A satellite antenna heating system, includes a satellite antenna reflector defining a reflector fluid chamber and that includes a reflector wall. The reflector wall includes a first surface that is located adjacent the reflector fluid chamber, and a second surface that is located opposite the reflector wall from the first surface and provides an outer surface of the satellite antenna reflector, wherein the reflector fluid chamber is configured to channel a fluid through at least a portion of the satellite antenna reflector.

A method of producing a vehicle glass assembly, includes (A) providing a connector made of metal plate and comprising a first flat portion, a second flat portion and a bridge portion connecting between the first and the second flat portions, each the flat portion having a respective surface to be soldered, (B) soldering lead-free solder onto the surfaces to form first and second blocks of lead-free solder on the surfaces of the first flat portion and the second flat portion, respectively, (C) providing a glass substrate layer on which an electrically conductive layer comprising a wire pattern and a busbar is formed, and (D) sandwiching the lead-free solder blocks between their respective surfaces and the busbar, and then melting the blocks to form solder connections between the connector and the busbar; wherein the amount of lead-free solder in each of the blocks is between 15 mg and 50 mg.

A backdoor includes a resin outer panel having an opening; a resin inner panel; a metal reinforcement arranged between the outer panel and the inner panel; and a rear glass covering the opening. The rear glass includes a defogger, and an antenna conductor capable of receiving radio waves in an AM band. The antenna conductor includes a power feeding part, and an antenna element having a predetermined length and connected to the power feeding part. The antenna element includes a proximity part extending along an outer edge among upper, lower, left, and right outer edges of the defogger, and having a predetermined spacing from the outer edge. The antenna element is positioned to be separated from the reinforcement by a predetermined spacing, or positioned on a side with respect to the outer edge where the reinforcement is not present in plan view of the rear glass.

A satellite antenna heating system, includes a satellite antenna reflector defining a reflector fluid chamber and that includes a reflector wall. The reflector wall includes a first surface that is located adjacent the reflector fluid chamber, and a second surface that is located opposite the reflector wall from the first surface and provides an outer surface of the satellite antenna reflector, wherein the reflector fluid chamber is configured to channel a fluid through at least a portion of the satellite antenna reflector.

A vehicle glazing with a slot antenna between the vehicle portal and the peripheral edge of an IR reflective coating that includes a heating bus over the coating edge. The antenna slot may be fed directly by a voltage probe or a coupled coplanar line at a position to excite both fundamental and higher order modes for multiband antenna applications. A portion of the IR reflective coating may overlay the window frame at null positions of first higher order mode to tune the slot antenna to higher frequencies. Slot antenna resonant frequency may also be moved higher by separating the IR reflective coating into two coating panel with the lower coating panel connected to electrical ground by capacitive coupling. Multiple antennas can be fed at different locations for multiband applications and diversity antenna systems.

An automotive vehicle has a fixed glass panel with an aperture and a sliding glass panel mounted to the fixed glass panel adapted to selectably cover the aperture. The glass panels carry a heater grid having a plurality of vertical bus bars interconnected by a plurality of horizontal defrost traces. The bus bars are configured to be selectably connected to a power supply for providing resistive heating. The sliding glass panel is limited to a plurality of restricted positions. Each restricted position has at least one bus bar on the sliding glass panel overlapping one of the bus bars on the fixed glass panel to provide capacitive coupling between the overlapping bus bars of RF signals impinging on the horizontal traces. An antenna coupler connected to a bus bar on the fixed glass panel transmits the RF signals to an RF receiver.

The heating wire structure for glass includes a sheet of glass in a vehicle having a battery located within the vehicle and configured to apply power to heating wires located on the glass according to a user request, the heating wires located in one direction on the glass and connected to terminals of the battery in series, vertical bars located at both ends of the glass so that the heating wires are connected to the vertical bars, antenna lines connected to the antenna, at least some of the antenna lines including intersection points formed by intersecting the heating wires, and a ceramic layer formed at intersecting areas between the heating wire lines and the antenna lines to be located between the heating wire lines and the antenna lines.

An antenna includes a flat conductor, and the flat conductor includes a first slot extending in a first direction, a second slot connected to the first slot and extending in a second direction, a third slot connected to the first slot and including another end that is open through an outer edge of the conductor, the third slot extending to one side of the first slot opposite from the second slot, and a fourth slot connected to the second slot, the fourth slot extending to one side of the second slot opposite from the first slot, wherein the third slot has a wide portion, and the fourth slot has a wide portion, and the outer edge includes an inclined portion inclined with respect to a virtual line that passes through the another end of the third slot and that is perpendicular to a direction in which the third slot extends.

A transparent window plate is provided with a plurality of defogging heat wires arranged to have a side parallel with a first direction. The transparent window plate includes: a plurality of repetitive patterns that are arranged between one of the plurality of defogging heat wires and an adjacent one of the plurality of defogging heat wires so as to be not in contact with the plurality of defogging heat wires, and each of the plurality of repetitive patterns having at least one side parallel with the plurality of defogging heat wires. The plurality of repetitive patterns are aligned along the first direction; and the plurality of repetitive patterns are repetitively arranged along a second direction perpendicular to the first direction.

A window assembly comprises a substrate with a transparent layer that defines an area having a periphery. An outer region devoid of the transparent layer is defined adjacent the transparent layer along the periphery. A conductive element disposed on the substrate and comprises a first portion overlapping an area of the transparent layer and abutting and being in direct electrical contact with the transparent layer. The conductive element further comprises a second portion integrally extending from the first portion and disposed in the outer region. The periphery of the transparent layer delineates the first and second portions of the conductive element. The second portion has an area defining an enclosed slot. A feeding element couples to the conductive element for energizing the enclosed slot as a slot antenna. An energizing element couples to the conductive element for energizing the conductive element to implement a bus bar.