A display apparatus including: a display panel; a chassis assembly supporting the display panel; a printed circuit board accommodated in the chassis assembly, and configured to drive and control the display panel; and a connector installed on the printed circuit board, and including a seating portion and a connector terminal positioned on one side of the seating portion, wherein the connector is connected to the cable by seating a surface of a body of a cable on the seating portion in a vertical direction while the surface of the body of the cable faces the seating portion and contact-coupling a cable terminal formed at one end of the body of the cable with the connector terminal.

A camera module according to an embodiment of the present technology includes a first component-mounting board, a second component-mounting board, and a spacer component. The first component-mounting board includes an imaging device. The second component-mounting board is electrically connected to the first component-mounting board. The spacer component is arranged between the first component-mounting board and the second component-mounting board. The spacer component includes a component body that is made of a first insulating material. The component body including a first primary-surface portion that includes a plurality of first reference surfaces including at least three first reference surfaces, a second primary-surface portion that includes a plurality of second reference surfaces including at least three second reference surfaces, and a component accommodation portion with or without a bottom, the first primary-surface portion being brought into contact with the first component-mounting board, the second primary-surface portion being brought into contact with the second component-mounting board, the component accommodation portion being provided to at least one of the first primary-surface portion or the second primary-surface portion.

The present disclosure is generally directed to a connector assembly that includes an increased outer diameter of the connector member relative to the equivalent G-type connector and an increased inner diameter of the receptable member relative to the equivalent G-type receptacle (also referred to as a seizure nut) to achieve higher current carrying capacity and target frequency rates of up to 3.0 Ghz, for example. In one preferred example, this results in a connector assembly consistent with the present disclosure having a connector member with an outer diameter of at least 10.70 mm, and more preferably 10.76±0.01 mm, rather than the 9.4 mm diameter of existing G-type connectors. Despite this increased diameter, a seizure assembly consistent with the present disclosure can achieve a functional impedance of 75 ohms to maintain nominal signal quality.

A coaxial tap in a hybrid fiber coaxial cable distribution system serves subscribers with an RF signal.

A multi-tap device for a cable television (CATV) system includes a tap housing and a faceplate configured to be connected to the tap housing. The device also includes a first circuit board configured to be connected to the tap housing. The device also includes a second circuit board configured to be connected to the faceplate and to the first circuit board. The device also includes an access cover connected to the tap housing. The access cover is configured to be opened to provide access to disconnect the first circuit board from the tap housing and from the second circuit board and to subsequently remove the first circuit board from the tap housing, thereby changing a tap value of the multi-tap device. The second circuit board is configured to remain connected to the faceplate and positioned within the tap housing when the first circuit board is removed from the tap housing.

A cable television apparatus with a screwless clamping connector structure includes a support structure and at least one rotary connector structure which includes a screwless clamping connection part and a printed circuit board connection part, wherein the screwless clamping connection part includes a first end part which defines an opening to receive a coaxial cable core of a coaxial cable. The at least one rotary connector structure can be rotated to change an opening direction of the opening.

A circuit board includes a first wiring board, a second wiring board connected to the first wiring board, a third wiring board connected to the first wiring board, a connector, and an external terminal connector. A different-direction reference portion of the third wiring board extends in a direction different from an extending direction of a reference portion of the second wiring board between a first end of the third wiring board and a second end of the third wiring board. The connector electrically connects any portion between the reference portion and the second end of the second wiring board and any portion between the different-direction reference portion and the second end of the third wiring board.

A coaxial tap in a hybrid fiber coaxial cable distribution system serves subscribers with an RF signal.

A coaxial tap in a hybrid fiber coaxial cable distribution system serves subscribers with an RF signal.

In a slip ring 100, differential signal slip rings 70 are formed using a base substrate 30 where an electrode pattern and a relative permittivity are optimized to transmit a signal by using one differential signal slip ring 70 to one differential signal cable 60a. Consequently, a low voltage differential signal of 0.35V adopted in video signals of 4K resolution can be transmitted while the camera is continuously rotated through 360 degrees.