一个12位1.74 mw 20 ms /s DAC，具有电阻串和电流转向混合架构

2015 28th IEEE International System-on-Chip Conference (SOCC) Pub Date : 2015-09-01 DOI:10.1109/SOCC.2015.7406897

Bill Ma, Qinjin Huang, Fengqi Yu

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引用次数: 10

摘要

提出了一种新型分段混合数模转换器(DAC)。它采用电阻串作为低功耗的LSB部分，采用电流转向阵列作为高速小尺寸的MSB部分。LSB和MSB部分由一个旋转速率增强的AB类输出放大器组成，以实现高速。与电阻串DAC、电流转向DAC或电阻-电容混合DAC相比，所提出的DAC在要求采样时钟在1 MHz和100 MHz之间的低功耗应用中表现出更好的功率和速度权衡。该原型是采用0.18 μm CMOS技术实现的12位DAC，测量的最差DNL/INL为6.38 LSB / 7.55 LSB。模拟部分功耗为1.24 mW，数字部分功耗为0.5mW，电源为1.35 v，采样率为20 ms /s。其输出为单端缓冲电压，电压范围为500mv。核心面积为0.16 mm2。

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A 12-bit 1.74-mW 20-MS/s DAC with resistor-string and current-steering hybrid architecture

This paper presents a novel segmented hybrid digital-to-analog converter (DAC). It uses a resistor-string as the LSB part for low-power consumption, and uses a current-steering array as the MSB part for high-speed and small size. The LSB and MSB parts are combined by a slew-rate-enhanced class AB output amplifier for high speed. Compared to resistor string DACs, current steering DACs, or resistor-capacitor hybrid DACs, the proposed DAC shows a better tradeoff between power and speed at low power application demanding a sampling clock between 1 MHz and 100 MHz. The prototype is a 12-bit DAC implemented in 0.18-μm CMOS technology with the worst measured DNL/INL of 6.38 LSB / 7.55 LSB. The analogue part power consumption is 1.24 mW and the digital part 0.5mW at 1.35-V power supply at 20-MS/s sampling rate. Its output is single-end buffered voltage with a range of 500 mV. The core area is 0.16 mm2.

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2015 28th IEEE International System-on-Chip Conference (SOCC)

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