CN102636684A

CN102636684A - Alternating voltage peak moment detection circuit

Info

Publication number: CN102636684A
Application number: CN2012101228660A
Authority: CN
Inventors: 彭明鸿; 马春水
Original assignee: ANHUI LUCK ELECTRIC TECHNOLOGY Co Ltd
Current assignee: ANHUI LUCK ELECTRIC TECHNOLOGY Co Ltd
Priority date: 2012-04-24
Filing date: 2012-04-24
Publication date: 2012-08-15

Abstract

The invention discloses an alternating voltage peak moment detection circuit, comprising a voltage reducing circuit, a rectification circuit, an adder circuit and a comparator circuit, wherein the voltage reducing circuit comprises a resistor R1 and a resistor R2; the rectification circuit comprises a diode D1 and a capacitor C1; the adder circuit comprises resistors R3-R8 and an operational amplifier U1B; and the comparator circuit comprises an operational amplifier U1A, an inverted input terminal of the operational amplifier U1A is connected with an output terminal of the operational amplifier U1B, and a non-inverted input terminal of the operational amplifier U1A is connected with a common terminal between the resistor R1 and the resistor R2. The alternating voltage peak moment detection circuit disclosed by the invention has the advantages of simplifying a circuit structure, reducing circuit cost, requiring no combination of software and the like.

Description

Alternating voltage peak is testing circuit constantly

Technical field

The present invention relates to a kind of alternating voltage peak testing circuit constantly.

Background technology

For the peak value detection constantly of alternating voltage, conventional method is, is industry or civilian AC voltage conversion small voltage through voltage transformer (VT) at present; The low-pass filter circuit of forming through operational amplifier then after the filtering high frequency noise signal, is delivered to the analog digital sample circuit; Digital signal after obtaining to sample; By MCU digital signal being compared computing then, when obtaining maximum sampled value this moment, is exactly the needed alternating voltage peak moment.The alternating voltage peak of this routine weakness of detection method constantly is: complicated circuit, cost is high, needs software and hardware to cooperate.

Summary of the invention

The present invention is the weak point that exists in the above-mentioned prior art for avoiding, and a kind of alternating voltage peak testing circuit constantly is provided, to simplify circuit structure, to reduce circuit cost.

The present invention adopts following technical scheme for the technical solution problem.

Alternating voltage peak is testing circuit constantly, and its design feature is to comprise reduction voltage circuit, rectification circuit, adder circuit and comparator circuit;

Said reduction voltage circuit comprises resistance R 1 and resistance R 2; Said resistance R 1 is in series afterwards with resistance R 2, and two ends are connected with the two ends of socket;

Said rectification circuit comprises diode D1 and capacitor C 1; The end of said diode D1 is connected on the common port between said resistance R 1 and the resistance R 2, and the other end of said diode D1 is connected on the link of resistance R 2 and socket through capacitor C 1;

Adder circuit comprises resistance R 3～R8, operational amplifier U1B; The end of said R3 is connected between diode D1 and the capacitor C 1, and the other end of said R3 is connected on the in-phase input end of operational amplifier U1B; One end of said resistance R 4 is connected on the operational amplifier U1B in-phase input end, and said resistance R 4 other ends are connected on the power supply VCC through resistance R 6; One end of said resistance R 5 is connected between resistance R 4 and the resistance R 6, and the other end of said resistance R 5 is connected on the earth point; One end of said resistance R 7 is connected on the inverting input of operational amplifier U1B, and the other end of resistance R 7 is connected on the output terminal of operational amplifier U1B; One end of said resistance R 8 is connected on the inverting input of operational amplifier U1B, and the other end of resistance R 8 is connected on the earth point;

Said comparator circuit comprises operational amplifier U1A, and on the output terminal of the inverting input of said operational amplifier U1A and said operational amplifier U1B, the in-phase input end of said operational amplifier U1A is connected on the common port between resistance R 1 and the resistance R 2.

The alternating voltage peak of the present invention design feature of testing circuit constantly also is:

Said resistance R 5 is a variohm.

Compared with present technology, beneficial effect of the present invention is embodied in:

Testing circuit of the present invention comprises reduction voltage circuit, rectification circuit, adder circuit and comparator circuit, and its circuit form is simple, is the ingenious combination of custom circuit form; Circuit cost is low, and element all is that the most conventional Resistor-Capacitor Unit and universal element calculated amplifier; Circuit is a pure hardware circuit, need not software and cooperates, and saves the development time; Adopt adder circuit that Output Voltage in Rectified Circuits is carried out voltage compensation and can obtain more magnitude of voltage, thereby obtain accurate more alternating voltage peak pulse constantly output near alternating voltage peak.

Alternating voltage peak of the present invention is testing circuit constantly, has can simplify circuit structure, reduce circuit cost and need not advantage such as software cooperation.

Description of drawings

Fig. 1 is the alternating voltage peak of the present invention circuit structure diagram of testing circuit constantly.

Below pass through embodiment, and combine accompanying drawing that the present invention is described further.

Embodiment

Referring to Fig. 1, alternating voltage peak is testing circuit constantly, comprises reduction voltage circuit, rectification circuit, adder circuit and comparator circuit;

Said reduction voltage circuit comprises resistance R 1 and resistance R 2; Said resistance R 1 is in series afterwards with resistance R 2, and two ends are connected with the two ends of socket; One end of said resistance R 1 is connected with a last terminal of AC outlet, and the other end of resistance R 1 is connected with an end of resistance R 2, and the other end of resistance R 2 is connected with the next terminal of AC outlet, and the second terminal ground connection of AC outlet is connected;

Said rectification circuit comprises diode D1 and capacitor C 1; The end of said diode D1 is connected on the common port between said resistance R 1 and the resistance R 2, and the other end of said diode D1 is connected on the link of resistance R 2 and socket through capacitor C 1; After diode D1 and capacitor C 1 series connection, two ends are connected on the two ends of resistance R 2; Because resistance R 1 plays the dividing potential drop effect with R2, the voltage that is added on the rectification circuit is consistent with the voltage at R2 two ends;

AC power one termination circuit ground level is received on the alternating voltage to be detected in the R1 of reduction voltage circuit, upper end, R2 series connection back through ac voltage socket J1.The upper end alternating voltage V0 of ac voltage socket J1, lower end ground connection.The effect of reduction voltage circuit is that step-down becomes a small voltage signal industry or civilian alternating voltage.

Terminate on the points of common connection between resistance R 1 and the R2 C1 lower end ground connection on the diode D1 of rectification circuit.The effect of rectification circuit is the maximal value that from AC signal, obtains AC signal voltage through rectification.The voltage of exporting on the points of common connection between resistance R 1 and the R2 is V1, and the output voltage of the common point between diode D1 and the C1 is V2.

Adder circuit is made up of R3, R4, R5, R6, R7, R8 and operational amplifier U1B.R5 and R6 carry out dividing potential drop to direct supply voltage VCC, obtain voltage V3.The output V2 process resistance R 3 of voltage V3 process resistance R 4, rectification circuit is added to the in-phase input end of operational amplifier, and R7 and R8 are the amplifier feedback resistance.The effect of adder circuit is Output Voltage in Rectified Circuits and a fixedly DC voltage addition, rectification output that the pressure drop of diode causes in the compensation rectification circuit and the pressure reduction between the alternating voltage maximal value.

Comparator circuit is made up of general-purpose operation amplifier U1A.The operational amplifier U1B output V4 of adder circuit is connected to the in-phase input end of general-purpose operation amplifier, and the output V1 of bleeder circuit is connected to the inverting input of operational amplifier U1A.The effect of comparator circuit is that the instantaneous value of alternating voltage and alternating voltage peak-peak are made comparisons, and when alternating voltage is in the peak value moment, obtains a pulse energizing signal, thereby obtains peak values of ac signal constantly.

Said resistance R 5 is a variohm.

Referring to Fig. 1, alternating voltage V0 among the present invention through R1 and the step-down of R2 resistance, obtains a less alternating voltage V1, and R1 and R2 value need be guaranteed the V1 peak value less than the amplifier U1A in the circuit, the direct-current working volts VCC of U1B.D1, C1 carries out rectification to alternating voltage V1, obtains a DC voltage V2, V2=V1_max-0.6V, wherein V1_max is the peak value of alternating voltage V1,0.6V is the tube voltage drop of diode.R3, R4, R5, R6, R7, R8 and operational amplifier U1B form adder circuit, and the output V2 of rectification circuit is carried out voltage compensation.Wherein R5 and R6 obtain DC voltage V3 to WV VCC dividing potential drop, carry out additive operation and obtain output voltage V 4 through operational amplifier U1B and the R3～totalizer of R8 composition.V4＝V3+V2＝V3+V1_max-0.6V。Adjustment resistance R 5 can make V3 less than and as far as possible near 0.6V, like this, can make V4 less than and very near alternating voltage peak V1_max.Resistance R 3=R4 wherein, R7=R8.

Amplifier U1A forms comparer, compares to the instantaneous value of alternating voltage V1 with through the alternating voltage maximal value V4 of over-compensation, as alternating voltage instantaneous value V1; In the time of less than alternating voltage maximal value V4; The comparer output low level, when alternating voltage instantaneous value V1 is in peak value constantly the time, comparator toggles is a high level; Obtain the moment high level pulse of a time point, thereby detect alternating voltage peak constantly corresponding to alternating voltage peak.

Because adjustment resistance R 5 can make the instantaneous value of alternating voltage maximal value V4 and alternating voltage V1 very approaching, so this circuit can obtain point-device alternating current peak value pulse constantly output.

Claims

1. alternating voltage peak moment testing circuit is characterized in that, comprises circuit such as reduction voltage circuit, rectification circuit, adder circuit and comparator circuit;

Said rectification circuit comprises diode D1 and capacitor C 1; The end of said diode D1 is connected on the common port between said resistance R 1 and the resistance R 2, and the other end of said diode D1 is connected on the link of resistance R 2 and socket through capacitor C 1.

Said adder circuit comprises devices such as resistance R 3～R8, operational amplifier U1B; The end of said R3 is connected between diode D1 and the capacitor C 1, and the other end of said R3 is connected on the in-phase input end of operational amplifier U1B; One end of said resistance R 4 is connected on the operational amplifier U1B in-phase input end, and said resistance R 4 other ends are connected on the power supply VCC through resistance R 6; One end of said resistance R 5 is connected between resistance R 4 and the resistance R 6, and the other end of said resistance R 5 is connected on the earth point; One end of said resistance R 7 is connected on the inverting input of operational amplifier U1B, and the other end of resistance R 7 is connected on the output terminal of operational amplifier U1B; One end of said resistance R 8 is connected on the inverting input of operational amplifier U1B, and the other end of resistance R 8 is connected on the earth point;

2. alternating voltage peak according to claim 1 is testing circuit constantly, and said resistance R 5 can be variohm.