The challenges and emerging technologies for low-power artificial intelligence IoT systems
L Ye, Z Wang, Y Liu, P Chen, H Li… - … on Circuits and …, 2021 - ieeexplore.ieee.org
The Internet of Things (IoT) is an interface with the physical world that usually operates in
random-sparse-event (RSE) scenarios. This article discusses main challenges of IoT chips …
random-sparse-event (RSE) scenarios. This article discusses main challenges of IoT chips …
Incremental delta-sigma ADCs: A tutorial review
In many sensor applications, a high-resolution analog-to-digital converter (ADC) is a key
block. The use of an incremental delta-sigma ADC (IADC) is often well suited for such …
block. The use of an incremental delta-sigma ADC (IADC) is often well suited for such …
A reconfigurable 12-to-18-Bit dynamic zoom ADC with Pole-optimized technique
Y Liang, J Ren, L Chen, H Lan, J Song… - … on Circuits and …, 2023 - ieeexplore.ieee.org
This paper presents a resolution-reconfigurable discrete-time dynamic zoom analog-to-
digital converter (ADC) with a 20-kHz bandwidth. It employs a coarse 6-bit successive …
digital converter (ADC) with a 20-kHz bandwidth. It employs a coarse 6-bit successive …
Analysis and design of a discrete-time delta-sigma modulator using a cascoded floating-inverter-based dynamic amplifier
RSA Kumar, N Krishnapura… - IEEE Journal of Solid …, 2022 - ieeexplore.ieee.org
This article presents a delta–sigma modulator (DSM) using a cascoded floating-inverter-
based dynamic amplifier. The proposed cascoded dynamic amplifier achieves more than 50 …
based dynamic amplifier. The proposed cascoded dynamic amplifier achieves more than 50 …
A 15.2-ENOB 5-kHz BW 4.5- W Chopped CT -ADC for Artifact-Tolerant Neural Recording Front Ends
H Chandrakumar, D Marković - IEEE Journal of Solid-State …, 2018 - ieeexplore.ieee.org
Implantable closed-loop neural stimulation is desirable for clinical translation and basic
neuroscience research. Neural stimulation generates large artifacts at the recording sites …
neuroscience research. Neural stimulation generates large artifacts at the recording sites …
A 440-μW, 109.8-dB DR, 106.5-dB SNDR discrete-time zoom ADC with a 20-kHz BW
E Eland, S Karmakar, B Gönen… - IEEE Journal of Solid …, 2021 - ieeexplore.ieee.org
This article describes a discrete-time zoom analog-to-digital converter (ADC) intended for
audio applications. It uses a coarse 5-bit SAR ADC in tandem with a fine third-order delta …
audio applications. It uses a coarse 5-bit SAR ADC in tandem with a fine third-order delta …
0.04-mm2 103-dB-A Dynamic Range Second-Order VCO-Based Audio ADC in 0.13- m CMOS
This paper presents a compact-area, low-power, highly digital analog-to-digital converter
(ADC) for audio applications. The proposed converter is implemented using only oscillators …
(ADC) for audio applications. The proposed converter is implemented using only oscillators …
A continuous-time zoom ADC for low-power audio applications
This article presents a continuous-time zoom analog to digital converter (ADC) for audio
applications. It employs a high-speed asynchronous SAR ADC that dynamically updates the …
applications. It employs a high-speed asynchronous SAR ADC that dynamically updates the …
A 280 W Dynamic Zoom ADC With 120 dB DR and 118 dB SNDR in 1 kHz BW
This paper presents a dynamic zoom analog-to-digital converter for use in low-bandwidth (<;
1 kHz) instrumentation applications. It employs a high-speed asynchronous successive …
1 kHz) instrumentation applications. It employs a high-speed asynchronous successive …
A wide-dynamic-range neural-recording ic with automatic-gain-controlled AFE and CT dynamic-zoom ΔΣ ADC for saturation-free closed-loop neural interfaces
This article presents a neural-recording IC with automatic gain control (AGC) according to
the input signal level. AGC enhances the dynamic range (DR) of the recording IC by more …
the input signal level. AGC enhances the dynamic range (DR) of the recording IC by more …