CN110022006A - A kind of radio energy signal synchronous transfer and remained capacity time division multiplex system and its control method - Google Patents

Abstract

The present invention proposes a kind of radio energy signal synchronous transfer and remained capacity time division multiplex system and its control method, which includes that high-frequency inverter circuit, electric energy transmitting circuit, electric energy receive circuit, signal transmission circuit and signal receiving circuit；Wherein DC voltage is converted into high-frequency ac square wave, electric energy transmitting circuit and signal transmission circuit and is connected to high-frequency inverter circuit output end in form in parallel by high-frequency inverter circuit, selects fundamental wave and nth harmonic respectively from voltage square wave；Electric energy receives circuit and signal receiving circuit and connects via multiplex switch control.Forward and reverse transmission to realize signal is switched on-off by changing signal modulation, and signal demodulation is realized in respective side, the connection type by changing electric energy reception circuit and signal receiving circuit can be realized the multiplexing of two kinds of functions of electric power signal synchronous transfer and remained capacity.The system signal transmission rate is high, and power transmission is stable and remained capacity accuracy is higher.

Description

A kind of radio energy signal synchronous transfer and remained capacity time division multiplex system and its control Method processed

Technical field

The present invention relates to remained capacity and radio energy signal synchronous transfer field, especially a kind of radio energy signal is same Step transmission and remained capacity time division multiplex system and its control method.

Background technique

It is known as in a non-contact manner from the technology that power end is transferred to load end using the media implementation energy in space Wireless power transmission (Wireless Power Transfer, WPT) technology.Compared to traditional wired power supply mode, radio Energy transmission technology can effectively avoid electric spark bring in the abrasion of multiple plug bring and swapping process because of plug Danger becomes apparent in the advantages of extraordinary occasion such as coal mine, underwater, wireless power transmission technology.

With the continuous extension of WPT technical applications, there can be the WPT system of universal adaptability by scholars load Extensive concern.The difference of payload size and property makes system balance network have various forms, to open up to difference The power control strategy flutterred also has diversity.The electric parameter of system load or operating status occur micro- in many cases, Small change can all lead to the reduced performance of system, and system crash can be even made when serious, it is therefore desirable to carry out to load online Identification, and load information can be supplied in real time to system primary side, reasonable control plan is provided further according to load situation of change Slightly change the adverse effect caused by system to inhibit to load.Therefore above-mentioned function, remained capacity technology and radio to be realized Both energy signal synchronous transfer (Wireless Power and Signal Transmission, WPST) technologies are wanted and and are had It.

Remained capacity technology mainly has at present:

1, reflected umpedance is calculated based on energy injection type and the free concussion mode of energy.This method is by controlling inversion The working condition of device switching tube changes switch state after the certain switch periods of energy injection, so that energy transmitting coil and benefit It repays capacitor and forms a circuit, circuit is worked in a manner of freely shaking, and regularity decaying is presented in energy；When detecting energy attenuation It is equivalent anti-can to calculate energy transmitting end in conjunction with the circuit LC free oscillation process for launching circuit current peak and damped cycle The real part of impedance is penetrated, then payload size can be calculated by reflected umpedance model；

2, the remained capacity technology based on reflected umpedance.By detection primary side resonant network input voltage, loop voltage with And impedance angle, circuit theory equation is established, reflected umpedance is acquired.For WPT system, in design and computing system parameter, Since the load end of system is the resonance compensation network an of entirety, from system primary side energy transmitting end, available system always hinders Anti-, this impedance is known as pickup end to the reflected umpedance of transmitting terminal.The size and property of reflected umpedance can be loaded with end is picked up Variation and change, and the parameters such as primary current, voltage is caused to change, passes through detection to each section electric parameter and meter It calculates, obtains the size and property of present load, while controlling to the energy output state of system using corresponding control means It makes and adjusts, to meet the needs of load, system is made to be in good working order.

And radio energy signal synchronous transmission technology mainly has at present:

1, Dual-channel type electric energy and signal synchronous transmission technology.I.e. electric energy transmits in different channels respectively from signal, Two groups of coils are set on the former secondary side of system, energy coil and signal coil can be made by transmitting energy and signal, this structure respectively Between there are electromagnetic interferences；

2, single-channel electric energy and signal synchronous transmission technology.The technology can be divided into time division multiplexing and frequency division multiplexing two again Kind method, time-division multiplex technology are by carrying out digital modulation to energy carrier wave to system primary side, so that digital signal be loaded Into system, wherein Ditital modulation method has binary system amplitude shift keying (2ASK), binary frequency shift keying (2FSK) and binary system Phase-shift keying (2PSK)；Frequency division multiplexing refers to the carrier wave due to energy as signal, can be to energy when carrying out digital modulation Amount has large effect.

With deepening continuously to wireless power transmission technical research, remained capacity technology undoubtedly becomes researchers' Pay close attention to object.It will using radio-frequency unit after the completion of existing remained capacity technology or identified off-line mode, or identification Load information passes to primary side, and the former cannot monitor load information in real time and make reasonable adjustment, and the latter is because of radio communication There are higher time delay, it is unfavorable for the control of system, therefore by wireless energy signal synchronous transmission technology and remained capacity Technology combines a kind of effective means that can become load online recognition.

Summary of the invention

Goal of the invention: in order to combine remained capacity technology and energy signal synchronous transmission technology to realize and be supported on Line identifies in real time, and the present invention proposes a kind of radio energy signal synchronous transfer and remained capacity time division multiplex system and its controlling party Load information canbe used on line remained capacity and can be sent to system primary side after the completion of identification by method.

Technical solution: to achieve the above object, the present invention proposes following technical scheme:

A kind of radio energy signal synchronous transfer and remained capacity time division multiplex system, comprising: high-frequency inverter circuit 1, former In electric energy transmitting circuit 2, primary side signal circuit 3, pair, electric energy receives circuit 4 and secondary side signal transmission circuit 5；High frequency is inverse Direct current power source voltage is converted into high-frequency ac square wave by power transformation road 1；Primary side electric energy transmitting circuit 2 and primary side signal circuit 3 It is connected in parallel on the output end of high-frequency inverter circuit 1, primary side electric energy transmitting circuit 2 extracts from high-frequency ac square wave and is used for transmission electricity The fundametal compoment of energy, and fundametal compoment is transferred to by secondary side electric energy by electromagnetic coupling and receives circuit 4, secondary side electric energy receives circuit 4 output end connects load；Primary side signal circuit 3 extracted from high-frequency ac square wave be used for transmission signal n times it is humorous Wave component, and pass through electromagnetic coupling for nth harmonic components to secondary side signal transmission circuit 5；Secondary side electric energy receives 4 He of circuit Secondary side signal transmission circuit 5 is through multiplex switch S₃It links together, as multiplex switch S₃When closure, secondary side electric energy receives 4 He of circuit Secondary side signal transmission circuit 5 is in parallel, realizes electric power signal synchronous transfer function at this time；S₃When opening, electric energy receives circuit 4 and pair Side signal circuit 5 is connected, and realizes remained capacity function at this time；

It is described realize electric power signal synchronous transfer include from primary side to it is secondary while positive transmission and from it is secondary while to the anti-of primary side To transmission；When carrying out the transmission of electric power signal forward direction, primary side signal circuit 3 receives primary side digital signal, and by primary side number Secondary side signal transmission circuit 5 is transferred in word signal modulation to nth harmonic component；It is secondary when carrying out electric power signal reverse transfer Side signal circuit 5 receives secondary sideband digital signal, and secondary sideband digital signal is modulated on nth harmonic component and is transferred to primary side Signal circuit 3.

Further, the energy transmitting circuit 2 includes resonant inductance L_a1, resonant capacitance C_p11And C_p12And energy transmitting Coil L_p1, L_a1、C_p11、C_p12、L_p1Form LCCL fundamental wave frequency selection circuit；The primary side signal circuit 3 includes resonant inductance L_a3, resonant capacitance C_p31、C_p32, transmitting coil L_p3, two-way switch pipe S_p1, modulated resistance R_m11, buffer resistance R_m12, signal it is reversed Demodulator circuit；Control signaling switch pipe S_p1With modulated resistance R_m11After series connection again with R_m12Parallel connection forms signal forward direction modulation circuit； L_a3、L_p3、C_p31、C_p32Form nth harmonic frequency selection circuit, wherein L_a3、L_p3、C_p32Series connection, C_p31One end connects L_a3And L_p3Connection Point, the other end and C_p32Free end be connected；It is parallel to high frequency again after nth harmonic frequency selection circuit series signals forward direction modulation circuit The output end of inverter circuit 1；The reversed demodulator circuit of signal is connected in parallel on C_p32Both ends, pass through detection C_p32The voltage at both ends is by secondary side It transmits and demodulates to come to the signal of primary side；It includes: energy receiving coil L that secondary side electric energy, which receives circuit 4,_s1, resonant capacitance C_s1, it is negative Carry resistance R_LWith multiplex switch S₃L_s1One end passes through C_s1With R_LConnection, the other end pass through S₃With R_LConnection；Secondary side signal transmission circuit 5 include: receiving coil L_s3, series resonant capacitance C_s3, modulated resistance R_m21, buffer resistance R_m22, control signaling switch pipe S_s1, letter Number forward demodulator circuit；S_s1With R_m21After series connection again with R_m22Parallel connection forms signal back-modulation circuit；Signal back-modulation circuit One end connects S₃With R_LTie point, the other end passes sequentially through C_s3、L_s3With L_s1Connection；Signal forward demodulator circuit in parallel is in C_s3 Both ends, pass through detection C_s3Primary side is transmitted to the signal on secondary side and demodulates by the voltage at both ends.

Further, the control signaling switch pipe S_p1And S_s1Structure is identical, is by a metal-oxide-semiconductor and its parasitic body The alternating current path that diode is constituted.

Further, the high-frequency inverter circuit 1 is the complete of four Metal-Oxide Semiconductor field effect transistors compositions Bridge inverter main circuit.

The present invention also proposes the control method of a kind of radio energy signal synchronous transfer and remained capacity time division multiplex system, Comprising steps of

When a. working normally, multiplex switch S₃Closure, secondary side electric energy receives circuit 4 and secondary side signal transmission circuit 5 at this time Parallel connection, primary side signal circuit 3 will not influence electric energy normal transmission；

B. the signal forward direction modulation when system needs to carry out remained capacity, first in control primary side signal circuit 3 Circuit sends a specific enabling signal, after demodulating enabling signal in secondary side signal transmission circuit 5, starts to carry out load knowledge Not；

C. remained capacity stage one: detection secondary circuit load terminal voltage and size of current and phase relation first utilize Digital signal processor judges load characteristic: if phase difference is zero, for resistive load；If phase difference is greater than zero, for perception Load；If phase difference is less than zero, for capacitive load；It is fundamental wave frequency based on the natural resonance frequency that secondary side electric energy receives circuit 4 Rate builds fundamental wave load equation:

I in formula_p1onIndicate multiplex switch S₃The electric energy transmitting coil electric current of primary side electric energy transmitting circuit 2, I when closure_s1onTable Show multiplex switch S₃Load current when closure, M₁The electric energy transmitting coil and secondary side electric energy for indicating primary side electric energy transmitting circuit 2 connect The mutual inductance between the electric energy receiving coil in circuit 4 is received, R, L are the resistance value and inductance value of load to be asked respectively；

D. remained capacity stage two: multiplex switch S is disconnected₃, secondary side electric energy receives circuit 4 and secondary side signal transmission circuit (5) cascaded structure is formed, the electric current in load is that primary side electric energy transmitting circuit 2 and primary side signal circuit 3 are made jointly at this time With and generate；Fundamental wave load equation is built again:

In formula, I_p1offIndicate multiplex switch S₃The electric energy transmitting coil electric current of primary side electric energy transmitting circuit 2 when disconnection, R_e It is the resistance value in parallel of signal modulation resistance, R_e=R_m21||R_m22, X indicate 2 independent role of primary side electric energy transmitting circuit when pair side believe The fundamental wave equivalent impedance of number transmission circuit 5,

E. simultaneous equations (1) and (2) can calculate the resistance value and reactance value of load；

F. multiplex switch S is closed after the completion of remained capacity₃, control the signal back-modulation in secondary side signal transmission circuit 5 Circuit sending signal is transmitted to system primary side through load information, and secondary side signal transmission circuit 5 is used to send signal, primary side letter at this time Number transmission circuit 3 is used to receive signal.

The utility model has the advantages that compared with prior art, present invention has the advantage that

1) signal transmission of the present invention and energy transmission are decoupling controls, and signal transmits the fluctuation that not will cause energy, energy Transmission will not to signal transmit have interference；

2) present invention can be realized the transmission of signal semiduplex mode, i.e. signal can transmit from primary side to secondary side, also can It is enough to be transmitted from secondary side to primary side；

3) present invention can according to need multiplexing and realize two kinds of functions of energy signal synchronous transfer and remained capacity；

4) online recognition of load and the real-time delivery of identification information may be implemented in the present invention.

Detailed description of the invention

Fig. 1 is circuit diagram of the invention；

Fig. 2 is inverter output voltage, fundamental wave emission current and the load voltage waveform figure when present invention works normally；

Fig. 3 is main waveform when signal forward direction is transmitted in the present invention, and wherein Fig. 3 (a) is inverter output voltage, fundamental wave hair Radio stream and load voltage waveform figure, Fig. 3 (b) are that primary side sends signal, secondary side demodulation signal figure；

Fig. 4 is main waveform when carrying out remained capacity in the present invention, and wherein Fig. 4 (a) is inverter output voltage, fundamental wave hair Current waveform figure is penetrated, Fig. 4 (b) is secondary current waveform figure；

Fig. 5 is the main waveform that signal reverse transfer is in the present invention, and wherein Fig. 5 (a) is inverter output voltage, fundamental wave hair Radio stream and load voltage waveform, Fig. 5 (b) are that secondary side sends signal and primary side demodulation signal figure.

Specific embodiment

The present invention will be further explained with reference to the accompanying drawing.

As shown in Figure 1, energy signal synchronous transfer of the invention and remained capacity time division multiplex system, including high-frequency inversion Circuit 1, primary side electric energy transmitting circuit 2, primary side signal circuit 3, secondary side electric energy receive circuit 4 and secondary side signal transmission circuit 5。

1 output end of high-frequency inverter circuit is connected with primary side electric energy transmitting circuit 2, primary side signal circuit 3 respectively, former Side energy transmitting circuit 2 is connected with the input terminal of primary side signal circuit 3, and the two forms parallel network；Primary side energy transmitting Circuit 2 selects fundamental wave from the square-wave voltage that high-frequency inverter circuit 1 exports to transmit energy；Primary side signal circuit 3 wraps Nth harmonic frequency selection circuit and modulating and demodulating signal circuit are included, selects nth harmonic from output square wave to transmit signal；Secondary side It includes first-harmonic resonance circuit and multiplex switch, opening and closing according to the demand control multiplex switch of system that electric energy, which receives circuit 4, Break to determine to carry out remained capacity or signal transmission；The secondary side signal transmission circuit 5 is connected in parallel on multiplex switch both ends, by n Subharmonic frequency selection circuit and modulation-demodulation circuit composition.

It is specific:

High-frequency inverter circuit 1 is four Metal-Oxide Semiconductor field effect transistors

The full-bridge that (Metal-Oxide-Semiconductor Field-Effect Transistor, MOSFET) is constituted Formula inverter circuit can obtain higher power output.

Primary side electric energy transmitting circuit 2 is resonant inductance L_a1, parallel resonance capacitor C_p11, series resonant capacitance C_p12It is sent out with energy Ray circle L_p1The LCCL type resonance circuit of composition forms, and natural resonance frequency is high-frequency inverter working frequency (i.e. fundamental wave frequency Rate).Compared to other compensation circuits such as tandem type, parallel connection type, LCCL type resonance circuit has better selecting frequency characteristic, Neng Gougeng Fundamental wave and nth harmonic are extracted from inverter output voltage well.

Primary side signal circuit 3 is by resonant inductance L_a3, resonant capacitance C_p31, resonant capacitance C_p32And signal transmitting coil L_p3It is constituted with modulation-demodulation circuit.Resonance circuit is similarly LCCL type complex resonant circuit, and natural resonance frequency is nth harmonic frequency Rate.Signal modulation circuit is by modulated resistance R_m11, buffer resistance R_m12It is formed with two-way switch, modulated resistance resistance value is smaller, is used to Change current amplitude, buffer resistance resistance value is larger, for absorbing dash current when switch, MOSFET and its parasitic body diode Alternating current path is constituted, when transmitting signal to secondary side from primary side, passes through turning on and off come simulation numeral letter for control MOSFET Number " 0 " and " 1 ".Signal demodulating circuit is then mainly made of diode detection circuit and comparison circuit, detects capacitor C_p32Both ends Voltage realizes the demodulation that signal is sent to secondary side.

It is energy receiving coil L that secondary side electric energy, which receives circuit 4,_s1, resonant capacitance C_s1, load resistance R_LWith multiplex switch S₃Group At.Its natural resonance frequency is system fundamental frequency, multiplex switch S₃Effect be control system working condition, pass through control S₃ Different phase of opening and close at realize energy signal synchronous transfer and remained capacity function.

Secondary side signal transmission circuit 5 is by signal receiving coil L_s3, series resonant capacitance C_s3, modulating and demodulating signal circuit structure At.Circuit natural resonance frequency is equal to nth harmonic frequency, constitutes nth harmonic channel；Signal modulation circuit and primary side signal modulation Circuit structure is identical, by modulated resistance R_m21, buffer resistance R_m22The modulation for realizing digital signal is formed with two-way switch；Signal Demodulator circuit is similarly diode detection circuit and comparison circuit.

The present invention also proposes the control method of a kind of radio energy signal synchronous transfer and remained capacity time division multiplex system, This method specifically includes four-stage:

Remained capacity startup stage.When remained capacity to be carried out, setting is when secondary side receives a certain serial data such as first When " 10110 ", it is believed that primary side is wanted to carry out remained capacity, passes through digital signal controller (Digital signal Controller, DSC) driving signal of two-way switch is generated, two-way switch turns on and off for indicating digital signal " 1 " " 0 ".

Enabling signal transmission phase.The work of primary side signal circuit sends state, secondary side signal in signal in this stage Transmission circuit works in signal reception state；Turning on and off for primary side two-way switch is controlled by DSC, so that signal primary side The discontinuous mode of electric current occurrence law, therefore secondary side signal coil can pick up the different voltage of low and high level, signal Resonant capacitor voltage there is the voltage envelope containing signal characteristic, can extract opening for primary side transmission using detecting circuit Dynamic signal.

The remained capacity stage.After signal pair side receives the serial data set, secondary side multiplex switch S₃It can first be closed It disconnects again, load characteristic is judged according to load voltage, that is, electric current phase difference at this time, when further according to multiplex switch different conditions Load current size column write load impedance equation group, can judge load value by calculating.

Identification information transmission phase.The work of primary side signal circuit is in signal reception state, secondary side signal in this stage Transmission circuit works in signal transmission phase, multiplex switch S₃Closure；The principle and enabling signal transmission phase one of signal transmission It causes, is all to be recognized after the property of load using the on-off of two-way switch in DSC control modulation circuit according to certain coding shape Load is transferred in the form of serial data system primary side, can restored in the signal demodulating circuit of system primary side by formula This signal, using the property for being just able to know that load after decoding.

Above-mentioned control method is further described below with reference to physical circuit topology, specifically includes step:

When a. working normally, multiplex switch S₃Closure, secondary side electric energy receives circuit 4 and secondary side signal transmission circuit 5 at this time Parallel connection, former secondary side signal transmission circuit will not influence electric energy normal transmission.

B. the signal modulation circuit when system needs to carry out remained capacity, first in control primary side signal circuit 3 A specific enabling signal (such as " 11010 ") is sent, after demodulating enabling signal in secondary side signal transmission circuit 5, starts to carry out Remained capacity.

C. remained capacity stage 1: detection load terminal voltage and electric current first, and be sent into DSC, by comparing voltage and current Between phase difference may determine that the property of load, if phase difference is zero, for resistive load；If phase difference is greater than zero, for Inductive load；If phase difference is less than zero, for capacitive load.Since the natural resonance frequency that secondary side electric energy receives circuit 4 is base Wave frequency rate, it is possible to which column write out fundamental wave load equation:

I in formula_p1onIndicate electric energy transmitting coil electric current when multiplex switch closure, I_s1onIt indicates when multiplex switch is closed Load current, M₁Indicate the mutual inductance between electric energy transmitting coil and secondary side receiving coil, R, L be respectively load to be asked resistance value and Inductance value.

D. remained capacity stage 2: multiplex switch S is disconnected₃, secondary side electric energy receives circuit 4 and 5 shape of secondary side signal transmission circuit At cascaded structure, the electric current in load is primary side electric energy transmitting circuit 2 and 3 collective effect of primary side signal circuit and produces at this time It is raw.According to superposition theorem it is found that load current I_s1offIt can be considered that primary side electric energy transmitting circuit 2 and primary side signal circuit 3 are single Solely the sum of the electric current that effect generates carries out Fourier space decomposition to load current, obtains its fundametal compoment I_s1off1, so that it may Column in step c are copied to write fundamental wave load equation:

I in formula_p1offIndicate electric energy transmitting coil electric current when multiplex switch disconnects, R_eIt is the resistance in parallel of signal modulation resistance Value, R_e=R_m21||R_m22, X indicates the equivalent resistance of fundamental wave of secondary side signal transmission circuit 5 when 2 independent role of primary side electric energy transmitting circuit It is anti-,

E. simultaneous equations (1) and (2) can calculate the resistance value and reactance value of load.

F. multiplex switch S is closed after the completion of remained capacity₃, it is transmitted to using certain coding form through load information and is System primary side, secondary side signal transmission circuit 5 is used to send signal at this time, and primary side signal circuit 3 is used to receive signal.

The following are a specific embodiments of the invention:

As shown in Figure 1,1 working frequency of high-frequency inverter circuit is 20kHz, DC power supply E=24V；Primary side electric energy transmitting electricity 2 natural resonance frequency of road is equal to working frequency, and parameter is set as L_a1=40.33 μ H, C_p11=1.57 μ F, C_p12=0.47 μ F, L_p1=175 μ H；The parameter that secondary side electric energy receives circuit 4 is set as L_s1=124.74 μ H, C_s1=507nF；Primary side signal transmission electricity The resonance frequency on road 3 is third harmonic frequencies, and 60kHz, parameter is set as L_a3=4 μ H, C_p31=1.759 μ F, C_p32=0.1 μ F, L_p3=74 μ H, R_m12=1 Ω, R_m12=1000 Ω；The parameter of secondary side signal transmission circuit 5 is set as L_s3=10 μ H, C_s3= 703.6nF, R_m21=1 Ω, R_m22=1000 Ω.

In system worked well, inverter output voltage U_i, electric energy transmitting coil electric current i_pAnd load voltage U_oWave Shape is as shown in Figure 2.It can be seen that i_pAnd U_iBetween phase just differ 90 °, illustrate that circuit frequency-selecting effect is good, inverter output electricity Pressure expression formula be

In formula, E is DC voltage, ω₀It is inverter working frequency, t is the time.

Known by above formula, i.e. there are fundamental waves there is higher hamonic wave abundant again in square-wave voltage, it is therefore desirable to which design is reasonable Frequency selection circuit separates the fundamental wave and harmonic wave in square-wave voltage, and electric energy emits and receive circuit, former secondary side signal transmission circuit Parameter meets respectively:

Triple-frequency harmonics is chosen in the present invention to analyze system.

Divided by parameter designing from inversion output when being successfully separated out fundametal compoment and third-harmonic component in wave voltage Electric energy and signal Yong Lai not transmitted.The realization of two kinds of functions of electric power signal synchronous transfer and remained capacity is by multiplex switch S₃ Open and be closed and complete, in normal work, multiplex switch closure, system waveform is as shown in Figure 2；When being loaded When identification, a string of formulation signals are sent from primary side to secondary side first, such as " 11010 ", digital signal " 1 " indicates modulation switch S_p1It closes It closes, " 0 " indicates modulation switch S_p1It disconnects, therefore as opening for modulation switch can be in the humorous of secondary side signal transmission circuit with shutdown Shake capacitor C_s1Upper generation voltage envelope is believed using the number that diode detection circuit and comparison circuit can restore transmission Number, as shown in Fig. 3 (b).Fig. 3 (a) indicates inverter output voltage waveform, electric energy transmitting coil current waveform and load voltage wave Shape therefrom it can also be seen that, in signal transmitting, is transmitted without any influence to electric energy.

When carrying out remained capacity, multiplex switch of being first failure to actuate detects load terminal voltage and electric current, is re-fed into DSC and carries out Processing analysis, first judges load characteristic according to the phase difference between voltage and current, then arrange and write load equation；Multiplexing is then turned off to open It closes, it is same to detect load terminal voltage electric current, since i.e. there are fundametal compoments there is third-harmonic component again in secondary circuit at this time, It decomposes to obtain its fundametal compoment virtual value so needing to carry out load current Fourier space, then same column write load equation. As shown in figure 4, emulation duration 0.02s, multiplex switch is disconnected in 0.01s, when indicating that multiplex switch disconnects front and back in Fig. 4 (a) Inverter output voltage and electric energy transmitting coil electric current, it can be seen that switching multiplex switch electric energy transmitting circuit will not be generated It influences；Fig. 4 (b) indicates the load voltage (solid line) and load current (dotted line) of multiplex switch switching front and back, it can be seen that multiplexing Switching can generate load voltage electric current and significantly affect；Fig. 4 (c) indicates load voltage when multiplex switch switching front and back FFT decomposition diagram, multiplex switch disconnect third-harmonic component in back loading voltage and obviously increase, therefore according to formula (1) and (2) Actual loading resistance value and reactance value can be solved.

Multiplex switch S is re-closed after completing remained capacity₃, electric energy receive circuit 4 again and secondary side signal transmission circuit 5 Form parallel-connection structure.Secondary side signal transmission circuit 5 is used as signal sending end at this time, and primary side signal circuit 3 is used as signal Receiving end, the principle of signal reverse transfer and positive transmission are completely the same, i.e. control modulation switch S_s1Open and shutdown will count Word signal modulation is transmitted to primary side into system, then by signal coil, detects primary side resonant capacitance C_p32On voltage envelope, It is re-fed into the reduction that can be realized as signal in demodulator circuit.Inverter output voltage, electricity when Fig. 4 (a) is signal reverse transfer Energy transmitting coil electric current and load voltage waveform, it can be seen that the transmission of electric energy also without any shadow when signal reverse transfer It rings；When Fig. 4 (b) is signal reverse transfer baseband signal (on) and demodulated signal (under), there are one in transmission process for signal Fixed delay caused by this is the time constant of passive device present in system (inductance, capacitor), but carrys out signal transmission It says, influences smaller.

The above is only a preferred embodiment of the present invention, it should be pointed out that: for the ordinary skill people of the art For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered It is considered as protection scope of the present invention.

Claims (5)

1. a kind of radio energy signal synchronous transfer and remained capacity time division multiplex system characterized by comprising high-frequency inversion Circuit (1), primary side electric energy transmitting circuit (2), primary side signal circuit (3), secondary side electric energy receive circuit (4) and secondary side signal Transmission circuit (5)；Direct current power source voltage is converted into high-frequency ac square wave by high-frequency inverter circuit (1)；Primary side electric energy transmitting circuit (2) and primary side signal circuit (3) is connected in parallel on the output end of high-frequency inverter circuit (1), and primary side electric energy transmitting circuit (2) is from height The fundametal compoment for being used for transmission electric energy is extracted in frequency ac square wave, and fundametal compoment is transferred to by secondary side electricity by electromagnetic coupling It can receive circuit (4), the output end that secondary side electric energy receives circuit (4) connects load；Primary side signal circuit (3) is handed over from high frequency The nth harmonic component for being used for transmission signal is extracted in stream square wave, and gives nth harmonic components to secondary side by electromagnetic coupling Signal circuit (5)；Secondary side electric energy receives circuit (4) and secondary side signal transmission circuit (5) through multiplex switch S₃It is connected to one It rises, as multiplex switch S₃When closure, secondary side electric energy receives circuit (4) and secondary side signal transmission circuit (5) is in parallel, realizes electricity at this time It can signal synchronous transfer function；S₃When opening, electric energy receives circuit (4) and secondary side signal transmission circuit (5) series connection, realizes at this time Remained capacity function；

It is described realize electric power signal synchronous transfer include from primary side to it is secondary while positive transmission and from it is secondary while to primary side reversed biography It is defeated；When carrying out the transmission of electric power signal forward direction, primary side signal circuit (3) receives primary side digital signal, and primary side is digital Secondary side signal transmission circuit (5) are transferred in signal modulation to nth harmonic component；It is secondary when carrying out electric power signal reverse transfer Side signal circuit (5) receives secondary sideband digital signal, and secondary sideband digital signal is modulated on nth harmonic component and is transferred to original Side signal circuit (3).

2. a kind of radio energy signal synchronous transfer according to claim 1 and remained capacity time division multiplex system, special Sign is that the energy transmitting circuit (2) includes resonant inductance L_a1, resonant capacitance C_p11And C_p12And energy transmitting coil L_p1, L_a1、C_p11、C_p12、L_p1Form LCCL fundamental wave frequency selection circuit；The primary side signal circuit (3) includes resonant inductance L_a3, resonance Capacitor C_p31、C_p32, transmitting coil L_p3, two-way switch pipe S_p1, modulated resistance R_m11, buffer resistance R_mi2, signal reversely demodulate electricity Road；Control signaling switch pipe S_p1With modulated resistance R_m11After series connection again with R_m12Parallel connection forms signal forward direction modulation circuit；L_a3、 L_p3、C_p31、C_p32Form nth harmonic frequency selection circuit, wherein L_a3、L_p3、C_p32Series connection, C_p31One end connects L_a3And L_p3Tie point, The other end and C_p32Free end be connected；It is parallel to high-frequency inversion again after nth harmonic frequency selection circuit series signals forward direction modulation circuit The output end of circuit (1)；The reversed demodulator circuit of signal is connected in parallel on C_p32Both ends, pass through detection C_p32The voltage at both ends passes secondary side The signal for being presented to primary side, which demodulates, to be come；It includes: energy receiving coil L that secondary side electric energy, which receives circuit (4),_s1, resonant capacitance C_s1, it is negative Carry resistance R_LWith multiplex switch S₃；L_s1One end passes through C_s1With R_LConnection, the other end pass through S₃With R_LConnection；Secondary side signal transmission electricity Road (5) includes: receiving coil L_s3, series resonant capacitance C_s3, modulated resistance R_m21, buffer resistance R_m22, control signaling switch pipe S_s1, signal forward demodulator circuit；S_s1With R_m21After series connection again with R_m22Parallel connection forms signal back-modulation circuit；Signal is reversely adjusted Circuit on one side processed connects S₃With R_LTie point, the other end passes sequentially through C_s3、L_s3With L_s1Connection；Signal forward demodulator circuit in parallel In C_s3Both ends, pass through detection C_s3Primary side is transmitted to the signal on secondary side and demodulates by the voltage at both ends.

3. a kind of radio energy signal synchronous transfer according to claim 2 and remained capacity time division multiplex system, special Sign is, the control signaling switch pipe S_p1And S_s1Structure is identical, is made of a metal-oxide-semiconductor and its parasitic body diode Alternating current path.

4. a kind of radio energy signal synchronous transfer according to claim 2 and remained capacity time division multiplex system, special Sign is that the high-frequency inverter circuit (1) is the full-bridge type inversion that four Metal-Oxide Semiconductor field effect transistors are constituted Circuit.

5. a kind of radio energy signal synchronous transfer as described in Claims 1-4 any one and remained capacity are time-multiplexed The control method of system, which is characterized in that comprising steps of

When a. working normally, multiplex switch S₃Closure, secondary side electric energy receives circuit (4) and secondary side signal transmission circuit (5) simultaneously at this time Connection, primary side signal circuit (3) will not influence electric energy normal transmission；

B. when system needs to carry out remained capacity, the signal forward direction first in control primary side signal circuit (3) modulates electricity Road sends a specific enabling signal, after demodulating enabling signal in secondary side signal transmission circuit (5), starts to carry out load knowledge Not；

C. remained capacity stage one: detection secondary circuit load terminal voltage and size of current and phase relation first utilize number Signal processor judges load characteristic: if phase difference is zero, for resistive load；If phase difference is greater than zero, for inductive load； If phase difference is less than zero, for capacitive load；The natural resonance frequency for receiving circuit (4) based on secondary side electric energy is fundamental frequency, Build fundamental wave load equation:

I in formula_p1onIndicate multiplex switch S₃The electric energy transmitting coil electric current of primary side electric energy transmitting circuit (2) when closure ,/_s1onIt indicates Multiplex switch S₃Load current when closure, M₁The electric energy transmitting coil and secondary side electric energy for indicating primary side electric energy transmitting circuit (2) connect The mutual inductance between the electric energy receiving coil in circuit (4) is received, R, L are the resistance value and inductance value of load to be asked respectively；

D. remained capacity stage two: multiplex switch S is disconnected₃, secondary side electric energy reception circuit (4) and secondary side signal transmission circuit (5) shape At cascaded structure, the electric current in load is primary side electric energy transmitting circuit (2) and primary side signal circuit (3) collective effect at this time And it generates；Fundamental wave load equation is built again:

In formula ,/_p1offIndicate multiplex switch S₃The electric energy transmitting coil electric current of primary side electric energy transmitting circuit (2) when disconnection, R_eIt is The resistance value in parallel of signal modulation resistance, R_e=R_m21||R_m22, X indicate primary side electric energy transmitting circuit (2) independent role when pair side believe The fundamental wave equivalent impedance of number transmission circuit (5),

E. simultaneous equations (1) and (2) can calculate the resistance value and reactance value of load；

F. multiplex switch S is closed after the completion of remained capacity₃, control the signal back-modulation circuit in secondary side signal transmission circuit (5) It sends signal and is transmitted to system primary side through load information, secondary side signal transmission circuit (5) is used to send signal, primary side signal at this time Transmission circuit (3) is used to receive signal.