Capacitive liquid level sensor for automatic chemical analyzer
First Claim
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1. A capacitive liquid level sensor for an automatic chemical analyzer, comprising:
- pipetting tube means for approaching a liquid level of a sample to suck the sample;
an electrical bridge network including four impednace elements and four terminals, a first of the four terminals being electrically connected to said pipetting tube means by a sensing cable;
a compensating cable extending from another terminal of said bridge network to said pipetting tube means along the sensing cable, one end of said compensating cable being eletrically connected to said another terminal and the other end being electrically open-circuited for cancelling capacitance between said pipetting tube means and said network bridge means, detected by said pipetting tube means;
an A.C. source for supplying an A.C. current to said electrical bridge network to enable detecting a change of capacitance corresponding to a distance between the pipetting tube means and the liquid level;
phase detector means for producing a D.C. output signal representative of a difference in phase between the A.C. current and an A.C. output signal provided from said electrical bridge network; and
comparing means for comparing the D.C. output signal provided from said phase detector means with a preselected reference level to determine whether or not said pipetting tube means has reached the liquid level.
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Abstract
A capacitive liquid level sensor for an automatic chemical analyzer, wherein a pipetting tube approaches a liquid level of the sample to be analyzed and is electrically connected to one terminal of an electrical bridge network. The electrical bridge network is activated by an A.C. current and produces an A.C. signal which has a phase change produced by a change in capacitance between the pipetting tube and the liquid level as the pipetting tube approaches the liquid level. The A.C. signal is converted into a D.C. signal proportional to the phase difference by means of a phase detector. A liquid level is detected by comparison of the D.C. signal with a preselected reference level.
117 Citations
5 Claims
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1. A capacitive liquid level sensor for an automatic chemical analyzer, comprising:
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pipetting tube means for approaching a liquid level of a sample to suck the sample; an electrical bridge network including four impednace elements and four terminals, a first of the four terminals being electrically connected to said pipetting tube means by a sensing cable; a compensating cable extending from another terminal of said bridge network to said pipetting tube means along the sensing cable, one end of said compensating cable being eletrically connected to said another terminal and the other end being electrically open-circuited for cancelling capacitance between said pipetting tube means and said network bridge means, detected by said pipetting tube means; an A.C. source for supplying an A.C. current to said electrical bridge network to enable detecting a change of capacitance corresponding to a distance between the pipetting tube means and the liquid level; phase detector means for producing a D.C. output signal representative of a difference in phase between the A.C. current and an A.C. output signal provided from said electrical bridge network; and comparing means for comparing the D.C. output signal provided from said phase detector means with a preselected reference level to determine whether or not said pipetting tube means has reached the liquid level. - View Dependent Claims (2, 3)
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4. A capacitive liquid level sensor for an automatic chemical analyzer, comprising:
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a pipetting tube which holds a sample sucked from a sample container after being moved to a predetermined position at a distance from the sample container an electrical bridge network including four impedance elements and four terminals, one of the four terminals being electrically connected to said pipetting tube by a sensing cable; a compensating cable extending from another terminal of said bridge network to said pipetting tube along the sensing cable, one end of said compensating cable being electrically connected to said another terminal and the other end being electrically open-circuited for cancelling capacitance between said pipetting tube and said network bridge means, detected by said pipetting tube; an A.C. source for supplying an A.C. current to said electrical bridge network to enable detecting a capacitance caused by the sucked sample in said pipetting tube; phase detector means for producing a D.C. output signal representative of a difference in phase between the A.C. current and an A.C. output signal provided from said electrical bridge network; and comparing means for comparing the D.C. output signal provided from said phase detector means with a D.C. level preivously obtained with a known material within said pipetting tube when said pipetting tube is located at said predetermined position. - View Dependent Claims (5)
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Specification
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Current AssigneeKabushiki Kaisha Toshiba (Toshiba Corporation)
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Original AssigneeKabushiki Kaisha Toshiba (Toshiba Corporation)
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InventorsShimizu, Yoshiaki
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Primary Examiner(s)Marcus, Michael S.
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Application NumberUS07/028,705Time in Patent Office746 DaysField of Search73/863.01, 73/863.02, 73/864.24, 422/100, 422/67, 422/63, 436/49, 436/180, 324/61 RUS Class Current422/509CPC Class CodesG01F 23/263 by measuring variations in ...G01N 2035/1006 Rinsing only the inside of ...G01N 2035/1025 Fluid level sensingG01N 35/1009 Characterised by arrangemen...
