DEVELOPMENT OF MODULAR FMCW (FREQUENCY-MODULATED CONTINUOUS WAVE) RADAR SYSTEM
Frequency-modulated CW is one of the most popular modulation type of CW radar. <br /> <br /> Its simple and low-cost implementation are some of the reasons that make FMCW <br /> <br /> radar attractive. FMCW radar has found its application in various fields such as <br /&g...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/27812 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Frequency-modulated CW is one of the most popular modulation type of CW radar. <br />
<br />
Its simple and low-cost implementation are some of the reasons that make FMCW <br />
<br />
radar attractive. FMCW radar has found its application in various fields such as <br />
<br />
automotive, obstacle penetration, and biomedical application. <br />
<br />
A modular and flexible FMCW radar system is developed in this thesis. The system <br />
<br />
is developed so that it can be a learning platform for radar system. The system <br />
<br />
is divided into three main modules: RF, BBIF, and SPD. RF module uses dechirpon- <br />
<br />
receiver configuration and operates at S-band (1.8 GHz up to 2.7 GHz). BBIF <br />
<br />
modules has two microcontrollers as its main components. It implements two approaches <br />
<br />
for generating chirp, one using DAC and the other using fractional-N <br />
<br />
PLL. SPD module is a software running in a PC for processing digitized beat signal. <br />
<br />
Three types of signal processing is implemented, they are range processing, <br />
<br />
Doppler processing, and SAR image processing. SPD module is also used to configure <br />
<br />
the system by setting the parameters of the system such as sampling rate, <br />
<br />
PRF, waveform, bandwitdh, etc. <br />
<br />
The maximum bandwidth of the generated signal is 900 MHz. Chirp generation <br />
<br />
with PLL gives a better range resolution than using the DAC approach. The smallest <br />
<br />
range resolution produced by the system is 0.2 m. A few experiments are done <br />
<br />
to test the performance of the designed FMCW radar system. These experiments <br />
<br />
include range measurement, Doppler measurement, and SAR image measurement. <br />
<br />
The result of range measurement is still affected by the PLL stability problem, while <br />
<br />
in Doppler measurement, this stability problem does not give much effect on the <br />
<br />
final result. The usage of RMA on the raw image data in SAR measurement gives a <br />
<br />
more focused image. The smallest object detected in SAR image has a width of 0.32 <br />
<br />
m. |
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