Add to ORKGThis work presents a self biased current reference circuit based on the MOSFET Zero Temperature Coefficient (ZTC) condition. To achieve lower supply voltage (VDD) operation, the proposed circuit employs forward body biasing technique to decrease the MOSFET ZTC biasing point. In addition, a body-driven pseudo differential Operational Transconductance Amplifier (OTA) is used to further reduce the minimum supply voltage. From transitor-level simulations, the current reference is predicted to have an Effective Temperature Coefficient (TCeff ) of 65 ppm/oC from -55 to 125 oC and a fabrication sensitivity of s/u= 6.5 %, including process and mismatch variability. The power supply sensitivity is around 0.75 %=V for this new reference
The fourth industrial revolution and the Internet of things introduce new challenges to reliable cir...
We propose a subthreshold CMOS voltage reference operating with a minimum supply voltage of only 150...
Mixed-signal or analog chips often require a wide range of biasing currents that are independent of ...
Abstract This Letter presents a high‐performance self‐biased and all‐in‐one voltage and current refe...
When a diode-connected MOS transistor is biased with a PTAT current source, the gate-source voltage ...
This work investigates the possibility to tune the zero-temperature-coefficient (ZTC) points in part...
This paper proposes a 0.6-V current reference circuit for use in ultra-low-power applications. In a ...
In this work a new topology for a self-biased current reference, based on an asymmetric bulk-modifie...
[[abstract]]This paper describes a circuit, which generates temperature-independent bias currents. I...
This paper exploits the CMOS beta multiplier circuit to synthesize a temperature independent voltage...
Abstract-The transconductance characteristics of MOS transistors realized in 0.18 p n CMOS technolog...
This paper describes design improvement of a current reference, originally based on dual-threshold v...
The scaling of MOSFET dimensions and power supply voltage, in conjunction with an increase in system...
In this paper a novel CMOS temperature and supply voltage independent current reference has been pro...
This paper presents a novel low power, low voltage CMOS bandgap reference (BGR) that overcomes the p...
The fourth industrial revolution and the Internet of things introduce new challenges to reliable cir...
We propose a subthreshold CMOS voltage reference operating with a minimum supply voltage of only 150...
Mixed-signal or analog chips often require a wide range of biasing currents that are independent of ...
Abstract This Letter presents a high‐performance self‐biased and all‐in‐one voltage and current refe...
When a diode-connected MOS transistor is biased with a PTAT current source, the gate-source voltage ...
This work investigates the possibility to tune the zero-temperature-coefficient (ZTC) points in part...
This paper proposes a 0.6-V current reference circuit for use in ultra-low-power applications. In a ...
In this work a new topology for a self-biased current reference, based on an asymmetric bulk-modifie...
[[abstract]]This paper describes a circuit, which generates temperature-independent bias currents. I...
This paper exploits the CMOS beta multiplier circuit to synthesize a temperature independent voltage...
Abstract-The transconductance characteristics of MOS transistors realized in 0.18 p n CMOS technolog...
This paper describes design improvement of a current reference, originally based on dual-threshold v...
The scaling of MOSFET dimensions and power supply voltage, in conjunction with an increase in system...
In this paper a novel CMOS temperature and supply voltage independent current reference has been pro...
This paper presents a novel low power, low voltage CMOS bandgap reference (BGR) that overcomes the p...
The fourth industrial revolution and the Internet of things introduce new challenges to reliable cir...
We propose a subthreshold CMOS voltage reference operating with a minimum supply voltage of only 150...
Mixed-signal or analog chips often require a wide range of biasing currents that are independent of ...