Millimeter wave and Sub-Terahertz on-chip Antenna Design Mon, Nov 4 2019 - Fri, Feb 18 2022 CMOS technology Passive millimeter-wave imaging at 94 GHz
Tera-Hertz Rectenna for Energy Harvesting Fri, Jun 7 2019 - Fri, Mar 12 2021 nano antennas energy harvesting The world has witnessed an unprecedented increase in its energy requirements over the last few decades driven by the increasing size of the population, industrial development and the increasing level of activity of humans around the globe.
Fully Inkjet-Printed RF Passive and Active Devices Fri, Oct 26 2018 - Sat, Aug 14 2021 inkjet printed devices Inkjet printed antennas and microwave devices on flexible and organic substrates, such as paper, have the advantages of being light weight, low cost, and environmentally friendly.
Inkjet-Printed Hybrid Electronics Sat, May 5 2018 - Sat, Nov 7 2020 inkjet printed devices As a first step towards realizing all inkjet printed electronics, this project aims at integrating conventional silicon based electronics with inkjet printed devices.
Frequency and Polarization Reconfigurable MEMS Antenna Tue, Aug 1 2017 - Sun, Apr 1 2018 system on chip MEMS antenna A major bottleneck in true SoC implementation is efficient on-chip antenna realization due to its large size and silicon substrate losses.
Inkjet Printed Wearable and Flexible Tags for tracking and RFID applications Fri, Nov 10 2017 - Sun, Mar 14 2021 nanoparticle printing The advances in metallic nanoparticles printing have enabled printing of electronics on substrates which are cheaper, lighter, thinner, environment friendly and suitable for flexible and conformal gadgets.
Novel SoP for Automotive radar applications Sun, Jan 1 2017 - Wed, Aug 1 2018 Sop A novel SoP design for automotive radar applications that employs, for the first time, a mixed LTCC tape system and integrates a fractal antenna array with a Fresnel lens to enhance the gain manifolds.
Systems on chip (SoC) with integrated Antennas Tue, Mar 1 2016 - Mon, Jan 1 2018 Systems on chip A miniature RF SoC is an ideal solution for many short-range wireless applications. Traditionally, sensors and antennas have been implemented off-the-chip requiring different integration and packaging methods to connect to circuits on-chip.
Wireless Interconnect Between On-Chip and LTCC Antennas Mon, Jun 1 2015 - Tue, Mar 1 2016 on-chip antennas LTCC antenna In this work, a novel System-in-Package (SiP) implementation is presented for a transmitter (TX) module which makes use of electromagnetic coupling between the TX chip and package antennas at 5.2 GHz.
Wireless Dosimeter Mon, Sep 1 2014 - Thu, Oct 1 2015 wireless sensor networks Biosensors System-on-a-chip In this work, a new floating-gate (FG) MOSFET based wireless dosimeter system-in-package (SiP) is presented. This miniature and completely integrated wireless dosimeter SiP comprises a CMOS FG radiation sensor and transmitter (TX) in a low-temperature co-fired ceramic (LTCC) package.
Miniaturized Circuits on LTCC & LCP for SoP Applications Mon, Apr 1 2013 - Sat, Nov 1 2014 All integrated circuits (IC) have to be packaged. Typically these packages are mere holders of the IC. These ICs are then mounted on system boards that contain lots of components, like passives, interconnections, power sources, etc. The system on package (SoP), is a new approach that brings in functionality into the package by realizing passive components inside the package.
Ferrite LTCC Based Reconfigurable and Tunable Circuits and Antennas Tue, May 1 2012 - Wed, Oct 1 2014 Sop applications Low-Temperature Co-fired Ceramic (LTCC) is a mature medium for SoP applications. Efficient passive elements can be designed in LTCC because of its low losses. The introduction of a high-dielectric constant ferrite material in the package not only helps to miniaturize the components but also permits the control of the devices made from it.