Ruei-Hong Peng scite author profile

System-on-a-chip (SoC) applications require multiple power supply voltages with the features of low noise for analog circuits and high efficiency for digital circuits. Thus, this paper proposes the priority-scheduled program (PSP) for the single-inductor quad-output (SIQO) switching converter. This technique manages energy delivery to multiple outputs, facilitates fast transient response, and reduces cross-regulation simultaneously. Moreover, a level bypass detector (LBD) is used to overcome the limitation of significant loading differences among quad outputs in conventional designs because the PSP technique cantransfer additional energy to low-priority outputs to avoid overshoot voltage at high-priority outputs. Furthermore, voltage disturbance can be filtered out using two additional low-dropout regulators that operate as buffers cascaded at two low-priority outputs. Therefore, the SIQO converter that is fabricated in 40 nm CMOS technology satisfies the power requirements in portable electronics given its low cross-regulation of 0.2%, fast transient response of 15 s, and an output voltage ripple that is smaller than 30 mV. Index Terms-Cross-regulation, fast transient, level bypass detector (LBD), priority-scheduled program (PSP), single-inductor quad-output (SIQO).0018-9200

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Automatic power monitor (APM) in switching charger with smooth transition loop selector (STLS) for high-energy throughput system

Tsai

Peng

et al. 2012

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Non-invasion power monitoring with 120% harvesting energy improvement by maximum power extracting control for high sustainability power meter system

Huang

Yang

et al. 2012

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Ruei-Hong Peng

Fast Charging and High Efficiency Switching-Based Charger With Continuous Built-In Resistance Detection and Automatic Energy Deliver Control for Portable Electronics

120% Harvesting Energy Improvement by Maximum Power Extracting Control for High Sustainability Magnetic Power Monitoring and Harvesting System

Single-Inductor Quad-Output Switching Converter With Priority-Scheduled Program for Fast Transient Response and Unlimited Load Range in 40 nm CMOS Technology

Automatic power monitor (APM) in switching charger with smooth transition loop selector (STLS) for high-energy throughput system

Non-invasion power monitoring with 120% harvesting energy improvement by maximum power extracting control for high sustainability power meter system

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