A glass plate module according to the present invention includes: a first glass plate having an edge portion on which a notch is formed; a second glass plate that is arranged opposing the first glass plate; an interlayer that is arranged between the first glass plate and the second glass plate; at least one conductive pattern that is arranged between the first glass plate and the second glass plate; at least one conductive cable that is connected to an end portion of the conductive pattern on an exposed surface that is exposed from the notch of the first glass plate on the second glass plate; a restriction member that engages with a portion of the conductive cable and restricts the conductive cable from separating from the exposed surface; and a sealing material that covers at least a connection portion at which the conductive cable and the conductive pattern are connected on the exposed surface.

A heater includes a ceramic core and a metal wire secured to the ceramic core. The ceramic core includes four through holes.

A terminal device for connecting a heating apparatus with an electricity supply, in particular for a tubular heating apparatus for household appliances, wherein the heating apparatus includes at least one electric resistance heating element, comprises a mounting and reception section arranged for being electrically connected with the electric resistance heating element of the heating apparatus, a connector section arranged for being electrically connected on its one end side with an electrical power supply and on its other end side with the mounting and reception section, and a thermal fuse unit for detecting an excess temperature of the heating apparatus, which is in heat transfer contact with at least the mounting and reception section and which is connected in the electric supply circuit for supplying the electric resistance heating element of the heating apparatus with electricity. The mounting and reception section comprises a cavity for receiving the thermal fuse unit.

A lamp or lens assembly for a motor vehicle that includes electrically conductive traces for defogging or deicing the lens. Aspects include a light transmissive lens coupled to a lamp housing. The light transmissive lens may define a curved cross-section with a curvature extending across the length and/or the width of the lens. The lens may include one or more electrically conductive traces positioned on a surface of the lens, the electrically conductive traces optionally extending across and curving with the curvature of the light transmissive lens. One or more coatings may optionally cover the conductive traces and a portion of the lens surface leaving portions uncovered. The electrically conductive traces may extend outwardly away from the surface of the lens with height that is greater than their width.

There is provided a substrate fixing device. The substrate fixing device includes: a base plate; and an electrostatic chuck that is fixed to the base plate and configured to adsorb a subject by electrostatic force. The electrostatic chuck includes: an adsorptive layer configured to adsorb and retain the subject; and a heater layer that is provided between the adsorptive layer and the base plate and configured to heat the subject retrained by the adsorptive layer. A thickness of the heater layer is uniform over an entire area of the heater layer.

A showerhead provided in a chamber of a semiconductor manufacturing apparatus and facing a wafer holder includes: a plate-shaped ceramic substrate; a plurality of through holes penetrating the ceramic substrate in the direction of the thickness of the ceramic substrate; and a plurality of radio frequency conductors embedded in a plurality of zones, respectively, of the ceramic substrate, as seen on the side of a surface of the ceramic substrate facing the wafer holder.

A cartridge for an aerosol-generating system is provided, including a liquid storage portion including a housing containing a liquid aerosol-forming substrate, the housing having an open end; and a heater assembly including: an electrical heating element configured to heat the substrate to form an aerosol, the heating element including a planar filament arrangement having one or more electrically conductive filaments, an electrically insulating substrate having a planar attachment face, the filament arrangement disposed on the planar attachment face, and connectors arranged at opposite ends of the heating element and forming two separate electrical contacts configured to apply power to the filament arrangement, at least a portion of the heater assembly is fluid-permeable, and the heater assembly is arranged over the open end of the housing.

A ceramic heater includes: a ceramic plate which is provided with a wafer placement surface on an upper surface and in which a heating resistor is internally embedded; a ceramic tubular shaft with an upper end bonded to a lower surface of the plate; and power feeding members which penetrate a peripheral wall part of the tubular shaft in a vertical direction, and are electrically connected to the heating resistor. The power feeding members are embedded in the peripheral wall part of the tubular shaft, and are in tight contact with a ceramic material of the tubular shaft.

A PTC heating module for a battery-operated motor vehicle may include a first and a second electrode, and a plurality of PTC elements. The first and second electrodes may be configured to be electrically conductive. The plurality of PTC elements may be arranged between the first and second electrodes and may be spaced apart from one another in a longitudinal direction of the PTC heating module. The first and second electrodes may be connected to the plurality of PTC elements. At least one of the first and second electrodes may be subdivided into at least two electrode tracks. The at least two electrode tracks may be electrically isolated from one another. Each of the at least two electrode tracks may be connected to the plurality of PTC elements.

A vehicle exterior part includes: a decoration body including a base and a transparent plastic layer arranged on an outer side of the base; a heater seat including a seat base and a heat wire; and a connector pin. The heater seat includes: a heat-generating body arranged on an outer side of the transparent plastic layer; and an extension extending from an edge of the heat-generating body. A section of the heater wire in the extension is a terminal electrically connected to the connector pin. An outer part of the connector pin is embedded in a periphery of the base. An inner part of the connector pin is exposed from the base. The extension extends inward in an outer-inner direction in the periphery of the base. The terminal of the heater wire is joined to the outer part of the connector pin in the periphery of the base.