The present invention provides a protective element including (i) a PTC element having an opening passing through in the thickness direction, and (ii) a first electrode and a second electrode positioned on both main surfaces of the PTC element, the protective element characterized in that the first electrode extends from a main surface of the PTC element over an edge thereof and into the opening. A protective element of the present invention does not prevent the PTC element from expanding even when secured by a screw or caulking.

The terminal block (10) serves for electrically connecting a connection line having at least two conductors (L1, L2) and extending externally of an electronics housing (H). The terminal block comprises a platform (100) composed at least partially of an electrically insulating, synthetic material, especially a synthetic material having a dielectric strength sufficient to meet European standard EN 60947-1, a connection terminal (T1) arranged on a first side of the platform forming a first connection side of the terminal block and serving for connection of a conductor (L1) of the connection line as well as at least one connection terminal (T2) arranged on the first side of the platform, laterally spaced from the connection terminal (T1) for connection of a conductor (L2) of the connection line. Additionally, the terminal block comprises a connection contactor (J1) arranged on a second side of the platform forming a second connection side of the terminal block, e.g. especially a connection contactor embodied as a contact pin or as a contact jack, as well as a connection contactor (J2) arranged on the second side of the platform and laterally spaced from the connection contactor (J1), e.g. a connection contactor embodied as a contact pin or as a contact jack. Arranged within the platform, especially for the purpose of forming a circuit output meeting European standard EN 60947-5-6:2000, are a resistance element (R1) as well as a resistance element (R2). A first connection of the resistance element (R1) is electrically connected with the connection terminal (T1) and a second connection of the resistance element (R1) is electrically connected with the connection contactor (J1). A first connection of the resistance element (R2) is electrically connected with the connection terminal (T1) or with the connection contactor (J1) and a second connection of the resistance element (R2) is electrically connected both with the connection terminal (T2) as well as also with the connection contactor (J2).

A plug connector which comprises contact elements that are subdivided into at least one signal contact element and at least one shielding contact element, and a component having an electrical circuit ground. The plug connector and the component are characterized by an ohmic resistance which connects the shielding contact element to the electrical circuit ground. The measure suppresses parasitic oscillations.

There is provided a connector comprising: a given-polarity electrode jack terminal coupled to a given-polarity electrode of a power supply; a first other-polarity electrode jack terminal coupled to an other-polarity electrode of the power supply through a resistor and a capacitor; and a second other-polarity electrode jack terminal coupled to the other-polarity electrode of the power supply; wherein the first other-polarity electrode jack terminal and the second other-polarity electrode jack terminal are respectively in contact with a plug terminal of the other-polarity electrode included in another connector, the first other-polarity electrode jack terminal and the second other-polarity electrode jack terminal are disposed on a line extended in a length direction of the plug terminal of the other-polarity electrode, and the first other-polarity electrode jack terminal is disposed at a position closer to the other connector than a position of the second other-polarity electrode jack terminal.

A connector configured to mate with and electrically connect to another connector includes a first contact configured to contact the other connector at a first position, and a second contact having a higher resistance value than the first contact, and configured to contact the other connector at a second position that is closer to the leading end of the connector than is the first position.

A circuit includes a connector having first and second mateable portions. Each portion includes at least two terminals configured to mechanically engage at least two terminals of the other portion. The two terminals within the first and second portions are arranged so that as the first and second portions are mated, a first terminal of the first portion and a first terminal of the second portions come into contact before respective second terminals of the first and second portions. The circuit also includes a polymeric positive temperature coefficient (PPTC) device with a first terminal in electrical communication with the first terminal of the first portion and a second terminal in electrical communication with the second terminal of the first portion. A power terminal is in electrical communication with the second terminal of the first portion and is configured to be connected to a power source. A load terminal is in electrical communication with the first and second terminals of the second portion and is configured to be connected to a load.

A resettable switching apparatus, useful in a GFCI receptacle, has an auto-monitoring circuit for automatically testing various functions and structures of the device. The auto-monitoring circuit initiates an auto-monitoring routine which, among other things, establishes a test fault situation on either the positive or negative half-wave of the power cycle and determines whether the detection mechanisms within the device appropriately detect the test fault and whether the device would trip in the event of an actual fault. Additional functionality of the auto-monitoring circuit permits automatic verification that the device is properly wired, that is, not miswired, and determines whether the device has reached the end of its useful life.

A varistor (50) comprising: a feed-through conductor (52) and a varistor disc (72) interposed between, and electrically connected to, conductor layers disposed on opposite surfaces of the varistor disc (72), the conductor layers being electrically isolated from one another; wherein the varistor disc (72) comprises a through aperture (60) through which the feed-through conductor extends; a first one of the conductor layers is electrically connected to the feed-through conductor; a second one of the conductor layers is, in normal use, permanently electrically connected to ground the varistor (50). This configuration enables one side of the disc (72) to be connected to the feed-through terminal, and the other side of the disc (72) to be connected to a ground plane, such as an earthed bulkhead of a wall or cabinet, via a metal plate forming part of the varistor (50) housing.

The invention relates to a line set (4) for a charging station (1) for charging electrical energy stores of motor vehicles (2), comprising a charging cable (5) which, at a free end, has a connecting plug (6) for electrical connection to the motor vehicle (2), wherein the charging cable (5) has one or more electric lines (19) which are jointly covered by an electrically insulating sheath (9). The sheath (9) has at least one electric test line (11, 12) extending along the charging cable (5) and electrically insulated from the lines (19).

Charging socket for an electrically driven vehicle, having a main body with at least one contact section having electrical contacts for receiving in an interlocking manner a mating contact section of a charging plug having electrical mating contacts for forming an electrical charging connection between the electrical contacts and the electrical mating contacts, wherein the main body has at least one heating element for heating the at least one contact section.