2026, Vol. 7, Issue 1, Part A
Design of voltage divider biasing circuit for BJT amplifiers: A comparative study
Author(s): Chukwuemeka Obiora Nwankwo, Adaeze Chiamaka Okonkwo, Oluwaseun Adebayo Adeleke and Funmilayo Oluwabunmi Akinwale
Abstract: Bipolar junction transistor amplifiers require stable quiescent operating points to maintain consistent performance across varying temperature conditions and device parameter tolerances, yet many undergraduate curricula and practical applications still employ suboptimal biasing configurations that compromise thermal stability. This research presents systematic comparison of five BJT biasing topologies fixed bias, collector feedback, emitter feedback, voltage divider, and voltage divider with emitter bypass capacitor through theoretical analysis, simulation, and experimental validation using 2N2222 NPN transistors [1]. Stability factor measurements demonstrated that voltage divider biasing achieved S = 8 compared to S = 45 for fixed bias, representing 82% improvement in thermal stability quantified through the Ico sensitivity metric. Temperature sweep experiments from -20°C to +100°C revealed that fixed bias circuits exhibited collector current variation of 178% whilst voltage divider configurations maintained variation within 8%, validating theoretical predictions of superior thermal performance [2]. The research established optimal component ratios for voltage divider design: R2/(R1+R2) should equal (VB/VCC) where VB = VBE + ICRE, and the Thevenin equivalent resistance RTH should satisfy RTH ≤ 0.1βRE for effective stability factor reduction [3]. Frequency response characterisation demonstrated that emitter bypass capacitor addition increased midband gain from 12 dB to 28 dB whilst maintaining bandwidth of 630 kHz, though this gain enhancement trades against reduced low-frequency stability factor. Monte Carlo analysis with 10% component tolerances confirmed voltage divider robustness with Q-point variations below ±5% compared to ±35% for fixed bias configurations [4]. The comparative data provides quantitative foundation for biasing topology selection based on application requirements spanning gain, stability, and component constraints [5].
DOI: 10.22271/27084531.2026.v7.i1a.106
Pages: 01-06 | Views: 28 | Downloads: 13
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How to cite this article:
Chukwuemeka Obiora Nwankwo, Adaeze Chiamaka Okonkwo, Oluwaseun Adebayo Adeleke, Funmilayo Oluwabunmi Akinwale. Design of voltage divider biasing circuit for BJT amplifiers: A comparative study. Int J Res Circuits Devices Syst 2026;7(1):01-06. DOI: 10.22271/27084531.2026.v7.i1a.106
