A switch includes a switch body, for containing switch components, at least two terminal contacts, protruding from the switch body, at least one movable contact, which is movable from an operative position, wherein the movable contact is electrically coupled between the at least two terminal contacts, and a disconnecting position, wherein the movable contact is electrically uncoupled between the at least two terminal contacts. The switch also includes a moving mechanism including an electric motor and a support sliding element for the movable contact, driven by the moving mechanism and the electric motor, to move the movable contact between the operative condition and the disconnecting position.

A switch includes a switch body, for containing switch components, at least two terminal contacts, protruding from the switch body, at least one movable contact, which is movable from an operative position, wherein the movable contact is electrically coupled between the at least two terminal contacts, and a disconnecting position, wherein the movable contact is electrically uncoupled between the at least two terminal contacts. The switch also includes a moving mechanism including an electric motor and a support sliding element for the movable contact, driven by the moving mechanism and the electric motor, to move the movable contact between the operative condition and the disconnecting position.

A switch includes a switch body, for containing switch components, at least two terminal contacts, protruding from the switch body, at least one movable contact, which is movable from an operative position, wherein the movable contact is electrically coupled between the at least two terminal contacts, and a disconnecting position, wherein the movable contact is electrically uncoupled between the at least two terminal contacts. The switch also includes a moving mechanism including an electric motor and a support sliding element for the movable contact, driven by the moving mechanism and the electric motor, to move the movable contact between the operative condition and the disconnecting position.

A switch includes a switch body, for containing switch components, at least two terminal contacts, protruding from the switch body, at least one movable contact, which is movable from an operative position, wherein the movable contact is electrically coupled between the at least two terminal contacts, and a disconnecting position, wherein the movable contact is electrically uncoupled between the at least two terminal contacts. The switch also includes a moving mechanism including an electric motor and a support sliding element for the movable contact, driven by the moving mechanism and the electric motor, to move the movable contact between the operative condition and the disconnecting position.

A modular transfer switch (22) and actuator (20) wherein multiple transfer switches are connectable in linear arrangement with the actuator such that the actuator controls the position of all of the transfer switches. Each of the transfer switches (22) includes a contact assembly (48) that converts over-rotation of the drive linkage (26) in the transfer switch to added pressure between the load contacts and the power contacts in the contact assembly.

A method for generating charge for a service disconnect operation for an electric meter includes: charging a service disconnect capacitor for an electric meter to a voltage higher than a voltage provided by a power supply of the electric meter; monitoring the voltage on the service disconnect capacitor; receiving, by the electric meter, a service disconnect switch instruction signal; determining, based on the monitoring, whether the voltage on the service disconnect capacitor exceeds a specified voltage threshold value; and in response to receiving the service disconnect switch instruction signal and determining that the voltage on the service disconnect capacitor exceeds the specified voltage threshold value, discharging the service disconnect capacitor through windings of a service disconnect actuator. The service disconnect actuator may be configured to cause contacts of a service disconnect switch to change position to make or break a circuit connection between a line voltage and a load.

There are provided a row of external permanent magnets and a row of internal permanent magnets; a floating output ring is provided on which is wound a 3-phase coil, between these rows. The floating output ring has no mechanical restraining relationship with any other member in the linear motor). Instead, a controller that controls a PWM inverter that injects AC exciting current into the 3-phase coil brings the central axes of the double cylinder and the floating output ring into coincidence by generating supporting force with respect to the floating output ring by magnetism, by controlling the d axis current component of the exciting current.

There are provided a row of external permanent magnets and a row of internal permanent magnets; a floating output ring is provided on which is wound a 3-phase coil, between these rows. The floating output ring has no mechanical restraining relationship with any other member in the linear motor). Instead, a controller that controls a PWM inverter that injects AC exciting current into the 3-phase coil brings the central axes of the double cylinder and the floating output ring into coincidence by generating supporting force with respect to the floating output ring by magnetism, by controlling the d axis current component of the exciting current.

A method for producing a voltage for an electric motor of a drive of an electrical switch includes producing a DC link direct voltage from a supply voltage and producing the motor voltage by pulse-width modulation of the direct voltage. A tolerance range for changing the direct voltage is specified, and an actual value of the direct voltage is continually measured. After first measuring the actual value, it is stored in a voltage variable. After each additional measurement, it is checked whether the deviation of the actual from the stored value lies within the tolerance range. The actual value is stored if the deviation from the stored value lies outside of the tolerance range. After each storage, a duty cycle of the pulse-width modulation dependent on the actual value is calculated, and the pulse-width modulation occurs with the duty cycle. A power converter is also provided.

A method for producing a voltage for an electric motor of a drive of an electrical switch includes producing a DC link direct voltage from a supply voltage and producing the motor voltage by pulse-width modulation of the direct voltage. A tolerance range for changing the direct voltage is specified, and an actual value of the direct voltage is continually measured. After first measuring the actual value, it is stored in a voltage variable. After each additional measurement, it is checked whether the deviation of the actual from the stored value lies within the tolerance range. The actual value is stored if the deviation from the stored value lies outside of the tolerance range. After each storage, a duty cycle of the pulse-width modulation dependent on the actual value is calculated, and the pulse-width modulation occurs with the duty cycle. A power converter is also provided.