CN109038784A - A kind of Low-power-consumptiodormancy dormancy device, the system and method for solar controller - Google Patents

Abstract

The present invention relates to solar controller fields, more particularly to a kind of Low-power-consumptiodormancy dormancy device of solar controller, the Low-power-consumptiodormancy dormancy device further include control switch, for solar controller functional module power power supply output module and the first voltage reduction module, the control switch is connect with the first power input, main control module and power supply output module respectively, and first voltage reduction module is connect with the first power input, communication receiving module and main control module respectively.The invention further relates to a kind of solar control system and Low-power-consumptiodormancy dormancy methods.The related function module that the present invention only participates in suspend mode control after solar controller suspend mode is in ultra-low power standby state, and it disconnects other and needs the electric energy of power consumption functional module, the power consumption of solar controller when reducing dormant state, meet the standby requirement of long-term suspend mode, and it can realize Remote Wake Up, and prevent battery from damaging due to long-term low discharging current.

Description

A kind of Low-power-consumptiodormancy dormancy device, the system and method for solar controller

Technical field

The present invention relates to solar controller fields, and in particular to a kind of Low-power-consumptiodormancy dormancy device of solar controller, System and method.

Background technique

Existing solar controller is directed to sleep mode, has following methods:

1, it connects one and switchs on the electrode line of battery, need to close switch when suspend mode；

2, it connects one and switchs on controller internal auxiliary power supply, need to close switch when suspend mode；

3, communication instruction is sent out to controller by handheld device, controller closes all external equipments after being connected to instruction, into Enter Low-power-consumptiodormancy dormancy mode.

But the existing defect of aforesaid way, specifically:

For mode 1, when normal work it is external switching current it is bigger, it is high to the quality requirement of switch, and for a long time Aging is easy to be out of order.For mode 2, although the second way switchs upper electric current very little, same meet is easy switch Bad situation.For mode 3, although controller closes all peripheral hardwares, the master controller chip of controller and other outside Circuit is enclosed also in work, still has 5-8 milliamperes of operating current, and controller is in long-distance transport, and comprehensive power consumption is still It is bigger.

Especially for integral solar energy street lamp, increasingly it is intended to minimize, low power integrated street lamp is matched The lithium battery capacity set is all fewer, when lithium battery, controller, LED light source are combined, foreign countries is much transported to, from assembling It is accomplished to and transports the time that user is likely to have 3-4 months using the time, this requires within the so long time, battery Electricity must completely consume, and the electric discharge of this low current easilys lead to battery permanent damage.

Therefore, this requires whole systems to have super low-power consumption sleep mode, while will not generate above-mentioned defect, and Client can easily wake up whole system after suspend mode.

Summary of the invention

The technical problem to be solved in the present invention is that in view of the above drawbacks of the prior art, providing a kind of solar control The Low-power-consumptiodormancy dormancy device of device solves existing sleep mode with defect, and the power consumption for being easily damaged circuit and suspend mode generation is high, And the problem of being not easily accomplished timely wake-up.

The technical problem to be solved in the present invention is that in view of the above drawbacks of the prior art, providing a kind of solar control System solves existing sleep mode with defect, and the power consumption for being easily damaged circuit and suspend mode generation is high, and is not easily accomplished The problem of waking up in time.

The technical problem to be solved in the present invention is that in view of the above drawbacks of the prior art, providing a kind of solar control The Low-power-consumptiodormancy dormancy method of system solves existing sleep mode with defect, is easily damaged the power consumption of circuit and suspend mode generation Height, and the problem of be not easily accomplished timely wake-up.

The technical solution adopted by the present invention to solve the technical problems is: the low-power consumption for providing a kind of solar controller is stopped Dormancy device, solar controller include being connected with external power source the first power input, communication receiving module and main control module, The main control module controls solar control according to the communication instruction of communication receiving module or the control instruction of solar controller Device enters suspend mode, and the Low-power-consumptiodormancy dormancy device further includes control switch, the functional module power supply for solar controller Power supply output module and the first voltage reduction module, the control switch respectively with the first power input, main control module and power supply Output module connection, first voltage reduction module are connect with the first power input, communication receiving module and main control module respectively； Wherein, it is supplied after the electric energy of the first power input is depressured by first voltage reduction module for communication receiving module and main control module Electricity, the control switch cut off the company of the first power input and output module of powering according to the sleep signal that main control module is sent It connects, and opens the connection of the first power input and output module of powering according to the wake-up signal that main control module is sent.

Wherein, preferred version is: the power supply output module includes the first output end and second output terminal, and described first is defeated Outlet directly exports the electric energy of the first power input, and the second output terminal further includes one second reduction voltage circuit, and exports logical Electric energy after crossing the second reduction voltage circuit decompression.

Wherein, preferred version is: second reduction voltage circuit includes the second low pressure difference linear voltage regulator.

Wherein, preferred version is: first voltage reduction module includes the first low pressure difference linear voltage regulator.

Wherein, preferred version is: the communication receiving module is infrared receiving terminal.

Wherein, preferred version is: the Low-power-consumptiodormancy dormancy device further includes third voltage reduction module, the third voltage reduction module It is connect respectively with the first power input, control switch and the first voltage reduction module.

Wherein, preferred version is: the control switch includes second source input terminal, control signal and power supply output End, the second source input terminal of the control switch connect with the first power input, control signal and main control chip Output pin connection is controlled, power output end is connect with the first output end and the second reduction voltage circuit respectively.

The technical solution adopted by the present invention to solve the technical problems is: a kind of solar control system is provided, it is described too It includes solar controller, battery, load and solar panels that sun, which can control system, the solar controller respectively with electric power storage Pond, load are connected with solar panels.

The technical solution adopted by the present invention to solve the technical problems is: providing a kind of low-power consumption of solar control system Dormancy awakening method, the Low-power-consumptiodormancy dormancy awakening method are applied in the solar control system, and the low-power consumption is stopped The step of dormancy awakening method includes: sleep step, and main control module is according to the communication instruction or solar control for communicating receiving module The control instruction control solar controller of device enters suspend mode, and closes all external control equipment, and only Low-power-consumptiodormancy dormancy fills The communication receiving module and main control module set are in low-power consumption working condition；It is remotely controlled wake-up step, main control module is according to communication The communication instruction control solar controller of receiving module exits suspend mode, into normal mode of operation；PV wake-up step, institute Solar controller is stated in access solar panels backed off after random suspend mode, and enters charging operations；Wherein, solar controller is logical It crosses sleep step and enters suspend mode, and suspend mode is exited by remote control wake-up step or PV wake-up step.

Wherein, preferred version is the PV wake-up step further include: chooses whether starting PV wake-up step；If starting, institute State solar controller access solar panels backed off after random suspend mode, and enter charging operations, meanwhile, detection the charging time be No is more than preset time, if being more than when needing loaded work piece, automatically turns on load, no person is not turned on load, and solar energy Controller goes successively to suspend mode；If not starting, the solar controller is accessing solar panels backed off after random suspend mode, And enters charging operations and be not turned on load, and solar controller goes successively to suspend mode when needing loaded work piece.

The beneficial effects of the present invention are compared with prior art, the present invention is by designing a kind of solar controller Low-power-consumptiodormancy dormancy device, system and method only participate in the related function module of suspend mode control after solar controller suspend mode In ultra-low power standby state, and disconnects other and need the electric energy of power consumption functional module, solar control when reducing dormant state The power consumption of device meets the standby requirement of long-term suspend mode, and can meet Remote Wake Up, and prevents battery due to long-term low discharging current And it damages.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples, in attached drawing:

Fig. 1 is the structural block diagram of Low-power-consumptiodormancy dormancy device of the present invention；

Fig. 2 is the structural block diagram of present invention power supply output module；

Fig. 3 is the structural block diagram of the Low-power-consumptiodormancy dormancy device the present invention is based on third voltage reduction module；

Fig. 4 is the structural block diagram of main control module of the present invention；

Fig. 5 is the flow diagram of Low-power-consumptiodormancy dormancy method of the present invention；

Fig. 6 is the flow diagram of PV wake-up step of the present invention.

Specific embodiment

Now in conjunction with attached drawing, elaborate to presently preferred embodiments of the present invention.

As shown in Figure 1, the present invention provides a kind of preferred implementation of the Low-power-consumptiodormancy dormancy device of solar controller.

A kind of Low-power-consumptiodormancy dormancy device of solar controller, solar controller include connect with external power supply 20 One power input 11, communication receiving module 13 and main control module 12, the main control module 12 is according to communication receiving module 13 The control instruction of communication instruction or solar controller itself control solar controller enters suspend mode；

Further, the Low-power-consumptiodormancy dormancy device further includes control switch 15, the functional module for solar controller The power supply output module 16 of power supply and the first voltage reduction module 14, the control switch 15 respectively with the first power input 11, main It controls module 12 and power supply output module 16 connects, first voltage reduction module 14 connects with the first power input 11, communication respectively It receives module 13 and main control module 12 connects；Wherein, the electric energy of the first power input 11 is depressured by first voltage reduction module 14 It powers afterwards for communication receiving module 13 and main control module 12, the sleep signal that the control switch 15 is sent according to main control module 12 The connection of the first power input 11 with power supply output module 16 is cut off, and is opened according to the wake-up signal that main control module 12 is sent Open the connection of the first power input 11 with power supply output module 16.

Wherein, with the rapid development of computer technology and microelectric technique, embedded system application field is more and more wider It is general.Energy conservation is the upsurge of globalization, if many chip past in computer are powered with 5V, uses 3.3V, 1.8V now, and propose The concept of the Green System of low-power consumption or super low-power consumption.

Wherein, the first voltage reduction module 14 directly powers the electric energy after decompression for main control module 12, while can directly be logical It interrogates the power supply of receiving module 13 or is powered indirectly by main control module 12.

In the present embodiment, solar controller obtains the electric energy of external power supply 20, institute by the first power input 11 The electric energy that can be battery offer for stating external power supply 20, is also possible to the electric energy of temporary source offer, is especially transporting In the process, corresponding electric energy is provided by temporary source；Communicating receiving module 13 is that wireless receiving sends out module, obtains external nothing Line control signal and the corresponding function module work for controlling solar controller, such as enter dormant state, wake up work, preferably Ground, the communication receiving module 13 are infrared receiving terminal.

In the present embodiment, a kind of working method is provided.

Firstly, a low-tension current is first obtained by the first voltage reduction module 14, for communication receiving module 13 and main control module 12 Power supply can work normally communication receiving module 13 and main control module 12；And main control module 12 is according to communication receiving module 13 wireless control signal into suspend mode or wakes up operating mode, and closes in suspend mode operating mode control control switch 15, It is opened waking up operating mode control control switch 15；When closed, the first power input 11 of cutting is to supply to control switch 15 Electricity output module 16 for electrical connection, make the other function module from service of solar controller, only keep a suspend mode work when The functional module work needed is solved and very may be used to user using the time from be completed to transporting to substantially reduce power consumption 3-4 months time can be had, so the electricity of battery does not completely consume in the long time, and solves the electric discharge of low current Easily lead to battery permanent damage.

Preferably, the first voltage reduction module 14 includes the first low pressure difference linear voltage regulator, and generates the electric energy of+3.3V.Wherein, LDO is a kind of linear voltage regulator, using the transistor or field-effect tube (FET) run in its linear region, from the defeated of application Enter to subtract the voltage of excess in voltage, generates the output voltage through overregulating.

Preferably, when main control module 12 enters suspend mode operating mode, main control module 12 is to enter the standby mould of low frequency low speed Formula, power consumption is only in the power consumption of 100uA.

As shown in Fig. 2, the present invention provides the preferred embodiment of power supply output module.

The power supply output module 16 includes the first output end 161 and second output terminal 162, first output end 161 The electric energy of the first power input 11 is directly exported, the second output terminal 162 further includes one second reduction voltage circuit 163, and defeated Electric energy after being depressured out by second reduction voltage circuit 163.

In the present embodiment, a kind of power supply plan is provided.

First output end 161 directly exports the electric energy of the first power input 11 input, is the part of solar controller Functional module power supply, such as driving circuit and operational amplifier circuit functional module, meanwhile, the electric energy of the first power input 11 input is excellent It is selected as the electric energy of 12V.And second reduction voltage circuit 163 be after the electric energy for inputting the first power input 11 is depressured, and Meet solar energy control such as infrared emission and wireless telecommunications lamp functional module for the partial function module for power supply of solar controller The voltage requirements of device processed.

Preferably, second reduction voltage circuit 163 includes the second low pressure difference linear voltage regulator, and generates the electric energy of+3.3V.

As shown in figure 3, the present invention provides the preferred embodiment of Low-power-consumptiodormancy dormancy device.

The Low-power-consumptiodormancy dormancy device further includes third voltage reduction module 17, and the third voltage reduction module 17 is electric with first respectively Source input terminal 11, control switch 15 and the connection of the first voltage reduction module 14.

Preferably, after the electric energy decompression that third voltage reduction module 17 is used to input the first power input 11, meet the sun It can control the power demands of device, such as generate the electric energy of 12V.

As shown in figure 4, the present invention provides the preferred embodiment of main control module.

The main control module 12 include main control chip 121, the main control chip 121 include at least power pins 1211, WKUP pin 1212 and control output pin 1213, the power pins 1211 of the main control chip 121 and the first voltage reduction module 14 Connection, WKUP pin 1212 are connect with communication receiving module 13, and control output pin 1213 is connect with control switch 15.

In the present embodiment, the control switch 15 includes second source input terminal, control signal and power output end, The second source input terminal of the control switch 15 is connect with the first power input 11, control signal and main control chip 121 control output pin 1213 connects, and power output end connects with the first output end 161 and the second reduction voltage circuit 163 respectively It connects.

Specifically, infrared receiver mouth is converted to low level by high level, and this state is by the main control chip 121 of dormant state WKUP pin 1212 monitor after, main control chip 121 is automatically into normal mode.There was only 121 He of main control chip i.e. after suspend mode Infrared receiving terminal is in ultra-low power standby state, and the power consumption of other peripheral circuits is disconnected by control switch 15, realizes that zero disappears Consumption.

In the present invention, a kind of preferred embodiment of solar control system is provided.

A kind of solar control system, the solar control system include solar controller, battery, load and too Positive energy plate, the solar controller are connect with battery, load and solar panels respectively.

Specifically, battery is connect with the first voltage reduction module of Low-power-consumptiodormancy dormancy device, is mentioned for solar controller work For required voltage.

Wherein, the dependency structure of solar controller, it is consistent with foregoing description, it no longer describes one by one herein.

As shown in Figure 5 and Figure 6, the present invention provides a kind of the preferred of the Low-power-consumptiodormancy dormancy awakening method of solar control system Embodiment.

A kind of Low-power-consumptiodormancy dormancy awakening method of solar control system, the Low-power-consumptiodormancy dormancy awakening method are applied to upper It states in solar control system, the step of Low-power-consumptiodormancy dormancy awakening method includes:

Step S11, sleep step, main control module is according to the communication instruction of communication receiving module or the control of solar controller System instruction control solar controller enters suspend mode, and closes all external control equipment, and only Low-power-consumptiodormancy dormancy device is logical News receiving module and main control module are in low-power consumption working condition；

Step S121, it is remotely controlled wake-up step, main control module controls solar energy control according to the communication instruction of communication receiving module Device processed exits suspend mode, into normal mode of operation；

Step S122, PV wake-up step, the solar controller are gone forward side by side in access solar panels backed off after random suspend mode Enter charging operations；Wherein, solar controller enters suspend mode by sleep step, and by remote control wake-up step or PV wake-up step exits suspend mode.

Wherein, PV indicates PV operation, related to the processing of semaphore, and P indicates the meaning passed through, and V indicates the meaning of release.

Specifically, by [OFF] key of CU remote controler or mini remote controler, (i.e. main control module is according to communication receiving module Communication instruction), controller closes all external control equipment, and itself enters the dormant state of extremely low power dissipation, avoids not making for a long time With causing lithium battery to feed.

And controller will be waken up by [ON] key of CU remote controler or mini remote controler after suspend mode, restore to work normally.

In the present embodiment, and Fig. 6, the PV wake-up step are referred to further include:

Step S21, starting PV wake-up step is chosen whether；

If step S221, starting, the solar controller enters and fills in access solar panels backed off after random suspend mode It is electrically operated, meanwhile, whether the detection charging time is more than preset time, if being more than when needing loaded work piece, is automatically turned on negative It carries, no person is not turned on load, and solar controller goes successively to suspend mode；

If step S222, not starting, the solar controller enters in access solar panels backed off after random suspend mode Charging operations are not turned on load, and solar controller goes successively to suspend mode when needing loaded work piece.

As described above, only preferred embodiment is not intended to limit the scope of the present invention, Fan Yibenfa Equivalent change or modification made by bright claim is all that the present invention is covered.

Claims (10)

1. a kind of Low-power-consumptiodormancy dormancy device of solar controller, solar controller includes being connected with external power source the first electricity Source input terminal, communication receiving module and main control module, the main control module is according to the communication instruction or the sun for communicating receiving module The control instruction control solar controller that can control device enters suspend mode, it is characterised in that:

The Low-power-consumptiodormancy dormancy device further include control switch, for solar controller functional module power for electricity output mould Block and the first voltage reduction module, the control switch are connect with the first power input, main control module and power supply output module respectively, First voltage reduction module is connect with the first power input, communication receiving module and main control module respectively；Wherein,

First voltage reduction module is powered after being depressured the electric energy of the first power input for communication receiving module and main control module, The control switch cuts off the connection of the first power input and output module of powering according to the sleep signal that main control module is sent, And the connection of the first power input and output module of powering is opened according to the wake-up signal that main control module is sent.

2. Low-power-consumptiodormancy dormancy device according to claim 1, it is characterised in that: the power supply output module includes first defeated Outlet and second output terminal, first output end directly export the electric energy of the first power input, and the second output terminal is also Including one second reduction voltage circuit, and export the electric energy after being depressured by second reduction voltage circuit.

3. Low-power-consumptiodormancy dormancy device according to claim 2, it is characterised in that: second reduction voltage circuit includes second low Pressure difference linear voltage regulator.

4. Low-power-consumptiodormancy dormancy device according to claim 1, it is characterised in that: first voltage reduction module includes first low Pressure difference linear voltage regulator.

5. Low-power-consumptiodormancy dormancy device according to claim 1, it is characterised in that: the communication receiving module is infrared receiver Head.

6. Low-power-consumptiodormancy dormancy device according to claim 1, it is characterised in that: the Low-power-consumptiodormancy dormancy device further includes Three voltage reduction modules, the third voltage reduction module are connect with the first power input, control switch and the first voltage reduction module respectively.

7. Low-power-consumptiodormancy dormancy device according to claim 7, it is characterised in that: the control switch includes that second source is defeated Entering end, control signal and power output end, the second source input terminal of the control switch is connect with the first power input, The connection of the control output pin of its control signal and main control chip, power output end are dropped with the first output end and second respectively Volt circuit connection.

8. a kind of solar control system, it is characterised in that: the solar control system includes such as any institute of claim 1-8 Solar controller, battery, load and the solar panels stated, the solar controller respectively with battery, load and too Positive energy plate connection.

9. a kind of Low-power-consumptiodormancy dormancy awakening method of solar control system, which is characterized in that the Low-power-consumptiodormancy dormancy wake-up side Method is applied in solar control system as claimed in claim 9, and the step of Low-power-consumptiodormancy dormancy awakening method includes:

Sleep step, main control module control too according to the communication instruction of communication receiving module or the control instruction of solar controller Sun can control device and enter suspend mode, and close all external control equipment, only the communication receiving module of Low-power-consumptiodormancy dormancy device and Main control module is in low-power consumption working condition；

It is remotely controlled wake-up step, main control module exits suspend mode mould according to the communication instruction control solar controller of communication receiving module Formula, into normal mode of operation；

PV wake-up step, the solar controller enter charging operations in access solar panels backed off after random suspend mode；

Wherein, solar controller enters suspend mode by sleep step, and is waken up by remote control wake-up step or PV Step exits suspend mode.

10. Low-power-consumptiodormancy dormancy awakening method according to claim 9, which is characterized in that the PV wake-up step further include:

Choose whether starting PV wake-up step；

If starting, the solar controller enters charging operations in access solar panels backed off after random suspend mode, meanwhile, It detects whether the charging time is more than preset time, if being more than when needing loaded work piece, automatically turns on load, no person is not turned on Load, and solar controller goes successively to suspend mode；

If not starting, the solar controller enters charging operations in access solar panels backed off after random suspend mode, is needing When wanting loaded work piece, it is not turned on load, and solar controller goes successively to suspend mode.