A charging device for charging a mobile device using a charging component includes a power connector and a thermal monitoring device. The power connector includes a housing having an end wall between a front and a rear. The housing includes power contact channels with power contacts received therein. The thermal monitoring device is coupled to the end wall of the housing. The thermal monitoring device includes a substrate, a mating connector mounted to the substrate, and a temperature sensor mounted to the substrate. The temperature sensor is electrically connected to the mating connector being positioned in close proximity with at least one of the power contacts such that the temperature sensor is in thermal communication with the power contact for monitoring the temperature of the power contact.

A thermal sensor module, comprising: a housing, wherein the housing comprises a first end and a second end, wherein the housing is hollow and configured to allow a fluid to flow into the housing through the first end and exit through the second end; a heat source, wherein the heat source is disposed at a central axis of the housing and traverses at least partially through the housing; and a temperature sensor, wherein the temperature sensor is positioned in the housing to measure temperature of the fluid flowing in the housing.

In described examples, a measurement circuit includes an isolated power supply that generates an output signal in response to an input signal. A signal processing circuit is coupled to the isolated power supply and generates a first signal in response to a sense signal. A load manipulator circuit is coupled to the signal processing circuit and the isolated power supply. The load manipulator circuit receives the first signal. A detect circuit is coupled to the isolated power supply and generates a second signal in response to the input signal.

In described examples, a measurement circuit includes an isolated power supply that generates an output signal in response to an input signal. A signal processing circuit is coupled to the isolated power supply and generates a first signal in response to a sense signal. A load manipulator circuit is coupled to the signal processing circuit and the isolated power supply. The load manipulator circuit receives the first signal. A detect circuit is coupled to the isolated power supply and generates a second signal in response to the input signal.

A temperature monitoring system for monitoring a temperature status of an item from a location different than a location at which the item is located is disclosed. The temperature monitoring system includes a base having a top surface and a bottom surface, and a first unit removably engageable with the top surface of the base in at least a first orientation and a second orientation. The first unit is configured to monitor a measured temperature, to display information regarding the measured temperature, and/or to transmit temperature information to a user device. The temperature monitoring system may also include at least one thermal or temperature probe configured to measure the temperature of the item, including a probe tip, probe wire, and probe plug. The temperature monitoring system may also include one or more probe supports configured to releasably attach to the base and configured to releasably retain a thermal probe thereon.

A temperature monitoring system for monitoring a temperature status of an item from a location different than a location at which the item is located is disclosed. The temperature monitoring system includes a base having a top surface and a bottom surface, and a first unit removably engageable with the top surface of the base in at least a first orientation and a second orientation. The first unit is configured to monitor a measured temperature, to display information regarding the measured temperature, and/or to transmit temperature information to a user device. The temperature monitoring system may also include at least one thermal or temperature probe configured to measure the temperature of the item, including a probe tip, probe wire, and probe plug. The temperature monitoring system may also include one or more probe supports configured to releasably attach to the base and configured to releasably retain a thermal probe thereon.

In a sensor apparatus for detecting the temperature on a flat component, particularly on a window of a motor vehicle, having at least one sensor housing, having at least one circuit carrier, at least a section of which is arranged inside the sensor housing, and having at least one temperature sensor arranged on the circuit carrier, it is provided as essential to the invention that the circuit carrier includes at least one section embodied as a contact finger, that the temperature sensor is arrange on the contact finger, that the contact finger has a contact region for thermal coupling with the flat component, that the contact region is connected in thermally conductive manner to the temperature sensor, that the sensor housing has at least one deflection element impinging on the contact finger with a bias.

In a sensor apparatus for detecting the temperature on a flat component, particularly on a window of a motor vehicle, having at least one sensor housing, having at least one circuit carrier, at least a section of which is arranged inside the sensor housing, and having at least one temperature sensor arranged on the circuit carrier, it is provided as essential to the invention that the circuit carrier includes at least one section embodied as a contact finger, that the temperature sensor is arrange on the contact finger, that the contact finger has a contact region for thermal coupling with the flat component, that the contact region is connected in thermally conductive manner to the temperature sensor, that the sensor housing has at least one deflection element impinging on the contact finger with a bias.

An electrical junction box includes: a bus bar; a frame that holds the bus bar; and a temperature detection member that detects the temperature of the bus bar, wherein the temperature detection member includes a detection main body part capable of detecting temperature, and a wiring part extending from the detection main body part, and is held by one or more holding parts, the frame is integrally molded in a shape including a frame part surrounding a periphery of at least a part of the bus bar that includes a detection target portion to be subjected to detection by the temperature detection member, and at least one holding part of the one or more holding parts, and the at least one holding part of the one or more holding parts is provided so as to be located inward of the frame part.

Electrode devices are provided having certain thin film components, including at least one thin film contact and a temperature sensor associated with the contact. The temperature sensor can be used to monitor the temperature during use of the electrode device, including during electrical stimulation or ablation. Further, the temperature sensor can be used to identify the most effective temperature for stimulation or ablation.