A pickup cap for an electrical connector is disclosed. The pickup cap may include a planar body portion and a plurality of opposing legs extending from a side of the body portion. A respective friction pad may extend from each leg. The friction pads may be received into complementary slots in the housing of an electrical connector. Friction between the friction pads and walls that define the slots may be sufficient to secure the pickup cap to the connector. The planar body portion may include a pickup portion. When the pickup cap is received into the connector housing, the legs may bow slightly. The pickup portion, however, may remain generally planar, and generally parallel to the mating plane defined by the vertical connector, even when the pickup cap is fully inserted into the connector housing.
An electrical connector including a plurality of electrical contacts; and a housing. The housing includes a pre-mold housing member which has been overmolded onto the electrical contacts; and an overmold housing member which has been overmolded onto the electrical contacts and the pre-mold housing member. The pre-mold housing member comprises an exterior sealing surface which is not covered by the overmold housing member. The exterior sealing surface of the pre-mold housing member loops around an exterior lateral side of the housing which is between front and rear ends of the housing.
Disclosed herein is a grounding connector. The grounding connector includes a female member, a male member, and a threaded member. The female member includes a first clamp section, a conductor connection section, and a center section between the first clamp section and the conductor connection section. The center section includes a first opening. The male member includes a barrel section, a second clamp section, and a web section between the barrel section and the second clamp section. The barrel section includes a threaded opening. The threaded member extends through the first opening. The threaded member is engaged with the threaded opening.
A compressible electrical contact is disclosed. The compressible electrical contact may include a nose portion, a corrugated portion and a tail portion. The tail portion may extend from a first end of the corrugated portion and the nose portion may extend from an opposite end of the corrugated portion. The corrugated portion may define a first surface and a second surface opposite the first surface. The first and second surfaces may have a width. The corrugated portion may also have a third surface extending between the first and second surfaces and a fourth surface opposite the third surface. A plurality of corrugations may be formed in the third and fourth surfaces of the corrugated portion.
Disclosed are blade contacts that may be suitable for mating with .mu.TCA-standard receptacle contacts. Such a blade contact may define a body portion, and a tab portion extending from a mating end of the body portion. The tab portion may be a tapered tab portion that tapers from a first width at the mating end of the body portion to a second, lesser width at a distal end of the tab portion. The body portion may define a single beam portion from which the tab portion and one or more terminal pins extend. Alternatively, the body portion may define a first beam portion from which the tab portion extends, and a second beam portion from which the terminal pins extend. Thus, the body portion may be generally L-shaped. Electrical connectors including such contacts are also disclosed.