This paper presents a successive approximation analog-to-digital converter (SAR ADC) design, which operates with a 0.2 V power supply. The design utilizes a dynamic bulk biasing scheme to dynamically adjust the relative NMOS and PMOS strengths, which are very sensitive to temperature, process, and mismatch variations at low supply voltages. The design achieves a very low power consumption due to the 0.2 V supply. Several circuits in the design are optimized for full functionality at 0.2 V. Extracted simulations show a total power consumption of 9 nW with a peak SNDR of 61.3 dB and a Walden Figure of Merit of 1.91 fJ/conversion-step
Micropower sensor networks have a broad range of applications which include military surveillance, e...
This master?s thesis presents the design, implementation and layout of an ultra-low power 9-bit 1 kS...
This paper presents a flexible SAR ADC in 90nm CMOS for wireless sensor nodes. By supporting resolut...
A 0.2V 10-bit 5 kS/s Successive Approximation Register ADC design is presented. This design achieves...
A 28nm 0.1V 10-bit 2kS/s Successive Approximation Register ADC design is proposed. This design opens...
In sensing systems, ADCs are widely used in sensor interface circuits to convert analog signals to d...
Analog-to-digital converters (ADCs) are crucial blocks which form the interface between the physical...
Wireless sensor networks are used in variety of applications including environmental monitoring, ind...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
Wireless sensor networks (WSNs) are employed in many applications, such as for monitoring bio-potent...
Analog to Digital Converters (ADCs) are crucial to capture data in almost any Internet of Everything...
This chapter addresses ADCs for IoT nodes, which are needed to digitize sensor information before pr...
Autonomous micro-sensor nodes rely on low-power circuits to enable energy har-vesting as a means of ...
In recent years, there has been a growing need for Successive Approximation Register (SAR) Analog-to...
This thesis presents an improved ultra-low power 10-bit 1 kS/s successive approximation (SAR) analog...
Micropower sensor networks have a broad range of applications which include military surveillance, e...
This master?s thesis presents the design, implementation and layout of an ultra-low power 9-bit 1 kS...
This paper presents a flexible SAR ADC in 90nm CMOS for wireless sensor nodes. By supporting resolut...
A 0.2V 10-bit 5 kS/s Successive Approximation Register ADC design is presented. This design achieves...
A 28nm 0.1V 10-bit 2kS/s Successive Approximation Register ADC design is proposed. This design opens...
In sensing systems, ADCs are widely used in sensor interface circuits to convert analog signals to d...
Analog-to-digital converters (ADCs) are crucial blocks which form the interface between the physical...
Wireless sensor networks are used in variety of applications including environmental monitoring, ind...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
Wireless sensor networks (WSNs) are employed in many applications, such as for monitoring bio-potent...
Analog to Digital Converters (ADCs) are crucial to capture data in almost any Internet of Everything...
This chapter addresses ADCs for IoT nodes, which are needed to digitize sensor information before pr...
Autonomous micro-sensor nodes rely on low-power circuits to enable energy har-vesting as a means of ...
In recent years, there has been a growing need for Successive Approximation Register (SAR) Analog-to...
This thesis presents an improved ultra-low power 10-bit 1 kS/s successive approximation (SAR) analog...
Micropower sensor networks have a broad range of applications which include military surveillance, e...
This master?s thesis presents the design, implementation and layout of an ultra-low power 9-bit 1 kS...
This paper presents a flexible SAR ADC in 90nm CMOS for wireless sensor nodes. By supporting resolut...