CN109713697A - Micro-capacitance sensor central controller and its distribution method - Google Patents

Abstract

The embodiment of the present invention proposes a kind of micro-capacitance sensor central controller and its distribution method, which comprises if detecting main electric network fault, detects the remaining capacity of the energy storage device of micro-capacitance sensor；If the remaining capacity of the energy storage device of the micro-capacitance sensor is lower than default power threshold, each power information to power load is obtained；According to each power information to power load, distribution priority is distributed to power load to be each；According to each distribution priority to power load, the energy storage device using the micro-capacitance sensor is each to power load distribution；When the remaining capacity of main electric network fault and energy storage device is lower than default power threshold, consider each distribution priority to power load, according to power load distribution priority access micro-capacitance sensor energy storage device be it is each to power load distribution, can reduce the power load of the energy storage device of micro-capacitance sensor.

Description

Micro-capacitance sensor central controller and its distribution method

Technical field

The present invention relates to micro-capacitance sensor central controller (abbreviation MGCC) technical fields, more particularly to a kind of micro-capacitance sensor center Controller and its distribution method.

Background technique

Micro-capacitance sensor (Micro-Grid) is also translated into microgrid, refer to by distributed generation resource, energy storage device, energy conversion device, The small-sized electric system of the compositions such as load, monitoring and protective device.Micro-capacitance sensor realizes operation using micro-capacitance sensor central controller Control and efficiency optimization, the energy storage including micro-capacitance sensor control, with electric control etc..

The power supply capacity of micro-capacitance sensor energy storage device is limited, if micro-capacitance sensor central controller controls energy storage device is simultaneously It powers to be multiple to power load, will cause the excessive power load of micro-capacitance sensor energy storage device, and to the multiple to electricity consumption The duration of load supplying will not be very long.

Summary of the invention

Based on this, it is necessary to provide a kind of distribution method of micro-capacitance sensor central controller.

A kind of distribution method of micro-capacitance sensor central controller, which comprises

If detecting main electric network fault, the remaining capacity of the energy storage device of micro-capacitance sensor is detected；

If the remaining capacity of the energy storage device of the micro-capacitance sensor is lower than default power threshold, obtain each to power load Power information；

According to each power information to power load, distribution priority is distributed to power load to be each；

According to each distribution priority to power load, the energy storage device using the micro-capacitance sensor is each negative to electricity consumption Carry distribution.

The distribution method of above-mentioned micro-capacitance sensor central controller, in the remaining capacity of main electric network fault and energy storage device lower than pre- It is micro- according to the distribution priority access to power load if when power threshold, considering each distribution priority to power load The energy storage device of power grid be it is each to power load distribution, can reduce the power load of the energy storage device of micro-capacitance sensor, Er Qieke To allow preferentially obtain distribution to obtain longer power-on time to power load.

Described in one of the embodiments, to power load is each charging pile in charging station；Each charging pile is all provided with There is comprehensively control smart charge administrative unit；

The step of acquisition each power information to power load include: establish the micro-capacitance sensor central controller with The communication connection of each comprehensively control smart charge administrative unit；The chargeable electricity of residue of each charging pile is obtained, and is utilized The micro-capacitance sensor central controller obtains the electricity charge valuation of corresponding charging pile from each comprehensively control smart charge administrative unit；

It is described according to each power information to power load, for each the step of distributing distribution priority to power load It include: to be matched according to the chargeable electricity of residue of the electricity charge of each charging pile valuation and each charging pile for each charging pile Electric priority.

The residue according to the electricity charge of each charging pile valuation and each charging pile can in one of the embodiments, Charge capacity is that the step of each charging pile distributes distribution priority includes:

By the default calculating of the chargeable electricity input first of the residue of the electricity charge valuation of each charging pile and each charging pile Model obtains the distribution factor of each charging pile；The first default computation model is；

Y_Ci=a × C_Fi/∑C_F+b×C_Si/∑C_S；I=1,2N；

Wherein, Y_CiFor the distribution factor of i-th of charging pile, C_FiFor the electricity charge valuation of i-th of charging pile, a and b are corresponding Weight coefficient, N is charging pile sum, and a+b=1,0 < a < 1,0 <b < 1；∑C_FFor the charging expense summation of each charging pile, ∑C_SFor the summation of the remaining chargeable electricity of each charging pile；

The size of the distribution factor of more each charging pile, according to the distribution factor sequence from big to small of each charging pile Distribution priority is distributed for each charging pile.

A is greater than b in one of the embodiments,.

Each in one of the embodiments, to power load is power load in building in each domestic consumer；

Described the step of obtaining each power information to power load includes: the power failure influence for obtaining each domestic consumer Information；

It is described according to each power information to power load, for each the step of distributing distribution priority to power load It include: to influence the power load that information is each domestic consumer according to the power failure of each domestic consumer to distribute distribution priority.

It includes each domestic consumer when moving in that the power failure of each domestic consumer, which influences information, in one of the embodiments, Long and each domestic consumer power load grade.

It is each domestic consumer's that the power failure according to each domestic consumer, which influences information, in one of the embodiments, Power load distribute distribution priority the step of include:

Each domestic consumer is moved in into duration and the default calculating of power load grade input second of each domestic consumer Model obtains the distribution factor of each domestic consumer；The second default computation model are as follows:

Y_Ji=c × J_Si/∑J_S+d×J_Fi/∑J_F；I=1,2N；

Wherein, Y_JiDuration, J are moved in for i-th domestic consumer_SiDuration, J are moved in for i-th domestic consumer_FiIt is i-th The power load grade of a domestic consumer, wherein power load higher grade, J_FiIt is bigger；C and d is corresponding weight coefficient, N It is total for domestic consumer, and c+d=1,0 < c < 1,0 < d < 1；∑J_SFor the total duration of moving in of each domestic consumer, ∑ J_FIt is each The sum of customer charge grade of domestic consumer；

The size of the distribution factor of more each domestic consumer, according to each domestic consumer the distribution factor from big to small Sequence is that each domestic consumer distributes distribution priority.

C is less than d in one of the embodiments,.

Also propose a kind of micro-capacitance sensor central controller, the micro-capacitance sensor central controller is for detecting main electric network fault When, detect the remaining capacity of the energy storage device of micro-capacitance sensor；If detecting, the remaining capacity of the energy storage device of the micro-capacitance sensor is lower than Default power threshold, then obtain each power information to power load；Then according to each power information to power load, Distribution priority is distributed to power load to be each；Then according to each distribution priority to power load, using described micro- The energy storage device of power grid is each to power load distribution.

Described in one of the embodiments, to power load is each charging pile in charging station；Each charging pile is all provided with There is comprehensively control smart charge administrative unit；The micro-capacitance sensor central controller is connect with each integrated charging administrative unit；

The micro-capacitance sensor central controller is used to obtain the chargeable electricity of residue of each charging pile, and is used for from each comprehensive Close the electricity charge valuation that control smart charge administrative unit obtains corresponding charging pile；Then according to the electricity charge of each charging pile valuate with And the chargeable electricity of residue of each charging pile is that each charging pile distributes distribution priority.

Detailed description of the invention

Fig. 1 is the flow diagram of the distribution method of micro-capacitance sensor central controller in one embodiment；

Fig. 2 is the flow diagram that distribution priority is distributed in a specific embodiment；

Fig. 3 is the flow diagram that distribution priority is distributed in another specific embodiment；

Fig. 4 is the structural schematic diagram of the power distribution equipment of the micro-capacitance sensor central controller in one embodiment.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

The embodiment of the present application proposes a kind of distribution method of micro-capacitance sensor central controller.Fig. 1 is micro- in one embodiment The flow diagram of the distribution method of power grid central controller.Referring to Fig. 1, the distribution method packet of the micro-capacitance sensor central controller Step 102 is included to step 108:

Step 102, if detecting main electric network fault, the remaining capacity of the energy storage device of micro-capacitance sensor is detected.

The electric energy being converted to generally is stored in energy storage device by the compact electrical generating systems of micro-capacitance sensor, then by micro-capacitance sensor center It is each to power load power supply that controller, which controls energy storage device,.The large size that main power grid can be country is transported to electric system.

Specifically, micro-capacitance sensor energy storage device can be battery.Specifically, it can be household electricity load to power load Such as air-conditioning, refrigerator, washing machine, television set etc., it is also possible to office building to power load and waits for power load such as computer, service Device etc. is also possible to each charging pile in charging station to power load.

Step 104, it if the remaining capacity of the energy storage device of the micro-capacitance sensor is lower than default power threshold, obtains each stand-by The power information of electric loading.

Specifically, each power information to power load includes that each power failure to power load influences information, each Valuate to the job information of power load and/or each electricity charge to power load etc..Having a power failure, which influences information, can be The degree information that power load is affected by power failure is waited for when power failure.

In one embodiment, if detecting main electric network fault, and if the energy storage device of the micro-capacitance sensor residue electricity Amount then generates priority distribution instruction lower than power threshold is preset, and it is each negative to electricity consumption to distribute instruction acquisition according to the priority The power information of load.

Step 106, according to each power information to power load, distribution priority is distributed to power load to be each.

Such as has a power failure and influence that big, to distribute its priority higher；Job significance level to power load is high by one A bit, it is higher to distribute its priority.Specifically, priority is high can preferential distribution to power load.

Step 108, according to each distribution priority to power load, the energy storage device using the micro-capacitance sensor is each To power load distribution.

Such as many a user of an office building, only one photovoltaic system, when the accumulator electric-quantity deficiency of photovoltaic system, Main power grid and failure, then be preferably important to power load distribution.In other embodiments, if main power system restoration is normal, it can cut Being changed to the main power grid of access is each to power load power supply, can not consider priority.

Described in one of the embodiments, to power load is each charging pile in charging station；Each charging pile is all provided with There is comprehensively control smart charge administrative unit.The step of acquisition each power information to power load includes: to establish institute State the communication connection of micro-capacitance sensor central controller Yu each comprehensively control smart charge administrative unit；Obtain the surplus of each charging pile Remaining chargeable electricity, and obtained accordingly using the micro-capacitance sensor central controller from each comprehensively control smart charge administrative unit The electricity charge of charging pile are valuated.Electricity charge valuation strategy in comprehensively control smart charge administrative unit equipped with corresponding charging pile, it is comprehensive Smart charge administrative unit is controlled according to the electricity charge of electricity charge valuation policy calculation charge user.

It is described according to each power information to power load, for each the step of distributing distribution priority to power load It include: to be matched according to the chargeable electricity of residue of the electricity charge of each charging pile valuation and each charging pile for each charging pile Electric priority.

The present embodiment, each power information to power load are the electricity charge valuation of each charging pile and each charging pile The chargeable electricity of residue, can be that each charging pile distributes according to the electricity charge valuation of charging pile and the remaining capacity of charging pile Distribution priority.Such as the electricity charge high charging pile of valuating may be the charging pile to charge to VIP user, be filled to VIP user at this When the charging pile charging of electricity, not needing to be lined up, electricity charge valuation is high, the distribution priority of the charging pile can be improved, in order to avoid influence VIP user's charging.If the chargeable electricity of charging pile is lower than other charging piles, the distribution priority of the charging pile can be improved.

Further, the chargeable electricity of residue according to the electricity charge of each charging pile valuation and each charging pile is The step of each charging pile distribution distribution priority includes step 202 to step 204:

Step 202, by the chargeable electricity input first of the residue of the electricity charge valuation of each charging pile and each charging pile Default computation model, obtains the distribution factor of each charging pile；The first default computation model is；

Y_Ci=a × C_Fi/∑C_F+b×C_Si/∑C_S；I=1,2N；

Wherein, Y_CiFor the distribution factor of i-th of charging pile, C_FiFor the electricity charge valuation of i-th of charging pile, a and b are corresponding Weight coefficient, N is charging pile sum, and a+b=1,0 < a < 1,0 <b < 1；∑C_FFor the charging expense summation of each charging pile, ∑C_SFor the summation of the remaining chargeable electricity of each charging pile.

In other embodiments, the first default computation model can also be；

Y_Ci=a × C_Fi+b×C_Si；I=1,2N；

Wherein, Y_CiFor the distribution factor of i-th of charging pile, C_FiFor the electricity charge valuation of i-th of charging pile, a and b are corresponding Weight coefficient, N is charging pile sum, and a+b=1,0 < a < 1,0 <b < 1.

Step 204, the size of the distribution factor of more each charging pile, according to each charging pile the distribution factor from greatly to Small sequence is that each charging pile distributes distribution priority.

Such as in charging station No. 1 charging pile distribution factor Y_C1Higher than the distribution factor Y of No. 2 charging piles_C2, then No. 1 is distributed Charging pile distribution priority is higher than No. 2 charging piles.

Specifically, a is greater than b.Compared to the chargeable electricity of residue of each charging pile, the electricity charge meter of each charging pile is set Weight coefficient shared by valence is larger, more considers user demand.

In one embodiment, micro-capacitance sensor be applied to building, it is each to power load be each domestic consumer in use Electric loading；Described the step of obtaining each power information to power load includes: the power failure influence for obtaining each domestic consumer Information；It is described according to each power information to power load, wrapped for each the step of distributing distribution priority to power load It includes: the power load that information is each domestic consumer being influenced according to the power failure of each domestic consumer and distributes distribution priority.Specifically Ground, the influence degree information that domestic consumer is had a power failure when the power failure influence information of domestic consumer can be power failure.Specifically, each It includes that each domestic consumer moves in duration and the power load grade of each domestic consumer that the power failure of domestic consumer, which influences information,.

For example, domestic consumer can be with company, market, resident to Mr. Yu Lou Eryan.Such as the office building has 10 Layer, layers 1 and 2 is market, other layers are residents, it is clear that the power load grade of layers 1 and 2 is higher than other The domestic consumer of layer, can access micro-capacitance sensor is preferably that layers 1 and 2 waits for that power load is powered.For another example, certain hospital, 1 building It is clinic, the 2nd to 4 buildings are inpatient departments, and 5 buildings are operating rooms, it is evident that 5 buildings power load grades are higher than the family of other floor User, can access micro-capacitance sensor is preferably 5 buildings distribution.

Further, the power failure according to each domestic consumer influences the power load point that information is each domestic consumer Include step 302 to step 304 with the step of distribution priority:

Step 302, each domestic consumer is moved in into duration and the power load grade input second of each domestic consumer Default computation model, obtains the distribution factor of each domestic consumer；The second default computation model are as follows:

Y_Ji=c × J_Si/∑J_S+d×J_Fi/∑J_F；I=1,2N；

Wherein, Y_JiDuration, J are moved in for i-th domestic consumer_SiDuration, J are moved in for i-th domestic consumer_FiIt is i-th The power load grade of a domestic consumer, wherein power load higher grade, J_FiIt is bigger；C and d is corresponding weight coefficient, N It is total for domestic consumer, and c+d=1,0 < c < 1,0 < d < 1；∑J_SFor the total duration of moving in of each domestic consumer, ∑ J_FIt is each The sum of customer charge grade of domestic consumer.

In other embodiments, the second default computation model may be:

Y_Ji=c × J_Si+d×J_Fi；I=1,2N；

Wherein, Y_JiDuration, J are moved in for i-th domestic consumer_SiDuration, J are moved in for i-th domestic consumer_FiIt is i-th The power load grade of a domestic consumer, wherein power load higher grade, J_FiIt is bigger；C and d is corresponding weight coefficient, N It is total for domestic consumer, and c+d=1,0 < c < 1,0 < d < 1.

Step 304, the size of the distribution factor of more each domestic consumer, according to each domestic consumer the distribution factor from Arriving small sequence greatly is that each domestic consumer distributes distribution priority.

For example, the distribution factor Y of Stall domestic consumer_J1Greater than the distribution factor Y of Stall domestic consumer_J2, then Stall family The distribution priority of user is higher than second floor domestic consumer.

Specifically, c < d.Duration is moved in compared to domestic consumer, is arranged shared by the power load grade of domestic consumer Weight coefficient is larger, and specific gravity of the power load grade in distribution distribution priority of domestic consumer can be improved.

The distribution method of above-mentioned micro-capacitance sensor central controller, in the remaining capacity of main electric network fault and energy storage device lower than pre- It is micro- according to the distribution priority access to power load if when power threshold, considering each distribution priority to power load The energy storage device of power grid be it is each to power load distribution, can reduce the power load of the energy storage device of micro-capacitance sensor, Er Qieke To allow preferentially obtain distribution to obtain longer power-on time to power load.

Also propose that a kind of micro-capacitance sensor central controller, the micro-capacitance sensor central controller are used to detect main power grid event Barrier, detects the remaining capacity of the energy storage device of micro-capacitance sensor；If detecting, the remaining capacity of the energy storage device of the micro-capacitance sensor is lower than Default power threshold, then obtain each power information to power load；Then according to each power information to power load, Distribution priority is distributed to power load to be each；Then according to each distribution priority to power load, using described micro- The energy storage device of power grid is each to power load distribution.

In one embodiment, it is described to power load be charging station in each charging pile；Each charging pile is equipped with Comprehensively control smart charge administrative unit (abbreviation TCU)；The micro-capacitance sensor central controller and each integrated charging administrative unit Connection；

The micro-capacitance sensor central controller is used to obtain the chargeable electricity of residue of each charging pile, and is used for from each comprehensive Close the electricity charge valuation that control smart charge administrative unit obtains corresponding charging pile；Then according to the electricity charge of each charging pile valuate with And the chargeable electricity of residue of each charging pile is that each charging pile distributes distribution priority.

Above-mentioned micro-capacitance sensor central controller is lower than default power threshold in the remaining capacity of main electric network fault and energy storage device When, each distribution priority to power load is considered, according to the energy storage of the distribution priority access micro-capacitance sensor to power load Device be it is each can reduce the power load of the energy storage device of micro-capacitance sensor to power load distribution, and can allow preferential Longer power-on time is obtained to power load to distribution.

The embodiment of the present application also proposes a kind of power distribution equipment of micro-capacitance sensor central controller.Fig. 4 is in one embodiment The structural schematic diagram of the power distribution equipment of micro-capacitance sensor central controller, referring to Fig. 4, described device includes:

Energy storage device residual capacity measurement mould 410, if detecting the energy storage device of micro-capacitance sensor for detecting main electric network fault Remaining capacity；

Module 420 is obtained to power load power information, if the remaining capacity of the energy storage device for the micro-capacitance sensor is low In default power threshold, each power information to power load is obtained；

Distribution priority assignment module 430, for being each negative to electricity consumption according to each power information to power load Carry distribution distribution priority；

To power load Power entry module 440, for utilizing micro- electricity according to each distribution priority to power load The energy storage device of net is each to power load distribution.

The division of modules is only used for for example, in other realities in the power distribution equipment of above-mentioned micro-capacitance sensor central controller It applies in example, the power distribution equipment of micro-capacitance sensor central controller can be divided into as required to different modules, to complete above-mentioned micro- electricity All or part of function of the power distribution equipment of net central controller.

The specific restriction of power distribution equipment about micro-capacitance sensor central controller may refer to above for micro-capacitance sensor center The restriction of the distribution method of controller, details are not described herein.Each mould in the power distribution equipment of above-mentioned micro-capacitance sensor central controller Block can be realized fully or partially through software, hardware and combinations thereof.Above-mentioned each module can be embedded in the form of hardware or independence In processor in computer equipment, it can also be stored in a software form in the memory in computer equipment, in order to Processor, which calls, executes the corresponding operation of the above modules.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of distribution method of micro-capacitance sensor central controller, which is characterized in that the described method includes:

If detecting main electric network fault, the remaining capacity of the energy storage device of micro-capacitance sensor is detected；

If the remaining capacity of the energy storage device of the micro-capacitance sensor is lower than default power threshold, each electricity consumption to power load is obtained Information；

According to each power information to power load, distribution priority is distributed to power load to be each；

According to each distribution priority to power load, matched to be each to power load using the energy storage device of the micro-capacitance sensor Electricity.

2. the method according to claim 1, wherein it is described to power load be charging station in each charging pile； Each charging pile is equipped with comprehensively control smart charge administrative unit；

The step of acquisition each power information to power load include: establish the micro-capacitance sensor central controller with it is each The communication connection of comprehensively control smart charge administrative unit；The chargeable electricity of residue of each charging pile is obtained, and described in utilization Micro-capacitance sensor central controller obtains the electricity charge valuation of corresponding charging pile from each comprehensively control smart charge administrative unit；

It is described according to each power information to power load, wrapped for each the step of distributing distribution priority to power load Include: the chargeable electricity of residue according to the electricity charge of each charging pile valuation and each charging pile is that each charging pile distributes distribution Priority.

3. according to the method described in claim 2, it is characterized in that, described according to the electricity charge of each charging pile valuation and each The chargeable electricity of residue of charging pile is that the step of each charging pile distributes distribution priority includes:

The chargeable electricity of residue of the electricity charge valuation of each charging pile and each charging pile is inputted into the first default computation model, Obtain the distribution factor of each charging pile；The first default computation model is；

Y_Ci=a × C_Fi/∑C_F+b×C_Si/∑C_S；I=1,2N；

Wherein, Y_CiFor the distribution factor of i-th of charging pile, C_FiFor the electricity charge valuation of i-th of charging pile, a and b are corresponding weight Coefficient, N is total for charging pile, and a+b=1,0 < a < 1,0 <b < 1；∑C_FFor the charging expense summation of each charging pile, ∑ C_SFor The summation of the remaining chargeable electricity of each charging pile；

The size of the distribution factor of more each charging pile is each according to the distribution factor sequence from big to small of each charging pile A charging pile distributes distribution priority.

4. according to the method described in claim 3, it is characterized in that, a is greater than b.

5. to power load being in building in each domestic consumer the method according to claim 1, wherein each Power load；

Described the step of obtaining each power information to power load includes: the power failure influence letter for obtaining each domestic consumer Breath；

It is described according to each power information to power load, wrapped for each the step of distributing distribution priority to power load It includes: the power load that information is each domestic consumer being influenced according to the power failure of each domestic consumer and distributes distribution priority.

6. according to the method described in claim 5, it is characterized in that,

The power failure of each domestic consumer influences the electricity consumption for moving in duration and each domestic consumer that information includes each domestic consumer Load level.

7. according to the method described in claim 6, it is characterized in that, described be according to the power failure of each domestic consumer influence information The power load of each domestic consumer distributes the step of distribution priority and includes:

The power load grade for moving in duration and each domestic consumer of each domestic consumer is inputted into the second default computation model, Obtain the distribution factor of each domestic consumer；The second default computation model are as follows:

Y_Ji=c × J_Si/∑J_S+d×J_Fi/∑J_F；I=1,2N；

Wherein, Y_JiDuration, J are moved in for i-th domestic consumer_SiDuration, J are moved in for i-th domestic consumer_FiIt is i-th The power load grade of front yard user, wherein power load higher grade, J_FiIt is bigger；C and d is corresponding weight coefficient, and N is family Front yard total number of users, and c+d=1,0 < c < 1,0 < d < 1；∑J_SFor the total duration of moving in of each domestic consumer, ∑ J_FFor each family The sum of customer charge grade of user；

The size of the distribution factor of more each domestic consumer, according to the distribution factor sequence from big to small of each domestic consumer Distribution priority is distributed for each domestic consumer.

8. the method according to the description of claim 7 is characterized in that c is less than d.

9. a kind of micro-capacitance sensor central controller, which is characterized in that the micro-capacitance sensor central controller is for detecting main power grid When failure, the remaining capacity of the energy storage device of micro-capacitance sensor is detected；If detecting the remaining capacity of the energy storage device of the micro-capacitance sensor Lower than default power threshold, then each power information to power load is obtained；Then according to each electricity consumption to power load Information distributes distribution priority to power load to be each；Then according to each distribution priority to power load, institute is utilized It is each to power load distribution for stating the energy storage device of micro-capacitance sensor.

10. micro-capacitance sensor central controller according to claim 9, which is characterized in that it is described to power load be charging station Interior each charging pile；Each charging pile is equipped with comprehensively control smart charge administrative unit；The micro-capacitance sensor central controller with Each integrated charging administrative unit connection；

The micro-capacitance sensor central controller is used to obtain the chargeable electricity of residue of each charging pile, and for controlling from each synthesis Smart charge administrative unit processed obtains the electricity charge valuation of corresponding charging pile；Then according to the electricity charge of each charging pile valuation and respectively The chargeable electricity of residue of a charging pile is that each charging pile distributes distribution priority.