The development of a fully balanced current-tunable active-RC all-pass filter

Q3 Engineering
Samran Lertkonsarn, Chadarat Khwunnak, Sittisak Roungrid
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引用次数: 1

Abstract

This research paper presents a symmetrical current-tunable active-RC all-pass filter that uses an active BJT coupled with R and C. The circuit's symmetrical structure ensures that the differential signals are treated equally, resulting in improved performance. Furthermore, the filter's ability to adjust the frequency by bias current makes it suitable for a wide range of applications, such as improving phase properties and creating other types of filters. The simulation results obtained through the Pspice program show that the value of the operating frequency can be adjusted by bias current, which is the highlight of this research. The transfer function of the circuit shows a response of about 0 dB and –90° respectively, indicating that the circuit can change the phase of the input signal without changing its magnitude. This feature is particularly useful in signal processing applications where phase changes are required. In addition, the paper discusses how the operating frequency can be increased by decreasing the capacitor. The transfer function of the circuit analyzed shows that the operating frequency (f0) is inversely proportional to the product of the capacitors. Therefore, decreasing the value of C increases the operating frequency of the circuit. Monte Carlo analysis results are also presented for resistors, capacitors, and transistors with error values. This analysis helps determine the effect of errors on the output signal of the circuit. The results show that the output signal is sensitive to changes in the resistor values, which can affect the accuracy of the filter. Therefore, it is important to select high-quality resistors to ensure that the filter operates accurately
全平衡电流可调有源rc全通滤波器的研制
本文提出了一种对称电流可调有源rc全通滤波器,该滤波器使用有源BJT与R和c耦合,电路的对称结构确保差分信号得到平等处理,从而提高了性能。此外,该滤波器通过偏置电流调节频率的能力使其适用于广泛的应用,例如改善相位特性和创建其他类型的滤波器。通过Pspice程序获得的仿真结果表明,偏置电流可以调节工作频率的值,这是本研究的重点。电路的传递函数分别显示出约0 dB和-90°的响应,表明电路可以改变输入信号的相位而不改变其幅值。该特性在需要相位变化的信号处理应用中特别有用。此外,本文还讨论了如何通过减小电容来提高工作频率。电路的传递函数分析表明,工作频率(f0)与电容积成反比。因此,减小C的值会增加电路的工作频率。蒙特卡罗分析结果也提出了电阻器,电容器和晶体管的误差值。这种分析有助于确定误差对电路输出信号的影响。结果表明,输出信号对电阻值的变化很敏感,会影响滤波器的精度。因此,选择高质量的电阻器以保证滤波器准确工作是很重要的
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
EUREKA: Physics and Engineering
EUREKA: Physics and Engineering Engineering-Engineering (all)
CiteScore
1.90
自引率
0.00%
发文量
78
审稿时长
12 weeks
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