Laplace transform impedance spectrometer and its measurement method
First Claim
1. A carrier function Laplace transform impedance spectrometer, comprising:
- a galvanostat/potentiostat for applying constant voltage, constant current or constant load to the electrical/electrochemical device by employing constant voltage source, constant current source or constant load element and thereby detecting voltage and current of the electrical/electrochemical device resulting from the constant current or voltage application;
a voltage/current output unit for removing noise out of voltage and current detected in the galvanostat/potentiostat, also removing bias voltage and current and outputting the resulting signal;
a two channel analog/digital converter for converting the voltage and current output from the voltage/current output unit into digital signal; and
control means for fitting the digital voltage and current output from the analog/digital converter to carrier function, which is analytically Laplace transformable to thereby generate impedance spectrum and storing the result.
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Abstract
A method of measuring impedance is based on carrier function Laplace transform. The measurement includes detecting a response signal from a device under test, to which signal an excitation such as a pulse, interrupt or constant load is applied. Resulting data is fitted to a carrier function, selected so as to be capable of providing a good fit and for which an analytical Laplace transform is known, in order to obtain parameters of such function providing best fit. Obtained parameters are further substituted into the analytical expression of Laplace transform of carrier function which is used to calculate a frequency dependent impedance function in the Laplace domain. The resulting impedance function is used for calculating the impedance spectrum in a frequency domain and for calculating the measurement error of the frequency domain impedance spectrum using the standard deviations of the parameters, obtained during fitting of time-domain data.
26 Citations
3 Claims
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1. A carrier function Laplace transform impedance spectrometer, comprising:
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a galvanostat/potentiostat for applying constant voltage, constant current or constant load to the electrical/electrochemical device by employing constant voltage source, constant current source or constant load element and thereby detecting voltage and current of the electrical/electrochemical device resulting from the constant current or voltage application;
a voltage/current output unit for removing noise out of voltage and current detected in the galvanostat/potentiostat, also removing bias voltage and current and outputting the resulting signal;
a two channel analog/digital converter for converting the voltage and current output from the voltage/current output unit into digital signal; and
control means for fitting the digital voltage and current output from the analog/digital converter to carrier function, which is analytically Laplace transformable to thereby generate impedance spectrum and storing the result. - View Dependent Claims (2, 3)
first and second filters for individually filtering the voltage and current detected by the galvanostat/potentiostat to thereby remove noise out of them;
a digital/analog converter for converting the digital bias voltage and current ouput from the control means into analog bias voltage and current;
first and second subtractors for subtracting the bias voltage and current output from the digital/analog converter respectively from the voltage and current output from the first and second filters; and
first and second amplifiers for amplifying output signals from the first and second subtractors and inputting them to the analog/digital converter.
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3. The spectrometer as defined in claim 1, wherein the control means comprises;
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CPU for controlling a carrier function Laplace transform impedance measuring operation of the electrical/electrochemical device;
an impedance calculating means for calculating the impedance of the electrical/electrochemical device using the output signal of the analog/digital converter under the control of CPU; and
an input/output device for inputting the output signal of the analog/digital converter and outputting the digital bias voltage and current to the digital/analog converter of the voltage/current output unit.
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Specification