CN104820367A - Electric appliance remote control system for smart home - Google Patents

Abstract

An electric appliance remote control system for a smart home comprises a remote control device, a control host, an upper computer and an electric appliance matching the remote control device. The remote control device and the control host constitute a Z_Wave network. The upper computer controls the remote control device through the access of the control host to the Z_Wave network. The remote control device comprises a remote control chip for receiving a control command from the control host and feeding back status information of the electric appliance to the control hole; an infrared transmitting circuit for performing the control command transmitted by the remote control chip; an infrared receiving circuit for receiving the feedback information of the electric appliance; and an antenna circuit for communication between the remote control chip and the control host. According to the invention, the electric appliance remote control system can achieve real-time feedback of the working status of the electric appliance, has an infrared learning function, and is applicable to electric appliances of different brands.

Description

A kind of household remote control system for Smart Home

Technical field

The present invention relates to home appliance control technology field, particularly relate to a kind of household remote control system for Smart Home.

Background technology

Developing rapidly of Internet industry, optical fiber has even spread to rural area, and widespread adoption is in mobile phone for 3G network, and 4G network is popularized simultaneously.Although existing Smart Home needs to do corresponding change to household electrical appliances in the market, household electrical appliances are adapted with intelligent domestic system.The telepilot of Smart Home is infrared signal remote control, and remote control distance is only confined to the distance of about 10 meters always, and in prior art, the overwhelming majority carrys out remote control intelligent household system by SMS.

Application number be 201210460927.4 documents disclose a kind of remote universal infrared remote control system based on SMS, the described remote universal infrared remote control system based on SMS comprises intelligent domestic system mobile phone, master control set and infrared control device.Remote control intelligent household system is carried out by SMS in documents, also disclose infrared control device in documents, the infrared control device in documents comprises infrared controller, wireless receiving module, IR signal reception module and infrared signal transmitter module simultaneously.The tele-control system based on SMS in documents is a kind of interrupted control and feedback system, and what can not continue intelligent domestic system real-time controls intelligent domestic system and feed back.In documents, infrared control device is only provided with wireless receiving module, can not feed back the state of household electrical appliances; Cannot infrared learning be carried out, ability is suitable for different brands.

Summary of the invention

The object of the present invention is to provide a kind of that can carry out Real-time Feedback to household electrical appliances using state, that there is infrared learning function household remote control system for Smart Home.

A kind of household remote control system for Smart Home, comprise telechiric device, main control system, host computer, telechiric device connection control main frame formation Z_Wave network, host computer is by main control system access Z_Wave network control telechiric device, main control system connecting Internet, telechiric device comprises:

Remote pilot chip U1, with keyboard, radio circuit, infrared receiving circuit, infrared transmitting circuit, memory module, receive and send radiofrequency signal, infrared signal, infrared learning is carried out to household electrical appliances thus obtains household electrical appliances infrared signal code, and code storage in memory module, mate the infrared signal code of different household electrical appliances, operation is carried out to household electrical appliances and controls;

Keyboard, by user operation to remote pilot chip U1 input control signal;

Radio circuit, send radiofrequency signal to main frame, and Receiving Host or other equipment transmission radiofrequency signal and be passed to remote pilot chip U1;

Infrared receiving circuit, obtains the Infrared push button operation signal of household electrical appliances when receiving infrared feedback signal and the infrared learning of home appliance;

Infrared transmitting circuit, exports the control signal of remote pilot chip U1, carries out infrared remote control to household electrical appliances to household electrical appliances;

Memory module ground, the household electrical appliances infrared signal information obtained when storing infrared learning.

Further, described set-up of control system has multiple telechiric device, in domestic environment, arranged at least one telechiric device by each region that screen or wall are separated out.

Further, described radio circuit comprises antenna ANT1, electric capacity C5, electric capacity C6, electric capacity C7, inductance L 2, antenna connects digitally through electric capacity C5, also be connected with inductance L 2 one end in addition, the other end shunt capacitance C6 of inductance L 2, electric capacity C7, connect digitally through electric capacity C6, connect remote pilot chip U1 through electric capacity C7.

Further, described infrared receiving circuit comprises diode D1, photodiode D2, resistance R1, resistance R2, resistance R3, resistance R4, resistance R5, electric capacity C8, pnp type triode Q1, npn shape triode Q2; The emitter of npn shape triode Q2 connects digitally, and collector connects U1 chip pin, the emitter that collector also connects U1 chip pin by resistance R5 in addition, base stage connects pnp type triode Q1; The collector of pnp type triode Q1 connects digitally, and emitter also connects U1 chip pin by resistance R4, one end of base stage contact resistance R3, electric capacity C8; Resistance R3 connects digitally, and the electric capacity C8 other end connects negative pole, the resistance R2 of photodiode D2, and the positive pole of photodiode D2 connects numeral; Resistance R2 connects the pin of remote pilot chip U1 through resistance R1, the diode D1 of parallel connection, and diode D1 negative pole is connected with resistance R2, and the positive pole of diode connects remote pilot chip U1 pin.Resistance R5, resistance R4, resistance R1, diode D1 connect same U1 chip pin.

Further, described main control system comprises Power Management Unit, route control unit, route storage unit, Z_Wave wireless communication unit and Z_Wave storage unit;

Described Power Management Unit is described route control unit, route storage unit, Z_Wave wireless communication unit and Z_Wave storage unit provide working power;

Described route storage unit is used for for described route control unit stores data;

Described Z_Wave storage unit is used for for described Z_Wave wireless communication unit stores data;

Described route control unit is used for described main control system and is communicated with described host computer by Ethernet interface;

Described route control unit is used for described main control system by Ethernet interface accessing Internet;

Described Z_Wave wireless communication unit is communicated with being connected by USB (universal serial bus) between described route control unit;

Described Z_Wave wireless communication unit is used for described main control system and communicates in described Z_Wave network.

Further, described household remote control system also comprises remote terminal, and described remote terminal is by linking Internet Z_Wave network, and Long-distance Control host computer, realizes household electrical appliances Remote.

Further, described main control system also comprises the WIFI communication unit for receiving the control signal from WIFI network, described WIFI communication unit is communicated with being connected by pci bus between described route control unit, the wireless wifi network access Z_Wave network of remote terminal connection control main frame, so with host computer interconnected communication.

Further, described main control system also comprises the SPI interface unit be connected with described Z_Wave wireless communication unit, is communicated with external equipment for Z_Wave wireless communication unit by spi bus.

Described route control unit is used for described main control system and is communicated with described host computer by Ethernet interface, described Z_Wave wireless communication unit is communicated with being connected by USB (universal serial bus) between described route control unit, and described Z_Wave wireless communication unit is used for described main control system and communicates in described Z_Wave network.

Household electrical appliances launch the infrared signal of duty to remote pilot chip U1 by infrared receiving circuit simultaneously, and remote pilot chip U1 is again by the duty of radio circuit to main frame feedback household electrical appliances.

Technique effect:

For a household remote control system for Smart Home, comprise telechiric device, main frame, described telechiric device comprises:

Remote pilot chip U1, with keyboard, radio circuit, infrared receiving circuit, infrared transmitting circuit, memory module, receive and send radiofrequency signal, infrared signal, infrared learning is carried out to household electrical appliances thus obtains household electrical appliances infrared signal code, and code storage in memory module, mate the infrared signal code of different household electrical appliances, operation is carried out to household electrical appliances and controls;

Keyboard, by user operation to remote pilot chip U1 input control signal;

Radio circuit, send radiofrequency signal to main frame, and Receiving Host or other equipment transmission radiofrequency signal and be passed to remote pilot chip U1;

Infrared receiving circuit, obtains the Infrared push button operation signal of household electrical appliances when receiving infrared feedback signal and the infrared learning of home appliance;

Infrared transmitting circuit, exports the control signal of remote pilot chip U1, carries out infrared remote control to household electrical appliances to household electrical appliances;

Memory module, the household electrical appliances infrared signal information obtained when storing infrared learning.

A kind of household remote control system for Smart Home of the present invention can realize the Real-time Feedback of household electrical appliances duty, has infrared learning function, can be suitable for the household electrical appliances of different brands.

Accompanying drawing explanation

Fig. 1 is home appliance remote control device schematic diagram;

Fig. 2 is household remote Control system architecture schematic diagram;

Fig. 3 is remote pilot chip U1 and connecting circuit module circuit diagram thereof;

Fig. 4 is keyboard circuit figure;

Fig. 5 is memory module circuit diagram.

Fig. 6 is main control system structural representation;

Fig. 7 is route control unit circuit diagram;

Fig. 8 is route storage unit;

Fig. 9 is WIFI translation interface element circuit figure;

Figure 10 is network interface unit;

Figure 11 is Z_Wave wireless communication unit;

Figure 12 is Z_Wave storage unit;

Figure 13 is Power Management Unit.

In figure, 1 is infrared receiving circuit, and 2 is infrared transmitting circuit, and 3 is radio circuit, 4 is memory module, and 5 is keyboard, and 6 is electric source filter circuit, 7 is household electrical appliances, and 8 is telechiric device, and 9 is main control system, 10 is host computer, and 11 is route control unit, and 12 is Power Management Unit, 13 is route storage unit, and 14 is WIFI communication unit, and 15 is network interface unit, 16 is Z_Wave storage unit, and 17 is Z_Wave wireless communication unit.

Embodiment

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

As shown in Figure 2, a kind of household remote control system for Smart Home, comprise telechiric device 8, main frame, described telechiric device 8 comprises remote pilot chip U1, electric source filter circuit 6, radio circuit 3, infrared receiving circuit 1, infrared transmitting circuit 2, working indicating, keyboard 5, memory module 4.

As shown in Figure 1,3, remote pilot chip U1 is connected with radio circuit 3, infrared receiving circuit 1, infrared transmitting circuit 2, memory module 4, described remote pilot chip U1 is also connected with keyboard 5, receive and send radiofrequency signal, infrared signal, infrared learning is carried out to household electrical appliances 7 thus obtains household electrical appliances 7 infrared signal code, and code storage in memory module 4, mate the infrared signal code of different household electrical appliances 7, operation is carried out to household electrical appliances 7 and controls;

Keyboard 5, by user operation to remote pilot chip U1 input control signal;

Radio circuit 3, send radiofrequency signal to main frame, and Receiving Host or other equipment transmission radiofrequency signal and be passed to remote pilot chip U1;

Infrared receiving circuit 1, obtains the Infrared push button operation signal of household electrical appliances 7 when receiving infrared feedback signal and the infrared learning of home appliance;

Infrared transmitting circuit 2, exports the control signal of remote pilot chip U1 to household electrical appliances 7, carry out infrared remote control to household electrical appliances 7;

Memory module 4, the household electrical appliances 7 infrared signal information obtained when storing infrared learning.

Described main frame is provided with control module, gateway.

As shown in Figure 3, electric source filter circuit 6 unit comprises power supply AAAX2, electric capacity C1, electric capacity C2, inductance L 1, polar capacitor C3, electric capacity C4; Power supply AAAX2 minus earth, positive pole through and out-put supply VBAT after connecting electric capacity C1 digitally and electric capacity 2 filtering; Power supply AAAX2 positive pole is also connected with one end of inductance L 1, and digitally, the other end of inductance L 1 exports digital power VDD and connects remote pilot chip U1 another termination of electric capacity C1, electric capacity C2 after the polar capacitor C3, electric capacity C4 filtering of earth.

Radio circuit 3 circuit comprises antenna, electric capacity C5, electric capacity C6, electric capacity C7, inductance L 2, antenna connects digitally through electric capacity C5, is also connected with inductance L 2 one end in addition, the other end shunt capacitance C6 of inductance L 2, electric capacity C7, connect digitally through electric capacity C6, connect U1 chip through electric capacity C7.

Infrared receiving circuit 1 comprises diode D1, photodiode D2, resistance R1, resistance R2, resistance R3, resistance R4, resistance R5, electric capacity C8, pnp type triode Q1, npn shape triode Q2; The emitter of npn shape triode Q2 connects digitally, and collector connects U1 chip pin, the emitter that collector also connects U1 chip pin by resistance R5 in addition, base stage connects pnp type triode Q1; The collector of pnp type triode Q1 connects digitally, and emitter also connects U1 chip pin by resistance R4, one end of base stage contact resistance R3, electric capacity C8; Resistance R3 connects digitally, and the electric capacity C8 other end connects negative pole, the resistance R2 of photodiode D2, and the positive pole of photodiode D2 connects numeral; Resistance R2 connects the pin of remote pilot chip U1 through resistance R1, the diode D1 of parallel connection, and diode D1 negative pole is connected with resistance R2, and the positive pole of diode connects remote pilot chip U1 pin.Resistance R5, resistance R4, resistance R1, diode D1 connect same U1 chip pin.

Infrared transmitting circuit 2 comprises light emitting diode D4, pnp type triode Q3, resistance R7, resistance R8, resistance R9.The positive pole of light emitting diode D4 connects power supply VBAT, and negative pole connects the collector of npn type triode Q3; The emitter of npn type triode Q3 connects digitally through parallel resistance R8, resistance R9, and base stage connects remote pilot chip U1 pin through resistance R7.

Working indicating comprises the resistance R6, the light emitting diode D3 that are cascaded, and resistance R6 connects remote pilot chip U1 pin, and light emitting diode D3 connects power supply VBAT.

Remote pilot chip U1 is provided with the 1st pin, the 2nd pin, the 3rd pin, the 4th pin, the 5th pin, the 6th pin, the 7th pin, the 8th pin, the 9th pin, the 10th pin, the 11st pin, the 12nd pin, the 13rd pin, the 14th pin, the 15th pin, the 16th pin, the 17th pin, the 18th pin, the 19th pin, the 20th pin, the 21st pin, the 22nd pin, the 23rd pin, the 24th pin, the 25th pin, the 26th pin, the 27th pin, the 28th pin, the 29th pin, the 30th pin, the 31st pin, the 32nd pin.22nd pin of power circuit connection control remote pilot chip U1.Radio circuit 3 connects the 31st pin of remote pilot chip U1.The collector of the npn shape triode Q2 in infrared receiving circuit 1 connects the 27th pin of remote pilot chip U1, the 26th pin of resistance R5, resistance R4, resistance R1, diode D1 positive pole connection remote pilot chip U1.Working indicating connects the 28th pin of remote pilot chip U1.Infrared transmitting circuit 2 connects the 29th pin of remote pilot chip U1.25th pin, the 30th pin, the 32nd pin connect digitally.

As shown in Figure 4, keyboard 5 circuit is matrix circuit, transverse matrix circuit connects the 11st pin, the 12nd pin, the 13rd pin, the 14th pin, the 15th pin, the 16th pin, the 17th pin, the 18th pin of remote pilot chip U1 successively, and vertical 7th pin connects the 11st pin, the 12nd pin, the 13rd pin, the 14th pin, the 15th pin, the 16th pin, the 17th pin, the 18th pin respectively by contact switch K1, contact switch K2, contact switch K3, contact switch K4, contact switch K5, contact switch K6, contact switch K7, contact switch K8; Vertical 8th pin connects the 11st pin, the 12nd pin, the 13rd pin, the 14th pin, the 15th pin, the 16th pin, the 17th pin, the 18th pin respectively by contact switch K9, contact switch K10, contact switch K11, contact switch K12, contact switch K13, contact switch K14, contact switch K15, contact switch K16; Vertical 9th pin P0.6 connects the 11st pin, the 12nd pin, the 13rd pin, the 14th pin, the 15th pin, the 16th pin, the 17th pin, the 18th pin respectively by contact switch K17, contact switch K18, contact switch K19, contact switch K20, contact switch K21, contact switch K22, contact switch K23, contact switch K24; Vertical 10th pin connects the 11st pin, the 12nd pin, the 13rd pin, the 14th pin, the 15th pin, the 16th pin, the 17th pin, the 18th pin respectively by contact switch K25, contact switch K26, contact switch K27, contact switch K28, contact switch K29, contact switch K30, contact switch K31, contact switch K32; Vertical 19th pin connects the 11st pin, the 12nd pin, the 13rd pin, the 14th pin, the 15th pin, the 16th pin, the 17th pin, the 18th pin 7 respectively by contact switch K33, contact switch K34, contact switch K35, contact switch K36, contact switch K37, contact switch K38, contact switch K39, contact switch K40; Vertical 20th pin connects the 11st pin, the 12nd pin, the 13rd pin, the 14th pin, the 15th pin, the 16th pin respectively by contact switch K41, contact switch K42, contact switch K43, contact switch K44, contact switch K45, contact switch K46.

As shown in Figure 5, memory module comprises storer U2, resistance R10, electric capacity C9, electric capacity C10, storer U2 is Electrically Erasable Read Only Memory, power vd D is through also connecting electric capacity C9 digitally, 3rd pin of connected storage U2 after electric capacity C10 filtering, 7th pin, 8th pin, 4th pin ground connection, 1st pin connects remote pilot chip U1 first pin, 1st pin also contact resistance R10, the other end of resistance R10 also connects power vd D, the 2nd pin SO of storer U2 connects the 3rd pin of remote pilot chip U1, 5th pin of storer U2 connects the 3rd pin of remote pilot chip U1, 6th pin of storer U2 connects the 4th pin of remote pilot chip U1.

As shown in Figure 6, main control system 9 comprises route control unit 11, route storage unit 13, WIFI communication unit 14, network interface unit 15, route indicator unit, Z_Wave wireless communication unit 17, Z_Wave storage unit 16, Z_Wave interface unit, Power Management Unit 12.

Described Power Management Unit 12 provides working power for described route control unit 11, route storage unit 13, Z_Wave wireless communication unit 17 and Z_Wave storage unit 16;

Described route storage unit 13 is for storing data for described route control unit 11;

Described Z_Wave storage unit 16 is for storing data for described Z_Wave wireless communication unit 17;

Described route control unit 11 is communicated with described host computer by Ethernet interface for described main control system 9;

Described route control unit 11 passes through Ethernet interface accessing Internet for described main control system 9;

Be connected by USB (universal serial bus) between described Z_Wave wireless communication unit 17 with described route control unit 11 and communicate;

Described Z_Wave wireless communication unit 17 communicates in described Z_Wave network for described main control system 9.

Described household remote control system also comprises remote terminal, and described remote terminal is by linking Internet Z_Wave network, and Long-distance Control host computer, realizes household electrical appliances 7 Remote.

Described main control system 9 also comprises the WIFI communication unit 14 for receiving the control signal from WIFI network, be connected by pci bus between described WIFI communication unit 14 with described route control unit 11 and communicate, the wireless wifi network access Z_Wave network of remote terminal connection control main frame 9, so with host computer interconnected communication.

Described main control system 9 also comprises the SPI interface unit be connected with described Z_Wave wireless communication unit 17, is communicated with external equipment for Z_Wave wireless communication unit 17 by spi bus.

Described route control unit 11 is communicated with described host computer by Ethernet interface for described main control system 9, be connected by USB (universal serial bus) between described Z_Wave wireless communication unit 17 with described route control unit 11 and communicate, described Z_Wave wireless communication unit 17 communicates in described Z_Wave network for described main control system 9.

Household electrical appliances 7 launch the infrared signal of duty to remote pilot chip U1 by infrared receiving circuit 1 simultaneously, and remote pilot chip U1 is again by the duty of radio circuit 3 to main frame feedback household electrical appliances 7

As shown in Figure 7, route control unit 11 comprises router remote pilot chip U17, electric capacity C199, electric capacity C225, electric capacity C226, electric capacity C227, electric capacity C228, electric capacity C233, electric capacity C234, electric capacity C235, electric capacity C236, electric capacity C198, electric capacity C231, electric capacity C191, electric capacity C190, electric capacity C146, electric capacity C101, electric capacity C102, electric capacity C195, electric capacity C141, electric capacity C237, electric capacity C154, electric capacity C143, electric capacity C156, electric capacity C238, electric capacity C150, electric capacity C151, electric capacity C249, electric capacity C149, electric capacity C148, electric capacity C152, electric capacity C245, electric capacity C239, inductance L 112, inductance L 1270, inductance L 124, inductance L 113, inductance L 114, resistance R216, resistance R200, resistance R173, resistance R223, resistance R214, crystal resonator Y20, electric capacity C315, electric capacity C316, resistance R490, resistance R491, socket J11, electric capacity C155, resistance R170, resistance R175, electric capacity C224, electric capacity C229, resistance R137, resistance R270, resistance R139, resistance R131, resistance R133, resistance R135, resistance R141, resistance R143, resistance R264, wave filter U24, USB plug USB11, electric capacity C175, electric capacity C132, electric capacity C133, resistance R176, resistance R177, inductance L 118, wire jumper seat J25, resistance R494, resistance R495, resistance R108, light emitting diode D11, electric capacity C167, resistance R110, button J12, resistance R111, light emitting diode D15, resistance R112, button J13,

10V digital power connects after digitally filtering through electric capacity C199 and is connected with the 3rd pin of router remote pilot chip U17; One termination 10V digital power of inductance L 1270, the other end is connected with electric capacity C225, electric capacity C226, electric capacity C227, electric capacity C228, the 4th pin of electric capacity C233 and router remote pilot chip U17, the 14th pin, the 25th pin, the 32nd pin respectively, and the other end of electric capacity C225, electric capacity C226, electric capacity C227, electric capacity C228, electric capacity C233 all connects digitally; One termination 3.3V digital power of inductance L 112, the other end is connected with electric capacity C234, electric capacity C235, the 9th pin of electric capacity C236 and router remote pilot chip U17, the 20th pin, the 30th pin respectively, and the other end of electric capacity C234, electric capacity C235, electric capacity C236 all connects digitally; 31st pin of router remote pilot chip U17 connects digitally through resistance R216; 33rd pin of router remote pilot chip U17 is connected with one end of 10V digital power and electric capacity C198 and electric capacity C231 respectively, and the other end of electric capacity C198 and electric capacity C231 all connects digitally; 3.3V digital power connects after digitally filter filter through electric capacity C191 and is connected with the 41st pin of router remote pilot chip U17; 3.3V digital power connects after digitally filter filter through electric capacity C190 and is connected with the 53rd pin of router remote pilot chip U17; 3.3V digital power connects after digitally filter filter through electric capacity C101 and is connected with the 67th pin of router remote pilot chip U17; 3.3V digital power connects after digitally filter filter through electric capacity C102 and is connected with the 79th pin of router remote pilot chip U17; 3.3V digital power connects after digitally filter filter through electric capacity C195 and is connected with the 87th pin of router remote pilot chip U17; 3.3V digital power connects after digitally filter filter through electric capacity C239 and is connected with the 119th pin of router remote pilot chip U17; 10V digital power connects after digitally filter filter through electric capacity C146 and is connected with the 64th pin of router remote pilot chip U17; One end of resistance R311 is connected with 3.3V digital power, and the other end is connected with electric capacity C143, electric capacity C154 respectively, and another termination of electric capacity C143, electric capacity C154 digitally; 3.3V digital power connects after digitally filtering through electric capacity C152 and is connected with one end of inductance L 114, the other end of inductance L 114 connects after digitally filtering through electric capacity C245 and is connected with the 112nd pin of router remote pilot chip U17, the other end of inductance L 114 is also connected with the 109th pin of router remote pilot chip U17 through electric capacity C148, and the other end of inductance L 114 is also connected with the 96th pin of router remote pilot chip U17 through electric capacity C156; 10V digital power connects after digitally filtering through electric capacity C249 and is connected with one end of inductance L 113, the other end of inductance L 113 connects after digitally filtering through electric capacity C149 and is connected with the 103rd pin of router remote pilot chip U17, and the other end of inductance L 113 also connects respectively after digitally filtering through electric capacity C150 and electric capacity C151 and is connected with the 97th pin of router remote pilot chip U17; 10V digital power connects after digitally filtering through electric capacity C238, be connected with the 95th pin of router remote pilot chip U17, also be connected with one end of resistance R223, the other end of resistance R223 connects after digitally filtering through electric capacity C141 and electric capacity C237 respectively and is connected with one end of inductance L 124, and the other end of inductance L 124 is connected with SWR_LX and the 91st pin respectively; 93rd pin of router remote pilot chip U17 connects digitally through resistance R173;

The 1st foot meridian capacitor C316 of crystal resonator Y20 connects digitally, then is connected through the 110th pin of resistant series with router remote pilot chip U17; 2nd pin of crystal resonator Y20 and the equal ground connection of the 4th pin; The 3rd foot meridian capacitor C315 of crystal resonator Y20 connects digitally, then is connected with the 111st pin of router remote pilot chip U17 through resistance R490;

2nd pin of DLL (dynamic link library) J11, the 4th pin, the 6th pin, the 8th pin, the 10th pin, the 12nd pin all connect digitally; 3.3V digital power connects after digitally filtering through electric capacity C155, then is connected with the 1st pin of DLL (dynamic link library) J11 through resistance R175, is also connected with the 11st pin of DLL (dynamic link library) J11 through resistance R170; 3rd pin of DLL (dynamic link library) J11 is connected with the 128th pin of router remote pilot chip U17; 5th pin of DLL (dynamic link library) J11 is connected with the 1st pin of router remote pilot chip U17; 7th pin of DLL (dynamic link library) J11 is connected with the 2nd pin of router remote pilot chip U17; 9th pin of DLL (dynamic link library) J11 is connected with the 127th pin of router remote pilot chip U17;

1st foot meridian capacitor of USB socket connects digitally filtering, then is connected with the 1st pin of wire jumper seat J25; After 2nd foot meridian capacitor C132 of USB socket connects digitally filtering, then be connected with the 2nd pin of wave filter U24; After 3rd foot meridian capacitor C133 of USB socket connects digitally filtering, then be connected with the 3rd pin of wave filter U24; 4th pin of USB socket connects in analog; 5th pin of USB socket and the 6th pin all connect shielding ground; Tandem electric inductance L118 is gone back between 4th pin of USB socket and the 5th pin; 1st pin of wave filter is connected with the 99th pin U of router remote pilot chip U17; 4th pin of wave filter is connected with the 98th pin of router remote pilot chip U17; Series resistor R176 between 1st pin of wave filter and the 2nd pin; Series resistor R177 between 3rd pin of wave filter and the 4th pin; One end of inductance L 116 is connected with power supply VIN, and the other end is connected with the 2nd pin of electric capacity C188, electric capacity C189 and wire jumper seat respectively, and the other end of electric capacity C188 and electric capacity C189 all digitally; 3rd pin of wire jumper seat is through resistance R494 and resistance R495 ground connection; One end of resistance R108 is connected with 3.3V digital power, and the other end is connected with the anode of light emitting diode D11, and the negative electrode of light emitting diode D11 connects digitally; 3.3V digital power connects after digitally filtering through electric capacity C167 and is connected with one end of resistance R110, and the other end of resistance R110 is through being connected with the 128th pin JTGTDI of router remote pilot chip U17 with resistance R156; Resistance R156 is connected with one end of button J12 with the link of resistance R110, and another termination of button J12 digitally; 3.3V digital power is connected with the anode of light emitting diode D15 through resistance R111, and the negative electrode of light emitting diode D15 is connected with one end of resistance R161, and the other end of resistance R161 is connected with the 1st pin of router remote pilot chip U17; 3.3V digital power is connected with one end of resistance R160 through resistance R112, resistance R160 is also connected with one end of button J13 with the tie point of resistance R112, digitally, the other end of resistance R160 is connected with the 127th pin of router remote pilot chip U17 another termination of button J13;

48th pin of router remote pilot chip U17 is connected with 3.3V digital power through resistance R137; 43rd pin of router remote pilot chip U17 is connected with 3.3V digital power through resistance R270; 37th pin of router remote pilot chip U17 is connected with 3.3V digital power through resistance R139; 42nd pin of router remote pilot chip U17 is connected with 3.3V digital power through resistance R131; 39th pin of router remote pilot chip U17 is connected with 3.3V digital power through resistance R133; 38th pin of router remote pilot chip U17 is connected with 3.3V digital power through resistance R135; 35th pin of router remote pilot chip U17 is connected with 3.3V digital power through resistance R141; 36th pin of router remote pilot chip U17 is connected with 3.3V digital power through resistance R143; 125th pin of router remote pilot chip U17 is connected with 3.3V digital power through resistance R264;

As shown in Figure 8, route storage unit 13 comprises synchronous DRAM U11, electric capacity C197, electric capacity C208, electric capacity C210, resistance R500, resistance R187, resistance R201, electric capacity C144, electric capacity C145, electric capacity C230, electric capacity C162, electric capacity C163, electric capacity C164, electric capacity C165; Route storage unit 13 also comprises flash storage U19, electric capacity C219, resistance R210, resistance R212;

For synchronous DRAM provides stable 3.3V digital power after 3.3V digital power connects digitally filtering respectively through electric capacity C144, electric capacity C145, electric capacity C230, electric capacity C162, electric capacity C163, electric capacity C164, electric capacity C165, the 1st pin of synchronous DRAM U11, the 3rd pin, the 9th pin, the 14th pin, the 27th pin all connect 3.3V digital power; 6th pin of synchronous DRAM U11, the 12nd pin, the 28th pin, the 41st pin, the 46th pin, the 52nd pin, the 54th pin all connect digitally; 3.3V digital power also connects through electric capacity C197 and digitally filters after filtering, then is connected with the 43rd pin of synchronous DRAM U11, the 49th pin respectively; 3.3V is digitally also connected with the 118th pin of router remote pilot chip U17 through resistance R500; 38th foot meridian capacitor C210 and the electric capacity C208 of synchronous DRAM U11 connect respectively after digitally filtering and are connected with one end of resistance R201, and the other end of resistance R201 is connected with the 65th pin of router remote pilot chip U17; 37th pin of synchronous DRAM U11 is connected with 3.3V digital power through resistance R187; 2nd pin of synchronous DRAM U11 is connected with the 62nd pin of router remote pilot chip U17; 4th pin of synchronous DRAM U11 is connected with the 61st pin of router remote pilot chip U17; 5th pin of synchronous DRAM U11 is connected with the 60th pin of router remote pilot chip U17; 7th pin of synchronous DRAM U11 is connected with the 59th pin of router remote pilot chip U17; 8th pin of synchronous DRAM U11 is connected with the 58th pin of router remote pilot chip U17; 10th pin of synchronous DRAM U11 is connected with the 57th pin of router remote pilot chip U17; 11st pin of synchronous DRAM U11 is connected with the 56th pin of router remote pilot chip U17; 13rd pin of synchronous DRAM U11 is connected with the 55th pin of router remote pilot chip U17; 42nd pin of synchronous DRAM U11 is connected with the 71st pin of router remote pilot chip U17; 44th pin of synchronous DRAM U11 is connected with the 72nd pin of router remote pilot chip U17; 45th pin 0 of synchronous DRAM U11 is connected with the 73rd pin of router remote pilot chip U17; 47th pin of synchronous DRAM U11 is connected with the 74th pin of router remote pilot chip U17; 48th pin of synchronous DRAM U11 is connected with the 75th pin of router remote pilot chip U17; 50th pin of synchronous DRAM U11 is connected with the 76th pin of router remote pilot chip U17; 51st pin of synchronous DRAM U11 is connected with the 77th pin MD14 of router remote pilot chip U17; 53rd pin of synchronous DRAM U11 is connected with the 78th pin of router remote pilot chip U17; 15th pin of synchronous DRAM U11 is connected with the 54th pin of router remote pilot chip U17; 16th pin of synchronous DRAM U11 is connected with the 82nd pin of router remote pilot chip U17; 17th pin of synchronous DRAM U11 is connected with the 81st pin of router remote pilot chip U17; 19th pin of synchronous DRAM U11 is connected with the 83rd pin of router remote pilot chip U17; 20th pin of synchronous DRAM U11 is connected with the 36th pin of router remote pilot chip U17; 21st pin of synchronous DRAM U11 is connected with the 35th pin of router remote pilot chip U17; 39th pin of synchronous DRAM U11 is connected with the 69th pin of router remote pilot chip U17; 23rd pin of synchronous DRAM U11 is connected with the 52nd pin of router remote pilot chip U17; 24th pin of synchronous DRAM U11 is connected with the 51st pin of router remote pilot chip U17; 25th pin of synchronous DRAM U11 is connected with the 50th pin of router remote pilot chip U17; 26th pin of synchronous DRAM U11 is connected with the 49th pin of router remote pilot chip U17; 29th pin of synchronous DRAM U11 is connected with the 48th pin of router remote pilot chip U17; 30th pin of synchronous DRAM U11 is connected with the 46th pin of router remote pilot chip U17; 31st pin of synchronous DRAM U11 is connected with the 45th pin of router remote pilot chip U17; 32nd pin of synchronous DRAM U11 is connected with the 44th pin of router remote pilot chip U17; 33rd pin of synchronous DRAM U11 is connected with the 43rd pin of router remote pilot chip U17; 34th pin of synchronous DRAM U11 is connected with the 42nd pin of router remote pilot chip U17; 22nd pin of synchronous DRAM U11 is connected with the 39th pin of router remote pilot chip U17; 35th pin of synchronous DRAM U11 is connected with the 38th pin of router remote pilot chip U17; 36th pin of synchronous DRAM U11 is connected with the 37th pin of router remote pilot chip U17 through resistance R200;

1st pin of flash storage U19 is connected with the 123rd pin of router remote pilot chip U17; 2nd pin of flash storage U19 is connected with the 122nd pin of router remote pilot chip U17; 3rd pin of flash storage U19 is connected with 3.3V digital power through resistance R210; 4th pin of flash storage U19 connects digitally; 5th pin of flash storage U19 is connected with the 121st pin of router remote pilot chip U17; 6th pin of flash storage U19 is connected with the 120th pin of router remote pilot chip U17; 7th pin of flash storage U19 is connected with 3.3V digital power through resistance R212; 3.3V digital power connects after digitally filtering through electric capacity C219 and is connected with the 8th pin VCC of flash storage U19;

As shown in Figure 9, WIFI communication unit 14 comprises PCI connector JP1, resistance R501; Resistance R20, resistance R34, resistance R510, resistance R511, resistance R512, resistance R513, light emitting diode D1, light emitting diode D25, light emitting diode D26, electric capacity C325, electric capacity C326,

1st pin of PCI connector JP1 is connected with the 2nd pin of router remote pilot chip U17 through resistance R159, 2nd pin of PCI connector JP1, 24th pin and the 52nd pin all access 3.3V digital power, 7th pin of PCI connector JP1 connects digitally through resistance R501, 4th pin, 9th pin, 15th pin, 18th pin, 21st pin, 26th pin, 27th pin, 29th pin, 34th pin, 35th pin, 40th pin, 50th pin all connects digitally, 11st pin of PCI connector JP1 is connected with the 104th pin of router remote pilot chip U17, 13rd pin of PCI connector JP1 is connected with the 105th pin of router remote pilot chip U17, be connected with the 106th pin of router remote pilot chip U17 after the 23rd foot meridian capacitor C325 series connection of PCI connector JP1, be connected with the 107th pin of router remote pilot chip U17 after the 25th foot meridian capacitor C326 series connection of PCI connector JP1, be connected with the 102nd pin of router remote pilot chip U17 after the 31st foot meridian capacitor C224 series connection of PCI connector JP1, be connected with the 101st pin of router remote pilot chip U17 after the 33rd foot meridian capacitor C229 series connection of PCI connector JP1, 22nd pin of PCI connector JP1 is connected with the 124th pin of router remote pilot chip U17, 42nd pin of PCI connector JP1 is connected with one end of resistance R20, and the other end of resistance R20 is connected with the negative electrode of light emitting diode D1, and the anode of light emitting diode D1 is connected with 3.3V digital power through resistance R34, 44th pin of PCI connector JP1 is connected with one end of resistance R510, and the other end of resistance R510 is connected with the negative electrode of light emitting diode D25, and the anode of light emitting diode D25 is connected with 3.3V digital power through resistance R511, 46th pin of PCI connector JP1 is connected with one end of resistance R512, and the other end of resistance R512 is connected with the negative electrode of light emitting diode D26, and the anode of light emitting diode D26 is connected with 3.3V digital power through resistance R513,

As shown in Figure 10, network interface unit 15 comprises electric capacity C103, electric capacity C104, electric capacity C105, electric capacity C106, electric capacity C108, electric capacity C109, electric capacity C110, electric capacity C111, electric capacity C112, electric capacity C113, electric capacity C115, electric capacity C116, electric capacity C118, electric capacity C119, electric capacity C120, electric capacity C122, electric capacity C124, electric capacity C126, electric capacity C129, electric capacity C130; Ethernet converter U12, electric capacity C107, Ethernet converter U13, electric capacity C114, electric capacity C117, Ethernet converter U14, electric capacity C121, electric capacity C125; Network joint P11;

Be connected with the 29th pin of router remote pilot chip U17 after the 1st foot meridian capacitor C103 of Ethernet interface U12 connects digitally filtering, be connected with the 28th pin of router remote pilot chip U17 after the 3rd foot meridian capacitor C104 of Ethernet interface U12 connects digitally filtering, the 4th foot meridian capacitor C107 of Ethernet interface U12 connects digitally, be connected with the 27th pin of router remote pilot chip U17 after the 5th foot meridian capacitor C105 of Ethernet interface U12 connects digitally filtering, be connected with the 26th pin of router remote pilot chip U17 after the 7th foot meridian capacitor C106 of Ethernet interface U12 connects digitally filtering, 10th pin of Ethernet interface U12 is connected with the pin TX4+ of network interface P11, 12nd pin of Ethernet interface U12 is connected with the pin TX4-of network interface P11, 14th pin of Ethernet interface U12 is connected with the pin RX4+ of network interface P11, 16th pin of Ethernet interface U12 is connected with the pin RX4-of network interface P11,

Be connected with the 24th pin of router remote pilot chip U17 after the 1st foot meridian capacitor C111 of Ethernet interface U13 connects digitally filtering, be connected with the 23rd pin of router remote pilot chip U17 after the 2nd foot meridian capacitor C110 of Ethernet interface U13 connects digitally filtering, the 3rd foot meridian capacitor C114 of Ethernet interface U13 connects digitally, be connected with the 22nd pin of router remote pilot chip U17 after the 4th foot meridian capacitor C109 of Ethernet interface U13 connects digitally filtering, be connected with the 21st pin of router remote pilot chip U17 after the 5th foot meridian capacitor C108 of Ethernet interface U13 connects digitally filtering, 19th pin of Ethernet interface U13 is connected with the pin TX3-of network interface P11,20th pin of Ethernet interface U13 is connected with the pin TX3+ of network interface P11,16th pin of Ethernet interface U13 is connected with the pin RX3-of network interface P11,17th pin of Ethernet interface U13 is connected with the pin RX3+ of network interface P11, be connected with the 15th pin of router remote pilot chip U17 after the 10th foot meridian capacitor C116 of Ethernet interface U13 connects digitally filtering, be connected with the 16th pin of router remote pilot chip U17 after the 9th foot meridian capacitor C115 of Ethernet interface U13 connects digitally filtering, the 8th foot meridian capacitor C117 of Ethernet interface U13 connects digitally, be connected with the 18th pin of router remote pilot chip U17 after the 7th foot meridian capacitor C113 of Ethernet interface U13 connects digitally filtering, be connected with the 19th pin of router remote pilot chip U17 after the 6th foot meridian capacitor C112 of Ethernet interface U13 connects digitally filtering, 12nd pin of Ethernet interface U13 is connected with the pin TX2-of network interface P11,11st pin of Ethernet interface U13 is connected with the pin TX2+ of network interface P11,15th pin of Ethernet interface U13 is connected with the pin RX2-of network interface P11,14th pin of Ethernet interface U13 is connected with the pin RX2+ of network interface P11

Be connected with the 13rd pin of router remote pilot chip U17 after the 1st foot meridian capacitor C122 of Ethernet interface U14 connects digitally filtering, be connected with the 12nd pin of router remote pilot chip U17 after the 2nd foot meridian capacitor C120 of Ethernet interface U14 connects digitally filtering, the 3rd foot meridian capacitor C121 of Ethernet interface U14 connects digitally, be connected with the 11st pin of router remote pilot chip U17 after the 4th foot meridian capacitor C119 of Ethernet interface U14 connects digitally filtering, be connected with the 10th pin of router remote pilot chip U17 after the 5th foot meridian capacitor C118 of Ethernet interface U14 connects digitally filtering, 19th pin of Ethernet interface U14 is connected with the pin TX1-of network interface P11,20th pin of Ethernet interface U14 is connected with the pin TX1+ of network interface P11,16th pin of Ethernet interface U14 is connected with the pin RX1-of network interface P11,17th pin of Ethernet interface U14 is connected with the pin RX1+ of network interface P11, be connected with the 5th pin of router remote pilot chip U17 after the 10th foot meridian capacitor C130 of Ethernet interface U14 connects digitally filtering, be connected with the 6th pin of router remote pilot chip U17 after the 9th foot meridian capacitor C129 of Ethernet interface U14 connects digitally filtering, the 8th foot meridian capacitor C125 of Ethernet interface U14 connects digitally

Be connected with the 7th pin of router remote pilot chip U17 after the 7th foot meridian capacitor C126 of Ethernet interface U14 connects digitally filtering, be connected with the 8th pin of router remote pilot chip U17 after the 6th foot meridian capacitor C124 of Ethernet interface U14 connects digitally filtering, 12nd pin of Ethernet interface U14 is connected with the pin TX0-of network interface P11, 11st pin of Ethernet interface U14 is connected with the pin TX0+ of network interface P11, 15th pin of Ethernet interface U14 is connected with the pin RX0-of network interface P11, 14th pin of Ethernet interface U14 is connected with the pin RX0+ of network interface P11, the pin PGF of network interface P11, pin PGD, pin PGC, pin PGB all connects digitally,

As shown in figure 11, route indicator unit comprises electric capacity C161, resistance R115, resistance R117, resistance R120, resistance R122, light emitting diode D16, light emitting diode D18, light emitting diode D20, light emitting diode D24;

3.3V digital power connects after digitally filtering through electric capacity C161, respectively with resistance R115, resistance R117, resistance R120, resistance R122 connects, the other end of resistance R115 is connected with the anode of light emitting diode D16, the negative electrode of light emitting diode D16 is connected with the 117th pin of router remote pilot chip U17, the other end of resistance R117 is connected with the anode of light emitting diode D18, the negative electrode of light emitting diode D18 is connected with the 114th pin of router remote pilot chip U17, the other end of resistance R120 is connected with the anode of light emitting diode D20, the negative electrode of light emitting diode D20 is connected with the 115th pin of router remote pilot chip U17, the other end of resistance R122 is connected with the anode of light emitting diode D24, the negative electrode of light emitting diode D24 is connected with the 116th pin of router remote pilot chip U17,

As shown in figure 13, Power Management Unit 12 comprises power supply adaptor J14, step-down controller U25, electric capacity C171, electric capacity C172, electric capacity C177, electric capacity C319, electric capacity C320, electric capacity C317, electric capacity C318, electric capacity C176, electric capacity C160, resistance R496, resistance R498, resistance R497, resistance R499, inductance L 104, inductance L 109, inductance L 937, inductance L 107; Electric capacity C188, electric capacity C189, inductance L 116;

2nd pin of power supply adaptor J14 and the 3rd pin all connect shielding ground, 1st pin access direct supply input, 1st pin is also connected with one end of electric capacity C171 and electric capacity C172 and inductance L 104 respectively, another termination of electric capacity C171 and electric capacity C172 connects shielding ground, the other end out-put supply VIN of inductance L 104, and be connected with the 2nd pin of step-down controller U25; One end of inductance L 109 also connects shielding ground, and another termination of inductance L 109 digitally; 4th pin of step-down controller connects digitally, and the 6th pin connects in analog; The positive pole of electric capacity C177, electric capacity C319, electric capacity C320 is all connected with power supply VIN, and the negative pole of electric capacity C177, electric capacity C319, electric capacity C320 all connects digitally; The two ends of resistance R498 are connected with the 1st pin of step-down chip U25 and the 2nd pin respectively; The two ends of resistance R496 are connected with the 8th pin of step-down chip U25 and the 2nd pin respectively; The two ends of inductance L 937 are connected with the 3rd pin of step-down chip U25 and the 5th pin respectively, and the two ends of resistance R497 are connected with the 5th pin of step-down chip U25 and the 7th pin respectively; One end of resistance R499 is connected with the 7th pin of step-down chip U25, and another termination in analog; The positive pole of electric capacity C317, electric capacity C318, electric capacity C176 is all connected with the 5th pin of step-down chip U25, and the negative pole of electric capacity C317, electric capacity C318, electric capacity C176 all connects digitally; One end of inductance L 107 is connected with the positive pole of electric capacity C176, and the other end connects after digitally filtering through electric capacity and exports 3.3V digital power;

Z_Wave wireless communication unit 17 comprises Z_Wave chip U26, electric capacity C321, electric capacity C322, electric capacity C330, electric capacity C329, electric capacity C331, electric capacity C327, electric capacity C328, antenna H10, resistance R503, resistance R504, resistance R505, resistance R506, resistance R507, switch JP3, resistance R508, resistance R509, electric capacity C324;

1st pin of Z_Wave chip U26, the 6th pin, the 12nd pin, the 17th pin, the 18th pin all connect in analog; 2nd pin of Z_Wave chip U26 is connected with the 118th pin of router remote pilot chip U17; 3.3V digital power connects respectively after filtering in analog through electric capacity C321 and electric capacity C322 and is connected with the 11st pin of Z_Wave chip U26; 19th pin of Z_Wave chip U26 is connected with the positive pole of electric capacity C329, and the positive pole of electric capacity C330 is connected with the positive pole of electric capacity C329, and the negative pole of electric capacity C330 connects in analog, and the positive pole of electric capacity C331 is connected with the negative pole of electric capacity C329, and the negative pole of electric capacity C331 connects in analog; The negative pole of electric capacity C327 is all connected with the negative pole of electric capacity C329 with the negative pole of electric capacity C328, and the positive pole of electric capacity C327 is all connected with antenna JMA with the positive pole of electric capacity C328; 15th pin of Z_Wave chip U26 is connected with the 126th pin of router remote pilot chip U17, and the 10th pin of Z_Wave chip U26 is connected with the 125th pin of router remote pilot chip U17;

One end of resistance R503, resistance R504, resistance R505, resistance R506 and resistance R507 connects mutually, the other end of resistance R503 is connected with 3.3V digital power, the other end of resistance R504 is connected with the 15th pin of Z_Wave chip U26, the other end of resistance R505 is connected with the 8th pin of connector, the other end of resistance R506 is connected with the 14th pin of Z_Wave chip U26, and another termination of resistance R507 in analog;

The one termination 3.3V digital power of resistance R508, the other end is connected with the positive pole of electric capacity C324, the negative pole of electric capacity C324 connects in analog, and the positive pole of electric capacity C324 connects in analog through switch, and the positive pole of electric capacity C324 is also connected with the 3rd pin of Z_Wave chip U26 after resistance R509 connects;

As shown in figure 12, Z_Wave storage unit 16 comprises flash storage U27, electric capacity C323, resistance R502;

1st pin of flash storage is connected with 3.3V digital power through resistance R502 pull-up, is also connected with the 5th pin of Z_Wave chip U26; 2nd pin of flash storage is connected with the 7th pin O of Z_Wave chip U26,5th pin of flash storage is connected with the 9th pin of Z_Wave chip U26,6th pin of flash storage is connected with the 8th pin of Z_Wave chip U26,4th pin of flash storage connects in analog, and 3.3V digital power to connect after filtering in analog through electric capacity C323 and is connected with the 3rd pin of flash storage, the 7th pin and the 8th pin respectively;

Z_Wave interface unit comprises DLL (dynamic link library) JP2, connector JP9;

The 1st pin P1 of DLL (dynamic link library) JP2 connects 3.3V digital power, 2nd pin of DLL (dynamic link library) JP2 is connected with the 16th pin of Z_Wave chip U26,4th pin of DLL (dynamic link library) JP2 is connected with the 9th pin of Z_Wave chip U26,6th pin of DLL (dynamic link library) JP2 is connected with the 7th pin of Z_Wave chip U26,8th pin of DLL (dynamic link library) JP2 is connected with the 8th pin of Z_Wave chip U26,10th pin of DLL (dynamic link library) JP2 is connected with the 2nd pin of Z_Wave chip U26, and the 9th pin of the 7th pin DLL (dynamic link library) JP2 of DLL (dynamic link library) JP2 all connects in analog;

1st pin of connector JP9 connects 3.3V digital power, 2nd pin of connector JP9 connects in analog, 3rd pin of connector JP9 is connected with the 14th pin of Z_Wave chip U26,4th pin of connector JP9 is connected with the 4th pin of Z_Wave chip U26,5th pin of connector JP9 is connected with the 13rd pin of Z_Wave chip U26, and the 6th pin of connector JP9 is connected with the 5th pin of Z_Wave chip U26.

The above; be only the present invention's preferably embodiment, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; the change that can expect easily or replacement, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of claim.

Claims (8)

1. the household remote control system for Smart Home, the household electrical appliances comprising telechiric device, main control system, host computer and mate with telechiric device, described telechiric device, main control system form Z_Wave network, host computer is by main control system access Z_Wave network control telechiric device, and described telechiric device comprises:

Remote pilot chip, in order to receive the control command of main control system, to the status information of main control system feedback household electrical appliances;

Infrared transmitting circuit, for performing the control command that remote pilot chip transmits;

Infrared receiving circuit, for receiving the feedback information of household electrical appliances;

Antenna circuit, for the communication of remote pilot chip and main control system.

2. a kind of household remote control system for Smart Home according to claim 1, is characterized in that: be provided with memory module, for storing the infrared signal that infrared receiving circuit receives, is connected with remote pilot chip.

3. a kind of household remote control system for Smart Home according to claim 1, it is characterized in that: be provided with Keysheet module, described Keysheet module is connected with described remote pilot chip, sends to remote pilot chip in order to input of control commands.

4. a kind of household remote control system for Smart Home according to claim 1, it is characterized in that, described antenna circuit comprises antenna ANT1, electric capacity C5, electric capacity C6, electric capacity C7, inductance L 2, antenna connects digitally through electric capacity C5, also be connected with inductance L 2 one end in addition, the other end shunt capacitance C6 of inductance L 2, electric capacity C7, connect digitally through electric capacity C6, connects remote pilot chip U1 through electric capacity C7.

5. a kind of household remote control system for Smart Home according to claim 1, is characterized in that: described infrared receiving circuit comprises diode D1, photodiode D2, resistance R1, resistance R2, resistance R3, resistance R4, resistance R5, electric capacity C8, pnp type triode Q1, npn shape triode Q2; The emitter of npn shape triode Q2 connects digitally, and collector connects U1 chip pin, the emitter that collector also connects U1 chip pin by resistance R5 in addition, base stage connects pnp type triode Q1; The collector of pnp type triode Q1 connects digitally, and emitter also connects U1 chip pin by resistance R4, one end of base stage contact resistance R3, electric capacity C8; Resistance R3 connects digitally, and the electric capacity C8 other end connects negative pole, the resistance R2 of photodiode D2, and the positive pole of photodiode D2 connects numeral; Resistance R2 connects the pin of remote pilot chip U1 through resistance R1, the diode D1 of parallel connection, and diode D1 negative pole is connected with resistance R2, and the positive pole of diode connects remote pilot chip U1 pin.Resistance R5, resistance R4, resistance R1, diode D1 connect same U1 chip pin.

6. a kind of household remote control system for Smart Home according to claim 1, is characterized in that: described infrared transmitting circuit comprises light emitting diode D4, pnp type triode Q3, resistance R7, resistance R8, resistance R9.The positive pole of light emitting diode D4 connects power supply VBAT, and negative pole connects the collector of npn type triode Q3; The emitter of npn type triode Q3 connects digitally through parallel resistance R8, resistance R9, and base stage connects remote pilot chip U1 pin through resistance R7.

7. a kind of household remote control system for Smart Home according to claim 1, is characterized in that: described main control system comprises Power Management Unit, route control unit, route storage unit, Z_Wave wireless communication unit and Z_Wave storage unit;

Described Power Management Unit is described route control unit, route storage unit, Z_Wave wireless communication unit and Z_Wave storage unit provide working power;

Described route storage unit is used for for described route control unit stores data;

Described Z_Wave storage unit is used for for described Z_Wave wireless communication unit stores data;

The control command that described route control unit sends for the treatment of host computer and being communicated with described host computer by Ethernet interface;

Described Z_Wave wireless communication unit is communicated with being connected by USB (universal serial bus) between described route control unit; The control command of route control unit is sent to the slave computer in described Z_Wave network, described Z_Wave wireless communication unit is connected with described antenna circuit electric signal.

8. a kind of household remote control system for Smart Home as claimed in claim 6, it is characterized in that, described main control system also comprises the WIFI communication unit for receiving the control signal from WIFI network, described WIFI communication unit is communicated with being connected by pci bus between described route control unit, the wireless wifi network access Z_Wave network of remote terminal connection control main frame, so with host computer interconnected communication.