Low-Radiation and Big-Data 10-60GHz UWB Transceiver Design (I)

According to the previous experiment on the 24GHz and 3-30GHz RF module chips with standard 0.13μum CMOS processes, the objective of this project is to promote the operation frequency up to 10-60GHz of IEEE802.16 regulation for the UWB (Ultra-wideband) transceivers with cutoff frequency above 74GHz of the 90nm CMOS technology. To be concerned with people considerations, the design target of UWB transceiver includes the properties of low radiation power, low noise and big data transmission, such as high resolution image, high definition video and large volume information at specific area. Meanwhile, the three-year project will investigate on module simulation and layout to implement the UWB transceiver under the design guidelines among low power consumption, low transmission power, and low operation voltage for the applications of biomedical and big-data transmission. In the first year, continuous improvement on the module performance for the 10-60GHz UWB transceiver will be investigated under the integration of baseband circuits and RF ultra-wideband circuits. Meanwhile, many efforts on the low-power interference of impulse-response ultra-wideband transceiver have devoted to measurement environment and software-aided hardware equipment. After developed the basic theory and simulation model, we design the layout and post-simulation of the low-radiation big-date UWB transceiver. In the second year, some peripheral circuits, such as decoders, buffers, and differential decoder will be implemented together and integrated to obtain the low power consumption and low noise 10-60GHz UWB transceiver. Ultra-wideband antenna that is developed off-chip to provide good transceiver gain will be proposed in the third year. Finally, the 10-66GHz UWB transceiver chip will be measured and optimized to obtain low-radiation power, low-power consumption, low-noise interference, and big-data transmission,

Project ID:PB10408-5733
External Project ID:MOST104-2221-E182-057