CN103269127B - Remote monitoring system and remote monitoring method of communication base station power supply - Google Patents

Abstract

The invention discloses a remote monitoring system of a communication base station power supply. The remote monitoring system comprises an information collection module and a monitoring module. The information collection module is communicated with a power supply control module of the communication base station power supply through a CAN bus, the information of the communication base station power supply is collected through the power supply control module, and the information collection module feeds back the collected information of the communication base station power supply to the monitoring module through a wireless communication network. The invention further discloses a remote monitoring method of the communication base station power supply. In the remote monitoring system of the communication base station power supply, the information collection module can send the information of the communication base station power supply to the remote monitoring module, operating staff are capable of carrying out monitoring on the state of the communication base station power supply in a long distance and find whether faults occur to the communication base station power supply in time, and therefore timely repair can be carried out on the power supply of the communication base station power supply.

Description

The long distance control system of communication base station power supply and long-distance monitoring method

Technical field

The present invention relates to the management domain of communication base station power supply, particularly, relate to a kind of long distance control system of communication base station power supply and a kind of long-distance monitoring method of communication base station power supply.

Background technology

Communication base station power supply is mainly communication base station load supplying.Once communication base station power supply breaks down will have influence on the operation of whole communication base station.If communication base station there occurs fault, staff can only go on-the-spot inspection communication base station power supply and communication base station load, to judge the particular location broken down.This maintenance mode is wasted time and energy.

Therefore, how to judge that the particular location that in communication base station, fault occurs becomes this area technical problem urgently to be resolved hurrily.

Summary of the invention

The invention provides the long distance control system of communication base station power supply and the long-distance monitoring method of communication base station power supply, utilize described long distance control system can monitor the state of described communication base station power supply easily.

As one aspect of the present invention, a kind of long distance control system of communication base station power supply is provided, wherein, described long distance control system comprises information acquisition module and monitoring module, described information acquisition module is communicated with the energy supply control module of communication base station power supply by CAN, to be gathered the information of described communication base station power supply by this energy supply control module, described information acquisition module by cordless communication network by the information feed back of described communication base station power supply that collects to described monitoring module.

Preferably, described information acquisition module is provided with multiple CAN interface, to communicate with the multiple described energy supply control module of multiple described communication base station power supply, described monitoring module can to described multiple power-supply controller of electric allocation address of multiple described communication base station power supply.

Preferably, described monitoring module comprises router and WEB server, described router is used for carrying out data double-way transmitting-receiving with cordless communication network, and described WEB server is used for as man-machine interface, carries out communication between described router and described WEB server with ICP/IP protocol.

Preferably, described communication base station power supply comprises optical-electric module and supplementary power module, described energy supply control module can carry out communication to obtain fault message to described optical-electric module and described supplementary power module, and the information of described communication base station power supply comprises photoelectric current that described optical-electric module exports and photoelectricity voltage, the state-of-charge of described supplementary power module and described fault message.

Preferably, be provided with wireless communication module in described information acquisition module, described cordless communication network is GPRS network.

As another aspect of the present invention, also provide a kind of long-distance monitoring method of communication base station power supply, wherein, described long distance control system comprises information acquisition module and monitoring module, and described long-distance monitoring method comprises the following steps:

(1) described energy supply control module gathers the information of described communication base station power supply, and is passed to described information acquisition module by CAN;

(2) information of described communication base station power supply is uploaded to described monitoring module by cordless communication network by described information acquisition module.

Preferably, described information acquisition module is provided with multiple CAN interface, to communicate with the described energy supply control module of multiple described communication base station power supply, successively to the step of multiple described energy supply control module allocation address before described long-distance monitoring method is included in and carries out described step (1).

Preferably, during to an allocation address in multiple described energy supply control module, described in all the other, energy supply control module is in off-position.

Preferably, the step to an allocation address in multiple described energy supply control module comprises:

(A) described monitoring module sends enable signal by described information acquisition module in multiple described energy supply control module, in the plurality of described energy supply control module to be waken up;

(B) the described energy supply control module allocation address waken up in described step (A) by described information acquisition module of described monitoring module;

(C) the described energy supply control module waken up in described step (A) stores described address, and is stored as function signal to described monitoring module transmission address;

(D) described monitoring module receives after described address that the described energy supply control module in described step (C) sends is stored as function signal, is controlled the described energy supply control module power-off in described step (C) by described information acquisition module; Otherwise return described step (B).

Preferably, in described step (D), when described monitoring module do not receive in the given time described address that the described energy supply control module in described step (C) sends be stored as function signal time, described monitoring module reports an error to described communication base station power supply.

Preferably, the described scheduled time is 10 seconds to 20 seconds.

Preferably, described monitoring module comprises router and WEB server, described router is used for carrying out data double-way transmitting-receiving with cordless communication network, and described WEB server is used for as man-machine interface, carries out communication between described router and described WEB server with ICP/IP protocol.

In the long distance control system of the communication base station power supply provided in present disclosure, the information of communication base station power supply can be sent to long-range monitoring module by information acquisition module, make operating personnel can at the long-range monitoring state to described communication base station power supply, and whether communication base station power supply described in Timeliness coverage breaks down, thus can keep in repair timely the power supply of described communication base station.

Accompanying drawing explanation

Accompanying drawing is used to provide a further understanding of the present invention, and forms a part for specification, is used from explanation the present invention, but is not construed as limiting the invention with embodiment one below.In the accompanying drawings:

Fig. 1 is the schematic diagram of the long distance control system of communication base station power supply provided by the present invention;

Fig. 2 is the display interface figure of the monitoring module in described long distance control system;

Fig. 3 is the flow chart of the long-distance monitoring method of communication base station power supply provided by the present invention;

Fig. 4 is in the long-distance monitoring method of communication base station power supply provided by the present invention, to the flow chart of multiple energy supply control module allocation address.

Description of reference numerals

10: monitoring module 20: energy supply control module

30: information acquisition module 40: optical-electric module

50: supplement power module 51:BMS

52: lithium battery group 60: communication base station load

70: civil power module 80: Switching Power Supply

Embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in detail.Should be understood that, embodiment described herein, only for instruction and explanation of the present invention, is not limited to the present invention.

As shown in Figure 1, as one aspect of the present invention, a kind of long distance control system of communication base station power supply is provided, wherein, this long distance control system comprises information acquisition module 30 and monitoring module 10, information acquisition module 30 is communicated with the energy supply control module 20 of communication base station power supply by CAN, to be gathered the information of described communication base station power supply by this energy supply control module 20, information acquisition module 30 by cordless communication network by the information feed back of described communication base station power supply that collects to monitoring module 10.

In the present invention, the information of the described communication base station power supply of energy supply control module 20 collection can comprise the voltage, electric current etc. of communication base station power supply.After the information of described communication base station power supply is passed to information acquisition module 30 by CAN by energy supply control module 20, the information of described communication base station power supply can be passed to long-range monitoring module 10 by wireless network by information acquisition module 30, and the information of the described communication base station power supply that operator can have been received by monitoring module 10 monitors the ruuning situation of described communication base station power supply.Once find that the information of described communication base station power supply there occurs extremely (such as, the electric current that communication base station power supply exports is excessive or too small, the voltage that communication base station power supply exports is excessive or too small), in time communication base station power supply can be keeped in repair, avoid causing excessive loss.

In the present invention, monitoring module 10 can comprise PC and be arranged on the display unit on this PC.Display unit is for showing the information of described communication base station power supply, so that the observation of operator.

In order to simplify the structure of long distance control system, reduce the cost of long distance control system, preferably, long distance control system of the present invention can monitor the ruuning situation of multiple communication base station power supply simultaneously.In this case, each communication base station power supply is provided with an energy supply control module 20 for communicating with information acquisition module 30, information acquisition module 30 can be provided with multiple CAN interface, to communicate with multiple energy supply control modules 20 of multiple described communication base station power supply, (namely monitoring module 10 can distribute corresponding address to each energy supply control module 20 of multiple described communication base station power supply, each energy supply control module 20 has uniquely identified address, and the address of each energy supply control module 20 is all different).Therefore, can with a specific address when each energy supply control module 20 launches the information of communication base station power supply to information acquisition module 30, information acquisition module 30 sends the information of the communication base station power supply with particular address to monitoring module 10, and this monitoring module 10 can determine the operating state of different communication base station power supplies according to different addresses.

In addition, if one or several in multiple communication base station power supply there occurs fault, also with the address of the communication base station power supply broken down in the fault message that one or several energy supply control module 20 so in this communication base station power supply broken down sends to information acquisition module 30, in the fault message that monitoring module 10 can also send according to information acquisition module 30 with address determine the position of the communication base station power supply broken down, thus can keep in repair the communication base station power supply broken down timely, advantageously ensure the operation of communication base station.

As one embodiment of the present invention, monitoring module 10 can comprise router and WEB server, described router is used for carrying out data double-way transmitting-receiving with cordless communication network, described WEB server is used for as man-machine interface, carries out communication between described router and described WEB server with ICP/IP protocol.In the present invention, when monitoring module 10 is from CAN during monitored data, information acquisition module 30 by the data of CAN (namely, the information of communication base station power supply) pass to described router by wireless communication module, the information of communication base station power supply is forwarded to described WEB server by ICP/IP protocol by this router, and operating personnel log in the information that namely described WEB server can obtain described communication base station power supply.

Pollute in order to energy savings reduces, preferably, described communication base station power supply can comprise optical-electric module 40 and supplementary power module 50.Optical-electric module 40 can comprise solar panel, is generated electricity by solar energy.Supplement power module 50 and can comprise BMS(BatteryManagement System, battery management system) 51 and lithium battery group 52.

In the communication base station power supply with said structure, solar energy to be converted to electric energy daytime by the solar panel of optical-electric module 40 provides energy for communication base station load 60, and the lithium battery group 52 of supplementing power module 50 serves as the effect reconciling buffering.

When the electricity that communication base station load 60 consumes is greater than the generated energy of optical-electric module 40 or optical-electric module 40 does not generate electricity, lithium battery group 52 starts to discharge for communication base station load 60 provides electricity.When the electricity that optical-electric module 40 generated energy consumes higher than communication base station load 60, unnecessary electricity will charge for lithium battery group 52, and in this case, lithium battery group 52 can serve as accumulator.BMS51 is responsible for electric current to lithium battery group 52, voltage is monitored; and the voltage of the cell in lithium battery group 52, temperature are monitored; ensure and reasonably use lithium battery group 52; can to ensure under generation abnormal conditions (such as simultaneously; cell temperature is excessively high), lithium battery group 52 is protected.

In this embodiment, energy supply control module 20 can communication control base station power cooperation control management, realize farthest utilize solar energy, improve the macroeconomic of described communication base station power supply.

In addition, energy supply control module 20 can carry out communication to obtain fault message to optical-electric module 40 and supplementary power module 50, and in this case, the information of described communication base station power supply can comprise photoelectric current and photoelectricity voltage, the state-of-charge supplementing power module 50 and the described fault message of optical-electric module 40 output.

So-called " carrying out communication to optical-electric module 40 and supplementary power module 50 " refers to: energy supply control module 20 inside is provided with multiple preset parameter range, and the plurality of preset parameter range corresponds respectively to the parameters of optical-electric module 40 and supplementary power module 50.If outside any one or more scopes dropping on corresponding parameter preset in the parameters of the parameters of optical-electric module 40 and supplementary power module 50, this situation is regarded as and is broken down and report to the police by energy supply control module 20.The parameter dropped on outside preset parameter range is regarded as fault message by energy supply control module 20, and this fault message is passed to information acquisition module 30, and fault message is sent to monitoring module 10 by wireless network by information acquisition module 30.

As noted before, when utilizing long distance control system provided by the present invention to monitor multiple communication base station power supply, can to energy supply control module 20 allocation address of each communication base station power supply.Now, energy supply control module 20 any information of launching to information acquisition module 30 is all with the address of this energy supply control module 20 of the non-dispensing of monitoring module 10.Similarly, energy supply control module 20 sends to the fault message of information acquisition module 30 also with oriented address of answering.Monitoring module 10 can judge the concrete of the communication base station power supply broken down according to described address.

In the present invention, monitoring module 10 comprises display unit, as shown in Figure 2, the DC bus-bar voltage that the display interface of display unit can show communication base station power supply (is generally 48V, if the magnitude of voltage of display differs more than 5V with 48V, then can think that the power-supply controller of electric of communication base station power supply there occurs fault), monomer ceiling voltage (refers to the ceiling voltage of the single battery of lithium battery group 52, be generally 3.9V, if the monomer ceiling voltage of display is more than 3.9V, then can think that lithium battery group 52 creates fault), monomer minimum voltage (refers to the minimum voltage of the single battery of lithium battery group 52, be generally 2.5V, if the monomer ceiling voltage of display is lower than 2.5V, then can think that lithium battery group 52 creates fault), DC bus current, power brick remaining capacity SOC (dump energy to lithium battery group 52).In addition, the display interface of the display unit of monitoring module 10 can also be provided with the instruction of optical-electric module fault alarm (when monitoring module 10 receives the optical-electric module fault message that energy supply control module 20 sends, the optical-electric module fault alarm instruction that the display interface of monitoring module 10 is arranged sends instruction), the instruction of lithium battery group fault alarm is (when monitoring module 10 receives the lithium battery group fault message that energy supply control module 20 sends, the lithium battery group fault alarm instruction that the display interface of monitoring module 10 is arranged sends instruction), the instruction of energy supply control module fault alarm is (when monitoring module 10 cannot receive the information of communication base station power supply, the instruction of energy supply control module fault alarm sends instruction) and terminal option and installment etc.Terminal option and installment is mainly used in arranging user right.

Civil power module 70 and Switching Power Supply 80 is also provided with in described communication base station.When optical-electric module 40 and supplementary power module 50 all break down, Switching Power Supply 80 can be utilized civil power module 70 incoming communication base station, for communication base station is powered.That is, when optical-electric module 40 or supplementary power module 50 normally work, Switching Power Supply 80 disconnects the electrical connection of civil power module 70 and communication base station.

As noted before, be provided with wireless communication module in information acquisition module 30, and described cordless communication network can be GPRS network.Certainly, described cordless communication network also can be 3G network.

As another aspect of the present invention, also provide a kind of long-distance monitoring method of communication base station power supply, described long distance control system comprises information acquisition module 30 and monitoring module 10, and described long-distance monitoring method comprises the following steps:

(1) energy supply control module 20 gathers the information of described communication base station power supply, and is passed to information acquisition module 30 by CAN;

(2) information of described communication base station power supply is uploaded to monitoring module 10 by cordless communication network by information acquisition module 30.

After the information of described communication base station power supply is uploaded to monitoring module 10 by information acquisition module 30, operator can in the operating state of communication base station power supply described in remote monitoring.If described communication base station power supply or energy supply control module 20 break down, operator can Timeliness coverage, and takes measures in time, solves the quality problems after sale of communication base station power supply, and improves level and the service convenience of after-sale service.

As noted before, in order to simplify the structure of long distance control system, reduce the cost of long distance control system, preferably, long distance control system of the present invention can monitor the ruuning situation of multiple communication base station power supply simultaneously.In this case, information acquisition module 30 is provided with multiple CAN interface, to communicate with the described energy supply control module 20 of multiple described communication base station power supply, successively to the step of multiple energy supply control module 20 allocation address before described long-distance monitoring method is included in and carries out described step (1).

As noted before, the address of each energy supply control module 20 is all different.Above describe the advantage to multiple energy supply control module 20 allocation address in detail, repeated no more here.

For the ease of to multiple energy supply control module 20 allocation address, preferably, during to an allocation address in multiple energy supply control module 20, all the other energy supply control modules 20 are in off-position.

Introducing in detail below utilizes monitoring module 10 to the method for multiple energy supply control module 20 allocation address.

Step to an allocation address in multiple energy supply control module 20 comprises:

(A) monitoring module 10 sends enable signal by information acquisition module 30 in multiple energy supply control module 20, in the plurality of described energy supply control module 20 to be waken up;

(B) monitoring module 10 passes through energy supply control module 20 allocation address that information acquisition module 30 wakes up in described step (A);

(C) energy supply control module 20 waken up in described step (A) stores described address, and sends address to described monitoring module 10 and be stored as function signal;

(D) monitoring module 10 receives after described address that the energy supply control module 20 in described step (C) sends is stored as function signal, is controlled energy supply control module 20 power-off in described step (C) by information acquisition module 30; Otherwise return described step (B).

Particularly, as shown in Figure 4, suppose have x energy supply control module 20(x to be natural number), the numbering of this x energy supply control module 20 respectively: 20 _{sYS_1}, 20 _{sYS_2}, 20 _{sYS_3}... 20 _{sYS_x}.

First, monitoring module 10 is to energy supply control module 20 _{sYS_1}send enable signal, by energy supply control module 20 _{sYS_1}wake up, now, remaining energy supply control module 20 _{sYS_2}, 20 _{sYS_3}... 20 _{sYS_x}all be in off-position.Then monitoring module 10 passes through information acquisition module 30 to energy supply control module 20 _{sYS_1}send address frame, energy supply control module 20 _{sYS_1}after receiving address frame, resolve this address frame, and write energy supply control module 20 _{sYS_1}internal memory, initialization is carried out to described address frame, energy supply control module 20 simultaneously _{sYS_1}the address that all monitored module 10 of initial address in the follow-up infomational message that information acquisition module 30 sends sends replaced, and address writes successfully, directly will read energy supply control module 20 from internal memory _{sYS_1}address value.If energy supply control module 20 _{sYS_1}parse addresses value and writing successfully, will accept pass signal to monitoring module 10 feedback.When monitoring module 10 receives energy supply control module 20 _{sYS_1}that feeds back accepts pass signal, will control energy supply control module 20 _{sYS_1}close, and to energy supply control module 20 _{sYS_2}send enable signal, wake energy supply control module 20 up _{sYS_2}and repeat the process of address above mentioned write.Order carries out above-mentioned steps, until energy supply control module 20 _{sYS_x}till writing address success.

In described step (D), when monitoring module 10 do not receive in the given time described address that the energy supply control module 20 in described step (C) sends be stored as function signal time, monitoring module 10 reports an error to described communication base station power supply.If this thing happens, illustrate that fault has appearred in energy supply control module 20.

Preferably, the described scheduled time can be set as 10 seconds to 20 seconds.

As shown in above, monitoring module 10 can comprise router and WEB server, described router is used for carrying out data double-way transmitting-receiving with cordless communication network, described WEB server is used for as man-machine interface, carries out communication between described router and described WEB server with ICP/IP protocol.

Be understandable that, the illustrative embodiments that above execution mode is only used to principle of the present invention is described and adopts, but the present invention is not limited thereto.For those skilled in the art, without departing from the spirit and substance in the present invention, can make various modification and improvement, these modification and improvement are also considered as protection scope of the present invention.

Claims (9)

1. the long distance control system of a communication base station power supply, it is characterized in that, described long distance control system comprises information acquisition module and monitoring module, described information acquisition module is communicated with the energy supply control module of communication base station power supply by CAN, to be gathered the information of described communication base station power supply by this energy supply control module, described information acquisition module by cordless communication network by the information feed back of described communication base station power supply that collects to described monitoring module;

Described information acquisition module is provided with multiple CAN interface, and to communicate with multiple energy supply control modules of multiple described communication base station power supply, described monitoring module can to described multiple energy supply control module allocation address of multiple described communication base station power supply;

Comprise to an allocation address in multiple described energy supply control module:

(A) described monitoring module sends enable signal by described information acquisition module in multiple described energy supply control module, in the plurality of described energy supply control module to be waken up;

(B) the described energy supply control module allocation address waken up in described step (A) by described information acquisition module of described monitoring module;

(C) the described energy supply control module waken up in described step (A) stores described address, and is stored as function signal to described monitoring module transmission address;

(D) described monitoring module receives after described address that the described energy supply control module in described step (C) sends is stored as function signal, is controlled the described energy supply control module power-off in described step (C) by described information acquisition module; Otherwise return described step (B).

2. long distance control system according to claim 1, it is characterized in that, described monitoring module comprises router and WEB server, described router is used for carrying out data double-way transmitting-receiving with cordless communication network, described WEB server is used for as man-machine interface, carries out communication between described router and described WEB server with ICP/IP protocol.

3. long distance control system according to claim 1 and 2, it is characterized in that, described communication base station power supply comprises optical-electric module and supplementary power module, described energy supply control module can carry out communication to obtain fault message to described optical-electric module and described supplementary power module, and the information of described communication base station power supply comprises photoelectric current that described optical-electric module exports and photoelectricity voltage, the state-of-charge of described supplementary power module and described fault message.

4. long distance control system according to claim 1 and 2, is characterized in that, is provided with wireless communication module in described information acquisition module, and described cordless communication network is GPRS network.

5. a long-distance monitoring method for communication base station power supply, the method is used in long distance control system, and it is characterized in that, described long distance control system comprises information acquisition module and monitoring module, and described long-distance monitoring method comprises the following steps:

(1) energy supply control module of communication base station power supply gathers the information of described communication base station power supply, and is passed to described information acquisition module by CAN;

(2) information of described communication base station power supply is uploaded to described monitoring module by cordless communication network by described information acquisition module;

Described information acquisition module is provided with multiple CAN interface, to communicate with the described energy supply control module of multiple described communication base station power supply, successively to the step of multiple described energy supply control module allocation address before described long-distance monitoring method is included in and carries out described step (1);

Step to an allocation address in multiple described energy supply control module comprises:

(A) described monitoring module sends enable signal by described information acquisition module in multiple described energy supply control module, in the plurality of described energy supply control module to be waken up;

(B) the described energy supply control module allocation address waken up in described step (A) by described information acquisition module of described monitoring module;

(C) the described energy supply control module waken up in described step (A) stores described address, and is stored as function signal to described monitoring module transmission address;

(D) described monitoring module receives after described address that the described energy supply control module in described step (C) sends is stored as function signal, is controlled the described energy supply control module power-off in described step (C) by described information acquisition module; Otherwise return described step (B).

6. long-distance monitoring method according to claim 5, is characterized in that, during to an allocation address in multiple described energy supply control module, described in all the other, energy supply control module is in off-position.

7. long-distance monitoring method according to claim 5, it is characterized in that, in described step (D), when described monitoring module do not receive in the given time described address that the described energy supply control module in described step (C) sends be stored as function signal time, described monitoring module reports an error to described communication base station power supply.

8. long-distance monitoring method according to claim 7, is characterized in that, the described scheduled time is 10 seconds to 20 seconds.

9. according to the long-distance monitoring method in claim 5 to 8 described in any one, it is characterized in that, described monitoring module comprises router and WEB server, described router is used for carrying out data double-way transmitting-receiving with cordless communication network, described WEB server is used for as man-machine interface, carries out communication between described router and described WEB server with ICP/IP protocol.