The present disclosure relates to a glass interposer module, an imaging device, and an electronic apparatus capable of reducing occurrence of distortion caused by thermal expansion during manufacture. A light transmissive member is charged between a glass interposer and a CMOS image sensor (CIS). Since rigidity of the glass interposer can be enhanced by this configuration, it is possible to suppress deflection of the CIS and also reduce influence of distortion given to a gyro sensor and the like which are equipped on the glass interposer, and therefore, erroneous detection of a gyro signal can be reduced. The present disclosure can be applied to a glass interposer module.

An electronic device includes a housing enclosure, which at least sealingly contains an electronic component, a barrier, a pump, and a coolant. The electronic component is located on a substrate, while the barrier defines a circulation loop in which the coolant is exposed to the electronic component. The pump is positioned within the circulation loop to cause flow of the coolant through the circulation loop.

A component carrier and a method of manufacturing the component carrier are presented. The component carrier comprises a stack having at least one electrically conductive layer structure and at least one electrically insulating layer structure, wherein the stack comprises i) a support layer structure comprising at least one through-hole; ii) a metal paste filling material in the through-hole; and iii) a metal pad provided on and extending from an exterior main surface of the support layer structure. The metal paste filling material in the through hole and the metal pad comprise at least partially the same material.

A high temperature, non-cavity package for non-axial electronics is designed using a glass ceramic compound with that is capable of being assembled and operating continuously at temperatures greater that 300-400 C. Metal brazes, such as silver, silver colloid or copper, are used to connect the semiconductor die, lead frame and connectors. The components are also thermally matched such that the packages can be assembled and operating continuously at high temperatures and withstand extreme temperature variations without the bonds failing or the package cracking due to a thermal mismatch.