← 返回 JSSC 论文列表JSSC 2010第6期RF & Wireless90nmTransceiver
A Low-V oltage Energy-Sampling IR-UWB Digital Baseband Employing Quadratic Corre
一种采用二次校正技术的低电压能量采样IR-UWB数字基带设计
90nm CMOS, 0.55V, 32MHz, 1.6mW, 12pJ/bit
相关能量检测最大似然调制解调器超宽带
▸创新点1:新型二次相关技术(方法创新):该技术通过引入非线性统计处理,显著提升了非相干IR-UWB系统的性能,使其在低电压环境下仍能保持高效的数据处理能力。
▸创新点2:抗SNR估计误差的鲁棒性(系统创新):该技术通过优化信号处理算法,使得系统在SNR估计不准确的情况下仍能保持稳定的性能,提高了系统的可靠性。
▸创新点3:无需增加前端复杂度的无混叠码(电路创新):引入的无混叠码技术,在不增加前端电路复杂度的前提下,实现了脉冲级同步精度,简化了系统设计。
▸创新点4:低功耗设计(系统创新):采用并行处理和时钟数据门控技术,在0.55V的低电压下实现了1.6mW的平均功耗,显著提升了系统的能效。
Abstract
Manish Bhardwaj , Member , IEEE, Denis C. Daly , Member , IEEE, and
Anantha P . Chandrakasan, Fellow, IEEE
Abstract—This paper describes a digital baseband designed for
use in a non-coherent IR-UWB system. Owing to the nonlinear
statistics introduced by the energy-sampling RF front-end, the
baseband employs a new quadratic correlation technique that
achieves comparable performance to a matched filter classifier ,
with the added benefit of being robust to SNR estimation er-
rors. Additionally, “ali