In this paper, a novel architecture for self-timed analog-to-digital conversion is presented and designed using the NULL Convention Logic (NCL) paradigm. This analog-to-digital converter (ADC) employs successive approximation and a one-hot encoded masking technique to digitize analog signals. The architecture scales readily to any given resolution by utilizing the one-hot encoded scheme to permit identical logical components for each bit of resolution. The four-bit configuration of the proposed design has been implemented and assessed via simulation in 0.18-mu m CMOS technology. Furthermore, the ADC may be interfaced with either synchronous or four-phase asynchronous digital systems
This thesis discusses the d es ign and verification of a high-resolution self-timed incremental ?? A...
This paper presents a systematization and a comparison of the binary successive approximation (SA) v...
High-speed low-power analog-to-digital converters (ADCs) find application in communication systems a...
In this paper, a novel architecture for self-timed analog-to-digital conversion is presented and des...
In this paper, a novel architecture for self-timed analog-to-digital conversion is presented, design...
International audienceWe present a new class of Asynchronous Analog to Digital Converters (A-ADCs), ...
A well known problem of time-interleaved analogto-digital converters is the matching between the ind...
This work is a contribution to a drastic change in standard signal processing chains. The main objec...
International audienceWe present a new class of Analog-to-Digital Converters (ADCs), based on an irr...
This work investigates new approaches to analog-to-digital conversion that are suited for end-of-the...
Self-timed multipliers, designed using the delay-insensitive null convention logic (NCL) paradigm, w...
We present a new class of asynchronous analog to digital converters (A-ADCs), based on an level-cros...
A low power (6.8 mW) 5 V analog 2.7 V digital 16 bit 200 kS/s charge redistribution self calibrating...
Approaches for maximizing throughput of self-timed multiply-accumulate units (MACs) are developed an...
Analog-to-digital converters (ADCs) are key design blocks and are currently adopted in many applicat...
This thesis discusses the d es ign and verification of a high-resolution self-timed incremental ?? A...
This paper presents a systematization and a comparison of the binary successive approximation (SA) v...
High-speed low-power analog-to-digital converters (ADCs) find application in communication systems a...
In this paper, a novel architecture for self-timed analog-to-digital conversion is presented and des...
In this paper, a novel architecture for self-timed analog-to-digital conversion is presented, design...
International audienceWe present a new class of Asynchronous Analog to Digital Converters (A-ADCs), ...
A well known problem of time-interleaved analogto-digital converters is the matching between the ind...
This work is a contribution to a drastic change in standard signal processing chains. The main objec...
International audienceWe present a new class of Analog-to-Digital Converters (ADCs), based on an irr...
This work investigates new approaches to analog-to-digital conversion that are suited for end-of-the...
Self-timed multipliers, designed using the delay-insensitive null convention logic (NCL) paradigm, w...
We present a new class of asynchronous analog to digital converters (A-ADCs), based on an level-cros...
A low power (6.8 mW) 5 V analog 2.7 V digital 16 bit 200 kS/s charge redistribution self calibrating...
Approaches for maximizing throughput of self-timed multiply-accumulate units (MACs) are developed an...
Analog-to-digital converters (ADCs) are key design blocks and are currently adopted in many applicat...
This thesis discusses the d es ign and verification of a high-resolution self-timed incremental ?? A...
This paper presents a systematization and a comparison of the binary successive approximation (SA) v...
High-speed low-power analog-to-digital converters (ADCs) find application in communication systems a...