A surge protective device (SPD) includes a first electrical terminal, a second electrical terminal, and an overvoltage protection circuit connected between the first and second electrical terminals. The overvoltage protection circuit includes a gas discharge tube and a current management circuit connected in series to the gas discharge tube. The current management circuit includes a varistor and a resistor that are connected in parallel between a first node of the current management circuit and a second node of the current management circuit.

A surge protective device (SPD) includes a first electrical terminal, a second electrical terminal, and an overvoltage protection circuit connected between the first and second electrical terminals. The overvoltage protection circuit includes a gas discharge tube and a current management circuit connected in series to the gas discharge tube. The current management circuit includes a varistor and a resistor that are connected in parallel between a first node of the current management circuit and a second node of the current management circuit.

The invention relates to an overvoltage protection device with monitoring and communication functions, in particular for the information and process industries, having at least one surge arrester with a self-diagnostics unit and a wireless and/or wired standard interface for data transmission. According to the invention, an additional module is provided to detect the behaviour and/or the properties of a connected electrical energy source, wherein a bidirectional exchange of data and commands to and between a higher-level control system and among multiple overvoltage protection devices takes place and parametrisation of lower-level terminals to be protected can be realised via the standard interface.

The invention relates to an overvoltage protection device with monitoring and communication functions, in particular for the information and process industries, having at least one surge arrester with a self-diagnostics unit and a wireless and/or wired standard interface for data transmission. According to the invention, an additional module is provided to detect the behaviour and/or the properties of a connected electrical energy source, wherein a bidirectional exchange of data and commands to and between a higher-level control system and among multiple overvoltage protection devices takes place and parametrisation of lower-level terminals to be protected can be realised via the standard interface.

Systems and methods are provided for 8-channel surge protection for a network utilizing Power Over Ethernet (PoE). Four Bob Smith terminations are arranged such that one Bob Smith termination is coupled to each of four PoE nodes. Each Bob Smith termination includes a capacitor and a resistor pair coupled in series between its respective PoE node and a respective Bob Smith termination node, wherein a first pair of the Bob Smith terminations is connected between their respective PoE nodes and a first Bob Smith node and a second pair of the Bob Smith terminations is connected between their respective PoE nodes and a second Bob Smith node. The first Bob Smith node is capacitively isolated from ground via a first terminating capacitor component and a second Bob Smith node is capacitively isolated from ground via a second terminating capacitor component separate from the first terminating capacitor component.

A surge protection device includes: an impedance device, a voltage-limiting surge protector, and a switching surge protector. The impedance device is connected in parallel with the voltage-limiting surge protector. A parallel branch of the impedance device and the voltage-limiting surge protector is connected in series with the switching surge protector to form a discharge channel of a lightning impulse current. A series branch of the impedance device and the switching surge protector forms a discharge channel of a follow current. The surge protection device and system of the present invention can effectively improve the capability to withstand multiple pulses and prevent failure of arc-quenching.

A surge protection device includes: an impedance device, a voltage-limiting surge protector, and a switching surge protector. The impedance device is connected in parallel with the voltage-limiting surge protector. A parallel branch of the impedance device and the voltage-limiting surge protector is connected in series with the switching surge protector to form a discharge channel of a lightning impulse current. A series branch of the impedance device and the switching surge protector forms a discharge channel of a follow current. The surge protection device and system of the present invention can effectively improve the capability to withstand multiple pulses and prevent failure of arc-quenching.

An apparatus includes a housing (e.g., a housing having a form factor of a molded case circuit breaker) and at least two phase terminals supported by the housing and configured to be connected to respective ones of at least two phase buses in an electrical panelboard. The apparatus further includes at least one fault generation device supported by the housing and including an arc containment chamber and first and second spaced-apart electrodes in the arc containment chamber and electrically coupled to respective ones of the at least two phase terminals.

An apparatus includes a housing (e.g., a housing having a form factor of a molded case circuit breaker) and at least two phase terminals supported by the housing and configured to be connected to respective ones of at least two phase buses in an electrical panelboard. The apparatus further includes at least one fault generation device supported by the housing and including an arc containment chamber and first and second spaced-apart electrodes in the arc containment chamber and electrically coupled to respective ones of the at least two phase terminals.

A system for conditioning electric power supplied from a three-phase alternating current electric power supply, including three phase lines, to a load, including the phase lines and an electric ground line, includes a plurality of first surge arresters, a plurality of second surge arresters, a plurality of third surge arresters, a three-phase surge suppressor, and a plurality of capacitors. The surge arresters minimize the amount by which the voltage between two phases and the ground line exceeds a rated value. The three-phase surge suppressor minimizes the amount by which the voltage between any of the three phases and the ground line exceeds a rated value. The capacitors minimize the amount by which the voltage between two phases falls below a rated value.