This chapter deals with the design methodologies to obtain DC-DC converters with multiple outputs and only one inductor. The four possible schemes, buck, boost, and inverting or non-inverting buck-boost, are considered. The key specific problems related to the issue are the inductor current switching scheme, the multiple-loops control, the suitable driving of power switches and, accordingly, the converter power efficiency. All the issues are discussed in details. Moreover, design examples of devices integrated with CMOS technologies and the experimental results are presented
This paper presents a methodology that allows the development of new converter topologies for sing...
With ever increasing demand of portable electronics, Single-Inductor Multiple-Output (SIMO) converte...
There are various types of power electronic converters available in recent days. In some application...
Abstract – Design techniques for single inductor multiple output (SIMO) DC-DC buck converters are pr...
Abstract – Design methodologies for Single-Inductor Dual-Output (SIDO) DC-DC switching converters ar...
This study presents a novel converter configuration that is related to the area DC-DC power converte...
Minimizing power consumption in multi-processor systems requires the use of multiple supplies with a...
The buck-boost inverter can be easily used to construct a multi-input converter due to its inherent ...
Single-inductor multi-input multi-output (SI-MIMO) dc-dc converters are attractive in the engineerin...
A single input triple output (SITO) DC-DC power converter circuit derived from a single inductor boo...
This paper proposes a new control scheme for a class of multi-input dc-dc power converters. The new ...
Single-inductor multi-input multi-output (SI-MIMO) dc-dc converters are attractive in the engineerin...
Abstract This paper presents a single-inductor 4-outputs DC–DC buck converter. In order to independe...
The issues of a single-inductor multiple-output DC-DC converter were studied. Poor cross regulation,...
Tapped-inductor variations of single-switch, single-diode, dc-to-dc converters are categorized based...
This paper presents a methodology that allows the development of new converter topologies for sing...
With ever increasing demand of portable electronics, Single-Inductor Multiple-Output (SIMO) converte...
There are various types of power electronic converters available in recent days. In some application...
Abstract – Design techniques for single inductor multiple output (SIMO) DC-DC buck converters are pr...
Abstract – Design methodologies for Single-Inductor Dual-Output (SIDO) DC-DC switching converters ar...
This study presents a novel converter configuration that is related to the area DC-DC power converte...
Minimizing power consumption in multi-processor systems requires the use of multiple supplies with a...
The buck-boost inverter can be easily used to construct a multi-input converter due to its inherent ...
Single-inductor multi-input multi-output (SI-MIMO) dc-dc converters are attractive in the engineerin...
A single input triple output (SITO) DC-DC power converter circuit derived from a single inductor boo...
This paper proposes a new control scheme for a class of multi-input dc-dc power converters. The new ...
Single-inductor multi-input multi-output (SI-MIMO) dc-dc converters are attractive in the engineerin...
Abstract This paper presents a single-inductor 4-outputs DC–DC buck converter. In order to independe...
The issues of a single-inductor multiple-output DC-DC converter were studied. Poor cross regulation,...
Tapped-inductor variations of single-switch, single-diode, dc-to-dc converters are categorized based...
This paper presents a methodology that allows the development of new converter topologies for sing...
With ever increasing demand of portable electronics, Single-Inductor Multiple-Output (SIMO) converte...
There are various types of power electronic converters available in recent days. In some application...
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