CN204462250U - For the electric energy collection module of Smart Home - Google Patents

Abstract

The utility model relates to the electric energy collection module for Smart Home, comprise power supply circuit, voltage and current detection circuit, ic for energy metering and data processing circuit, power supply circuit is ic for energy metering, the chip power supply of data processing circuit, voltage and current detection circuit is by tested voltage, electric current converts the input of signal as computation chip in ic for energy metering of chip input range to, ic for energy metering receiver voltage, current digital signal, rated output, voltage, electric current, data are exported by serial ports, data processing circuit receives the electric power signal that ic for energy metering exports, do subsequent treatment work and export electric power signal to communication module by serial ports.

Description

For the electric energy collection module of Smart Home

Technical field

The utility model relates to electric energy collection module, specifically a kind of in Smart Home with independently-powered and the energy information gathered can be transferred to the electric energy collection module of telecommunication circuit by the mode of serial communication.

Background technology

Along with the enhancing of the raising of expanding economy, technology, environmental protection and awareness of safety, people require more and more higher to the energy saving of household appliances electricity consumption, convenience and security etc., it is desirable to carry out monitoring and controlling to household appliances electricity consumption situation whenever and wherever possible.The Smart Home that therefore can realize remote monitoring function receives to be paid close attention to and deep research widely, and greatly promotes.The real-time energy information and the running status that obtain each electrical equipment is required in intelligent domestic system, the energy information of each electrical equipment can be measured by electric energy collection module, and energy information is transferred to communication module node, by communication module node, data are transferred to host computer and carry out showing and the process such as storage.

Through finding the open source literature retrieval of prior art, Chinese Patent Application No.: 201010165239.6, publication date: 2011.11.09, title: the multifunction electric meter of smart grid-oriented, this technology discloses a kind of multifunction electric meter of smart grid-oriented, by metering module, power module, communication module, display module etc., there is the functions such as electric quantity metering, data processing, Real-Time Monitoring.But this utility model designs as meter circuit, volume is comparatively large, and does not have to design the communication function with communication node, the uncomfortable electric energy collection module being used as Smart Home.

Utility model content

The purpose of this utility model is the vacancy of supplementary prior art, provide a kind of in Smart Home with independently-powered and electric energy collection module that is data-transformation facility.The utility model can not only in module from showing the energy information that gather with it, and energy information can be transferred to the communication module node in Smart Home by the mode of serial communication, realizes the function from each electrical equipment to host computer electric energy transmitting information.And, electric energy collection module described in the utility model and driving circuit thereof are by 220V ~ 5V/3.3V power supply energize portions of system, obtaining 5V/3.3V direct current with giving the 220V AC rectification of electric power supply is that chip and circuit component are powered, extra power supply need not be provided, simplify circuit and save space, ensureing that volume aspect meets the requirement of convenience to greatest extent.The utility model makes electric energy collection module keep reliablely and stablely working when small volume, can meet the technical requirement that intelligent domestic system realizes obtaining each electrical equipment energy information.

The utility model is achieved through the following technical solutions:

For the electric energy collection module of Smart Home, comprise power supply circuit, voltage and current detection circuit, ic for energy metering and data processing circuit, power supply circuit is ic for energy metering, the chip power supply of data processing circuit, voltage and current detection circuit is by tested voltage, electric current converts the input of signal as computation chip in ic for energy metering of chip input range to, ic for energy metering receiver voltage, current digital signal, rated output, voltage, electric current, data are exported by serial ports, data processing circuit receives the electric power signal that ic for energy metering exports, do subsequent treatment work and export electric power signal to communication module by serial ports.

Wherein, power supply circuit is two-stage circuit, comprises first order circuit and second level circuit, and first order circuit input voltage is 220V alternating current, and by electric power supply power supply, output voltage is 5V; Second level circuit input voltage is the 5V DC voltage that the first order exports, and output voltage is 3.3V DC voltage.

Power supply circuit comprises the full bridge rectifier, three-terminal voltage-stabilizing IC, the voltage stabilizing chip that are made up of four diodes, full bridge rectifier positive pole exports the Vin pin meeting three-terminal voltage-stabilizing IC, 220V power supply obtains the DC voltage of the fluctuation of 12V through the full bridge rectifier that four diodes form, the DC voltage input three-terminal voltage-stabilizing IC of the fluctuation of 12V, stable DC5V voltage is obtained by three-terminal voltage-stabilizing IC, DC5V voltage, as the input of voltage stabilizing chip, obtains stable DC3.3V voltage.

Wherein, voltage and current detection circuit comprises voltage transformer (VT), the first resistance, the first filter capacitor, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, current transformer, the 6th resistance, the 7th resistance, the 8th resistance, the 9th resistance, the tenth resistance, the second filter capacitor.

The input end of voltage transformer (VT) connects metering inlet wire, the first resistance of connecting between the positive terminal of voltage transformer (VT) and the positive pole of metering inlet wire, inline fuse between the input positive pole of voltage transformer (VT), current transformer and the positive pole of metering inlet wire.

The output cathode end of voltage transformer (VT) connects the 3rd resistance one end, the 3rd resistance other end and the 4th resistant series, the 4th resistance other end connects the output negative pole of voltage transformer (VT), second resistance one end connects the common port of the output cathode of the 3rd resistance and voltage transformer (VT), the second resistance other end connects the first filter capacitor, 5th resistance one end connects the common port of the output negative pole of the 4th resistance and voltage transformer (VT), and the other end of the 5th resistance connects the first filter capacitor.

The input positive pole of current transformer connects metering inlet wire, the input cathode of current transformer connects metering outlet, the output cathode of current transformer connects the 8th resistance one end, the 8th resistance other end and the 9th resistant series, the 9th resistance other end connects the output negative pole of current transformer, 6th resistance one end connects the common port of the output cathode of the 8th resistance summation current transformer, the 6th resistance other end connects the second filter capacitor, tenth resistance one end connects the common port of the output negative pole of the 9th resistance summation current transformer, the other end of the tenth resistance connects the second filter capacitor, the two ends of the 7th resistance connect the both positive and negative polarity of current transformer output respectively.

Wherein, ic for energy metering comprises chip CS5463, chip CS5463 is powered by DC5V, pin AGND, DGND of chip CS5463 are altogether, clock crystal oscillator 4.096MHz, CS5463 chip voltage passage pin VIN ± two ends input voltage signal, current channel pin IIN ± two ends input current signal, by carrying out data transmission by 3-line serial interface (SPI) to data processing circuit after chip CS5463 has measured load power information.

Wherein, data processing circuit comprises chip ATMEGA16L, VCC, AVCC pin of chip ATMEGA16L connects DC5V power supply respectively, GND, AREF pin ground connection, SS, MOSI, MISO, SCK pin connects CS, SDI, SDO, SCLK pin of chip CS5463 respectively, chip ATMEGA16L drives 4401BS common anode digitron display screen display energy information, and by serial ports to communication module electric energy transmitting data.

The no-load voltage ratio of described current transformer is 2000:1.

Described first resistance is 110K.

Described second resistance, the 5th resistance are 470 Ω.

Described three-terminal voltage-stabilizing IC model is LM7805.

Described voltage stabilizing chip model is AMS1117.

The utility model beneficial effect is: alternating current 220V electric energy is converted to 5V/3.3V and powers to chip and components of drive circuit, reduce the volume of whole module to greatest extent, meet the requirement of intelligent domestic system convenience, aesthetic property, simplify circuit and save space; By voltage and current detection circuit and ic for energy metering, the real-time energy information of electrical equipment can be obtained, ensure high precision; By data processing circuit, the real-time energy information of electrical equipment can be shown on electrical equipment node, again by serial ports information data transmission to communication module, communication module is transferred to host computer data again, makes host computer collect all electrical equipment energy information data.

Accompanying drawing explanation

Fig. 1 is schematic diagram of the present utility model.

Fig. 2 is the schematic diagram of power supply circuit described in the utility model.

Fig. 3 is the schematic diagram of voltage and current detection circuit described in the utility model.

Fig. 4 is the circuit diagram of computation chip CS5463 described in the utility model.

Fig. 5 is the circuit diagram of chip ATMEGA16L described in the utility model.

Embodiment

Below in conjunction with accompanying drawing, system of the present utility model is elaborated: the present embodiment is implemented under premised on technical solutions of the utility model; give detailed embodiment and concrete operating process, but protection domain of the present utility model is not limited to following embodiment.

Embodiment 1:

As shown in Figure 1, for the electric energy collection module of Smart Home described in the present embodiment, comprise power supply circuit, voltage and current detection circuit, ic for energy metering and data processing circuit.Power supply circuit is ic for energy metering, data processing circuit and driving circuit components and parts provide power supply, voltage and current detection circuit converts tested voltage, electric current to by voltage transformer (VT), current transformer the input of signal as computation chip in ic for energy metering of chip input range, computation chip CS5463 receiver voltage, current digital signal, rated output, voltage, electric current, export data by serial ports.The data processing chip ATMEGA16L of data processing circuit receives the electric power signal of electric energy measure chip output, does subsequent treatment work, comprises and drives digitron display screen display energy information, export electric power signal to communication module by serial ports.

As shown in Figure 2, power supply circuit is divided into two-stage circuit, comprises first order circuit and second level circuit, and first order circuit input voltage is 220V alternating current, and by electric power supply power supply, output voltage is 5V; Second level circuit input voltage is the 5V DC voltage that the first order exports, and output voltage is 3.3V DC voltage, and power supply circuit is the computation chip of ic for energy metering, the data processing chip of data processing circuit is powered.Power supply circuit comprises the full bridge rectifier, three-terminal voltage-stabilizing IC, the voltage stabilizing chip that are made up of four diodes, full bridge rectifier positive pole exports the Vin pin meeting three-terminal voltage-stabilizing IC, and mains supply AC220V obtains the DC voltage of the fluctuation of 12V through the full bridge rectifier that four diodes form.DC voltage, in the scope of the input voltage 7V ~ 18V of three-terminal voltage-stabilizing ICLM7805, can obtain stable DC5V voltage by three-terminal voltage-stabilizing ICLM7805, and DC5V voltage, as the input of chip AMS1117 voltage stabilizing chip, can obtain stable DC3.3V voltage.

As shown in Figure 3, voltage and current detection circuit comprises voltage transformer (VT) T1, the first resistance R1, the first filter capacitor C1, the second resistance R2, the 3rd resistance R3, the 4th resistance R4, the 5th resistance R5, current transformer T2, the 6th resistance R6, the 7th resistance R7, the 8th resistance R8, the 9th resistance R9, the tenth resistance R10, the second filter capacitor C2.

The input end of voltage transformer (VT) T1 connects metering inlet wire, inline fuse F1 between the input positive pole of connect between the positive terminal of voltage transformer (VT) T1 and the positive pole of metering inlet wire the first resistance R1, voltage transformer (VT) T1, current transformer T2 and the positive pole of metering inlet wire.

The output cathode end of voltage transformer (VT) T1 connects the 3rd resistance R3 one end, the 3rd resistance R3 other end is connected with the 4th resistance R4, the 4th resistance R4 other end connects the output negative pole of voltage transformer (VT) T1, second resistance R2 one end connects the common port of the output cathode of the 3rd resistance R3 and voltage transformer (VT) T1, the second resistance R2 other end connects the first filter capacitor C1,5th resistance R5 one end connects the common port of the output negative pole of the 4th resistance R4 and voltage transformer (VT) T1, and the other end of the 5th resistance R5 connects the first filter capacitor C1.

The input positive pole of current transformer T2 connects metering inlet wire, the input cathode of current transformer T2 connects metering outlet, the output cathode of current transformer T2 connects the 8th resistance R8 one end, the 8th resistance R8 other end is connected with the 9th resistance R9, the 9th resistance R9 other end connects the output negative pole of current transformer T2, 6th resistance R6 one end connects the common port of the output cathode of the 8th resistance R8 summation current transformer T2, the 6th resistance R6 other end connects the second filter capacitor C2, tenth resistance R10 one end connects the common port of the output negative pole of the 9th resistance R9 summation current transformer T2, the other end of the tenth resistance R10 connects the second filter capacitor C2, the two ends of the 7th resistance R7 connect the both positive and negative polarity of current transformer T2 output respectively.

In1 and in2 is metering inlet wire, connects the Live line Zero line of AC220V; Out1 and out2 is metering outlet, and connection load is load supplying.Fuse F1 provide overcurrent protection.First resistance R1 is current-limiting resistance, resistance 110K, by the first resistance R1, AC220V voltage transitions is become the electric current of about AC2mA.Voltage transformer (VT) T1 is the current mode voltage transformer (VT) of 1:1, exports as 2mA electric current.The Differential Input of corresponding sampled voltage as computation chip CS5463 voltage channel is obtained by sampling the 3rd, the 4th resistance R3, R4.The second, the 5th resistance R2, R5 resistance is 470 Ω, plays Limited Current, and protection input pin, the second, the 5th resistance R2, R5 and the first filter capacitor C1 forms low pass loop, the high-frequency harmonic of filtered input signal.

Current transformer T2 no-load voltage ratio is 2000:1, and load current is become small area analysis, obtains the Differential Input of corresponding sampled voltage as computation chip CS5463 current channel by the 8th resistance R8, the 9th resistance R9.

Six, the 7th resistance R6, R7 Limited Current, protection input pin, the 6th, the 7th resistance R6, R7 and the second filter capacitor C2 forms low pass loop, the high-frequency harmonic of filtered input signal.

As shown in Figure 4, ic for energy metering comprises chip CS5463, chip CS5463 is powered by DC5V, pin AGND, DGND of chip CS5463 are altogether, clock crystal oscillator 4.096MHz, CS5463 chip voltage passage pin VIN ± two ends input voltage signal, can obtain each electric parameter data in internal calculation.Current channel pin IIN ± two ends input current signal, pin VA+, VD+ meet DC5V, by carrying out data transmission by 3-line serial interface (SPI) to data processing circuit after chip CS5463 has measured load power information.

As shown in Figure 5, data processing circuit comprises chip ATMEGA16L, VCC, AVCC pin of chip ATMEGA16L connects DC5V power supply respectively, GND, AREF pin ground connection, SS, MOSI, MISO, SCK pin connects CS, SDI, SDO, SCLK pin of chip CS5463 respectively, chip ATMEGA16L drives 4401BS common anode digitron display screen display energy information, and by serial ports to communication module electric energy transmitting data.After chip CS5463 has measured load power information, by SPI Serial Port Transmission to single chip computer AT MEGA16L, completed by ATMEGA16L and drive digitron display screen, to communication module transmitting data information.ATMEGA16L has USART and SPI two kinds of serial line interfaces, has 32 universaling I/O ports simultaneously, is applicable to the exploitation of this circuit.Pin VCC, AVCC of ATMEGA16L connect DC5V power supply respectively, pin GND, AREF ground connection, pin SS, MOSI, MISO, SCK meet pin CS, SDI, SDO, SCLK of chip CS5463 respectively, and chip ATMEGA16L receives the power information collected of CS5463 transmission.Pin PA0 ~ the PA7 of chip ATMEGA16L and PB0 ~ PB3 drives 4401BS common anode digitron display screen display energy information as output pin.

The present embodiment reduces the volume of whole module to greatest extent, meet the requirement of intelligent domestic system for convenience, aesthetic property, high-precision energy information is obtained by chip CS5463, after receiving energy information by chip ATMEGA16L, drive digitron display screen display energy information, simultaneously by Serial Port Transmission to communication module, then be transferred to host computer.By such mode, the electric energy collection module that in intelligent home system based, each electrical equipment connects can show the real-time energy information of electrical equipment, and the real-time energy information that simultaneously upper function obtains all electrical equipment is optimized and processes.

Claims (9)

1. for the electric energy collection module of Smart Home, comprise power supply circuit, voltage and current detection circuit, ic for energy metering and data processing circuit, power supply circuit is ic for energy metering, the chip power supply of data processing circuit, voltage and current detection circuit is by tested voltage, electric current converts the input of signal as computation chip in ic for energy metering of chip input range to, ic for energy metering receiver voltage, current digital signal, rated output, voltage, electric current, data are exported by serial ports, data processing circuit receives the electric power signal that ic for energy metering exports, do subsequent treatment work and export electric power signal to communication module by serial ports, it is characterized in that: power supply circuit is two-stage circuit, comprise first order circuit and second level circuit, first order circuit input voltage is 220V alternating current, by electric power supply power supply, output voltage is 5V, second level circuit input voltage is the 5V DC voltage that the first order exports, and output voltage is 3.3V DC voltage, power supply circuit comprises the full bridge rectifier, three-terminal voltage-stabilizing IC, the voltage stabilizing chip that are made up of four diodes, full bridge rectifier positive pole exports the Vin pin meeting three-terminal voltage-stabilizing IC, 220V power supply obtains the DC voltage of the fluctuation of 12V through the full bridge rectifier that four diodes form, the DC voltage input three-terminal voltage-stabilizing IC of the fluctuation of 12V, stable DC5V voltage is obtained by three-terminal voltage-stabilizing IC, DC5V voltage, as the input of voltage stabilizing chip, obtains stable DC3.3V voltage.

2. the electric energy collection module for Smart Home according to claim 1, it is characterized in that: voltage and current detection circuit comprises voltage transformer (VT), the first resistance, the first filter capacitor, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, current transformer, the 6th resistance, the 7th resistance, the 8th resistance, the 9th resistance, the tenth resistance, the second filter capacitor;

The input end of voltage transformer (VT) connects metering inlet wire, the first resistance of connecting between the positive terminal of voltage transformer (VT) and the positive pole of metering inlet wire, inline fuse between the input positive pole of voltage transformer (VT), current transformer and the positive pole of metering inlet wire;

The output cathode end of voltage transformer (VT) connects the 3rd resistance one end, the 3rd resistance other end and the 4th resistant series, the 4th resistance other end connects the output negative pole of voltage transformer (VT), second resistance one end connects the common port of the output cathode of the 3rd resistance and voltage transformer (VT), the second resistance other end connects the first filter capacitor, 5th resistance one end connects the common port of the output negative pole of the 4th resistance and voltage transformer (VT), and the other end of the 5th resistance connects the first filter capacitor;

The input positive pole of current transformer connects metering inlet wire, the input cathode of current transformer connects metering outlet, the output cathode of current transformer connects the 8th resistance one end, the 8th resistance other end and the 9th resistant series, the 9th resistance other end connects the output negative pole of current transformer, 6th resistance one end connects the common port of the output cathode of the 8th resistance summation current transformer, the 6th resistance other end connects the second filter capacitor, tenth resistance one end connects the common port of the output negative pole of the 9th resistance summation current transformer, the other end of the tenth resistance connects the second filter capacitor, the two ends of the 7th resistance connect the both positive and negative polarity of current transformer output respectively.

3. the electric energy collection module for Smart Home according to claim 1 and 2, it is characterized in that: ic for energy metering comprises chip CS5463, chip CS5463 is powered by DC5V, pin AGND, DGND of chip CS5463 are altogether, clock crystal oscillator 4.096MHz, CS5463 chip voltage passage pin VIN ± two ends input voltage signal, current channel pin IIN ± two ends input current signal, by carrying out data transmission by 3-line serial interface (SPI) to data processing circuit after chip CS5463 has measured load power information.

4. the electric energy collection module for Smart Home according to claim 1 and 2, it is characterized in that: data processing circuit comprises chip ATMEGA16L, VCC, AVCC pin of chip ATMEGA16L connects DC5V power supply respectively, GND, AREF pin ground connection, SS, MOSI, MISO, SCK pin connects CS, SDI, SDO, SCLK pin of chip CS5463 respectively, chip ATMEGA16L drives 4401BS common anode digitron display screen display energy information, and by serial ports to communication module electric energy transmitting data.

5. the electric energy collection module for Smart Home according to claim 1 and 2, is characterized in that: described three-terminal voltage-stabilizing IC model is LM7805.

6. the electric energy collection module for Smart Home according to claim 1 and 2, is characterized in that: described voltage stabilizing chip model is AMS1117.

7. the electric energy collection module for Smart Home according to claim 2, is characterized in that: the no-load voltage ratio of described current transformer is 2000:1.

8. the electric energy collection module for Smart Home according to claim 2, is characterized in that: described first resistance is 110K.

9. the electric energy collection module for Smart Home according to claim 2, is characterized in that: described second resistance, the 5th resistance are 470 Ω.