JSSC 2007第12期RF & Wireless90nm

A 0.65-to-1.4 nJ/Burst 3-to-10 GHz UWB All-Digital TX in 90 nm CMOS for IEEE 802.15.4a

提出一种全数字UWB发射机架构，利用脉冲无线电UWB的低占空比实现超低功耗。

1 V 90 nm CMOS, 0.65 mW at 3.1 GHz to 1.4 mW at 10 GHz, 1 Mb/s data rate

UWB全数字发射机低功耗IEEE 802.15.4aCMOS

▸创新点1：全数字UWB发射机架构（系统创新）。该设计采用全数字实现方式，摒弃传统模拟电路，通过数字控制振荡器（DCO）和动态调制器实现3-10 GHz宽带信号生成，显著提升集成度和工艺兼容性，支持1V低电压供电。

▸创新点2：基于相位对齐锁频环（PA-FLL）的超快速启动技术（电路创新）。通过嵌入式PA-FLL结构实现2ns快速启动，动态匹配IR-UWB的3%超低占空比特性，将平均功耗降至0.65-1.4mW范围，突破传统PLL的启动延迟限制。

▸创新点3：全动态BPSK符号调制器（方法创新）。采用离散步进式调制技术在499.2MHz芯片率下精确成形脉冲，同时满足IEEE 802.15.4a标准的频谱掩膜要求，实现6ps的极低抖动累积性能。

▸创新点4：多频段自适应覆盖技术（系统创新）。通过可编程DCO实现在3.1-10GHz范围内任意499.2MHz子带的灵活切换，单架构兼容标准全部强制模式，芯片面积优化至90nm CMOS工艺实现。

Abstract

We propose an all-digital UWB transmitter archi- tecture that exploits the low duty cycle of impulse-radio UWB to achieve ultra-low power consumption. The design supports the IEEE 802.15.4a standard and is demonstrated for its mandatory mode. A digitally controlled oscillator produces the RF carrier between 3 and 10 GHz. It is embedded in a phase-aligned fre- quency-locked loop that starts up in 2 ns and thus exploits the signal duty cycle that can be as low as 3%. A fully dynamic modu- lator shapes the BPSK symbols in discrete steps at the 499.2 MHz chip rate as required by the standard. The transmitter can operate in any 499.2 MHz band of the standard between 3.1 and 10 GHz, and the generated signal fulﬁlls the emission spectral mask. The jitter accumulation over a burst is below 6 ps /82/77/83, which is within speciﬁcations. The transmitter was realized in a 1 V 90 nm digital CMOS technology, and its power consumption drawn from a 1 V supply is from 0.65 mW at 3.1 GHz to 1.4 mW at 10 GHz for a 1 Mb/s data rate.