CN202002964U - Detection circuit for power grid power failures - Google Patents

Abstract

The utility model discloses a detection circuit for power grid power failures, which comprises an alternating current detection circuit and a control circuit, wherein an input end of the alternating current detection circuit responds to alternating current. The alternating current detection circuit is used for generating pulse signals which have a cycle relative to a cycle of the alternating current. The control circuit detects the pulse signals outputted by the alternating current detection circuit and is used for outputting a first control signal or a second control signal according to quantity of the pulse signals within a predetermined time or time intervals of adjacent pulse signals. The detection circuit for power grid power failures utilizes a character that mains supply is periodic alternating current, and realizes generating control signals within an extremely short time after a power down of the alternating current (AC) to control other circuits which need to be controlled through a few electronic components, simple circuits and micro control unit (MCU) intelligent judgments. The detection circuit for power grid power failures has the advantages of being simple in circuit and fast in responding speed, thereby facilitating the improvements of performances of uninterrupted power supply electronic equipment or AC power down control equipment.

Description

Electric network power-fail detection circuit

Technical field

The utility model relates to a kind of electric network power-fail detection circuit, is used to detect whether power down of civil power, so that control standby power supply work in time or other circuit carry out corresponding actions when the civil power power down.

Background technology

The world today, it is numeral, the epoch of electronic information blast, along with programme-controlled exchange, intelligent monitor system, the extensive utilization of long-term unattended duty work system etc., strengthened the demand of uninterrupted power source, increased the demand of power-supply management system, the quality of AC civil power detection of power loss performance in power-supply management system, directly influence the quality of uninterrupted power source performance, at present, city's electro-detection in the power-supply management system of common uninterrupted power source on the market is to rectifying and wave-filtering after the step-down of civil power elder generation mostly, produces a stable DC voltage as detection signal, its shortcoming is that this detection signal makes its response speed slow because of the existence that tank circuit is arranged in the circuit, the circuit cost height.

The utility model content

Fundamental purpose of the present utility model is in order to solve slow, the high problem of circuit cost of response speed in the above-mentioned city electro-detection, a kind of electric network power-fail detection circuit is proposed, do not need tank circuit, by minority electrons components and parts and simple circuit, realized the civil power detection of power loss, improved the circuit response speed, and circuit cost is low.

For achieving the above object, the utility model provides a kind of electric network power-fail detection circuit, comprise: the alternating current testing circuit and the control circuit of input end response alternating current, described alternating current testing circuit is used to the pulse signal that the cycle of producing and ac period T have certain funtcional relationship, described control circuit detects the pulse signal of alternating current testing circuit output, is used for according to exporting first control signal or second control signal interval time of the quantity of the pulse signal in the setting-up time or adjacent pulse signal.

A kind of preferred implementation of described alternating current testing circuit is rectification circuit and the pulsing circuit that comprises input end response alternating current, and the output signal of described pulsing circuit response rectification circuit produces the pulse signal identical with the output waveform cycle of rectification circuit.

Described pulsing circuit is preferably the light lotus root, the diode side response rectification circuit ground output signal of described smooth lotus root, and the phototriode side is coupled to control circuit and direct supply respectively.

Further improvement of the utility model is: also comprise the adjustment circuit that is used for the output waveform of rectification circuit is carried out the flat-top adjustment, described adjustment circuit is connected between rectification circuit and the pulsing circuit.

Described adjustment circuit is preferably voltage stabilizing diode, and the negative electrode of described voltage stabilizing diode connects the positive output end of rectification circuit, and anode is coupled to an input end of pulsing circuit, and another input end of described pulsing circuit is coupled to the negative output terminal of rectification circuit.

Described rectification circuit is preferably full-wave rectifying circuit, described control circuit is used to detect the quantity of the pulse signal in the 0.5T time, and in the quantity that detects two pulse signals of 0.5T in the time more than or equal to 2 o'clock output expression electrical networks, first control signal of power down not, in the quantity of the detected pulse signal of 0.5T in the time second control signal less than 2 o'clock output expression electric network power-fails.

The beneficial effects of the utility model: the utility model becomes the pulse signal of certain funtcional relationship by the cycle of producing with ac period, and with the trigger pip of this pulse signal as control circuit output control signal, has realized the electric network power-fail detection.Compare with existing electric network power-fail detection scheme, do not need filtering circuit in the testing circuit of the present utility model, so also can not need energy-storage travelling wave tube, so do not have time-delay, so its detected pulse signal and civil power are synchronous, civil power one powers on, pulse signal occurs at once, the civil power power down, pulse signal disappears at once, does not have time-delay; When the control circuit intelligent decision, the time that control circuit detects twice look-at-me is 0.5T, if during this period of time, can doublely detect look-at-me, the control delivery outlet is exported first control signal and is given other circuit, if during this period of time detect less than twice look-at-me, then export second control signal and give other circuit, so, when the civil power power down, control circuit can allow the control delivery outlet export second control signal in the 0.5T time, promptly the fastest response time of this power-fail detection circuit is 0.5T, it is 0.5*0.02=0.01 second, compare and improved response speed with prior art (energy storage device in response speed of the prior art and the testing circuit is relevant, adopts the response speed in a kind of testing circuit of prior art to be about 0.2 second), help the uninterrupted power supply electronic equipment or with the lifting of AC power down opertaing device performance, and circuit is simple, has lowered circuit cost.

Description of drawings

Fig. 1 is the circuit theory synoptic diagram of the utility model embodiment;

Fig. 2 is the waveform synoptic diagram of civil power;

Fig. 3 is the waveform synoptic diagram after the shaping of the utility model embodiment;

Fig. 4 is the waveform synoptic diagram of the optocoupler output of the utility model embodiment;

Fig. 5 is the circuit theory synoptic diagram of rectification circuit among the utility model embodiment.

Embodiment

Below in conjunction with accompanying drawing the utility model is described in further detail.

It is these characteristics of periodicity alternating current that the utility model utilizes civil power, produce the pulse signal that cycle and ac period have certain funtcional relationship by the alternating current testing circuit, for example the cycle of pulse signal equals half of ac period or the cycle of pulse signal equals ac period, and with the external interrupt trigger pip of this pulse signal as control circuit, make the output level upset of control circuit, carry out corresponding actions thereby control other circuit that will control.

As shown in Figure 1, the utility model embodiment comprises alternating current testing circuit 1 and control circuit 2.Alternating current testing circuit 1 comprises rectification circuit D1, adjusts circuit and pulsing circuit.Adjusting circuit is stabilivolt D2, pulsing circuit is light lotus root U1, control circuit comprises microcontroller (MCU) U2 and peripheral circuit thereof, and preferably full-wave rectification of rectification circuit D1 can realize full-wave rectification by diode, preferred rectification circuit is a bridge rectifier circuit, as shown in Figure 5, do not contain energy-storage travelling wave tube in this rectification circuit, comprise four diodes, if do not consider the stray capacitance of diode, AC signal there is not time-delay substantially.The input end incoming transport of rectification circuit D1, output plus terminal connects the negative electrode of stabilivolt D2 by the resistance R 1 of serial connection, the anode of stabilivolt D2 connects the anode of the light emitting diode side of light lotus root U1, the negative electrode of light emitting diode side connects the output negative terminal of rectification circuit, and two pins of the triode side of light lotus root U1 connect the pin of microcontroller U2 respectively.

As Fig. 2, Fig. 3 and shown in Figure 4, the cycle of alternating current is T, after rectification circuit D1 shaping, become direct current, cycle is 0.5T, when galvanic voltage during greater than the clamping voltage of stabilivolt D2, and stabilivolt D2 conducting, with voltage clamp in certain voltage, and make light lotus root U1 conducting, and export a pulse signal, the cycle also is 0.5T.Because of stabilivolt D2 has carried out the adjustment of flat-topization to voltage, even the upper end of voltage waveform is to have certain waveform of constant voltage values relatively, so what export after the light lotus root U1 conducting is that a upper end has certain pulse signal of constant voltage values relatively.This pulse signal is input to the P15 pin of MCU U2, and MCU U2 as the external interrupt trigger pip, judges this pulse signal by the P15 pin.When the civil power existence, when external interrupt signal existed, MCU exported a high level signal by another I/O mouth; When civil power does not exist, when external interrupt signal did not have, MCU exported a low level signal.When the civil power power down, trigger pip does not disappear because of civil power does not exist immediately.MCU is at 0.5T output low level signal in the time, thereby reaches the purpose of fast detecting AC power down.The time that MCU detects twice look-at-me is 0.5T, T is the cycle of alternating current, a kind of method that MCU detects power down is: in the time of 0.5T, if can doublely detect look-at-me, then control delivery outlet output high level, if the number of times that detects look-at-me in the time at 0.5T is less than twice, MCU output low level then.The another kind of method that MCU detects power down is: detects the interval time of adjacent two look-at-mes, judges whether equal 0.5T this interval time then,, then control delivery outlet output high level if equal, if greater than 0.5T, and MCU output low level then.So when the civil power power down, MCU can allow in the 0.5T time and control the delivery outlet output low level, promptly the fastest response time of this power-fail detection circuit is 0.5T.But in order to prevent the erroneous judgement of power down, can increase time or pulse number that power down is judged, this is because of situation, circuit requirements decision.

When rectification circuit is half-wave rectification, the response speed of power-fail detection circuit descends, the time that detects twice look-at-me because of MCU is T, if T in the time period MCU can doublely detect look-at-me, then control delivery outlet output high level, if the number of times that detects look-at-me in the time at T is less than twice, MCU output low level then.

In the above-mentioned embodiment, can also make the light lotus root be directly connected to the output terminal of rectification circuit, such shortcoming is that the pulse signal that the light lotus root provides may be a pulse signal that has spine, makes the MCU erroneous judgement easily.

In the above-mentioned embodiment, stabilivolt and light lotus root can also substitute with other device according to those skilled in the art's general knowledge.

In embodiment, in order to save power supply, the power supply of light lotus root adopts provides 5V voltage to MCU, by setting the resistance of resistance R 3, can make the amplitude of the pulse signal of optocoupler output is the supply voltage Vo of MCU, makes pulse signal meet the voltage magnitude requirement of MCU.

As shown in Figure 1, the peripheral circuit of MCU comprises four resistance R 2, R3, R4, R5 and a capacitor C 1, and the resistance R 3 that is connected with the OUT terminal is in order to protect MCU.If external circuit breaks down, be unlikely to burn out MCU.Resistance R 4 and capacitor C 1 are to play MCU from resetting effect.MCU power on or the situation of power down under, can automatically reset.

In sum, the utility model discloses a kind of novel power grid power-fail detection circuit, utilizing civil power is these characteristics of periodicity alternating current.By simple circuit and MCU Intelligent Measurement, can judge electric network power-fail accurately, rapidly, thereby promote, improve programme-controlled exchange greatly, performances such as intelligent monitor system, long-term unattended duty work system.

The above only is a preferred implementation of the present utility model, and protection domain of the present utility model is not limited in above-mentioned embodiment, and every technical scheme that belongs to the utility model principle all belongs to protection domain of the present utility model.For a person skilled in the art, some improvements and modifications of under the prerequisite that does not break away from principle of the present utility model, carrying out, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (10)

1. electric network power-fail detection circuit, it is characterized in that: the alternating current testing circuit and the control circuit that comprise input end response alternating current, described alternating current testing circuit is used to the pulse signal that the cycle of producing and ac period have funtcional relationship, and described control circuit detects the pulse signal of alternating current testing circuit output and according to exporting first control signal or second control signal interval time of the quantity of the pulse signal in the setting-up time or adjacent pulse signal.

2. electric network power-fail detection circuit as claimed in claim 1, it is characterized in that: described alternating current testing circuit comprises the rectification circuit and the pulsing circuit of input end response alternating current, the output signal of described pulsing circuit response rectification circuit produces the pulse signal identical with the output waveform cycle of rectification circuit.

3. electric network power-fail detection circuit as claimed in claim 2 is characterized in that: described pulsing circuit is the light lotus root, the output signal of the diode side response rectification circuit of described smooth lotus root, and the phototriode side is coupled to control circuit and direct supply respectively.

4. as claim 2 or 3 described electric network power-fail detection circuits, it is characterized in that: it also comprises the adjustment circuit that is used for the output waveform of rectification circuit is carried out the flat-top adjustment, and described adjustment circuit is connected between rectification circuit and the pulsing circuit.

5. electric network power-fail detection circuit as claimed in claim 4, it is characterized in that: described adjustment circuit is a voltage stabilizing diode, the negative electrode of described voltage stabilizing diode connects the positive output end of rectification circuit, anode is coupled to an input end of pulsing circuit, and another input end of described pulsing circuit is coupled to the negative output terminal of rectification circuit.

6. electric network power-fail detection circuit as claimed in claim 5, it is characterized in that: described rectification circuit is a full-wave rectifying circuit, described control circuit is used to detect the quantity of the pulse signal in the 0.5T time, and not first control signal of power down of electrical network is represented in output when 0.5T detects two pulse signals in the time, quantity at 0.5T detected pulse signal in the time was exported second control signal of representing electric network power-fail less than 2 o'clock, and described T is the cycle of alternating current.

7. as claim 2 or 3 described electric network power-fail detection circuits, it is characterized in that: described rectification circuit is a full-wave rectifying circuit, described control circuit is used to detect the quantity of the pulse signal in the 0.5T time, and not first control signal of power down of electrical network is represented in output when 0.5T detects two pulse signals in the time, quantity at 0.5T detected pulse signal in the time was exported second control signal of representing electric network power-fail less than 2 o'clock, and described T is the cycle of alternating current.

8. electric network power-fail detection circuit as claimed in claim 6 is characterized in that: described rectification circuit is a bridge rectifier circuit.

9. electric network power-fail detection circuit as claimed in claim 7 is characterized in that: described rectification circuit is a bridge rectifier circuit.

10. electric network power-fail detection circuit as claimed in claim 5 is characterized in that: described control circuit comprises microcontroller and peripheral circuit thereof.

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