There may be provided a machining monitor that may include (i) a sensing unit that comprises a thermal sensor, (ii) a processor, (iii) a communication unit, and (iv) a housing. The thermal sensor is configured to (a) thermally sense a sensed region related to the machining during a machining, and while being rotated by a mechanical coupling to a rotation of a cutting tool, and (b) generate thermal detection signals. The processor is configured to determine a temperature parameter related of the sensed region based on the thermal detection signals.

There may be provided a machining monitor that may include (i) a sensing unit that comprises a thermal sensor, (ii) a processor, (iii) a communication unit, and (iv) a housing. The thermal sensor is configured to (a) thermally sense a sensed region related to the machining during a machining, and while being rotated by a mechanical coupling to a rotation of a cutting tool, and (b) generate thermal detection signals. The processor is configured to determine a temperature parameter related of the sensed region based on the thermal detection signals.

A temperature measuring device that measures a temperature of a rotatable stage that holds a substrate, includes: a contact portion provided at a position that does not hinder placing of the substrate on the stage, and a temperature detector having a temperature sensor, and provided at a position separated from the temperature detection contact portion except when measuring a temperature. When measuring the temperature of the stage, the temperature detection contact portion and the temperature detector are relatively moved and brought into contact with each other in a state where the stage is not rotating to detect the temperature of the stage.

A bearing assembly for a turbo-engine with a bearing and parts of a bearing temperature detecting device. The bearing includes a main body having a thermoplastic bearing layer. A space is defined in the interior of the main body and of the thermoplastic bearing layer for accommodating parts of the bearing temperature detecting device. The space has a through hole having a first opening in the thermoplastic bearing layer and a second opening located in the main body. The parts include a temperature conducting element, a temperature sensor, and a securing fixture that attaches the temperature conducting element. The first opening of the through hole has a chamfer and the first end of temperature conducting element has a head which is correspondingly shaped to the chamfer in a form fitting manner. The center-axis of the temperature sensor extends transversely to the center-axis of the temperature conducting element.

A stator unit includes: a stator core; three-phase coils inserted into slots of the stator core; a neutral point busbar connected to the three-phase coils; a busbar holder made of a resin material and covering at least a part of the neutral point busbar; and a temperature sensor that is fixed to the busbar holder while in contact with the neutral point busbar, the temperature sensor measuring the temperature of the neutral point busbar.

A motor temperature estimation system includes a first temperature time series data generation unit that generates first temperature time series data based on temperature data acquired by a temperature sensor that measures a temperature of a motor, a resistance value time series data generation unit that generates resistance value time series data based on the first temperature time series data, a second temperature time series data generation unit that generates second temperature time series data by changing parameters for estimating and calculating the temperature of the motor based on the resistance value time series data, and a parameter determination unit that determines the parameters by comparing the first temperature time series data and the second temperature time series data.

A thin film sensor includes an insulating layer provided on a surface of a measurement target, and a sensor layer that is laminated on the insulating layer, and includes a plurality of regions partitioned by a groove that is provided by irradiation of a laser and penetrates in a thickness direction. Among the plurality of regions, at least one region corresponds to a sensor region that senses a pressure applied to the measurement target or a temperature of the measurement target, and other regions each correspond to a non-sensor region that does not sense a pressure applied to the measurement target or a temperature of the measurement target.

A thin film sensor includes an insulating layer provided on a surface of a measurement target, and a sensor layer that is laminated on the insulating layer, and includes a plurality of regions partitioned by a groove that is provided by irradiation of a laser and penetrates in a thickness direction. Among the plurality of regions, at least one region corresponds to a sensor region that senses a pressure applied to the measurement target or a temperature of the measurement target, and other regions each correspond to a non-sensor region that does not sense a pressure applied to the measurement target or a temperature of the measurement target.

An assembly having a bearing with an axis of rotation, and a fibre-based sensor for sensing strain or temperature of the bearing is disclosed. The sensor extends in a direction parallel to the axis of rotation. An aircraft system is disclosed including a wheel supported on an axle by a first bearing and a second bearing. The system further includes a first fibre optic sensor for sensing a strain or temperature of the first bearing, a second fibre optic sensor for sensing a strain or temperature of the second bearing, and an interrogator to analyse optical signals from the sensors to determine differences in the strains or temperatures of the first bearing and the second bearing.

A temperature sensor that sufficiently has heat insulation property and the pressing force to a temperature measurement object to a degree allowing a ceramic paper to be substituted, and that has a good responsiveness, and a temperature detection device and an image formation device that include the temperature sensor. The temperature sensor is disposed so as to maintain an abutting state with a temperature measurement object, the temperature sensor including: a thermosensitive element configured to detect the temperature of the temperature measurement object; a heat collection member configured to pressurize the temperature measurement object and to be thermally coupled with the thermosensitive element; and a holding member supporting the heat collection member and forming a space that faces the heat collection member.