Reference drivers for charge-redistribution SAR ADCs require significant area and/or power. In this work, a low-power and area-efficient passive reference-voltage driving scheme for charge-redistribution SAR ADCs is proposed. An on-chip decoupling capacitor is pre-charged to a reference voltage during tracking phase and utilized to drive the DAC passively during conversion. The reference-voltage drops during the conversion due to passive charge sharing, causing non-binary DAC switching steps. This is corrected by calculating the charge consumption of critical switching steps and compensating this with a compensation DAC. This scheme with 3b compensation is utilized in a 10b 20MS/s SAR ADC fabricated in 65nm CMOS. With a near-Nyquist input t...
(SA) ADC is presented. The scheme achieves high-speed and low-power operation thanks to the referenc...
This paper presents a 9-bit differential, minimum-powered, successive approximation register (SAR) A...
A 1.2 V 10-bit 100 MS/s Successive Approximation (SA) ADC is presented. The scheme achieves high-spe...
Reference drivers for charge-redistribution SAR ADCs require significant area and/or power. In this ...
Successive approximation register (SAR) analog-to-digital converters (ADCs) with a charge-redistribu...
This chapter targets low-power techniques for nanopower SAR ADCs with reference voltage generation. ...
Analysis and experimental results for a new switching scheme and topology for charge sharing DACs us...
Abstract — A voltage feedback charge compensation technique is presented to prevent the conversion n...
Abstract—Analysis and experimental results for a new switching scheme and topology for charge sharin...
In this work a low power SAR ADC with 8.9 ENOB for wireless communication systems is presented. A ca...
This work presents a reconfigurable delay and redundancy technique, which relaxes the reference driv...
The digital-to-analog converter (DAC) in SAR anolog-to-digital converters (ADCs) is often dominant f...
A 10b 42MS/s power-efficient successive-approximation-register (SAR) analog-to-digital converter (AD...
This paper presents a 10 b 80 kS/s SAR ADC with low-power duty-cycled reference generation. It gener...
The demands for data converters have soared in the last decade with the boom in consumer electronics...
(SA) ADC is presented. The scheme achieves high-speed and low-power operation thanks to the referenc...
This paper presents a 9-bit differential, minimum-powered, successive approximation register (SAR) A...
A 1.2 V 10-bit 100 MS/s Successive Approximation (SA) ADC is presented. The scheme achieves high-spe...
Reference drivers for charge-redistribution SAR ADCs require significant area and/or power. In this ...
Successive approximation register (SAR) analog-to-digital converters (ADCs) with a charge-redistribu...
This chapter targets low-power techniques for nanopower SAR ADCs with reference voltage generation. ...
Analysis and experimental results for a new switching scheme and topology for charge sharing DACs us...
Abstract — A voltage feedback charge compensation technique is presented to prevent the conversion n...
Abstract—Analysis and experimental results for a new switching scheme and topology for charge sharin...
In this work a low power SAR ADC with 8.9 ENOB for wireless communication systems is presented. A ca...
This work presents a reconfigurable delay and redundancy technique, which relaxes the reference driv...
The digital-to-analog converter (DAC) in SAR anolog-to-digital converters (ADCs) is often dominant f...
A 10b 42MS/s power-efficient successive-approximation-register (SAR) analog-to-digital converter (AD...
This paper presents a 10 b 80 kS/s SAR ADC with low-power duty-cycled reference generation. It gener...
The demands for data converters have soared in the last decade with the boom in consumer electronics...
(SA) ADC is presented. The scheme achieves high-speed and low-power operation thanks to the referenc...
This paper presents a 9-bit differential, minimum-powered, successive approximation register (SAR) A...
A 1.2 V 10-bit 100 MS/s Successive Approximation (SA) ADC is presented. The scheme achieves high-spe...