Multichannel Radiometer Frontend Based on Bandwidth Synthetic Technology
Abstract: A multichannel radiometer frontend, which can improve the radiometer sensitivity and utilization of the frequency band dramatically, is proposed based on the principle of bandwidth synthetic technology. The multichannel radiometer, called multichannel band bandwidth width synthetic radiometer (MCBWSR), consists of multiple conventional radiometer channels, and the frequency bands of all the channels are synthesized by the bandwidth synthesizer before the detector. The synthesized bandwidth of the synthesizer can reach a maximum of the sum of all the bandwidths. The operating frequency can also be selected flexibly using the frequency conversion technology. An analysis of the sensitivity ΔTsyn of the MCBWSR is deduced in terms of the conventional single-channel single channel radiomet radiometer sensitivity ΔTi. The relationship of sensitivity between the conventional singlesingle channel radiometer and MCBWSR is validated using an RF simulator. To verify the analysis, three experiments are implemented on a direct detection radiometer, a heterodyne radiometer, adiometer, and a dualchannel bandwidth synthetic radiometer (DCBWSR) receiver, respectively. The experimental results are presented, and the sensitivity among them is compared. These results indicate that the DCBWSR can improve the sensitivity by about 1/√2, 1/ 2, which is consistent with the theoretically calculated results. Compared with the conventional radiometers, the MCBWSR has the advantages of higher sensitivity, lower power consumption, and integration.