LOW POWER CIC FILTER DESIGN FOR DELTA SIGMA ADC

e-Academia Journal Pub Date : 2019-03-21 DOI:10.24191/E-AJ.V7ISI-TEMIC18.5487

Siva Kumaaran, Lee Lini

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Abstract

This paper presents the power-optimized third-order Cascaded Integrator Comb (CIC) Filter for the DeltaSigma (Δ-∑) Analog-to-Digital Converter (ADC). The CIC Filter refers to a type of decimation filter used in ADC to remove quantization error caused by the modulator. It also occupies less area, when compared to other decimation filter, due to the absence of multiplier. In Δ-∑ ADC, the power consumption is mainly driven by the decimation filter. Hence, careful optimization of the decimation filter is necessary to design an ADC with low power. In this paper, the True Single Phase Clocked (TSPC) D-Flip Flop, which is made up of split-output latches, was applied as the register, instead of conventional D-Flip Flops. The proposed design displayed a significant reduction in power consumption. The proposed architecture was realized by using the CMOS 0.13µm technology. At 256kHz of sampling rate, the CIC Filter only consumed 47.99µW power. The supply voltage used at 1.5V and 13-bit of resolution had been achieved by using 32 oversampling ratio. The layout for 1-bit third-order CIC Filter was also realized with the size of 105.580 × 29.930µm2 . Keywords: Δ-∑ Analog to Digital Converter, Decimation Filter, Cascaded Integrator Comb, Integrator, Differentiator

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δ σ adc的低功耗cic滤波器设计

本文提出了用于DeltaSigma (Δ-∑)模数转换器(ADC)的功率优化的三阶级联积分器梳状(CIC)滤波器。CIC滤波器是指用于ADC的一种抽取滤波器，用于消除由调制器引起的量化误差。由于没有乘法器，与其他抽取滤波器相比，它占用的面积更小。在Δ-∑ADC中，功耗主要由抽取滤波器驱动。因此，精心优化抽取滤波器是设计低功耗ADC的必要条件。本文采用由分路输出锁存器组成的真单相时钟(TSPC) d触发器代替传统的d触发器作为寄存器。提出的设计显示出功耗的显著降低。该架构采用CMOS 0.13µm技术实现。在采样率为256kHz时，CIC滤波器仅消耗47.99 μ W功率。电源电压为1.5V，分辨率为13位，过采样比为32。实现了1位三阶CIC滤波器的布局，尺寸为105.580 × 29.930µm2。关键词:Δ-∑模数转换器，抽取滤波器，级联积分器梳，积分器，微分器

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