Add to ORKGAbstract—This paper presents a low temperature coefficient BiCMOS voltage reference circuit designed in IBM’s 8HP Silicon-Germanium (SiGe) technology platform. A BiCMOS compensa-tion approach by combining the temperature properties of HBTs and CMOS transistors has been employed: the Complementary to Absolute Temperature (CTAT) current is generated by a SiGe HBT, while the Proportional to Absolute Temperature (PTAT) current is generated by MOSFETs operating in the subthreshold region. In addition, by adding a nonlinear component, a higher level of temperature compensation is achieved. Simulation results show that with a power supply of 1.2 V, the circuit generates an output voltage of 0.981 V with a temperature coefficient of 0.6 ppm/◦C over...
This thesis investigates the effects of low temperatures on Silicon Germanium (SiGe) Hterojunction B...
A low-power CMOS current reference circuit was developed using a 0.35-μm standard CMOS process techn...
A high precision temperature compensated CMOS bandgap reference is presented. The proposed circuit e...
Abstract-A CMOS voltage reference, which is II. CIRCUIT DESIGN based on the same magnitude of gate-s...
The maximum achievable performance of almost all mixed-signal and radio frequency systems is depende...
Voltage reference circuit plays a critical role in most of the electronic devices with high precisio...
High linear voltage references circuitry are designed and implemented in TSMC 0.18µm CMOS technology...
The report proposed a bandgap voltage reference circuit design to generate a low voltage reference w...
The development of low power integrated system is expected to lead to the expansion of next-generati...
Abstract A new high order CMOS temperature compensated current reference is proposed in this paper, ...
A compact, very low voltage, temperature-independent reference circuit, which is based on the therm...
Bandgap Reference (BGR) circuit is to yield a precise and accurate dc voltage which has minimum vari...
This paper presents a novel low power, low voltage CMOS bandgap reference (BGR) that overcomes the p...
A new voltage reference with output dependent upon the threshold voltage of an NMOS transistor is in...
We present an ultra-low-power fractional bandgap-based voltage reference and a unique method of gene...
This thesis investigates the effects of low temperatures on Silicon Germanium (SiGe) Hterojunction B...
A low-power CMOS current reference circuit was developed using a 0.35-μm standard CMOS process techn...
A high precision temperature compensated CMOS bandgap reference is presented. The proposed circuit e...
Abstract-A CMOS voltage reference, which is II. CIRCUIT DESIGN based on the same magnitude of gate-s...
The maximum achievable performance of almost all mixed-signal and radio frequency systems is depende...
Voltage reference circuit plays a critical role in most of the electronic devices with high precisio...
High linear voltage references circuitry are designed and implemented in TSMC 0.18µm CMOS technology...
The report proposed a bandgap voltage reference circuit design to generate a low voltage reference w...
The development of low power integrated system is expected to lead to the expansion of next-generati...
Abstract A new high order CMOS temperature compensated current reference is proposed in this paper, ...
A compact, very low voltage, temperature-independent reference circuit, which is based on the therm...
Bandgap Reference (BGR) circuit is to yield a precise and accurate dc voltage which has minimum vari...
This paper presents a novel low power, low voltage CMOS bandgap reference (BGR) that overcomes the p...
A new voltage reference with output dependent upon the threshold voltage of an NMOS transistor is in...
We present an ultra-low-power fractional bandgap-based voltage reference and a unique method of gene...
This thesis investigates the effects of low temperatures on Silicon Germanium (SiGe) Hterojunction B...
A low-power CMOS current reference circuit was developed using a 0.35-μm standard CMOS process techn...
A high precision temperature compensated CMOS bandgap reference is presented. The proposed circuit e...