A multi-purpose Micro-Electro-Mechanical Systems (MEMS) thermopile sensor able to use as a thermal conductivity sensor, a Pirani vacuum sensor, a thermal flow sensor and a non-contact infrared temperature sensor, respectively. The sensor comprises a rectangular membrane created in a silicon substrate which has a thin polysilicon layer and a thin residual thermal reorganized porous silicon layer both attached on its back side, and configured to have its three sides clamped to the frame formed in the silicon substrate which surrounds and supports the membrane and the other side free to the frame, a cavity created in the silicon substrate, positioned under the membrane and having its flat bottom opposite to the membrane, its three side walls shaped as curved planes and the other side wall shaped as a vertical plane, a heater or an infrared absorber positioned on the membrane, close to and parallel with the free side of the membrane and a thermopile positioned on the membrane and consists of several thermocouples connected in series and having its hot junctions close to the heater and its cold junctions extended to the frame.

Methods and apparatus for proving a sensor assembly. Embodiments can include employing a circuit assembly having a first layer bonded to a second layer with an oxide layer, depositing bonding oxide on the second layer of the circuit assembly, and thinning the first layer of the circuit assembly after depositing the bonding oxide. A coating can be applied over at least a portion of the first layer of the circuit assembly after annealing the circuit assembly. After polishing the bonding oxide on the second surface of the second layer of the circuit assembly, a shim can be secured to the bonding oxide on the second surface of the second layer of the circuit assembly to reduce bow of the assembly. Embodiments can provide a sensor useful in focal plane arrays.

A monolithically integrated multi-sensor (MIMS) is disclosed. A MIMs integrated circuit comprises a plurality of sensors. For example, the integrated circuit can comprise three or more sensors where each sensor measures a different parameter. The three or more sensors can share one or more layers to form each sensor structure. In one embodiment, the three or more sensors can comprise MEMs sensor structures. Examples of the sensors that can be formed on a MIMs integrated circuit are an inertial sensor, a pressure sensor, a tactile sensor, a humidity sensor, a temperature sensor, a microphone, a force sensor, a load sensor, a magnetic sensor, a flow sensor, a light sensor, an electric field sensor, an electrical impedance sensor, a galvanic skin response sensor, a chemical sensor, a gas sensor, a liquid sensor, a solids sensor, and a biological sensor.

Methods and apparatus for preventing solar damage, and other heat-related damage, to uncooled microbolometer pixels. In certain examples, a thermochroic membrane that becomes highly reflective at temperatures above a certain threshold is applied over at least some of the microbolometer pixels to prevent the pixels from being damaged by excessive heat.

A semiconductor device comprises a first doped semiconductor layer, a second doped semiconductor layer, an oxide layer covering the first doped semiconductor layer and the second doped semiconductor layer, and an interconnect. The first doped semiconductor layer is electrically connected with the second doped semiconductor layer by means of the interconnect which crosses over a sidewall of the second doped semiconductor layer. The interconnect comprises a metal filled slit in the oxide layer. At least one electronic component is formed in the first and/or second semiconductor layer. The semiconductor device moreover comprises a passivation layer which covers the first and second doped semiconductor layers and the oxide layer.

A monolithically integrated multi-sensor (MIMS) is disclosed. A MIMs integrated circuit comprises a plurality of sensors. For example, the integrated circuit can comprise three or more sensors where each sensor measures a different parameter. The three or more sensors can share one or more layers to form each sensor structure. In one embodiment, the three or more sensors can comprise MEMs sensor structures. Examples of the sensors that can be formed on a MIMs integrated circuit are an inertial sensor, a pressure sensor, a tactile sensor, a humidity sensor, a temperature sensor, a microphone, a force sensor, a load sensor, a magnetic sensor, a flow sensor, a light sensor, an electric field sensor, an electrical impedance sensor, a galvanic skin response sensor, a chemical sensor, a gas sensor, a liquid sensor, a solids sensor, and a biological sensor.

Some embodiments include methods of manufacturing a plurality of MEMS devices, each device including a first material and a second material with different CTE. The method includes providing a carrier with substantially equal CTE as the first material, the carrier comprising a plurality of cavities. The method also includes positioning a plurality of components in respective cavities of the carrier, the components comprising the second material. In some embodiments, the method includes positioning a layer of the first material on the second material components. In some embodiments, the method includes bonding the first material layer and the second material components. The method also includes removing the carrier and singulating the first material layer to produce the plurality of MEMS devices.

A device having a microelectronic component housed in a hermetically sealed housing having a vacuum inner space, and including a getter that substantially traps only hydrogen, is inert to oxygen and/or to nitrogen, and is housed in said inner space. Each of the constituent parts of the device being likely to degas into the inner space is a mineral material.

A monolithically integrated multi-sensor (MIMS) is disclosed. A MIMs integrated circuit comprises a plurality of sensors. For example, the integrated circuit can comprise three or more sensors where each sensor measures a different parameter. The three or more sensors can share one or more layers to form each sensor structure. In one embodiment, the three or more sensors can comprise MEMs sensor structures. Examples of the sensors that can be formed on a MIMs integrated circuit are an inertial sensor, a pressure sensor, a tactile sensor, a humidity sensor, a temperature sensor, a microphone, a force sensor, a load sensor, a magnetic sensor, a flow sensor, a light sensor, an electric field sensor, an electrical impedance sensor, a galvanic skin response sensor, a chemical sensor, a gas sensor, a liquid sensor, a solids sensor, and a biological sensor.

Methods for reducing wafer bow induced by an anti-reflective coating of a cap wafer are provided. The method may utilize a shadow mask having at least one opening therein that is positioned opposite recessed regions in a cap wafer. The method may further include depositing at least one layer of an anti-reflective coating material through the shadow mask onto a planar side of a cap wafer to provide a discontinuous coating on the planar side.