A transmission line assembly and a compact insulator and hardware assembly for a transmission line assembly are provided. In an embodiment, a transmission line assembly includes a first V-string including a first post insulator and a second post insulator; a second V-string including a third post insulator and a fourth post insulator; and a suspension insulator, and a first yoke plate, a second yoke plate, and a third yoke plate are configured to respectively support a first phase conductor, a second phase conductor, and a third phase conductor to have an inverted triangular configuration.

A transmission line assembly and a compact insulator and hardware assembly for a transmission line assembly are provided. In an embodiment, a transmission line assembly includes a first V-string including a first post insulator and a second post insulator; a second V-string including a third post insulator and a fourth post insulator; and a suspension insulator, and a first yoke plate, a second yoke plate, and a third yoke plate are configured to respectively support a first phase conductor, a second phase conductor, and a third phase conductor to have an inverted triangular configuration.

A transmission line assembly and a compact insulator and hardware assembly for a transmission line assembly are provided. In an embodiment, a transmission line assembly includes a first V-string including a first post insulator and a second post insulator; a second V-string including a third post insulator and a fourth post insulator; and a suspension insulator, and a first yoke plate, a second yoke plate, and a third yoke plate are configured to respectively support a first phase conductor, a second phase conductor, and a third phase conductor to have an inverted triangular configuration.

A transmission line assembly and a compact insulator and hardware assembly for a transmission line assembly are provided. In an embodiment, a transmission line assembly includes a first V-string including a first post insulator and a second post insulator; a second V-string including a third post insulator and a fourth post insulator; and a suspension insulator, and a first yoke plate, a second yoke plate, and a third yoke plate are configured to respectively support a first phase conductor, a second phase conductor, and a third phase conductor to have an inverted triangular configuration.

A tension relief for supply lines and a block-like clamping part therefor, which has a lateral surface designed as a clamping surface. The clamping surface of the clamping part is formed at least in one clamping portion by an elastic wall, which is delimited on the side facing away from the clamping surface by a cavity structure, which is formed by additional walls. The clamping part can be variedly used without modification on certain line diameters, in particular in a tension relief of a cable carrier or also in a connector housing.

A tension relief for supply lines and a block-like clamping part therefor, which has a lateral surface designed as a clamping surface. The clamping surface of the clamping part is formed at least in one clamping portion by an elastic wall, which is delimited on the side facing away from the clamping surface by a cavity structure, which is formed by additional walls. The clamping part can be variedly used without modification on certain line diameters, in particular in a tension relief of a cable carrier or also in a connector housing.

An electrical bushing is specified, the bushing including a flange with a lower part and an upper part affixed to one another and further including a core surrounded by the flange, wherein the flange is affixed to the core by a locking compound disposed in a volume of a joint between the flange and the core, and wherein the volume of the joint further includes a compressible material, the compressible material being configured to compress or expand in response to a change in the volume of the joint.

Furthermore, a method of producing an electrical bushing is specified.

An electrical bushing is specified, the bushing including a flange with a lower part and an upper part affixed to one another and further including a core surrounded by the flange, wherein the flange is affixed to the core by a locking compound disposed in a volume of a joint between the flange and the core, and wherein the volume of the joint further includes a compressible material, the compressible material being configured to compress or expand in response to a change in the volume of the joint.

Furthermore, a method of producing an electrical bushing is specified.

A communication method and a system for converging a 4th-Generation (4G) communication system or a 5th-Generation (5G) communication system for supporting higher data rates beyond a 4th-Generation (4G) system with a technology for Internet of Things (IoT) are provided. The disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. The disclosure provides an electronic device including a wireless communication module. The wireless communication module includes an antenna array including at least one antenna element, a phase shifter configured to control a phase of a beam radiating from the antenna array, a processor electrically connected to the phase shifter and configured to perform beamforming by controlling the phase shifter, and a memory including phase offset information of the wireless communication module.

The invention relates to a contamination protection device for high-voltage insulators and an arrangement consisting of the contamination protection device and a high-voltage insulator. The contamination protection device for high-voltage insulators according to the invention is designed to be mounted on the insulator cap of the high-voltage insulator and comprises for this purpose a mounting region, which is designed to be interlockingly connected to the insulator cap and comprises a through-opening for the connecting element of the insulator cap. A protective shield is furthermore provided, which extends radially around the mounting region in order to cover the high-voltage insulator. The arrangement comprises a high-voltage insulator with an insulator cap and a contamination protection device disposed on the insulator cap, wherein the contamination protection device is designed according to the invention and is connected to the insulator cap by means of an interlocking connection.