A lockout device includes a first ring portion positioned around a first side of a connector. A second ring portion is positioned around a second side of the connector. A fastener allows a user to selectively secure the ring portions thereby forming a tubular ring surrounding the connector. An inner facing protrusion extends toward a center of the tubular ring and into a gap present on the connector. The inner facing protrusion remains in the gap of the connector regardless of movement of the lockout device about the connector while the first ring portion is secured to the second ring portion. The inner facing protrusion holds the lockout device captive around the connector and the tubular ring covers a disconnection mechanism of the connector. A secondary tool is required in order to detach the first ring portion from the second ring portion for accessing the disconnection mechanism of the connector.

A plug connector has a housing with a plug side and a cable connection side. At least one latching element is arranged on the housing of the plug connector. The at least one latching element can be moved between a first locking position and a second unlocking position. The at least one latching element has openings and insertion bevels. The openings and the insertion bevels allow an automatic latching to a mating plug connector. It is only possible to interrupt the contact of the plug connector using an aid. In this manner, protection is provided against an unauthorized interruption of the contact, and a desired interruption of the contact is made possible without special tools.

A mounting assembly for electro-mechanically connecting an electrically-powered device to a structure includes a housing, a first printed circuit board, an adapter, and a second printed circuit board. The housing has a shape defining a front opening and a first mating structure. The first printed circuit board is located within the housing and has a first plurality of electrical contacts facing the front opening. The adapter is attachable to the device and has a second mating structure that removably engages with the first mating structure of the housing. The second printed circuit board is coupled with the adapter and has a second plurality of electrical contacts exposed on its back surface to electrically connect to the first plurality of electrical contacts when the first mating structure of the housing engages with the second mating structure of the adapter.

A method and system for contraband detection is provided that allows for the determining whether devices are authorized to receive power from an outlet. A power adapter and/or an outlet authenticate a device when it is connected to the outlet through the power adapter. On the basis of this authentication, a determination is made whether the devices are to receive power from the outlet. If the device is authorized, the outlet is activated, transitioning from inactive state (where no power is relayed through the outlet) to an active state (where power is relayed through the outlet).

Aspects of the subject disclosure may include, for example, a device comprising: a female port configured to receive a data connector, the data connector comprising a surface with a first opening; a first movable member disposed within the female port, the first movable member being configured such that as the data connector is moved into the female port a first portion of the first movable member enters into the first opening; and a first blocking member disposed within the female port, the first blocking member being configured to move to a first blocking position to block the first portion of the first movable member from exiting the first opening after the first portion of the first movable member has entered the first opening. Other embodiments are disclosed.

A cable connector for counting a number of plug-in events and preventing further plug in attempts after a threshold number of plug-in events have occurred. An inner sleeve is located inside an outer sleeve, and is designed to move relative to the outer sleeve. The inner sleeve further includes a tab on an outer surface of the inner sleeve. A gear wheel is located inside the outer sleeve and perpendicular to the inner sleeve and has a number of gear teeth. A toggle plug counter rotates the gear wheel one tooth in response to a plug-in action of the cable counter. When the gear wheel rotates to a point where the tab aligns with a notch in the gear wheel an inner spring at the opposite end of the inner sleeve causes the inner sleeve to move through the gear wheel such that further plugging action becomes difficult.

Various implementations described herein are related to a device having a first coil-shaped spiral structure for an active shield and a second coil-shaped spiral structure that is wound in-between windings of the first coil-shaped spiral structure. The first coil-shaped spiral structure may provide for a coil-based electro-magnetic (EM) shield as a counter-measure circuit for protecting an underlying circuit.

An actuator is provided that is smaller in size and has a simpler structure, as compared with a conventional one. The actuator is composed of a driving mechanism that includes an electric motor, and a housing that houses the driving mechanism. The housing includes an air hole that communicates the inside of the housing with the outside thereof, a filter that covers the air hole, and a motor box that surrounds the electric motor. At least one of members of the motor box acts as a scattering prevention wall that prevents lubricant from scattering to the electric motor. The air hole is formed in a member of the motor box other than said at least one of members of the motor box.

A device that is placed between the electrical power source and electrical equipment such that power going to the equipment can be controlled, regulated, and monitored. An individual may request access to use the electrical equipment by means of unique identification. The device is able to compare the user's request for authentication via a locally stored list (database) or remotely situated list. The device contains audio and visual indications of the current status of power going to the electrical device. An apparatus is used to prevent a user from disconnecting electrical equipment from the device and reconnecting it directly to the power source. A related method of use is also claimed.

A latch indicator apparatus for indicating a locked status of an attachment between a cable housing and a cable receptor. The latch indicator apparatus includes a latch indicator attached to a cable housing at an attachment point, a first resistive element having a first resistance, and is attached to the cable housing at the attachment point. The restive element of the latch indicator attaches to an indicator tab. The latch indicator includes an indicator window, which is positioned to indicate a locked status of the latch indicator based on the first resistance of the first resistive element. The latch indicator tests a connection between a cable housing and a cable housing by indicating a locked status. The locked status is indicated by exerting a first force on the indicator tab by pulling the indicator tab in a direction away from the connection between the cable housing and the cable receptor.