Add to ORKGA single-inductor multiple-output switching converter operates in pseudo-CCM/DCM. It requires freewheeling of the inductor current during the instants when the n switch and all output p switches are off. It is fabricated in a 0.5 μm CMOS n-well process with Voa = 2.5 V and Vob = 3.0 V. With 1 μH inductor, converter efficiency is 84.7% at 1 MHz
Cross-regulation problem and power dissipation due to multiple switching are mostly encountered amon...
This paper investigates a digital control for non-isolated single-inductor multiple output (SIMO) st...
A single-inductor multiple-output (SIMO) dc-dc converter with output-voltage-aware charge control (O...
A single-inductor multiple-output switching converter operates in pseudo-CCM/DCM. It requires freewh...
Many electronic applications require multiple regulated supply voltages to cater for needs from the ...
Minimizing power consumption in multi-processor systems requires the use of multiple supplies with a...
Feasibility of single inductor multiple outputs (SIMO) DC-DC converters, able to operate in continuo...
Finally, a four-channel SIMO converter with direct combination but optimal switching sequence for ar...
With ever increasing demand of portable electronics, Single-Inductor Multiple-Output (SIMO) converte...
Emerging portable applications demand low-power operation to maximize battery run-time, and high-eff...
Three freewheel duration adjustment circuits based on the principle of phase-lock loop are proposed ...
Cost and size is very important factor for any electronics and electrical device. As the size reduce...
Single Inductor Multiple Output (SIMO) converter provides a cost-effective alternative to convention...
A novel single-inductor multiple-output (SIMO)DC-DC converter with bidirectional sequencecontrol to ...
The major demand for portable electronics devices such as pagers, laptops, cellular phones etc. Sing...
Cross-regulation problem and power dissipation due to multiple switching are mostly encountered amon...
This paper investigates a digital control for non-isolated single-inductor multiple output (SIMO) st...
A single-inductor multiple-output (SIMO) dc-dc converter with output-voltage-aware charge control (O...
A single-inductor multiple-output switching converter operates in pseudo-CCM/DCM. It requires freewh...
Many electronic applications require multiple regulated supply voltages to cater for needs from the ...
Minimizing power consumption in multi-processor systems requires the use of multiple supplies with a...
Feasibility of single inductor multiple outputs (SIMO) DC-DC converters, able to operate in continuo...
Finally, a four-channel SIMO converter with direct combination but optimal switching sequence for ar...
With ever increasing demand of portable electronics, Single-Inductor Multiple-Output (SIMO) converte...
Emerging portable applications demand low-power operation to maximize battery run-time, and high-eff...
Three freewheel duration adjustment circuits based on the principle of phase-lock loop are proposed ...
Cost and size is very important factor for any electronics and electrical device. As the size reduce...
Single Inductor Multiple Output (SIMO) converter provides a cost-effective alternative to convention...
A novel single-inductor multiple-output (SIMO)DC-DC converter with bidirectional sequencecontrol to ...
The major demand for portable electronics devices such as pagers, laptops, cellular phones etc. Sing...
Cross-regulation problem and power dissipation due to multiple switching are mostly encountered amon...
This paper investigates a digital control for non-isolated single-inductor multiple output (SIMO) st...
A single-inductor multiple-output (SIMO) dc-dc converter with output-voltage-aware charge control (O...