2026, Vol. 7, Issue 1, Part A
Performance comparison of first-order and second-order RC circuits for signal filtering applications
Author(s): Erik Lindqvist and Anna Bergström
Abstract: Approximately 73% of analog signal conditioning systems incorporate passive RC filtering stages, yet comparative performance data between first-order and second-order implementations remains limited in contemporary literature [1]. This research presents an extensive evaluation of RC filter circuits across both configuration orders, examining frequency response characteristics, phase behavior, noise performance, and practical implementation considerations. Experimental measurements were conducted using precision components with 1% tolerance resistors and 2% tolerance capacitors to minimize parameter variations. The investigation targeted a standardized cutoff frequency of 1.0 kHz to enable direct comparison across all tested configurations [2]. First-order low-pass filters demonstrated cutoff frequency accuracy within 2.3% of theoretical values, while second-order implementations achieved 1.7% accuracy due to the averaging effect of cascaded stages. Phase response measurements revealed that first-order circuits exhibited -45.2 degrees at the cutoff frequency compared to -89.7 degrees for second-order configurations, closely matching theoretical predictions of -45 and -90 degrees respectively [3]. Noise analysis indicated that second-order filters provided 6.8 dB superior rejection of out-of-band interference at frequencies two octaves above cutoff. However, first-order implementations demonstrated 23% lower component cost and 31% reduced printed circuit board area requirements. Temperature stability testing across the range of 0°C to 50°C revealed frequency drift coefficients of 127 ppm/°C for first-order and 143 ppm/°C for second-order configurations, attributable to capacitor thermal characteristics [4]. The research findings establish quantitative guidelines for filter order selection based on application-specific requirements including attenuation steepness, phase linearity, cost constraints, and space limitations. Results confirm that first-order RC filters remain appropriate for applications requiring modest attenuation rates, while second-order implementations are preferred when sharper transition bands or enhanced noise rejection justify the additional complexity [5].
DOI: 10.22271/27084531.2026.v7.i1a.114
Pages: 44-49 | Views: 24 | Downloads: 13
Download Full Article: Click Here
How to cite this article:
Erik Lindqvist, Anna Bergström. Performance comparison of first-order and second-order RC circuits for signal filtering applications. Int J Res Circuits Devices Syst 2026;7(1):44-49. DOI: 10.22271/27084531.2026.v7.i1a.114
