A method for determining a connection status between an antenna amplifier and an antenna structure includes applying a first diagnostic voltage to a connecting link between the antenna amplifier and the antenna structure, reading out a first voltage value at a measuring point of the connecting link, and comparing the first voltage value with the first diagnostic value. The method includes applying a second diagnostic voltage different from the first diagnostic voltage to the connecting link, reading out a second voltage value at the measuring point, and comparing the second voltage value with the second diagnostic voltage. A faulty connection between the antenna amplifier and the antenna structure is determined if the first voltage value corresponds to the first diagnostic voltage and the second voltage value corresponds to the second diagnostic voltage.

A connector system includes a connector for connecting a first conductor in electrical communication with a second conductor, and a sensor supported adjacent the connector. The sensor is in electrical communication with the first conductor and in electrical communication with the second conductor. The sensor detects a characteristic of the connection between the first conductor and the second conductor.

A connector system includes a connector for connecting a first conductor in electrical communication with a second conductor, and a sensor supported adjacent the connector. The sensor is in electrical communication with the first conductor and in electrical communication with the second conductor. The sensor detects a characteristic of the connection between the first conductor and the second conductor.

Techniques, systems and articles are described for monitoring electrical equipment of a power grid and predicting likelihood failure events of such electrical equipment. In one example, a cable accessory is configured to couple to an electrical power cable and includes a partial discharge sensor and a communications unit. The partial discharge sensor is configured to detect partial discharge events and output data indicative of the partial discharge events. The communications unit is configured to output event data based at least in part on the partial discharge data.

Provided is an artificial intelligence vision inspection system for a wiring harness, the system minimizing personnel expenses and maximizing inspection performance by automatically determining visual failure of a wiring harness in an artificial intelligence type that uses a deep learning model.

Provided is an artificial intelligence vision inspection system for a wiring harness, the system minimizing personnel expenses and maximizing inspection performance by automatically determining visual failure of a wiring harness in an artificial intelligence type that uses a deep learning model.

A processing system is adapted to execute a method for testing power leakage of a circuit. The method includes: obtaining a plurality of undefined nets according to a netlist and power mode information; obtaining a trace path according to the undefined nets and the power mode information; and determining whether there is a risk of power leakage in the trace path, and outputting a testing result.

A processing system is adapted to execute a method for testing power leakage of a circuit. The method includes: obtaining a plurality of undefined nets according to a netlist and power mode information; obtaining a trace path according to the undefined nets and the power mode information; and determining whether there is a risk of power leakage in the trace path, and outputting a testing result.

An electrical wiring device including: a plurality of line terminals comprising a line-side phase terminal and a line-side neutral terminal; a plurality of load terminals comprising a load-side phase terminal and a load-side neutral terminal; a line conductor electrically coupling the line-side phase terminal to the load-side phase terminal; a neutral conductor electrically coupling the line-side neutral terminal to the load-side neutral terminal; and a controller configured to trigger a trip mechanism to electrically decouple the at least one of the plurality of line terminals from at least one of the plurality of load terminals based, at least in part, on comparing a magnitude of the current differential to a threshold, wherein the threshold is a function of the frequency of the current differential.

An electrical wiring device including: a plurality of line terminals comprising a line-side phase terminal and a line-side neutral terminal; a plurality of load terminals comprising a load-side phase terminal and a load-side neutral terminal; a line conductor electrically coupling the line-side phase terminal to the load-side phase terminal; a neutral conductor electrically coupling the line-side neutral terminal to the load-side neutral terminal; and a controller configured to trigger a trip mechanism to electrically decouple the at least one of the plurality of line terminals from at least one of the plurality of load terminals based, at least in part, on comparing a magnitude of the current differential to a threshold, wherein the threshold is a function of the frequency of the current differential.