This article have provided time-based boost controller to convert the voltage of 1.8V to 2.8-3.4 Volts. The timing controller like the digital controller is designed for switching frequency about megahertz, but this controller doesn’t need to use a digital converter and modulation bandwidth with high precision. In this paper, a current control oscillator and delay have used an Integrator and derivative for control circuit respectively. To improve settling time of the output voltage a transistor Mk is used as a feedback with output that the output voltage reaches faster to the final amount. With this technique, the settling time is reduced about 72%. In additional Converter operates over a range switching frequency 485 KHz to 1.42 MHz. In this paper, the effects of non-ideal of the elements, as well as the stability conditions of the control circuit, have been analyzed. Boost converter has been simulated in a standard 0.18µm CMOS process. Also, Circuit efficiency is achieved 87.08% for 3.3V output voltage.
Toofan, S., Nasri, A., & noroozian, R. (2018). Design and Analysis of DC-DC Integrated Boost Converter with Time-Based Control Techniques. Electronics Industries, 9(1), 55-66.
MLA
Siroos Toofan; Abbas Nasri; Reza noroozian. "Design and Analysis of DC-DC Integrated Boost Converter with Time-Based Control Techniques". Electronics Industries, 9, 1, 2018, 55-66.
HARVARD
Toofan, S., Nasri, A., noroozian, R. (2018). 'Design and Analysis of DC-DC Integrated Boost Converter with Time-Based Control Techniques', Electronics Industries, 9(1), pp. 55-66.
VANCOUVER
Toofan, S., Nasri, A., noroozian, R. Design and Analysis of DC-DC Integrated Boost Converter with Time-Based Control Techniques. Electronics Industries, 2018; 9(1): 55-66.
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