SYSTEMS SENSING OR APPLYING

Brand Owner Address Description
CYBERFORCE CYBERGLOVE SYSTEMS 2355 Paragon Drive, Suite D San Jose CA 95131 Systems for sensing and/or applying force or tactile sensation to a body part, namely, electronic or electro-mechanical tele-robotic sensors; electronic or electro-mechanical motion controllers; electronic or electro-mechanical force controllers; electronic or electro-mechanical position sensors; and electronic or electro-mechanical force feedback monitors comprised of computer hardware and/or computer software for use with computer hardware; computer navigation and pointing devices, namely, mice, trackballs, and electronic stylus pens for use in measuring motion of body parts or for inputting a desired action to a computer; electronic circuit boards and integrated circuit chips for control for electronic motion controllers; electronic or electro-mechanical position sensors; hand position sensing and/or measurement devices, gloves and exo-skeletal bodyware instrumented to sense body or hand motion or position and to provide a force or tactile sensation to a wearer of the glove use as interactive control of computers; and computer software, namely computer software for sensing and measuring positions and motions of real or simulated virtual reality body parts and detecting real or simulated virtual reality object interactions and collisions, computer software for simulating two-dimensional and three-dimensional object-object and body-object virtual reality interactions; all for use in computer interaction and control or for computerized virtual reality simulation and analysis, electronic and electro-mechanical force transducers for machines that apply force and tactile sensation to the human body;Electric motors for machines that apply force and tactile sensation to the human body;CYBER FORCE;
 

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

    
Technical Examples
  1. Single-ended sensing devices for sensing a programmed state of a floating-gate memory cell are adapted for use in low-voltage memory devices. The sensing device has an input node selectively coupled to the memory cell. The sensing device includes a precharging path for applying a precharge potential to the input node of the sensing device for precharging bit lines prior to sensing the programmed state of the memory cell, and a reference current path for applying a reference current to the input node of the sensing device. The sensing device still further includes a sense inverter having an input coupled to the input node of the sensing device and an output for providing an output signal indicative of the programmed state of the memory cell. The reference current is applied to the input node of the sensing device during sensing of the programmed state of the memory cell.