CN206251340U - A kind of low-consumption wireless communicator for transmission line online monitoring system - Google Patents

Abstract

The utility model is related to a kind of low-consumption wireless communicator for transmission line online monitoring system, including the first wireless transport module, the second wireless transport module, microprocessor, power switch control module；First wireless transport module uses low power dissipation design, and function is simple, is only used for receiving and sending micro data, and the second wireless transport module is used to send business datum.When radio communication device is standby, microprocessor is in Low-power-consumptiodormancy dormancy pattern, and the second wireless transport module is in off-position, and complete machine stand-by power consumption is extremely low.When radio communication device normal work, the first wireless transport module receives the instruction that data-centric is assigned, and wakes up microprocessor, and microprocessor starts the second wireless transport module, carries out data is activation.The radio communication device can be used for transmission line online monitoring system, be particularly well-suited to the occasion of the larger high-frequency data collection of business datum amount, can substantially reduce system power dissipation, improve its functional reliability.

Description

A kind of low-consumption wireless communicator for transmission line online monitoring system

Technical field

The utility model is related to radio communication correlative technology field, more particularly to a kind of for transmission line of electricity on-line monitoring The low-consumption wireless communicator of system, is mainly used in the system for entering row data communication using wireless transmission method.

Background technology

The normal operation of transmission line of electricity is closely bound up with network system safety, power supply reliability, and power system is needed to defeated Electric wire line state, failure etc. carry out real-time monitoring.Due to transmission line of electricity in the wild, the power supply supply of stabilization is lacked, it is universal at present Use solar powered, battery to power, couple the modes such as power taking, its output power of power supply is limited, often lead to transmission of electricity On-Line Monitor Device cannot normal work, therefore the greatest problem that current transmission line of electricity on-line monitoring technique field faces on circuit It is power supply supply problem.In order to improve the reliability of on-line monitoring equipment work, equipment power dissipation is reduced most important.And power transmission line Road on-line monitoring equipment needs for the mass data of collection to be sent to backstage central station, therefore wireless data transfer module must It is few.

Because transmission line of electricity on-line monitoring equipment most of time is in holding state, signal acquisition and process circuit can break Electricity, only gathers in a small number of time log-on datas and sends data, and power consumption is relatively low, but can not power off, to ensure to receive upper Some of machine perform order.Because wireless data transfer module is frequently with GPRS DTU, power consumption is larger, therefore for on-line monitoring The overall low-power consumption of equipment, the standby low power dissipation design of wireless data transfer module is most important.

Utility model content

To solve the problems, such as that on-line monitoring device for transmission line communication unit power consumption is higher in the prior art, the utility model Propose a kind of low-consumption wireless communicator, including the first wireless transport module, the second wireless transport module, microprocessor, electricity Source switch control module, the built-in low speed single-chip microcomputer of the first wireless transport module, the first wireless transport module sends to microprocessor Data receive the data that microprocessor sends, the built-in high-speed microprocessor of the second wireless transport module, the second wireless transport module The microprocessor data for sending or the data for receiving the microprocessor transmission are received, power switch control module controls the second nothing The conducting of line transport module power input with disconnect, the first wireless transport module is electrically connected with microprocessor, microprocessor and the Two wireless transport modules are electrically connected, and microprocessor is electrically connected with power switch control module, power switch control module and second Wireless transport module is electrically connected.

Above-mentioned first wireless transport module is GPRS DTU communication modules.

Above-mentioned second wireless transport module is GPRS DTU communication modules.

Above-mentioned power switch control module includes power supply chip LT3431.

Using the transmission line online monitoring system of above-mentioned low-consumption wireless communicator, including first is wirelessly transferred mould Block, the second wireless transport module, microprocessor, power switch control module, data acquisition module, data acquisition switch control mould Block, the built-in low speed single-chip microcomputer of the first wireless transport module, the first wireless transport module sends data or receives micro- to microprocessor The data that processor sends, the built-in high-speed microprocessor of the second wireless transport module, the second wireless transport module receives microprocessor The data of transmission, the data that microprocessor is received and processing data acquisition module sends, power switch control module control second The conducting of wireless transport module power input and disconnection, data acquisition switch control module control data acquisition module power input Conducting with disconnect, the first wireless transport module electrically connects with microprocessor, microprocessor respectively with the second wireless transport module Electrically connected with data acquisition module, microprocessor is electrically connected with power switch control module and data acquisition switch control module respectively Connect, power switch control module is electrically connected with the second wireless transport module, data acquisition switch control module and data acquisition list Unit's electrical connection.

Above-mentioned power switch control module includes power supply chip LT3431.

Above-mentioned data acquisition switch control module includes power supply chip LT3431.

Above-mentioned data acquisition module includes high-speed digital signal processor field programmable gate array.

Brief description of the drawings

Fig. 1 is low-consumption wireless communication apparatus structure block diagram

Fig. 2 is power switch control module circuit diagram

Fig. 3 is transmission line online monitoring system structured flowchart

In accompanying drawing, the list of parts representated by each label is as follows：

1. the first wireless transport module；2. microprocessor；3. the second wireless transport module；4. power switch control module； 5. data acquisition switch control module；6. data acquisition module.

Specific embodiment

The utility model is described in more detail with specific embodiment below in conjunction with the accompanying drawings.

Low-consumption wireless communication apparatus structure block diagram is as shown in Figure 1.First wireless transport module 1 and first is wirelessly transferred mould Block 2 can use GPRS DTU communication modules, and difference is the first wireless transport module 1 and the second wireless transport module 2 Function is different with power consumption.The built-in low speed single-chip microcomputer of first wireless transport module 1, low speed function of the MCU is simple, and power consumption is relatively low, the One wireless transport module 1 is mainly used in receiving the work order sent such as microprocessor or data-centric, and data volume is smaller, because The function of this first wireless transport module 1 is simple, power consumption is extremely low.The built-in high-speed microprocessor of second wireless transport module 3, it is main to use In receive microprocessor 2 send business datum and transmit it to data-centric, therefore the second wireless transport module 3 work( Can be abundant, power consumption is higher.Because the power consumption of the second wireless transport module 3 is higher, therefore power switch control is passed through by microprocessor 2 Molding block 4 controls the break-make of the input power of the second wireless transport module 3, when microprocessor 2 needs to transmit number to data-centric According to when turn on the power switch the switch of control module 4, the normal work of the second wireless transport module 3, remaining time microprocessor 2 is closed The switch of power off switch control module 4, the second wireless transport module 3 is in off-position, so as to save energy ezpenditure.

Due to radio communication device include the first wireless transport module 1 and the second wireless transport module 3, therefore when be responsible for When the first wireless transport module 1 that data-centric carries out data interaction breaks down, now mould can be wirelessly transferred by second Block 3 carries out data interaction instead of the first wireless transport module 1 and data-centric, and now microprocessor 2 is by power switch control The switch of module 4 is constantly in open mode.The mode of operation increased the reliability of radio communication device.

Power switch control module circuit diagram is as shown in Figure 2.The power supply chip of power switch control module 4 uses Width funtion The step-down switching type integrated regulator LT3431 of scope input, on the one hand, power switch control module 4 turns input voltage vin Voltage Vout needed for changing the second wireless transport module 3 into；On the other hand, power supply chip LT3431 has opening for Low level effective Control pin SHDN is closed, the pin is connected with the control port of microprocessor 2, export low and high level by Single-chip Controlling port to control The on off operating mode of LT3431 processed, so as to control whether to power to the second wireless transport module 3.

Transmission line online monitoring system structured flowchart is as shown in Figure 3.With the low-consumption wireless communicator phase shown in Fig. 1 Than increased data acquisition switch control module 5 and data acquisition module 6.Microprocessor 2 controls mould by data acquisition switch The control data acquisition module 6 of block 5 whether gathered data.Data acquisition switch control module 5 can also be using such as power switch control The input power of the power supply chip LT3431 control datas acquisition module 6 that molding block is used, so that control data acquisition module 6 Whether data acquisition is carried out.Need to use high-speed digital signal processor when data acquisition module 6 is gathered for high-frequency signal, it is such as existing Field programmable gate array FPGA (Field-Programmable Gate Array)；Can be adopted when low frequency signal is gathered Low speed signal processor, such as single-chip microcomputer are used, or is directly connected with the sensor of gathered data by microprocessor 2, carry out data Collection and treatment.Because when system does not carry out data acquisition, microprocessor 2 is in Low-power-consumptiodormancy dormancy mode of operation, second is wireless Transport module 3 and data acquisition module 6 are in off-position, compared with the on-line monitoring system of conventional transmission lines road, drop significantly Low system power dissipation.

Claims (8)

1. a kind of low-consumption wireless communicator, it is characterised in that be wirelessly transferred mould including the first wireless transport module, second Block, microprocessor, power switch control module, the built-in low speed single-chip microcomputer of the first wireless transport module, described first is wireless Transport module sends data or receives the data that the microprocessor sends to the microprocessor, and described second is wirelessly transferred mould The built-in high-speed microprocessor of block, second wireless transport module receives data or the reception micro- place that the microprocessor sends The data that reason device sends, what the power switch control module controlled the second wireless transport module power input leads through and off Open, first wireless transport module is electrically connected with the microprocessor, the microprocessor is wirelessly transferred mould with described second Block is electrically connected, and the microprocessor electrically connects with the power switch control module, the power switch control module with it is described Second wireless transport module is electrically connected.

2. low-consumption wireless communicator according to claim 1, it is characterised in that first wireless transport module is GPRS DTU communication modules.

3. low-consumption wireless communicator according to claim 1, it is characterised in that second wireless transport module is GPRS DTU communication modules.

4. the low-consumption wireless communicator according to claim 1 or 2 or 3, it is characterised in that the power switch control Module includes power supply chip LT3431.

5. a kind of transmission line online monitoring system using low-consumption wireless communicator as claimed in claim 1, its feature It is, including the first wireless transport module, the second wireless transport module, microprocessor, power switch control module, data acquisition Module, data acquisition switch control module, the built-in low speed single-chip microcomputer of the first wireless transport module, described first is wirelessly transferred Module sends data or receives the data that the microprocessor sends to the microprocessor, in second wireless transport module High-speed microprocessor is put, second wireless transport module receives the data that the microprocessor sends, and the microprocessor is received And the data that the data acquisition module sends are processed, the power switch control module controls second wireless transport module The conducting of power input and disconnection, the data acquisition switch control module control leading for the data acquisition module power input Through and off are opened, and first wireless transport module is electrically connected with the microprocessor, and the microprocessor is respectively with described second Wireless transport module and the data acquisition module are electrically connected, the microprocessor respectively with the power switch control module and The data acquisition switch control module electrical connection, the power switch control module is electrically connected with second wireless transport module Connect, the data acquisition switch control module is electrically connected with the data acquisition unit.

6. transmission line online monitoring system according to claim 5, it is characterised in that the power switch control module Including power supply chip LT3431.

7. transmission line online monitoring system according to claim 5, it is characterised in that the data acquisition switch control Module includes power supply chip LT3431.

8. the transmission line online monitoring system according to claim 5 or 6 or 7, it is characterised in that the data acquisition module Block includes field programmable gate array.