit being connected to the current source and to the voltage measuring unit, and the first electrode and the second electrode being out of electrical contact with the first coil.