Disclosed is an electrical connector, comprising: a light guiding member, having a light guiding plate, a plurality of light outputting rings and a light incident structure, the plurality of light outputting rings being formed on a front side of the light guiding plate, the light incident structure being formed on a rear side of the light guiding plate and disposed relatively to a center area of the light outputting rings; a plurality of board end receptacles; a front panel, having a plurality of front panel holes, each front panel hole allowing one board end receptacle and one light outputting ring to be embedded therein respectively; and a light source, facing toward a light incident surface of the light incident structure. The electrical connector of the present disclosure provides a plurality of waterproof plug ports with uniform luminescence outer edges.

A cable connector assembly includes a cable and a connector electrically connected with the cable for further electrically connecting with a power source. The connector includes: a main body; a plurality of contacts retained to the main body; a light emitting element; a printed circuit board (15) for controlling the light emitting element to emit light; and an outer case enclosing the connector and defining an indication area; wherein the connector further includes a conducting member mounted on the printed circuit board (15), the conducting member is a spring plate made of metal material pressing upon the indication area of the outer case, a front end of the outer case defines a transparent portion made of transparent material, and upon pressing the indication area, capacitance is affected and the light emitting element is turned on to emit light through the transparent portion.

A light with retractable sleeve comprises a housing, a retractable sleeve disposed inside the housing, and a light body embedded in a front end of the retractable sleeve and protruding out of the housing; the retractable sleeve comprising an inner sleeve, an outer sleeve disposed outside the inner sleeve, and a connector; the inner sleeve having a gear rack; the outer sleeve having thereon a button corresponding to the gear rack; the button being attached on the gear rack via a resilient element to prevent the outer sleeve from undesirably moving out of the inner sleeve along the axial direction; the outer sleeve and the inner sleeve can be extended with each other, so that the outer sleeve is extended out of the housing, thereby facilitating the light body installed thereon, the structure is simple and easy to use.

The present invention relates to an electrical terminal for a female connector. The terminal includes a contact blade having a first sheet plane. The contact blade is configured to contact an electrical pin with a contact force when the terminal is mated with the electrical and a separate support blade having a second sheet plane. The support blade engages with a corresponding contact blade to increase the contact force. The first and second sheet planes are orientated substantially perpendicular to each other. The support blade includes an engaging portion configured to engage the corresponding contact blade transversely in a middle of the corresponding contact blade.

A ground type elbow connector includes an elbow housing 100, and an electroscope 200 that is assembled onto the elbow housing to allow both a visual check on an activated state of a power cable and a grounding operation to occur. The elbow housing is connected to an insulation plug of an elbow connection unit for a power cable that is assembled onto a voltage detection part opposite to a bushing coupling part via which the elbow connection unit is connected with a bushing insert of a switch.

An audio capture device selects between multiple microphones to generate an output audio signal depending on detected conditions. When the presence of wind noise or other uncorrelated noise is detected, the audio capture device selects, for each of a plurality of different frequency sub-bands, an audio signal having the lowest noise and combines the selected frequency sub-bands signals to generate an output audio signal. When wind noise or other uncorrelated noise is not detected, the audio capture device determines whether each of a plurality of microphones are wet or dry and selects one or more audio signals from the microphones depending on their respective conditions.

A cable connector includes a body member having a first opening to receive a cable and a second opening. An indicator is movable between first and second positions. A stop member substantially prevents unintended movement of the indicator from the first position to the second position. The indicator moves past the stop member and through the second opening in the body member when moving from the first position to the second position and is exposed externally of the body member to indicate full insertion of the cable.

A cable connector assembly (100) includes a cable (300) and a connector (200) connected with the cable. The connector includes an insulative housing (1) defining a receiving room (10), a printed circuit board (2) received in the insulative housing, a mating member (3) mounted on the insulative housing and electrically connected with the printed circuit board, a light member (4) mounted on the printed circuit board, a light guide member (5) for guiding the light emitting from the light member to an outer side of the insulative housing, and an outer cover (9) sealing an end of the insulative housing. The light guide member includes a light emitting portion (51) and a light transmission portion (54). The light emitting portion has a column shape having two opposite ends, the light emitted to an outer side of the insulative housing through the two ends of the light emitting portion.

A cable assembly (100) includes an insulative housing (1), a printed circuit board (PCB) (2) received in the insulative housing, a light member (4) mounted on the PCB, a light guide member (5) mounted on the PCB, and a shading member (6) covering the light guide member. The insulative housing includes a housing body (11), a receiving cavity (12) enclosed by the housing body, and a light transmitting area (13) mounted on the housing body. The PCB is mounted in the receiving cavity and the light guide member opposes the light transmitting area to transmit light emitted by the light member to outside of the insulative housing. The light guide member (5) is integrally formed with the shading member (6).

A battery connector is provided which is used to electrically connect a button battery. The connector has an insulating housing and positive and negative terminals. The housing has a limiting space for receiving and fixing the battery. The positive terminal has a positive contact portion which extends into the space and a first tail portion which maintains an electrical connection with a circuit board. The negative terminal has a negative contact portion which extends into the space so as to contact a negative electrode on a bottom surface of the battery, a second tail portion which maintains an electrical connection with the board, and a connection portion which is brought to move by the negative contact portion so as to electrically connect with the board when the battery is received in the space. The battery connector can be provided as part of a circuit module having an indicating member.