SENSOR SYSTEMS COMPRISED ELECTROMECHANICAL

Brand	Owner (click to sort)	Address	Description
FORCEGAUGE	NextInput Inc.	980 Linda Vista Avenue Mountain View CA 94043	Sensor systems comprised of electromechanical force sensors and software for processing force sensor data for use with a user interface that facilitates interaction between a user and an electronic device, all sold as a unit; Sensor systems comprised of electromechanical force sensors, data processing units, and software for processing force sensor data for use with a user interface that facilitates interaction between a user and an electronic device, all sold as a unit;FORCE GAUGE;
FORCETOUCH	NextInput Inc.	980 Linda Vista Avenue Mountain View CA 94043	Sensor systems comprised of electromechanical force sensors and software for processing force sensor data for use with a user interface that facilitates interaction between a user and an electronic device, all sold as unit; Sensor systems comprised of electromechanical force sensors, data processing units, and software for processing force sensor data for use with a user interface that facilitates interaction between a user and an electronic device, all sold as a unit;In the statement, line 1, limited liability company should be deleted, and corporation should be inserted.;FORCE TOUCH;
NEXTINPUT	NextInput Inc.	980 Linda Vista Avenue Mountain View CA 94043	Sensor systems comprised of electromechanical force sensors and software for processing force sensor data for use with a user interface that facilitates interaction between a user and an electronic device, all sold as unit; Sensor systems comprised of electromechanical force sensors, data processing units, and software for processing force sensor data for use with a user interface that facilitates interaction between a user and an electronic device, all sold as a unit;NEXT INPUT;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

An oversampling electromechanical modulator, including a micro-electromechanical sensor which has a first sensing capacitance and a second sensing capacitance and supplies an analog quantity correlated to the first sensing capacitance and to the second sensing capacitance; a converter stage, which supplies a first numeric signal and a second numeric signal that are correlated to the analog quantity; and a first feedback control circuit for controlling the micro-electromechanical sensor, which supplies an electrical actuation quantity correlated to the second numeric signal. The electromechanical modulator moreover includes a second feedback control circuit for calibrating the micro-electromechanical sensor, which includes an offset-sensing circuit that can be activated by the first numeric signal, and a programmable calibration circuit, having a programmable calibration capacitance, which is connected to the micro-electromechanical sensor and is controlled by the offset-sensing circuit for balancing of the first sensing capacitance and second sensing capacitance.