Title :
Magnetotransistor Based on the Carrier Recombination—Deflection Effect
Author :
Leepattarapongpan, Chana ; Phetchakul, Toempong ; Penpondee, Naritchapan ; Pengpad, Putapon ; Chaowicharat, Ekalak ; Hruanun, Charndet ; Poyai, Amporn
Author_Institution :
Nat. Electron. & Comput. Technol. Center, Thai Microelectron. Center, Chachoengsao, Thailand
Abstract :
This paper presents the three-terminal magnetotransistor based on the carrier recombination-deflection effect. Three-terminal magnetotransistor can detect vertical and lateral magnetic field direction. The structure of magnetotransistor consists of one emitter, one collector and one base contact. The devices can detect magnetic field by relying on the difference between base current and collector current (¿ICB). The result from experiments closely matched the simulated 3-D modeling with base width of 20 ¿m at substrate thickness of 600 ¿m . From the experiment, the magnetotransistor had the highest sensitivity of 10.25%/T when emitter current was at 10 mA. This research on the three-terminal magnetotransistor can achieve magnetic sensors with small size, high performance and wide range of applications.
Keywords :
magnetic devices; magnetic fields; magnetic sensors; transistors; carrier recombination-deflection effect; current 10 mA; magnetic sensors; size 600 mum; substrate thickness; three-terminal magnetotransistor; vertical -lateral magnetic field direction; Chaos; Current measurement; Magnetic devices; Magnetic field measurement; Magnetic fields; Magnetic sensors; Magnetic separation; Microelectronics; Three dimensional displays; Velocity measurement; Carrier deflection; Lorentz force; carrier recombination; magnetotransistor;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2009.2033812
