A waterproof and interference proof receptacle connector has an upper insulative housing, a lower insulative housing, a first terminal set, a second terminal set, a shell, a watertight casing and an interference proof rear guard. The first and second terminal sets are mounted respectively on the upper and lower insulative housings. The shell is mounted on the upper and lower insulative housings. The watertight casing is mounted around the shell. The interference proof guard is mounted on the watertight casing. The watertight casing provides a waterproof function to allow the waterproof and interference proof receptacle connector to operate in humid or underwater environment.

Embodiments are generally directed to a snap button fastener providing electrical connection. An embodiment of a fastener includes a first mechanical part, the first mechanical part including at least a stud portion, the first mechanical part including a first electrical connector; a second mechanical part, the second mechanical part including at least a socket portion with a spring element and the socket portion, the second mechanical part including a second electrical connector. The stud portion of the first mechanical part and the socket portion of second mechanical part, if separated, are to interlock upon the application of a first force towards each other, and, if interlocked, to separate upon the application of a second force away from each other. The first electrical connector and the second electrical connector are to be electrically connected when the first mechanical part and the mechanical part are interlocked, and first electrical connector and the second electrical connector are to be disconnected when the first mechanical part and second mechanical part are separated.

Embodiments are generally directed to a snap button fastener providing electrical connection. An embodiment of a fastener includes a first mechanical part, the first mechanical part including at least a stud portion, the first mechanical part including a first electrical connector; a second mechanical part, the second mechanical part including at least a socket portion with a spring element and the socket portion, the second mechanical part including a second electrical connector. The stud portion of the first mechanical part and the socket portion of second mechanical part, if separated, are to interlock upon the application of a first force towards each other, and, if interlocked, to separate upon the application of a second force away from each other. The first electrical connector and the second electrical connector are to be electrically connected when the first mechanical part and the mechanical part are interlocked, and first electrical connector and the second electrical connector are to be disconnected when the first mechanical part and second mechanical part are separated.

A wall mountable connector is configured for securing a thermostat to a wall. The wall mountable connector is further configured to provide electrical connections with field wires exiting the wall and in turn to provide electrical connection with the thermostat. In some instances, the wall mountable connector is configured to provide easier connections with the field wires. In some cases, for example, the wall mountable connector is configured to better accommodate more commonly used field wires, and in some cases, space the more commonly used field wires from one another.

A wall mountable connector is configured for securing a thermostat to a wall. The wall mountable connector is further configured to provide electrical connections with field wires exiting the wall and in turn to provide electrical connection with the thermostat. In some instances, the wall mountable connector is configured to provide easier connections with the field wires. In some cases, for example, the wall mountable connector is configured to better accommodate more commonly used field wires, and in some cases, space the more commonly used field wires from one another.

A method of manufacturing an electronic textile (1) comprising the steps of: providing a textile carrier (2) comprising a plurality of conductor lines (6a-b); releasably attaching (101) the textile carrier (2) to a rigid support plate (20); providing (102) a conductive substance on the textile carrier (2) in a pattern forming a plurality of sets of connection pads (5a-b) on the textile carrier (2), each set of connection pads defining a component placement position for placement of an electronic component (3), and each set of connection pads (5a-b) comprising a connection pad overlapping one of the conductor lines, the connection pad having a connection pad length (L.sub.cp) in a direction parallel to the conductor line and a connection pad width (W.sub.cp) in a direction perpendicular to the conductor line, wherein the connection pad width (W.sub.cp) is at least one percent of an extension (W.sub.tc) of the textile carrier (2) in the direction perpendicular to the conductor line; automatically placing (103) electronic components (3) at the component placement positions; curing (104) the conductive substance to attach the electronic components (3) to the textile carrier (2), thereby forming the electronic textile (1) and removing (105) the electronic textile from the rigid support plate.

A switching electrical power contactor having a bi-blade type switch, has ferrous plates attached to the blades to increase the current carrying capacity and reduce the resistance of the switch. The contacts of the switches are arranged in pairs with at least one pair of contacts being arranged to close before another pair of contacts.

A switching electrical power contactor having a bi-blade type switch, has ferrous plates attached to the blades to increase the current carrying capacity and reduce the resistance of the switch. The contacts of the switches are arranged in pairs with at least one pair of contacts being arranged to close before another pair of contacts.

Apparatuses, methods, and computer program products are described herein. An example disclosed printing device includes a printer body; a cradle engagement surface configured to interface with a cradle, the cradle engagement surface defining a first recess and a second recess disposed proximate a first side of a battery compartment; and a bumper attachment extending from the printer body and disposed proximate a front side of the printer body, the bumper attachment defining at least two capture cavities structured to slideably receive reciprocally structured first and second printer capture flanges extending from the cradle.

Systems and methods for changing an end effector are provided. A robot flange may have a first receiver and a first electrical connection. An end effector may have a second receiver, a second electrical connection, and a locking assembly. The locking assembly may be configured to releasably secure the end effector to the robot flange. A connector may have an interface and an electrical connector for transferring at least one of power and data from the first electrical connection to the second electrical connection. The interface may be received by the first receiver and the second receiver when the connector is positioned between the robot flange and the end effector and the locking assembly secures the end effector to the robot flange.