CN204156616U - For the self-induction power-supply circuit of intelligent grid sensing device - Google Patents

Abstract

The utility model discloses a kind of self-induction power-supply circuit for intelligent grid sensing device, comprise current transformer, full-wave rectifying circuit, filter circuit, reverse cut-off circuit, storage capacitor, voltage stabilizing circuit, rear class data processing unit, magnetic linkage bypass circuit and electric voltage observation circuit, described magnetic linkage bypass circuit comprises the short-circuit power switch of impact protection circuit and two or more series connection, described current transformer output is connected with magnetic linkage bypass circuit, the source electrode of this two or more short-circuit power switch connects and the output of the grid of this two or more short-circuit power switch connection electric voltage observation circuit.The utility model all adopts analog component, cost is low, reliability is high, antijamming capability is strong, its utilize to the asymmetric control method of the folding time of two MOSFET achieve the change of primary side current great dynamic range lower reliably get can, and integral energy loss is little, and heating is less, circuit is simple, and reliability is high.

Description

For the self-induction power-supply circuit of intelligent grid sensing device

Technical field

The utility model belongs to the energy scavenging techniques of AC network side, particularly relates to a kind of self-induction power-supply circuit for intelligent grid sensing device.

Background technology

The sensing device of existing power distribution network, is all directly installed on overhead wire, can not use conventional power supply.The power taking of current transformer self-induction is adopted to be the reasonable method that this kind of device of solution is powered.On the one hand can implement device self-powered, do auto levelizer and electrical lead equipotential on the other hand, there is not Insulation Problems, conveniently to install.

But because the excursion of primary side current is larger, cause current transformer power taking to there is no small difficulty technically.Be mainly reflected in the increase along with primary side power line current, Current Transformer Secondary side electric current can considerably beyond electric current required for load, and this ensures the release of excess energy with regard to the mechanism that needs one are reliable and stable, can not produce larger heat again simultaneously.More existing domestic and international schemes are generally taked to carry out intermittent short circuit to limit the transmission of energy to late-class circuit to the output current of current transformer, but this method can cause MOSFET to generate heat seriously; Also have scheme can at rectifier bridge rear class control MOSFET shorted to earth to carry out the release of energy, it is serious that this method can cause rectifier bridge to generate heat.

Utility model content

For the deficiencies in the prior art, the purpose of this utility model is to provide a kind of safety realized when primary side current wide variation and gets energy, improves simultaneously and gets energy efficiency, reduce energy consumption, reduce caloric value, thus realize the method for the practical application of intelligent grid sensing device.

For achieving the above object, the utility model takes following technical scheme:

For the self-induction power-supply circuit of intelligent grid sensing device, comprise current transformer, full-wave rectifying circuit, filter circuit, reverse cut-off circuit, storage capacitor, voltage stabilizing circuit and rear class data processing unit, it also comprises magnetic linkage bypass circuit and electric voltage observation circuit, described magnetic linkage bypass circuit comprises the short-circuit power switch of impact protection circuit and two or more series connection, described current transformer output is connected with magnetic linkage bypass circuit, the source electrode of this two or more short-circuit power switch connects and the output of the grid of this two or more short-circuit power switch connection electric voltage observation circuit, described full-wave rectifying circuit comprises full-wave rectification bridge, the input termination current transformer output of described rectifier bridge, the input of the reverse cut-off circuit of output termination of described rectifier bridge, described filter circuit is attempted by between full-wave rectifying circuit output and ground, described reverse cut-off circuit comprises power diode, and its input connects full-wave rectifying circuit output, and its output connects storage capacitor, described storage capacitor and electric voltage observation circuit, voltage stabilizing circuit are in parallel, the output of described voltage stabilizing circuit is connected with successive load, the output of described filter circuit connects the input of electric voltage observation circuit, and the output of described electric voltage observation circuit connects the grid of short-circuit power switch.

As the further optimization of such scheme, described impact protection circuit comprises surge protection TVS pipe or piezo-resistance.

Further, described storage capacitor comprises one or more millifarad level electric capacity.

Further, described electric voltage observation circuit comprises asymmetric ON-OFF control circuit.

Further, the components and parts in described self-induction power-supply circuit all adopt analog component.

The beneficial effects of the utility model main manifestations is:

The utility model self-induction power-supply circuit realizes power line current to export certain proportion in the AC power of power line current by current transformer magnetive cord and coil windings self-induction, current transformer output connects power-supply circuit, and power-supply circuit provides direct voltage to successive load.The utility model all adopts analog component, and cost is low, and reliability is high, and antijamming capability is strong.Utilize to the asymmetric control method of the folding time of two MOSFET achieve primary side current great dynamic range change under reliably get energy.The loss of the utility model integral energy is little, and heating is few, and circuit is simple, and reliability is high, solves the inherent shortcoming that energy got by current transformer.

Accompanying drawing explanation

Fig. 1 is the circuit diagram of the utility model one embodiment.

Wherein T1 is current transformer, and D1 is impact protection circuit, and Q1, Q2 are short-circuit power switch MOS FET, D2 is full-wave rectifying circuit; C1 is filter circuit, and D3 is reverse cut-off circuit, and C2, C3 are storage capacitor; U1 is electric voltage observation circuit, and U2 is voltage stabilizing circuit, and U3 is rear class CPU processing unit.

Embodiment

Below in conjunction with accompanying drawing and preferred embodiment, the utility model is more specifically described.

As shown in Figure 1, present embodiment describes in self-induction power taking element circuit, T1 current transformer obtains electric current on the secondary winding by the electric current magnetic induction coupling flow through main power line.The electric current that secondary coil obtains, as power-supply circuit input source, realizes direct current output by relevant conversion and powers to U3 rear class CPU element.In power supply unit circuit, D1 is surge protection TVS pipe, is clamped within the scope of a particular job by the alternating voltage that current transformer exports, is not hit to protect late-class circuit.D2 is full-wave bridge rectifier diode.C1 is microfarad (uF) level filter capacitor, to reduce the voltage ripple that rectifier bridge exports.Q1, Q2 are power switch MOSFET, and Q1, Q2 gate short controls by electric voltage observation circuit.U1 is electric voltage observation circuit, realizes the dynamic monitoring to rectifier bridge D2 and filter capacitor C1 voltage, and the conducting of control Q1, Q2 and cut-off.D3, for oppositely to end diode, ensures that MOSFET is when shorted to earth, and cut-off storage capacitor C2, C3 release energy to the rectifier bridge D2 of front end and MOSFET Q1, Q2.C2, C3 are millifarad (mF) level storage capacitor, ensure that the direct voltage ripple being supplied to rear class output is smaller, and simultaneously when Q1, Q2 switch MOS FET shorted to earth, storage capacitor C2, C3 realize rear class release electric energy.U2 is voltage stabilizing circuit, and the voltage that front end or storage capacitor export is exported different direct voltage for rear class CPU processing unit U3 by voltage conversion devices such as LDO, DC/DC.

When filter capacitor C1 voltage rise is to the conducting voltage of D3, D3 conducting starts energy storage capacitor C2, C3 charging, and provides electric energy to rear class voltage stabilizing circuit simultaneously.When filter capacitor C1 magnitude of voltage reaches the minimum operating voltage of electric voltage observation circuit U1, U1 starts, and start the voltage of monitoring SEN pin, SEN pin voltage can obtain after electric resistance partial pressure; When SEN voltage is lower than presetting threshold value, OUT pin exports as low level, and Q1, Q2 turn off cut-off, and the electric energy of current transformer coupling is powered to rear class by full-wave rectifying circuit and power-supply circuit; When SEN voltage is higher than predetermined threshold value, OUT pin exports high level, Q1, Q2 conducting shorted to earth, and the electric energy of current transformer coupling is conducting to ground through Q1, Q2, and short circuit current can not flow through full-wave rectification bridge D2, and therefore rectifier bridge D2 there will not be the phenomenon of heating; Now energy storage capacitor C2, C3 starts electric discharge provides energy to rear class.Along with the release of C2, C3 energy, filter capacitor voltage progressively reduces when SEN pin voltage being met turn off the threshold voltage of Q1, Q2, and Q1, Q2 turn off again.

Along with the increase of current transformer primary side current, the current energy of current transformer coupling reaches rear class U2 CPU and normally runs required energy, when increasing current transformer primary side current again, the multiple coupled electric energy of current transformer needs to be discharged by certain circuit.

Existing partial circuit uses a MOSFET end to be connected between rectifier bridge output with ground, but this can cause rectifier bridge caloric value very large, the free internal short-circuit electric current of institute that alternating current positive negative cycle in Current Transformer Secondary side is corresponding simultaneously all can flow through single MOSFET, causes MOSFET caloric value very large.

The present embodiment two MOSFET Q1, Q2 ends are connected on rectifier bridge front end, and short circuit current can not flow through from rectifier bridge, causes rectifier bridge to generate heat.The alternating current positive and negative half period timesharing that Current Transformer Secondary side exports simultaneously alternately passes through Q1, Q2; When Q1 conducting, Q2 ends, and when Q2 conducting, Q1 ends; Such Q1, Q2 replace timesharing conducting, and during Q1 conducting, Q2 ends distribute heat, and during Q2 conducting, Q1 ends distribute heat.

The present embodiment U1 inside comprises output level response time adjustable circuit, by regulating resistance and the electric capacity of the inner response time pin termination of U1, the low and high level of U1 OUT pin can be regulated to export the response time, there is different delay (DELAY) response times monitoring point that now U1 OUT pin exports relative SEN pin, although the unlatching shutoff voltage of SEN pin is same magnitude of voltage like this, but because postpone the effect of (DELAY) response time, OUT pin can not respond switched conductive and cut-off Q1 at once, Q2, thus realize ending Q1 at every turn, during Q2, current transformer and rectifier bridge are by storage capacitor C2, C3 is disposable is full of electricity, when each conducting Q1, Q2, can ensure that the disposable electric energy by storage of storage capacitor C2, C3 discharges as much as possible for rear class CPU, thus realize conducting and the deadline of elongating Q1, Q2 as much as possible, reduce Q1, Q2 conducting and turn off frequency.Work as Q1, Q2 is when lower switches switching frequency, and the caloric value of switching tube can reduce greatly.

The winding of current transformer output is received power-supply circuit by the present embodiment, provides direct voltage by power-supply circuit to successive load.The present embodiment all adopts analog component, and cost is low, and reliability is high, and antijamming capability is strong, utilizes to achieve the asymmetric control method of the folding time of two MOSFET reliably to get energy under the change of primary side current great dynamic range.

The present embodiment comprises self-induction power taking unit, voltage stabilizing circuit unit and rear class CPU processing unit.Wherein self-induction power taking unit comprises self-induction current instrument transformer and power-supply circuit unit.

This self-induction current mutual inductor unit comprises one or more groups complete or that be separated transformer iron core, coil windings, lead-out wire and relevant fit structure part.Described power-supply circuit unit comprises full-wave rectification bridge, power switch MOSFET, surge protection single channel, filter capacitor, oppositely hold-off diode, storage capacitor, electric voltage observation circuit.Directly by the two ends shorted to earth that current transformer exports when described power short switch MOSFET opens, ensure that short circuit current directly flows through from power switch MOSFET, and without full-wave rectification bridge, to realize the little object of full-wave rectification bridge caloric value.Described power switch MOSFET replaces timesharing conducting, ensure that short circuit current replaces timesharing and flows through from two different capacity switch MOS FET, during a power switch MOSFET conducting, another power switch MOSFET ends, cooling heat dissipation, to realize the little object of MOSFET caloric value.And the voltage adaptive that electric voltage observation circuit exports according to filter capacitor is to the self-powered of electric voltage observation circuit itself.The voltage that electric voltage observation circuit dynamic monitoring filter capacitor exports, open power switch MOSFET when voltage is greater than presetting threshold value and realize Current Transformer Secondary side shorted to earth, the switch-off power switch MOS FET when voltage is less than predetermined threshold value, ensures that Current Transformer Secondary side provides energy to late-class circuit.And electric voltage observation circuit can according to different divider resistance opening time different with the control realization of output level response time and turn-off time, thus realize MOSFET and open and turn off asymmetry.Under the prerequisite ensureing late-class circuit steady operation, the time that power switch MOSFET opens and turns off is long as much as possible, thus realizes reducing power switch switch mosfet number of times as much as possible, to realize the little object of MOSFET caloric value.

The above is only preferred implementation of the present utility model; should be understood that; for those skilled in the art; under the prerequisite not departing from the utility model know-why; some improvement and distortion can also be made, these this enter and be out of shape and also should be considered as protection range of the present utility model.

Claims (5)

1. the self-induction power-supply circuit for intelligent grid sensing device, comprise current transformer, full-wave rectifying circuit, filter circuit, reverse cut-off circuit, storage capacitor, voltage stabilizing circuit and rear class data processing unit, it is characterized in that, it also comprises magnetic linkage bypass circuit and electric voltage observation circuit, described magnetic linkage bypass circuit comprises the short-circuit power switch of impact protection circuit and two or more series connection, described current transformer output is connected with magnetic linkage bypass circuit, the source electrode of this two or more short-circuit power switch connects and the output of the grid of this two or more short-circuit power switch connection electric voltage observation circuit,

Described full-wave rectifying circuit comprises full-wave rectification bridge, the input termination current transformer output of described rectifier bridge, the input of the reverse cut-off circuit of output termination of described rectifier bridge;

Described filter circuit is attempted by between full-wave rectifying circuit output and ground;

Described reverse cut-off circuit comprises power diode, and its input connects full-wave rectifying circuit output, and its output connects storage capacitor;

Described storage capacitor and electric voltage observation circuit, voltage stabilizing circuit are in parallel;

The output of described voltage stabilizing circuit is connected with successive load;

The output of described filter circuit connects the input of electric voltage observation circuit, and the output of described electric voltage observation circuit connects the grid of short-circuit power switch.

2. the self-induction power-supply circuit for intelligent grid sensing device according to claim 1, it is characterized in that, described impact protection circuit comprises surge protection TVS pipe or piezo-resistance.

3. the self-induction power-supply circuit for intelligent grid sensing device according to claim 1, is characterized in that, described storage capacitor comprises one or more millifarad level electric capacity.

4. the self-induction power-supply circuit for intelligent grid sensing device according to claim 1, it is characterized in that, described electric voltage observation circuit comprises asymmetric ON-OFF control circuit.

5. the self-induction power-supply circuit for intelligent grid sensing device according to any one of claim 1 ~ 4, is characterized in that, the components and parts in described self-induction power-supply circuit all adopt analog component.