CN209119812U - DC energy storage backup power supply with peak load shifting function - Google Patents

Abstract

The utility model provides the DC energy storage backup power supply with peak load shifting function, including control mainboard, CAN communication circuit, voltage and current Acquisition Circuit, battery, DC-DC converter, DTU communication module and Cloud Server；The control mainboard is connected by the DTU communication module with the Cloud Server；The voltage and current Acquisition Circuit, battery and DC-DC converter are connected by the CAN communication circuit with the control mainboard；The battery is connected with the DC-DC converter, and the DC-DC converter is connected with load of base station.The utility model can mitigate load of the power grid in crest segment rate period when specifically used significantly, and create huge economic value using electricity using at the peak time price difference.

Description

DC energy storage backup power supply with peak load shifting function

Technical field

The utility model relates to the communications fields, in particular to the DC energy storage backup power supply of peak load shifting function.

Background technique

In current all base stations, in order to ensure that communication is uninterrupted, in addition to needing to supply base station by power grid Other than electricity, it is also necessary to be powered using backup power supply；Wherein, power grid needs first to connect an AC-DC converter, will hand over Stream becomes direct current, and AC-DC converter connects load of base station by DC bus again, to realize the power supply to base station；And standby Power supply is then directly connected to load of base station, carries out auxiliary power supply to base station to realize；Currently, base station backup power supply mainly uses lead Sour battery or lithium battery.Meanwhile existing base station power is nominal all bigger, substantially all in tens kilowatt hours；Using electricity When net is powered base station, since power grid has point of peak and low ebb, when being in peak times of power consumption, the power generation in power plant Scale has to be larger than electricity consumption scale, otherwise will will cause the situation of electric energy deficiency, in this case, if base station can pass through Backup power supply is powered, it will can be greatly reduced shortage of electric power situation；When being in the low power consumption phase, exhaustless electric energy It can waste again, in this case, if it is possible to extra electric energy be stored, electric energy will can be greatly reduced Waste.

But there are following defects for existing base station backup power supply:

1, existing base station backup power supply only has the function of backup power supply, and distribution-free formula energy-storage function, therefore, it is impossible to match It closes power grid and carries out peak load shifting control；

2, existing base station backup power supply does not have communication remote control, telemetry function, so that when specifically used, it is inconvenient In O&M and maintenance；

3, currently, the retired battery of automobile is more and more, existing base station backup power supply is all only capable of using normal cell, and nothing Method is unfavorable for improving the secondary use to the retired battery of automobile using nonstandard batteries such as the retired batteries of automobile.

Summary of the invention

The technical problems to be solved in the utility model is to provide a kind of DC energy storage standby with peak load shifting function Power supply can effectively solve distribution-free formula energy-storage function existing in the prior art by the DC energy storage backup power supply, be not easy to O&M and maintenance can not utilize the problem of nonstandard batteries such as automobile retired battery.

The utility model is realized in this way: the DC energy storage backup power supply with peak load shifting function, the direct current storage Energy backup power supply includes a control mainboard, a CAN communication circuit, a voltage and current Acquisition Circuit, a battery, DC-DC transformation Device, a DTU communication module and a Cloud Server；The control mainboard passes through the DTU communication module and the Cloud Server It is connected；The voltage and current Acquisition Circuit, battery and DC-DC converter pass through the CAN communication circuit and the control Mainboard processed is connected；The battery is connected with the DC-DC converter, and the DC-DC converter is connected with load of base station.

Further, the DC energy storage backup power supply further includes a display screen and a keyboard or touch screen；It is described aobvious Display screen and keyboard or touch screen are connected with the control mainboard.

Further, the control mainboard is ARM control panel.

Further, the battery is the retired battery of automobile with CAN interface.

Utility model has the advantages that 1, can cooperate power grid carry out peak load shifting control, in crest segment rate period, It can control battery to discharge to load of base station, to reduce load of base station to the electricity consumption of power grid；In paddy section rate period, It can control power grid to charge the battery, simultaneously as base station is again relatively more, it can be with by each DC energy storage backup power supply Form huge distributed energy storage power station；Therefore, the utility model can mitigate power grid in crest segment electricity when specifically used significantly Load in the valence period, and huge economic value is created using electricity using at the peak time price difference；

It 2, can also be into using the communication of control mainboard and Cloud Server, it can be achieved that remotely check operation data, operating status The setting of row operating parameter, therefore, can very convenient progress O&M and maintenance；

3, the retired battery of automobile can perfectly be used in DC energy storage backup power supply, realizes the two of the retired battery of automobile Secondary utilization.

Detailed description of the invention

The utility model is further described in conjunction with the embodiments with reference to the accompanying drawings.

Fig. 1 is the functional block diagram for the DC energy storage backup power supply that the utility model has peak load shifting function.

Description of symbols:

100- DC energy storage backup power supply, 200- load of base station, 300-AC-DC converter, 400- power grid, 500- direct current are female Line, 1- control mainboard, 2-CAN telecommunication circuit, 3- voltage and current Acquisition Circuit, 4- battery, 5-DC-DC converter, 6-DTU communication Module, 7- Cloud Server, 8- display screen, 9- keyboard or touch screen.

Specific embodiment

It please refers to shown in Fig. 1, the utility model has the preferable reality of the DC energy storage backup power supply 100 of peak load shifting function Example is applied, the DC energy storage backup power supply 100 includes a control mainboard 1, a CAN communication circuit 2, a voltage and current Acquisition Circuit 3, a battery 4, a DC-DC converter 5, a DTU communication module 6 and a Cloud Server 7；The control mainboard 1 passes through described DTU communication module 6 is connected with the Cloud Server 7；The voltage and current Acquisition Circuit 3, battery 4 and DC-DC converter 5 It is connected by the CAN communication circuit 2 with the control mainboard 1；The battery 4 is connected with the DC-DC converter 5 It connects, the DC-DC converter 5 is connected with load of base station 200.In the specific implementation, power grid 400 can elder generation and AC-DC converter 300 are connected, and AC-DC converter 300 is connected by DC bus 500 with load of base station 200 again, to realize power grid 400 Power supply to load of base station 200.

Wherein, the control mainboard 1 is core control panel, and operation logic, relay protective scheme, communication control of system etc. are all logical The control mainboard 1 is crossed to realize；The CAN communication circuit 2 be mainly used for realizing between control mainboard 1 and DC-DC converter 5 with And the communication between control mainboard 1 and battery 4, the CAN communication circuit 2 can using CTM1051 ADuM3201 chip come It realizes；The voltage and current Acquisition Circuit 3 is mainly used for acquiring load of base station electric current and bus voltage, so as to according to acquisition Load of base station electric current come after calculating charging current and judging whether DC energy storage backup power supply 100 enters according to bus voltage Standby mode, the voltage and current Acquisition Circuit 3 are common in the art for acquiring a kind of circuit of electric current and voltage, are being had When body is implemented, only need arbitrarily to select a kind of circuit that can be realized electric current and voltage data acquisition function from the prior art i.e. Can, the acquisition sensor which is related to can be CSM1000S sensor or VSM500D sensor； The battery 4 is stored for realizing the margin of energy and is powered when power grid 400 is powered off to load of base station 200；The DC-DC Converter 5 is bilateral power devices, it can be achieved that charging to battery 4, the energy discharge of battery 4 can also be fed back to power grid In 400；Communication interface of the DTU communication module 6 between control mainboard 1 and Cloud Server 7, it is a kind of dedicated for general Serial data is converted to IP data or by IP data are converted to serial data and network is transmitted by wireless communication nothing Line terminal equipment, in specific implementation, the DTU communication module 6 can be that GPRS DTU wireless communication module, 3G DTU is wireless The various wireless communication modules such as communication module, 4G DTU wireless communication module；The Cloud Server 7 is straight for realizing remotely checking Operation data, the operating status for flowing energy-storage standby power supply 100, can also be achieved remotely located operating parameter.

The DC energy storage backup power supply 100 further includes a display screen 8 and a keyboard or touch screen 9；The display screen 8 And keyboard or touch screen 9 are connected with the control mainboard 1.Wherein, the display screen 8 is for showing operation data, setting Set parameter etc.；The keyboard or touch screen 9 are for realizing human-computer interaction.

The control mainboard 1 is ARM control panel, since ARM control panel is common control panel in single-chip microcontroller, specific real Shi Shi only need to arbitrarily select one kind from existing ARM control panel, for example, TM4C1294, STM32F107 can be used Or ARM control panel made of the ARM chip manufacturing such as STM32F425.

The battery 4 is that the retired battery of automobile with CAN interface in the specific implementation can be by the retired battery of automobile It is directly connected in DC energy storage backup power supply 100 by CAN interface.

Please emphasis referring to Fig.1 shown in, the utility model have peak load shifting function DC energy storage backup power supply control Method, which comprises

Control mainboard is communicated by CAN communication circuit with voltage and current Acquisition Circuit, and is acquired by voltage and current Circuit acquires the data (including load of base station electric current and bus voltage) on DC bus in real time, and is detecting DC bus pair When load of base station normal power supply, control mainboard is charged the battery according to the operating parameter control DC-DC converter of setting；? When detecting DC bus power down, control mainboard discharges to battery according to the operating parameter control DC-DC converter of setting, Even if DC energy storage backup power supply enters standby power mode, to support base station to work normally；

Cooperate power grid to carry out peak load shifting control to DC energy storage backup power supply, specifically include:

When being in flat section rate period, control mainboard control DC-DC converter stopping is charged the battery and is put Electricity, DC energy storage backup power supply at this time are the equal of the backup power supply under a stationary state；

When in paddy section rate period, control mainboard control DC-DC converter is charged the battery, until battery Capacity be greater than setting the first parameter SOC1 (first parameter SOC1 is the parameter that can be set, typically larger than 90%) when, control Mainboard control DC-DC converter processed stops the charging to battery；

When being in crest segment rate period, control mainboard control DC-DC converter discharges to battery, to reduce base station The electricity consumption of power grid, until the capacity of battery is less than the second parameter SOC2 set, (the second parameter SOC2 is standby The capacity that power supply needs, typically larger than 50%) when, control mainboard controls DC-DC converter and stops electric discharge to battery.

When battery battery retired for automobile, the method also includes:

After the retired battery of automobile is linked into DC energy storage backup power supply, control mainboard is obtained by CAN communication circuit Take the battery parameter of the retired battery of automobile；The battery parameter includes charging voltage, charging current, discharge voltage, discharge current And Protection parameters；Before the retired battery of automobile is accessed DC energy storage backup power supply of the invention, need retired to automobile Battery first carries out safety detection, only can just be linked into DC energy storage backup power supply after through safety detection；

Operating parameter needed for the battery parameter that control mainboard will acquire automatically updates generation；Operating parameter packet needed for described Include charging voltage, charging current, discharge voltage, discharge current and Protection parameters；

Control mainboard is controlled DC-DC converter and is charged to the retired battery of automobile by the required operating parameter generated And electric discharge.

The control mainboard is charged the battery according to the operating parameter control DC-DC converter of setting

Charging coordinated control is carried out to the AC-DC converter in DC energy storage backup power supply and power grid, is specifically included:

By the maximum output current of AC-DC converter in power grid, (maximum output current of AC-DC converter is that have in power grid Limitation) it is used as an operating parameter I_ADCMAXIt is arranged into control mainboard；

When battery is charged, control mainboard acquires load of base station electric current by voltage and current Acquisition Circuit in real time I_load；

Control mainboard is according to I_ADCMAXAnd I_loadCalculate maximum chargeable electric current I_maxcharge, I_maxcharge=I_ADCMAX* Proportionality coefficient-I_loadIt (i.e. by the maximum output current of AC-DC converter in power grid first multiplied by proportionality coefficient, then subtracts and adopts in real time The load of base station electric current of collection)；Wherein, proportionality coefficient generally takes 90%, to reserve a part of power headroom, is being embodied certainly When, also it can modify proportionality coefficient according to actual needs；

Control mainboard is according to the calculated chargeable electric current of maximum, charging electricity of the real time modifying DC-DC converter to battery Stream.

The method also includes: joint debugging control is carried out to DC energy storage backup power supply and power grid, is specifically included:

When power grid in crest segment rate period heavy loads occurs or in the case where the stabilization of power grids, to the second parameter SOC2 It carries out turning down processing, in this manner it is possible to which more some electric energy of feedback are to load of base station in crest segment rate period, so as to effective Network load is reduced, and increases the economic benefits of base station；

In the case where power grid is unstable, height-regulating processing is carried out to the second parameter SOC2, in this way, DC energy storage backup power supply More energy can be laid in, to cope with worse power grid environment, such as prevent from having a power failure for a long time.

The method also includes: Cloud Server is communicated by DTU communication module with control mainboard, and passes through cloud service The operating parameter of DC energy storage backup power supply is arranged (for example, the first parameter SOC1 of setting, is arranged the second parameter SOC2, modification in device Crest segment, paddy section, flat section time etc.), or the operation data of DC energy storage backup power supply is obtained, Cloud Server is getting operation After data, operation data can be shown in WEB terminal or mobile phone terminal, to facilitate carry out O&M；Meanwhile in DC energy storage standby electricity When source occurs abnormal, exception information is actively reported to Cloud Server by control mainboard, and quick sound can be made to failure to facilitate It answers.

The method also includes:

Control mainboard is communicated by CAN communication circuit with battery, and obtains the relevant information of battery in real time, including fill Discharge voltage information, battery capacity information and charging and discharging currents information；It, can be real after relevant information by obtaining battery in real time Now it is conveyed on Cloud Server by the relevant information real-time display of battery to display screen or remotely, it can be with to maintain easily personnel The operating condition of electrolytic cell in real time；

Control mainboard is communicated by CAN communication circuit with DC-DC converter, and obtains DC-DC converter in real time Relevant information, including running state information, charging/discharging voltage information and charging and discharging currents information；By obtaining DC-DC in real time After the relevant information of converter, it can be achieved that by the relevant information real-time display of DC-DC converter to display screen or long-range conveying To on Cloud Server, with maintain easily personnel can be real-time the operating condition of electrolytic cell；

The charging/discharging voltage information of the charging/discharging voltage information of the battery that control mainboard will acquire and DC-DC converter into Row compares, and if the difference of the two is greater than the tolerance value of setting, determines that the wiring of DC-DC converter and battery is different Often, control mainboard shows exception on a display screen at this time；For example, when the information of voltage got from battery is 48V, and from The information of voltage that DC-DC converter is read be 0V, at this time it is determined that between DC-DC converter and battery wiring it is different Often, and exception information can be shown on display screen.

In conclusion the utility model has the advantages that

1, power grid can be cooperated to carry out peak load shifting control, in crest segment rate period, it is negative to base station to can control battery It is loaded into capable electric discharge, to reduce load of base station to the electricity consumption of power grid；Paddy section rate period in, can control power grid to battery into Row charging can form huge distributed energy storage by each DC energy storage backup power supply simultaneously as base station is again relatively more Power station；Therefore, the utility model can mitigate load of the power grid in crest segment rate period when specifically used significantly, and can Huge economic value is created using electricity using at the peak time price difference；

It 2, can also be into using the communication of control mainboard and Cloud Server, it can be achieved that remotely check operation data, operating status The setting of row operating parameter, therefore, can very convenient progress O&M and maintenance；

3, the retired battery of automobile can perfectly be used in DC energy storage backup power supply, realizes the two of the retired battery of automobile Secondary utilization.

Although those familiar with the art answers the foregoing describe specific embodiment of the present utility model Working as understanding, we are merely exemplary described specific embodiment, rather than for the limit to the scope of the utility model Fixed, those skilled in the art modification and variation equivalent made by the spirit according to the utility model all should Cover in the scope of the claimed protection of the utility model.

Claims (4)

1. a kind of DC energy storage backup power supply with peak load shifting function, it is characterised in that: including a control mainboard, a CAN Telecommunication circuit, a voltage and current Acquisition Circuit, a battery, a DC-DC converter, a DTU communication module and a Cloud Server； The control mainboard is connected by the DTU communication module with the Cloud Server；The voltage and current Acquisition Circuit, battery And DC-DC converter is connected by the CAN communication circuit with the control mainboard；The battery and the DC-DC Converter is connected, and the DC-DC converter is connected with load of base station.

2. as described in claim 1 with the DC energy storage backup power supply of peak load shifting function, it is characterised in that: further include one Display screen and a keyboard or touch screen；The display screen and keyboard or touch screen are connected with the control mainboard.

3. as described in claim 1 with the DC energy storage backup power supply of peak load shifting function, it is characterised in that: the control Mainboard is ARM control panel.

4. as described in claim 1 with the DC energy storage backup power supply of peak load shifting function, it is characterised in that: the battery For the retired battery of automobile with CAN interface.