CN201974690U - Lithium battery real-time remote monitoring system based on RFID - Google Patents

Abstract

The utility model discloses a lithium battery real-time remote monitoring system based on a RFID (radio frequency identification). The system comprises a lithium battery and an RFID reader. A microcontroller unit and an RFID label are arranged inside the lithium battery, the RFID label is in communication connection with the microcontroller unit, and the RFID label is in wireless communication connection with a RFID reader. Through the adoption of the lithium battery real-time remote monitoring system, when the lithium battery needs maintenance, the RFID label is activated by the RFID reader, then reads the operating state information of the lithium battery from the microcontroller unit and transmits the information to the RFID reader, and the maintenance staff can judge the fault of the lithium battery through the read operating state information, so as to facilitate the maintenance of the lithium battery, reduce maintenance difficulty and cost, enable sufficient utilization of the lithium battery, reduce waste of resources, and in turn effectively reduce the economic burden on users of electric bicycles.

Description

Lithium battery real-time remote monitoring system based on the RFID technology

Technical field

The utility model relates to a kind of long distance control system, particularly a kind of lithium battery real-time remote monitoring system based on the RFID technology.

Background technology

Radio-frequency (RF) identification is RFID (Radio Frequency Identification, RFID) technology, claim electronic tag again, it is the communication technology of rising a kind of nineties in 20th century, can discern specific objective and read and write related data by radio signals, and need not to set up machinery between recognition system and the specific objective or optics contacts.RFID is considered to influence one of the ten following big technology, its application prospect is very extensive, and many fields have been applied at present, as banknote and product false proof, I.D. and electronic entrance ticket, E-payment system, domestic animal or wild animal identification, patient identification and electronic health record, logistics management, baggage sorting, gate control system etc.

The integrated circuit of RFID label inside can drive by the electromagnetic wave that receives characteristic frequency.When label receives the signal of sufficient intensity, promptly be waken up, thereby can send data to reader.These data not only comprise (global unique code) ID number, can also comprise preexisting in the data among the EEPROM (electrically erasable read-only memory) in the label.Label can be passive, and the resonance that only depends on electromagnetic wave to produce on resonant circuit provides operating voltage for circuit; Also can be active, after being waken up,, supply the required voltage of internal circuit to produce external signal by label internal electric source supply.

Along with the deterioration day by day of present environment, various lithium battery motor-cars are used widely, and the lithium battery maintenance also becomes more and more, and lithium battery if can be understood its past behaviour in service in maintenance process, then can be convenient to battery failures is judged.But present lithium battery breaks down and can't feed back failure message voluntarily, maintenance provider can only come battery is carried out fault diagnosis during the maintenance lithium battery by the way of dismounting battery, and this has brought technical difficulty and high time cost for the maintenance of lithium battery motor-car.So current lithium battery maintenace point generally takes more to renew the strategy of battery more, rather than battery is keeped in repair.So not only increase electric motor car user's financial burden, and caused a large amount of wastings of resources.

The utility model content

At above-mentioned the deficiencies in the prior art, the technical problems to be solved in the utility model provides a kind of supervisory system that can feed back lithium battery behaviour in service information, thereby the convenient for maintaining personnel keep in repair lithium battery.

For solving the problems of the technologies described above, the utility model adopts following technical scheme:

A kind of lithium battery real-time remote monitoring system based on the RFID technology, comprise lithium battery, be provided with the micro-control unit of its operating position of record in the described lithium battery, the RFID reader that it also comprises the RFID label that is positioned at lithium battery and is positioned at the maintenace point place, described RFID label and described micro-control unit communicate to connect, and described RFID label is connected with described RFID reader radio communication.

Preferably, it comprises that also one can carry out pattern-recognition, classify and provide the server of maintenance policy to failure message, and described server is connected with described RFID reader radio communication.

Preferably, described RFID label is connected by the RS232 communication interface with described micro-control unit.

Preferably, described RFID label is an active RFID tag, by described lithium battery power supply.

Technique scheme has following beneficial effect: adopt this lithium battery real-time remote monitoring system, when lithium battery need keep in repair, the RFID label is activated by the RFID reader, the RFID label reads the behaviour in service information of lithium battery in the micro-control unit, and these behaviour in service information are sent to the RFID reader, the maintenance personal just can judge the fault of lithium battery by the behaviour in service information that reads like this, thereby make things convenient for the maintenance of lithium battery, difficulty that reduces to keep in repair and cost, lithium battery can be fully utilized, reduce the waste of resource, and then also can effectively alleviate electric motor car user's financial burden.

Above-mentioned explanation only is the general introduction of technical solutions of the utility model, for can clearer understanding technological means of the present utility model.And can be implemented according to the content of instructions, below with preferred embodiment of the present utility model and conjunction with figs. describe in detail as after.Embodiment of the present utility model is provided in detail by following examples and accompanying drawing thereof.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment.

Embodiment

Below in conjunction with accompanying drawing preferred embodiment of the present utility model is described in detail.

As shown in Figure 1, should comprise lithium battery 1 and the RFID reader 2 that is installed in maintenace point based on the lithium battery real-time remote monitoring system of RFID technology, be provided with the micro-control unit 11 and the RFID label 12 of its operating position of record in the lithium battery, the RFID label is connected by the RS232 communication interface with micro-control unit 11, and RFID label 12 can carry out radio communication with RFID reader 2 and be connected.The RFID label can read the battery behaviour in service information in the micro-control unit 11, battery behaviour in service information spinner in the micro-control unit 11 will comprise: battery first charge-discharge time, battery have discharged and recharged number of times, battery current electric quantity and some basic fault information such as overcurrent etc., and these data are the bases of implementing the lithium battery fault diagnosis.

RFID label 12 adopts active RFID tag, and it adopts active RFID tag that farther communication distance and bigger amount of communication data can be provided by lithium battery 1 power supply.

This lithium battery real-time remote monitoring system also comprises a server 3, is equipped with the software of specialized guidance battery maintenance on this server 3, and this software can carry out pattern-recognition and classification to failure message.Server 3 adopts radio communication to be connected RFID reader 2 with RFID reader 2 the battery behaviour in service information in the micro-control unit 11 that reads is sent to server 3, and server 3 is given RFID reader 2 corresponding failure message and maintenance policies according to battery behaviour in service information feedback.

Adopt this lithium battery real-time remote monitoring system, when lithium battery need keep in repair, RFID label 12 is activated by RFID reader 2, RFID label 12 reads the behaviour in service information of lithium battery in the micro-control unit 11, and these behaviour in service information are sent to RFID reader 2, RFID reader 2 sends to server 3 with the battery behaviour in service information in the micro-control unit 11 that reads, server 3 is given RFID reader 2 corresponding failure messages according to battery behaviour in service information feedback, and the maintenance personal just can carry out diagnosis and repair to battery by this failure message like this.If determine that battery thoroughly damages or the life-span expires, then change battery: otherwise, then the maintenance policy that provides according to software keeps in repair, thereby make things convenient for the maintenance of lithium battery, difficulty that reduces to keep in repair and cost, lithium battery can be fully utilized, reduce the waste of resource, and then also can effectively alleviate electric motor car user's financial burden.

More than a kind of lithium battery real-time remote monitoring system that the utility model embodiment is provided based on the RFID technology be described in detail; for one of ordinary skill in the art; thought according to the utility model embodiment; part in specific embodiments and applications all can change; in sum; this description should not be construed as restriction of the present utility model, and all any changes of being made according to the utility model design philosophy are all within protection domain of the present utility model.

Claims (4)

1. lithium battery real-time remote monitoring system based on the RFID technology, comprise lithium battery, be provided with the micro-control unit of its operating position of record in the described lithium battery, it is characterized in that: the RFID reader that it also comprises the RFID label that is positioned at lithium battery and is positioned at the maintenace point place, described RFID label and described micro-control unit communicate to connect, and described RFID label is connected with described RFID reader radio communication.

2. the lithium battery real-time remote monitoring system based on the RFID technology according to claim 1, it is characterized in that: it comprises that also one can carry out pattern-recognition, classify and provide the server of maintenance policy to failure message, and described server is connected with described RFID reader radio communication.

3. the lithium battery real-time remote monitoring system based on the RFID technology according to claim 1 is characterized in that: described RFID label is connected by the RS232 communication interface with described micro-control unit.

4. the lithium battery real-time remote monitoring system based on the RFID technology according to claim 1 is characterized in that: described RFID label is an active RFID tag, by described lithium battery power supply.

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