摘要
介绍了利用CSMC 0.6μm CMOS工艺实现的、应用于电流模逻辑电路中的高线性度电压电流转换(VTC)电路。该电路采用了高增益两级运算放大器,以及工作在弱反型区的MOS管电压电流呈指数律关系实现的PTAT基准电流源。详细分析了电阻与运算放大器的非线性影响因素。测试结果表明,输出的总谐波失真为0.0002%,输入动态范围为0~2.6V,输出电流为50~426μA,PTAT基准电流源对电源变化的灵敏度为0.0217。芯片采用5V供电,功耗约为1.3mW,芯片面积为0.112mm2。
A highly linear CMOS voltage-to-current (VTC) converter for current-mode analog and digital integrated circuits is described. By utilizing a high gain operational amplifier (OPA), a Proportional to Absolute Temperature (PTAT) current reference, and a small voltage coefficient poly-silicon resistor, a high linearity is achieved. The resistor and the OPA nonlinearity behavior have been analyzed. The circuit has been implemented in a standard 0. 6 μm CMOS technology. The low frequency gain of the OPA exceeds 90 dB. The test result indicates that the total harmonic distortion (THD) is 0. 0002%. The common-mode input linearity ranges from 0-2.6 V. Correspondingly, the output current range is 50-426μA. The sensitivity of the PTAT current reference to VDD is approximately 0. 0217. The chip consumes less than 1.3 mW for a 5 V supply, and occupies 0. 112 mm^2 of area.
出处
《固体电子学研究与进展》
CAS
CSCD
北大核心
2009年第2期281-286,共6页
Research & Progress of SSE
基金
863计划项目(课题编号:2003AA31g030)
作者简介
联系作者:周明珠(ZHOU Mingzhu)女,1981年生,东南大学射光所博士研究生,主要从事数模混合信号单片集成电路设计。E—mail:zhoumingzhu1827@163.com
朱恩(ZHU En)男,1965年生,博士,东南大学教授,博士生导师,主要从事数模混合信号集成电路、信号处理数字集成电路、高速射频集成电路等研究。
