HIBER SENSE

Brand Owner Address Description
HIBERSENSE HiberSense, Inc. 33 Terminal Way Suite E324B Pittsburgh PA 15219 HIBER SENSE;Design and development of automated controller systems, namely, environmental controllers for monitoring and controlling environmental conditions in a building based on temperature, humidity, atmospheric pressure, occupancy, sound, motion, detected and input user preferences, air quality, and light; networking of building controls, namely, wireless and wired environmental controllers for monitoring and controlling environmental conditions in a building based on temperature, humidity, atmospheric pressure, occupancy, sound, motion, detected and input user preferences, air quality, and light; electronic monitoring and data collection of temperature, humidity, atmospheric pressure, occupancy, sound, motion, detected and input user preferences, air quality, and light data of a building using computers and sensors; providing on-line non-downloadable software for viewing temperature, humidity, atmospheric pressure, occupancy, air quality, sound, motion, detected and input user preferences, and light data of a building, and for controlling environmental controllers for monitoring and controlling environmental conditions in a building based on temperature, humidity, atmospheric pressure, occupancy, air quality, sound, motion, detected and input user preferences, and light;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A sense amplifier capable of performing high-speed data sense operation with lower power consumption using a minuscule signal from a memory cell even in a case where a memory array voltage is reduced. A plurality of drive switches for over-driving are distributively arranged in a sense amplifier area, and a plurality of drive switches for restore operation are concentratively disposed at one end of a row of the sense amplifiers. A potential for over-driving is supplied using a meshed power line circuit. Through the use of the drive switches for over-driving, initial sense operation can be performed on data line pairs with a voltage having an amplitude larger than a data-line amplitude, allowing implementation of high-speed sense operation. The distributed arrangement of the drive switched for over-driving makes it possible to dispersively supply current in sense operation, thereby reducing a difference in sense voltage with respect to far and near positions of the sense amplifiers.