A switchgear system includes a switchgear frame and a truck carrying a circuit breaker, which includes a breaker housing, a fixed electrical contact and a movable electrical contact mounted within the breaker housing, an actuator piston connected to the movable electrical contact, and a drive assembly coupled to the actuator piston. A sensor circuit is mounted on the switchgear frame under the truck and aligned with the circuit breaker and configured to acquire displacement data of the actuator piston when in a contact testing position. A controller is coupled to the sensor circuit and configured to receive the displacement data and determine electrical contact erosion within the circuit breaker.

A power distribution system is releasably secured to a power distribution panel, and includes a circuit breaker to detect a fault condition and to automatically move a circuit breaker switch from the ON position to the OFF position. The power distribution system further includes a backplane connector to provide connection to the power distribution panel and an interconnect mechanism to connect the circuit breaker to the backplane connector when the circuit breaker is moved from a disengaged position to an engaged position with respect to the backplane connector. The power distribution system further includes a guard coupled to the interconnect mechanism and configured to cover portions of the enclosure of the circuit breaker. The guard further prevents the circuit breaker switch from moving from the OFF position to the ON position until the interconnect mechanism connects to the circuit breaker to the backplane connector.

A power distribution system is releasably secured to a power distribution panel, and includes a circuit breaker to detect a fault condition and to automatically move a circuit breaker switch from the ON position to the OFF position. The power distribution system further includes a backplane connector to provide connection to the power distribution panel and an interconnect mechanism to connect the circuit breaker to the backplane connector when the circuit breaker is moved from a disengaged position to an engaged position with respect to the backplane connector. The power distribution system further includes a guard coupled to the interconnect mechanism and configured to cover portions of the enclosure of the circuit breaker. The guard further prevents the circuit breaker switch from moving from the OFF position to the ON position until the interconnect mechanism connects to the circuit breaker to the backplane connector.

Examples described herein relate to power distribution units (PDUs) with receptacles on one surface and branch rated circuit protection devices on an opposite surface. For example, a PDU includes a first surface including a plurality of receptacles to couple a plurality of electronic devices to the PDU. The PDU also includes a second surface, opposite the first surface, including a plurality of branch rated circuit protection devices associated with the plurality of receptacles.

Examples described herein relate to power distribution units (PDUs) with receptacles on one surface and branch rated circuit protection devices on an opposite surface. For example, a PDU includes a first surface including a plurality of receptacles to couple a plurality of electronic devices to the PDU. The PDU also includes a second surface, opposite the first surface, including a plurality of branch rated circuit protection devices associated with the plurality of receptacles.

A modular power distribution device includes a base that is snap-fit onto DIN rail. The base includes a first mounting section, configured to receive a circuit protection device, and a second mounting section configured to receive an electronically actuated power distribution device. The circuit protection device slides on to the first mounting section and includes multiple output connections. The power distribution device slides on to the second mounting section and includes multiple input connections configured to engage the output connections of the circuit protection device as the power distribution device slides on to the second mounting section. An electronic control module is snap-fit to the assembly establishing electrical connections between the electronic control module and both the circuit protection device and the power distribution device. The electronic control module includes a port by which control signals are received and feedback signals may be transmitted.

A modular power distribution device includes a base that is snap-fit onto DIN rail. The base includes a first mounting section, configured to receive a circuit protection device, and a second mounting section configured to receive an electronically actuated power distribution device. The circuit protection device slides on to the first mounting section and includes multiple output connections. The power distribution device slides on to the second mounting section and includes multiple input connections configured to engage the output connections of the circuit protection device as the power distribution device slides on to the second mounting section. An electronic control module is snap-fit to the assembly establishing electrical connections between the electronic control module and both the circuit protection device and the power distribution device. The electronic control module includes a port by which control signals are received and feedback signals may be transmitted.

The present invention relates to a start system (1) comprising a plurality of electrical apparatuses (3, 5) each comprising an insulating casing (7, 9), secured to each other and having an alignment along a first extension direction (D1). The plurality of electrical apparatuses (3, 5) is intended to be brought on a plurality of securing rails (13, 15) extending along a second extension direction (D2) transversal to the first extension direction (D1). A first electrical apparatus (3) comprises a removable mounting device (21) including a primary movable mounting element (17), the mounting device (21) forming a primary housing (35) in which a portion (13a) of a first rail (13) is able to be inserted. A second electrical apparatus (5) comprises a secondary mounting element (19), the secondary mounting element (19) forming, with the insulating casing (9) of the second electrical apparatus (5) a secondary housing (81) in which is able to be inserted a portion (15a) of a second rail (15).

A control module adapted to be attached to a power adapter is described. The control module may comprise a plurality of contact elements including a first contact element adapted to receive a line voltage and a second contact element adapted to receive a reference voltage; a switch coupled to receive the line voltage; a third contact element coupled to the switch and adapted to provide the line voltage to a power adapter; and a control circuit coupled to the switch and adapted to control the state of the switch; and a fourth contact element coupled to the control circuit; wherein the control circuit generates a signal adapted to be routed to the power adapter by way of the fourth contact element

The present invention discloses a field assembled electrical distribution device assembled from various prepackaged modular kits. The prepackaged modular kits include all of the components required for their assembly. The prepackaged modular kits, when assembled by a certified assembler using a certified method and verification means provided by the modular kit manufacturer and one or more well know third-party certifiers, meets the requirements local, national and international electrical codes and is eligible for the third-party's certification mark.