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MIRADIA INC

Overview
  • Total Patents
    174
  • GoodIP Patent Rank
    194,057
About

MIRADIA INC has a total of 174 patent applications. Its first patent ever was published in 2003. It filed its patents most often in United States, China and WIPO (World Intellectual Property Organization). Its main competitors in its focus markets optics, micro-structure and nano-technology and semiconductors are LEXVU OPTO MICROELECTRONICS TECHNOLOGY SHANGHAI LTD, SHANGHAI LEXVU OPTO MICROELECTRONICS TECHNOLOGY CO LTD and HYMITE AS.

Patent filings per year

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

Top inventors

# Name Total Patents
#1 Yang Xiao 92
#2 Chen Dongmin 69
#3 Pan Shaoher X 32
#4 Wang Ye 19
#5 Dongmin Chen 16
#6 Wang Yuxiang 15
#7 Xiao Yang 15
#8 Ji Wook 14
#9 Zhang Shoucheng 13
#10 Worley Iii William Spencer 11

Latest patents

Publication Filing date Title
CN105486445A Pressure sensor and manufacturing method thereof
CN105417488A Pressure sensor and manufacturing method thereof
TW201601326A Pressure sensor and manufacture method thereof
TW201601325A Pressure sensor and manufacture method thereof
US2014227817A1 Manufacturing process of MEMS device
TW201240052A Mems device and manufacturing method thereof
TW201225440A Microelectromechanical system device and semi-manufacture and manufacturing method thereof
CN102001614A MEMS devices and method for manufacturing same
CN101837944A Method for forming a gyroscope and accelerometer
US2009310398A1 Low power, small size SRAM architecture
CN101675498A Method and system for flip chip packaging of micro-mirror devices
JP2008268895A Increased color depth modulation using fast response light source
US2008180516A1 MEMS mirror system for laser printing applications
CN101578687A Methods and systems for wafer level packaging of MEMS structures
US2008150647A1 Method and apparatus for MEMS oscillator
CN101573792A Preferentially deposited lubricant to prevent anti-stiction in micromechanical systems
TW200834757A Method of forming a micromechanical device with microfluidic lubricant channel
CN101542717A Method of forming a micromechanical device with microfluidic lubricant channel
US2008179696A1 Micromechanical device with microfluidic lubricant channel
US2008278894A1 Docking station for projection display applications