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INSTON INC

Overview
  • Total Patents
    18
  • GoodIP Patent Rank
    91,257
  • Filing trend
    ⇩ 14.0%
About

INSTON INC has a total of 18 patent applications. It decreased the IP activity by 14.0%. Its first patent ever was published in 2015. It filed its patents most often in United States, WIPO (World Intellectual Property Organization) and China. Its main competitors in its focus markets computer technology, semiconductors and electrical machinery and energy are LEE CHENG HUNG, INTEGRATED MEMORY TECH INC and JIANGSU ADVANCED MEMORY TECH CO LTD.

Patent filings in countries

World map showing INSTON INCs patent filings in countries

Patent filings per year

Chart showing INSTON INCs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Lee Hochul 12
#2 Lee Albert 7
#3 Hu Qi 4
#4 Wang Kang-Lung 4
#5 Ebrahimi Farbod 2
#6 Wang Kang L 1
#7 Li Xiang 1

Latest patents

Publication Filing date Title
US2020035282A1 Systems and methods for optimizing magnetic torque and pulse shaping for reducing write error rate in magnetoelectric random access memory
US2019189908A1 Heterostructures for Electric Field Controlled Magnetic Tunnel Junctions
US2019189912A1 Structures Enabling Voltage Control of Oxidation Within Magnetic Heterostructures
US2018374526A1 Systems and methods for reducing write error rate in magnetoelectric random access memory through pulse sharpening and reverse pulse schemes
US10199100B1 Sensing circuit and memory using thereof
US9972400B1 Nonvolatile memory device and calibration method for the same
US2017372762A1 Systems for implementing word line pulse techniques in magnetoelectric junctions
US2017372761A1 Systems for Source Line Sensing of Magnetoelectric Junctions
US2017033281A1 Systems and Methods for Implementing Magnetoelectric Junctions Including Integrated Magnetization Components
US2016240771A1 Systems and methods for implementing robust magnetoelectric junctions
US2016204162A1 Systems and methods for implementing select devices constructed from 2D materials
US2016197263A1 Systems and methods for implementing efficient magnetoelectric junctions