CN207398910U - Solar panel charge-discharge control circuit - Google Patents

Abstract

Solar panel charge-discharge control circuit, including solar energy A plates, solar energy B plates, control module, 1 ~ n control road is set in control module, each odd number road and each even number road form one group of charging and discharging circuit, solar energy A plates, solar energy B plates are mutually contacted, solar energy A plates, discharge circuit is set between solar energy B plates, discharge circuit is connected in parallel the collector of triode V1 and triode V2, triode V1 and triode V2 emitters connect an odd number road and an even number road respectively, capacitance C1 is connected in parallel between solar energy A plates and discharge circuit, capacitance C2 is connected in parallel between solar energy B plates and discharge circuit, load is provided on discharge circuit.The utility model circuit structure is simple, it can be achieved that cycle charge-discharge, electric energy is provided to load.

Description

Solar panel charge-discharge control circuit

Technical field

The utility model is related to a kind of solar cell charging-discharging controllers.

Background technology

Existing solar cell charging-discharging controller shortcoming is that stability is poor, charging transfer efficiency is low, reliability Difference, integrated level are low, anti-interference weak, intelligent low with the degree of automation, and start for a long time has used component overheat, power consumption greatly Damage, function are single.

Traditional solar panel, many due to loading, solar panel is unable to maintain that load long-play, needs In addition accumulator to be set to carry out electric power storage, is had much room for improvement.

Utility model content

The utility model in view of the deficiencies of the prior art, provide it is a kind of simple in structure, it can be achieved that for a long time to load supplying, Without separately setting accumulator, the solar panel charge-discharge control circuit of cycle charge-discharge is realized.

To realize the utility model aim, following technical scheme is provided：Solar panel charge-discharge control circuit, It is characterized by comprising solar energy A plates, solar energy B plates, 1 ~ n control road is set, each is strange in control module, control module Number roads and each even number road form one group of charging and discharging circuit, and solar energy A plates, solar energy B plates mutually contact, solar energy A plates, too Positive to set discharge circuit between B plates, discharge circuit is connected in parallel the collector of triode V1 and triode V2, triode V1 and three Pole pipe V2 emitters connect an odd number road and an even number road respectively, capacitance C1 are connected in parallel between solar energy A plates and discharge circuit, too It is positive to be connected in parallel capacitance C2 between B plates and discharge circuit, load is provided on discharge circuit.

Preferably, load is resistance.

Preferably, when solar energy A, B plate is subject to illumination, electric current is generated, while to C1, C2 capacitances charge, and control mould One odd number road of block exports control signal, and V1 conductings, electric current is from solar energy A plates+pole and C1+ poles, by loading to triode V1 collectors are formed into a loop electric discharge to emitter to C1 and solar energy A plate cathode；When one even number road of control module exports control letter Number, V2 conductings, electric current from solar energy B plates and C2 anodes, through load to the collector of triode V2 to emitter to C2 with Solar energy B plate cathode, forming circuit electric discharge；As triode V2, when C2 and solar energy B plates discharge, solar energy A plates charge to C1； As triode V1, when C1 and solar energy B plates discharge, solar energy B plates charge to C2；In cycles, cycle charge-discharge is carried to load For electric energy.

The utility model advantageous effect：The utility model circuit structure is simple, it can be achieved that cycle charge-discharge, provides to load Electric energy.

Description of the drawings

Fig. 1 is the structure diagram of the utility model.

Specific embodiment

Embodiment 1：Solar panel charge-discharge control circuit, including solar energy A plates, solar energy B plates, control module, 1 ~ 12 control road is set in control module, each odd number road and each even number road form one group of charging and discharging circuit, the sun Energy A plates, solar energy B plates are mutually contacted, and set discharge circuit between solar energy A plates, solar energy B plates, discharge circuit is connected in parallel three The collector of pole pipe V1 and triode V2, triode V1 and triode V2 emitters connect an odd number road and an even number road respectively, Capacitance C1 is connected in parallel between solar energy A plates and discharge circuit, capacitance C2 is connected in parallel between solar energy B plates and discharge circuit, is discharged Resistance R is provided on circuit.When solar energy A, B plate is subject to illumination, electric current is generated, while to C1, C2 capacitances charge, and control mould One odd number road of block exports control signal, and V1 conductings, electric current is from solar energy A plates+pole and C1+ poles, by loading to triode V1 collectors are formed into a loop electric discharge to emitter to C1 and solar energy A plate cathode；When one even number road of control module exports control letter Number, V2 conductings, electric current from solar energy B plates and C2 anodes, through load to the collector of triode V2 to emitter to C2 with Solar energy B plate cathode, forming circuit electric discharge；As triode V2, when C2 and solar energy B plates discharge, solar energy A plates charge to C1； As triode V1, when C1 and solar energy B plates discharge, solar energy B plates charge to C2；In cycles, cycle charge-discharge is carried to load For electric energy.

Claims (3)

1. solar panel charge-discharge control circuit, it is characterised in that including solar energy A plates, solar energy B plates, control module, 1 ~ n control road is set in control module, each odd number road and each even number road form one group of charging and discharging circuit, solar energy A plates, solar energy B plates are mutually contacted, and discharge circuit is set between solar energy A plates, solar energy B plates, and discharge circuit is connected in parallel three poles The collector of pipe V1 and triode V2, triode V1 and triode V2 emitters connect an odd number road and an even number road respectively, too It is positive to be connected in parallel capacitance C1 between A plates and discharge circuit, capacitance C2, electric discharge electricity are connected in parallel between solar energy B plates and discharge circuit Road is provided with load.

2. solar panel charge-discharge control circuit according to claim 1, it is characterised in that load as resistance.

3. solar panel charge-discharge control circuit according to claim 1, it is characterised in that when solar energy A, B plate by To during illumination, electric current is generated, while to C1, C2 capacitances charge, one odd number road of control module output control signal, V1 conductings, electricity Stream is born from solar energy A plates+pole and C1+ poles by loading to triode V1 collectors to emitter to C1 and solar energy A plates Pole, forming circuit electric discharge；When one even number road of control module exports control signal, V2 conductings, electric current is from solar energy B plates and C2 anodes It sets out, the collector through loading to triode V2 is formed into a loop electric discharge to emitter to C2 and solar energy B plate cathode；When three poles When pipe V2, C2 and solar energy B plates discharge, solar energy A plates charge to C1；As triode V1, when C1 and solar energy B plates discharge, too Positive energy B plates charge to C2；In cycles, cycle charge-discharge provides electric energy to load.