An alternate voltage-controlled current source for electrical impedance tomography applications
The desirable features of any current source in electrical impedance tomography (EIT) are high output impedance and a constant current for varying loads. Howland current sources are the most popular current sources for EIT applications. Alternately, a simple non-inverting amplifier circuit can be us...
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my.uniten.dspace-132892020-03-17T05:23:39Z An alternate voltage-controlled current source for electrical impedance tomography applications Chitturi, V. Farrukh, N. The desirable features of any current source in electrical impedance tomography (EIT) are high output impedance and a constant current for varying loads. Howland current sources are the most popular current sources for EIT applications. Alternately, a simple non-inverting amplifier circuit can be used as a voltage-controlled current source using IC LM7171 op-amp. A constant current of 5 mA (PP) is designed and tested over a wide range of frequencies. The frequency response indicates a stable current up to 1 MHz. These results are validated for an impedance of 1 kΩ which is usually considered for EIT applications. A buffer circuit is added to this current circuit to meet high output impedance matching. A minor discrepancy is visible between the theoretical value and measured value of the output current due to the tolerance band of the resistors used in the non-inverting amplifier circuit. © Springer Nature Singapore Pte Ltd 2019. 2020-02-03T03:31:35Z 2020-02-03T03:31:35Z 2019 Conference Paper 10.1007/978-981-13-2514-4_8 en |
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The desirable features of any current source in electrical impedance tomography (EIT) are high output impedance and a constant current for varying loads. Howland current sources are the most popular current sources for EIT applications. Alternately, a simple non-inverting amplifier circuit can be used as a voltage-controlled current source using IC LM7171 op-amp. A constant current of 5 mA (PP) is designed and tested over a wide range of frequencies. The frequency response indicates a stable current up to 1 MHz. These results are validated for an impedance of 1 kΩ which is usually considered for EIT applications. A buffer circuit is added to this current circuit to meet high output impedance matching. A minor discrepancy is visible between the theoretical value and measured value of the output current due to the tolerance band of the resistors used in the non-inverting amplifier circuit. © Springer Nature Singapore Pte Ltd 2019. |
format |
Conference Paper |
author |
Chitturi, V. Farrukh, N. |
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Chitturi, V. Farrukh, N. An alternate voltage-controlled current source for electrical impedance tomography applications |
author_facet |
Chitturi, V. Farrukh, N. |
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Chitturi, V. |
title |
An alternate voltage-controlled current source for electrical impedance tomography applications |
title_short |
An alternate voltage-controlled current source for electrical impedance tomography applications |
title_full |
An alternate voltage-controlled current source for electrical impedance tomography applications |
title_fullStr |
An alternate voltage-controlled current source for electrical impedance tomography applications |
title_full_unstemmed |
An alternate voltage-controlled current source for electrical impedance tomography applications |
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alternate voltage-controlled current source for electrical impedance tomography applications |
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2020 |
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1662758841582878720 |