CN106026342A - Photovoltaic system with energy storage measurement and control equipment, and control method thereof - Google Patents

Abstract

The photovoltaic system includes a photovoltaic system with energy storage measurement and control equipment, and a control method of the photovoltaic system. The photovoltaic system comprises a photovoltaic assembly, a storage battery pack, a discharge load and the energy storage measurement and control equipment, wherein the energy storage measurement and control equipment comprises a measuring and control device, a photovoltaic input end, a power output interface, a photovoltaic acquisition device, a discharge controller and a patrol inspection device; the measuring and control device is connected with the photovoltaic input end and the power output interface; the photovoltaic acquisition device is connected with the photovoltaic input end and the measuring and control device; the power output interface is composed of a plurality of electric control logic switches connected with both ends of the storage battery pack and a serial tap end thereof; the storage battery pack comprises at least two power supply modules and a serial interface provided with an external connecting end; and the energy storage measurement and control equipment achieves intelligent charging of the storage battery pack through changing combined state of its power output interface in real time under a set measuring and control logic. The photovoltaic system and the control method thereof can prolong service life of the storage batteries, and increase electricity storage and generation capacity of the system.

Description

The photovoltaic system of a kind of band energy storage measuring and controlling equipment and control method thereof

Technical field

The present invention relates to the design field of photovoltaic generating system, particularly to the photovoltaic system of a kind of band energy storage measuring and controlling equipment System and control method thereof.

Background technology

Photovoltaic application is the focus of new forms of energy development, and photovoltaic module is used again claims solaode, is to utilize quasiconductor circle Luminous energy is directly translated into a kind of technology of electric energy by the photovoltaic effect in face；Narrow sense photovoltaic generating system many fingers photovoltaic Assembly, controller and inverter three part, be not related to accumulator and mechanical part.

Photovoltaic generating system is divided into independent photovoltaic generating system, grid-connected photovoltaic power generation system and distributed photovoltaic power generation system System, wherein independent photovoltaic generating also known as off-network photovoltaic generation, mainly by photovoltaic module (used claim stacked solar cell), Controller, accumulator (this specification is referred to as again battery) composition, to power for AC load, in addition it is also necessary to join Put AC inverter；Photovoltaic generating system can be divided into independent operating inverter and combining inverter by the method for operation.OK Industry is it is contemplated that more than ten years from now on, and market will be turned to grid-connected system by stand alone generating system, be divided into the most again band to store Battery and grid-connected system without accumulator；Industry is generally acknowledged, the grid-connected system of band accumulator has can Scheduling property, can be incorporated to or exit electrical network as required, and have the function of stand-by power supply, be grid-connected photovoltaic power generation The mainstream development direction of technology application.The standardization of the charging-discharging controller of Accessory Battery is set by present stage industry Meter, is conceived to control accumulator battery overcharge or overdischarge mostly；The most it is well recognized that carry storage battery grid-connected The short slab of electricity system is accumulator, because accumulator belongs to outdoor application, need to possess the high temperature resistance of brilliance, low temperature resistant spy Property, otherwise the life-span is the shortest, through the performance that the life of storage battery is short, additional with accumulator at charge controller further Charging constant voltage value is to control the temperature-compensation circuit of content.

In the design of present stage photovoltaic generating system, accumulator is considered as a kind of preferable energy storage device subtlely, One application phenomenon is: most area is normally only when 8-17 in the period (summer, the distribution of period in winter different) Work, even if adding solar tracking control system, the reserve of electricity that can increase is the most limited, it is considered that work as light When the electric current of photovoltaic assembly acquisition is the most weak, to accumulator charging without contribution.Research is thought, accumulator internal resistance and charging state The systemic effect of this pair associated variable, is not the most fully paid attention to, and industry wishes to seek to one to increase system storage Deposit electricity, effectively extend accumulator battery service life, reduce the technical scheme of system cost of electricity-generating.

Summary of the invention

The purpose of the present invention, is the state of the art for conventional photovoltaic electricity generation system, it is provided that a kind of structure is different from The design of the energy storage measuring and controlling equipment of regular charger, this energy storage measuring and controlling equipment has the number to photovoltaic input state According to gathering and system response function, photovoltaic generating system can be made effectively to extend the coupling service life of energy-storage battery, Reduce the replacement cost of accumulator, increase the storage electricity of photovoltaic generating system, generated energy.

For realizing above-mentioned technical purpose, the invention provides the photovoltaic system of a kind of band energy storage measuring and controlling equipment, described Photovoltaic system includes: photovoltaic module 1, accumulator battery 4, discharge load 10 and energy storage measuring and controlling equipment 11；Described Energy storage measuring and controlling equipment 11 includes: measure and control device 2, photovoltaic input 3, power output interface 5, photovoltaic harvester 6, discharge controller 8b and inspection device 12；The power input of described measure and control device 2 passes through photovoltaic input 3 Electrical connection photovoltaic module 1, the power output interface 5 described in the electrical connection of its power output end；Described photovoltaic harvester The input of 6 connects photovoltaic input 3, and its signal output part connects measure and control device 2；Described power output interface 5 are made up of some automatically controlled logic switches, and it connects the series connection tap terminals in accumulator battery 4 two ends and accumulator battery； Described accumulator battery 4 includes that battery module that at least two is connected in series and serial interface are provided with external connection end；Institute State photovoltaic system, by energy storage measuring and controlling equipment 11, the photovoltaic state of photovoltaic module 1 is carried out signals collecting, process, Set, under measurement and control logic, described accumulator battery is realized intelligent charging.

In described photovoltaic system, photovoltaic module 1 includes using monocrystal silicon, polysilicon, composite crystal silicon thin film and institute There is the photovoltaic effect utilizing interface that luminous energy is directly translated into the device of electric energy.

In described photovoltaic system, described accumulator battery 4, battery module include the secondary used that arbitrarily can repeatedly charge Battery, such as lithium battery, lead battery, nickel-zinc cell and metal hydrogen storage battery etc..

The discharge load 10 of described photovoltaic system arbitrarily, includes but not limited to that using unidirectional current, inversion is that alternating current supplies Electricity or with any current waveform, the discharge load of rate-adaptive pacemaker, such as household electrical appliance, light fixture, electronic machine, work Industry and civil electric appliance equipment, and include grid-connected local power network.

In described energy storage measuring and controlling equipment 11, the signal input part of inspection device 12 connects controlled electricity in accumulator battery 4 The two ends of pond module, the measure and control device 2 described in the connection of its signal output part；Described inspection device 12 is independently arranged, Also can be by integrated with described power output interface 5 to its partial function or repertoire.Described inspection device Function, be that the status data of battery module in accumulator battery is fed back to measure and control device (signal processing module 2b), Described status data include the voltage data of controlled battery module or/and capacity data, under setting logic state Charging module 2c realizes preferential charging to certain controlled battery module or certain group of battery modules and provides logic basis.

In the present invention, the two ends of the power input electrical connection accumulator battery 4 of described discharge controller 8b, its power supply Outfan electrical connection discharge load 10；Described discharge controller is independently arranged, also can be by its partial function or whole Function is integrated in measure and control device 2 or the central control management system of the rearmounted discharge load of described accumulator battery 4.

Described discharge controller 8b, includes but not limited to constant current source controller, constant voltage source control that industry is generally called Device processed, AC inverter, AC power distribution cabinet/AC distribution panel, control of discharge management system and combinations thereof.

As a kind of improvement of technique scheme, the signal of the photovoltaic harvester 6 of described energy storage measuring and controlling equipment 11 Acquisition function is built in measure and control device 2, or realizes its part logic function or complete by the integrated design of measure and control device Portion's logic function.

Described measure and control device 2 includes interface logic biock 2a, signal processing module 2b and charging module 2c, respectively The individual discrete setting of sub-module selective or shared integrated module realize its function.

Preferably, the signal input part of described signal processing module 2b connects photovoltaic harvester 6 and described patrolling Inspection equipment 12, its signal output part connects described charging module 2c and described interface logic biock 2a respectively； The signal output part electric connection of power supply output interface 5 of described interface logic biock 2a, its signal input part connects described Signal processing module 2b；The power input electrical connection photovoltaic harvester 6 of described charging module 2c or photovoltaic are defeated Entering end 3, its power output end electric connection of power supply output interface 5, its signal input part connects signal processing module 2b.

Preferably, described charging module 2c includes output voltage constant circuit and output current limit circuit.

Preferably, the output electric current of described charging module not notch shape, frequency and dutycycle.

Another as technique scheme is improved, the discrete setting of charging module 2c in described measure and control device.

Another as technique scheme is improved, the discrete setting of interface logic biock 2a in described measure and control device.

Described measure and control device 2 also includes voltage increase module 7, and the signal input part of voltage increase module connects at signal Reason module 2b, its power input electrical connection photovoltaic input 3, power output end electrical connection charging module 2c, or Power input electrical connection charging module 2c, power output end electric connection of power supply output interface 5；Described voltage carries Rise module 7 to be independently arranged, also can be by integrated with described charging module 2c to its partial function or repertoire.

In the present invention, the energy storage measuring and controlling equipment 11 of described photovoltaic system can with the conventional discrete setting of system control equipment, Also can be by integrated with the system control equipment of described routine to its partial function or repertoire.

The invention also discloses the control method of the photovoltaic system of a kind of aforementioned strip energy storage measuring and controlling equipment, the method By the photovoltaic harvester 6 of described energy storage measuring and controlling equipment 11, the photovoltaic state of photovoltaic input 3 is carried out signals collecting, And compared with interior storage data by described measure and control device 2, measure and control device 2 is according to result of the comparison dynamic mapping institute State the assembled state of the some logic switches of power output interface 5, make described charging measuring and controlling equipment 11 to described accumulator Group 4 realizes intelligent charging.

Preferably, photovoltaic electric intensity of flow photovoltaic input 3 collected when described photovoltaic harvester 6 or its become When changing the photovoltaic voltage value of reflection less than threshold values set by measure and control device 2, whole group of described accumulator battery 4 is filled Electrically it is transformed to the controlled charging battery module in accumulator battery.

The described charging to controlled battery module, the voltage data fed back according to inspection device 12 for measure and control device 2 or / and capacity data, to voltage or/and the relatively low battery module of capacity preferentially charges；Reality when some battery modules Time voltage or/and capacity is identical time, within the setting time to its carry out charging interval mean allocation.

Described battery module can be cell, it is also possible to be the one that is in series of multiple cell inside/outside Change product；Described battery module includes that group of battery modules, group of battery modules refer exclusively to more than two battery modules and (include Two battery modules) connected mode of external series combination, it can be considered a higher battery module of external voltage, The intelligent combined charging method of some battery modules is depending on specific design.

In described photovoltaic system, the power output interface 5 in energy storage measuring and controlling equipment 11 is used for substituting regular charger Output interface, both are in difference: charging outfan and the accumulator battery of regular charger is fixing electrical connection, Normally only the electricity connected positive pole of accumulator battery, negative pole two ends；And power output interface 5 of the present invention is multiple electricity Control switch, in addition to connecting the positive pole of accumulator battery, negative pole two ends, is also connected in accumulator battery required individually control The battery module of system, is even connected to cell, and described connection is not equal to conduct, and this connection is the most electric The automatically controlled logic switch state corresponding to this road interface end is depended in conducting.

The internal resistance of accumulator and charging state are one to associate close variable, and internal resistance is directly proportional to charging state, in other words electricity During the sky lotus of pond, internal resistance is less, and charge acceptance is strong；And internal resistance is relatively big when battery fullcharging, charge acceptance is weak； Due to the existence of accumulator internal resistance, external resistance and accumulator internal resistance is made to together constitute accumulator charge circuit All-in resistance, when coming from the charging current relative constancy of photovoltaic module, the load voltage showed will be in accumulator Resistance and direct ratio distribution in external resistance, this rule obtains perfect statement in generalized Ohm's law.

The electric energy that photovoltaic module obtains shows as power form in certain interval, its photovoltaic electric current, magnitude of voltage and load All-in resistance is correlated with, and when photovoltaic electric current relative constancy, photovoltaic module output voltage is directly proportional to load all-in resistance；? In the case of the daylight setting sun, obnubilation, cloudy all classes, the output that photovoltaic module obtains is less, if the total electricity of load Hindering constant, the output voltage of photovoltaic module is the least；When output power of photovoltaic module little extremely charging external circuit is assigned to Voltage equal to the load voltage of even less than accumulator time, accumulator charging terminates completely.

The present invention is to collectively form the base of photovoltaic charged loop all-in resistance based on above-mentioned external resistance and accumulator internal resistance Plinth principle, when photovoltaic electric intensity of flow is less than design load lower limit, by the some logic switches of power output interface 5 Combined transformation, reduces the voltage by filling accumulator battery in real time and (reduces the battery module quantity in accumulator battery, equivalence Reduce the internal resistance by rechargable battery), such as reduce accumulator battery one half voltage and (reduce by filling the electricity of half in accumulator battery Pond module), make the internal resistance by rechargable battery reduce half, promote so that the charging current of battery is obtained by photovoltaic module； When photovoltaic charged current intensity is still less than design load lower limit, can continue in logic to reduce the quantity by rechargable battery module, Reduce the voltage by rechargable battery, make the photovoltaic charged electric current of accumulator obtain and dynamically promote.

The application of this energy storage measuring and controlling equipment 11 can be considered the lifting making photovoltaic module obtain micropower generating efficiency, and And this micropower charging modes is very effective to the life-span extending energy-storage battery, the directly use cost of reduction accumulator； As a example by the lead-acid battery that photovoltaic system is conventional, this micropower charging modes can effectively suppress the lead sulfate of negative plate Crystallization salinization phenomenon, keeps ability of being filled and the payload capability of accumulator.

The present invention solves that the market demand of photovoltaic system provides a kind of practicable technical scheme, make system exist Self-operating can effectively realize the long term maintenance guarantee to Accessory Battery group.

It is an advantage of the current invention that: use energy storage measuring and controlling equipment 11 that the photovoltaic state of photovoltaic module 1 is carried out signal and adopt Collection, process, the corresponding group converting the some automatically controlled logic switches of described power output interface 5 under setting measurement and control logic Conjunction state, is effectively improved photovoltaic charged efficiency, increases reserve of electricity；Described energy storage measuring and controlling equipment simple in construction, Combination variation, low cost, adapt to the equipment configratioin requirement of high-end photovoltaic system.

Accompanying drawing explanation

Fig. 1 a is a kind of structural representation of conventional photovoltaic system.

Fig. 1 b is the another kind of structural representation of conventional photovoltaic system.

Fig. 2 is the base structure schematic diagram of photovoltaic system of the present invention.

Fig. 3 a is the logic control constructs schematic diagram of a kind of energy storage measuring and controlling equipment.

Fig. 3 b is the logic control constructs schematic diagram that charging module is independently arranged.

Fig. 3 c is the logic control constructs schematic diagram that interface logic biock is independently arranged.

Fig. 3 d is the logic control constructs schematic diagram that charging module, interface logic biock are all independently arranged.

Fig. 4 a is a kind of control structure schematic diagram setting up voltage increase module.

Fig. 4 b is the another kind of control structure schematic diagram setting up voltage increase module.

Fig. 4 c is the control structure schematic diagram of voltage increase module and charging module integrated setting.

Fig. 5 a is a kind of logical structure schematic diagram controlling two charging battery modules.

Fig. 5 b is a kind of logical structure schematic diagram controlling three charging battery modules.

Fig. 6 a is the inspection device structural representation of a kind of two battery modules.

Fig. 6 b is the inspection device structural representation of a kind of three battery modules.

Fig. 7 is another structural representation of photovoltaic system of the present invention.

Accompanying drawing identifies:

1, photovoltaic module；2, measure and control device；2a, interface logic biock；2b, signal processing module；2c, charging mould Block；3, photovoltaic input；4, accumulator battery；4a, battery module 1；4b, battery module 2；4c, battery Module 3；5, power output interface；5a, logic switch 1；5b, logic switch 2；5c, logic switch 3； 5d, logic switch 4；6, photovoltaic harvester；7, voltage increase module；8, conventional charging-discharging controller；8a、 Normal charge controller；8b, discharge controller；9, inverter；10, discharge load；11, energy storage measuring and controlling equipment； 12, inspection device.

Detailed description of the invention

The present invention is described in detail further with embodiment below in conjunction with the accompanying drawings.

Fig. 1 a is a kind of structural representation of conventional photovoltaic system, is connected and makes between photovoltaic module 1 with accumulator battery 4 With conventional charging-discharging controller 8, the design feature of charging circuit is to be connected with accumulator battery 4 electricity in groups, charges simultaneously The logic function of device is relatively simple, and general standardization design is to be conceived to control accumulator battery overcharge (conventional design is Constant charge voltage, restriction charging current mode), or application dynamic micro-adjustments accumulator charging constant voltage value on this basis Temperature-compensation circuit.This kind of conventional photovoltaic system can be various forms at the discharge load 10 that accumulator battery is rearmounted, The additional inverter 9 when load uses alternating current, wherein charging-discharging controller 8 both can integrated design, it is possible to will fill Electric controller 8a and discharge controller 8b separately design, as shown in Figure 1 b.

Seeing Fig. 2, photovoltaic system of the present invention is by photovoltaic module 1, accumulator battery 4, discharge load 10 and Energy storage measuring and controlling equipment 11 forms, and wherein, described energy storage measuring and controlling equipment is compared with regular charger, and specialized designs has light Volt harvester 6 docks with photovoltaic input 3；Additionally, charging outfan is designed as having multiple automatically controlled logic and opens The power output interface 5 of pass form, its except electricity be connected accumulator battery two extreme in addition to, be further connected to accumulator (Fig. 5 a gives a kind of basic engineering example with three charging outfans, its work to controlled battery module in group Logic is described below)；The signal input part of inspection device 12 connects in accumulator battery the two of each controlled battery module End；Energy storage measuring and controlling equipment 11 can obtain the charging status signal of photovoltaic module 1 by photovoltaic harvester 6, logical That crosses measure and control device 2 processes the intelligent charging realized accumulator battery 4.The basis knot of photovoltaic system shown in Fig. 2 Structure, can also be built in measure and control device 2 by the photovoltaic harvester 6 in described energy storage measuring and controlling equipment 11.

Discharge controller 8b shown in Fig. 2 be a kind of be independently arranged state example, its signal input part connect measure and control device 2, Work-based logic function is realized by the unified programming of measure and control device.In described energy storage measuring and controlling equipment, discharge controller Depending on design form according to discharge load 10；Such as photovoltaic system is designed as the road sun energy circuit that a kind of city claims Lamp, the rearmounted discharge load of accumulator is LED lamp, and discharge controller is typically designed as constant current source controller； The most such as photovoltaic system is designed as the grid-connected solar power plant of a kind of industry common name, the discharge load that accumulator is rearmounted For power network, discharge controller generally comprises inverter, AC power distribution cabinet/AC distribution panel, control system etc..

Fig. 3 a is a kind of logic control constructs schematic diagram of described energy storage measuring and controlling equipment 11, wherein measure and control device 2 Internal structure includes interface logic biock 2a, signal processing module 2b and charging module 2c；Described signal processing The logic function of module 2b, includes the real-time status signal collecting photovoltaic harvester 6 and processes, for Some logic switches combination of power output interface 5 provides logic basis；Described photovoltaic harvester 6 is defeated to photovoltaic Enter the real-time status signals collecting of end 3, both can gather the current intensity of real time charging, it is possible to gather real time charging electricity Rheology changes the relative voltage state of reflection, it is also possible to gather to improve control accuracy simultaneously；Described signals collecting can set It is calculated as continuous acquisition, it is also possible to timing acquiring；Signal processing module 2b to described signal by carrying out with interior storage data Relatively, under setting logical condition, docking port logic module 2a sends corresponding signal, if making power output interface 5 Dry logic switch carries out respective combination, reaches the purpose of design to accumulator battery intelligent charging.

Stating in example shown in Fig. 3 a, discharge controller 8b is independently arranged, its power input electrical connection accumulator The two ends of group 4, power output end can electrically connect arbitrary discharge load 10, the work-based logic merit of its discharge controller Energy independent design, even rearmounted with accumulator battery discharge load management System all-in-one Integration.

Described is charged as the DC/DC charging technique to accumulator of the DC source known to industry, when measure and control device 2 When realizing its inside function with integrated module, described function realizes by programming the CPU of measure and control device.Fill Electricity module 2c generally comprises output voltage constant circuit and output current limit circuit, when technology is required higher, and can The fine tune temperature control circuit that booster battery charging voltage compensates.

The secondary cell of photovoltaic system configuration at present is mainly lead-acid accumulator, and it accounts for the market mainstream because cost performance is high Status, the defect of lead-acid battery specific energy relatively low (about 30～35VAh/Kg) is not subject matter at photovoltaic system； The monomer specific energy about 100～120VAh/Kg of general lithium battery, the monomer specific energy about 60 of Ni-MH battery～ 70VAh/Kg, a few class secondary cells use in photovoltaic system and are respectively arranged with its pluses and minuses.

As the function sub-modules of measure and control device 2, charging module 2c can be independently arranged, the existing all size in market IC-components module；Power device is discrete with logic control device is conducive to job stability, especially when filling When the power of electricity module is bigger, Fig. 3 b is the logic control constructs schematic diagram that a kind of charging module is independently arranged.In like manner, Interface logic biock 2a is equally independently arranged, and Fig. 3 c is the logic control that a kind of interface logic biock is independently arranged Structural representation processed；When three basic function submodules of described measure and control device 2 are all independently arranged, its basis Logic control constructs (wherein power output interface 5 and inspection device 12 integrated design) as shown in Figure 3 d, This structure is suitable for high-power system and uses.

When the design voltage of photovoltaic module 1 is less than the voltage of accumulator battery 4, need to be at described energy storage measuring and controlling equipment 11 Middle addition voltage increase module 7 could realize battery charging；The design voltage of such as photovoltaic module is 48V, The voltage of accumulator battery is 96V, needs, by voltage increase module, charging voltage is promoted to more than 96V；Voltage Hoisting module can be independently arranged, and Fig. 4 a is to add a kind of of voltage increase module on the basis of Fig. 3 d states example to control knot Structure schematic diagram, voltage increase module is arranged between charging module 2c input and photovoltaic input 3, wherein, electricity Source output interface 5 and inspection device 12 integrated design；In like manner, voltage increase module also may be provided at charging Between outfan and the power output interface 5 of module 2c, as shown in Figure 4 b；The function of voltage increase module also may be used With integrated with charging module 2c, as illustrated in fig. 4 c.

In the present invention, the assembled state of the some automatically controlled logic switches of described power output interface 5, depends on that observing and controlling fills Put 2 pairs of signal collected results of photovoltaic harvester 6.Fig. 5 a give a kind of power output interface 5 by The design example of 3 automatically controlled logic switch compositions, except logic switch 5a and 5c is just connecting accumulator battery 4 respectively Outside pole, negative pole two ends, logic switch 5b is also connected to two battery module 4a and the series connection of battery module 4b Mouth end；A kind of work-based logic example may be set to: when the photovoltaic electric current that daylight is abundant, photovoltaic harvester 6 obtains During for normal value, logic switch 5a and the 5c conducting in power output interface 5, logic switch 5b turns off, now Power output interface 5 connects the two ends of accumulator battery 4, and this connection status is similar with the charging modes of regular charger； When the daylight setting sun, obnubilation, cloudy all class situations cause photovoltaic charged current values less than design minima, observing and controlling Device 2 controls the logic switch 5b Guan Bi conducting in power output interface 5, and logic switch 5a and 5c is chosen as "or" Logic, or 5a conducting 5c shutoff, or 5c conducting 5a shutoff, so that measure and control device realizes respectively to battery mould Block 4a or battery module 4b charging；During it is noted that described logic switch 5a and 5c selects "or" logic, Measure and control device charging current direction need to be kept corresponding with the polarity by rechargable battery module 4a or battery module 4b, should Same polarity charging design can be by the programming realization to measure and control device internal signal processing module 2b, control of charging at present Device the most generally uses Pulse and Digital Circuits technology, and its Implementation Technology is well known to industry.

State in example at the power output interface 5 shown in Fig. 5 a, by logic switch 5a, 5b, 5c ON/OFF shape The conversion of state, can be being transformed to whole group of charging modes of accumulator battery 4 to battery module 4a or battery module The charging modes of 4b, owing to the voltage by rechargable battery declines one times, can make the charging current of entrance battery module obtain Promote, thus can make to be obtained relatively good charging effect by rechargable battery.

The power output interface 5 stating example shown in Fig. 5 a contains 3 automatically controlled logic switches, coordinates two group of battery modules The accumulator battery become uses；In like manner, power output interface may be designed in 4 automatically controlled logic switches 3 The accumulator battery of individual battery module composition uses, as shown in Figure 5 b；And so on, can design by n automatically controlled logic Switch coordinates the accumulator battery of (n-1) individual battery module composition to use (n is the positive integer of >=2)；Described list Individual automatically controlled logic switch, substitutes a switch including several switch in parallel and uses.

The charging current minima of described photovoltaic module is the numerical value that designer selects, this numerical value and the type of accumulator With capacity (C) be correlated with, such as certain photovoltaic module charging Accessory Battery group be use capacity be the lead-acid battery of C, It is 0.03～0.20C/A that known its of industry typically charges normal working current value interval, can set this photovoltaic module Charging current minima is 0.03C/A, as long as the photovoltaic electric current that photovoltaic harvester 6 collects is less than 0.03C/A, Measure and control device 2 i.e. sends corresponding logical process signal, controls the some automatically controlled logic switch of power output interface 5 Change the state of on/off combination, make accumulator be subject to charging stream to obtain optimum, and to voltage or/and relatively low being subject to of capacity Control battery module or group of battery modules are preferentially charged.

The collection to photovoltaic electric current of the described photovoltaic harvester 6, can use known proton differential flow at photovoltaic input 3 Circuit mode, can real-time collection and continual collection also can timing acquiring；In Pulse and Digital Circuits Application Design, it is common that become It is changed to gather the magnitude of voltage of designed resistance two ends performance in proton differential flow circuit, is sentenced by its magnitude of voltage and know photovoltaic electric current Value, described current value collection or magnitude of voltage collection are equivalence techniques method.

Certain battery module or group of battery modules are preferentially charged by described measure and control device 2, need first to its storage electricity State is decision making, and this judgement signal is fed back to measure and control device 2 by inspection device 12, and described signal includes voltage Data are or/and capacity data；Described group of battery modules includes at least two battery module, when in accumulator battery 4 by Numerous battery modules be composed in series (such as 8 battery modules) and control accuracy unnecessary the highest time, can be crowd Many battery modules are divided into some groups (such as 8 battery modules being divided into 2 groups or 4 groups)；Fig. 6 a give one Inspection device 12 method of attachment design example on architecture basics shown in Fig. 5 a, inspection device 12 is designed with two-way, It is connected in parallel battery module 4a and the two ends of battery module 4b respectively；Fig. 6 b gives a kind of at knot shown in Fig. 5 b Inspection device 12 method of attachment design example on the basis of structure, inspection device 12 is designed with three tunnels, is connected in parallel respectively Battery module 4a, battery module 4b and the two ends of battery module 4c.

The storage capacitance state of battery module or group of battery modules is judged, including real-time voltage and real time capacity, can Select a monitoring can also monitor simultaneously, can monitor continuously can also periodic monitor, can be in the Charging state of battery, electric discharge The monitoring of state, static condition also can compare result by comprehensive monitoring；As a example by lead-acid battery, lead-acid battery is in normal work Corresponding relation, monomer whose general work is there is in the real-time voltage making (including Charging state, electric discharge state) with storage electricity condition Voltage range is 1.80V to 2.15V, and it corresponds to when being discharged to nominal operating voltage 2.0V with rate during nominal generally Half lotus state；General voltage performance is the lowest (to include charge/discharge, standing) with batch battery under same state, storage electricity Capacity is the lowest, as long as the real-time voltage monitoring certain battery module or certain group of battery modules is relatively low, and can be generally Judge that the storage capacitance of this battery module or this group of battery modules is relatively low, it is preferentially charged.

Known in industry, the real-time voltage of accumulator and storage capacitance non-linear relation, technology is required higher answering Monitoring battery module or the real time capacity of group of battery modules in real time；The technology of conventional quickly detection battery capacity is to use Proton differential flow data comparing method, the capacity tester of existing various precision and test device blocks on market, by its with Battery module or group of battery modules parallel connection can read capacity signal；During use, capacity tester or test device mould Block need not be in parallel with battery module or group of battery modules normality, is preferably set as that timing is patrolled and examined at signal processing module each Battery module or group of battery modules read capacity signal (such as at interval of 10 minutes)；As long as monitoring certain battery mould The real time capacity of block or certain group of battery modules is relatively low, can preferentially charge it.

Described power output interface 5 generally uses the power switch of Digital Signals logic to make, and it automatically controls Logic is typically designed as, and does not closes (open circuit) when receiving " 0 " signal, closes (electricity when receiving " 1 " signal Road turns on)；The impulse disturbances shadow brought by cell channel for the post equipment and control equipment thereof that eliminate photovoltaic system Ring, filter protective circuit can be added in the signalling channel of power output interface with measure and control device.

In the present invention, the discharge controller 8b in energy storage measuring and controlling equipment is typically based on its power requirement and determines design side Formula, can be more integrated with measure and control device 2 when power is less；It is independently arranged when power is bigger, its work-based logic Function both can independent design, it is possible to be arranged at the inside (integrated by signal processing module 2b) of described measure and control device； Fig. 7 is the photovoltaic system topology example that a kind of discharge controller 8b is independently arranged, and its control of discharge functional independence designs And it is integrated in the control of discharge management system that accumulator is rearmounted；If the operating current of load is alternating current, need to add Inverter 9, inverter can be integrated in discharge controller, it is possible to discrete setting.

Following example are merely to illustrate technical scheme, and these technical schemes can be used alone, it is possible to adds Enter or combine and use other mature technologies；As long as collecting photovoltaic charged electric current according to photovoltaic harvester 6 to decline institute The technical characterstic of performance, carries out data by measure and control device 2 to its signal gathered and compares and logical process, setting Control the on/off assembled state of the some automatically controlled logic switches of power output interface 5 under fixed logical condition, can realize Basic fundamental target to energy storage battery group 4 intelligent charging described in the present invention program.

Embodiment 1,

Designing a kind of city and speak approvingly of the small-power photovoltaic system of road solar street light, this system is by the photovoltaic group of 200W Accumulator battery 4 that 1, two 12V100Ah plumbic acid maintenance-free accumulator of part are in series, the LED lamp of 50W (discharge load 10) and described energy storage measuring and controlling equipment 11 form.

This energy storage measuring and controlling equipment 11 includes measure and control device 2, photovoltaic input 3, power output interface 5, photovoltaic collection Device 6, discharge controller 8b and inspection device 12；Wherein, discharge controller 8b is that a constant current source controls Device, the two of the accumulator battery 4 that its power input two accumulator of electrical connection are composed in series are extreme, power output end Electrical connection LED lamp, signal input part connects measure and control device 2；Measure and control device 2 is electrically connected by photovoltaic input 3 The power output end of photovoltaic module 1；The signal input part of inspection device 12 connects two accumulator (battery moulds respectively Block) two ends, its signal output part connect measure and control device 2；Power output interface 5 is by 3 automatically controlled logic switch groups Becoming, measure and control device 2 connects 3 external connection end of two battery series connection by these 3 automatically controlled logic switches, i.e. distinguishes Connecting two ends and the centre tap end of two battery series connection of the accumulator battery 4 of two battery series connection, its local connects Structure is as shown in Figure 5 a.

The internal structure of measure and control device 2 includes interface logic biock 2a, signal processing module 2b and charging module 2c, The data using integration process, power model is programmed by CPU and configures and additionally arranges device and realize its function, photovoltaic Harvester 6 is built in measure and control device 2, and its input electrically connects with photovoltaic input 3, and its outfan is with built-in side Formula accesses the input of signal processing module 2b, and its local attachment structure is as shown in Figure 3 a；Wherein accumulator is filled The charging module 2c of electricity includes output voltage constant circuit and output current limit circuit, is set with whole group storage battery 4 chargings or two kinds of mode of operations to single battery charging, the fine tune temperature of balancing cell charging voltage compensates and controls electricity Road, uses pulse digit technology to realize the technical functionality of described charging module 2c.

The signals collecting of photovoltaic harvester 6 uses proton differential flow mode, collection per minute once, the light that will collect Volt current intensity (or relevant voltage value of conversion process) data input measure and control device 2 processes, and sets state logic For: when the photovoltaic electric intensity of flow collected is more than 3.00A continuous 3 times, logic switch 5a and 5c closes conducting, Logic switch 5b turns off, and now charging module 2c connects the two ends of two series-connected batteries 4；When collect When photovoltaic electric intensity of flow equals to or less than 3.00A continuous 3 times, start logic switch 5b Guan Bi conducting, logic switch 5a and 5c according to be programmed to or 5a conducting 5c turn off or 5c conducting 5a turn off, this ON/OFF start after Setting cycle is 30 minutes, after 30 minutes, photovoltaic electric intensity of flow is re-started collection；This ON/OFF described opens After Dong, charging module 2c is made to realize respectively one of two accumulator being charged；Charging module is to two accumulator One of charging polarity corresponding with the ON/OFF state synchronized of described logic switch.

Inspection device 12 is to the routine inspection mode of two accumulator for patrolling and examining voltage, and its input stores with two plumbic acids respectively Battery (battery module) is in parallel, within every 5 minutes, patrols and examines a real-time voltage, and its voltage signal is fed back to observing and controlling Device 2；Acquisition every time is patrolled and examined voltage data and is updated the data of last time, by the reality of two accumulator by measure and control device Time voltage data compare, indirectly sentence know its store up capacitance, preferentially to voltage show low accumulator be charged；When When the real-time voltage of two accumulator is identical, two accumulator are carried out time average distribution charging.

3 automatically controlled logic switch 3a, 3b, 3c of power output interface 5, all use conventional numerical signal to control to open The power switch closing logic is made, and it automatically controls logical design is not close (open circuit) when receiving " 0 " signal, (turning circuit) is closed when receiving " 1 " signal.

Photovoltaic system described in the present embodiment, by logic switch 5a, 5b, 5c in described energy storage measuring and controlling equipment 11 The Intelligent Transformation of ON/OFF state, can such as use conventional charging device when photovoltaic electric intensity of flow is more than 3.00A Equally work, set the mode of operation of charging module this state of 2c as constant charge voltage 27.00V, restriction maximum Charging current 18.00A；When photovoltaic electric intensity of flow is equal to or less than 3.00A, whole group of accumulator battery 4 is filled Electrically real-time transform is to charge battery module 4a or battery module 4b, sets under this state of charging module 2c Mode of operation be constant charge voltage 13.50V, limit maximum charging current 18.00A；Due to by filling accumulator Voltage declines one times, makes the strength of charging current of entrance battery module obtain and promotes, thus can obtain battery module Relatively good charging effect, it is achieved that the intelligent charging to accumulator battery 4.

The present embodiment effectively adapts to remain to make full use of photovoltaic module in the case of the daylight setting sun, obnubilation, cloudy all classes At the electric energy that low light environment sends, solar photovoltaic utilization rate is high, and the most this micropower charging modes can effectively suppress plumbic acid In maintenance-free battery, the lead sulfate crystallization salinization phenomenon of negative plate, keeps ability of being filled and the load-carrying ability of accumulator, Extend its service life, reduce its replacement cost.This photovoltaic system continues to increase in accumulator front end to arrange wind-powered electricity generation group Part and charge controller thereof, become a kind of city and speak approvingly of the solar energy on road, wind energy complementary street lamp.

Embodiment 2,

Two 12V100Ah plumbic acid maintenance-free accumulator described in embodiment 1 are changed into the lead of 4 6V100Ah Acid maintenance-free battery, 4 battery series connection form two extreme and middle 3 series connection tap terminals of accumulator battery 4, Totally 5 external connection end；Power output interface 5 changes accordingly and is made up of 5 automatically controlled logic switches, and measure and control device 2 passes through Two of the accumulator battery that these 5 automatically controlled logic switches connect 4 battery series connection respectively extreme and middle 3 series connection Tap terminals, the row of 5 automatically controlled logic switches and 5 external connection end of series-connected batteries connects method and described photovoltaic energy storage Measuring and controlling equipment, remaining method of attachment of electricity generation system, similar with embodiment 1.

The present embodiment has the series-connected batteries structure of 5 external connection end owing to using, and controllable precision is higher, design For two-stage precision controlling: it is to be considered as by the series-connected batteries of 4 6V100Ah batteries that described extra fine grade controls Two 12V100Ah series connection are formed, and the centre tap end only controlling 4 6V100Ah battery series connection (only enables 3 Logic switch, is equivalent to the local attachment structure shown in Fig. 5 a), power output interface 5 only enable 3 automatically controlled Logic switch, is equivalent to the charging effect described in embodiment 1；When extra fine grade control, photovoltaic harvester 6 are adopted Collect to photovoltaic electric intensity of flow be still equal to or less than 3.00A time, start fine grade control, at measure and control device 2 Programming Control under 5 logic switches are carried out corresponding ON/OFF combination, it is achieved respectively to 4 6V100Ah Battery module carries out charging, preferentially voltage is showed low accumulator and is charged, so that entering battery module Photovoltaic charged intensity realizes the most indirectly promoting.

The present embodiment can utilize the electric energy that photovoltaic module sends at low light environment more fully.

Embodiment 3,

Implement to deform further to embodiment 2, by the plumbic acid maintenance-free accumulator of 4 6V100Ah with 12 The monomer lead-acid battery of 2V100Ah substitutes, and each cell uses the mode that external series connects, outside cell The interface of portion's series connection is simultaneously as battery module external connection end；Power output interface 5 respective design is 13 automatically controlled logics Switch composition, it is similar with embodiment 2 that the row of 13 external connection end of itself and 12 cells connects method.

The present embodiment passes through 13 automatically controlled logic switches of power output interface 5 under the programming Control of measure and control device 2 Carry out corresponding ON/OFF combination, thus make the charge strength of entrance cell realize under the more weak state of luminous energy Indirectly promoting, the electric energy obtained at low light environment further with photovoltaic module, the most respectively to 12 cells Carry out time average distribution charging, reach effectively to safeguard the purpose of battery.

Embodiment 4,

12 2V100Ah monomer lead-acid batteries described in embodiment 3 are replaced by the list of 16 1.7V100Ah Body nickel-zinc cell, power output interface 5 respective design is 17 automatically controlled logic switch compositions, itself and 16 monomers The row of nickel-zinc cell groups of 17 external connection end of series connection connects method, similar with embodiment 3.

The present embodiment is the demand that segments market proposed based on Large Copacity nickel-zinc cell technology maturation in recent years, this kind of nickel The cryogenic property of zinc battery is remarkable, and typically under-20 DEG C of temperature environments, electric discharge can keep the room temperature capacity of about 90%, Specific energy, typically up to more than 60Wh/Kg, is the accumulator of road solar street light desired configuration.

Embodiment 5,

On the basis of embodiment 1, add voltage increase module 7, its be independently arranged at the outfan of charging module 2c with Between power output interface 5, its signal input part connects the signal processing module 2b of measure and control device 2, such as Fig. 4 a Shown in；This kind of voltage increase module has all size product in market, and power number can reach photovoltaic energy storage measuring and controlling equipment Coupling demand, only need by specification programming after purchasing, insert corresponding data and can use.

In the present embodiment, the lithium battery module of two nominal 55V20Ah is used to be composed in series accumulator battery 4, two The connector of lithium battery series connection is centre tap end；Power output interface 5 is made up of 3 automatically controlled logic switches equally, Measure and control device 2 connects two lithium battery modules respectively by 3 automatically controlled logic switches of power output interface 5 and connects The two ends of accumulator battery 4 and centre tap end, this local attachment structure is similar with embodiment 1.

The discharge controller 8b of the present embodiment is a constant voltage source controller, and its signal input part connects measure and control device 2, power input electrically connects two lithium battery modules and is composed in series the two extreme of accumulator battery 4, power output end electricity The load 10 connected is a ultrahigh-frequency pulse generator.

Embodiment 6,

By integrated with the charging module 2c in measure and control device 2 for the function of the voltage increase module 7 described in embodiment 5 Integrated, as illustrated in fig. 4 c, remaining is similar with embodiment 5, and acquired implementation result is the most similar.

Embodiment 7,

By the charging module 2c discrete design in previous embodiment 1 measure and control device 2, as shown in Figure 3 b, by compiling Function described in Cheng Shixian；Because the maximum operating currenbt of charging module 2c reaches 18A, charging module 2c's is discrete The job stability being more beneficial for signal processing module 2b is set.

Embodiment 8,

The routine inspection mode of two accumulator is changed patrolling and examining previous embodiment 1 inspection device 12 into capacity, commercial one The battery capacity special device blocks of test, the input of this device blocks respectively with two lead-acid accumulator (batteries Module) in parallel, within every 10 minutes, patrol and examine one-shot battery capacity, and its capacity data signal is fed back to measure and control device (2), Acquisition every time is patrolled and examined capacity data and is updated the data of last time, by the real time capacity of two accumulator by measure and control device Data compare, and directly sentence the storage capacitance knowing battery module 4a or battery module 4b, and capacity is showed by real-time priority Low group of battery modules is charged；When the real time capacity of two accumulator is identical, measure and control device 2 is to battery mould Block 4a or battery module 4b carries out time average distribution charging.

Remaining is same as in Example 1, due to inspection device 12 to the routine inspection mode of two accumulator for patrolling and examining capacity, Directly sentencing the storage capacitance knowing battery module 4a or battery module 4b, preferential charging effect is more preferable.

Embodiment 9,

Technical scheme of the present invention being generalized to a kind of city and claims the photovoltaic system of grid-connected solar power plant, energy storage is surveyed Control equipment 11 design according to photovoltaic module 1, accumulator battery 4 power number depending on, its input/output voltage, electric current, Design according to photovoltaic module 1, the voltage of accumulator battery 4 of some battery module combinations, current characteristics.

In the present embodiment, described controlled battery module by 3 nominal external voltages be 90V, capacity be 3000Ah Nickel zinc pile composition, each nickel zinc pile is every by the monomer nickel-zinc cell of 52 × 2 nominals 1.71V, 1500Ah It is in series after two parallel connections, nominal storage electrical power 270KVAh, the accumulator battery that 3 nickel zinc piles are composed in series 4 meter storage electrical power number 810KVAh；The photovoltaic module 1 of this nickel zinc pile coupling is nominally 330V output, photovoltaic Generated output 100KVAh, the maximum current theoretical value about 300A of photovoltaic generation.

Owing to photovoltaic generation power, the storage electrical power number of the present embodiment are relatively big, the interface logic mould in measure and control device 2 The whole discrete setting of block 2a, signal processing module 2b and charging module 2c, uses high power module to program CPU And realize its function by additional accessory part；Charging module 2c is set with and charges whole group of nickel-zinc cell 4 or right Two kinds of mode of operations of single nickel zinc pile charging；Power output interface 5 is designed as the high-power of 4 automatically controlled logics Switch, respectively two of two extreme and middle nickel zinc piles of the accumulator battery 4 of 3 nickel zinc piles series connection of connection Tap terminals；Automatically controlled logic switch and the method for attachment of nickel zinc 4 external connection end of pile group, inspection device 12 and other The local method of attachment of assembly, sees shown in Fig. 5 b and 6b.

When the photovoltaic electric intensity of flow that photovoltaic harvester 6 collects is more than 30A, signal processing module 2b controls Interface logic biock 2a sends " 1 " signal to logic switch 5a, 5d, makes logic switch 5a, 5d turn on, with Time logic switch 5b, 5c are sent " 0 " signal, make logic switch 5b, 5c turn off, photovoltaic module 1 is at signal Processing module 2b control under by charging module 2c, nickel zinc pile group 4 is carried out whole group of charging, charging module 2c this Mode of operation under state is constant charge voltage 297V, limits maximum charging current 300A；When photovoltaic collection fills When putting the 6 photovoltaic electric intensity of flows collected equal to or less than 30A, logic switch 5a, 5b, 5c, 5d are at signal " 1 " or " 0 " signal that processing module 2b is sent accordingly by interface logic biock 2a under controlling, re-starts The ON/OFF combination of 4 logic switches, make charging module 2c realize nickel zinc pile 4a, nickel zinc pile 4b or The charging respectively of nickel zinc pile 4c, the mode of operation under this state of charging module 2c be constant charge voltage 99V, Limit maximum charging current 300A.

The routine inspection mode of three nickel zinc piles both can be set to patrol and examine voltage such as embodiment 1 scheme by inspection device 12, Also scheme can be set to patrol and examine capacity as described in Example 8, real-time by three nickel zinc piles of measure and control device 2 Voltage or capacity data compare, and preferentially voltage or capacity are showed low nickel zinc pile and are charged；When three nickel zinc When the real-time voltage of pile or capacity data are identical, three nickel zinc piles are carried out time average distribution charging, reaches Make full use of photovoltaic module low light environment generated electricity can technical goal.

The discharge controller 8b of the present embodiment and the inverter of industry common name, AC power distribution cabinet/AC distribution panel, central control system etc. Conventional system controls device unified planning design, the storage that its power input three nickel zinc piles of electrical connection are composed in series Set of cells 4 liang is extreme, and the load 10 of its power output end electrical connection is local power network, and the management of its control of discharge is Unite integrated with the central control system of described inverter, AC power distribution cabinet/AC distribution panel.

Embodiment 10,

3 nickel zinc piles described in embodiment 9 are changed into 6 nominal external voltages be 45V, capacity be 3000Ah Nickel zinc pile, this pile is by series connection after every two parallel connections of the nickel-zinc cell of 26 × 2 nominals 1.71V, 1500Ah Become, nominal storage electrical power 135KVAh, 6 nickel zinc piles accumulator battery 4 meter storage electrical power number in series with Sample is 810KVAh；Power output interface 5 respective design is for be made up of 7 automatically controlled logic switches.

7 automatically controlled logic switches and 7 external connection end of 6 45V, 3000Ah nickel zinc pile series-connected batteries 4 Arrangement method principle similar with embodiment 9, technical goal is the photovoltaic electric current when photovoltaic harvester 6 collects When intensity is equal to or less than 30A, under the programming Control of signal processing module 2b, by interface logic biock 2a 7 automatically controlled logic switches are carried out corresponding ON/OFF combination, and the current intensity making entrance nickel zinc pile charge obtains Obtain and indirectly promote, realize respectively 6 45V, 3000Ah nickel zinc piles being carried out smart allocation charging further, make The low light level electric energy of photovoltaic module is fully used.

Above example is only in order to illustrate technical scheme and unrestricted, although with reference to embodiment to the present invention Be described in detail, it will be understood by those of skill in the art that technical scheme is modified or Equivalent, without departure from the spirit and scope of technical solution of the present invention, its right that all should contain in the present invention is wanted Ask in the middle of scope.

Claims (10)

1. a photovoltaic system for band energy storage measuring and controlling equipment, including photovoltaic module (1), accumulator battery (4), electric discharge Load (10) and energy storage measuring and controlling equipment (11), it is characterised in that described energy storage measuring and controlling equipment (11) includes surveying Control device (2), photovoltaic input (3), power output interface (5), photovoltaic harvester (6), control of discharge Device (8b) and inspection device (12), the power input of described measure and control device (2) passes through photovoltaic input (3) Electrical connection photovoltaic module (1), its power output end connects described power output interface (5)；Described photovoltaic collection fills The input putting (6) connects photovoltaic input (3), and its signal output part connects measure and control device (2)；Described power supply Output interface (5) is made up of some automatically controlled logic switches, and it connects accumulator battery (4) two ends and accumulator battery In series connection tap terminals；Described accumulator battery includes that battery module that at least two is connected in series and serial interface set It is equipped with external connection end；The photovoltaic state of photovoltaic module 1 is carried out by described photovoltaic system by energy storage measuring and controlling equipment (11) Signals collecting, process, realize intelligent charge to described accumulator battery under setting measurement and control logic.

Photovoltaic system the most according to claim 1, it is characterised in that the signal of described inspection device (12) Input connects the two ends of controlled battery module in accumulator battery (4), the observing and controlling dress described in the connection of its signal output part Put (2)；Described inspection device (12) is independently arranged, also can be by its partial function or repertoire and described electricity Source output interface (5) is integrated.

Photovoltaic system the most according to claim 1, it is characterised in that the electricity of described discharge controller (8b) The two ends in source input electrical connection accumulator battery (4), its power output end electrical connection discharge load (10)；Described Discharge controller be independently arranged, its partial function or repertoire also can be integrated in measure and control device (2) or described The discharge load management system that accumulator battery is rearmounted.

Photovoltaic system the most according to claim 1, it is characterised in that described photovoltaic harvester (6) Signals collecting function is built in measure and control device (2), realizes its part logic merit by the integrated design of measure and control device Can or whole logic functions.

Photovoltaic system the most according to claim 1, it is characterised in that described energy storage measuring and controlling equipment (11) Measure and control device (2) includes interface logic biock (2a), signal processing module (2b) and charging module (2c), institute Each the discrete setting of submodule selectivity stated or shared integrated module realize its function.

Photovoltaic system the most according to claim 5, it is characterised in that described signal processing module (2b) Signal input part connect photovoltaic harvester (6) and described inspection device (12), its signal output part is distinguished Connect charging module (2c) and interface logic biock (2a)；The signal output part of described interface logic biock (2a) Electric connection of power supply output interface (5), the signal processing module (2b) described in the connection of its signal input part；Described charging Power input electrical connection photovoltaic harvester (6) of module (2c) or photovoltaic input (3), its power supply exports End electric connection of power supply output interface (5), the signal processing module (2b) described in the connection of its signal input part.

Photovoltaic system the most according to claim 5, it is characterised in that described measure and control device (2) also includes Voltage increase module (7), the signal input part of voltage increase module connects signal processing module (2b), and its power supply is defeated Enter end electrical connection photovoltaic input (3), power output end electrical connection charging module (2c), or power input to be electrically connected Connect charging module (2c), power output end electric connection of power supply output interface (5)；Described voltage increase module is independent Arrange, also can be by integrated with described charging module (2c) to its partial function or repertoire.

Photovoltaic system the most according to claim 1, it is characterised in that described energy storage measuring and controlling equipment (11) can The system control equipment discrete setting conventional with photovoltaic system, also can by its partial function or repertoire with described often The system control equipment of rule is integrated.

9. control method based on the arbitrary described photovoltaic system of claim 1～8, the method is surveyed by described energy storage The photovoltaic harvester (6) of control equipment (11) carries out signals collecting to the photovoltaic state of photovoltaic input (3), And compare with the interior storage data of described measure and control device (2), measure and control device (2) is dynamic according to result of the comparison Convert the assembled state of described power output interface (5) some logic switches, make described charging measuring and controlling equipment (11) Described accumulator battery (4) is realized intelligent charging.

Method the most according to claim 9, it is characterised in that the described charging to controlled battery module, The voltage data that feeds back according to inspection device (12) for measure and control device (2) or/and capacity data, to voltage or/and The relatively low battery module of capacity preferentially charges；When the real-time voltage of some battery modules is or/and capacity is identical, Within the setting time, it is carried out charging interval mean allocation.