CN201904633U - MPPT type solar charge controller based on PSoC - Google Patents

MPPT type solar charge controller based on PSoC Download PDF

Info

Publication number
CN201904633U
CN201904633U CN 201020681981 CN201020681981U CN201904633U CN 201904633 U CN201904633 U CN 201904633U CN 201020681981 CN201020681981 CN 201020681981 CN 201020681981 U CN201020681981 U CN 201020681981U CN 201904633 U CN201904633 U CN 201904633U
Authority
CN
China
Prior art keywords
circuit
psoc
processing unit
central processing
solar cell
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN 201020681981
Other languages
Chinese (zh)
Inventor
徐海波
韩军良
何思模
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Guangdong East Power Co Ltd
Original Assignee
Guangdong East Power Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Guangdong East Power Co Ltd filed Critical Guangdong East Power Co Ltd
Priority to CN 201020681981 priority Critical patent/CN201904633U/en
Application granted granted Critical
Publication of CN201904633U publication Critical patent/CN201904633U/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Abstract

The utility model provides a MPPT (maximum power point tracking) type solar charge controller based on a PSoC (programmable system-on-chip). The MPPT type solar charge controller is provided with a solar cell, a storage cell, fuses, a power source conversion circuit, a PWM (pulse-width modulation) driving circuit, a PSoC central processor, a charge loop, a load power driving circuit, a load power output control circuit, a solar cell voltage sampling circuit, a charge current sampling circuit, a storage cell voltage sampling circuit, a load current sampling circuit, a lightning protection circuit, a backflow preventing circuit, a temperature sensor, a control key array and a sound-light display alarm circuit. The solar charge controller adopts a PWM charging mode, adopts MPPT technology, intelligently regulates a working point voltage of the solar cell, enables the solar cell to work in a maximum power output state, intelligently controls the solar cell to supply electricity to the storage cell, and supplies electricity to a direct current load.

Description

A kind of MPPT type solar charging controller based on PSoC
Technical field
The utility model relates to the solar charging controller technology, particularly relates to a kind of MPPT type solar charging controller based on PSoC.
Background technology
Solar energy has environmental protection, good characteristic such as pollution-free, becomes the direction of modern society's energy development.In heliotechnics, one of most important technology is exactly a solar charging controller.
In the prior art; a lot of solar charging controllers are arranged on the market; but all come with some shortcomings; the solar charging controller of some simple types is after storage battery is full of; be the protection storage battery, the both positive and negative polarity of solar panel is carried out short circuit, can cause the joint temperature of solar panel array too high like this; damage solar panel easily, the useful life of reducing solar panel.Part solar charging controller does not have maximum power electric tracing (MPPT) function of solar cell, causes the energy conversion efficiency (generated output) of solar panel to can not get effective raising.Also there is solar charging controller all to adopt microcontroller and peripheral discrete component to constitute, cause the circuit system complex structure, simultaneously, signal conditioning circuit all is to be realized by the discrete circuit of periphery, discrete component exist consistency relatively poor, exist temperature to float shortcomings such as bigger.
At the prior art deficiency, provide a kind of MPPT type solar charging controller very necessary to solve the prior art deficiency based on PSoC.
Summary of the invention
The purpose of this utility model be to avoid the deficiencies in the prior art part and provide a kind of high efficiency, low cost, high integration, strong security, peripheral circuit to simplify, battery management is more accurate, system is more intelligent MPPT type solar charging controller based on PSoC.
The purpose of this utility model realizes by following technical measures.
A kind of MPPT type solar charging controller based on PSoC is provided with solar cell, storage battery, fuse, power-switching circuit, PWM drive circuit, PSoC central processing unit, charge circuit, bearing power drive circuit, bearing power output control circuit, solar array voltage sample circuit, charging current sample circuit, battery tension sample circuit and load current sample circuit;
One end of the positive pole of solar cell, solar array voltage sample circuit is connected with 810 ends of charging current sample circuit, and the other end of solar cell sample circuit is connected with 420 ends of PSoC central processing unit,
830 ends of charging current sample circuit are connected with 410 ends of PSoC central processing unit;
820 ends of charging current sample circuit are connected with 510 ends of charge circuit, and an end of 520 ends of charge circuit, an end of battery tension sample circuit, fuse is connected with the positive terminal of output loading;
The other end of battery tension sample circuit is connected with 430 ends of PSoC central processing unit;
350 ends of the negative pole of solar cell, power-switching circuit, the negative pole of storage battery are connected with 1310 ends of load current sample circuit;
The positive pole of storage battery is connected with the other end of fuse, 310 ends of power-switching circuit are connected with 910 ends of bearing power drive circuit, 320 ends of power-switching circuit are connected with 610 ends of PWM drive circuit, and 330 ends of power-switching circuit are connected with 450 ends of PSoC central processing unit;
440 ends of PSoC central processing unit are connected with 630 ends of PWM drive circuit, and 620 ends of PWM drive circuit are connected with 530 ends of charge circuit;
1330 ends of load current sample circuit are connected with 460 ends of PSoC central processing unit, and 1320 ends of load current sample circuit are connected with 1110 ends of bearing power output control circuit;
470 ends of PSoC central processing unit are connected with 920 ends of bearing power drive circuit, and 930 ends of bearing power drive circuit are connected with 1120 ends of bearing power output control circuit, and 1130 ends of bearing power output control circuit are connected with the negative pole of output loading.
The model of described PSoC central processing unit is CY8CLED03D01.
Be provided with lightning protection circuit, an end of described lightning protection circuit is connected with the positive pole of solar cell, and the other end of described lightning protection circuit is connected with the negative pole of solar cell.
Described lightning protection circuit is set to transient voltage and suppresses diode, and described transient voltage suppresses diode one end and is connected with the positive pole of solar cell, and the other end that described transient voltage suppresses diode is connected with the negative pole of solar cell.
Be provided with the anti-backflow circuit, an end of described anti-backflow circuit is connected with 520 ends of described charge circuit, and the other end of described anti-backflow circuit is connected with an end, the output loading positive terminal of battery tension sample circuit.
Be provided with temperature sensor, described temperature sensor is connected with 480 ends of described PSoC central processing unit.
Described temperature sensor is mounted on described storage battery.
The model of described temperature sensor is LM75.
Be provided with the control push-button array, described control push-button array is connected with 490 ends of described PSoC central processing unit.
Be provided with the acoustooptic display alarm circuit, described acoustooptic display alarm circuit is connected with 491 ends of described PSoC central processing unit.
A kind of MPPT type solar charging controller based on PSoC of the present utility model is provided with solar cell, storage battery, fuse, power-switching circuit, PWM drive circuit, PSoC central processing unit, charge circuit, bearing power drive circuit, bearing power output control circuit, solar array voltage sample circuit, charging current sample circuit, battery tension sample circuit and load current sample circuit; One end of the positive pole of solar cell, solar array voltage sample circuit is connected with 810 ends of charging current sample circuit, the other end of solar cell sample circuit is connected with 420 ends of PSoC central processing unit, and 830 ends of charging current sample circuit are connected with 410 ends of PSoC central processing unit; 820 ends of charging current sample circuit are connected with 510 ends of charge circuit, and an end of 520 ends of charge circuit, an end of battery tension sample circuit, fuse is connected with the positive terminal of output loading; The other end of battery tension sample circuit is connected with 430 ends of PSoC central processing unit; 350 ends of the negative pole of solar cell, power-switching circuit, the negative pole of storage battery are connected with 1310 ends of load current sample circuit; The positive pole of storage battery is connected with the other end of fuse, 310 ends of power-switching circuit are connected with 910 ends of bearing power drive circuit, 320 ends of power-switching circuit are connected with 610 ends of PWM drive circuit, and 330 ends of power-switching circuit are connected with 450 ends of PSoC central processing unit; 440 ends of PSoC central processing unit are connected with 630 ends of PWM drive circuit, and 620 ends of PWM drive circuit are connected with 530 ends of charge circuit; 1330 ends of load current sample circuit are connected with 460 ends of PSoC central processing unit, and 1320 ends of load current sample circuit are connected with 1110 ends of bearing power output control circuit; 470 ends of PSoC central processing unit are connected with 920 ends of bearing power drive circuit, and 930 ends of bearing power drive circuit are connected with 1120 ends of bearing power output control circuit, and 1130 ends of bearing power output control circuit are connected with the negative pole of output loading.The utility model adopts the PWM charge mode, have 12V, the automatic recognition function of 24V electric pressure, use MPPT maximum power point tracking (MPPT) technology, intelligence is regulated the solar cell working point voltage, make solar cell working at the maximum power output state, the Based Intelligent Control solar cell is to charge in batteries, and DC load is powered.The utility model adopts the technical scheme based on PSoC, be configured by internal resource the PSoC chip, make full use of programmable numeral and analog peripheral resource on the PSoC sheet, the component number and the pcb board size of peripheral hardware circuit have been reduced, the integrated level and the confidentiality of system have been improved, overcome the consistency that discrete component exists poor, exist temperature to float big shortcoming, help reducing the hardware cost and the development cost of product itself.
Description of drawings
Utilize accompanying drawing that the utility model is further described, but the content in the accompanying drawing does not constitute any restriction of the present utility model.
Fig. 1 is the structural representation of a kind of MPPT type solar charging controller based on PSoC of the present utility model.
In Fig. 1, comprising:
Solar cell 100, storage battery 200, power-switching circuit 300, PWM drive circuit 600,
PSoC central processing unit 400, charge circuit 500, bearing power drive circuit 900,
Bearing power output control circuit 1100, solar array voltage sample circuit 700,
Charging current sample circuit 800, battery tension sample circuit 1200,
Load current sample circuit 1300, anti-backflow circuit 1700, control push-button array 1400,
Acoustooptic display alarm circuit 1500, temperature sensor 1600.
Embodiment
With the following Examples the utility model is further described.
See Fig. 1; a kind of MPPT type solar charging controller based on PSoC; be provided with solar cell 100; storage battery 200; fuse; power-switching circuit 300; PWM drive circuit 600; PSoC central processing unit 400; charge circuit 500; bearing power drive circuit 900; bearing power output control circuit 1100; solar array voltage sample circuit 700; charging current sample circuit 800; battery tension sample circuit 1200 and load current sample circuit 1300 also are provided with lightning protection circuit; anti-backflow circuit 1700; temperature sensor 1600; control push-button array 1400 and acousto-optic Display and Alarm Circuit 1500.
One end of the positive pole of solar cell 100, solar array voltage sample circuit 700 is connected with 810 ends of charging current sample circuit 800, and the other end of solar array voltage sample circuit 700 is connected with 420 ends of PSoC central processing unit 400,
830 ends of charging current sample circuit 800 are connected with 410 ends of PSoC central processing unit 400,
820 ends of charging current sample circuit 800 are connected with 510 ends of charge circuit 500, and an end of 520 ends of charge circuit 500, an end of battery tension sample circuit 1200, fuse is connected with the positive terminal of output loading,
The other end of battery tension sample circuit 1200 is connected with 430 ends of PSoC central processing unit 400,
350 ends of the negative pole of solar cell 100, power-switching circuit 300, the negative pole of storage battery 200 are connected with 1310 ends of load current sample circuit 1300,
The positive pole of storage battery 200 is connected with the other end of fuse, 310 ends of power-switching circuit 300 are connected with 910 ends of bearing power drive circuit 900,320 ends of power-switching circuit 300 are connected with 610 ends of PWM drive circuit 600,330 ends of power-switching circuit 300 are connected with 450 ends of PSoC central processing unit 400
440 ends of PSoC central processing unit 400 are connected with 630 ends of PWM drive circuit 600, and 620 ends of PWM drive circuit 600 are connected with 530 ends of charge circuit 500,
1330 ends of load current sample circuit 1300 are connected with 460 ends of PSoC central processing unit 400, and 1320 ends of load current sample circuit 1300 are connected with 1110 ends of bearing power output control circuit 1100,
470 ends of PSoC central processing unit 400 are connected with 920 ends of bearing power drive circuit 900,930 ends of bearing power drive circuit 900 are connected with 1120 ends of bearing power output control circuit 1100, and 1130 ends of bearing power output control circuit 1100 are connected with the negative pole of output loading.
The model of described PSoC central processing unit 400 is CY8CLED03D01.
One end of lightning protection circuit is connected with the positive pole of solar cell 100, and the other end of described lightning protection circuit is connected with the other end of solar cell 100.Lightning protection circuit is set to transient voltage and suppresses diode, and described transient voltage suppresses diode one end and is connected with the positive pole of solar cell 100, and the other end that described transient voltage suppresses diode is connected with the negative pole of solar cell 100.
One end of anti-backflow circuit 1700 is connected with 520 ends of described charge circuit 500, and the other end of described anti-backflow circuit 1700 is connected with an end, the output loading positive terminal of battery tension sample circuit 1200.
Temperature sensor 1600 is connected with 480 ends of described PSoC central processing unit 400, and described temperature sensor 1600 is mounted on described storage battery 200, and the model of temperature sensor 1600 is LM75.
Control push-button array 1400 is connected with 490 ends of described PSoC central processing unit 400.
Acoustooptic display alarm circuit 1500 is connected with 491 ends of described PSoC central processing unit 400.
The utility model is with the core of PSoC central processing unit Unit 400 as system's control, adopt the MPPT maximum power point tracking intelligent control algorithm, by regulating the pwm pulse signal of charge circuit 500, opening and turn-offing by PWM drive circuit 600 control charge circuits 500, intelligence is regulated the quiescent potential of solar cell 100, makes the power output maximum of solar cell 100.
PSoC central processing unit 400 can be according to storage battery 200 state-of-charges (SOC), adopt charging control control strategy stage by stage, comprise that tiny stream fills, equalizing charge, directly fill and floating charge, realize the scientific management to storage battery 200 chargings; Simultaneously, PSoC central processing unit 400 intelligent managements the DC load power supply process, can realize the automatic control of DC load power supply and manually control, have under-voltage, cross and put defencive function and reconnect function automatically.When storage battery 200 voltages during in normal condition, the user can by control push-button array 1400 manually control power to DC load.When storage battery 200 was under-voltage, PSoC central processing unit 400 sent alarm command, 1500 actions of acoustooptic display alarm circuit, and the prompting user in time charges; When putting appearred in storage battery 200, PSoC central processing unit 400 sent alarm command, 1500 actions of acoustooptic display alarm circuit, and simultaneously, PSoC central processing unit 400 in time cuts off load path by bearing power drive circuit 900, prevents that storage battery 200 from damaging.
The utility model adopts ground structure circuit topology altogether, and the negative pole of the negative pole of solar cell 100, storage battery 200 connects together.Power-switching circuit 300 produces voltage VDD1, VDD2 and VDD3, and wherein VDD1 gives the bearing power drive circuit 900 power supplies, and VDD2 gives the PWM drive circuit 600 power supplies, and VDD3 gives PSoC central processing unit 400 and the power supply of other peripheral logical circuits.
PSoC central processing unit 400 sampling solar cells 100 voltage signals, when overvoltage appears in solar cell 100 voltages, PSoC central processing unit 400 will cut out PWM charging process, realize the input overvoltage protection of charge controller.Load reconnects function automatically and is realized by PSoC central processing unit 400 and bearing power loop.
Load overcurrent, short-circuit protection circuit are realized by programmable analog that is integrated in PSoC inside and digital mixing signal array.If load current surpassed the rated current of 1.25 times of controllers in the time of 60 seconds, or the rated current that load current has surpassed 1.5 times of controllers is in the time of 30 seconds, and the malfunction indicator lamp flicker is reported to the police, and controller will cut off output loop.If short trouble appears in load, controller will cut off output loop immediately, and buzzer is reported to the police rapidly, and short trouble has taken place the prompting user.
The utility model is compared with product with existing technology, has tangible advantage and beneficial effect:
1, the utility model adopts the technical scheme based on PSoC, make full use of programmable numeral and analog peripheral resource on the PSoC chip, peripheral component quantity and pcb board size have been reduced, the integrated level and the confidentiality of system have been improved, overcome the consistency that discrete component exists poor, exist temperature to float big shortcoming, reduced cost effectively.
2, charge controller of the present utility model adopts ground structure circuit topology altogether, has overcome the shortcoming of solar cell 100 voltage sample difficulties in the common anodal structural circuit topology.
3, PSoC central processing unit 400 adopts the self-adapting intelligent control algolithm, realizes " MPPT+SOC " dual intelligent optimization charging control.
4, PSoC central processing unit Unit 400 are according to storage battery 200 state-of-charges (SOC), adopt charging control control strategy stage by stage, comprise that tiny stream fills, equalizing charge, directly fill and floating charge, realize the scientific management to storage battery 200 chargings.
5, the load over-current protecting unit is realized by the analog-and digital-mixed signal array that is integrated in PSoC inside, has reduced the complexity of peripheral circuit, has improved the integrated level and the reliability of signal processing circuit.
6, defencive function is perfect.Have TVS lightning protection function, have over-charge protective, cross the protection mechanisms such as anti-reverse protection protection of putting protection, load overload protection, input voltage overvoltage protection, electrical short protection, uniqueness, improved reliability of system operation, fail safe.
Should be noted that at last; above embodiment is only in order to the explanation the technical solution of the utility model but not to the restriction of the utility model protection range; although the utility model has been done detailed description with reference to preferred embodiment; those of ordinary skill in the art is to be understood that; can make amendment or be equal to replacement the technical solution of the utility model, and not break away from the essence and the scope of technical solutions of the utility model.

Claims (10)

1. the MPPT type solar charging controller based on PSoC is characterized in that: be provided with solar cell, storage battery, fuse, power-switching circuit, PWM drive circuit, PSoC central processing unit, charge circuit, bearing power drive circuit, bearing power output control circuit, solar array voltage sample circuit, charging current sample circuit, battery tension sample circuit and load current sample circuit;
One end of the positive pole of solar cell, solar array voltage sample circuit is connected with 810 ends of charging current sample circuit, and the other end of solar cell sample circuit is connected with 420 ends of PSoC central processing unit,
830 ends of charging current sample circuit are connected with 410 ends of PSoC central processing unit;
820 ends of charging current sample circuit are connected with 510 ends of charge circuit, and an end of 520 ends of charge circuit, an end of battery tension sample circuit, fuse is connected with the positive terminal of output loading;
The other end of battery tension sample circuit is connected with 430 ends of PSoC central processing unit;
350 ends of the negative pole of solar cell, power-switching circuit, the negative pole of storage battery are connected with 1310 ends of load current sample circuit;
The positive pole of storage battery is connected with the other end of fuse, 310 ends of power-switching circuit are connected with 910 ends of bearing power drive circuit, 320 ends of power-switching circuit are connected with 610 ends of PWM drive circuit, and 330 ends of power-switching circuit are connected with 450 ends of PSoC central processing unit;
440 ends of PSoC central processing unit are connected with 630 ends of PWM drive circuit, and 620 ends of PWM drive circuit are connected with 530 ends of charge circuit;
1330 ends of load current sample circuit are connected with 460 ends of PSoC central processing unit, and 1320 ends of load current sample circuit are connected with 1110 ends of bearing power output control circuit;
470 ends of PSoC central processing unit are connected with 920 ends of bearing power drive circuit, and 930 ends of bearing power drive circuit are connected with 1120 ends of bearing power output control circuit, and 1130 ends of bearing power output control circuit are connected with the negative pole of output loading.
2. the MPPT type solar charging controller based on PSoC according to claim 1, it is characterized in that: the model of described PSoC central processing unit is CY8CLED03D01.
3. the MPPT type solar charging controller based on PSoC according to claim 1 and 2; it is characterized in that: be provided with lightning protection circuit; one end of described lightning protection circuit is connected with the positive pole of solar cell, and the other end of described lightning protection circuit is connected with the negative pole of solar cell.
4. the MPPT type solar charging controller based on PSoC according to claim 3; it is characterized in that: described lightning protection circuit is set to transient voltage and suppresses diode; described transient voltage suppresses diode one end and is connected with the positive pole of solar cell, and the other end that described transient voltage suppresses diode is connected with the negative pole of solar cell.
5. the MPPT type solar charging controller based on PSoC according to claim 1 and 2, it is characterized in that: be provided with the anti-backflow circuit, one end of described anti-backflow circuit is connected with 520 ends of described charge circuit, and the other end of described anti-backflow circuit is connected with an end, the output loading positive terminal of battery tension sample circuit.
6. the MPPT type solar charging controller based on PSoC according to claim 1 and 2 is characterized in that: be provided with temperature sensor, described temperature sensor is connected with 480 ends of described PSoC central processing unit.
7. the MPPT type solar charging controller based on PSoC according to claim 6, it is characterized in that: described temperature sensor is mounted on described storage battery.
8. the MPPT type solar charging controller based on PSoC according to claim 7, it is characterized in that: the model of described temperature sensor is LM75.
9. the MPPT type solar charging controller based on PSoC according to claim 1 and 2 is characterized in that: be provided with the control push-button array, described control push-button array is connected with 490 ends of described PSoC central processing unit.
10. the MPPT type solar charging controller based on PSoC according to claim 1 and 2 is characterized in that: be provided with the acoustooptic display alarm circuit, described acoustooptic display alarm circuit is connected with 491 ends of described PSoC central processing unit.
CN 201020681981 2010-12-27 2010-12-27 MPPT type solar charge controller based on PSoC Expired - Fee Related CN201904633U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201020681981 CN201904633U (en) 2010-12-27 2010-12-27 MPPT type solar charge controller based on PSoC

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201020681981 CN201904633U (en) 2010-12-27 2010-12-27 MPPT type solar charge controller based on PSoC

Publications (1)

Publication Number Publication Date
CN201904633U true CN201904633U (en) 2011-07-20

Family

ID=44275226

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 201020681981 Expired - Fee Related CN201904633U (en) 2010-12-27 2010-12-27 MPPT type solar charge controller based on PSoC

Country Status (1)

Country Link
CN (1) CN201904633U (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102545287A (en) * 2010-12-27 2012-07-04 广东易事特电源股份有限公司 MPPT(Maximum Power Point Tracking)-type solar charging controller based on PSoC (Programmable System On Chip)
CN102590357A (en) * 2012-01-09 2012-07-18 山东科技大学 Coal-rock sound emission monitoring system analog signal source based on PSoC3 (Programmable System-on-Chip3)
CN106231715A (en) * 2016-07-21 2016-12-14 深圳金仕盾照明科技有限公司 A kind of wisdom solar illuminating system and method

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102545287A (en) * 2010-12-27 2012-07-04 广东易事特电源股份有限公司 MPPT(Maximum Power Point Tracking)-type solar charging controller based on PSoC (Programmable System On Chip)
CN102590357A (en) * 2012-01-09 2012-07-18 山东科技大学 Coal-rock sound emission monitoring system analog signal source based on PSoC3 (Programmable System-on-Chip3)
CN106231715A (en) * 2016-07-21 2016-12-14 深圳金仕盾照明科技有限公司 A kind of wisdom solar illuminating system and method

Similar Documents

Publication Publication Date Title
TWI539720B (en) Power battery management system with low power state auto wake-up function
CN204068215U (en) With the lithium battery of power-off protection
CN102570525B (en) PSoC (Programmable System on Chip)-based MPPT (Maximum Power Point Tracking) type solar charge controller
CN203166462U (en) Protective device for preventing dropping of power supply voltage of microcontroller in electronic cigarette
CN201904633U (en) MPPT type solar charge controller based on PSoC
CN210669590U (en) Lithium battery management application circuit
CN201947046U (en) Switch power supply with backup battery for power supply
CN201576950U (en) Vehicle-mounted solar portable power source
CN206533188U (en) A kind of FTU power source specials
CN103078354A (en) Backup battery protection system
CN201946122U (en) Wind energy, solar energy and electric energy complemented traffic signal light
CN201918753U (en) MPPT (maximum power point tracking) type solar charge controller based on PSoC (programmable system-on-chip)
CN203326667U (en) Solar energy-based fault indicator power supplying power source
CN204465061U (en) A kind of novel household energy-storage battery
CN102545287A (en) MPPT(Maximum Power Point Tracking)-type solar charging controller based on PSoC (Programmable System On Chip)
CN105515159A (en) Solar energy controller power source circuit
CN205753470U (en) The protection of a kind of intelligent switch controller accumulator and activation circuit
CN202759270U (en) Solar charge controller
CN202524604U (en) Self-adaptive solar street lamp controller
CN201174603Y (en) Solar inverter
CN203965626U (en) Integrated drive generator is the intelligent locating terminal peculiar to vessel of backup mutually
CN201307773Y (en) Energy-saving control circuit of lithium ion battery
CN213930719U (en) Solar energy lighting device
CN212435364U (en) System power supply device of photovoltaic inverter and photovoltaic inverter
CN212304824U (en) Novel positive charging activation circuit of BMS accuse

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20110720

Termination date: 20161227