A thin film material residual testing structure comprises two groups of structures. The first group of structures comprises an electrostatic driven polysilicon cantilever beam, an asymmetrical cross beam made of thin film material to be tested and having an alignment structure, and a double-end fixed support beam made of the thin film material to be tested. The second group of structures is similar to the structure of the first group with the fixed support beam removed. A residual stress testing method includes separating the loading drive part of force from a residual stress testing structure made of the thin film material to be tested, designing the bending deflection of a control testing structure according to geometrical parameters, extracting the force applied on the residual stress testing structure and utilizing force and deflection to calculate the residual stress of the thin film material to be tested.

A wireless sensor assembly for monitoring conditions in an ambient environment, such as for use in a climate control system for a data center is disclosed. The sensor assembly has a small form-factor housing extending along a longitudinal axis and defining an interior space. A sensor circuit is disposed within the housing and includes at least one sensor element for detecting temperature and/or humidity that is enclosed within a vented sub-chamber of the housing. A mounting member forming part of an exterior surface of the housing mounts the sensor assembly vertically along the at an installation location within an ambient environment being monitored.

A thin film material residual testing structure comprises two groups of structures. The first group of structures comprises an electrostatic driven polysilicon cantilever beam, an asymmetrical cross beam made of thin film material to be tested and having an alignment structure, and a double-end fixed support beam made of the thin film material to be tested. The second group of structures is similar to the structure of the first group with the fixed support beam removed. A residual stress testing method includes separating the loading drive part of force from a residual stress testing structure made of the thin film material to be tested, designing the bending deflection of a control testing structure according to geometrical parameters, extracting the force applied on the residual stress testing structure and utilizing force and deflection to calculate the residual stress of the thin film material to be tested.

A pressure sensor system comprises a force feedback loop. The force feedback loop is configured to receive a measured pressure sensor signal and generate a feedback signal based on the measured pressure and an electrostatic force. The electrostatic force is generated based on the feedback signal and combined with the measured force keeping the resultant sensor signal stable.

Disclosed is a device useful for preserving tissue samples after extraction from human or animal patients. The device includes a circular blade for taking a tissue sample, the blade being coupled to a sealing cap which mates to one end of a container. A retrieval port is also disclosed for extracting fluids from the container. Methods are also disclosed by which tissue samples may be taken and prepared for storage, processing, culture, or other analysis.

Embodiments of a force sensor for a textile are provided where the sensor comprises: a tube having a compression portion and a transmission portion extending from the compression portion, the compression portion being routed into a sensing area fill geometry configured to receive a force applied to the textile in which the tube is embedded, the transmission portion comprised of a compression-resistant material, and the compression portion comprised of a compressible material; an electronic pressure sensing element fluidly coupled to the tube and spaced from the compression portion by the transmission portion, the electronic pressure sensing element configured to measure pressure exerted on the compression portion through the textile; and a fluid within the tube.