The Howland current source (HCS) circuit is commonly used, e.g. in electrical impedance tomography (EIT) sys tems. It is important to optimise the design parameters, such as the output impedance, bandwidth, curren...The Howland current source (HCS) circuit is commonly used, e.g. in electrical impedance tomography (EIT) sys tems. It is important to optimise the design parameters, such as the output impedance, bandwidth, current stability and load range. While many people have used this circuit, it has not been systematically analysed. In this paper, a numerical method is proposed to analyse the characteristics of HCS. Based on a nonideal opamp model, general formulas and simplified for mulas for calculating the output impedance and the closeloop gain of HCS are deduced. From these formulas, the practical formulas are chosen and their effectiveness has been proven by analysis and experiment. The output impendence of two HCS circuits based on t^A741 and LM6365 are compared. The magnitudefrequency response and the relationship between the cur rent and the load of HCS are discussed.展开更多
文摘The Howland current source (HCS) circuit is commonly used, e.g. in electrical impedance tomography (EIT) sys tems. It is important to optimise the design parameters, such as the output impedance, bandwidth, current stability and load range. While many people have used this circuit, it has not been systematically analysed. In this paper, a numerical method is proposed to analyse the characteristics of HCS. Based on a nonideal opamp model, general formulas and simplified for mulas for calculating the output impedance and the closeloop gain of HCS are deduced. From these formulas, the practical formulas are chosen and their effectiveness has been proven by analysis and experiment. The output impendence of two HCS circuits based on t^A741 and LM6365 are compared. The magnitudefrequency response and the relationship between the cur rent and the load of HCS are discussed.