Inventor
KOMATSU SHUICHI
19 patents
⚠️ This page may combine multiple inventors who share the name “KOMATSU SHUICHI”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
TOSHIBA KK
13 patentsUS5739563AApr 14, 1998
Ferroelectric type semiconductor device having a barium titanate type dielectric film and method for manufacturing the same
TOSHIBA KK184 citations99
US5952687ASep 14, 1999
Semiconductor memory device having a trench capacitor with lower electrode inside the trench
TOSHIBA KK113 citations98
US5760432AJun 2, 1998
Thin film strained layer ferroelectric capacitors
TOSHIBA KK86 citations96
US5691219ANov 25, 1997
Method of manufacturing a semiconductor memory device
TOSHIBA KK59 citations96
US5889299AMar 30, 1999
Thin film capacitor
TOSHIBA KK61 citations95
US5670808ASep 23, 1997
Metal oxide capacitor with a WNX electrode
TOSHIBA KK50 citations95
US5929473AJul 27, 1999
MMIC semiconductor device with WNx capacitor electrode
TOSHIBA KK37 citations92
US5187561AFeb 16, 1993
Metal single crystal line having a particular crystal orientation
TOSHIBA KK21 citations92
US4855992AAug 8, 1989
Reversible optical recording medium with an optothermally deformable recording layer
TOSHIBA KK24 citations92
US4839861AJun 13, 1989
Information recording medium rewritable by utilizing two metastable phases of a recording layer and method using the same
TOSHIBA KK16 citations74
US5498909AMar 12, 1996
Semiconductor device and method of manufacturing such semiconductor device
TOSHIBA KK11 citations73
US4922462AMay 1, 1990
Reversible memory structure for optical reading and writing and which is capable of erasure
TOSHIBA KK14 citations73
US4757492AJul 12, 1988
Method for recording and reproducing information on or from an optical recording medium
TOSHIBA KK9 citations73
TOKYO SHIBAURA ELECTRIC CO
4 patentsUS4155782AMay 22, 1979
Watch case
TOKYO SHIBAURA ELECTRIC CO14 citations73
US4321821AMar 30, 1982
Method of estimating the residual life of heat resistant parts made of 12% Cr steele
TOKYO SHIBAURA ELECTRIC CO3 citations63
US4681251AJul 21, 1987
Method of joining Ni-base heat resisting alloys
TOKYO SHIBAURA ELECTRIC CO5 citations62
US4287417ASep 1, 1981
Method of determining the deterioration of heat-resistant ferritic steel parts
TOKYO SHIBAURA ELECTRIC CO6 citations62