High sensitivity MEMS pressure sensor chip for different ranges (1 to 60 kPa) utilizing the novel electrical circuit of piezosensitive differential amplifier with negative feedback loop (PDA-NFL) is developed. Pressure sensor chip PDA-NFL utilizes two bipolar-junction transistors (BJT) with vertical n-p-n type structure (V-NPN) and eight piezoresistors (p-type). Both theoretical model of sensor response to pressure and temperature and experimental data are presented. Data confirms the applicability of theoretical model. Introduction of the amplifier allows for decreasing chip size while keeping the same sensitivity as a chip with classic Wheatstone bridge circuit
Of all micro sensors the silicon pressure sensors have the largest market potential. It will remain ...
Abstract This paper presents a novel dual current mirror based CMOS circuit for design and developme...
This paper presents the simulation, fabrication and characterization of a microFET (field effect tra...
Characteristics of high sensitivity MEMS pressure sensor chip for 10 kPa utilizing a novel electrica...
The paper presents MEMS pressure sensor chip utilizing novel electrical circuit with bipolar-junctio...
The theoretical model and experimental characteristics of ultra-high sensitivity MEMS pressure senso...
Research of pressure sensor chip utilizing novel electrical circuit with bipolar-junction transistor...
High sensitive (S = 11.2 ± 1.8 mV/V/kPa with nonlinearity error 2KNL = 0.15 ± 0.09%/FS) small-sized ...
The topic of this thesis is devoted to the use of various solutions for electrical circuits of press...
A mathematical model of a high-sensitivity pressure sensor with a novel electrical circuit utilizing...
This is the short version of my Thesis in English. The topic of this thesis is devoted to the use of...
The article translated from Russian to English on pp. 691-693 (please, look down). The paper summari...
This paper focuses on the design and fabrication of a high-temperature piezoresistive pressure senso...
The investigation of the pressure sensor chip's design developed for operation in ultralow different...
Based on the nano-polysilicon thin film transistors (TFTs), a high-sensitivity pressure sensor was d...
Of all micro sensors the silicon pressure sensors have the largest market potential. It will remain ...
Abstract This paper presents a novel dual current mirror based CMOS circuit for design and developme...
This paper presents the simulation, fabrication and characterization of a microFET (field effect tra...
Characteristics of high sensitivity MEMS pressure sensor chip for 10 kPa utilizing a novel electrica...
The paper presents MEMS pressure sensor chip utilizing novel electrical circuit with bipolar-junctio...
The theoretical model and experimental characteristics of ultra-high sensitivity MEMS pressure senso...
Research of pressure sensor chip utilizing novel electrical circuit with bipolar-junction transistor...
High sensitive (S = 11.2 ± 1.8 mV/V/kPa with nonlinearity error 2KNL = 0.15 ± 0.09%/FS) small-sized ...
The topic of this thesis is devoted to the use of various solutions for electrical circuits of press...
A mathematical model of a high-sensitivity pressure sensor with a novel electrical circuit utilizing...
This is the short version of my Thesis in English. The topic of this thesis is devoted to the use of...
The article translated from Russian to English on pp. 691-693 (please, look down). The paper summari...
This paper focuses on the design and fabrication of a high-temperature piezoresistive pressure senso...
The investigation of the pressure sensor chip's design developed for operation in ultralow different...
Based on the nano-polysilicon thin film transistors (TFTs), a high-sensitivity pressure sensor was d...
Of all micro sensors the silicon pressure sensors have the largest market potential. It will remain ...
Abstract This paper presents a novel dual current mirror based CMOS circuit for design and developme...
This paper presents the simulation, fabrication and characterization of a microFET (field effect tra...