Title :
Macromodel Predictions for EMI in Bipolar Operational Amplifiers
Author :
Chen, Gordon K C ; Whalen, James J.
Author_Institution :
Niagara College of Applied Arts and Technology, Welland, Ont., Canada L3B 5S2
Abstract :
A macromodel containing two transistors can accurately predict how amplitude-modulated RF signals with RF carrier frequencies in the 0.05-to 100-MHz range are demodulated in a bipolar operational amplifier (¿ A741 op amp) to cause undesired low-frequency responses related to the modulation envelope of the RF signals. The original op-amp macromodel, which was developed by Boyle et al., was modified by adding four capacitors (each 4 pF) to account for parasitic-capacitance effects in the integrated-circuit op amp. The macromodel can be used when the RFI signals are incident upon the op-amp input terminals. The use of the macromodel leads to a substantial reduction in computer time and expense.
Keywords :
Bipolar integrated circuits; Capacitors; Circuit analysis; Demodulation; Electromagnetic interference; Equivalent circuits; Operational amplifiers; Radio frequency; Radiofrequency amplifiers; Radiofrequency interference; EMI; Operational amplifiers; macromodel predictions;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.1980.303864
