Provided according to an exemplary embodiment is a heater for an aerosol generation device, the heater comprising a plurality of segments combined together to form an insertion portion into which an object-to-be-heated is inserted; one or more electrically conductive tracks printed on one surface of each of the plurality of segments and disposed toward the object-to-be-heated; and an elastic member configured to surround at least a part of the plurality of segments.

An optical circuit is provided in which electric circuit parts and optical circuit parts are integrated in a stack on a printed substrate. The optical circuit is provided with a lid having a temperature regulation function that uses a temperature control element and an optical fiber block capable of optical input and output. Temperature control of optical circuit elements can be efficiently performed by mounting electric circuit parts and optical circuit parts on a printed substrate in advance by a reflow step using OBO technology and subsequently attaching a lid that includes a temperature control element.

Provided is an aerosol generating apparatus including: a heater configured to generate aerosol by heating a cigarette, the heater including a first electrically conductive heating element formed along a first path on an electrically insulating substrate, a second electrically conductive heating element formed along a second path on the electrically insulating substrate, and a temperature sensor track formed along a third path in a region between the first path and the second path; a battery configured to supply power to the heater; and a controller configured to control the power supplied from the battery to the heater and monitor a temperature sensed using the temperature sensor track.

A thermal management system includes a cooling unit, a condenser, and a processor. The processor is located within a server, and the system also includes a phase change cooling device in thermal communication with the processor, and in fluid communication with the condenser. The system also includes a single phase cooling device in thermal communication with the phase change cooling device, and in fluid communication with the liquid cooling unit. The system also includes a temperature sensor in thermal communication with the single phase cooling device, and a fluid pump to move fluid between the liquid cooling unit and the single phase cooling device. A TEC device may also be implemented between the phase change cooling device and the single phase cooling device.

A printed wiring board includes a core substrate including core material and having opening such that the opening penetrates through the core substrate, thermoelectric elements including P-type and N-type thermoelectric elements such that the thermoelectric elements are accommodated in the opening of the core substrate, a first build-up layer that mounts a heat-absorbing element thereon and includes a first resin insulating layer such that the first resin insulating layer is formed on first surface of the core substrate and covering the opening of the core substrate, and a second build-up layer that mounts a heat-generating element thereon and includes a second resin insulating layer such that the formed on the second resin insulating layer is foamed on second surface of the core substrate on the opposite side and covering the opening of the core substrate and has thickness that is greater than thickness of the first resin insulating layer.

A thermal chamber multiple sides that form an enclosed chamber. The thermal chamber includes a first side of the multiple sides, the first side configured to adjustably mount an electronic circuit board within the enclosed chamber. The thermal chamber includes a second side of the multiple sides, the second side located opposite the first side and including one or more ports that expose the enclosed chamber. Each of the one or more ports is configured to receive a temperature control component that transfers thermal energy locally to and from a plurality of electronic devices of an electronic system that is coupled to and positioned above the electronic circuit board.

The present invention relates to a carrier substrate (30) comprising signal vias (41) for electrically interconnecting components (10, 31) arranged on opposing sides of the carrier substrate (30). The carrier substrate (30) further comprises: at least one cavity (20) embedded in the carrier substrate (30) having at least one chamber wick part (24) and a working fluid, and wherein the at least one cavity (20) at least partially encompass the signal vias (41). The present invention also relates to an electronic assembly and an apparatus for wireless communication comprising the carrier substrate (30).

A thermal chamber includes multiple sides, such as a back side, a front side, a first end, a second end, a top side, and a bottom side. An electronic circuit board is adjustably mounted to the bottom side and positioned above the bottom side of the thermal chamber. In the closed position the multiple sides form an enclosed chamber. The top side includes one or more ports orientated along the horizontal axis. Each of the one or more ports includes a top side open area that exposes the enclosed chamber. Each of the one or more ports is configured to receive a temperature control component that transfers thermal energy locally to and from multiple electronic devices of an electronic system that is coupled to and positioned above the electronic circuit board.

The invention relates to an element in the shape of a sensor, an active electronic component, a switch, a circuit, or an electric conducting path for integration into a surrounding medium. The element is penetrable by the surrounding medium and has a porous, non-conductive substrate and at least one circuit trace made of conductive material present on the substrate. The openings of the substrate are open in an area of the circuit trace. The use and manufacture of the element are also provided.

Provided is an aerosol generation device including: a case into which a cigarette is insertable; a heater arranged in the case and configured to heat the cigarette inserted into the case; a mainstream smoke passage connecting an internal end portion of the cigarette to the outside; and a vaporizer configured to heat a liquid composition to generate aerosol and deliver the aerosol to the mainstream smoke passage, wherein at least a portion of the mainstream smoke passage extends in a direction crossing a longitudinal direction of the cigarette.