CN107358932B - A kind of power control circuit and method, display device - Google Patents

Abstract

The present invention discloses a kind of power control circuit and method, display device, is related to field of display technology, so that mainboard realizes zero-power, to solve limitation of the standby efficiency grade of display device by power consumption possessed by master chip itself.The power control circuit includes: signal control module, the ground connection control module of ground connection, and the upspring type key switch and electromagnetic switch module that connect respectively with power supply line；Power supply line is connect by upspring type key switch with the input terminal of signal control module, and power supply line is electrically connected by the control end of applying of electromagnetic switch module with the input terminal of ground connection control module；Power supply line is connect with the controlled end of electromagnetic switch module, so that controlled end is powered to mainboard and signal control module, the output end and upspring type key switch of signal control module are connect with the control terminal of ground connection control module respectively.The power control method applies above-mentioned power control circuit.Power control circuit provided by the invention is in display device.

Description

A kind of power control circuit and method, display device

Technical field

The present invention relates to field of display technology more particularly to a kind of power control circuit and methods, display device.

Background technique

With increasing rapidly for household electrical appliance owning amount, problems of energy consumption is widely paid close attention to by people.Countries in the world The energy efficiency of energy-consuming product all is improved by formulating and implementing Energy Efficiency Standard, popularization Energy Efficiency Labeling System, promotes energy saving skill Art progress, and then reduce discharge and the protection environment of nuisance.

Such as: it is provided in Chinese computer display Energy Efficiency Standard GB21520-2008: the efficiency grade of liquid crystal display It is divided into three-level, the stand-by power consumption of the first efficiency grade is 0.5W, and the stand-by power consumption of the second efficiency grade is 1W, third efficiency grade Stand-by power consumption be 2W.

And available liquid crystal display is being pressed when switch, the master chip in liquid crystal display on mainboard can control backlight pass It closes and other external equipments (such as power amplifier chips) is closed, to guarantee that the power consuming device other than master chip is all closed, therefore, The stand-by power consumption of available liquid crystal display includes master chip power consumption, power panel and power supply adaptor power consumption；And due to power panel and For adapter power consumption generally in 0.2W~0.3W or so, this makes the master chip power consumption in liquid crystal display must be in certain range It is interior, the standby efficiency grade of liquid crystal display can be made to meet GB21520-2008 regulation.Therefore, liquid crystal display to Function effect grade is limited by power consumption possessed by master chip itself.

Summary of the invention

The purpose of the present invention is to provide a kind of power control circuit and methods, display device, so that mainboard realizes zero power Consumption, to solve limitation of the standby efficiency grade of display device by power consumption possessed by master chip itself.

To achieve the goals above, the invention provides the following technical scheme:

A kind of power control circuit, comprising: signal control module, ground connection control module, and connect respectively with power supply line Upspring type key switch and electromagnetic switch module；

The power supply line is connect by the upspring type key switch with the input terminal of the signal control module, the electricity Source line is electrically connected by the control end of applying of the electromagnetic switch module with the input terminal of the ground connection control module, the ground connection control The output end of module is grounded；The power supply line is connect with the controlled end of the electromagnetic switch module, the electromagnetic switch module Controlled end is used to power to the mainboard and the signal control module, the output end of the signal control module and described bounces Formula key switch is connect with the control terminal of the ground connection control module respectively；The signal control module according to for bouncing The state of formula key switch controls the ground connection control module on or off.

Compared with prior art, in power control circuit provided by the invention, power supply line is connect with upspring type key switch, Upspring type key switch is also connect with the control terminal of ground connection control module, and power supply line is applied control end and connect by electromagnetic switch module The input terminal of ground control module is electrically connected, and is grounded the output end ground connection of control module, when so that pressing upspring type key switch, electricity The power supply signal that source line provides can control ground connection control module conducting by upspring type key switch；At this point, power supply signal is just It being capable of applying in control end and ground connection control module importing ground wire by electromagnetic switch module；And due to power supply line and electromagnetic switch mould The controlled end of block connects, and the controlled end of electromagnetic switch module is used to supply to mainboard and signal control module as power output end Therefore electricity passes through when applying control end of electromagnetic switch module in power supply signal, the controlled end of electromagnetic switch module can be opened in electromagnetism It closes applying for module to control under the control of end, so that power supply signal applies control end to mainboard and signal control module by electromagnetic switch module Power supply, this makes it possible to guarantee the electrification of signal control module to control ground connection control module conducting, so that power supply line continues To main board power supply.

And when needing standby, can by pressing upspring type key switch so that upspring type key switch pressing state to The shutdown signal that signal control module provides, signal control module can control ground connection control module shutdown according to shutdown signal, from And guarantees power supply signal and stop powering to mainboard and signal control module.It can be seen that need to only press and bounce when needing standby Formula key switch cuts off motherboard power supply line to main board power supply, so that the complete power down of mainboard, energy by power control circuit Enough guarantee that mainboard realizes zero-power in the standby state, the standby efficiency grade of such display device would not be by master chip certainly The limitation of power consumption possessed by body.

The present invention also provides a kind of power control methods, control electricity using the power supply that above-mentioned technical proposal provides Road, the power control method include:

When the power supply signal that power supply line provides is powered to mainboard and signal control module, upspring type key switch, institute are pressed It states upspring type key switch and is in pressing state, the closing letter that the upspring type key switch is provided to the signal control module Number, the signal control module controls ground connection control module according to the shutdown signal and turns off, so that the power supply signal stops It powers to the mainboard and the signal control module.

Compared with prior art, the beneficial effect Yu above-mentioned technical proposal of power control method provided by the invention provide The beneficial effect of power control circuit is identical, and this will not be repeated here.

The present invention also provides a kind of display device, the power control circuit provided including above-mentioned technical proposal.

Compared with prior art, the power supply that the beneficial effect of display device provided by the invention and above-mentioned technical proposal provide The beneficial effect of control circuit is identical, and this will not be repeated here.

Detailed description of the invention

The drawings described herein are used to provide a further understanding of the present invention, constitutes a part of the invention, this hair Bright illustrative embodiments and their description are used to explain the present invention, and are not constituted improper limitations of the present invention.In the accompanying drawings:

Fig. 1 is the structural schematic diagram of power control circuit provided in an embodiment of the present invention.

Appended drawing reference:

IN- power input, OUT- power output end；

K1- upspring type key switch, U1- signal control module；

U2- electromagnetic switch module, L- inductance coil；

K2- noncontacting switch, DC/DC- voltage transformation module；

B- protects circuit, R_F1- the first divider resistance；

R_F2- the second divider resistance, R_XCurrent-limiting resistance；

R_cBiasing resistor, Q- are grounded control module；

D1- first diode, the second diode of D2-；

A- tie point.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Referring to Fig. 1, power control circuit provided in an embodiment of the present invention, powers for control mainboard；Including signal control Molding block U1, ground connection control module Q, and the upspring type key switch K1 and electromagnetic switch module that are connect respectively with power supply line U2。

The power input IN of power supply line is connect by upspring type key switch K1 with the input terminal of signal control module U1, The power input IN of power supply line is electrically connected by the control end of applying of electromagnetic switch module U2 with the input terminal of ground connection control module Q, It is grounded the output end ground connection of control module Q；Power supply line is connect with the controlled end of electromagnetic switch module U2, electromagnetic switch module U2's Controlled end is used to power to mainboard and signal control module U1 as power output end OUT, the output end of signal control module U1 It is connect respectively with the control terminal of ground connection control module Q with upspring type key switch K1；Signal control module U1 is used for basis and bounces The state control ground connection control module Q on or off of formula key switch K1.

The control method of power control circuit provided in an embodiment of the present invention is described in detail with reference to the accompanying drawing.

When the power supply signal that power supply line provides is powered to mainboard and signal control module U1, upspring type key switch is pressed K1, upspring type key switch K1 are in pressing state (i.e. upspring type key switch K1 conducting), and upspring type key switch K1 is to letter The shutdown signal that number control module U1 is provided, signal control module U1 control ground connection control module Q according to shutdown signal and turn off, this Sample power supply signal just can not apply control end by electromagnetic switch module U2, so that the controlled end of electromagnetic switch module U2 can not be in electricity Under the control for applying control end of magnetic switch module U2, power supply signal is powered to mainboard and signal control module U1, to guarantee to cut off The power supply of mainboard and signal control module U1.And in the state of bouncing at upspring type key switch K1, power conversion module at this time Power down, and mainboard keeps power off state.

When the power supply signal that power supply line provides is not powered to mainboard and signal control module U1, upspring type key is pressed Switch K1, upspring type key switch K1 are in pressing state, and power supply signal passes through upspring type key switch K1 control ground connection control Module Q conducting, so that power supply signal applies control end and ground connection control module Q importing ground wire by electromagnetic switch module U2；In Electromagnetic switch module U2's applies control end when passing through power supply signal, and electromagnetic switch module U2's applies control end control electromagnetic switch module U2 Controlled end conducting so that power supply signal is supplied by the controlled end of electromagnetic switch module U2 to mainboard and signal control module U1 Electricity, so that signal control module U1 control ground connection control module Q is held on.In addition, upspring type key switch K1 is in and bounces State (i.e. upspring type key switch K1 disconnection), power supply signal can not control ground connection control module by upspring type key switch K1 Q conducting；But since, in pressing state, signal control module U1 control ground connection controls mould at upspring type key switch K1 Block Q is held on, and therefore, when upspring type key switch K1, which is in, bounces state, power supply signal still is able to open by electromagnetism The controlled end of module U2 is closed to mainboard and signal control module U1 continued power.

Specific structure and the implementation process of the power control circuit provided based on the above embodiment are it is found that the embodiment of the present invention In the power control circuit of offer, power supply line is connect with upspring type key switch K1, and upspring type key switch K1 is also controlled with ground connection The control terminal of molding block Q connects, the input terminal electricity applied control end and be grounded control module Q that power supply line passes through electromagnetic switch module U2 Connection, the output end ground connection of ground connection control module Q, when so that pressing upspring type key switch K1, the power supply that power supply line provides is believed Number can by upspring type key switch K1 control ground connection control module Q conducting, to guarantee that power supply signal passes through electromagnetic switch Module U2's applies in control end and ground connection control module Q importing ground wire；And due to the controlled end of power supply line and electromagnetic switch module U2 The controlled end of connection, electromagnetic switch module U2 is used to power to mainboard and signal control module U1 as power output end OUT, because This passes through when applying control end of electromagnetic switch module U2 in power supply signal, and the controlled end of electromagnetic switch module U2 can be opened in electromagnetism It closes applying for module U2 to control under the control of end, so that power supply signal is controlled by the control end of applying of electromagnetic switch module U2 to mainboard and signal Module U1 power supply, this makes it possible to guarantee signal control module U1 electrification to control ground connection control module Q conducting, so that electric Source line continues to main board power supply.

It, can be by pressing upspring type key switch K1, so that upspring type key switch K1 is in pressing shape when needing standby The shutdown signal that state is provided to signal control module U1, signal control module U1 can control ground connection control module according to shutdown signal Q shutdown, to guarantee that power supply signal stops powering to mainboard and signal control module U1.It can be seen that when needing standby, only Upspring type key switch K1 need to be pressed, motherboard power supply line is cut off to main board power supply, so that mainboard by power control circuit Complete power down, it will be able to guarantee that mainboard realizes zero-power in the standby state, the standby efficiency grade of such display device is just not It will receive the limitation of power consumption possessed by master chip itself.

And since the standby efficiency grade of display device would not be limited by power consumption possessed by master chip itself, make It obtains when producing the master chip on mainboard, without considering that standby energy consumption is lost, to reduce the production cost of master chip.

It is worth noting that, in above-described embodiment signal control module U1 can be single-chip microcontroller or other control modules, when When signal control module U1 is single-chip microcontroller, the GND pin ground connection of single-chip microcontroller, the Vcc pin of single-chip microcontroller is as power interface and electricity The controlled end of magnetic switch module U2 connects, and the IO1 pin of single-chip microcontroller is connect as input terminal with upspring type key switch K1, monolithic The IO2 pin of machine is connect as output end with the control terminal of ground connection control module Q.

When power supply line is not powered to mainboard and single-chip microcontroller, upspring type key switch K1 is pressed, and upspring type key is opened It closes K1 and is in pressing state, so that power supply signal is powered by the controlled end of electromagnetic switch module to mainboard and single-chip microcontroller, at this point, The voltage that single-chip microcontroller is directly exported the IO2 pin as output end is predisposed to high level.

And when power supply line is powered to mainboard and single-chip microcontroller, since single-chip microcontroller is in power-up state, upspring type is pressed at this time Key switch K1, and upspring type key switch K1 is in pressing state, above-mentioned first divider resistance R_F1Connect the second divider resistance R_F2Anode-cathode voltage be high level, and be supplied to IO1 pin of the single-chip microcontroller as input terminal, single-chip microcontroller is converted to high level low Ground connection control module Q is given in level, output, is grounded control module Q with shutdown.

It should be noted that the wide variety multiplicity of above-mentioned electromagnetic switch module U2, as shown in Figure 1, electromagnetic switch module U2 can be relay, and the control end of applying in relay is inductance coil L, and controlled end is noncontacting switch K2, and inductance coil L is logical When electric, noncontacting switch K2 is enabled to be connected, therefore, when above-mentioned electromagnetic switch module U2 is relay, power supply line passes through The inductance coil L is connect with the input terminal of ground connection control module Q；Power supply line is connect with one end of noncontacting switch K2, oncontacting The other end of point switch K2 is powered as power output end OUT to mainboard and signal control module U1.Based on the structure, work as ground connection When control module Q is connected, inductance coil L just has power supply signal and passes through, i.e. inductance coil L has electric current to pass through, so that contactless Switch K2 is closed under the magnetic field caused by inductance coil L, and such power supply signal can be by noncontacting switch K2 to mainboard It powers with signal control module U1.

And in order to guarantee the stability and safety of signal control module U1 work, above-described embodiment is in electromagnetic switch module The controlled end of U2 is connect with the power interface of signal control module U1 by voltage transformation module DC/DC, in electromagnetic switch mould The controlled end for applying control end control electromagnetic switch module U2 of block U2, so that power supply signal is powered to mainboard and signal control module U1 When, power supply signal is converted by voltage transformation module DC/DC, so that the voltage of power supply signal is in signal control module U1 Operating voltage, to guarantee job stability and the safety of signal control module U1.

Further, as shown in Figure 1, power control circuit provided by the above embodiment further includes protection circuit B, upspring type is pressed Key switch K1 is connect with the input terminal of the control terminal of ground connection control module Q and signal control module U1 respectively by protection circuit B, By protecting circuit B to be at least used to protect signal control module U1.

Optionally, as shown in Figure 1, above-mentioned protection circuit B includes the first divider resistance R_F1And the second partial pressure electricity of ground connection Hinder R_F2；Upspring type key switch K1, the first divider resistance R_F1With the second divider resistance R_F2It is sequentially connected in series together, the first partial pressure Resistance R_F1Connect the second divider resistance R_F2End (i.e. tie point a) in Fig. 1 input terminal with signal control module U1 respectively It is connected with the control terminal of ground connection control module Q, and the first divider resistance R_F1Connect the second divider resistance R_F2Anode-cathode voltage answer When the operating voltage for being no more than signal control module U1.

Such as: as shown in Figure 1, signal control module U1 is single-chip microcontroller, operating voltage is 3.3V or 5V, in single-chip microcontroller Operating voltage is 3V, and power supply signal voltage is 12V, the first divider resistance R_F1Resistance value be 27K Ω, the second divider resistance R_F2's Resistance value is 10K Ω, at this point, the first divider resistance R_F1Connect the second divider resistance R_F2Anode-cathode voltage be 3.24V, therefore, first Divider resistance R_F1Connect the second divider resistance R_F2Anode-cathode voltage be no more than signal control module U1 operating voltage, to protect Single-chip microcontroller work is demonstrate,proved in safe voltage.

Meanwhile the power supply signal of 12V carries out voltage by voltage transformation module DC/DC and turns after noncontacting switch K2 It changes, the voltage of power supply signal is made to be down to 3.3V, be supplied to single-chip microcontroller, the output end voltage of single-chip microcontroller is predisposed to about by single-chip microcontroller The high level of 3.3V, so that single-chip microcontroller control ground connection control module Q conducting.

In addition, the first divider resistance R in above-described embodiment_F1, the second divider resistance R_F2Resistance sizes be to be controlled by signal What the operating voltage size of module U1 determined.And consider the first divider resistance R_F1Connect the second divider resistance R_F2End not It only connect with the input terminal of signal control module U1, but also is connected with the control terminal of ground connection control module Q, this makes first Divider resistance R_F1, the second divider resistance R_F2When flowing through electric current, ground connection control module Q conducting can be controlled.

And ground connection control module Q is caused to burn in order to avoid electric current is excessive, as shown in Figure 1, protecting electricity in above-described embodiment Road B passes through current-limiting resistance R_XIt is connect with the control terminal of ground connection control module Q, to avoid the control terminal sum aggregate of ground connection control module Q Electrode current is excessive；And current-limiting resistance R_XWhen current limliting, need and the first divider resistance R in protection circuit B_F1With the second partial pressure electricity Hinder R_F2Coordinated just can guarantee at the electric current of ground connection control module Q in safe range, and can be grounded control module When Q needs to be connected, guarantee that the voltage for being supplied to ground connection control module Q control terminal enables to ground connection control module Q conducting.

And the control end of applying of electromagnetic switch module U2 passes through biasing resistor R in above-described embodiment_cWith ground connection control module Q it is defeated Enter end connection, so that biasing resistor R_cThe input terminal electric current into ground connection control module Q can be limited, guarantees ground connection control module Q is worked normally.

Illustratively, above-mentioned ground connection control module Q is NPN type triode, at this time upspring type key switch K1 and signal control The connection of the base stage of molding block U1 and NPN type triode, the controlled end of electromagnetic switch module U2 and the collector of NPN type triode connect It connects, the emitter ground connection of NPN type triode；Upspring type key switch K1 and signal control module U1 passes through current-limiting resistance R_XRespectively It is connect with the base stage of NPN type triode, the controlled end of electromagnetic switch module U2 passes through biasing resistor R_cWith ground connection control module Q's Collector connection.At this point, biasing resistor R_cIt can not only limit into NPN type triode collector current size, and can also It is enough to provide direct current biasing to NPN type triode, so that NPN type triode is in saturation state and on state.

Further, it is contemplated that the output end and upspring type key switch K1 of signal control module U1 controls mould with ground connection respectively The control terminal of block Q connects, so that power supply signal is easy to make by upspring type key switch K1 control ground connection control module Q conducting Electric current recharge is obtained to signal control module U1, and controls ground connection control module Q conducting in signal control module U1, is easy so that electric It flows back to and is poured into upspring type key switch K1 institute in the loop；Based on this, referring to Fig. 1, power supply provided by the above embodiment controls Circuit further includes first diode D1 and the second diode D2 in parallel, and protection circuit B is connect with the anode of first diode D1, The cathode of first diode D1 passes through current-limiting resistance R_XIt is connect with the control terminal of ground connection control module Q, and signal control module Output end is connect with the anode of the second diode D2, and the cathode of the second diode D2 passes through current-limiting resistance R_XWith ground connection control module The control terminal of Q connects.Based on the structure, when upspring type key switch K1 is pressed, and it is in pressing state, power supply signal passes through guarantor Protection circuit B, first diode D1, current-limiting resistance R_XWhen control ground connection control module Q conducting, the second diode D2 can prevent electricity It flows back to and is poured into signal control module U1；And when being bounced after upspring type key switch K1 is pressed, signal control module U1 control When being grounded control module Q conducting, first diode D1 can be avoided the electric current recharge into protection circuit B.

Illustratively, the embodiment of the invention provides a kind of power control circuit as shown in Figure 1, the power control circuits Structure referring to above, wherein power line voltage is 12V, signal control module U1 be operating voltage be 3.3V single-chip microcontroller, connect Ground control module Q is triode, and concrete model SST3904, electromagnetic switch module U2 are relay, is protected first in circuit B Divider resistance R_F1Resistance value be 27K Ω, the second divider resistance R_F2Resistance value be 10K Ω, current-limiting resistance R_XResistance value be 4.7K Ω, Biasing resistor R_cResistance value be 10K Ω.

If before upspring type key switch K1 is pressed, the power supply signal that power supply line provides is not supplied to mainboard and single-chip microcontroller Electricity, then after power supply signal upspring type key switch K1 is pressed, and it is in pressing state, the first divider resistance R_F1Connection second Divider resistance R_F2Anode-cathode voltage be 3.24V (about 3.3V), it is seen then that the first divider resistance R_F1Connect the second divider resistance R_F2's Anode-cathode voltage is slightly less than the operating voltage of single-chip microcontroller, and the power supply signal of 12V passes through upspring type key switch K1, the first divider resistance R_F1With current-limiting resistance R_XAfterwards, by first diode D1 (0.5V pressure drop), then pass through current-limiting resistance R_XAfter be supplied to triode Base stage, the base voltage of triode is 2.74V at this time, so that triode ON, such power supply signal passes through in relay Inductance coil L, biasing resistor R_cIt is introduced into ground wire with triode, and the inductance coil L in relay is generated when passing through electric current Magnetic field so that the noncontacting switch K2 in relay is closed, guarantee the power supply signal of 12V by the noncontacting switch K2 of closure to Mainboard and single-chip microcontroller power supply, and in order to guarantee single-chip microcontroller work safety, before power supply signal enters single-chip microcontroller, by the power supply of 12V Signal is converted to the voltage of 3.3V, and powers from the Vcc pin of single-chip microcontroller to single-chip microcontroller, and single-chip microcontroller is direct by IO2 pin at this time It is predisposed to high level (voltage 3.3V), and passes through current-limiting resistance R_XAfter current limliting, triode ON is controlled.Wherein, above-mentioned to bounce Formula key switch K1 can be bounced at once after pressing, so that upspring type key switch K1 is disconnected；But due in this process, IO2 pin is directly predisposed to high level by single-chip microcontroller, so that upspring type key switch K1 is when disconnecting, triode still is able to protect Hold conducting.

And if the power supply signal that power supply line provides is powered to mainboard and single-chip microcontroller before upspring type key switch K1 presses, So after upspring type key switch K1 is pressed, and it is in pressing state, although the first divider resistance R_F1Connection the second partial pressure electricity Hinder R_F2Anode-cathode voltage be 3.24V high level, the IO1 pin of single-chip microcontroller is converted to high level after receiving high level Low level, control triode shutdown.

It is worth noting that, single-chip microcontroller defaults the output signal of its IO2 pin after the power-up for high electricity in above-described embodiment It is flat, when the single-chip microcontroller powered on receives high level signal, high level signal can be converted to low level signal and exported, and When the single-chip microcontroller powered on receives low level signal, the output signal of the IO2 pin of single-chip microcontroller still maintains default conditions, in this way It can be when powering to mainboard and single-chip microcontroller, after pressing upspring type key switch K1, upspring type key switch K1 is in State is bounced, although the IO1 pin of single-chip microcontroller receives low level signal, the IO2 pin of single-chip microcontroller still is able to export High level signal control triode is held on, and when powering to mainboard and single-chip microcontroller, after pressing upspring type key switch K1, Upspring type key switch K1 is in pressing state, and the IO1 pin of monolithic receives high level signal, and single-chip microcontroller can be by high level Signal is converted to low level signal, and exports low level signal by IO2 pin and control triode shutdown.

It should be noted that the power supply signal that power supply line provides is not to master before pressing for upspring type key switch K1 Plate and single-chip microcontroller are powered such case, after power supply signal upspring type key switch K1 is pressed, and are in pressing state, and first point Piezoresistance R_F1Connect the second divider resistance R_F2Anode-cathode voltage be 3.24V high level, but because single-chip microcontroller do not power on, So that the first divider resistance R_F1Connect the second divider resistance R_F2Anode-cathode voltage any control of single-chip microcontroller played will not be made With.

And in triode ON, the moment that power supply signal is powered to single-chip microcontroller, upspring type key switch K1 has been bounced (i.e. upspring type key switch K1 disconnection) can not continue to control triode ON.But due to the single-chip microcontroller after powering on can directly by The output signal of IO2 pin is predisposed to high level, to keep triode ON under upspring type key switch K1 disconnection.

The embodiment of the invention also provides a kind of power control method, the power supply provided using above-mentioned technical proposal Control circuit, as shown in Figure 1, the power control method includes:

When the power supply signal that power supply line provides is powered to mainboard and signal control module U1, upspring type key switch is pressed K1, upspring type key switch K1 are in pressing state, the closing letter that upspring type key switch K1 is provided to signal control module U1 Number, signal control module U1 controls ground connection control module Q according to shutdown signal and turns off, so that power supply signal stops to mainboard and letter Number control module U1 power supply.

Compared with prior art, the beneficial effect and above-mentioned technical proposal of power control method provided in an embodiment of the present invention The beneficial effect of the power control circuit provided is identical, and this will not be repeated here.

Specifically, as shown in Figure 1, power control method provided by the above embodiment further include:

When the power supply signal that power supply line provides is not powered to mainboard and signal control module U1, presses upspring type key and open K1 is closed, upspring type key switch K1 is in pressing state, and power supply signal passes through upspring type key switch K1 control ground connection control mould Block Q conducting, so that power supply signal applies control end and ground connection control module Q importing ground wire by electromagnetic switch module U2；In electricity Magnetic switch module U2's applies control end when passing through power supply signal, and electromagnetic switch module U2's applies control end control electromagnetic switch module U2's Controlled end conducting, so that power supply signal is powered by the controlled end of electromagnetic switch module U2 to mainboard and signal control module U1, Signal control module U1 control ground connection control module Q is held on.

As shown in Figure 1, the embodiment of the invention also provides a kind of display device, the power supply including above-mentioned technical proposal offer Control circuit.

Compared with prior art, the beneficial effect of display device provided in an embodiment of the present invention and above-mentioned technical proposal provide Power control circuit beneficial effect it is identical, this will not be repeated here.

Wherein, display device provided by the above embodiment can be mobile phone, tablet computer, television set, display, notebook Any products or components having a display function such as computer, Digital Frame or navigator.

In the description of above embodiment, particular features, structures, materials, or characteristics can be at any one or more It can be combined in any suitable manner in a embodiment or example.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.

Claims (10)

1. a kind of power control circuit characterized by comprising signal control module, ground connection control module, and respectively with electricity The upspring type key switch and electromagnetic switch module of source line connection；

The power supply line is connect by the upspring type key switch with the input terminal of the signal control module, the power supply line It is electrically connected by the control end of applying of the electromagnetic switch module with the input terminal of the ground connection control module, the ground connection control module Output end ground connection；The power supply line is connect with the controlled end of the electromagnetic switch module, the electromagnetic switch module it is controlled End is for mainboard and signal control module power supply, the output end of the signal control module and the upspring type key to be opened It closes and is connect respectively with the control terminal of the ground connection control module；The signal control module according to the upspring type key for opening The state of pass controls the ground connection control module on or off.

2. power control circuit according to claim 1, which is characterized in that the power control circuit further includes at least using In the protection circuit for protecting the signal control module, the upspring type key switch by the protection circuit respectively with it is described The control terminal of ground connection control module is connected with the input terminal of the signal control module.

3. power control circuit according to claim 2, which is characterized in that the protection circuit includes the first divider resistance And the second divider resistance of ground connection；The upspring type key switch, the first divider resistance and the second divider resistance are sequentially connected in series Together, first divider resistance connects the end input with the signal control module respectively of second divider resistance It holds and is connected with the control terminal of the ground connection control module.

4. power control circuit according to claim 2, which is characterized in that the power control circuit further includes current limliting electricity The first diode and the second diode of resistance, biasing resistor and parallel connection；The sun of the protection circuit and the first diode The cathode of pole connection, the first diode is connect by the current-limiting resistance with the control terminal of the ground connection control module；

The output end of the signal control module is connect with the anode of second diode, and the cathode of second diode is logical The current-limiting resistance is crossed to connect with the control terminal of the ground connection control module；

The control end of applying of the electromagnetic switch module is connect with the input terminal of the ground connection control module by the second current-limiting resistance.

5. any one power control circuit according to claim 1~4, which is characterized in that the ground connection control module is NPN Type triode, the upspring type key switch and the signal control module are connect with the base stage of the NPN type triode, described The controlled end of electromagnetic switch module is connect with the collector of the NPN type triode, and the emitter of the NPN type triode connects Ground.

6. power control circuit according to any one of claims 1 to 4, which is characterized in that the electromagnetic switch module Controlled end is connect with the power interface of the signal control module by voltage transformation module.

7. power control circuit according to any one of claims 1 to 4, which is characterized in that the electromagnetic switch module is Relay；The control end of applying of the electromagnetic switch module is inductance coil, and the power supply line is connect by the inductance coil with described The input terminal of ground control module connects；

The controlled end of the electromagnetic switch module is noncontacting switch, one end company of the power supply line and the noncontacting switch It connects, the other end of the noncontacting switch is powered as power output end to mainboard and signal control module.

8. a kind of power control method, which is characterized in that apply the described in any item power control circuits of claim 1~7, institute Stating power control method includes:

When the power supply signal that power supply line provides is powered to mainboard and signal control module, upspring type key switch, the bullet are pressed It plays formula key switch and is in pressing state, the shutdown signal that the upspring type key switch is provided to the signal control module, The signal control module controls ground connection control module shutdown according to the shutdown signal, so that the power supply signal stops to institute State mainboard and signal control module power supply.

9. power control method according to claim 8, which is characterized in that the power control method further include:

When the power supply signal that the power supply line provides is not powered to mainboard and signal control module, the upspring type key is pressed Switch, the upspring type key switch are in pressing state, and the power supply signal controls institute by the upspring type key switch State ground connection control module conducting so that the power supply signal by electromagnetic switch module apply control end and ground connection control module lead Enter ground wire；The electromagnetic switch module apply control end pass through power supply signal when, the electromagnetic switch module apply control end control The controlled end of the electromagnetic switch module is connected, so that the power supply signal is by the controlled end of the electromagnetic switch module to master Plate and the power supply of signal control module, the signal control module control the ground connection control module and are held on.

10. a kind of display device, which is characterized in that including any one of claim 1~7 power control circuit.