A vacuum interrupter is provided for use in a low voltage residential circuit breaker. The vacuum interrupter comprises a sealed vacuum tube. The sealed vacuum tube is being closed at a first end with an end plate and closed at a second end with an end spring. The vacuum interrupter comprises a first contact terminal passing through the end plate and having a fixed contact near a distal end of the first contact terminal. The vacuum interrupter comprises a second contact terminal having a free end. The second contact terminal passing through the end spring and having a movable contact being configured to contact the fixed contact of the first contact terminal. The end spring is configured to receive a force on the free end of the second contact terminal to provide open or close operations of the vacuum interrupter.

A vacuum interrupter is provided for use in a low voltage residential circuit breaker. The vacuum interrupter comprises a sealed vacuum tube. The sealed vacuum tube is being closed at a first end with an end plate and closed at a second end with an end spring. The vacuum interrupter comprises a first contact terminal passing through the end plate and having a fixed contact near a distal end of the first contact terminal. The vacuum interrupter comprises a second contact terminal having a free end. The second contact terminal passing through the end spring and having a movable contact being configured to contact the fixed contact of the first contact terminal. The end spring is configured to receive a force on the free end of the second contact terminal to provide open or close operations of the vacuum interrupter.

Provided is a multi-pole molded case circuit breaker (MCCB) with an insulation barrier for a rotary pin, in which an insulation barrier is provided in a rotary pin for inter-phase power transmission to prevent dielectric breakdown. The multi-pole MCCB includes a shaft assembly having a movable contactor and having a plurality of rotary pin holes formed in a penetrating manner, a base assembly to which the shaft assembly is rotatably accommodated to be coupled, a switching mechanism coupled to an upper portion of the base assembly and rotating the shaft assembly, a plurality of rotary pins coupled to the plurality of rotary pin holes in a penetrating manner, and an insulation barrier formed of an insulating material and covering the plurality of rotary pins.

An insulating switch assembly is disclosed. The insulating switch assembly provides electrical insulation between a user and highly charged electric components by employing highly-resistive or nonconductive material. The insulating switch assembly also distances the user from the electrical components by increasing the distance from the user input device and electric components. The user of the insulating switch assembly is provided layers of electrical insulation.

A plastic keypad with data entry elements and at least one display element is protected from electrostatic discharge by an assembly having an overlay substrate on which an electrically-conductive arrangement is disposed. The overlay substrate has a top side and a back side with a precisely-positioned vias formed through the substrate. A top surface of the top side is a layer of a conductive polymer. The back side is printed with at least one layer of color ink that depict a plurality of alpha-numerical and pictorial elements of the keypad. The electrically-conductive arrangement is disposed on the overlay substrate to collect electrostatic charges on the top side, transfer the electrostatic charges to the back side through the plurality of vias and drain the transferred electrostatic charges to a ground.

A plastic keypad with data entry elements and at least one display element is protected from electrostatic discharge by an assembly having an overlay substrate on which an electrically-conductive arrangement is disposed. The overlay substrate has a top side and a back side with a precisely-positioned vias formed through the substrate. A top surface of the top side is a layer of a conductive polymer. The back side is printed with at least one layer of color ink that depict a plurality of alpha-numerical and pictorial elements of the keypad. The electrically-conductive arrangement is disposed on the overlay substrate to collect electrostatic charges on the top side, transfer the electrostatic charges to the back side through the plurality of vias and drain the transferred electrostatic charges to a ground.

An Electro Static Discharge protection device that is provided to protect sensitive electronics on a Printed Circuit Board (PCB) from inadvertent electrical discharge. The protective device is formed as an intervening structure between a contact surface and a PCB and utilizing the same ground as used by the PCB. When an electrical discharge occurs, the discharge is directed toward the PCB and directed to at least one ground point on the PCB so as to avoid damage to sensitive components.

A switch includes an insulating base having an upper surface and an assembly having a mounting surface. The assembly configured to be arranged on the insulating base, the assembly having a lower surface, the assembly being configured to be arranged on the upper surface of the insulating base with an open space between the lower surface of the assembly and the upper surface of the insulating base. The switch further includes a plurality of fixed contact units mounted in an aligned arrangement on the mounting surface of the assembly and a movable contactor mounted to move within the bore of the insulating body and the electrical contacts of the plurality of fixed contact units.

A switch includes an insulating base having an upper surface and an assembly having a mounting surface. The assembly configured to be arranged on the insulating base, the assembly having a lower surface, the assembly being configured to be arranged on the upper surface of the insulating base with an open space between the lower surface of the assembly and the upper surface of the insulating base. The switch further includes a plurality of fixed contact units mounted in an aligned arrangement on the mounting surface of the assembly and a movable contactor mounted to move within the bore of the insulating body and the electrical contacts of the plurality of fixed contact units.