A Zero Turn-On Voltage Rectifier for Efficient Wireless Power Supplies and Energy Harvesting
Engineers from UC San Diego have developed a patent-pending technology that provides cross-coupled rectifiers that use near zero-threshold transistors in a switching topology that avoids reverse conduction problems. Importantly, preferred embodiment rectifiers of the invention only provide a slightly increased on-resistance in each branch, while providing both very high operating efficiency and very low tum-on voltage. An embodiment of the invention is a voltage rectifier for the conversion of RF energy into DC voltage with a tum-on threshold voltages approaching OV. Whereas traditional CMOS and Schottky diode rectifiers require several hundred millivolts to activate, the present circuit can operate upon near-zero incident energy, enabling a variety of useful applications, including:• Wireless biomedical implants.• Increased range of RFID devices.• Wireless sensors with very low threshold activation.• Reduced complexity of RFID devices while maintaining current performance.• Energy harvesting by converting ambient RF radiation into useable DC power.
Patent Number: US8415837B2
Application Number: US2010949343A
Inventor: Theilmann, Paul | Asbeck, Peter
Priority Date: 18 Nov 2009
Priority Number: US8415837B2
Application Date: 18 Nov 2010
Publication Date: 9 Apr 2013
IPC Current: H05K000714
US Class: 307149 | 340645
Assignee Applicant: The Regents of the University of California
Title: Switch mode voltage rectifier, RF energy conversion and wireless power supplies
Usefulness: Switch mode voltage rectifier, RF energy conversion and wireless power supplies
Summary: Very low power radio frequency (RF) voltage rectifier used in wirelessly powered devices such as micro-sensors, UHF radio frequency identification (RFID) tags and biomedical implants.
Novelty: Very low power radio frequency (RF) voltage rectifier used in wirelessly powered devices has complementary metal oxide semiconductor (CMOS) gate cross-connected bridge which includes series path from positive and negative input
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8415837
State Of Development This technology has been fully prototyped and measured with a functional device developed using Perigrine Semiconductor’s Silicon-on-Saphire 250 nm CMOS process. Intellectual Property Info This technology is protected by an issued patent. The University seeks to commercially develop this invention. Background As wireless biomedical implant devices advance to smaller sizes with higher processing power, the issue of power supply becomes a critical design hurdle. Designers for biomedical devices have turned their attention to sensors that are powered by RF energy that is implanted on or within the skin. The most popular power transfer technique is inductive coupling (near-field) because attenuation in tissue is reduced in comparison to RF (far-field) traveling waves and antenna efficiency is independent of wavelength. Unfortunately, as device (antenna) size decreases power collected by the device falls off in proportion to the mutual inductance squared or R4 where R is the radius of the antenna coil. For this reason it is important that the low RF energy levels collected by the antenna are efficiently converted to DC power to operate the implant. Tech ID/UC Case 20012/2010-135-0 Related Cases 2010-135-0
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