CN103259734A - Router with remote control timing function - Google Patents
Router with remote control timing function Download PDFInfo
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- CN103259734A CN103259734A CN201310206493XA CN201310206493A CN103259734A CN 103259734 A CN103259734 A CN 103259734A CN 201310206493X A CN201310206493X A CN 201310206493XA CN 201310206493 A CN201310206493 A CN 201310206493A CN 103259734 A CN103259734 A CN 103259734A
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Abstract
The invention discloses a router with a remote control timing function and belongs the filed of electromagnetism. The router with the remote control timing function aims to solve the problem that an existing router does not have the remote control timing function. According to the router with the remote control timing function, a Zigbee sending receiving module of a router power supply control assembly receives a control instruction sent by a remote controller assembly, the control instruction is processed by a single-chop microcomputer minimum system, and therefore a relay module is controlled. The relay module is used for controlling switch-on and switch-off of a power source of the router, when the relay module takes effect on the instruction, a successive-operation instruction is returned, and then the Zigbee sending receiving module sends feedback to the remote controller assembly. A router power source module is achieved through a lithium battery or a button cell. A button module and a display module are in charge for transmitting an on-off instruction and a timing instruction of a relay, the on-off instruction and the timing instruction are processed by the single-chip microcomputer minimum system, the instructions which are successively transmitted are received through a Zigbee sending receiving module of the remote controller, and the instructions which are successively transmitted are displayed. Therefore, switching-on and switching-off of the router are controlled.
Description
Technical field
The present invention relates to a kind of router with remote control timing function, belong to the electromagnetism field.
Background technology
Present common household user's online pattern mostly is broadband access network, and when resident family has multiple computers to surf the Net simultaneously, will use router.General operator charged to the time that each user uses every month, time, more long charge was more many, and when using the router online, can deposit user's number of the account and password in the router in, router will be connected with network automatically as long as open, so no matter whether user's computer is surfing the Net, the time of router and network connection is the surf time just.The power supply that only pulls out router could stop the surf time, but as the user because position, time in the time of unallowed, can't carry out closely switch or user to router and forget when router closed, thereby bring very big loss to the user.
Summary of the invention
The present invention seeks to provides a kind of router with remote control timing function in order to solve the problem that the existing route device does not have remote control function regularly.
A kind of router with remote control timing function of the present invention, it comprises: router, router power-supply control unit and remote controller assembly;
Described router power-supply control unit and remote controller assembly adopt communication to realize data interaction, and the power control signal output of this router power-supply control unit connects the power control signal input of router;
Described router power-supply control unit comprises: power module, a connector, No. two connectors, Zigbee transmitting and receiving module, single-chip minimum system, relay module, power supply adaptor, single-pole double-throw switch (SPDT) and power interfaces;
Described power supply adaptor power supply signal output connects an end of a connector, the other end of this connector connects the moving contact of single-pole double-throw switch (SPDT) and an end of No. two connectors simultaneously, and the other end of described No. two connectors connects the power supply signal input of relay module;
A fixed contact of described single-pole double-throw switch (SPDT) is connected with the voltage signal input of power module; Described power module provides power supply for respectively relay module, single-chip minimum system and Zigbee transmitting and receiving module; The control signal output of described Zigbee transmitting and receiving module connects the control signal input of single-chip minimum system; The switch controlling signal output of single-chip minimum system connects the switch controlling signal input of relay module; The switch confirmation signal output of described relay module connects the switch confirmation signal input of single-chip minimum system; The switch acknowledgement control signal output of described single-chip minimum system connects the switch acknowledgement control signal input of Zigbee transmitting and receiving module;
Described remote controller assembly comprises: remote controller Zigbee transmitting and receiving module, remote controller single-chip minimum system, key-press module, display module and power supply of remote controller module;
Described power supply of remote controller module provides power supply for respectively remote controller single-chip minimum system and remote controller Zigbee transmitting and receiving module;
The push button signalling output of described key-press module connects the push button signalling input of remote controller single-chip minimum system; The control switch command signal output of described remote controller single-chip minimum system connects the control switch command signal input of remote controller Zigbee transmitting and receiving module;
Described remote controller Zigbee transmitting and receiving module and Zigbee transmitting and receiving module are realized data interaction by the Zigbee wireless network;
The signal input part of described Zigbee transmitting and receiving module connects the signal input output end of single-chip minimum system; The switch of described single-chip minimum system confirms to show that signal output part connects the switch affirmation demonstration signal input part of display module;
Described single-chip minimum system and remote controller single-chip minimum system are the single-chip minimum system of same model, and are the MSP430 single-chip microcomputer.
Advantage of the present invention:
Propose a kind of router with remote control timing function, utilize remote controller that router timing switch module is controlled, thereby realize that to router timing switch function remote control distance is at 10m~100m.This invention has increased the useful life of router, saves the time that the user uses network, has improved the hommization that router uses.
Description of drawings
Fig. 1 is a kind of structural representation with router of remote control timing function of the present invention;
Fig. 2 is the circuit theory diagrams of the specific embodiment of the invention three described power modules;
Fig. 3 is the circuit theory diagrams of the specific embodiment of the invention five described relay module;
Fig. 4 is the circuit theory diagrams of Zigbee transmitting and receiving module of the present invention;
Fig. 5 is the circuit theory diagrams of the specific embodiment of the invention six described display modules;
Fig. 6 is the circuit theory diagrams of the specific embodiment of the invention seven described key-press modules;
Fig. 7 is the circuit theory diagrams of remote controller Zigbee transmitting and receiving module of the present invention.
Embodiment
Embodiment one: below in conjunction with Fig. 1 present embodiment is described, the described a kind of router with remote control timing function of present embodiment, it comprises: router one-7, router power-supply control unit 1 and remote controller assembly 2;
Described router power-supply control unit 1 adopts communication to realize data interaction with remote controller assembly 2, and the power control signal output of this router power-supply control unit 1 connects the power control signal input of router 1-7;
Described router power-supply control unit 1 comprises: power module 1-1, a connector P3, No. two connector P2, Zigbee transmitting and receiving module 1-2, single-chip minimum system 1-3, relay module 1-4, power supply adaptor 1-5, single-pole double-throw switch (SPDT) S2 and power interface 1-6;
Described power supply adaptor 1-5 power supply signal output connects the end of a connector P3, the other end of this connector P3 connects the moving contact of single-pole double-throw switch (SPDT) S2 and the end of No. two connector P2 simultaneously, and the other end of described No. two connector P2 connects the power supply signal input of relay module 1-4;
The fixed contact of described single-pole double-throw switch (SPDT) S2 is connected with the voltage signal input of power module 1-1; Described power module 1-1 provides power supply for respectively relay module 1-4, single-chip minimum system 1-3 and Zigbee transmitting and receiving module 1-2; The control signal output of described Zigbee transmitting and receiving module 1-2 connects the control signal input of single-chip minimum system 1-3; The switch controlling signal output of single-chip minimum system 1-3 connects the switch controlling signal input of relay module 1-4; The switch confirmation signal output of described relay module 1-4 connects the switch confirmation signal input of single-chip minimum system 1-3; The switch acknowledgement control signal output of described single-chip minimum system 1-3 connects the switch acknowledgement control signal input of Zigbee transmitting and receiving module 1-2;
Described remote controller assembly 2 comprises: remote controller Zigbee transmitting and receiving module 2-1, remote controller single-chip minimum system 2-2, key-press module 2-3, display module 2-4 and power supply of remote controller module 2-5;
Described power supply of remote controller module 2-5 provides power supply for respectively remote controller single-chip minimum system 2-2 and remote controller Zigbee transmitting and receiving module 2-1;
The push button signalling output of described key-press module 2-3 connects the push button signalling input of remote controller single-chip minimum system 2-2; The control switch command signal output of described remote controller single-chip minimum system 2-2 connects the control switch command signal input of remote controller Zigbee transmitting and receiving module 2-1;
Described remote controller Zigbee transmitting and receiving module 2-1 and Zigbee transmitting and receiving module 1-2 realize data interaction by the Zigbee wireless network;
The signal input part of described Zigbee transmitting and receiving module 2-1 connects the signal input output end of single-chip minimum system 2-2; The switch of described single-chip minimum system 2-2 confirms to show that signal output part connects the switch affirmation demonstration signal input part of display module 2-4;
Described single-chip minimum system 1-3 and remote controller single-chip minimum system 2-2 are the single-chip minimum system of same model, and are the MSP430 single-chip microcomputer.
Embodiment two: present embodiment is described below in conjunction with Fig. 1 to Fig. 7, present embodiment is described further execution mode one, the described power module 1-1 of present embodiment and power supply of remote controller module 2-5 are the power module of same model, and described Zigbee transmitting and receiving module 1-2 and remote controller Zigbee transmitting and receiving module 2-1 are the Zigbee transmitting and receiving module of same model.
Embodiment three: present embodiment is described below in conjunction with Fig. 2, present embodiment is to further specifying that execution mode one or two is done, and the described described power module 1-1 of present embodiment comprises that circuit of three-terminal voltage-stabilizing integrated U3, No. two circuit of three-terminal voltage-stabilizing integrated U4, No. three circuit of three-terminal voltage-stabilizing integrated U5, diode D1 and capacitor C 1 are to C5;
The fixed contact of described single-pole double-throw switch (SPDT) S2 connects an end of capacitor C 1 and the input of a circuit of three-terminal voltage-stabilizing integrated U3 simultaneously;
A described circuit of three-terminal voltage-stabilizing integrated U3+output of 5V voltage connects the negative electrode of an end of capacitor C 2, diode D1 and the input of No. two circuit of three-terminal voltage-stabilizing integrated U4 simultaneously;
The earth terminal of a described circuit of three-terminal voltage-stabilizing integrated U3 connects the other end of capacitor C I, the other end of capacitor C 2, anode and the power supply ground of diode D1 simultaneously;
The output of described No. two circuit of three-terminal voltage-stabilizing integrated U4 connect simultaneously the end of an end, capacitor C 4 of capacitor C 3 and No. three circuit of three-terminal voltage-stabilizing integrated U5 input and as power module 1-1+the 3.3V power output end;
The earth terminal of described No. two circuit of three-terminal voltage-stabilizing integrated U4 connects power supply ground;
The other end of described capacitor C 3 connects power supply ground;
The other end of described capacitor C 4 connects an end and the power supply ground of capacitor C 5 simultaneously;
The output of described No. three circuit of three-terminal voltage-stabilizing integrated U5 connect capacitor C 5 the other end and as power module 1-1+the 1.8V power output end;
The earth terminal of described No. three circuit of three-terminal voltage-stabilizing integrated U5 connects power supply ground.
Embodiment four: present embodiment is described below in conjunction with Fig. 1 to Fig. 7, present embodiment is described further execution mode three, the model of the described circuit of three-terminal voltage-stabilizing integrated U3 of present embodiment is 7805 circuit of three-terminal voltage-stabilizing integrated, the model of described No. two circuit of three-terminal voltage-stabilizing integrated U4 is the circuit of three-terminal voltage-stabilizing integrated of AMS1117-3.3, and the model of described No. three circuit of three-terminal voltage-stabilizing integrated U5 is the circuit of three-terminal voltage-stabilizing integrated of AMS1117-1.8.
Embodiment five: present embodiment is described below in conjunction with Fig. 3, present embodiment is described further execution mode three, and the described relay module 1-4 of present embodiment comprises relay coil JIA, No. three switch S 3 of relay, No. four switch S 4 of relay, diode D3 and resistance R 7;
Described No. two connector P2 connect an end of No. three switch S 3 of relay and an end of No. four switch S 4 of relay simultaneously;
The other end of No. four switch S 4 of the other end and relay of No. three switch S 3 of this relay is connected with two power interfaces of router power interface 1-6 simultaneously;
Described power module 1-1+3.3V the power output end simultaneously end of connecting coil JIA and the negative electrode of a diode D3; The other end of this coil JIA and the anode of a diode D3 are connected the emitter of triode Q5 simultaneously;
The collector electrode of described triode Q5 connects power supply ground;
The base stage of this triode Q5 connects an end of resistance R 7, and the other end of this resistance R 7 connects on the pin P1.1 of single-chip minimum system 1-3.
Embodiment six: present embodiment is described below in conjunction with Fig. 5, present embodiment is described further execution mode three, the described display module 2-4 of present embodiment comprises: group of four figures tube display screen LED, resistance R 11 be to R14, a triode Q1, No. two triode Q2, No. three triode Q3 and No. four triode Q4;
Described power supply of remote controller module 2-5+3.3V power supply signal output connects the emitter of a triode Q1, No. two triode Q2, No. three triode Q3 and No. four triode Q4 simultaneously;
The base stage of a described triode Q1 connects an end of resistance R 11, and the other end of this resistance R 11 connects on the pin P3.0 of remote controller single-chip minimum system;
The base stage of described No. two triode Q2 connects an end of resistance R 12, and the other end of this resistance R 12 connects on the pin P3.1 of remote controller single-chip minimum system;
The base stage of described No. three triode Q3 connects an end of resistance R 13, and the other end of this resistance R 13 connects on the pin P3.2 of remote controller single-chip minimum system;
The base stage of described No. four triode Q4 connects an end of resistance R 14, and the other end of this resistance R 14 connects on the pin P3.3 of remote controller single-chip minimum system;
The collector electrode of a described triode Q1 connects first charactron common port of group of four figures tube display screen LED;
The collector electrode of described No. two triode Q2 connects the 2 bit digital display common port of group of four figures tube display screen LED;
The collector electrode of described No. three triode Q3 connects the 3rd the charactron common port of group of four figures tube display screen LED;
The collector electrode of described No. four triode Q4 connects the group of four figures pipe common port of group of four figures tube display screen LED;
Eight data-signal inputs of described group of four figures tube display screen LED are connected with eight pin P2.0, pin P2.1, pin P2.2, pin P2.3, pin P2.4, pin P2.5, pin P2.6 and the pin P2.7 of remote controller single-chip minimum system 2-2 respectively.
Embodiment seven: present embodiment is described below in conjunction with Fig. 6, present embodiment is described further execution mode three, and the described key-press module 2-3 of present embodiment comprises resistance R 7 to R10, a button S3, No. two button S4, No. three button S5 and No. four button S6;
Described power supply of remote controller module 2-5+3.3V power supply signal output connects an end of resistance R 7, an end of resistance R 8, an end of resistance R 9 and an end of resistance R 10 simultaneously;
The other end of described resistance R 7 connects the end of a button S3 and the pin P1.4 of remote controller single-chip minimum system 2-2 simultaneously;
The other end of described resistance R 8 connects the end of No. two button S4 and the pin P1.5 of remote controller single-chip minimum system 2-2 simultaneously;
The other end of described resistance R 9 connects the end of No. three button S5 and the pin P1.6 of remote controller single-chip minimum system 2-2 simultaneously;
The other end of described resistance R 10 connects the end of No. four button S6 and the pin P1.7 of remote controller single-chip minimum system 2-2 simultaneously;
The other end of a described button S3, No. two button S4, No. three button S5 and No. four button S6 all is connected with power supply ground.
Operation principle of the present invention:
The Zigbee transmitting and receiving module of router power-supply control unit of the present invention receives the control command that the remote controller assembly sends, processing and then control relay module through single-chip minimum system, be responsible for controlling the break-make of the power supply of router by relay module, when relay module comes into force to instruction, return is successfully instructed, sent by the Zigbee transmitting and receiving module again and feed back to the remote controller assembly, the power supply of remote controller module is to adopt lithium battery or button cell to realize, key-press module and display module are responsible for switch and the instruction regularly of sending filter, processing through the remote controller single-chip minimum system, receive the successful instruction of transmission by remote controller Zigbee transmitting and receiving module, and show.Be used for the open and close of control router.
Claims (7)
1. router with remote control timing function, it comprises: router (1-7) is characterized in that it also comprises: router power-supply control unit (1) and remote controller assembly (2);
Described router power-supply control unit (1) adopts communication to realize data interaction with remote controller assembly (2), and the power control signal output of this router power-supply control unit (1) connects the power control signal input of router (1-7);
Described router power-supply control unit (1) comprising: power module (1-1), a connector (P3), No. two connectors (P2), Zigbee transmitting and receiving module (1-2), single-chip minimum system (1-3), relay module (1-4), power supply adaptor (1-5), single-pole double-throw switch (SPDT) (S2) and power interface (1-6);
Described power supply adaptor (1-5) power supply signal output connects an end of a connector (P3), the other end of this connector (P3) connects the moving contact of single-pole double-throw switch (SPDT) (S2) and an end of No. two connectors (P2) simultaneously, and the other end of described No. two connectors (P2) connects the power supply signal input of relay module (1-4);
A fixed contact of described single-pole double-throw switch (SPDT) (S2) is connected with the voltage signal input of power module (1-1); Described power module (1-1) provides power supply for respectively relay module (1-4), single-chip minimum system (1-3) and Zigbee transmitting and receiving module (1-2); The control signal output of described Zigbee transmitting and receiving module (1-2) connects the control signal input of single-chip minimum system (1-3); The switch controlling signal output of single-chip minimum system (1-3) connects the switch controlling signal input of relay module (1-4); The switch confirmation signal output of described relay module (1-4) connects the switch confirmation signal input of single-chip minimum system (1-3); The switch acknowledgement control signal output of described single-chip minimum system (1-3) connects the switch acknowledgement control signal input of Zigbee transmitting and receiving module (1-2);
Described remote controller assembly (2) comprising: remote controller Zigbee transmitting and receiving module (2-1), remote controller single-chip minimum system (2-2), key-press module (2-3), display module (2-4) and power supply of remote controller module (2-5);
Described power supply of remote controller module (2-5) provides power supply for respectively remote controller single-chip minimum system (2-2) and remote controller Zigbee transmitting and receiving module (2-1);
The push button signalling output of described key-press module (2-3) connects the push button signalling input of remote controller single-chip minimum system (2-2); The control switch command signal output of described remote controller single-chip minimum system (2-2) connects the control switch command signal input of remote controller Zigbee transmitting and receiving module (2-1);
Described remote controller Zigbee transmitting and receiving module (2-1) is realized data interaction with Zigbee transmitting and receiving module (1-2) by the Zigbee wireless network;
The signal input part of described Zigbee transmitting and receiving module (2-1) connects the signal input output end of single-chip minimum system (2-2); The switch of described single-chip minimum system (2-2) confirms to show that signal output part connects the switch affirmation demonstration signal input part of display module (2-4);
Described single-chip minimum system (1-3) and remote controller single-chip minimum system (2-2) are the single-chip minimum system of same model, and are the MSP430 single-chip microcomputer.
2. according to the described a kind of router with remote control timing function of claim 1, it is characterized in that, described power module (1-1) is the power module of same model with power supply of remote controller module (2-5), and described Zigbee transmitting and receiving module (1-2) is the Zigbee transmitting and receiving module of same model with remote controller Zigbee transmitting and receiving module (2-1).
3. according to claim 1 or 2 described a kind of routers with remote control timing function, it is characterized in that described power module (1-1) comprises that a circuit of three-terminal voltage-stabilizing integrated (U3), No. two circuit of three-terminal voltage-stabilizing integrated (U4), No. three circuit of three-terminal voltage-stabilizing integrated (U5), diode (D1) and capacitor C 1 are to C5;
A fixed contact of described single-pole double-throw switch (SPDT) (S2) connects an end of capacitor C 1 and the input of a circuit of three-terminal voltage-stabilizing integrated (U3) simultaneously;
A described circuit of three-terminal voltage-stabilizing integrated (U3)+output of 5V voltage connects the negative electrode of an end of capacitor C 2, diode (D1) and the input of No. two circuit of three-terminal voltage-stabilizing integrated (U4) simultaneously;
The earth terminal of a described circuit of three-terminal voltage-stabilizing integrated (U3) connects the other end of capacitor C I, the other end of capacitor C 2, anode and the power supply ground of diode (D1) simultaneously;
The output of described No. two circuit of three-terminal voltage-stabilizing integrated (U4) connect simultaneously the end of an end, capacitor C 4 of capacitor C 3 and No. three circuit of three-terminal voltage-stabilizing integrated (U5) input and as power module (1-1)+the 3.3V power output end;
The earth terminal of described No. two circuit of three-terminal voltage-stabilizing integrated (U4) connects power supply ground;
The other end of described capacitor C 3 connects power supply ground;
The other end of described capacitor C 4 connects an end and the power supply ground of capacitor C 5 simultaneously;
The output of described No. three circuit of three-terminal voltage-stabilizing integrated (U5) connect capacitor C 5 the other end and as power module (1-1)+the 1.8V power output end;
The earth terminal of described No. three circuit of three-terminal voltage-stabilizing integrated (U5) connects power supply ground.
4. according to the described a kind of router with remote control timing function of claim 3, it is characterized in that, the model of a described circuit of three-terminal voltage-stabilizing integrated (U3) is 7805 circuit of three-terminal voltage-stabilizing integrated, the model of described No. two circuit of three-terminal voltage-stabilizing integrated (U4) is the circuit of three-terminal voltage-stabilizing integrated of AMS1117-3.3, and the model of described No. three circuit of three-terminal voltage-stabilizing integrated (U5) is the circuit of three-terminal voltage-stabilizing integrated of AMS1117-1.8.
5. according to the described a kind of router with remote control timing function of claim 3, it is characterized in that described relay module (1-4) comprises relay coil (JIA), No. three switches of relay (S3), No. four switches of relay (S4), a diode (D3) and resistance R 7;
Described No. two connectors (P2) connect an end of No. three switches of relay (S3) and an end of No. four switches of relay (S4) simultaneously;
The other end of the other end of No. three switches of this relay (S3) and No. four switches of relay (S4) is connected with two power interfaces of router power interface (1-6) simultaneously;
Described power module (1-1)+3.3V power output end simultaneously an end of connecting coil (JIA) and the negative electrode of a diode (D3); The other end of this coil (JIA) and the anode of a diode (D3) are connected the emitter of triode (Q5) simultaneously;
The collector electrode of described triode (Q5) connects power supply ground;
The base stage of this triode (Q5) connects an end of resistance R 7, and the other end of this resistance R 7 connects on the pin P1.1 of single-chip minimum system (1-3).
6. according to the described a kind of router with remote control timing function of claim 3, it is characterized in that, described display module (2-4) comprising: group of four figures tube display screen (LED), resistance R 11 be to R14, a triode (Q1), No. two triodes (Q2), No. three triodes (Q3) and No. four triodes (Q4);
Described power supply of remote controller module (2-5)+3.3V power supply signal output connects the emitter of a triode (Q1), No. two triodes (Q2), No. three triodes (Q3) and No. four triodes (Q4) simultaneously;
The base stage of a described triode (Q1) connects an end of resistance R 11, and the other end of this resistance R 11 connects on the pin P3.0 of remote controller single-chip minimum system;
The base stage of described No. two triodes (Q2) connects an end of resistance R 12, and the other end of this resistance R 12 connects on the pin P3.1 of remote controller single-chip minimum system;
The base stage of described No. three triodes (Q3) connects an end of resistance R 13, and the other end of this resistance R 13 connects on the pin P3.2 of remote controller single-chip minimum system;
The base stage of described No. four triodes (Q4) connects an end of resistance R 14, and the other end of this resistance R 14 connects on the pin P3.3 of remote controller single-chip minimum system;
The collector electrode of a described triode (Q1) connects first charactron common port of group of four figures tube display screen (LED);
The collector electrode of described No. two triodes (Q2) connects the 2 bit digital display common port of group of four figures tube display screen (LED);
The collector electrode of described No. three triodes (Q3) connects the 3rd charactron common port of group of four figures tube display screen (LED);
The collector electrode of described No. four triodes (Q4) connects the group of four figures pipe common port of group of four figures tube display screen (LED);
Eight data-signal inputs of described group of four figures tube display screen (LED) are connected with eight pin P2.0, pin P2.1, pin P2.2, pin P2.3, pin P2.4, pin P2.5, pin P2.6 and the pin P2.7 of remote controller single-chip minimum system (2-2) respectively.
7. according to the described a kind of router with remote control timing function of claim 3, it is characterized in that described key-press module (2-3) comprises resistance R 7 to R10, a button (S3), No. two buttons (S4), No. three buttons (S5) and No. four buttons (S6);
Described power supply of remote controller module (2-5)+3.3V power supply signal output connects an end of resistance R 7, an end of resistance R 8, an end of resistance R 9 and an end of resistance R 10 simultaneously;
The other end of described resistance R 7 connects an end of a button (S3) and the pin P1.4 of remote controller single-chip minimum system (2-2) simultaneously;
The other end of described resistance R 8 connects an end of No. two buttons (S4) and the pin P1.5 of remote controller single-chip minimum system (2-2) simultaneously;
The other end of described resistance R 9 connects an end of No. three buttons (S5) and the pin P1.6 of remote controller single-chip minimum system (2-2) simultaneously;
The other end of described resistance R 10 connects an end of No. four buttons (S6) and the pin P1.7 of remote controller single-chip minimum system (2-2) simultaneously;
The other end of a described button (S3), No. two buttons (S4), No. three buttons (S5) and No. four buttons (S6) all is connected with power supply ground.
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CN103596299A (en) * | 2013-11-20 | 2014-02-19 | 无锡伊佩克科技有限公司 | Wireless router |
WO2015192523A1 (en) * | 2014-06-17 | 2015-12-23 | 中兴通讯股份有限公司 | Method, apparatus and system for managing mobile hotspot |
CN113641202A (en) * | 2021-07-23 | 2021-11-12 | 温州联盈教育科技有限公司 | Power supply circuit regulation control system for college teaching |
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CN113641202A (en) * | 2021-07-23 | 2021-11-12 | 温州联盈教育科技有限公司 | Power supply circuit regulation control system for college teaching |
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Application publication date: 20130821 |