Bioelectrical impedance measuring system
First Claim
1. A bioelectrical impedance measuring system comprisingexcitation electrode means adapted to be associated with a subject exhibiting impedance to be measured, for coupling a high frequency excitation signal to the subject;
- receiver electrode means adapted to be associated with the subject for receiving a subject output signal developed in response to the excitation signal;
subject signal amplifier means connected to said receiver electrode means for developing a d.c. output signal proportional to the subject output signal;
reference amplifier means adapted to be connected to the source of the high frequency excitation signal for developing a d.c. reference signal from the excitation signal;
differencing means connected to said subject signal amplifier means and to said reference amplifier means for deriving a difference signal proportional to the amplitude difference between said d.c. subject signal and said d.c. reference signal;
detecting means connected to said differencing means for detecting a nulled condition of said difference signal;
gain control means for adjusting and stabilizing the gain of said subject signal amplifier means with said difference signal in a nulled condition; and
display means connected to said differencing means responsive to said difference signal.
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Accused Products
Abstract
A bioelectrical impedance measuring system that measures and indicates the impedance of a biological subject, such as one or more human extremities. The system measures and indicates a basal impedance value of the measured subject, and also indicates short temporal variations in the basal value. In the system an excitation signal, derived from an electrical signal source, is coupled to the subject by excitation electrodes and a resulting subject output signal is sensed by receiver electrodes. The subject output signal is electronically subtracted from a reference signal derived from the signal source, and the resulting signal is used to drive a display unit. The system includes a null detector connected to the display unit input, and an automatic gain control unit responsive thereto, connected in the subject output signal path to automatically maintain the system in a nulled condition. With the output of the system adjusted to a null condition the value indicated is proportional to the basal impedance of the subject. The automatic gain control unit includes a lock function generator to hold the variable gain at an instantaneous null establishing a basal value for a desired measurement episode. Consequently, any variations in the nulled signal are indicative of variations in the impedance of the subject. A range indicator is associated with the gain control unit to verify that the subject output signal is within the dynamic range of the gain control unit.
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Citations
8 Claims
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1. A bioelectrical impedance measuring system comprising
excitation electrode means adapted to be associated with a subject exhibiting impedance to be measured, for coupling a high frequency excitation signal to the subject; -
receiver electrode means adapted to be associated with the subject for receiving a subject output signal developed in response to the excitation signal; subject signal amplifier means connected to said receiver electrode means for developing a d.c. output signal proportional to the subject output signal; reference amplifier means adapted to be connected to the source of the high frequency excitation signal for developing a d.c. reference signal from the excitation signal; differencing means connected to said subject signal amplifier means and to said reference amplifier means for deriving a difference signal proportional to the amplitude difference between said d.c. subject signal and said d.c. reference signal; detecting means connected to said differencing means for detecting a nulled condition of said difference signal; gain control means for adjusting and stabilizing the gain of said subject signal amplifier means with said difference signal in a nulled condition; and display means connected to said differencing means responsive to said difference signal. - View Dependent Claims (2, 3, 4)
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5. In a bioelectrical impedance measuring system for measuring and indicating the basal impedance value of a subject and short variations in the basal value, wherein a high frequency excitation signal is applied to the subject from a suitable signal source and the resultant subject signal developed in response thereto is received, amplified in a subject signal amplifier and compared in a comparator with a reference signal developed from the signal source to obtain a difference signal, the improvement comprising:
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means for amplifying the difference signal from the comparator, means for detecting a nulled condition of said amplified difference signal; gain control means for adjusting the gain of said subject signal amplifier to establish said amplified difference signal at the nulled condition; and lock function generator means for maintaining the gain of said subject signal amplifier at the adjusted value for a predetermined measurement episode. - View Dependent Claims (6)
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7. A bioelectrical impedance measuring system for measuring and indicating a basal impedance value of a measured subject as well as short variations in the basal value, comprising
at least one set of excitation electrodes adapted to be electrically coupled between a source and said subject for transmitting a high frequency excitation signal to the subject; -
at least one set of receiver electrodes adapted to be electrically associated with said subject for receiving a subject signal developed in response to the excitation signal; synchronous demodulator means connected to said receiver electrodes for providing a d.c. output signal proportional to said subject output signal; subject output signal amplifier means connected to said synchronous demodulator means for amplifying said d.c. output signal; second synchronous demodulator means adapted to be connected to said source for developing a d.c. reference signal proportional to said excitation signal; reference signal amplifier means connected to said second synchronous demodulator means for amplifying said d.c. reference signal; summing amplifier means connected to each of said signal amplifier means for deriving an amplified signal proportional to the amplitude difference between said d.c. output signal and said d.c. reference signal; null detecting means connected to said summing amplifier means for detecting a nulled condition of said amplified signal; gain control means connected between said null detecting means and said subject output signal amplifier means for adjusting the gain of said subject output signal amplifier means to establish said amplified difference signal at a nulled condition; lock function generator means connected to said gain control means for maintaining the gain of said subject output signal amplifier means at said adjusted value for a predetermined measurement episode; and display means connected to said summing amplifier for displaying said amplified signal.
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8. A method of measuring the impedance of a bioelectrical subject comprising the steps of
applying a high frequency excitation signal to the subject; -
receiving a subject excitation signal therefrom developed in response to said excitation signal; amplifying the subject output signal in an amplifier; comparing in a comparator the amplified subject output signal and a reference signal derived from said excitation signal; adjusting the gain of the amplifier to establish the output signal of the comparator at a level approximating a nulled condition; and maintaining the adjusted gain of the amplifier for a predetermined measurement episode to permit measurement of variations in the subject output signal.
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Specification