The present invention relates to an improved insulated conductor with a low dielectric constant and reduced materials costs. The conductor (12) extends along a longitudinal axis and an insulation (14, 14<1>) surrounds the conductor (12). At least on channel (16, 16<1>) in the insulation (14, 14<1>) extends generally along the longitudinal axis to form an insulated conductor. Apparatuses and methods of manufacturing the improved insulated conductors are also disclosed.

The invention discloses a module for transmitting an MIPI camera image signal, including an MIPI camera, a first connection device, a second connection device and a cable disposed between the first connection device and the second connection device. The MIPI camera is configured to generate the MIPI camera image signal. The first connection device includes a first USB Type-C connector and a first plurality of self-defined pins disposed within the first USB Type-C connector, and configured to be connected to a system host. The second connection device includes a second USB Type-C connector and a second plurality of self-defined pins disposed within the second USB Type-C connector, and configured to be connected to the MIPI camera. The cable includes at least 2 pairs of differential signal twisted wires configured to receive the MIPI camera image signal through the second plurality of self-defined pins.

The invention discloses a module for transmitting an MIPI camera image signal, including an MIPI camera, a first connection device, a second connection device and a cable disposed between the first connection device and the second connection device. The MIPI camera is configured to generate the MIPI camera image signal. The first connection device includes a first USB Type-C connector and a first plurality of self-defined pins disposed within the first USB Type-C connector, and configured to be connected to a system host. The second connection device includes a second USB Type-C connector and a second plurality of self-defined pins disposed within the second USB Type-C connector, and configured to be connected to the MIPI camera. The cable includes at least 2 pairs of differential signal twisted wires configured to receive the MIPI camera image signal through the second plurality of self-defined pins.

The present disclosure provides an intermittent tape (100) disposed of around a pair of conductors. The intermittent tape (100) has a top dielectric layer (102), a bottom dielectric layer (106) and a conductive layer (104). The conductive layer (104) is sandwiched between the top dielectric layer (102) and the bottom dielectric layer (106). The conductive layer (104) includes conductive segments (108) and non-conductive segments (110). The non-conductive segments (110) are defined by an absence of the conductive segments (108). The conductive segments (108) and the non-conductive segments (110) are arranged alternatingly. A width of the non-conductive segments (110) between the conductive segments (108) is constant.

The present disclosure relates to a data transmission cable that may reduce electromagnetic interference (EMI) noise generated during data transmission and a display apparatus including the same and may include a signal transfer line; an impedance matching sheet configured to cover the signal transfer line; and, a conductive bending tape wound around the impedance matching sheet, in which the conductive bending tape may be disposed to be wound on an outer surface of the impedance matching sheet in a direction perpendicular to a longitudinal direction of the impedance matching sheet.

The present disclosure relates to a data transmission cable that may reduce electromagnetic interference (EMI) noise generated during data transmission and a display apparatus including the same and may include a signal transfer line; an impedance matching sheet configured to cover the signal transfer line; and, a conductive bending tape wound around the impedance matching sheet, in which the conductive bending tape may be disposed to be wound on an outer surface of the impedance matching sheet in a direction perpendicular to a longitudinal direction of the impedance matching sheet.

An in-vehicle communication system includes a transmitter that transmits a differential signal, a receiver that receives the differential signal, and a communication cable that connects between the transmitter and the receiver and transmits the differential signal. The communication cable includes a twisted wire, a sheath covering the twisted wire, and a talc layer provided between the twisted wire and the sheath. The sheath includes a pair of ribs located across a straight line connecting a conductor center of a first coated wire and a conductor center of a second coated wire in a transverse section of the communication cable. The talc layer is provided along the surface of the twisted wire.

Methods of design, manufacture and implementations of balanced twisted pair cables with a barrier tape or shield, with tuned attenuation, impedance, and coupling properties. A filler is included within the cable to separate the pairs and provide a support base for the shield, allowing for optimized ground plane uniformity and stability for tuned attenuation, impedance, and coupling properties. The filler orientation, shape, and size provides support for the shield such that a gap is provided between the shield and the twisted pairs with a given minimum size without increasing the maximum cable core size. The length of arms of the filler may be adjusted to fine-tune the size and shape of this gap and control air-dielectric volume and radial contact or spacing between any pair(s) and the shield, tuning electrical performance characteristics caused by non-linear effects of electromagnetic interactions at short ranges between the pairs, shield, filler, or other components.

A cable includes a core wire, a shielding layer located on a periphery of the core wire, and an insulating skin at least partially located on a periphery of the shielding layer. The shielding layer includes at least a first metal layer and a second metal layer. The first metal layer and the second metal layer have different metal materials. The first metal layer and the second metal layer are integrally composited. With this arrangement, the shielding effect of the cable is improved.

A cable includes a core wire, a shielding layer located on a periphery of the core wire, and an insulating skin at least partially located on a periphery of the shielding layer. The shielding layer includes at least a first metal layer and a second metal layer. The first metal layer and the second metal layer have different metal materials. The first metal layer and the second metal layer are integrally composited. With this arrangement, the shielding effect of the cable is improved.