CN203827070U - Fractional-order serial-parallel connected resonance wireless power transmission system - Google Patents
Fractional-order serial-parallel connected resonance wireless power transmission system Download PDFInfo
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- CN203827070U CN203827070U CN201420156201.6U CN201420156201U CN203827070U CN 203827070 U CN203827070 U CN 203827070U CN 201420156201 U CN201420156201 U CN 201420156201U CN 203827070 U CN203827070 U CN 203827070U
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- fractional order
- transmission system
- inductance
- fractional
- power transmission
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Abstract
The utility model provides a fractional-order serial-parallel connected resonance wireless power transmission system which comprises a high-frequency power source, an emission portion, a reception portion and a load. The emission portion comprises a primary fractional order capacitor and a primary fractional order inductor with primary resistor, the primary fractional order capacitor and the primary fractional order inductor being serially connected; and the reception portion comprises a secondary fractional order capacitor and a secondary fractional order inductor with secondary resistor, the primary fractional order capacitor and the primary fractional order inductor being parallelly connected. The wireless power transmission system employs fractional order elements to achieve wireless power transmission, is simple in structure and increases dimensions for parameter design. The wireless power transmission system is completely different from a conventional power transmission system achieved through integer order elements.
Description
Technical field
The utility model belongs to the field of wireless power transmission or wireless technology of transmission of electricity, particularly a kind of fractional order series-multiple connection resonance radio energy transmission system.
Background technology
Wireless power transmission or wireless technology of transmission of electricity were just attempted experimentally by novel tesla of U.S. utility (Nicola Tesla) before more than 100 years.2006, the researcher of the Massachusetts Institute of Technology (MIT) utilizes the resonance technique of physics successfully to light the bulb of a 60W with 40% efficiency apart from left and right at 2m, this experiment is not only the reproduction of tesla's experiment, another new breakthrough of wireless power transmission technology especially, and started the upsurge of wireless power transmission research.
Wireless power transmission technology is a kind of delivery of electrical energy mode of wide application prospect, there is the advantages such as safe, reliable, flexible, convenient, day by day be subject to the attention of countries in the world, and be more and more widely used in the various places that are not suitable for or are inconvenient to use wire contact electric energy transmitting, as occasions such as implantable medical device, mobile electronic product, robot, rail electric car power supplies, and be expected to can aspect small-power electronic product wireless charging, replace traditional plug charging in the near future.
Current radio energy transmission system is all realized based on integer rank inductance, electric capacity, and its resonance frequency only determines by inductance value and capacitance, and therefore, its system only need be considered parameter value, and without the exponent number of considering element, the degree of freedom of design is fewer.Meanwhile, the element of real system is fractional order in essence, but the most exponent number of using in current reality is close to 1, ignores completely for the situation of fractional order.Traditional modeling of passing through integer rank designs radio energy transmission system, and under certain conditions, theoretical and actual error may be very large.
The generation that derives from fractional calculus of fractional order device (as fractional order electric capacity and fractional order inductance) concept, and the concept of fractional calculus has had the history of more than 300 year, is almost born with integer rank calculus simultaneously.But due to fractional order more complicated, and never have good numerical analysis tools, therefore it is always in the theory analysis stage.In recent decades, due to the development of biotechnology, macromolecular material etc., it is found that integer rank calculus can not well explain nature exist phenomenon, therefore fractional calculus starts to be paid attention to, and starting to be applied to engineering field, its research at control field and application are day by day perfect.Meanwhile, the fractional order device at two ends is out manufactured in laboratory.But some special character of fractional order circuit and system are studied, and are not mentioned especially in the application in wireless power transmission field.
In view of current fractional order element or fractional order circuit huge advantage in some aspects, and it is not also applied to wireless power transmission field, is therefore necessary to propose a kind of fractional order string-and resonance radio energy transmission system.
Utility model content
The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art, and a kind of fractional order series-multiple connection resonance radio energy transmission system is provided.
The utility model is achieved through the following technical solutions:
A kind of fractional order series-multiple connection resonance radio energy transmission system, comprises high frequency power source V
s, radiating portion, receiving unit and load R
l; Radiating portion comprises the former limit fractional order electric capacity being connected in series
with former limit fractional order inductance
former limit fractional order inductance
there is former limit resistance R
p; Receiving unit comprises the secondary fractional order electric capacity being connected in parallel
with secondary fractional order inductance
secondary fractional order inductance
there is secondary resistance R
s.
Described a kind of fractional order series-multiple connection resonance radio energy transmission system, former limit fractional order electric capacity
secondary fractional order electric capacity
voltage, current differential relation all meet:
phase relation meets:
wherein, i
cfor fractional order capacitance current, v
cfor fractional order capacitance voltage, α is the exponent number of fractional order electric capacity, and 0 < α≤2, C
αfor the value of fractional order electric capacity.
Described a kind of fractional order series-multiple connection resonance radio energy transmission system, former limit fractional order inductance
secondary fractional order inductance
voltage, current differential relation all meet:
phase relation meets:
wherein, v
lfor the voltage of fractional order inductance, i
lfor the electric current of fractional order inductance, β is the exponent number of fractional order inductance, and 0 < β≤2, L
βfor the value of fractional order inductance.
Described a kind of fractional order series-multiple connection resonance radio energy transmission system is the wireless power transmission realizing by the mode of fractional order circuit series-multiple connection resonance coupling between radiating portion and receiving unit.
Operation principle of the present utility model is: radiating portion and receiving unit are respectively by former limit fractional order electric capacity
former limit fractional order inductance
former limit resistance R
p, secondary fractional order electric capacity
secondary fractional order inductance
secondary resistance R
sform fractional order RLC series-multiple connection resonant circuit, the mode that radiating portion and receiving unit are coupled by resonance realizes the wireless transmission of electric energy.
Compared with prior art, the utlity model has following advantage:
1, wireless power transmission simple in structure, to adopt fractional order element to realize, is different from radio energy transmission system in the past completely, has increased the degree of freedom of parameter designing.
2, by the exponent number of design selection element, can greatly reduce the resonance frequency of radio energy transmission system, thereby reduce the requirement to power electronic device, be very beneficial for the design of real system.
3, by the suitable fractional order exponent number of design, can make through-put power larger.
Brief description of the drawings
Fig. 1 is the schematic diagram of fractional order series-multiple connection resonance radio energy transmission system of the present utility model.
Fig. 2 is α=1.2, the power output of β=0.9 o'clock and the relation curve of frequency f.
Fig. 3 is α=0.8, the efficiency of transmission of β=0.9 o'clock and the relation curve of frequency f.
Fig. 4 is α=1.2, the power output of β=1.5 o'clock and the relation curve of frequency f.
Fig. 5 is α=0.8, the power output of β=1.2 o'clock and the relation curve of frequency f.
Specific embodiments
Below in conjunction with accompanying drawing, the concrete enforcement of utility model is further described, but enforcement of the present utility model and protection are not limited to this.
Embodiment
As shown in Figure 1, for the schematic diagram of fractional order series-multiple connection resonance radio energy transmission system of the present utility model, below in conjunction with this figure, operation principle of the present utility model is described.In Fig. 1, high frequency power source V
s, former limit fractional order electric capacity
former limit fractional order inductance
with former limit resistance R
pconnect and compose series resonance; Secondary fractional order electric capacity
secondary fractional order inductance
secondary resistance R
swith load R
lconnect and compose parallel resonance; Radiating portion and receiving unit are realized wireless power transmission by mutual inductance M.For the convenience of analyzing, make former limit fractional order electric capacity
with secondary fractional order electric capacity
parameter is consistent, and omits upper and lower mark, is designated as C; Make former limit fractional order inductance
with secondary fractional order inductance
parameter is consistent, and omits upper and lower mark, is designated as L; Make former limit resistance R
pwith secondary resistance R
sfor R.Can obtain the Fractional Differential Equation of system:
In formula, v
sfor the transient expression form of high frequency power source, i
1for former limit fractional order inductive current, i
2for secondary fractional order inductive current, v
c1for former limit fractional order capacitance voltage, v
c2for secondary fractional order capacitance voltage.The differential equation of said system can be obtained by Laplace transform:
V
S(s)=V
C1(s)+s
βLI
1(s)+s
βMI
2(s)+I
1(s)R
I
1(s)=s
αCV
C1(s)
V
C2(s)=s
βLI
2(s)+s
βMI
1(s)+I
2(s)R
Symbol in above equation group is Laplace transform form, has one-to-one relationship, i.e. I with the differential equation of system
1for former limit loop current, I
2for secondary loop current, V
c1for former limit fractional order capacitance voltage, V
c2for secondary fractional order capacitance voltage.Solve:
V
C2(s)=s
βMV
S(s)/
In frequency domain, there is s=j ω.Can be in the hope of power output P
ofor:
From the expression formula of power output, the size of power output is mainly relevant with β with mutual inductance M, operating angle frequencies omega, fractional order exponent number α.Further analyze below, the impact of operating angle frequency on power output, other parameters remain unchanged.A kind of design parameter of fractional order series-multiple connection resonance radio energy transmission system is: V
s=10V, L=100 μ H, C=0.2533nF, R
l=50 Ω, coupling coefficient k=0.1(and mutual inductance M=k × L), α=1.2, β=0.9, R=0.5 Ω.The relation curve of power output and frequency f as shown in Figure 2.System resonance frequency of (being α=1, β=1, other parameter constants) under same parameter in integer rank is 1MHz, and as shown in Figure 2, the resonance frequency of system is less than 1MHz.As can be seen here, can reduce by choosing fractional order exponent number the resonance frequency of fractional order circuit parallel resonance radio energy transmission system, thereby be conducive to the design of radio energy transmission system.
1), as α >1, when β <1, as an example, a kind of design parameter of fractional order series-multiple connection resonance radio energy transmission system is: V
s=10V, L=100 μ H, C=0.2533nF, R
l=50 Ω, coupling coefficient k=0.1(and mutual inductance M=k × L), α=1.2, β=0.9, R=0.5 Ω.The relation curve of power output and frequency f as shown in Figure 2.System resonance frequency of (being α=1, β=1, other parameter constants) under same parameter in integer rank is 1MHz, and as shown in Figure 2, the resonance frequency of system is less than 1MHz.As can be seen here, can reduce by choosing fractional order exponent number the resonance frequency of fractional order circuit parallel resonance radio energy transmission system, thereby be conducive to the design of radio energy transmission system.
2), as α <1, when β <1, as an example, a kind of design parameter of fractional order series-multiple connection resonance radio energy transmission system is: V
s=10V, L=100 μ H, C=0.2533nF, R
l=50 Ω, coupling coefficient k=0.1(and mutual inductance M=k × L), α=0.8, β=0.9, R=0.5 Ω.As shown in Figure 3, this situation can improve the resonance frequency of system to the relation curve of power output and frequency f greatly, and power output is very little, does not wish to occur this situation in real system, when design, should avoid.
3), as α >1, when β >1, as an example, a kind of design parameter of fractional order series-multiple connection resonance radio energy transmission system is: V
s=10V, L=100 μ H, C=0.2533nF, R
l=50 Ω, coupling coefficient k=0.1(and mutual inductance M=k × L), α=1.2, β=0.9, R=0.5 Ω.The relation curve of power output and frequency f as shown in Figure 4.Although this situation has reduced the resonance frequency of system, power output is unsatisfactory, while therefore design, also should avoid.
4) as α <1, when β >1, this situation more complicated, resonance frequency is larger with the variation of fractional order exponent number.As an example, the design parameter of fractional order series-multiple connection resonance radio energy transmission system is: V
s=10V, L=100 μ H, C=0.2533nF, R
l=50 Ω, coupling coefficient k=0.1(and mutual inductance M=k × L), α=0.8, β=1.2, R=0.5 Ω.The relation curve of power output and frequency f as shown in Figure 5.Although this situation has reduced the resonance frequency of system, substantially can not realize the transmission of power, while therefore design, also should avoid.
Situation described above is applicable equally for the situation of α=β.
Above-described embodiment is preferably execution mode of the utility model; but execution mode of the present utility model is not limited by the examples; other any do not deviate from change, the modification done under Spirit Essence of the present utility model and principle, substitutes, combination, simplify; all should be equivalent substitute mode, within being included in protection range of the present utility model.
Claims (3)
1. a fractional order series-multiple connection resonance radio energy transmission system, comprises high frequency power source (V
s), radiating portion, receiving unit and load (R
l); It is characterized in that radiating portion comprises the former limit fractional order electric capacity being connected in series
with former limit fractional order inductance
former limit fractional order inductance
there is former limit resistance (R
p); Receiving unit comprises the secondary fractional order electric capacity being connected in parallel
with secondary fractional order inductance
secondary fractional order inductance
there is secondary resistance (R
s).
2. a kind of fractional order series-multiple connection resonance radio energy transmission system according to claim 1, is characterized in that former limit fractional order electric capacity
secondary fractional order electric capacity
voltage, current differential relation all meet:
phase relation meets:
wherein, i
cfor fractional order capacitance current, v
cfor fractional order capacitance voltage, α is the exponent number of fractional order electric capacity, and 0 < α≤2, C
αfor the value of fractional order electric capacity.
3. a kind of fractional order series-multiple connection resonance radio energy transmission system according to claim 1, is characterized in that former limit fractional order inductance
secondary fractional order inductance
voltage, current differential relation all meet:
phase relation meets:
wherein, v
lfor the voltage of fractional order inductance, i
lfor the electric current of fractional order inductance, β is the exponent number of fractional order inductance, and 0 < β≤2, L
βfor the value of fractional order inductance.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103915913A (en) * | 2014-03-31 | 2014-07-09 | 华南理工大学 | Fractional order parallel-series resonance wireless power transmission system |
TWI580150B (en) * | 2015-05-15 | 2017-04-21 | 立錡科技股份有限公司 | Resonant Wireless Power Receiver Circuit and Control Circuit and Wireless Power Conversion Method thereof |
CN107425609A (en) * | 2017-05-03 | 2017-12-01 | 华南理工大学 | A kind of series and parallel type fractional order inductively radio energy transmission system |
CN110429722A (en) * | 2019-07-23 | 2019-11-08 | 华南理工大学 | A kind of parallel connection type fractional order autonomy wireless power transmission systems |
-
2014
- 2014-03-31 CN CN201420156201.6U patent/CN203827070U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103915913A (en) * | 2014-03-31 | 2014-07-09 | 华南理工大学 | Fractional order parallel-series resonance wireless power transmission system |
TWI580150B (en) * | 2015-05-15 | 2017-04-21 | 立錡科技股份有限公司 | Resonant Wireless Power Receiver Circuit and Control Circuit and Wireless Power Conversion Method thereof |
CN107425609A (en) * | 2017-05-03 | 2017-12-01 | 华南理工大学 | A kind of series and parallel type fractional order inductively radio energy transmission system |
CN110429722A (en) * | 2019-07-23 | 2019-11-08 | 华南理工大学 | A kind of parallel connection type fractional order autonomy wireless power transmission systems |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140910 Termination date: 20170331 |