CN204614190U - A kind of power supply switch controller based on Z_Wave and intelligent home control system - Google Patents

Abstract

The utility model discloses a kind of power supply switch controller based on Z_Wave and intelligent home control system, wherein power supply switch controller is used for the power switch of the household electrical appliances of centralized control intelligent domestic system, comprises radio receiving transmitting module, memory module, power management module and data interface module; Data interface module is used for radio receiving transmitting module to be connected with the power switch of household electrical appliances, and controls the power switch of household electrical appliances; Radio receiving transmitting module is used for power supply switch controller to be incorporated to Z_Wave network, and by Z_Wave network transceiving data; Memory module is connected with radio receiving transmitting module, for providing data storage function for radio receiving transmitting module; Power management module is used for providing working power for radio receiving transmitting module and memory module.The power switch of the Z_Wave network control household electrical appliances of the utility model application Smart Home, convenient and swift, power and energy saving, effectively extends the serviceable life of household electrical appliances.

Description

A kind of power supply switch controller based on Z_Wave and intelligent home control system

Technical field

The utility model belongs to Intelligent housing field, refers to a kind of power supply switch controller based on Z_Wave and intelligent home control system especially.

Background technology

Existing household electrical appliances such as TV, air-conditioning are all regulated television channel, volume, temperature by telepilot or controlled it to enter mode of operation/standby mode, this control method adopts infrared ray to control mostly, but the power switch of infrared control method still these household electrical appliances uncontrollable, even if therefore household electrical appliances enter standby mode, but still electric energy need be consumed, and have influence on the mission life of household electrical appliances.And at present Smart Home has obtained the accreditation of more average family, therefore by remote control applications in existing intelligent home control system, realizing the mode of operation that telepilot can control household electrical appliances, can also control the power switch of household electrical appliances, is problem demanding prompt solution.

Utility model content

The technical matters of the function singleness of the mode of operation of household electrical appliances can only be controlled simply based on existing telepilot, the utility model provides a kind of power supply switch controller based on Z_Wave, it is incorporated in the Z-wave network of Smart Home, realizes the power switch being controlled household electrical appliances by telepilot.For realizing above-mentioned technical purpose, the utility model adopts following technical scheme:

Based on a power supply switch controller of Z_Wave, for the power switch of the household electrical appliances of centralized control intelligent domestic system, comprise radio receiving transmitting module, memory module, power management module and data interface module; Wherein said data interface module is used for the power switch of described radio receiving transmitting module with described household electrical appliances to be connected, and controls the power switch of household electrical appliances; Described radio receiving transmitting module is used for described power supply switch controller to be incorporated to Z_Wave network, and by described Z_Wave network transceiving data; Described memory module is connected with described radio receiving transmitting module, for providing data storage function for described radio receiving transmitting module; Described power management module is used for providing working power for described radio receiving transmitting module and memory module.

More preferably, described data interface module comprises UART interface and SPI interface, and described radio receiving transmitting module is connected with the power switch of described household electrical appliances by UART interface or SPI interface, and described radio receiving transmitting module is connected with described memory module by SPI interface.

Further, the utility model also provides a kind of intelligent home control system, comprises the power supply switch controller based on Z_Wave described in technique scheme, but also comprises telepilot, home gateway and at least one household electrical appliances; Described telepilot and home gateway are equipped with Z_Wave wireless communication unit, and described power supply switch controller, telepilot and home gateway form Z_Wave network service, and described household electrical appliances are communicated by infrared ray with between telepilot; Described home gateway is used for for described telepilot, power supply switch controller provide the routing iinformation of Z_Wave network; Described telepilot is used for controlling the power switch of described household electrical appliances and the control command input end of mode of operation for user provides; The power switch control command that described power supply switch controller exports for receiving described telepilot, and control the power switch of described household electrical appliances; Described household electrical appliances for receive and perform described power supply switch controller export power switch control command, and receives and perform described telepilot output mode of operation control command.

More preferably, described household electrical appliances are that TV is or/and air-conditioning.

More preferably, the Z_Wave wireless communication unit of described telepilot comprises Z_Wave radio-frequency module, input through keyboard module, infrared transmission module, the infrared learning module of integrated processor; Described Z_Wave radio-frequency module is the control module of described telepilot, also for receiving and dispatching the signal of Z_Wave frequency range; Described input through keyboard module is used for the control command that user inputs household electrical appliances, and sends to Z_Wave radio-frequency module; The control signal that described infrared transmission module exports for receiving described Z_Wave radio-frequency module, and infraredly send to described household electrical appliances; Described infrared learning module for identifying the type of described household electrical appliances, brand and model, and exports to described Z_Wave radio-frequency module.

Further, the utility model also provides the intelligent home furnishing control method that a kind of and above-mentioned control system is corresponding, comprises the following steps:

S1: user is by the power supply opening order of telepilot input household electrical appliances;

S2: power supply opening order, according to the power supply opening control command received, is outputted to Z_Wave network by Z_Wave radio-frequency module by telepilot;

S3: home gateway is that the power supply opening control command that the Z_Wave radio-frequency module of telepilot exports distributes routing iinformation;

S4: power supply opening control command is sent to power supply switch controller according to the routing iinformation distributed by the Z_Wave radio-frequency module of telepilot;

S5: the household electrical appliances specified by power supply opening control command, according to the power supply opening control command received, switch on power by power supply switch controller;

S6: user by telepilot input household electrical appliances mode of operation control command, by infrared transmission module by household electrical appliances mode of operation control command by infrared emitting to household electrical appliances;

S7: household electrical appliances receive and perform household electrical appliances mode of operation control command.

Compared with prior art, the beneficial effect that the utility model has is: the power switch of the household electrical appliances in Smart Home by can the power supply switch controller of Z_Wave network service control, namely user directly can send the power switch control signal of household electrical appliances to power supply switch controller by Z_Wave network, thus control household electrical appliances energising or power-off, convenient and swift; In intelligent control system adopt can Z_Wave network service telepilot indirectly by power supply switch controller control household electrical appliances be energized or power-off, realize telepilot to gather multi-function in integral whole, not only can the mode of operation of infrared direct control household electrical appliances, also by the power switch of Z_Wave network control household electrical appliances, the power switch of household electrical appliances so can also be controlled relative to common telepilot, both saves energy was beneficial to environmental protection, effectively can also extend the serviceable life of household electrical appliances.

Accompanying drawing explanation

Fig. 1 is the structured flowchart of intelligent home control system of the present utility model;

Fig. 2 is the circuit theory diagrams of the power management module in power supply switch controller of the present utility model;

Fig. 3 is the circuit theory diagrams of the radio receiving transmitting module in power supply switch controller of the present utility model;

Fig. 4 is the circuit theory diagrams of the memory module in power supply switch controller of the present utility model;

Fig. 5 is the circuit theory diagrams of telepilot of the present utility model;

Fig. 6 is the structured flowchart of signal amplifier of the present utility model;

Fig. 7 is the data input module circuit diagram of signal amplifier of the present utility model;

Fig. 8 is the power transfer module circuit diagram of signal amplifier of the present utility model;

Fig. 9 is the signal amplification module circuit diagram of signal amplifier of the present utility model;

Figure 10 is the interrupt circuit figure of signal amplifier of the present utility model;

Figure 11 is the circuit diagram figure of the flash memory module circuit of signal amplifier of the present utility model;

Figure 12 is the z-wave signal processing module circuit diagram of signal amplifier of the present utility model;

Figure 13 is the circuit diagram of the voltage-regulating circuit of signal amplifier of the present utility model;

Figure 14 is the antenna ANT1 circuit diagram of signal amplifier of the present utility model.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Embodiment one:

The present embodiment one provides a kind of power supply switch controller based on Z_Wave, as shown in Figure 1, for the power switch of the household electrical appliances of centralized control intelligent domestic system, comprises radio receiving transmitting module, memory module, power management module and data interface module.

Wherein, data interface module is used for the power switch of described radio receiving transmitting module with described household electrical appliances to be connected, and controls the power switch of household electrical appliances.

Described power management module is used for providing working power for described radio receiving transmitting module and memory module.

Particularly, as shown in Figure 2, power management module comprises electric capacity CB29, electric capacity CB30, electric capacity CB28, electric capacity CB27; The power supply V_3V3 wherein inputted respectively through electric capacity CB29, electric capacity CB30, the filtering of electric capacity CB28 ground connection, then is connected with one end of resistance FB1, the power supply VCC_3V3D of other end stable output after the filtering of electric capacity CB27 ground connection of resistance FB1.

Described radio receiving transmitting module is used for described power supply switch controller to be incorporated to Z_Wave network, and by described Z_Wave network transceiving data.

Particularly, as shown in Figure 3, radio receiving transmitting module comprises Z_Wave chip UW18, resistance RW1 that model is ZM3102, resistance RW2, resistance RW3, resistance RW190, resistance RW187, resistance RW119, resistance RW120, resistance RW118, resistance RW184, resistance RW181, resistance RW117, resistance CW195, inductance CW196, inductance L W41, inductance L W40, electric capacity CW197, electric capacity CW198; 1st pin GND, the 6th pin GND of Z_Wave chip UW18, the 12nd pin GND, the 16th pin GND, the equal ground connection of the 17th pin GND; 7th pin MISO, the 8th pin SCK, the 9th pin MOSI of Z_Wave chip UW18 are connected with the power switch of memory module and household electrical appliances by the spi bus of data interface module through resistance RW1, resistance RW2, resistance RW3 respectively; 10th pin RXD, the 15th pin TXD of Z_Wave chip UW18 are connected with the power switch of household electrical appliances by the UART bus of data interface module through resistance RW190, resistance RW187 respectively; The 13rd pin TRIAC of Z_Wave chip UW18 is through resistance RW119 ground connection, and the 14th pin ZEROX of Z_Wave chip UW18 is through resistance RW120 ground connection; The 3rd pin INT1 of Z_Wave chip UW18 is through resistance RW117 ground connection; The 4th pin INT1 of Z_Wave chip UW18 is through resistance RW118 ground connection; The 1st pin VCC of Z_Wave chip UW18 is connected with external power supply VCC_3V3D through inductance L W40, and the 1st pin VCC is also respectively through electric capacity C2193, electric capacity CW194 ground connection; The 18th pin RFin/out of Z_Wave chip UW18 is through inductance CW196 ground connection, also be connected with one end of resistance CW195, the other end of resistance CW195 is through electric capacity CW197 ground connection, resistance CW195 is connected with one end of inductance L W41 with the link of electric capacity CW197, the other end of inductance L W41 is through electric capacity CW198 ground connection, and inductance L W41 is connected with the antenna terminal of ground connection with the link of electric capacity CW198.

Described memory module is connected with described radio receiving transmitting module, for providing data storage function for described radio receiving transmitting module.

Particularly, as shown in Figure 4, memory module comprises storage chip UW19, resistance RW185, resistance RW121, resistance RW172, electric capacity CW199, electric capacity CW200.Wherein the type of storage chip UW19 is band EEPROM (Electrically Erasable Programmable Read Only Memo) EEPROM.The out-put supply VCC_3V3D of power management module is connected with the 3rd pin WPn, the 7th pin HOLDn of storage chip UW19, the 8th pin VCC on the one hand after the electric capacity CW199, electric capacity CW200 ground connection of parallel connection, be connected with the 1st pin CSn of storage chip UW19 through resistance RW172 on the other hand, be also connected with the 2nd pin SO of storage chip UW19 through resistance RW121 in addition; 1st pin of storage chip UW19 is also connected with the 5th pin P1.5 of Z_Wave chip UW18 with resistance RW184 through resistance RW185 successively; The 5th pin SI of storage chip UW19 is connected with the 9th pin MOSI of chip UW18 through resistance RW3, and the 6th pin SCK of storage chip UW19 is connected with the 8th pin SCK of Z_Wave chip UW18 through resistance RW2.

Further, described data interface module comprises UART interface and SPI interface, described radio receiving transmitting module is connected with the power switch of described household electrical appliances by UART interface or SPI interface, and described radio receiving transmitting module is connected with described memory module by SPI interface.

Power supply switch controller, because it can the signal of wireless receiving and dispatching Z_Wave frequency range, can be incorporated in the Z_Wave network based on Z_Wave technology, as the node device of Z_Wave network, communicate with other equipment in Z_Wave network.When power supply switch controller is connected with the power switch of household electrical appliances, the power supply of household electrical appliances can control energising or power-off by the opertaing device in Z_Wave network by power supply switch controller, the power switch of household electrical appliances is controlled convenient and swift.

Embodiment two:

The present embodiment two provides a kind of intelligent home control system, as shown in Figure 1, comprises the power supply switch controller based on Z_Wave described in embodiment one, also comprises telepilot, home gateway and at least one household electrical appliances in addition.In the present embodiment, household electrical appliances are TV.

Wherein, telepilot and home gateway are equipped with Z_Wave wireless communication unit, and described power supply switch controller, telepilot and home gateway form Z_Wave network service, and described household electrical appliances are communicated by infrared ray with between telepilot.

Described home gateway is used for for described telepilot, power supply switch controller provide the routing iinformation of Z_Wave network.

Described telepilot is used for controlling the power switch of described household electrical appliances and the control command input end of mode of operation for user provides.

The power switch control command that described power supply switch controller exports for receiving described telepilot, and control the power switch of described household electrical appliances.

Described TV for receive and perform described power supply switch controller export power switch control command, and receives and perform described telepilot output mode of operation control command.

In other embodiments, household electrical appliances also can be air-conditioning, can be also air-conditioning and TV simultaneously.If household electrical appliances comprise air-conditioning and two kinds, TV, or more and quantity, specifically can select one at telepilot end and control, avoid the control between various household electrical appliances to obscure.

Further, as shown in Figure 5, the Z_Wave wireless communication unit of described telepilot comprises Z_Wave radio-frequency module, input through keyboard module, infrared transmission module, the infrared learning module of integrated processor; Described Z_Wave radio-frequency module is the control module of described telepilot, also for receiving and dispatching the signal of Z_Wave frequency range; Described input through keyboard module is used for the control command that user inputs household electrical appliances, and sends to Z_Wave radio-frequency module; The control signal that described infrared transmission module exports for receiving described Z_Wave radio-frequency module, and infraredly send to described household electrical appliances; Described infrared learning module for identifying the type of described household electrical appliances, brand and model, and exports to described Z_Wave radio-frequency module.

Particularly, the step of the control method of the intelligent home control system of the present embodiment is:

S1: user is by the power supply opening order of telepilot input household electrical appliances;

S2: power supply opening order, according to the power supply opening control command received, is outputted to Z_Wave network by Z_Wave radio-frequency module by telepilot;

S3: home gateway is that the power supply opening control command that the Z_Wave radio-frequency module of telepilot exports distributes routing iinformation;

S4: power supply opening control command is sent to power supply switch controller according to the routing iinformation distributed by the Z_Wave radio-frequency module of telepilot;

S5: the household electrical appliances specified by power supply opening control command, according to the power supply opening control command received, switch on power by power supply switch controller;

S6: user by telepilot input household electrical appliances mode of operation control command, by infrared transmission module by household electrical appliances mode of operation control command by infrared emitting to household electrical appliances;

S7: household electrical appliances receive and perform household electrical appliances mode of operation control command.

Telepilot adopt in intelligent control system can Z_Wave network service telepilot indirectly by power supply switch controller control household electrical appliances energising or power-off, realize telepilot to gather multi-function in integral whole, not only can the mode of operation of infrared direct control household electrical appliances, also by the power switch of Z_Wave network control household electrical appliances, the power switch of household electrical appliances so can also be controlled relative to common telepilot, both saves energy was beneficial to environmental protection, effectively can also extend the serviceable life of household electrical appliances.

Embodiment three:

Differently from embodiment two be that the intelligent home control system that the present embodiment provides also comprises signal amplifier.This signal amplifier is at power supply switch controller, telepilot, often between two between equipment of home gateway, the child node signal that can effectively realize in Z-WAVE network amplifies, reduce the undesired signal of data in transmitting procedure, the Signal transmissions of convenient child node and child node or main control system and child node, makes intelligent home control system more accurate.

As shown in Fig. 6 ~ 14, signal amplifier comprises power module, z-wave signal processing module, signal amplification module, flash memory module, data input module.

Data input module connects z-wave signal processing module, described z-wave signal processing module is connected with data input module, signal amplification module respectively, z-wave signal processing module receives the signal of data input module, signal amplification module is outputted to after identifying processing, signal amplification module carries out amplifying and sends through antenna, described power module is connected with z-wave signal processing module, signal amplification module, data input module respectively, in order to power supply.

Wherein, also comprise flash memory module, flash memory module is connected with z-wave signal processing module, in order to buffer memory z-wave signal processing module data.

Wherein, described data input module comprises data-interface J1, described data-interface J1 is provided with 12 pin, be provided with the 3rd pin of electric capacity C1 Parallel Data interface J1, the 9th pin, one termination of electric capacity C1 connection data interface J1 the 3rd pin digitally, be provided with the 3rd pin, the 9th pin of electric capacity C2 two ends difference series inductance L2, the rear Parallel Data interface J1 of inductance L 1, one end that electric capacity C2 connects inductance L 1 connects power supply, in analog, other pin of described data-interface J1 connect z-wave signal processing module to another termination respectively.

Wherein, described data input module also comprises usb interface, and described usb interface is provided with 6 pin, and the 1st pin, the 2nd pin, the 3rd pin connect z-wave signal processing module, and the 4th pin, the 5th pin, the 6th pin connect in analog.

Wherein, described power module comprises voltage-regulating circuit, described voltage-regulating circuit changes 5V supply voltage into DVDD3.3V supply voltage, and described voltage-regulating circuit exports DVDD3.3V voltage respectively to z-wave signal processing module, signal amplification module, flash memory module.

Wherein, described power module also comprises electric source filter circuit, and described electric source filter circuit changes DVDD3.3V voltage into AVDD3.3V voltage, and described electric source filter circuit exports AVDD3.3V voltage to z-wave signal processing module.

Wherein, described Smart Home signal amplifier also comprises interrupt circuit, described interrupt circuit comprises interrupt switch SW1, resistance R1, resistance R4, electric capacity C3, interrupt switch is provided with 4 pin, DVDD3.3V voltage is connected after 1st pin resistance in series R1, connect z-wave signal processing module after 1st pin resistance in series R4, the 2nd pin connects in analog, the 1st pin, the 2nd pin of described electric capacity C3 interrupt switch in parallel.

Described Z-WAVE signal processing module uses ZM4101 chip, and described signal amplification module uses SE2435L microarray biochip.

Comprise data input module, ZM4101 chip, flash memory module, interrupt circuit, power module.Described power module comprises power module voltage-regulating circuit, power transfer module, and data input module comprises data-interface J1, usb interface J2,

Voltage-regulating circuit comprises voltage regulator module U3, electric capacity C11, electric capacity C12, electric capacity C13, electric capacity C14, electric capacity C15, electric capacity C16, electric capacity C17, resistance R8, resistance R9.Voltage regulator module is provided with pin VIN, the 2nd pin GND, the 3rd pin #SHDN, the 4th pin BP, the 5th pin VOUT, 1st pin through resistance in series R9 connect the 3rd pin #SHDN, the 1st pin VIN through and be connected with the power supply of 5V after connection electric capacity C11 in analog, electric capacity C12 voltage regulation filtering.2nd pin GND connects in analog, connects in analog after the 3rd pin #SHDN series capacitance C16.4th pin BP connects the 5th pin VOUT through resistance R8, the electric capacity C13 of parallel connection, and the 4th pipe foot meridian capacitor C17 connects in analog.5th pin VOUT series capacitance C14, electric capacity C15 connect in analog, meanwhile, and the 5th pin VOUT out-put supply DVDD.

Power transfer module comprises electric capacity C5, electric capacity C6, electric capacity C7, electric capacity C8, electric capacity C9, electric capacity C10, inductance L 3.The power supply DVDD of input end is connected the two ends of inductance L 3 with the power supply AVDD of output terminal, and power supply DVDD is also connected with the electric capacity C5, the electric capacity C6 that also connect in analog, electric capacity C7, and power supply AVDD is connected with the electric capacity C8, the electric capacity C9 that also connect in analog, electric capacity C10.

ZM4101 chip is provided with 56 pins, and wherein the 1st pin GND, the 4th pin GND, the 7th pin GND, the 10th pin GND, the 13rd pin GND, the 14th pin GND, the 21st pin GND, the 22nd pin GND, the 24th pin GND, the 25th pin GND, the 30th pin GND, the 35th pin GND, the 40th pin GND, the 45th pin GND, the 50th pin GND, the 55th pin GND connect in analog.

ZM4101 chip arranges the 26th pin P0.0/KEYPAD, 27th pin P0.1/KEYPAD, 28th pin P0.2/KEYPAD, 29th pin P0.3/KEYPAD, 31st pin P0.4/KEYPAD, 32nd pin P0.5/KEYPAD, 33rd pin P0.6/KEYPAD, 34th pin P0.7/KEYPAD, 36th pin P1.0/INT0/KEYPAD, 37th pin P1.1/INT1/KEYPAD, 38th pin P1.2/KEYPAD, 39th pin P1.3/KEYPAD, 41st pin P1.4/KEYPAD, 42nd pin P1.5/KEYPAD, 43rd pin P1.6/KEYPAD, 44th pin P1.7/KEYPAD.

ZM4101 chip be provided with connect power supply DVDD the 5th pin AVDD, connect power supply AVDD the 6th pin DVDD, the 8th pin RESET, the 9th pin TEST_N, the 11st pin QCS_Q1, the 12nd pin QSC_Q2, the 23rd pin RIFO, the 56th pin VPP.

ZM4101 chip is also provided with the 2nd pin USB_DM, 3rd pin USB_DP, 15th pin P3.7/PWM/ADC3/ZEREX/KEYAD, 16th pin P3.6/IRTX2/ADC2/TRIAC/KEYAD, 17th pin P3.5/IRTX1/ADC1/KEYAD, 18th pin P3.4/IRTX0/ADC0/KEYAD, 19th pin P3.1/IRRX/TXD1/KEYAD, 20th pin P3.0/SS0_N/RXD1/KEYAD, 46th pin P2.7/SCK0, 47th pin P2.6/MISO0, 48th pin P2.5/MOSI0, 49th pin P2.4/SCK1, 51st pin P2.3/MISO1, 52nd pin P2.2/MOSI1, 53rd pin P2.1/TXD0, 54th pin P2.0/RXD0.

Interface circuit comprises interface J1, electric capacity C1, electric capacity C2, inductance L 1, inductance L 2, interface J1 establishes 12 pins, 1st pin connects ZM4101 chip the 15th pin P3.7/PWM/ADC3/ZEREX/KEYAD, 6th pin connects the 16th pin P3.6/IRTX2/ADC2/TRIAC/KEYAD of ZM4101 chip, 8th pin connects the 17th pin P3.5/IRTX1/ADC1/KEYAD of ZM4101 chip, 10th pin connects the 18th pin P3.4/IRTX0/ADC0/KEYAD of ZM4101 chip, 11st pin connects the 20th pin P3.0/SS0_N/RXD1/KEYAD of ZM4101 chip.2nd pin connects the 53rd pin P2.1/TXD0 of ZM4101 chip, and the 4th pin connects the 54th pin P2.0/RXD0 of ZM4101 chip.3rd pin connects digitally, and the 3rd pin also connects one end of electric capacity C1, inductance L 2.9th pin of the other end connecting interface J1 of electric capacity C1, electric capacity C1 connects one end of inductance L 1, and the other end of inductance L 1 connects 5V power supply on the one hand, and series inductance C2 connects in analog on the other hand, and the other end of inductance L 2 connects in analog on the one hand.5th pin connects ZM4101 chip the 3rd pin USB_DP, and the 7th pin connects ZM4101 chip the 2nd pin USB_DM.12nd pin connects the 8th pin RESET of ZM4101 chip.

Interface J2 is provided with the 1st pin VCC, the 2nd pin DATA-, the 3rd pin DATA+, the 4th pin GND, the 5th pin GND, the 6th pin GND, 1st pin VCC connects 5V power supply, 2nd pin DATA-connects ZM4101 chip the 2nd pin USB_DM, 3rd pin DATA+ connects ZM4101 chip the 3rd pin USB_DP, and the 4th pin GND, the 5th pin GND, the 6th pin GND connect digitally.

Anneta module comprises antenna ANT1, antenna ANT2, chip U6.

SE2435L chip is provided with the 1st pin CSD, 2nd pin PA_IN, 3rd pin CPS, 4th pin CTX, 5th pin X_FLT, 6th pin TR, 7th pin ANT_SEL, 8th pin GND, 9th pin LAN_IN, 10th pin NC1, 11st pin RX_FLT, 12nd pin ANT2, 13rd pin NC2, 14th pin TANT1, 15th pin NC3, 16th pin TX_IN, 17th pin NC4, 18th pin NC5, 19th pin NC6, 20th pin PA_OUT, 21st pin VCC2, 22nd pin NC7, 23rd pin VCC0, 24th pin VCC1, 25th pin EPAD.

1st pin CSD connects the 39th pin P1.3/KEYPAD of ZM4101 chip, and the 3rd pin CPS connects the 41st pin P1.4/KEYPAD of ZM4101 chip, and the 4th pin CTX connects the 42nd pin P1.5/KEYPAD of ZM4101 chip.2nd pin PA_IN resistance in series R21 connects in analog, and the 5th pin X_FLT resistance in series R18 connects in analog, and the 2nd pin PA_IN resistance in series R15 is connected with the 5th pin X_FLT.6th pin TR connects the 23rd pin RIFO of ZM4101 chip.7th pin ANT_SEL connects in analog through resistance in series R23, and the 7th pin ANT_SEL also connects the 43rd pin P1.6/KEYPAD of ZM4101 chip through resistance in series R29.8th pin GND, the 25th pin EPAD connect in analog.9th pin LAN_IN connects the 11st pin RX_FLT through resistance in series R25.12nd pin ANT2 connects antenna ANT2, and the 14th pin TANT1 connects antenna ANT1, and the 16th pin TX_IN connects in analog through series capacitance C19, and the 20th pin PA_OUT connects in analog through series capacitance C18.21st pin VCC2, the 22nd pin NC7, the 23rd pin VCC0, the 24th pin VCC1 connect power supply DVDD.

Chip U6 is provided with the 1st pin IN connecting SE2435L chip the 9th pin LAN_IN, the 3rd pin OUT connecting SE2435L chip the 11st pin RX_FLT, the 2nd pin GND on connecting analog ground, the 4th pin GND on connecting analog ground.

Antenna ANT1 is provided with antenna L5, connector CON2, resistance R13, resistance R14, resistance R16, resistance R17, resistance R19, resistance R20, resistance R22, resistance R27, resistance R28, chip U5.Connector CON2 is provided with the 1st pin of contact resistance R14 one end, and be provided with the 4th pin, the 5th pin that connect inductance L 5 two ends respectively, the 2nd pin connects in analog, connects in analog after the 3rd pin resistance in series R22.The 14th pin TANT1 of SE2435L chip is connected after the other end resistance in series R13 of resistance R14.One end be connected with connector CON2 of resistance R14 also connects the resistance R20 connect in analog, and the other end of resistance R14 meets resistance R19 in analog.The other end series connection resistance R16 in analog of one end series connection that resistance R13 is connected with resistance R14 resistance R17 in analog, resistance R13.

Chip U5 is provided with the 1st pin IN, the 2nd pin GND, the 3rd pin OUT, the 4th pin GND, one end that after the 1st pin resistance in series R27, contact resistance R13 is connected with the 14th pin TANT1 of SE2435L chip.The other end of the 3rd pin OUT contact resistance R13.2nd pin GND, the 4th pin GND connecting analog ground.

Flash memory module comprises flash chip U1, resistance R2, resistance R3, resistance R5, resistance R6, resistance R7, electric capacity C4.Flash chip U1 is provided with the 1st pin CS, the 2nd pin SO, the 3rd pin WP, the 4th pin GND, the 5th pin SI, the 6th pin SCK, the 7th pin HOLD, the 8th pin VCC.Connect power supply DVDD after 1st pin CS resistance in series R2, one end of the 1st pin CS also contact resistance R5, the other end of resistance R5 connects the 48th pin P2.5/MOSI0 of ZM4101 chip.The 51st pin P2.3/MISO1 of ZM4101 chip is connected after 2nd pin resistance in series R3.3rd pin WP connects the 7th pin HOLD, and the 3rd pin is series capacitance C4 connecting analog ground more also.4th pin GND connecting analog ground.The 52nd pin P2.2/MOSI 1 of ZM4101 chip is connected after 5th pin SI resistance in series R6.The 49th pin P2.4/SCK1 of ZM4101 chip is connected after 6th pin SCK resistance in series R7.8th pin VCC connects power supply DVDD.

Interrupt circuit comprises interrupt switch SW1, resistance R1, resistance R4, electric capacity C3, interrupt switch is provided with and connects the 1st pin, the 2nd pin, power supply DVDD is connected after 1st pin resistance in series R1, first pin also connects the 37th pin P1.1/INT1/KEYPAD of ZM4101 chip after resistance in series R4,2nd pin connects in analog, and interrupt switch SW1 is also parallel with electric capacity C3.

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

Claims (5)

1. based on a power supply switch controller of Z_Wave, for the power switch of the household electrical appliances of centralized control intelligent domestic system, it is characterized in that: comprise radio receiving transmitting module, memory module, power management module and data interface module;

Described data interface module is used for the power switch of described radio receiving transmitting module with described household electrical appliances to be connected, and controls the power switch of household electrical appliances;

Described radio receiving transmitting module is used for described power supply switch controller to be incorporated to Z_Wave network, and by described Z_Wave network transceiving data;

Described memory module is connected with described radio receiving transmitting module, for providing data storage function for described radio receiving transmitting module;

Described power management module is used for providing working power for described radio receiving transmitting module and memory module.

2. the power supply switch controller based on Z_Wave according to claim 1, it is characterized in that: described data interface module comprises UART interface and SPI interface, described radio receiving transmitting module is connected with the power switch of described household electrical appliances by UART interface or SPI interface, and described radio receiving transmitting module is connected with described memory module by SPI interface.

3. an intelligent home control system, is characterized in that: comprise as claimed in claim 1 or 2 based on the power supply switch controller of Z_Wave, also comprise telepilot, home gateway and at least one household electrical appliances; Described telepilot and home gateway are equipped with Z_Wave wireless communication unit, and described power supply switch controller, telepilot and home gateway form Z_Wave network service, and described household electrical appliances are communicated by infrared ray with between telepilot;

Described home gateway is used for for described telepilot, power supply switch controller provide the routing iinformation of Z_Wave network;

Described telepilot is used for controlling the power switch of described household electrical appliances and the control command input end of mode of operation for user provides;

The power switch control command that described power supply switch controller exports for receiving described telepilot, and control the power switch of described household electrical appliances;

Described household electrical appliances for receive and perform described power supply switch controller export power switch control command, and receives and perform described telepilot output mode of operation control command.

4. intelligent home control system according to claim 3, is characterized in that: described household electrical appliances are that TV is or/and air-conditioning.

5. the intelligent home control system according to claim 3 or 4, is characterized in that: the Z_Wave wireless communication unit of described telepilot comprises the Z_Wave radio-frequency module of integrated processor, input through keyboard module, infrared transmission module, infrared learning module; Described Z_Wave radio-frequency module is the control module of described telepilot, also for receiving and dispatching the signal of Z_Wave frequency range; Described input through keyboard module is used for the control command that user inputs household electrical appliances, and sends to Z_Wave radio-frequency module; The control signal that described infrared transmission module exports for receiving described Z_Wave radio-frequency module, and infraredly send to described household electrical appliances; Described infrared learning module for identifying the type of described household electrical appliances, brand and model, and exports to described Z_Wave radio-frequency module.