Inventor · Austin, TX, US

Vinit Singh

88Patents
19h-index
21Co-inventors
80Inventor score

Filing activity: Mar 9, 2010 → Feb 26, 2024

Most-cited inventions

PatentTitleAreaCited byStatus
US8710948B2 Method for operation of multi-layer-multi-turn high efficiency inductors Emerging Cross-Sectional Technologies 149 Active
US8698591B2 Method for operation of multi-layer-multi-turn high efficiency tunable inductors Emerging Cross-Sectional Technologies 148 Active
US8680960B2 Multi-layer-multi-turn structure for high efficiency inductors Emerging Cross-Sectional Technologies 148 Active
US8610530B2 Multi-layer-multi-turn structure for tunable high efficiency inductors Emerging Cross-Sectional Technologies 147 Active
US8567048B2 Method of manufacture of multi-layer wire structure Emerging Cross-Sectional Technologies 146 Active
US8653927B2 System comprising a multi-layer-multi-turn structure for high efficiency wireless communication Emerging Cross-Sectional Technologies 145 Active
US8692642B2 Method for manufacture of multi-layer-multi-turn high efficiency inductors with cavity Emerging Cross-Sectional Technologies 142 Active
US8707546B2 Method of manufacture of multi-layer-multi-turn high efficiency tunable inductors Emerging Cross-Sectional Technologies 141 Active
US8692641B2 Multi-layer-multi-turn high efficiency inductors with cavity structures Emerging Cross-Sectional Technologies 141 Active
US8698590B2 Method for operation of multi-layer-multi-turn high efficiency inductors with cavity structure Emerging Cross-Sectional Technologies 140 Active
US8855786B2 System and method for wireless power transfer in implantable medical devices Emerging Cross-Sectional Technologies 116 Active
US8823482B2 Systems using multi-layer-multi-turn high efficiency inductors Emerging Cross-Sectional Technologies 102 Active
US9208942B2 Multi-layer-multi-turn structure for high efficiency wireless communication Electricity 99 Active
US8803649B2 Multi-layer-multi-turn high efficiency inductors for an induction heating system Emerging Cross-Sectional Technologies 96 Active
US8823481B2 Multi-layer-multi-turn high efficiency inductors for electrical circuits Emerging Cross-Sectional Technologies 94 Active
US8898885B2 Method for manufacture of multi-layer-multi-turn structure for high efficiency wireless communication Emerging Cross-Sectional Technologies 94 Active
US8860545B2 System using multi-layer wire structure for high efficiency wireless communication Emerging Cross-Sectional Technologies 94 Active
US10892646B2 Method of fabricating an antenna having a substrate configured to facilitate through-metal energy transfer via near field magnetic coupling Electricity 36 Active
US10868444B2 Method of operating a system having a substrate configured to facilitate through-metal energy transfer via near field magnetic coupling Electricity 36 Active
US10985465B2 Multi-mode wireless antenna configurations Electricity 15 Active
US9941743B2 Single structure multi mode antenna having a unitary body construction for wireless power transmission using magnetic field coupling Electricity 14 Active
US10063100B2 Electrical system incorporating a single structure multimode antenna for wireless power transmission using magnetic field coupling Electricity 14 Active
US9960628B2 Single structure multi mode antenna having a single layer structure with coils on opposing sides for wireless power transmission using magnetic field coupling Electricity 12 Active
US9948129B2 Single structure multi mode antenna for wireless power transmission using magnetic field coupling having an internal switch circuit Electricity 11 Active
US9960629B2 Method of operating a single structure multi mode antenna for wireless power transmission using magnetic field coupling Electricity 11 Active

Source: USPTO / EPO open patent data. Inventor disambiguation is heuristic; counts are objective bibliographic measures.