This paper proposes an improved exponential curvature-compensated bandgap reference circuit to exploit the exponential relationship between the current gainβof the bipolar junction transistor(BJT)and the temperature ...This paper proposes an improved exponential curvature-compensated bandgap reference circuit to exploit the exponential relationship between the current gainβof the bipolar junction transistor(BJT)and the temperature as well as reduce the influence of resistance-temperature dependency.Considering the degraded circuit performance caused by the process deviation,the trimmable module of the temperature coefficient(TC)is introduced to improve the circuit stability.The circuit has the advantages of simple structure,high linear stability,high TC accuracy,and trimmable TC.It consumes an area of 0.09 mm^(2)when fabricated by using the 0.25-μm complementary metal-oxide-semiconductor(CMOS)process.The proposed circuit achieves the simulated power supply rejection(PSR)of about-78.7 dB@1 kHz,the measured TC of~4.7 ppm/℃over a wide temperature range from-55℃to 125℃with the 2.5-V single-supply voltage,and the tested line regulation of 0.10 mV/V.Such a high-performance bandgap reference circuit can be widely applied in high-precision and high-reliability electronic systems.展开更多
A high precision high-order curvature-compensated bandgap reference compatible with the standard Bi-CMOS process,which uses a simple structure to realize a novel exponential curvature compensation in lower temperature...A high precision high-order curvature-compensated bandgap reference compatible with the standard Bi-CMOS process,which uses a simple structure to realize a novel exponential curvature compensation in lower temperature ranges,and a piecewise curvature correction in higher temperature ranges,is presented.Experiment results of the proposed bandgap reference implemented with a 0.6-μm BCD process demonstrate that a temperature coefficient of 2.9 ppm/℃is realized at a 3.6-V power supply,a power supply rejection ratio of 85 dB is achieved,and the line regulation is better than 0.318 mV/V for 2.2-5 V supply voltage dissipating a maximum supply current of 45μA.The active area of the presented bandgap reference is 260×240μm;.展开更多
文摘This paper proposes an improved exponential curvature-compensated bandgap reference circuit to exploit the exponential relationship between the current gainβof the bipolar junction transistor(BJT)and the temperature as well as reduce the influence of resistance-temperature dependency.Considering the degraded circuit performance caused by the process deviation,the trimmable module of the temperature coefficient(TC)is introduced to improve the circuit stability.The circuit has the advantages of simple structure,high linear stability,high TC accuracy,and trimmable TC.It consumes an area of 0.09 mm^(2)when fabricated by using the 0.25-μm complementary metal-oxide-semiconductor(CMOS)process.The proposed circuit achieves the simulated power supply rejection(PSR)of about-78.7 dB@1 kHz,the measured TC of~4.7 ppm/℃over a wide temperature range from-55℃to 125℃with the 2.5-V single-supply voltage,and the tested line regulation of 0.10 mV/V.Such a high-performance bandgap reference circuit can be widely applied in high-precision and high-reliability electronic systems.
文摘A high precision high-order curvature-compensated bandgap reference compatible with the standard Bi-CMOS process,which uses a simple structure to realize a novel exponential curvature compensation in lower temperature ranges,and a piecewise curvature correction in higher temperature ranges,is presented.Experiment results of the proposed bandgap reference implemented with a 0.6-μm BCD process demonstrate that a temperature coefficient of 2.9 ppm/℃is realized at a 3.6-V power supply,a power supply rejection ratio of 85 dB is achieved,and the line regulation is better than 0.318 mV/V for 2.2-5 V supply voltage dissipating a maximum supply current of 45μA.The active area of the presented bandgap reference is 260×240μm;.