Add to ORKGThis project pertains to the design of power transistors for a high switching-frequency DC-DC converter. We investigate the optimum tapering factor to design the buffer for the power transistors. Simulation results of the power transistors with the buffer designed with the optimum tapering factor show a 91% power-efficiency improvement as compared to that with the conventional tapering factor. We investigate the optimum sizing method for the power transistors. Further, we investigate the low-swing method for the buffer design. We apply the optimum tapering factor, the optimum sizing method, and the low-swing method to our buffer and power transistor design. Simulation results at 5 MHz, 1.65 V output voltage, and 280mA output current show th...
This paper presents a method to optimize integrated lateral double-diffused MOSFET transistors for u...
This paper proposes a technique for switch current stress reduction in a Switched Inductor DC-DC Boo...
In this paper, an optimum stage ratio (tapering factor) for a tapered CMOS inverter chain is derived...
DC-DC-converters are used in many different applications. Specifying the switching frequency is the ...
This document presents a method to optimize integrated LDMOS transistors for use in very high freque...
DC-DC converters are commonly employed to perform the voltage conversions with high power-efficienci...
Switched Mode DC-DC Converters (SMCs) are required for portable devices to achieve high power-effici...
Switching device power losses place critical limits on the design and performance of high-frequency ...
The Final Year Project pertains to the design of building blocks of a high switching-frequency DC-DC...
Nowadays, electronic products are required to be more powerful with sophisticated functionalities. D...
The trend of pushing signal processing into the digital domain has penetrated into the analog-domina...
In the design of the state-of-the-art electronic products, power management circuits play a very imp...
High voltage conversion gain DC-DC power converters are essential for many applications, such as pow...
Power converters, especially those exploiting fast-switching devices, suffer from ringing, which wor...
The main objective of this thesis is to further enhance high-voltage class-D amplifier power efficie...
This paper presents a method to optimize integrated lateral double-diffused MOSFET transistors for u...
This paper proposes a technique for switch current stress reduction in a Switched Inductor DC-DC Boo...
In this paper, an optimum stage ratio (tapering factor) for a tapered CMOS inverter chain is derived...
DC-DC-converters are used in many different applications. Specifying the switching frequency is the ...
This document presents a method to optimize integrated LDMOS transistors for use in very high freque...
DC-DC converters are commonly employed to perform the voltage conversions with high power-efficienci...
Switched Mode DC-DC Converters (SMCs) are required for portable devices to achieve high power-effici...
Switching device power losses place critical limits on the design and performance of high-frequency ...
The Final Year Project pertains to the design of building blocks of a high switching-frequency DC-DC...
Nowadays, electronic products are required to be more powerful with sophisticated functionalities. D...
The trend of pushing signal processing into the digital domain has penetrated into the analog-domina...
In the design of the state-of-the-art electronic products, power management circuits play a very imp...
High voltage conversion gain DC-DC power converters are essential for many applications, such as pow...
Power converters, especially those exploiting fast-switching devices, suffer from ringing, which wor...
The main objective of this thesis is to further enhance high-voltage class-D amplifier power efficie...
This paper presents a method to optimize integrated lateral double-diffused MOSFET transistors for u...
This paper proposes a technique for switch current stress reduction in a Switched Inductor DC-DC Boo...
In this paper, an optimum stage ratio (tapering factor) for a tapered CMOS inverter chain is derived...