Difference between revisions of "DC-DC Buck converter in 65nm CMOS"
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Power management is a fundamental block in integrated circuits, especially for battery-operated systems such as the Magnetic Resonance Imaging transceiver which requires this DC-DC converter. A buck converter (also called step-down converter) is a DC-DC power converter which takes an input voltage and reduce it to a lower one. After the LDO having reduced the voltage from the battery to a stable lower voltage, the DC-DC needs to reduce this voltage even more to supply most of the building blocks of the MRI transceiver. The goal of this project is to maximize the conversion efficiency of the DC-DC and minimize its output ripple voltage in order to obtain a stable supply. | Power management is a fundamental block in integrated circuits, especially for battery-operated systems such as the Magnetic Resonance Imaging transceiver which requires this DC-DC converter. A buck converter (also called step-down converter) is a DC-DC power converter which takes an input voltage and reduce it to a lower one. After the LDO having reduced the voltage from the battery to a stable lower voltage, the DC-DC needs to reduce this voltage even more to supply most of the building blocks of the MRI transceiver. The goal of this project is to maximize the conversion efficiency of the DC-DC and minimize its output ripple voltage in order to obtain a stable supply. | ||
− | At the Integrated Systems Laboratory, we have designed similar circuits in an older technology. This | + | At the Integrated Systems Laboratory, we have designed similar circuits in an older technology. This circuit will have to be designed in 65nm CMOS and can be reused in the future for other projects. |
===Status: Available === | ===Status: Available === |
Revision as of 13:20, 22 January 2021
Contents
Short Description
Power management is a fundamental block in integrated circuits, especially for battery-operated systems such as the Magnetic Resonance Imaging transceiver which requires this DC-DC converter. A buck converter (also called step-down converter) is a DC-DC power converter which takes an input voltage and reduce it to a lower one. After the LDO having reduced the voltage from the battery to a stable lower voltage, the DC-DC needs to reduce this voltage even more to supply most of the building blocks of the MRI transceiver. The goal of this project is to maximize the conversion efficiency of the DC-DC and minimize its output ripple voltage in order to obtain a stable supply.
At the Integrated Systems Laboratory, we have designed similar circuits in an older technology. This circuit will have to be designed in 65nm CMOS and can be reused in the future for other projects.
Status: Available
- Type: Bachelor's Thesis or Semester Project
- Contact: Guillaume Mocquard
Prerequisites
- Analog Integrated Circuits (AIC)
Character
- 30% Theory
- 70% Circuit Design