Electronic circuit for ion sensor
First Claim
1. An electronic circuit for ion sensor, comprising:
- a bridge sensing circuit comprising an input terminal and a sensing output terminal, for sensing ion concentration of a solution, wherein the bridge sensing circuit comprises an ion sensing element, which has a reference electrode coupled to a ground, and one terminal of which coupled to the sensing output terminal for delivering the signal of ion concentration; and
a differential amplifying circuit, where a reference voltage is inputted into one input terminal of the differential amplifying circuit, while the other input terminal is coupled to the sensing output terminal of the bridge sensing circuit for delivering a differential voltage to the input terminal of the bridge sensing circuit such that the ion sensing element senses the ion concentration under the conditions of constant current and constant voltage;
wherein the bridge sensing circuit further comprises;
a first amplifier;
a first impedance element, coupled between the input terminal of the bridge sensing circuit and the positive terminal of the first amplifier;
a second impedance element, coupled between the positive terminal and the output terminal of the first amplifier;
a third impedance element, coupled to the input terminal of the bridge sensing circuit and the negative terminal of the first amplifier thereby determining the constant current;
wherein the first amplifier, the first impedance element, the second impedance element, the third impedance element, and the ion sensing element constitute a bridge network such that the ion sensing element operates under the conditions of constant drain-source voltage and constant drain current; and
wherein the ion sensing element is an ISFET, whose drain terminal is coupled to the negative terminal of the first amplifier, the source terminal is coupled to the output terminal of the first amplifier, and the reference electrode is coupled to a ground.
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Accused Products
Abstract
An ion sening circuit comprises a bridge sensing circuit and a differential amplifying circuit. The bridge sensing circuit detects the ion concentration of the solution in the operation mode of constant voltage and constant current. The differential amplifying circuit compares the output of the bridge sensing circuit and a floating reference voltage, thereby the delivered voltage to the bridge sensing circuit, such that the opeation mode of constant voltage and constant current is formed accordingly. The main features of the disclosed circuit are that it grounds the reference electrode and floats the source terminal. The drawbacks of not being manufactured with intergrated circuits by CMOS technology and low benefits when applied to sensor arrays are avoided by the disclosed circuit.
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Citations
19 Claims
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1. An electronic circuit for ion sensor, comprising:
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a bridge sensing circuit comprising an input terminal and a sensing output terminal, for sensing ion concentration of a solution, wherein the bridge sensing circuit comprises an ion sensing element, which has a reference electrode coupled to a ground, and one terminal of which coupled to the sensing output terminal for delivering the signal of ion concentration; and
a differential amplifying circuit, where a reference voltage is inputted into one input terminal of the differential amplifying circuit, while the other input terminal is coupled to the sensing output terminal of the bridge sensing circuit for delivering a differential voltage to the input terminal of the bridge sensing circuit such that the ion sensing element senses the ion concentration under the conditions of constant current and constant voltage;
wherein the bridge sensing circuit further comprises;
a first amplifier;
a first impedance element, coupled between the input terminal of the bridge sensing circuit and the positive terminal of the first amplifier;
a second impedance element, coupled between the positive terminal and the output terminal of the first amplifier;
a third impedance element, coupled to the input terminal of the bridge sensing circuit and the negative terminal of the first amplifier thereby determining the constant current;
wherein the first amplifier, the first impedance element, the second impedance element, the third impedance element, and the ion sensing element constitute a bridge network such that the ion sensing element operates under the conditions of constant drain-source voltage and constant drain current; and
wherein the ion sensing element is an ISFET, whose drain terminal is coupled to the negative terminal of the first amplifier, the source terminal is coupled to the output terminal of the first amplifier, and the reference electrode is coupled to a ground. - View Dependent Claims (2, 3, 4)
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5. An electronic circuit for ion sensor, comprising:
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a bridge sensing circuit which has an input terminal and a sensing output terminal, for sensing ion concentration of a solution, wherein the bridge sensing circuit comprises an ion sensing element, which has a reference electrode coupled to a ground, and one terminal of which coupled to the sensing output terminal for delivering the ion concentration;
a voltage generating circuit for generating a constant voltage according to a negative voltage source;
a follower type impedance converter circuit for amplifying the constant voltage as a reference voltage;
a differential amplifying circuit, the reference voltage being inputted into one input terminal of which circuit, the other input terminal being coupled to the sensing output terminal of the bridge sensing circuit for delivering a differential voltage to the input terminal of the bridge sensing circuit such that the ion sensing element senses the ion concentration under the conditions of constant drain current and constant drain-source voltage;
wherein the bridge sensing circuit further comprises;
a first amplifier;
a first impedance element, coupled between the input terminal of the bridge sensing circuit and the positive terminal of the first amplifier;
a second impedance element, coupled between the positive terminal and the output terminal of the first amplifier;
a third impedance element, coupled to the input terminal of the bridge sensing circuit and the negative terminal of the first amplifier thereby determining the constant current;
wherein the first amplifier, the first impedance element, the second impedance element, the third impedance element, and the ion sensing element constitute a bridge network such that the ion sensing element operates under the conditions of constant voltage and constant current;
wherein the ion sensing element is an ion-sensitive field effect transistor, whose drain terminal is coupled to the negative terminal of the first amplifier, the source terminal is coupled to the output terminal of the first amplifier, and the reference electrode is coupled to a around. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. An electronic circuit for ion sensor, comprising:
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a bridge sensing circuit which has an input terminal and a sensing output terminal, for sensing ion concentration of a solution, wherein the bridge sensing circuit comprises an ion sensing element, which has a reference electrode coupled to a ground, and one terminal of which coupled to the sensing output terminal for delivering the ion concentration;
a voltage generating circuit for generating a constant voltage according to a negative voltage source;
a follower type impedance converter circuit for amplifying the constant voltage as a reference voltage;
a differential amplifying circuit, the reference voltage being inputted into one input terminal of which circuit, the other input terminal being coupled to the sensing output terminal of the bridge sensing circuit for delivering a differential voltage to the input terminal of the bridge sensing circuit such that the ion sensing element senses the ion concentration under the conditions of constant drain current and constant drain-source voltage;
wherein the voltage generating circuit comprises a Zener diode, whose N electrode is coupled to the ground, and P electrode is coupled to the negative voltage source. - View Dependent Claims (19)
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Specification