CN103680114B - Startup and shutdown system employing remote infrared control and computer - Google Patents

Abstract

The invention discloses a startup and shutdown system employing remote infrared control and a computer. The startup and shutdown system employing remote infrared control comprises an infrared remote controller (1), an infrared receiver (2), a latch (3) and a power supply controller (4), wherein the infrared receiver (2) is used for receiving an infrared light emitted by the infrared remote controller (1) and generating a first low level signal; the latch (3) is connected with the infrared receiver (2) for receiving a first low level signal, latching the first low level signal and generating a latch signal; the power supply controller (4) is connected with the latch (3) to control a power supply according to the latch signal; the computer comprises a startup and shutdown system employing remote infrared control. The system utilizes remote infrared control, and is started up and shut down by a key, and a master power supply and an auxiliary power supply are powered on or off, so that the startup and shutdown system is convenient to use, and is humanized, energy consumption of the control circuit is almost zero, and the startup and shutdown system is good in energy-saving effect, and low in cost, and the circuit is simple.

Description

Power on/off system and computer that a kind of remote infrared controls

Technical field

The present invention relates to field of computer technology, power on/off system and calculating that more particularly, to a kind of remote infrared controls Machine.

Background technology

With the popularization of computer and network, in people's life, it has be unable to do without computer.Only computer is grasped currently on the market The remote controllers made, this controller could must be used in the case of computer energising, there is hidden danger and waste electricity The deficiencies such as brain.Meanwhile, currently the remotely control of computer power is mainly realized using radio.

According to intel power management protocol, after computer shutdown, accessory power supply is necessarily present.But not every computer It is required for always on accessory power supply, and these power supplys can consume electric energy, if the consumption that the time is oversize or accessory power supply connects Electrical part is too many, then the electric energy consuming can be more, thus its shutdown energy conservation standard can not reach the requirement of some international standards.Its In, accessory power supply, English full name be standby power supply, abbreviation sb power supply, computer-aided power supply mainly have+5vsb ,+3.3vsb, +12vsb.They are supplied to computer standby device power source, and being mainly supplied to cabinet switch, io chip and south bridge etc. needs to call out The part of awake booting computer required function is powered.

Content of the invention

The technical problem to be solved in the present invention is, for prior art not energy-conservation, accessory power supply or can not can not be closed The defect of remotely control etc., provides a kind of power on/off system of remote infrared control and computer.

The technical solution adopted for the present invention to solve the technical problems is: provides the switching on and shutting down system that a kind of remote infrared controls System, include IR remote controller, reception the IR remote controller infrared light sending and produce the first low level signal infrared remote receiver, It is connected with infrared remote receiver and receive latch and the latch that this first low level signal was latched and produced latch signal Device is connected and controls the power-supply controller of electric of main power and accessory power supply according to latch signal.

Preferably, described accessory power supply includes the+12vsb and+5vsb being converted by+12vsb and+3.3vsb.

Preferably, described latch signal is high level signal.

Preferably, described power-supply controller of electric is used for opening main power and accessory power supply.

The power on/off system that remote infrared of the present invention controls, also includes being connected for time delay Auto Power On with power-supply controller of electric Time delay automatic boot circuit.

Preferably, described latch signal is low level signal.

Preferably, described power-supply controller of electric is used for closing main power and accessory power supply.

Preferably, described IR remote controller is provided with and triggers the button that this IR remote controller sends infrared light.

The present invention also provides a kind of computer, and this computer includes the power on/off system that above-mentioned remote infrared controls.

Implement power on/off system and the computer of remotely control of the present invention, have the advantages that and use remote infrared Control, a key switch machine, be turned on and off main power and accessory power supply, using convenient, more hommization, and itself controls The power consumption of circuit is almost nil, good energy-conserving effect, and circuit is simple, low cost.

Brief description

In order to be illustrated more clearly that the technical scheme of the embodiment of the present invention, below will be to required use in embodiment description Accompanying drawing be briefly described it is therefore apparent that drawings in the following description are only some embodiments of the present invention, for ability For the those of ordinary skill of domain, on the premise of not paying creative work, can also be obtained other attached according to these accompanying drawings Figure, in accompanying drawing:

Fig. 1 is the overall structure diagram of the power on/off system embodiment that remote infrared of the present invention controls；

Fig. 2 is the circuit diagram of the IR remote controller of power on/off system embodiment that remote infrared of the present invention controls；

Fig. 3 is the circuit diagram of the infrared remote receiver of power on/off system embodiment that remote infrared of the present invention controls；

Fig. 4 is the circuit diagram of the latch of power on/off system embodiment that remote infrared of the present invention controls；

Fig. 5 is the circuit diagram of the power-supply controller of electric of power on/off system embodiment that remote infrared of the present invention controls；

Fig. 6 is the circuit diagram of the time delay automatic boot circuit of power on/off system embodiment that remote infrared of the present invention controls；

Fig. 7 is the start process schematic diagram of the power on/off system embodiment that remote infrared of the present invention controls；

Fig. 8 is the shutdown process schematic diagram of the power on/off system embodiment that remote infrared of the present invention controls.

Specific embodiment

In order that the objects, technical solutions and advantages of the present invention become more apparent, the various enforcements that will be described below Example will be with reference to corresponding accompanying drawing, and these accompanying drawings constitute a part for embodiment, which describes and realizes the present invention and may adopt Various embodiments.It should be appreciated that it is also possible to use other embodiments, or structure and work(are carried out to embodiment enumerated herein Modification on energy, without departing from the scope of the present invention and essence.

The invention provides the power on/off system that a kind of remote infrared controls, as shown in figure 1, include IR remote controller 1, connect Receive IR remote controller 1 infrared light sending and produce the first low level signal infrared remote receiver 2, be connected with infrared remote receiver 2 Receive this first low level signal to be latched and produced the latch 3 of latch signal, be connected according to this lock with latch 3 Deposit signal to control the power-supply controller of electric 4 of main power and accessory power supply.Wherein, accessory power supply include+12vsb and by this+ + the 5vsb that 12vsb converts and+3.3vsb.In addition, IR remote controller 1 be provided with triggering this IR remote controller 1 send infrared The button (not shown) of light.

In the power on/off system that the remote infrared of the present invention controls, IR remote controller 1 is single, and infrared remote receiver 2nd, latch 3 and power-supply controller of electric 4 are arranged on computer main board.

As shown in Fig. 2 being the infrared transmitting circuit figure of IR remote controller 1, tx is push button signalling；Q2 is Npn triode；d1 For sending the infrarede emitting diode of infrared light；R2 and r3 is current-limiting resistance, for protection circuit；Vcc is power supply, provides for d1 Power supply.This circuit is in pressing keys, connects tx and vcc, makes vcc be that d1 powers and sends infrared light.

As shown in figure 3, being the infrared receiving circuit figure of infrared remote receiver 2, q4 is phototriode, and q1 is pnp audion, Play on-off action；Q3 is Npn triode, plays the effect amplified and switch；R4, r5, r6 are current-limiting resistance, for protecting electricity Road；Rx be receive infrared after send the first low level signal.When receiving infrared ray on q4, rx is pulled low by original high level Become the first low level signal.

As shown in figure 4, the circuit diagram of latch 3, first low level signal of rx is latched on latch 3, and by v_ On exports, and that is, v_on signal is the stable signal of telecommunication, and pulse of rx every, and v_on changes once with regard to low and high level.Wherein, Latch (latch) is a kind of storage unit circuit sensitive to impulse level, can be under the effect of specific input pulse level Change state；Latch it is simply that signal is kept in maintain certain level state.Detailed process is: the first low electricity receiving from rx Ordinary mail number, after latching, v_on output for low level signal, next v_on output is then high level signal, follows according to this Ring.

As shown in figure 5, the power control circuit figure of power-supply controller of electric 4, including mos pipe q134, mos pipe q135, tvs pipe Pd1, diode d11, resistance r831, resistance r832, resistance r833, resistance r834, resistance r835, resistance r836, resistance r837, Electric capacity c1050, electric capacity c1051, electric capacity c1052, electric capacity c1053 and inductance l9.

The d pole of mos pipe q134 connects main power+vcc12in_adp, and the s pole of mos pipe q134 connects the one of electric capacity c1052 End, one end of one end of resistance r831, one end of tvs pipe pd1 and inductance l9, the g pole of mos pipe q134 connects the one of resistance r833 End, the other end of resistance r833 connects one end of the other end, the other end of resistance r831 and resistance r832 of electric capacity c1052, electricity The other end of resistance r832 connects the d pole of mos pipe q135, and the g pole of mos pipe q135 connects the positive pole of diode d11, electric capacity c1053 One end, one end of resistance r835 and resistance r834 one end, the other end of resistance r834 connects the negative pole of diode, resistance One end of r836 and one end of resistance r837, the other end of resistance r837 connects accessory power supply+vcc12_in, and resistance r836's is another One end connects the outfan of latch 3, and the other end of inductance l9 connects one end of electric capacity c1050, one end of electric capacity c1051 and auxiliary Help power supply+vcc12_in, the other end of electric capacity c1050, the other end of electric capacity c1051, the other end of electric capacity c1053, tvs pipe The s pole of the other end of pd1, the other end of resistance r835 and mos pipe q135 connects reference ground.

+ vcc12in_adp is the input main power of outer bound pair computer main board, and+vcc12_in is accessory power supply, that is,+ Vcc12sb (i.e.+12vsb), accessory power supply+vcc5sb (i.e.+5vsb) ,+vcc3.3sb (i.e.+3.3vsb) are to be turned by+12vsb Change；The low and high level of v_on signal determines that whether+vcc12in_adp is connected with+vcc12_in；Q134 is p-channel mos Pipe, q135 manages for n-channel mos；L9 inductance acts on for filtering clutter；Tvs pipe pd1 plays prevents static electricity on human body and anti-lightning strike work With protecting mainboard.

As shown in fig. 6, the circuit diagram of time delay automatic boot circuit ,+vcc5al is accessory power supply, i.e.+vcc5vsb, by+ Vcc12_in converts；Pm_rsmrst_nr462 is the reset signal that south bridge sends, when the upper electricity of accessory power supply+vcc12_in Afterwards, this signal can be sent, auto_botton_n signal is dragged down by this signal, thus completing Auto Power On.Further, since+ After the upper electricity of vcc12sb, just can send pm_rsmrst_nr462 signal, therefore, also play prolonging from remote keying to shutdown When；Q22 manages for n-channel mos, and q21 is Npn triode, is all the effect playing switch.

With reference to Fig. 2-7, the start process of the power on/off system of the present invention is described in detail.Due to intel pair Electrifying timing sequence has one successively to require, and in order to meet this requirement, power on/off system is also included being connected with power-supply controller of electric 4 and is used for prolonging When Auto Power On time delay automatic boot circuit 5.

In the button pressing IR remote controller 1, to the first low level signal of the rx generation of infrared remote receiver 2, switching on and shutting down Process is just the same, after switching on and shutting down difference it is critical only that latch 3 have received the first low level signal, can be sequentially generated high level Signal and low level signal；As during for high level signal, power-supply controller of electric 4 is used for opening main power and accessory power supply；As for low During level signal, power-supply controller of electric 4 is used for closing main power and accessory power supply.Switching on and shutting down process is described in detail below:

The detailed process of start is: (1) presses the button on IR remote controller 1, then tx and vcc connects, and audion q2 sends out Emitter-base bandgap grading and colelctor electrode conducting, then infrarede emitting diode d1 sends infrared light (shown in Fig. 2)；(2) phototriode q4 receives The infrared light that d1 sends, the base stage of pnp audion q1 is dragged down, then the base stage of Npn triode q3 is driven high, audion q3's Collector and emitter is switched on, and rx is pulled low into the first low level signal (shown in Fig. 3) by original high level；(3) this One low level signal, after latch, is stable into high level signal, the name of this signal is v_on (shown in Fig. 4) always； (4) v_on is drawn as high level signal, and the drain electrode of q135 is pulled to low, the drain electrode of q134 and source conduction ,+vcc12in_adp Connect with+vcc12_in, that is, adapter out-put supply connects (shown in Fig. 5) with motherboard power supply；(5) as accessory power supply+vcc12_ After the upper electricity of in (+vcc12sb), south bridge is energized, and sends pm_rsmrst_nr462 high level signal, so that nmos pipe q22 leads Logical, then the conducting of Npn triode q21, auto_botton_n signal is dragged down (shown in Fig. 6), thus completing to start shooting.

With reference to Fig. 2-5 and Fig. 8, the shutdown process of the power on/off system of the present invention is described in detail.Here, it is electric Source controller 4 is used for cutting out main power and accessory power supply.

Shutdown detailed process is: (1) presses the button on IR remote controller 1, then tx and vcc connects, and audion q2 launches Pole and colelctor electrode conducting, then infrarede emitting diode d1 sends infrared light (shown in Fig. 2)；(2) phototriode q4 receives d1 The infrared light sending, the base stage of pnp audion q1 is dragged down, then the base stage of Npn triode q3 is driven high, the collection of audion q3 Electrode and emitter stage are switched on, and rx is pulled low into the first low level signal (shown in Fig. 3) by original high level signal；(3) should First low level signal, after latch, is stable into low level signal, the name of this signal is v_on (Fig. 4 institute always Show)；(4) v_on is drawn as low level signal, and the drain electrode of q135 is pulled to height, the drain electrode of q134 and source electrode cut-off ,+vcc12in_ Adp and+vcc12_in disconnect, and that is, adapter out-put supply and mainboard main power source disconnect, then+vcc12sb ,+vcc5vsb ,+ Vcc3.3vsb power down (shown in Fig. 5), thus reach the effect closing main power and accessory power supply.

Present invention also offers a kind of computer, this computer includes the power on/off system that above-mentioned remote infrared controls, same When, this computer can be desktop computer, notebook, panel computer etc..

Power on/off system and computer that remote infrared of the present invention controls, realize long-distance infrared remote-controlled switching on and shutting down, during shutdown Close accessory power supply, decrease electric energy loss during shutdown, the protection of the static electricity on human body to motherboard power supply interface and thunderbolt, switch Machine is all by button on IR remote controller once, simple to operate, more hommization, and circuit is simple, low cost, small power consumption.

The foregoing is only presently preferred embodiments of the present invention, those skilled in the art know, without departing from the present invention Spirit and scope in the case of, various changes or equivalent can be carried out to these features and embodiment.In addition, at this Under bright teaching, these features and embodiment can be modified to adapt to particular situation and material without departing from this Bright spirit and scope.Therefore, the present invention is not limited to the particular embodiment disclosed, the power of fallen with the application Embodiment in sharp claimed range broadly falls into protection scope of the present invention.

Claims (9)

1. a kind of remote infrared controls power on/off system it is characterised in that include IR remote controller (1), receive described infrared Remote control (1) sends infrared light and produces infrared remote receiver (2) and described infrared remote receiver (2) phase of the first low level signal Connect and receive latch (3) and the described latch (3) that described first low level signal was latched and produced latch signal It is connected and control the power-supply controller of electric (4) of main power and accessory power supply according to described latch signal；

Described power-supply controller of electric (4) includes mos pipe q134, mos pipe q135, tvs pipe pd1, diode d11, resistance r831, resistance R832, resistance r833, resistance r834, resistance r835, resistance r836, resistance r837, electric capacity c1050, electric capacity c1051, electric capacity C1052, electric capacity c1053 and inductance l9；

The d pole of mos pipe q134 connects main power+vcc12in_adp, and the s pole of mos pipe q134 connects one end of electric capacity c1052, electricity One end of one end, one end of tvs pipe pd1 and inductance l9 of resistance r831, the g pole of mos pipe q134 connects one end of resistance r833, electricity The other end of resistance r833 connects one end of the other end, the other end of resistance r831 and resistance r832 of electric capacity c1052, resistance r832 The other end connect the d pole of mos pipe q135, the g pole of mos pipe q135 connect the positive pole of diode d11, one end of electric capacity c1053, One end of resistance r835 and one end of resistance r834, the other end of resistance r834 connect the negative pole of diode, the one of resistance r836 End and one end of resistance r837, the other end of resistance r837 connects accessory power supply+vcc12_in, and the other end of resistance r836 connects The outfan of latch (3), the other end of inductance l9 connects one end, one end of electric capacity c1051 and the accessory power supply of electric capacity c1050 + vcc12_in, the other end of electric capacity c1050, the other end of electric capacity c1051, the other end of electric capacity c1053, tvs pipe pd1 another The s pole of one end, the other end of resistance r835 and mos pipe q135 connects reference ground.

2. the power on/off system that remote infrared according to claim 1 controls is it is characterised in that described accessory power supply includes + the 12vsb and+5vsb being converted by described+12vsb and+3.3vsb.

3. the power on/off system that remote infrared according to claim 2 controls is it is characterised in that described latch signal is height Level signal.

4. the power on/off system that remote infrared according to claim 3 controls is it is characterised in that work as described power-supply controller of electric (4), when being connected to described high level signal, described power-supply controller of electric (4) is used for opening described main power and accessory power supply.

5. remote infrared according to claim 4 controls power on/off system it is characterised in that described power on/off system also Including the time delay automatic boot circuit (5) being connected for time delay Auto Power On with described power-supply controller of electric (4).

6. the power on/off system that remote infrared according to claim 2 controls is it is characterised in that described latch signal is low Level signal.

7. the power on/off system that remote infrared according to claim 6 controls is it is characterised in that work as described power-supply controller of electric (4) it is connected to described low level signal, described power-supply controller of electric (4) is used for closing described main power and accessory power supply.

8. remote infrared according to claim 1 controls power on/off system is it is characterised in that described IR remote controller (1) it is provided with and trigger the button that this IR remote controller (1) sends infrared light.

9. a kind of computer is it is characterised in that the remote infrared that described computer is included described in any one of claim 1-8 controls Power on/off system.