Available Technologies by Category
Reconfigurable Antennas for Radar Applications
  • Innovative — Origami-based accordion structure enables variable physical deployment of antenna
  • Reconfigurable — Varying extent of physical deployment reconfigures antenna frequency band, radiation pattern, and gain
  • Cost-reductive — Configurability allows for changing complexity of antenna packages
6357
Light Powered RFID Tags
  • Ultra-thin
  • Highly flexible and conformable
  • Long sheltimes and operation times
3278
Self-Steering Transceiver with Autonomous Beam-Forming
  • Simple operation – operates on phased-array and MIMO systems with zero power consumption
  • Autonomous operation – achieves autonomous beam-forming and beam-alignment towards desired signal
  • High sensitivity – performs automatic dynamic tracking and rejection of unknown interference signals
7360
A Broadband Mm-Wave for Multi-Band Applications
  • Higher efficiency in the power back-off
  • Higher linearity in the power back-off
  • Higher modulation speed up-to Giga-symbols
7352
Pulse Shaping for Radio Frequency Identification Tags
  • Enables the same form of low-power communication mechanism via reflection instead of radiation
  • Smaller bandwidth occupancy, thus increasing number of devices being able to communicate in a portion of the spectrum.
  • Denser tag/node/sensor/transponder deployments while still adhering to FCC regulations can be achieved
7246
Cross-Coupled VCO With Phase Noise Performance
  • Inherently separate device source nodes for the cross-coupled devices with no compromise on the VCO startup condition.
  • The new topology ensures both low phase noise and low DC power.
  • Superior close-in 1/f3 phase noise.
7176
Ultra-Compact, Low-Power THz Radio
  • A THz fully integrated super-harmonic (2nd harmonic) regenerative receiver architecture, which detects the incoming THz signals and injection-locks to a regenerative receiver operating at a lower frequency
  • Reduces power consumption and improves the efficiency for THz signal generations
  • Employs a bidirectional and circuit-sharing architecture, so the THz receiver and the THz transmitter share the same oscillator operating at half the frequency
7053
A Mobile-to-Mobile Remote Computing Protocol for Mobile Computing Devices
  • Supports multi-touch mobile-to-mobile interaction with an order of magnitude increase in supported gestures.
  • Enables rich context transfer between remote mobile devices, and enables the client to experience the remote client’s context by providing access to all the sensor data on the remote client.
  • Compression scheme used is optimized to mobile device operating conditions such as application demands on CPU load, memory usage, and available network bandwidth.
7032