A sensor system includes a sensor body with a proximal end and a distal end. The sensor body includes a radially extending flange positioned between the proximal end and the distal end. The radially extending flange of the sensor body includes a flange surface. A sleeve is positioned radially outward from the sensor body surrounding the proximal end of the sensor body. The sleeve has a radially extending end flange with an end surface configured to contact the flange surface of the radially extending flange of the sensor body to transfer a load between the sleeve and the sensor body.

A temperature sensor includes a sensor body and a wedge extension. The sensor body extends from a sensor base to an opposed sensor tip along a longitudinal axis. The sensor body has a leading edge and opposed trailing edge. The sensor body also has an interior flow passage with an inlet for fluid communication of fluid into the interior flow passage and an outlet for exhausting fluid out from the interior flow passage. The wedge extension is on the sensor body between the sensor tip and the sensor base on the leading edge of the sensor body.

A temperature sensor includes a sensor body and a wedge extension. The sensor body extends from a sensor base to an opposed sensor tip along a longitudinal axis. The sensor body has a leading edge and opposed trailing edge. The sensor body also has an interior flow passage with an inlet for fluid communication of fluid into the interior flow passage and an outlet for exhausting fluid out from the interior flow passage. The wedge extension is on the sensor body between the sensor tip and the sensor base on the leading edge of the sensor body.

A temperature sensor includes a sensor body and a wedge extension. The sensor body extends from a sensor base to an opposed sensor tip along a longitudinal axis. The sensor body has a leading edge and opposed trailing edge. The sensor body also has an interior flow passage with an inlet for fluid communication of fluid into the interior flow passage and an outlet for exhausting fluid out from the interior flow passage. The wedge extension is on the sensor body between the sensor tip and the sensor base on the leading edge of the sensor body.

A temperature sensor includes a sensor body and a wedge extension. The sensor body extends from a sensor base to an opposed sensor tip along a longitudinal axis. The sensor body has a leading edge and opposed trailing edge. The sensor body also has an interior flow passage with an inlet for fluid communication of fluid into the interior flow passage and an outlet for exhausting fluid out from the interior flow passage. The wedge extension is on the sensor body between the sensor tip and the sensor base on the leading edge of the sensor body.

A temperature sensor includes a sensor body and a wedge extension. The sensor body extends from a sensor base to an opposed sensor tip along a longitudinal axis. The sensor body has a leading edge and opposed trailing edge. The sensor body also has an interior flow passage with an inlet for fluid communication of fluid into the interior flow passage and an outlet for exhausting fluid out from the interior flow passage. The wedge extension is on the sensor body between the sensor tip and the sensor base on the leading edge of the sensor body.

Systems, apparatus, articles of manufacture, and methods are disclosed that improve thermal tests of integrated circuit devices. An example apparatus includes interface circuitry; machine readable instructions; and programmable circuitry to at least one of instantiate or execute the machine readable instructions to determine a condition of a fluid to be dispensed by a pneumatic nozzle, the condition of the fluid including a temperature of the fluid; determine a ratio of a first liquid, a second liquid, and a superheated vapor that combine to result in the condition of the fluid; and cause the first liquid, the second liquid, and the superheated vapor to be provided to the pneumatic nozzle in proportions defined by the ratio.

Systems, apparatus, articles of manufacture, and methods are disclosed that improve thermal tests of integrated circuit devices. An example apparatus includes interface circuitry; machine readable instructions; and programmable circuitry to at least one of instantiate or execute the machine readable instructions to determine a condition of a fluid to be dispensed by a pneumatic nozzle, the condition of the fluid including a temperature of the fluid; determine a ratio of a first liquid, a second liquid, and a superheated vapor that combine to result in the condition of the fluid; and cause the first liquid, the second liquid, and the superheated vapor to be provided to the pneumatic nozzle in proportions defined by the ratio.

A computer-implemented method for food safety mapping. The method includes acquiring, via a wireless receiver, an encoded unique identifier from a label positioned proximate to a food item. The encoded unique identifier is saved in a food item record of a database. Current food temperature data for the food item is acquired via a temperature sensor and saved in the food item record.