A connector 10 includes a connector body 20 and a lever 50. The connector body 20 includes a guide portion 30. The lever 50 includes a guide receiving portion 60. The lever 50 is rotatable about a rotary shaft 54 with respect to the connector body 20 to a guide start position where guide by the guide portion 30 is started and a guide end position where the guide by the guide portion 30 is ended. At least one of the guide portion 30 and the guide receiving portion 60 arcuately extends with the rotary shaft 54 as a center. The guide receiving portion 60 contacts the guide portion 30 with a larger contact pressure when the lever 50 is at the guide end position than when the lever 50 is at the guide start position.

A housing assembly for an electrical connector includes a base element having an opening, a cover for covering the opening, and a locking mechanism. The locking mechanism has a slidable member movable into a locking position in which the locking mechanism locks the cover relative to the base element. The locking mechanism has a transmission element for transmitting force and movement onto the locking mechanism.

A connector with booster mechanism includes a housing, an operation lever rotatably mounted on the housing and including an arm portion, a drive gear integrally rotatably provided on the operation lever, a speed-reduction member rotatably mounted on the housing, and a slider. The drive gear is coaxial with a rotation center shaft and disposed at a position different from the arm portion in an axial direction of the rotation center shaft. The speed-reduction member includes a large-diameter gear to be meshed with the drive gear and a small-diameter gear having a smaller diameter than the large-diameter gear and coaxial with the large-diameter gear. The slider includes a rack to be meshed with the small-diameter gear and is mounted on the housing movably in a direction intersecting a connecting direction to a mating connector.

A plug connector assembly includes first and second connector housings, a rotary lever, and a slide. The rotary lever has side faces each having a guide path into which in each case a guide pin on the second connector housing is inserted and is displaced along the guide path by rotation of the rotary lever whereby the connector housings move toward one another and electrical contact elements thereof connect. The slide is movable on the second plug connector housing. A driver element of the rotary lever cooperates in a form-fit manner with a driver element of the slide when the rotary lever rotates causing the slide to linearly move. A locking element of the slide is displaced relative to a locking element of the first connector housing when the slide linearly moves whereby a form-fit locking action between the locking elements may be established or cancelled.

A lever (24) is formed with a separating cam surface (30) and an escaping space (31) disposed in a region more distant from a rotary shaft (13) than the separating cam surface (30). The separating cam surface (30) presses cam projections (23) of a moving plate (18) in a direction away from the rotary shaft (13) to separate both housings (10, 40) in the process of rotating the lever (24) to an initial position with the both housings (10, 40) connected. The cam projections (23) are accommodated into the escaping space (31) while being separated from the separating cam surface (30) in the process of rotating the lever (24) from the initial position to a connection position with the both housings (10, 40) separated and the moving plate (18) located at a protection position.

An ECU assembly includes one or more electrical connectors received in a protective cover. The cover includes an introduction aperture through which the connector or connectors can be introduced into the cover, and at least one connection aperture through which the or each connector is connected to the ECU. A retaining portion of the cover at each connection aperture is interposed between the respective connector and the ECU to retain the cover to the ECU in its use position.

A universal DC power adaptor for a PRC-148 radio, a PRC-152 radio, a Handheld ISR Transceiver, and similar devices and a method of using the same, is disclosed. The universal DC power adaptor includes mounting and locking features that are common to both the PRC-148 radio and the PRC-152 radio. The universal DC power adaptor further includes certain mounting and locking features that are unique to the PRC-148 radio and other mounting and locking features that are unique to the PRC-152 radio. The universal DC power adaptor also provides an output voltage suitable for both the PRC-148 and PRC-152 radios. Such features also are compatible with the Handheld ISR Transceiver, making the universal DC power adaptor compatible with the ISR Transceiver as well. Additionally, the universal DC power adaptor includes programmable control electronics.

Disclosed is a connector assembly having a first connector part and a second connector part. The first connector part includes a lever mounted on a base body of the first connector part for pivotable movement about a pivot axis (C) between first and second positions relative to the base body. The connector assembly can be brought from a ready-to-mate state into a mated state by relative movement of the first and second connector parts towards each other along a connection axis and vice versa. At least one engaging portion of the lever interacts with at least one counter-engaging portion of the second connector part in such a way, that the connector assembly is forcibly brought from the mated to the ready-to-mate state by pivoting the lever from the first position into the second position when the connector assembly is in the mated state.

A lever-type connector has a lever that rotates about a shaft on a first housing between a retracted position and a connection start position. The first housing and a second housing are connected by rotation of the lever from the connection start position. A detector is movable between a standby position and a detection position with respect to the lever. The lever includes a lock on an end separated from the shaft. The second housing includes a full locking portion to engage the lock when the housings are connected. The detector locks the lock at the standby position and becomes movable to the detection position when the full locking portion engages the lock. The first housing includes a housing-side lock, and the lever includes a lever-side lock that locks the housing-side lock at the retracted position. The lever-side lock is at a position different from the lock of the lever.

An apparatus according to one embodiment includes a landing pad having a mating portion configured to mate with a mating feature of a removable element as the removable element approaches the landing pad in a first direction. The apparatus also includes a mount along which the landing pad is movable in a second direction. A lever is positionable between a disengaged position and an engaged position, the lever being coupled to the landing pad for translating the landing pad along the mount in the second direction during movement thereof from the disengaged position toward the engaged position. The first direction is different than the second direction.