Implementation of Polarization Sensor on Low Radiation Transceiver

Based on the previously experimental study of the 2.4GHz and 3-30GHz Radio-frequency transceiver chip with standard CMOS processes, the objective of this project is to integrate the experience on the design and fabrication of wireless biomedical sensor chip, such as temperature, optical intensity and position sensors, as well as orthogonal polarization-based optical sensors. The polarization-based sensor chip provides the characteristic information of investigated object-components. Indeed, this chip also shows to the contribution on the ultra-low transmitter power for biomedical sensing transmission and the promotion on the application area such as the investigation of polarized-specimen properties with the following three years. In the first year, continuous improvement on the performance of a new dual-band polarization-based sensor will be investigated with the integration of readout amplifier and ultrawideband transceiver. Meanwhile, many efforts on the low-power interference of impulse-response ultrawideband transceiver have devoted to measurement environment and chip implementation.. After developed the basic theory and simulation model, we design the layout and post-simulation of the polarization-based array sensors. In the second year, some peripheral circuits, such as decoders, scanners, buffers, and sensor amplifiers, will be implemented and integrated to the dual-band polarization-based sensing array. Orthogonally polarimetric measurement exhibits the offset of aligned polarizing light. Image sensor-array and dual-band polarization analyzing CMOS sensor that will be integrated on the micro-object system is proposed in the third year. Finally, the dual-band polarization-based image-sensing chip will be integrated into the developed wireless biomedical transceiver chip to promote its performance and quality factor.Based on the previously experimental study of the 2.4GHz and 3-30GHz Radio-frequency transceiver chip with standard CMOS processes, the objective of this project is to integrate the experience on the design and fabrication of wireless biomedical sensor chip, such as temperature, optical intensity and position sensors, as well as orthogonal polarization-based optical sensors. The polarization-based sensor chip provides the characteristic information of investigated object-components. Indeed, this chip also shows to the contribution on the ultra-low transmitter power for biomedical sensing transmission and the promotion on the application area such as the investigation of polarized-specimen properties with the following three years. In the first year, continuous improvement on the performance of a new dual-band polarization-based sensor will be investigated with the integration of readout amplifier and ultrawideband transceiver. Meanwhile, many efforts on the low-power interference of impulse-response ultrawideband transceiver have devoted to measurement environment and chip implementation.. After developed the basic theory and simulation model, we design the layout and post-simulation of the polarization-based array sensors. In the second year, some peripheral circuits, such as decoders, scanners, buffers, and sensor amplifiers, will be implemented and integrated to the dual-band polarization-based sensing array. Orthogonally polarimetric measurement exhibits the offset of aligned polarizing light. Image sensor-array and dual-band polarization analyzing CMOS sensor that will be integrated on the micro-object system is proposed in the third year. Finally, the dual-band polarization-based image-sensing chip will be integrated into the developed wireless biomedical transceiver chip to promote its performance and quality factor.

Project ID:PB10108-2803
External Project ID:NSC101-2221-E182-078