Design and implementation of a compact CMOS DC-to-DC converter
DC-DC Converter has been popular nowadays due its use in fast emerging market of portable devices and it is used primarily to step down or step up the input voltage to a constant output voltage. In current technology, most of portables devices are getting smaller and the manufacturer pack many u...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
2010
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10356/40717 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | DC-DC Converter has been popular nowadays due its use in fast emerging market of
portable devices and it is used primarily to step down or step up the input voltage to a
constant output voltage.
In current technology, most of portables devices are getting smaller and the
manufacturer pack many utilities inside them. Hence, a compact DC-DC Converter
will be attractive in the sense that it achieves high performance while still addressing
the low cost design issues. Faster response of the DC-DC Converter is also needed to
protect the supplied circuit.
Previously for current-mode DC-DC converter, an error amplifier and voltage
comparator are mandatory blocks and the designers’ choice. This project offers an
alternative by using a current comparator to compare the feedback signals.
Furthermore, the design of the current sensing block is simplified. Full transistor
design of current-mode DC-DC using voltage comparator and current comparator are
done in this project. A fair comparison between these two topologies is done in
0.18μm CMOS process. The operating frequency is 1 MHz and the supply voltage is
2.8-3.6V. The new topology has around 40% improvement in transient response and
36% improvement in output voltage change compare to the current topology.
Improved load and line regulation are also observed in the simulation. The output
ripple voltage is about 6-8 mV with 8μH inductor and 8μF capacitor. The power
efficiency is over 80% for load current 100 to 400mA. |
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