CN103676909A - Power supply control method and data acquisition device - Google Patents

Abstract

The invention provides a power supply control method and a data acquisition device. The data acquisition device is arranged in field and comprises at least one power module, a communication module and a control module, each power module supplies power to a corresponding functional module, the communication module is used for receiving power supply control signals transmitted by a control center, and the control module is used for controlling each power module to supply power to the respectively corresponding functional module according to the power supply control signals. As the corresponding power modules in the data acquisition device are controlled to supply power to the corresponding functional modules according to the power supply control signals of the control center, power supply of the data acquisition device is remotely and automatically controlled, manual power supply control for the data acquisition device is omitted, and the power supply control efficiency of the data acquisition device can be improved.

Description

Method for controlling power supply and data acquisition equipment

Technical field

The present invention relates to geophysical survey field, relate in particular to a kind of method for controlling power supply and data acquisition equipment.

Background technology

During ground observation image data, acquisition range is large, each data acquisition equipment is independently-powered conventionally for the collection of data acquisition equipment laying scope.Existing data acquisition equipment method for controlling power supply is, when laying personnel lay data acquisition equipment, the switch that switches on power is switched on to data acquisition equipment, arrives data acquisition equipment lay on-the-spot to data acquisition equipment power-off after data acquisition equipment data acquisition by laying personnel.

Due to data acquisition equipment, be mostly laid in the ground such as hummock, jungle, this method of manually data acquisition equipment being carried out power supply control, by manually carrying out data acquisition equipment energising, power operation, data acquisition equipment power supply control efficiency is lower, and under sleety weather, may cause not in time instrument damage because of shutdown.

Summary of the invention

The embodiment of the present invention provides a kind of method for controlling power supply and data acquisition equipment, can improve data acquisition equipment power supply control efficiency.

The embodiment of the present invention adopts following technical scheme:

First aspect, a kind of method for controlling power supply is provided, described method is applied to data acquisition equipment, described data acquisition equipment is arranged on field, described data acquisition equipment comprises at least one power module, in described at least one power module, each power supply mould is to corresponding functional module power supply, and described method comprises:

Receive the power supplying control signal that control center sends;

According to described power supplying control signal, control each power module in described at least one power module and power to each self-corresponding functional module.

Optionally, described according to described power supplying control signal, control each power module in described at least one power module and comprise to corresponding functional module power supply:

When the target power module in described at least one power module of described power supplying control signal indication starts to power to corresponding functional module, to described target power module, send the instruction that starts power supply, trigger described target power module and start to corresponding functional module power supply; Wherein, described target power module is the arbitrary module in described at least one power module;

Or, when the target power module in described at least one power module of described power supplying control signal indication is stopped power supply to corresponding functional module, to described target power module, send the instruction of stopping power supply, trigger described target power module and stop to corresponding functional module power supply; Wherein, described target power module is the arbitrary module in described at least one power module.

Optionally, described control module has digital signal sending function, and described target power module has digital signal reception function, and the described instruction that starts power supply is the first digital signal, described in the instruction of stopping power supply be the second digital signal; Wherein, described the first digital signal is that high level signal, described the second digital signal are low level signal, or described the first digital signal is that low level signal, described the second digital signal are high level signal.

Optionally, described functional module have that data acquisition, GPS are synchronous, at least one function of transducing signal and Data processing.

Optionally, described functional module is for data acquisition and/or data processing.

Second aspect, a kind of data acquisition equipment is provided, and described data acquisition equipment is arranged on field, and described data acquisition equipment comprises at least one power module, in described at least one power module, each power module is to corresponding functional module power supply, and described data acquisition equipment also comprises:

Communication module, the power supplying control signal sending for receiving control center;

Control module, for according to described power supplying control signal, controls each power module in described at least one power module and powers to each self-corresponding functional module.

Optionally, described control module specifically for, when the target power module in described at least one power module of described power supplying control signal indication starts to power to corresponding functional module, to described target power module, send the instruction that starts power supply, trigger described target power module and start to corresponding functional module power supply; Wherein, described target power module is the arbitrary module in described at least one power module;

Or, described control module specifically for, when the target power module in described at least one power module of described power supplying control signal indication is stopped power supply to corresponding functional module, to described target power module, send the instruction of stopping power supply, trigger described object module and stop to corresponding functional module power supply; Wherein, described target power module is the arbitrary module in described at least one power module.

Optionally, described communication module at least has less radio-frequency receiving function, comprises following at least one submodule: purple honeybee Zigbee submodule, Wireless Fidelity WiFi submodule, 3G signal receive submodule, bluetooth submodule.

Optionally, described functional module have that data acquisition, GPS are synchronous, one or several functions of transducing signal and Data processing.

Based on technique scheme, the method for controlling power supply of the embodiment of the present invention and data acquisition equipment, according to control center's power supplying control signal, controlling corresponding supply module in data acquisition equipment powers to corresponding functional module, thereby realize, the remote auto of data acquisition equipment power supply is controlled, without manually data acquisition equipment being carried out to power supply control, thereby can improve the power supply control efficiency of data acquisition equipment.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, below the accompanying drawing of required use during embodiment is described is briefly described, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The structural representation of a kind of data collector that Fig. 1 provides for the embodiment of the present invention 1;

The process flow diagram of a kind of method for controlling power supply that Fig. 2 provides for the embodiment of the present invention 1;

The structural representation of a kind of data collector that Fig. 3 provides for the embodiment of the present invention 2.

Embodiment

For making object, technical scheme and the advantage of the embodiment of the present invention clearer, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, rather than whole embodiment.Embodiment based in the present invention, those of ordinary skills, at the every other embodiment that does not have to obtain under creative work prerequisite, belong to the scope of protection of the invention.

Embodiment 1

The present embodiment provides a kind of method for controlling power supply that is applied to data acquisition equipment, and described data acquisition equipment is arranged on field.A kind of structural representation of the described data acquisition equipment that Fig. 1 provides for the present embodiment, as shown in Figure 1, described data acquisition equipment comprises communication module 11, control module 12, at least one power module 13, in described at least one power module, each power supply mould is to 14 power supplies of corresponding functional module, and control module 12 is connected with the digital drive end of described at least one power module 13 by digital I/O delivery outlet.Wherein, described functional module 14 can be used for that data acquisition, GPS are synchronous, transducing signal and data processing, for example, functional module 12 can be for the English full name of ARM(: Advanced RISC Machines, Chinese translation is: advanced reduced instruction set computer machine) the English full name of control panel, GPS(is: Navigation Satellite Timing And Ranging Global Position System, Chinese translation is: when nautical star is surveyed with range finding GPS) synchronous plate, analog acquisition plate, sensor.Described communication module 11 comprises following at least one submodule: Zigbee submodule, Wireless Fidelity WiFi submodule, 3G signal receive submodule, bluetooth submodule.

As shown in Figure 2, described method for controlling power supply comprises:

21, receive the power supplying control signal that control center sends.

In the present embodiment, the power supplying control signal that described control center sends is wireless signal.Above-mentioned control center can be positioned at data acquisition control center.

22,, according to described power supplying control signal, control in described data acquisition equipment at least one power module each power module to each self-corresponding functional module power supply.

In the present embodiment, optionally, when the target power module in described at least one power module of described power supplying control signal indication starts to power to corresponding functional module, to described target power module, send the instruction that starts power supply, trigger described target power module and start to corresponding functional module power supply; Wherein, described target power module is the arbitrary module in described at least one power module.

In the present embodiment, optionally, when the target power module in described at least one power module of described power supplying control signal indication is stopped power supply to corresponding functional module, to described target power module, send the instruction of stopping power supply, trigger described target power module and stop to corresponding functional module power supply; Wherein, described target power module is the arbitrary module in described at least one power module.

In the present embodiment, optional, described control module has digital signal sending function, and described target power module has digital signal reception function, and the described instruction that starts power supply is the first digital signal, described in the instruction of stopping power supply be the second digital signal; Wherein, described the first digital signal is that high level signal, described the second digital signal are low level signal, or described the first digital signal is that low level signal, described the second digital signal are high level signal.

The method for controlling power supply of the present embodiment, according to control center's power supplying control signal, controlling corresponding supply module in data acquisition equipment powers to corresponding functional module, thereby realize, the remote auto of data acquisition equipment power supply is controlled, without manually data acquisition equipment being carried out to power supply control, thereby can improve the power supply control efficiency of data acquisition equipment.

In addition, the present embodiment carries out functional module division by data acquisition equipment, and idle functional module is stopped power supply, and can reduce the working time that electric quantity consumption extends data acquisition equipment, can the abnormal functional module of Long-distance Control restart, thus the stability of raising data acquisition equipment.Like this can so that the use of ground observation instrument more effectively, more stable, safer.

Embodiment 2

The present embodiment describes the method for controlling power supply of the embodiment of the present invention in detail in conjunction with instantiation.The structural representation of a kind of data acquisition equipment that Fig. 3 provides for the present embodiment, the data acquisition equipment shown in Fig. 3 can be electromagnetic prospecting instruments, mainly gathers field or outdoor electric signal and magnetic signal.(English full name is Zigbee in Fig. 3: ZigBee, Chinese translation is: purple honeybee) module is corresponding to the communication module 11 shown in Fig. 1 and control module 12, in Zigbee module, be provided with a plurality of digital I/O(I/O) mouthful, the corresponding power module of each digital I/O mouth, Zigbee module can configure digital I/O mouth according to the control signal receiving, thereby controls a plurality of power modules to corresponding functional module power supply.As shown in Figure 3, the power supply of 3.3V, 5V, 15V and 1.8V is respectively each self-corresponding functional module power supply.

Functional module shown in Fig. 3 can be GPS synchronous plate, ARM control panel, magnetic probe, collection plate etc.Wherein GPS synchronous plate is mainly used in gathering synchrodata, and ARM control panel is mainly used in controlling the function that data acquisition module completes image data; Magnetic probe can be magnetic signal to be converted to the magnetic field sensor of electric signal; Collection plate is mainly used in converting simulating signal to digital signal.

The method for controlling power supply of the present embodiment, according to control center's power supplying control signal, controlling corresponding supply module in data acquisition equipment powers to corresponding functional module, thereby realize, the remote auto of data acquisition equipment power supply is controlled, without manually data acquisition equipment being carried out to power supply control, thereby can improve the power supply control efficiency of data acquisition equipment.

Embodiment 3

The present embodiment provides a kind of data acquisition equipment, described data acquisition equipment is arranged on field, described data acquisition equipment comprises at least one power module, and in described at least one power module, each power supply mould is to corresponding functional module power supply, and described data acquisition equipment also comprises:

Communication module, the power supplying control signal sending for receiving control center;

Control module, for according to described power supplying control signal, controls each power module in described at least one power module and powers to each self-corresponding functional module.

Optionally, described control module specifically for, when the target power module in described at least one power module of described power supplying control signal indication starts to power to corresponding functional module, to described target power module, send the instruction that starts power supply, trigger described target power module and start to corresponding functional module power supply; Wherein, described target power module is the arbitrary module in described at least one power module;

Or, described control module specifically for, when the target power module in described at least one power module of described power supplying control signal indication is stopped power supply to corresponding functional module, to described target power module, send the instruction of stopping power supply, trigger described object module and stop to corresponding functional module power supply; Wherein, described target power module is the arbitrary module in described at least one power module.

Optionally, described communication module comprises following at least one submodule: Zigbee submodule, Wireless Fidelity WiFi submodule, 3G signal receive submodule, bluetooth submodule.

Optionally, described functional module, transducing signal synchronous for data acquisition, GPS and data processing.

The detailed implementation procedure of the data acquisition equipment of the present embodiment refers to said method embodiment, does not repeat herein.

The data acquisition equipment of the present embodiment, according to control center's power supplying control signal, controlling corresponding supply module in data acquisition equipment powers to corresponding functional module, thereby realize, the remote auto of data acquisition equipment power supply is controlled, without manually data acquisition equipment being carried out to power supply control, thereby can improve data acquisition equipment power supply control efficiency.

In addition, the present embodiment carries out functional module division by data acquisition equipment, and idle functional module is stopped power supply, and can reduce the working time that electric quantity consumption extends data acquisition equipment, can the abnormal functional module of Long-distance Control restart, thus the stability of raising data acquisition equipment.

One of ordinary skill in the art will appreciate that all or part of step that realizes above-described embodiment can complete by hardware, also can come the hardware that instruction is relevant to complete by program, described program can be stored in a kind of computer-readable recording medium, the above-mentioned storage medium of mentioning can be ROM (read-only memory), disk or CD etc.

These are only preferred embodiment of the present invention, in order to limit the present invention, within the spirit and principles in the present invention not all, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (8)

1. a method for controlling power supply, it is characterized in that, described method is applied to data acquisition equipment, described data acquisition equipment is arranged on field, described data acquisition equipment comprises at least one power module, in described at least one power module, each power supply mould is to corresponding functional module power supply, and described method comprises:

Receive the power supplying control signal that control center sends;

According to described power supplying control signal, control each power module in described at least one power module and power to each self-corresponding functional module.

2. method according to claim 1, is characterized in that, described according to described power supplying control signal, controls each power module in described at least one power module and comprises to corresponding functional module power supply:

When the target power module in described at least one power module of described power supplying control signal indication starts to power to corresponding functional module, to described target power module, send the instruction that starts power supply, trigger described target power module and start to corresponding functional module power supply; Wherein, described target power module is the arbitrary module in described at least one power module;

Or, when the target power module in described at least one power module of described power supplying control signal indication is stopped power supply to corresponding functional module, to described target power module, send the instruction of stopping power supply, trigger described target power module and stop to corresponding functional module power supply; Wherein, described target power module is the arbitrary module in described at least one power module.

3. according to method described in claim 1 or 2, it is characterized in that, described control module has digital signal sending function, and described target power module has digital signal reception function, the described instruction that starts power supply is the first digital signal, described in the instruction of stopping power supply be the second digital signal; Wherein, described the first digital signal is that high level signal, described the second digital signal are low level signal, or described the first digital signal is that low level signal, described the second digital signal are high level signal.

According to right with requiring the method described in 1, it is characterized in that, described functional module has that data acquisition, GPS are synchronous, at least one function of transducing signal, Data processing.

5. a data acquisition equipment, it is characterized in that, described data acquisition equipment is arranged on field, and described data acquisition equipment comprises at least one power module, in described at least one power module, each power module is to corresponding functional module power supply, and described data acquisition equipment also comprises:

Communication module, the power supplying control signal sending for receiving control center;

Control module, for according to described power supplying control signal, controls each power module in described at least one power module and powers to each self-corresponding functional module.

6. data acquisition equipment according to claim 5, it is characterized in that, described control module specifically for, when the target power module in described at least one power module of described power supplying control signal indication starts to power to corresponding functional module, to described target power module, send the instruction that starts power supply, trigger described target power module and start to corresponding functional module power supply; Wherein, described target power module is the arbitrary module in described at least one power module;

Or, described control module specifically for, when the target power module in described at least one power module of described power supplying control signal indication is stopped power supply to corresponding functional module, to described target power module, send the instruction of stopping power supply, trigger described object module and stop to corresponding functional module power supply; Wherein, described target power module is the arbitrary module in described at least one power module.

7. according to the data acquisition equipment described in any one in claim 5 to 6, it is characterized in that, described communication module has less radio-frequency receiving function.

8. according to the data acquisition equipment described in any one in claim 5 to 7, it is characterized in that, described communication module comprises following at least one submodule: purple honeybee Zigbee submodule, Wireless Fidelity WiFi submodule, 3G signal receive submodule, bluetooth submodule.

Images