A current testing device including a housing assembly, an electrical assembly and a circuit board assembly is disclosed herein. The housing assembly includes a housing that encloses the electrical assembly. The electrical assembly includes a battery, a microprocessor, a display, a keypad, a power button, an electrical port, and test cables. The microprocessor permits the user to simulate a fuse. The microprocessor has a memory in which a predetermined catalogue of fuses characteristics is stored. The user connects the test cables to a circuit board where the fuse is blown. The keypad allows the user to type the simulation characteristics while the display shows the results of the simulation.

A low-cost, portable potentiostat capable of performing several different electrochemical experiments (e.g. cyclic voltammetry and anodic stripping voltammetry) was designed. The potentiostat runs on one or more batteries and has a battery life of over two weeks. Further, the potentiostat of the present invention is capable of self-calibrating and has a linear dynamic range spanning several orders of magnitude. It is also capable of saving data onto an onboard data storage card and is able to export the data to a computer for additional analysis. The potentiostat requires no peripheral hardware and is suitable for use by those with even minimal training in electrochemistry.

A method for managing an assembling process of an electrical product. The electrical product at least includes a substrate with a semiconductor component mounted thereon and a power supply circuit. In the method, during assembly of the electrical product, a potential difference between two points on electric wires or signal wires electrically connected with an impedance element, which is inside the electrical product, interposed therebetween is constantly measured. Also, in the method, if a change that exceeds a predetermined threshold value, based on which electrostatic discharge noise and a normal potential range are distinguished from each other, occurs in the potential difference between the two points, measurement data on the potential difference between the two points is recorded and a mark for indicating that the electrical product was affected by electrostatic discharge is provided to the electrical product.

A mobile voltmeter device housing for mating with a direct current battery terminal housing including two battery pin connector type terminals may include a voltmeter housing for housing a voltmeter microchip and a voltmeter digital display, a mating housing for mating the voltmeter device housing with a direct current battery having a terminal housing comprising two gendered pin connector type terminals, and a terminal housing for housing two electrically conductive wires and a portion of two device pin connector type terminals.

An electrical safety monitoring device includes a first set of digital switches and a second set of digital switches for each of a plurality of line inputs, a first set of visual indicators, wherein each of the first set of visual indicators is electrically connected to one of the first set of digital switches and a second set of visual indicators, wherein each of the second set of visual indicators is electrically connected to one of the second set of digital switches. There is a first voltage-controlled oscillator operatively connected to the first set of digital switches for controlling a flash rate of the first set of visual indicators when the positive voltage is present and a second voltage-controlled oscillator operatively connected to the second set of digital switches for controlling a flash rate of the second plurality of visual indicators when a magnitude of the negative voltage is present.

An electrical testing device includes a housing having a base and a cover. The base and the cover define a cavity. The electrical testing device includes an input connector and a plurality of output connectors in electrical communication with the input connector. A fuse is in electrical communication with the input connector and the plurality of output connectors. The input connector and each output connector of the plurality of output connectors is adapted to connect to an interchangeable test lead. The input connector and each output connector of the plurality of output connectors is in electrical communication with an activation mechanism.

A voltage sensing glove assembly includes a glove that is wearable on a user's hand. The glove is comprised of an electrically insulating material to facilitate the user to grasp exposed electrical wires without risk of electrical shock. A plurality of voltage sensors is each coupled to the glove and each of the voltage sensors is in electrical communication with the exposed electrical wires when the user grasps the exposed electrical wires. Respective ones of the voltage sensors are turned on when the voltage sensors senses electrical voltage in any of the exposed electrical wires. An alert unit is coupled to the glove and the alert unit is in electrical communication with each of the voltage sensors. The alert unit emits an alert when any of the voltage sensors is turned on to alert the user that electrical voltage has been sensed in the exposed electrical wires.

An electrical testing device includes a housing having a base and a cover. The base and the cover define a cavity. The electrical testing device includes an input connector and a plurality of output connectors in electrical communication with the input connector. A fuse is in electrical communication with the input connector and the plurality of output connectors. The input connector and each output connector of the plurality of output connectors is adapted to connect to an interchangeable test lead. The input connector and each output connector of the plurality of output connectors is in electrical communication with an activation mechanism.

An electrical testing device includes a housing having a base and a cover. The base and the cover define a cavity. The electrical testing device includes an input connector and a plurality of output connectors in electrical communication with the input connector. A fuse is in electrical communication with the input connector and the plurality of output connectors. The input connector and each output connector of the plurality of output connectors is adapted to connect to an interchangeable test lead. The input connector and each output connector of the plurality of output connectors is in electrical communication with an activation mechanism.

A voltage sensing glove assembly includes a glove that is wearable on a user's hand. The glove is comprised of an electrically insulating material to facilitate the user to grasp exposed electrical wires without risk of electrical shock. A plurality of voltage sensors is each coupled to the glove and each of the voltage sensors is in electrical communication with the exposed electrical wires when the user grasps the exposed electrical wires. Respective ones of the voltage sensors are turned on when the voltage sensors senses electrical voltage in any of the exposed electrical wires. An alert unit is coupled to the glove and the alert unit is in electrical communication with each of the voltage sensors. The alert unit emits an alert when any of the voltage sensors is turned on to alert the user that electrical voltage has been sensed in the exposed electrical wires.