CN1545204A - Circuit for eliminating amplitude temperature drift of Venturi oscillator - Google Patents

Abstract

The invention provides a circuit to eliminate Venturi oscillator amplitude drift, composed of Venturi oscillator, operational amplifier circuit, first detector circuit, A/D converter and also second detector circuit. Where the second detector circuit's input end is connected with the Venturi oscillator's output end, and the second detector circuit's output end connected with the A/D converter's reference voltage input end; the Venturi oscillator's output end and the operational amplifier circuit's input end are connected with two ends of the equivalent resistor, respectively; the two detector circuits are the same circuit. The reference voltage and the measured voltage will drift in the same proportion, thus able to eliminate the temperature drift of amplitude, and the measured result can not be influenced by temperature variation, basically. It has advantages of simple method and outstanding effect.

Description

Eliminate the circuit of wen-bridge oscillator amplitude drift

Technical field

The present invention relates to the measuring-signal source, particularly a kind of circuit of eliminating the wen-bridge oscillator amplitude drift.

Background technology

Conductivity has been represented a kind of conductive capability of material, and opposite with it is resistance value.What conduct electricity can be electronics, also can be the ion in the solution.In general, what of its intermediate ion are the size of electrical conductivity of solution reflected.For example when measuring pure water water quality, available conductivity (or resistance value) is represented the purity of pure water.Conductivity more little (or resistance value is big more), conductive ion is few more in the expression water, and water is pure more.Conductivity meter is exactly a kind of instrument of measuring electrical conductivity of solution, and two metal pole pieces (being electrode) are inserted in the solution, and two ends add voltage, will produce electric current between two pole pieces.Only need measure voltage and current, just can calculate resistance between the sheet of the two poles of the earth, pass through the conductivity that certain calculation just can obtain solution according to Ohm's law.Because solution conductivity is by conductive ion rather than free electron, so, can't accurately measure the electric current of flowing through between two pole pieces if being added in voltage between two pole pieces is that the words of direct voltage can produce polarization phenomena.For avoiding polarization phenomena, the voltage that is added between two pole pieces must be AC signal, and commonly used is sine wave signal.Common sine wave signal generator is a wen-bridge oscillator.

As shown in Figure 1, sine wave signal voltage V of wen-bridge oscillator 1 output ₁Give detected solution (equivalent resistance R _x), signal voltage V ₁Be enlarged into alternating voltage V through discharge circuit A ₂, and be transformed into direct voltage V by detecting circuit 2 ₃In modulus converter A/D, direct voltage V ₃With the reference voltage V of setting _R(as setting 1v=1k Ω) compares conversion (V ₃/ V _R→ Rx), can obtain the equivalent resistance R of detected solution _XYet wen-bridge oscillator 1 is to utilize temperature coefficient bigger (about 2mV/ ℃) field effect transistor to stablize sine wave signal voltage V ₁, so corresponding direct voltage V ₃Temperature drift also bigger; And reference voltage V _RBe constant, V so ₃With V _RResult relatively can change because of variation of temperature, thereby has influenced the accuracy of measuring.At present, all be to adopt the way of temperature-compensating to solve the temperature drift problem of oscillator, the patent (application number CN01800553) that is called " method of temperature compensation type crystal oscillator and compensation temperature thereof " as the name of Japanese publication, and for example the name of U. S. application is called the patent (application number CN95191369) of " low power temperature compensated crystal oscillator ", and the name of German application is called the patent (application number CN98116732) of " the not oscillator of temperature influence ".Though also solving temperature, these ways float problem, the circuit complexity, and the production cost height, and also compensation solves not as good as eliminating thoroughly.

Summary of the invention

The present invention floats big existing technical problem in order to solve the wen-bridge oscillator temperature, and a kind of circuit that can eliminate the wen-bridge oscillator amplitude drift is provided.

According to above-mentioned purpose, the invention provides a kind of circuit of eliminating the wen-bridge oscillator amplitude drift, by wen-bridge oscillator, discharge circuit, first detecting circuit, analog to digital converter, also have second detecting circuit to form; Wherein the input of second detecting circuit is connected with the wen-bridge oscillator output, and its output is connected with the reference voltage input of analog to digital converter; Wherein wen-bridge oscillator output, discharge circuit input are connected with tested equivalent resistance two ends respectively; Wherein second detecting circuit is identical circuit with first detecting circuit.

The present invention drifts about reference voltage and the voltage that measures on year-on-year basis owing to taked above technical measures, then can eliminate the amplitude drift of wen-bridge oscillator, and measurement result can not be acted upon by temperature changes substantially.Has simple, the outstanding effect advantage of method.

Description of drawings

Fig. 1 is the existing theory diagram that utilizes the wen-bridge oscillator measuring circuit.

Fig. 2 is a measuring circuit theory diagram of the present invention.

Embodiment

As shown in Figure 2, a kind of circuit of eliminating the wen-bridge oscillator amplitude drift.By wen-bridge oscillator 1, discharge circuit A, first detecting circuit 2, modulus converter A/D, also have second detecting circuit 3 to form; The wherein input of second detecting circuit 3 and wen-bridge oscillator 1 output V ₁Connect the reference voltage input V of its output and modulus converter A/D _RConnect; Wen-bridge oscillator 1 output V wherein ₁, discharge circuit A input respectively with tested equivalent resistance R _XTwo ends connect.Second detecting circuit 3 and first detecting circuit 2 must be same circuits in the foregoing circuit.

Principle according to discharge circuit:

$V_2=\frac{V_1{R}_1}{R_X}.................................\left(1\right)$

Wherein: V ₁It is the signal voltage of wen-bridge oscillator output;

R ₁Be the multiplying power resistance of discharge circuit A;

V ₂It is the output voltage of discharge circuit A.

Can draw from formula (1): V ₂With R _XThere is certain mathematical relationship, measures V ₂Value, can directly demonstrate equivalent resistance R by data processing again _XValue or conductivity.Data processing circuit is earlier with alternating voltage V ₂Be transformed into direct voltage V through detecting circuit 2 ₃:

V ₃＝αV ₂ ………………………………………………………(2)

Wherein α is the conversion coefficient of detecting circuit.

Again in analog to digital conversion circuit A/D, with direct voltage V ₃With the reference voltage V of setting _RCompare conversion, because the multiplying power resistance R ₁, conversion coefficient α, reference voltage V _RBe fixed value, V ₁Be adjustable given value, so by measuring V ₃Can obtain tested equivalent resistance R _X

Existing conductivity meter, reference voltage V _RBe constant, then the temperature of wen-bridge oscillator 1 is floated and is made signal voltage V ₁:

′V ₁→kV ₁

The input direct voltage V of modulus converter A/D then ₃:

′V ₃→kV ₃

Then relatively change the equivalent resistance R of acquisition through modulus converter A/D _X:

′V ₃/V _R→kV ₃/V _R→kR _X

Wherein k is that the temperature of wen-bridge oscillator 1 is floated coefficient.

Thus, as can be seen when wen-bridge oscillator 1 produces k times of temperature and floats, its measured value equivalent resistance R _XK variation doubly also takes place.

Characteristics of the present invention are the signal voltage V with wen-bridge oscillator 1 output ₁, be set at reference voltage simultaneously.Be about to the second road signal voltage V ₁Second detecting circuit 3 identical through conversion coefficient is transformed into direct voltage V ₄, insert the reference voltage terminal V of modulus converter A/D again _R, substituted existing constant reference voltage V _RLike this, the temperature of wen-bridge oscillator 1 is floated and is made signal voltage V ₁:

′V ₁→kV ₁

The input direct voltage V of modulus converter A/D then ₃:

′V ₃→kV ₃

And reference voltage V _R:

′V ₄→kV _R

Then relatively change the equivalent resistance R of acquisition through modulus converter A/D _X:

′V ₃/V _R→′V ₃/′V ₄→kV ₃/kV _R→V ₃/V _R→R _X

Thus, will vary with temperature in same ratio owing to reference voltage as can be seen, so tested equivalent resistance R _XRemain unchanged, float with regard to the temperature of having offset wen-bridge oscillator 1 amplitude like this.

Claims (1)

1. a circuit of eliminating the wen-bridge oscillator amplitude drift by wen-bridge oscillator 1, discharge circuit A, first detecting circuit 2, modulus converter A/D, is characterized in that: also have second detecting circuit 3 to form; The wherein input of second detecting circuit 3 and wen-bridge oscillator 1 output V ₁Connect the reference voltage input V of its output and modulus converter A/D _RConnect; Wen-bridge oscillator 1 output V wherein ₁, discharge circuit A input respectively with tested equivalent resistance R _XTwo ends connect; Wherein second detecting circuit 3 is identical circuit with first detecting circuit 2.

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