← 返回 JSSC 论文列表JSSC 2009第9期Digital Circuits0.18μmNeural Network Accelerator
A Fifth-Order G 109C Continuous-Time 16 Modulator With Process-Insensitive Input
本文提出了一种采用自适应输入共模偏置控制的第五阶Gm-C连续时间ΔΣ调制器,具有工艺不敏感性。
0.18μm CMOS, 1.8V, 128MS/s, 11mW
连续时间ΔΣ调制器Gm-C积分器自适应控制工艺不敏感谐波失真
▸创新点1:自适应输入共模偏置控制(系统创新)。该技术通过动态调整输入共模电压,确保三极管Gm-C单元在-30°C至85°C温度范围内始终工作在恒定线性区间,解决了传统Gm-C积分器对温度敏感的缺陷,线性范围调谐能力达±15%。
▸创新点2:三极管Gm-C积分器(电路创新)。采用三极管工作区实现的Gm-C积分器结构,相比传统MOSFET方案显著提升线性度,在400mV满量程输入下实现HD2<-86dB和HD3<-91dB的谐波失真性能。
▸创新点3:自校准三电平开关电容DAC(方法创新)。通过实时校准SCDAC的电荷传输比例,使输入信号范围不受工艺波动影响,在0.18μm CMOS工艺下保持±3dB的输入幅度稳定性。
▸创新点4:工艺不敏感系统架构(系统创新)。整合上述创新形成完整解决方案,在128MS/s采样率下实现71dB动态范围,11mW@1.8V的低功耗表现,芯片面积仅0.4mm²。
Abstract
Koji Tomioka, Member , IEEE, Yuta Nakashima, Koichi Hamashita , Member , IEEE,
and Bang-Sup Song , Fellow, IEEE
Abstract—Continuous-time /1/6 modulators (CT-DSMs) that
use transistor-based G /109–C integrators are simple but sensitive
to process and temperature variations. Their performance de-
pends heavily on the input linear range that varies widely. A
CT-DSM is implemented using a triode G
/109–C integrator and a
tri-level switched-capacitor digital-to-analog converter (SCDAC).
A self-scalin