抗工艺漂移可编程带通滤波器的设计与优化  

Design and optimizing of a programmable OTA-C band-pass filter immune to process variation

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作  者:马华[1,2] 叶以正[1] 王永生[1] 张岩[3] 

机构地区:[1]哈尔滨工业大学微电子中心,黑龙江哈尔滨150001 [2]哈尔滨工业大学深圳研究生院,电子与信息工程学科部,广州深圳518055 [3]哈尔滨工业大学深圳研究生院电子与信息工程学科部,广州深圳518055

出  处:《哈尔滨工程大学学报》2010年第2期237-242,共6页Journal of Harbin Engineering University

基  金:信息产业部IP核标准基金资助项目(01309238)

摘  要:为了克服集成电路制造过程中工艺变化引起滤波器中心频率的漂移,设计了一个可编程校准的OTA—C带通滤波器电路.在Top—Down的设计过程中,提出了滤波器电路设计的高层次优化方法,该方法主要包括设计空间的行为描述、约束方程描述、确定优化目标及数学求解得到较优的设计.利用该方法设计了光信号处理器中带通滤波器的电路,并且主要优化了传递函数、可编程数字信号宽度及可编程电流源设计等.仿真结果表明,该滤波器的中心频率设计标准值为37.8kHz,当工艺漂移引起中心频率±50%的变化时,可校准系数变化范围为199%~65.6%,能够满足可编程校准的要求.In order to immunize against process variation, a programmable operational transconductance amplifier (OTA)-C bandpass filter was proposed that can correct central frequency deviations caused by process variations. This high-level optimization method was formulated as a top-down design. The method used four steps starting with behavioral modeling of the performance space. It then established constraint equations. Next, the objectives of opti- mization were raised. The final step involved calculating and achieving an optimal solution. The programmable band-pass filter circuit was designed for optical signal processing by applying this method. Subsequently, the trans- fer function of the filter, data capacity of the program, and the programmable current source were optimized. Simu- lation results for the proposed circuit showed a calibrated value for the center frequency of 37.8 kHz. When the center frequency varied 50% to 150% from its proper frequency due to process variations, the central frequency was corrected by the programming calibration coefficient, adjusting the frequency 199% to 65.6%.

关 键 词:可编程滤波器 自顶向下 优化 工艺漂移 光信号处理器 

分 类 号:TN402[电子电信—微电子学与固体电子学]

 

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