Add to ORKGAnalog front-end of a bipolar transistor based smart temperature sensor was designed in 110 nm CMOS processing technology TSMC 110 and verified using simulation taking PVT variation into account. The analog front-end of the sensor achieves 3s inaccuracy of +-3.5 °C untrimmed or +-0.7 °C after single point trim over the military temperature range (-55 °C to 125 °C), requiring supply voltage of 2.7-3.63 V, consuming as little as 1μW at 1 S/s and taking up less than 0:012mm2
Smart temperature sensors generally need to be trimmed to obtain measurement errors below ±2°C. The ...
This paper describes the design of a high-accuracy smart temperature sensor in the 40 nm standard CM...
This paper presents a precision CMOS temperature-to-digital converter (TDC), which senses the temper...
Analog front-end of a bipolar transistor based smart temperature sensor was designed in 110 nm CMOS ...
The analog front-end of a proposed BJT-based temperature sensor has been designed. The design has be...
This paper describes the design of a precision bipolar junction transistor based temperature sensor ...
This paper describes the design of a precision bipolar junction transistor based temperature sensor ...
This paper presents a low power, energy-efficient precision CMOS temperature sensor. The front-end c...
A CMOS digital temperature measurement technique is reported, which doesn't require an explicit refe...
AbstractIn this paper, a CMOS temperature sensor with a highly linear proportional-to-absolute-tempe...
Modern circuitry systems have brought thermal issues into the spotlight due to increases in circuit ...
Modern circuitry systems have brought thermal issues into the spotlight due to increases in circuit ...
International audienceA CMOS process compatible wide range temperature sensor that takes advantage o...
International audienceA CMOS process compatible wide range temperature sensor that takes advantage o...
Abstract—This paper proposes an accurate four-transistor temperature sensor designed, and developed,...
Smart temperature sensors generally need to be trimmed to obtain measurement errors below ±2°C. The ...
This paper describes the design of a high-accuracy smart temperature sensor in the 40 nm standard CM...
This paper presents a precision CMOS temperature-to-digital converter (TDC), which senses the temper...
Analog front-end of a bipolar transistor based smart temperature sensor was designed in 110 nm CMOS ...
The analog front-end of a proposed BJT-based temperature sensor has been designed. The design has be...
This paper describes the design of a precision bipolar junction transistor based temperature sensor ...
This paper describes the design of a precision bipolar junction transistor based temperature sensor ...
This paper presents a low power, energy-efficient precision CMOS temperature sensor. The front-end c...
A CMOS digital temperature measurement technique is reported, which doesn't require an explicit refe...
AbstractIn this paper, a CMOS temperature sensor with a highly linear proportional-to-absolute-tempe...
Modern circuitry systems have brought thermal issues into the spotlight due to increases in circuit ...
Modern circuitry systems have brought thermal issues into the spotlight due to increases in circuit ...
International audienceA CMOS process compatible wide range temperature sensor that takes advantage o...
International audienceA CMOS process compatible wide range temperature sensor that takes advantage o...
Abstract—This paper proposes an accurate four-transistor temperature sensor designed, and developed,...
Smart temperature sensors generally need to be trimmed to obtain measurement errors below ±2°C. The ...
This paper describes the design of a high-accuracy smart temperature sensor in the 40 nm standard CM...
This paper presents a precision CMOS temperature-to-digital converter (TDC), which senses the temper...