An ultra-low-voltage low-power switched-capacitor (SC) delta-sigma (ΔΣ) modulator running at a supply voltage as low as 300 mV is presented for biomedical implant devices, e.g., cardiac pacemakers. To reduce the supply voltage, an inverter-based amplifier is used in the integrators, whose DC gain and gain-bandwidth (GBW) are boosted by a simple current-mirror output stage. The full input-feedforward loop topology offers low integrators internal swing, supporting ultra-low-voltage operation. To demonstrate the concept, a second-order loop topology was chosen. The entire modulator operates reliably against process, voltage and temperature (PVT) variations from a 300 mV ± 10% supply voltage only, while the switches are driven by a charge pump ...
A 3(rd)-order lowpass SigmaDelta modulator operating with a 0.9-V supply voltage is realized with a ...
Implantable biomedical devices can highly benefit from submicrometer CMOS technologies both in terms...
A high performance, ultra-low power, fully differential 2 nd-order continuous-time ∑Δ analogue-to-di...
This paper presents an ultra-low voltage, ultra-low power, inverter-based, discrete-time delta sigma...
Biomedical electronics has gained significant attention in healthcare. A general biomedical device c...
In this brief, we introduce an ultra-low voltage, ultra-low power, inverter-based, discrete-time, 1s...
The demand for low-power, low-voltage circuits in both battery-powered and battery-less systems for ...
This paper presents a third-order single-loop delta-sigma modulator of a biomedical micro-system for...
The design of ultra-low voltage analog CMOS integrated circuits requires ad hoc solutions to counter...
This letter discusses the implementation of a low-voltage, low-power delta-sigma modulator as a sens...
Abstract—A high performance, ultra-low power, fully differen-tial 2nd-order continuous-time Σ ∆ anal...
This paper presents a delta-sigma modulator operating at a supply voltage of 0.4 V. The designed del...
A high performance, ultra-low power, fully differential 2nd-order continuous-time Sigma Delta analog...
A high performance, ultra-low power, fully differentia 2nd-order continuous-time Σ∆ analogue-to-digi...
This paper presents a switched-capacitor Sigma-Delta modulator designed in 90-nm CMOS technology, op...
A 3(rd)-order lowpass SigmaDelta modulator operating with a 0.9-V supply voltage is realized with a ...
Implantable biomedical devices can highly benefit from submicrometer CMOS technologies both in terms...
A high performance, ultra-low power, fully differential 2 nd-order continuous-time ∑Δ analogue-to-di...
This paper presents an ultra-low voltage, ultra-low power, inverter-based, discrete-time delta sigma...
Biomedical electronics has gained significant attention in healthcare. A general biomedical device c...
In this brief, we introduce an ultra-low voltage, ultra-low power, inverter-based, discrete-time, 1s...
The demand for low-power, low-voltage circuits in both battery-powered and battery-less systems for ...
This paper presents a third-order single-loop delta-sigma modulator of a biomedical micro-system for...
The design of ultra-low voltage analog CMOS integrated circuits requires ad hoc solutions to counter...
This letter discusses the implementation of a low-voltage, low-power delta-sigma modulator as a sens...
Abstract—A high performance, ultra-low power, fully differen-tial 2nd-order continuous-time Σ ∆ anal...
This paper presents a delta-sigma modulator operating at a supply voltage of 0.4 V. The designed del...
A high performance, ultra-low power, fully differential 2nd-order continuous-time Sigma Delta analog...
A high performance, ultra-low power, fully differentia 2nd-order continuous-time Σ∆ analogue-to-digi...
This paper presents a switched-capacitor Sigma-Delta modulator designed in 90-nm CMOS technology, op...
A 3(rd)-order lowpass SigmaDelta modulator operating with a 0.9-V supply voltage is realized with a ...
Implantable biomedical devices can highly benefit from submicrometer CMOS technologies both in terms...
A high performance, ultra-low power, fully differential 2 nd-order continuous-time ∑Δ analogue-to-di...