TW201145759A - The Switching charging device with power - Google Patents

Abstract

A charging apparatus with power of switching, is composed of a power factor adjustment circuit, a charging processor circuit, and more than one battery; the power factor adjustment circuit, is disposed on the power input terminal, has at least a first everlasting nano-interconnects resonant chamber; said charging processor circuit, is disposed on the power factor adjusting circuit and an output terminal battery forming electrical; by first everlasting nano-interconnects resonant chamber the generated resonant, damping-effect achieving and battery resonating dynamic pfcpower factor adjustment, ream electrify processor circuit in frequency adjusting action upper, hand-held resonating to output electron flow pattern for battery without generating the temperature of a rapid charge, since system of plates charging and path, discharge different and without maximum power consumption of the transfer problems presence, so also has times can charging and grant meanwhile charging and discharging effect.

Description

201145759 VI. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a type capable of charging various types of power sources to charge a battery, which can generate a fast charge without temperature, and does not have a problem of maximum power transfer. The same charging: It also allows the power charging device with the same renting power, and the electric charging device with electric power. [Prior Art] Lu press, AC or DC continuous power supply from different types of batteries want to use the battery to store power 'need to be handled by the charger or charging device, in order to effectively match the matching power to the battery; various cranes Power, generally different chargers or devices 'These chargers consist of a PFC power factor adjuster and a frequency processor; for example, Figure! For the use of f - a charging device for AC power (for example, commercial power), the Sheng Lu PFC power factor adjuster 12 electrically connected to the power input rectifier 1 1 is based on the type of the battery 13 (resistance) 'V, vibrating to produce dynamic impedance matching, and frequency processor 丄4 set at the output of ρ ρ c power factor adjuster 1 for frequency adjustment of the current output to battery 丄3; wherein the PFC Power factor adjuster! 2, is to use a regulating wafer worker 20 to trigger a transistor Q1, so that the input terminal power supply through the first inductor ^ forms a power source that resonates (dynamic impedance matching) with the battery 13, and the frequency processor 14 is used to adjust the frequency aa chip 1 4 0 triggers a transistor Q2, so that the power factor-adjusted power source generates a current that matches the charging frequency of the battery 13 via the second inductor L2 to charge the battery 13'. Figure 2 is a conventional use for high-power DC. The charging device of the power source (such as 201145759 fuel cell), the DC power input terminal p F c power factor adjuster 2 2, also uses the regulating chip 2 2 〇 to trigger a transistor, so that the input terminal power is formed through the first inductor ^ The battery 2 3 resonance (dynamic impedance matching) power supply 'the frequency processor 24 4 ' provided at the output of the PF C power factor adjuster 22 triggers most of the electricity by using the majority of the FM chips 24 〇 '241, 242, and 24 3 in parallel. The crystals q2, q3, Q4, Q5, the power factor after the power factor adjustment, and then (four) two inductors [2 to produce a current that meets the charging frequency of the battery 2 3 to be right. Battery 2 3 charging H whether it is AC power charging For the setting or DC power charging device, the following items are missing: 1 The first inductance Li of the PFC power factor adjuster 丄2 (or 2 2 ), the white factor and the battery 13 (or 2 3) have poor resonance and generate back electromotive force. , hindering the positive suspension operation of pf C. During the charging process of the battery 13 (or 2 3), there will be a momentary power failure or a low LD Low (Low Drop Out). ^ 2 The second inductor l2 of the frequency processor 14 (or 2 4), sometimes full power ~ phenomenon occurs 'and the elimination is slow, the temperature is high, causing the battery 13 (or 2 3) terminal power & ~ shift ( Gffsat) is very 'easy to charge unstable. The first inductance and the second inductance L2 will cause insufficient power due to the gap between the coil and the core gap = gate, and it is easy to saturate (no action or reaction), affecting the normal charging of the battery 3 (or 23), or at least not (Power) fast charge. 4 Tian battery 13 (or 2 3) is charged with the equivalent of the most = power transfer theorem shown in Figure 3, the result of charging by current charging method, there is poor reaction efficiency, storage J (only half of the maximum), The charging speed is slow and the temperature is high (the battery is vulnerable to m 4 201145759), and because the charging and discharging paths are the same, it cannot be charged to the electricity at the same time. ===_The development of energy is highly valued, and all kinds of energy are converted into power = 4 It is often necessary to store the power in order to get the most adequate or most reliable and safe charger _, which will be used in excellent performance, high efficiency or device pairing. / _ 'The current loop formed by the charge, the technical problem that is difficult to improve or solve in the above-mentioned multiple power-down treatments - ^ Road) is the opposite of the backward flow of the electron flow u-electron formation (four) read Describe the problems of Ss. For ^: human shooting (4) (four) side public (four) 2 GQ 7 2 9 7 〇 = with 1 channel touch side, can be used to dynamically block the nonlinear motivation of the system, including dynamic factors = full The pass filter can be completely analyzed; there are two:, the power supply is supplied by the electronic flow state, and the real thief is used to overcome the use of the electric sewing device. 201145759 [Summary] The main purpose of the present invention is In the provision of a kind of power conversion material exchange charging skirt and by - stepping PFC power factor adjustment circuit, - charging processor circuit ==! electricity:!; the factory to maintain p F c power factor adjustment circuit, "Zheng Zhengzhou" state is electrically connected with the power input end of the parent flow power supply, and one: ', the first transistor of the rectifier is connected to the transistor Qi, the trigger body, the body piece'-electrically serially connected to the first transistor (^ Infinite resonance residual, daily Q! and the second shop of the non-test Wei cabin, Di and - parallel surface poor total = output capacitor C; the charging process n circuit, in the step-down two, the adjustment circuit output parallel There is a diode D2 and a capacitor &, ^ force rate factor = a parallel circuit with the diode d2 Inductance L2, and the two sides === The parallel circuit between the senses L2 is also connected in series by a second! c: ..., crystal Q2; the battery 'passes through the charging; the output of the electron adjustment circuit is electrically Sexual connection, and in the capacitance G and the drop factor = two: L: _ FC power factor adjustment circuit no: poor resonant inductor Ld connected to each other in an electrical damper% C power - the power input The AC power rectification of the terminal input, the PF is performed, and the resonance and damping effects generated by the _==^ edge of the first-C chip triggering the vibration of the first transistor C are achieved with the battery. Phase II, reading the second process of charging A Hf road u does not produce rapid charging of the battery, and because the battery is charged 6 ΐ S] 201145759 Electricity and discharge slightly different diameter and no maximum power has double charge t and allow for the benefit of the same electric material. The problem exists. Therefore, the second purpose of the present invention is to provide the second type, at least by the - boost PFC power factor adjustment two charge = type charging device and more than one The battery is constructed, and the boosting p F c power processor circuit is electrically connected to the power input end of the DC power source. And electric power: 'system grab, source wheel human end - pole-connected wire-level resonance ^ a diode with the = level resonance age Di, - the secret resonance ^ = the first transistor Ql'. - triggering the first electric crystal called -! 22 - the capacitor Ci in parallel with the output of the diode 〇1; the charging processor circuit, the output of the PFC power factor adjusting circuit is connected in parallel with the diode D2 and one =C2, the capacitor C3 is connected in series with the diode L to form a parallel circuit of the inductor L2, and the parallel circuit of the 曰~ pole body D2 and the inductor (4) is also connected in series with the second jc fish 2 The second transistor &; the battery is electrically connected to the output end of the f-channel through the charging processor circuit c = firm PFC power factor, and is connected in parallel on the string wiring path of the capacitor L2; its t, the liter Fresh F c power factor to adjust the body. The infinite-order resonance test is composed of an electric resistance device Xul and a capacitor Q connected in series with each other in series with an inductor L1. The DC power source is input from the power input terminal, and the γ F c power factor adjustment circuit is A Jc wafer triggers the first transistor Qi, the action* is generated by the thermal poor resonance, the damping effect reaches the power storage, and the dynamic PF c power factor is adjusted, which makes the charging process II circuit the second ' The 1 C chip triggers the second transistor Q2_ paste, and can resonate with the wheel 201145759=the type of electron flow to charge the battery 5◦ without generating temperature, and the circuit is also replaced by ~0 Caicheng does not have the biggest difference _ energy consumption exists in the case of the incumbent, there is a double charge and the discharge is allowed to 放电. The output of the boost PF k force rate gj element adjustment circuit is also connected in parallel - buck = rate factor adjustment circuit As another input terminal of the charging fine circuit;

The C power factor adjusting circuit is a power transmission connection of the through-rectifier and the AC power source, and has a third transistor Q3 electrically connected to the rectifier, and a third 1 C chip that triggers the third crystal Q3, and electrically connected The third transistor Q3H Q3 is connected in parallel with the second filament stage resonance diode _ 3 and a capacitor C4 at the output end of the second infinite stage resonance cabin; and the above-mentioned first-infinite-order resonance robbing is connected by "inductor L3" Connected to each other - electrical damper, electric valley Cs composed of '俾 power input terminal input AC power supply through the turbulence 'buck PFC power factor adjustment circuit of the third IC chip triggers the third electricity; body Q3 action ' Using the resonance and damping effects generated by the second infinite resonance to achieve dynamic pFc power factor adjustment with the battery resonance, so that the -1 C chip of the charging processor circuit triggers the frequency adjustment action of the second transistor , Also resonant with the output electron flow __ storage material to produce temperature double charge fast charge, and scale discharge at the same time; according to the DC power supply wheel battery charging and battery discharge occurs when the power supply is insufficient _, get (four) electric and other technology Wei _ People for power supplement. The purpose of this month is to use an exchange-type charging device with power conversion, which is composed of at least a F-power factor adjustment circuit, a high-power charging processor circuit and a group of batteries; F c power factor adjustment circuit, through the 201145759 4 Π", the power input end of the high-power AC power supply is electrically connected, the first crystal Qi of the rectifier is connected, the first ^ CB chip that triggers the first transistor Qi' Electrically serially connected to the first cell of the first transistor, the private Japanese body Qi. The diode connected in parallel with the first infinite resonant cavity and the capacitance C of the first infinite resonance _^ terminal; The high-power charging processor circuit is connected to the output of the step-down PFC power factor adjusting circuit - the extreme string is set to a second non-level co-seam and the second extreme parallel - the third infinite level resonating; the second infinite level =. The cabin is electrically connected in parallel with the first group of batteries, and the second transistor Q 2 triggered by the second chip is also connected in parallel with the body D2, the second The infinite-order resonant cabin is electrically connected to the output of the step-by-third IC chip and the output of the step-down PFC power factor adjusting circuit, and also through a diode D3 and the second battery. Extremely parallel electrical connection; wherein the above-mentioned first-infinite-order resonant vessel is composed of an electric The sensing unit is composed of an electric damper XU1 and a capacitor C2, and the second infinite resonant tank is an electric damper Xu2 and a three-dimensional valley which are connected in series by a super inductor L2. The third, infinite, and the second infinite-level resonant vessels are also composed of a super-electrically-reduced L3 sub-connected-electrically damped H Xu3 and -capacitor C4; the 俾rectifier is connected to the power supply. The high-power AC power rectification of the input terminal, the step-down PFC power factor, the first IC chip of the whole circuit triggers the action of the first-electrode Qi, and the resonance and damping effects generated by the first infinite-order resonance cabin reach the same The first and second sets of battery resonances are driven by the HP FC power factor and the high-power charging process||the second IC chip and the third jc chip respectively trigger the second transistor Q2 and the third transistor 201145759

The frequency adjustment action of Q3 generates an electric pump action by the resonance and damping effects of the second and third stepless resonance capsules, and the resonance of the electronic flow pattern is not 4'' of the first and second sets of batteries. Even charging 'Because the charging and discharging paths of the first and second groups of batteries are not the same, and there is no maximum power transfer problem', it also has the effect of double-charging and allowing simultaneous charging and discharging. In addition, the above second infinite resonance The super-inductance of the test, and the super-inductance L of the third infinite stage, are the inductance of the coil and the core containing the strong magnetic ϋ 'According to the electrical properties produced by the super _ L2 and the super inductor Q Pump function, energy and nature of the super-capacitor _ first, two _ electric turn into a horse; and the above rectifier can be a two-phase rectifier circuit, 俾 provide high-power two-phase AC power supply for rectification; It can be a three-phase whole circuit with 'R, s, τ three-pole power input terminal, and the R, S, and D three poles of the three-pole AC power supply from the R, s, and τ three-pole power input. Electrical connection, to provide high-power three-phase power generation device The power supply is rectified. Another object of the present invention is to provide a switching type charging device with at least one power conversion, at least a boosted PFC power factor adjusting circuit, a high power charging processor circuit and two sets of batteries; c power factor adjustment circuit, which is electrically connected with the large-scale DC power _ power input terminal, and has a diode D of the parallel power supply input end. , a second diode D. After the pole and the power supply wheel are connected in series: the diode of the infinite-order resonance m-wire resonance chamber is connected in series, and the first transistor in parallel between the first-infinite-order resonance cabin and the diode D1, ^ First - transistor Q, the first! C chip, a high-power charge processor circuit in parallel with the diode Di output, is in the boost ppc power factor adjustment power 10 201145759 road output - extreme string Let the second infinite-order resonance residual two-extreme parallel-the third infinity and/or the vibrating, the first pan-difference resonant cabin is electrically connected to the first group of the sump pool through a diode & And a second transistor Q2 triggered by a first:I two chip is further connected in parallel with the diode A; the third infinite resonant cavity is transmitted through a third electric device triggered by a third 1 C chip. The crystal Q3 and the step-down PFC power are connected by the output-extreme electrical connection of the modulating circuit, and are also connected to the second group of batteries-extreme parallel connection through a diode & the first, the above-mentioned , is an electric damper xui and an electric private entity which are connected in series with the inductor Llii, and the first flawless resonance capsule described above It is composed of a super inductor, a parallel-connected-connected damper, and a three-capacitor C3. The third infinite grade eight is also connected by a super-inductor in parallel with each other - an electric damper Xu3 and electricity. The valley C4 is composed; the high-power DC power supply is input from the power input terminal, and the first IC chip of the Dust/PFC conversion factor adjustment circuit triggers the resonance of the first transistor, and the resonance and damping generated by the first-infinite level gambling The effect reaches the dynamic PFC power factor adjustment with the resonance of the first and second sets of batteries, and the second of the high-power charge processor circuit! The CW and the third i Q slice are divided into the second transistor Q3_ rate adjustment action, and the first and third infinite resonances are performed one by one, and the P and N effect produces an electrical millet effect, and the resonant electron flow can be resonated. Type::: The battery does not heat up quickly, because the first and second groups of batteries are filled with the problem, so _ times can charge 3 with the shouting h increase: 峨 抢 抢 Super L 2 and second The super-inductor L3 of the infinite-order resonance cabin is composed of a coil and a magnet with a strong magnet of 201145759. According to the electric effect produced by the super inductor L2 and the super inductor L3, the energy and the nature are ultra-large capacitors. Sexual first and second sets of batteries, forming a match 'again' the above-mentioned boost p F c solution factor adjustment f-channel output is also connected in parallel with - step-down PF c power factor adjustment circuit as a high-power electric processor circuit - Input terminal 'The buck pFc power factor adjustment circuit is through-rectification. . Electrically connected to the power input end of the high-power AC power source, having a fourth transistor Q4 electrically connected to the rectifier... triggering the fourth transistor of the fourth transistor q4' is electrically connected to the fourth transistor q4 a four-wire class cabin, a diode connected in parallel between the fourth crystal Q4 and the fourth infinite resonant tank, and a capacitor C5 connected in parallel at the fourth end of the common-slit output, and the fourth infinite resonant tank It is composed of - the inductor l4 is connected in parallel with each other - an electric damper Xu4 and a capacitor ^, the input of the power input end of the power supply is rectified by the rectifier, the step-down pf two adjustment circuit is triggered by the fourth ic chip @ The action of the Japanese 曰曰 曰曰 触 触 弟 四 四 四 , , , , , , , , , , , , , , 日 日 日 日 日 日 日 日 日 日 日 日

The second PW and the third Ic wafer trigger the scale adjustment of the second and third transistors Q2 and Q3 respectively, and the second and m-level collinear wires are respectively adjusted. Resonance and damping effects produce electric chestnut action, and also resonantly charge the first and second groups of batteries without charge by electron flow pattern, and allow simultaneous discharge. According to various types of high-power power generation in energy development ί current power supply or A power AC power supply, can be synchronized or divided:: supply speed, t, full, double charge can be charged into the second... storage and discharge; in addition, the rectifier here can be two-phase, Provided ^ 201145759 = rate: phase:::: carry out - phase rectifier electric input terminal 舆 high power intersection", 7 three-pole power supply provides the "three-layer secret" - "electrical connection, according to the electric power _ line rectification Set, to the second pressure == for a power-switched switching charger circuit and ~ adjustment circuit, a high-power charging processing circuit, through the 73⁄4 敕 livestock 1 pool; the PFC power factor adjustment circuit Through-rectifier and large electric body Q! '-trigger - transistor Qi rob, one ^ two, '- electrical series connection - the first infinite resonance of the transistor Ql - the diode and the first-infinite-order resonant contact parallel diode 〇 and a parallel in the first infinity The capacitance of the resonant terminal of the stage resonance C}, wherein 'the first shirt = wire, which is connected in series with the inductance Llil - the electric damper ^^ one body d2, D3, d4, D5, De, 〇7 and The battery is electrically connected to the second pole; the high-decharge charging processing circuit 11 includes a three-phase frequency-modulated 4-converter and a damper; the three-phase frequency regulator is connected to the step-down C The power factor adjustment circuit has two-pole electrical connection at the output end, and has three-phase U, V, and W-pole output terminals, and the three-phase U, V, and _ output terminals are connected in parallel with the output terminals of the Fortune p F c power factor tuning circuit. Each of the series has an electric body Q2, Q3, Q4, Q5, q6 q7 controlled by a trigger chip, and the converter has a three-phase u, V, w pole wheel end and a three-phase frequency adjuster. , v, w pole output terminals are electrically connected, and the three phases! 7, v, W pole round human end and the group # battery and _ points τλ ~ ^.

[S] 13 201145759 The damper is connected to the three-phase u, v, · W input terminals of the converter by the U, v, and w terminals, respectively. There are also second, third, and fourth infinite-order resonance grabs, wherein the second, third, and fourth infinite-order resonant capsules are respectively electrically connected by -inductors L2, L3, and L4 in parallel.

= XU3, Office 4 and - Capacitor C3, C4, W; 俾Rectifier rectifies the high-power AC power input to the power input terminal, step-down 卩F The first circuit of the F-chip triggers the action of the first transistor Qi The resonance and resistance levels generated by the first-stage resonance grab should reach the dynamic PF c power factor adjustment of the resonance of the group of batteries, and the trigger chip of the three-phase frequency regulator of the high-power charge processor circuit respectively triggers the transistor Q2, Q3, Q4, Qs, Q6 adjustment and three-phase U, V, W pole output output multi-function action, then through the phase shift of the 2 converter, in the absence of maximum power transfer problem, The electronic model complains that the high-power double-capacity that does not generate heat in the battery pack is quickly charged, and is charged and discharged. The path is different, and it is also allowed to charge and reduce power, and when the battery is _ saki battery, and because of the second, third, and fourth dampers of the damper... 躬,, and the resonance cabin and the battery Vibration, damping effect, it can absorb the anti-electric scale or eddy current; in addition, the above rectifier can be a three-phase rectifier circuit, with R, mountain 1 two-pole power input, 俾 and big turn three her power supply _ , s,? The three counties have a high-quality connection, which is based on the supply of high-power large-scale three-phase escaping. The second re-purpose of the present invention is to provide an exchange charging with power conversion. 〉, consisting of a dust-up PFC power factor adjustment circuit, a high-power charging imaginary circuit and a battery pack of above-group; Turn pFc power factor adjustment 201145759 The whole circuit 'pour power DC_electric_, the diode D of the power supply input. , - following the two poles ^ raw connection 'has, and cascaded the first - infinite level of total reduction, - after the scale and the power input end ~ the core Di, - in the first - infinite resonance cabin and the two vibration chamber cascaded two The first capacitor C1 of the first transistor 触发, which is the first transistor 触发 of the first phase of the inter-chip of the transistor Q1, wherein the first-infinite ugly record is recorded at the end of the first-pole body D1. Connected-electric damper X shouting - electric inductance phase (four) road, including - three-phase frequency regulator - converter and - damper; 兮) phase frequency adjustment H, system and step-down P ~ two

The force factor of the sheep is neat the output of the circuit. The two-pole I-connected 'has three-phase U, V, w poles · the end and the step-down PFe_ + t °' - phase U, V, W pole wheel _v force early mouth two The output of the whole circuit is connected in parallel with the two poles. The transistor Q2, Q3, Q4, Q5, Q6 and Q7 are controlled by the trigger. The conversion has two phases of 11, V, w pole input and three-phase frequency adjustment. The three U v W poles of the device are electrically connected, and the three-phase u, V, w pole input terminals are Ά, and the batteries are connected in parallel through the diodes, d3, D4, d5, De, 7... The two-pole electrical connection of the livestock battery of the Hai group; the damper is electrically connected by the u, V, w poles of the two-phase u, V, W poles of the conversion 2, the u, V, w The pole ends are also connected in series with the second, third and fourth infinite resonance capsules. Among them, the 兮 一 一 - Le one, two and four infinite resonance capsules are respectively connected by an inductor l2, l3, L4. A series of electrical dampers XU2, Xu3, XU4 and a capacitor C3, 4 Cs are connected in series, and a high-power DC power source is input from the power input terminal to the first jc chip touch of the boosting p FC power factor adjusting circuit. The movement of the first transistor Ql, y 15 201145759

2. The resonance and damping effects generated by the first-infinite-order resonance grab achieve dynamic PFC power factor adjustment with the super-battery resonance, and the trigger chip of the three-phase frequency adjuster of the high-power charge processor circuit respectively triggers the transistor H Q5, Q6 Q7 frequency adjustment and three-phase U, v, w pole output end of the electron flow double-action action, through the phase conversion of the converter, in the absence of the maximum power transfer door problem, the electronic Flow pattern _ touch my pool does not heat high power double charge, charging, and due to charge and discharge path alone, also scale _ charge and discharge, and electronically charge the battery pack, and because of the damper second, third, The four infinite squad and the battery of the group have a peak of j;;, 13⁄4 Ρ 4, h pool generates /, vibration damping effect, so it can absorb or eliminate the reverse or full current; The round-off end of the adjustment circuit of the company also reduces the FC power factor adjustment circuit as the other input end of the high-power charging processing circuit, and the PF c power factor adjustment circuit is transmitted through a Electric power The transistor Q8 with an electric rectifier, the I c chip for triggering the transistor Q8, the red omnidirectional collinear wire electrically connected to the transistor Q8, and the diode d8 parallel between the Q and the red 2 vibration chambers _ #辟—* ...躬,, and a total of ^Ce, yP in the fifth non-hiding gambling output f f valley U and S Xuan fifth infinite level resonance cabin electrical resistance parallel splicing -

Electric I Wang I and Ni state into Us and - Electric passenger C production Gong, 7? material,,, into the '俾 杂 杂 端 端 端 端 大 大 大 大 大 大 IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC The action of the Japanese and Japanese Qs uses the resonance and %N effect generated by the fifth infinite resonant cabin to achieve the dynamic PFC power factor adjustment with the set of battery north, silver resistance η..., and the ancient power charging processor circuit The three-phase fans and the same frequency _ the trigger chip on the whole trigger triton 201145759 body 2 Q3, Q4, Q5 'q6 q7 frequency adjustment and three-phase U, V, W pole output output electronic double action, It is also through the conversion (four) phase conversion, in the most 切 ___, the electronic flow crane _ saki battery is not: hot to the speed can quickly charge and allow the same report, listening to the Nuni equipment II The three, four infinite levels are recorded together with the battery to generate resonance and damping effects, and absorb or eliminate the back electromotive force fine current. According to the energy, all the large-power large-scale power generation devices, whether generating high-power DC power or high-power exchange The power supply can be as fast as the 乂 or the knife. The full and double energy can be stored by the battery pack or discharged at the same time; in addition, the rectifier can be a three-phase rectification circuit, and has R, s T three-pole power input end, 俾 and high-power three-phase AC power supply, The s, τ terminals are electrically connected to provide rectification of the high power source. Electricity generated by the Liyang L-phase power generation unit [Embodiment] - Used for the storage of electric power generated by various energy-generating farms in the industry, or the battery used for the storage of electric energy storage batteries. The need to allow discharge during fast charging and charging, the present invention achieves this purpose and performance by various embodiments. The second embodiment, such as the first embodiment of tr month, is an exchange charging device with power conversion, as shown in Fig. 4, at least by a lowering pfr ^ Φ π ± Ray ^ ~ " n C power factor adjustment circuit 3 0 , - Charge =: = 4 〇 and more than one battery 5 〇

The power factor adjustment circuit 3〇 is electrically connected through a L L L power supply, 7 is: = 6 Q and the AC power supply 7 0 〃 has a first connection to the rectifier 6 2011 first 201145759, - triggering the first Ic wafer 3l of the first transistor Q1, the transistor Q: in series with the infinite order common impurity 72 of the first transistor Q1, :: the diodes Di and one parallel connected in the infinite-order resonance 1 test

The power is due to the Sinde I processor circuit 4 Q, which is in the drop · FC ... circuit 30 rounds out of the parallel terminal - diode 仏 and - capacitor core, the 1_2 battle __ sense L2, and the two body secret The parallel circuit between the inductors L2 is also connected in series with the second JC chip 4, the second transistor Q2; the #battery 5 〇 (which can be a fast_cell) is passed through the charging processor circuit 4 to reduce the ppc power: ::峨, and it is in the capacitor. With the electric "string two ^ two" the _FC power phase adjustment circuit 3 〇 infinite level of the total recording 3 · the composition of the cold rectifier 6 〇 to the power input terminal 7 1 rounded AC power 7 〇 (example 2 such as the mains Rectification, off the PFC power factor adjustment circuit 30 -1 (: crystal (3) triggers the action of the transistor - Ql, the resonance and damping effect generated by the infinite common _2 达# battery 5 Q resonance dynamics The power factor of the pF c is adjusted to f, which causes the second IC chip 4 i of the charging processor circuit 4 Q to trigger the second, fresh-adjusting action of the body Q2, and can resonate with the type of the output electron flow. · Battery 50 does not produce rapid charging of temperature, because #电池5 ◦ _ and the discharge path do not cost a lot of power _ _ exist, electricity and the benefits of simultaneous charging and discharging. The second embodiment of the present invention is a Switching charging device for power conversion, such as 201145759 Figure 5, at least by a boost ρρρ#, Xuan, c power factor adjustment circuit one from the tank power ''3' 与A' series with DC power supply 7 Q (eg small The power input end 71A of the solar cell is electrically connected, and the ancient one has a total The input terminal of the diode 〇 '一'. k diode Dq and the power input ^Q 0 A 鳊, 1A ~ pole series of infinite-order resonance Γ and infinite resonance robbing 3 2 A series of diodes Dl, a first crystal in parallel between the infinite vibration chamber 3 2 A and the diode D1, a first c-chip 3A that triggers the first body, and a parallel connection at the output end of the diode ο! Valley Q; the charging processor circuit 4 is connected to the output of the boosting pfc power factor adjusting circuit 30 with a diode D2 and a capacitor c2 connected in series with the diode D2. The inductance L of the parallel circuit, and the parallel circuit between the diode a and the inductor 12 are also connected in series with a second ic wafer

-, crystal Q2; the battery 5 〇 (can be a fast charge (four) pool), through the charging process, the circuit 4 is connected to the output of the boost PF C god factor adjustment circuit 3 Qa and is connected to the capacitor Ο and the inductor The serial connection line of L2 is connected in parallel; wherein, the infinite-order resonance cabin 3 2A of the rising and pressing p FC power factor adjusting circuit 3 QA is an electric damper Xui and a capacitor c2 which are connected in series by an inductor L! The composition, 俾DC power supply 7 0 A is input by the power input terminal 7 1 A, and the IP IC power factor adjustment circuit 3A of the first IC chip 31A triggers the first transistor QW action 'by infinite resonance The resonance and damping effects generated by the chamber 3 2A reach a dynamic p FC power factor adjustment that resonates with the battery 5 ,, which causes the second IC chip 4 1 of the charging processor circuit 40 to trigger the frequency adjustment of the second transistor q2 [S] 19 201145759 ^ (4) The electric flow of the crane rides 5 (four) produces It: the charge of the battery 5 与 is different from the rose electric path and there is no most: the discharge ^ is still there, so it also has multiple times And the output of the charge and the output of a, and the boosting p F Cl force rate factor adjusting circuit 3 is charged The PFC power factor adjustment circuit 3〇b is used as the 'rate factor rate adjustment circuit 3 0 B , which is transmitted through a rectifier 6 〇 power input terminal 7 i to mt read 7 ◦ (can be a commercial power) Sexual connection (10) third heart body q3 'one triggers the third crystal Q3 of the third C C ^ ^ tandem the third transistor (33 of the first poor power 0 heart Μ music ... general, vibration chamber 3 2 Β, - in The third transistor: a first-infinite-order resonant capsule 3 2 parallel-connected diodes 仏 and a capacitor C4 connected in parallel at the output end of the cascode 3 2 ;; and the second infinite-order resonant 疋 is connected in parallel by the inductor L3 Connected-electric damper XU2 and -η敏^ are composed of '俾 power input terminal 71 input AC power supply 7Q through the finishing device 6 step-down PFC power factor adjustment circuit 3 〇 β third to wafer 3 trigger third The action of the transistor q3, using the second infinite-order resonance to grab the resonance and damping effect of the 3 2 b - the dynamic pfc power of the resonance with the battery 5 Q - the second IC chip 4 of the charging processor circuit 4 In the frequency adjustment action of triggering the second crystal Q2, the type of the electron flow that is also resonating is not produced for the 2 pool 50. The temperature can be quickly charged and allowed to discharge at the same time; according to the direct μ source 7QA input charging the battery and the battery 5 〇 (p, miscellaneous) discharge occurs (load) power supply is insufficient, get AC power such as mains 7◦m 20 201145759 Timely input for power supplement.

The third embodiment of the present invention is an exchange charging device with power conversion, as shown in FIG. 7 'at least by - stepping p F c power factor adjusting circuit 3 一大, a large power charging processor circuit 4 QA and The second group of batteries 5 QA, 5 QB is composed; the step-down PFC power factor adjusting circuit 3Q is electrically connected to the power input end 7 i of the large = rate parent current source 7 0 through the rectifier 6 , The first infinite crystal of the first transistor & the first transistor ^ 3 is electrically connected in series with the first infinite resonant cavity of the first transistor. a diode 并联 connected in parallel between the first transistor Q1 and the first-infinite-order resonant capsule 32 and a capacitor q connected in parallel at the output of the first-infinite resonant cavity 32; the high-power charging processor circuit 4 QA In the buck p F c power factor adjustment circuit 3 轮 wheel out an extreme string set - second infinite stage resonance residual 4 2 and two extreme parallel - third infinite level resonance residual 4 3 ; the second infinite resonance 4 2; through the through-diode to electrically connect with the first group of battery 5 QA - extreme parallel, and it is also connected in parallel with the diode D2 - a second transistor Q2 triggered by the second 1 C chip 4! A; the third phase is a total of 4 3, the third transistor Q3 triggered by the -3 IC; 4 1 B and the buck The output of the PFC power factor adjustment circuit 3〇 is connected to the '' and the second-pole ❹3 and the second group of batteries 5〇P extreme parallel = raw =, material, increase - tender her 3 2 heart - inductance ^ and W mesh Connected - the electrical resistance MXU1 and "capacitor", and the above: the infinite level is reduced by 4 2, which is caused by the - super (four) sensible damper, and the three-wire resonance is grabbed 4 201145759 3, also An electric damper connected in parallel with a super inductor La is known to be 3 and a capacitor C4 is reduced; 俾Rectifier 6 (10) electric hybrid terminal 7 1 round human high-power AC power supply 70 rectification, step-down PFC power factor adjustment The first work chip 3 1 of the circuit 3 triggers the action of the first transistor, and the resonance and damping effects generated by the first infinite resonance 3 2 reach the first and second sets of batteries 5 〇Α, 5 〇 The _PFC power factor adjustment of the Β resonance, and the second 1 〇 wafer 4 1 厶 and the third 10 wafer 41 5 5 of the high power charging processor circuit 408 respectively trigger the second ^· day The frequency adjustment action of the body Q2 and the second transistor Q3 generates the electrical $ side by the resonance and damping effects of the second and second infinite resonances 4, 4 3 , and the electron flow pattern of the resonance -, two sets of batteries 5 〇Α, 5 快速 fast charging without heating 'Because the charging and discharging paths of the first and second sets of batteries 5 〇Α, 5 不同 are different and there is no maximum power transfer problem, there is a double energy The advantages of charging and allowing simultaneous charging and discharging, and the super inductor L2 ' of the second non-neo resonance chamber 42 and the super inductor of the third infinite resonance 4 3 are all composed of a coil and a ferromagnetic iron. The electric raft formed by the core is based on the electric county function generated by the super inductor k and the super inductor ^, and can be matched with the second-class 5, A, 5GB configuration of the super-capacitive nature; For the two-phase rectifier circuit, the high-power two-phase AC power line is rectified; as shown in Fig. 8, the above rectifier can be a three-phase rectifier circuit 6 QA with r, s, τ two-pole power input 71Β , 俾 by R, s, three-pole power input terminal 7 i _ high-power three-phase AC The three poles of the R, s and T of the source 7 0 B are electrically connected, such as the power supply provided by the high-power three-phase power generating device (generator) for rectification. 22 201145759 The fourth embodiment of the present invention is a kind of money conversion conversion type charging as shown in Fig. 9' at least by -·ΡΡ (: power factor adjustment circuit 3QA, - Dagong charging processing H circuit 4QA and second battery 5Qa, 5qb When the boosting PFC power is Wei 3〇A, the power supply input terminal 7 ic of the tilting rate DC 〇C (for example, fuel cell) is electrically connected, and has a parallel power input terminal diode D....secondary diode D. After the power-in input = pole-connected first-level resonance cabin 32A... and the first-infinite-order resonance robbed-hearted diode D1 ' - in the first-infinite resonance grab 3 2A and diode D, the first transistor Q1 connected in parallel, the first chip 3 3 A which triggers the first transistor ^, the capacitor q in parallel with the terminal of the diode ;1; the high-power charging: The circuit 4QA is in the step of boosting the PFC power, and the first infinite stage resonance chamber 4 2 and the second terminal are connected in parallel to a third infinite level resonance chamber 4 3 ; the second infinite stage The resonance chamber 4 2 is electrically connected through a diode of a diode-type battery, and is connected in parallel with the terminal, and is also connected in parallel with the diode. IC chip 4 1 Α triggered second transistor q2; the third infinite level resonator 4 3 ' is transmitted through - is - third] [c wafer 4 i B triggered third transistor Q3 and boost PFC power The factor adjustment circuit 30A is electrically connected to the pole and is also electrically connected to the second group of batteries 5 〇B-extreme through a diode D3; wherein the first infinite resonance chamber 32 is An electric damper Xm and a capacitor Q are connected in series by an inductor B in parallel, and the first infinite resonant tank 42 is electrically connected by a super inductor. The damper Xu2 and the three capacitors α are formed, and the third infinite-order resonance cabin 4 [s] 23 201145759 3 is also composed of an electric damper and a capacitor which are connected in parallel by the super inductor L3 in parallel; The power DC power supply 7◦C is input by the power input terminal 7丄c, and the “Ic wafer 31A of the boost PFC power factor adjustment circuit 30A triggers the action of the first transistor Q1” by the first infinite-order resonance ride. The resonance and damping effects reach the resonance of the first and second groups of batteries 5◦A, 5〇B, 4PFC work axis Adjusting, and the second 1 曰 chip 4lA and the third 1 c chip 41B of the high-power charging processor circuit 4QA trigger the frequency adjustment actions of the second transistor q2 and the third transistor Q3, respectively, by the second and third infinity Stage resonance 4 2 2 4 (4) Resonance, damping effect produces electricity county side, can resonate in the electronic flow pattern to the first and second group of batteries 5 〇A, 5 0 B does not heat fast charging, because, group one, two The battery 5 〇A, 5 QB has different charging and discharging paths and does not take the problem of discrimination. Therefore, there are double-energy charging and charging and discharging of the effect vessel' and the above-mentioned second infinite resonance is 4 2 super Inductor L2, and the third non-φ poor..., the super-inductor L3 of the reverberating 4 3 is composed of a coil and a core with a strong magnetic core, and the inductor is based on the electric power generated by the super inductor and the super inductor. The characteristics of the chestnut, the energy and the nature of the super-capacitive first- and second-group batteries 5QA, 50B constitute a match; and the 'Figure 1〇, the above-mentioned boost PFC power factor adjusts the turn of the electric ^3〇A Also connected in parallel with - step-down PFC power factor adjustment circuit 3〇, two for large power processing 11 circuit 4 0 A In addition, the input terminal, the (four) P F c = prime adjustment circuit 3 ◦ B ' is through the - rectifier 6 〇 and the high-power alternating current (four) 〇 power input end 7 i electrically connected, with - electrically connected rectifier 6 〇, Electric Japanese body Q4, triggering the fourth transistor (34 fourth J c wafer 3 1 B, 24 201145759 - a fourth trackless resonance cabin 3 2 B electrically connected to the fourth transistor Q4, - in the fourth The diode Q4 is connected in parallel with the fourth infinite resonant tank 3 2 B and a capacitor & parallel in the fourth infinite resonance to grab the 3 2 B input (4), and the fourth no resonance is 3 2 B, is composed of an inductor L4 connected in parallel with each other, an electric damper shame and two electric valley 06, 俾 power input terminal 7 i round large power AC power ^ through the ignorance 6 0 rectification 'buck p F c power factor adjustment circuit 3 四 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 (10) a, 5 〇 B resonance _gp F c power factor adjustment, and high-power charging processor electric day film 41 A and third I c chip 4 1 B trigger respectively =, two days The body Q2, (4) frequency adjustment 'is generated by the second and third infinite resonance cabins, the resonance and damping effect of the human 3, and the electronic type is also sorrowful to the first and second groups of batteries 5◦A, 5 0 B fast charging without heat, and allowing simultaneous discharge 'According to the various types of great power generation devices (power generation) that can be used on the hair, the large-scale DC power supply or the large-turn power supply can be generated. 9-speed, stable, safe, double-energy-filled--, two-group battery 5 〇A, 〇B when stored in steel for discharge; in addition, 'the rectifier H 6 0 here can be a two-phase rectifier Wei, providing input to the person Figure 2 1 ' can also be a three-phase rectifier 6 0A circuit, with R, s, I three-pole power input end 71B, 俾 by R, S, τ three The R, S, and T terminals of the pole power supply terminal 7I and the power supply AC power supply 7 (10) are electrically connected. The power supply from the high-power three-phase power generation device (generator) is rectified. [S] 25 201145759

A fifth embodiment of the present invention is an exchange charging device with power conversion, as shown in FIG. 12, at least by a step-down pf C power factor adjusting circuit 3, a high power charging processor circuit 80 and a group or more ( The large-sized battery 5 is composed of 〇c; the step-down PFC power factor adjusting circuit 3 is electrically connected to the power input terminal 71B of the high-power AC power source 7 0 B through a rectifier 6 ,8, and has an electrical connection rectification The first transistor Q of H 6 〇A, the first IC chip 3 1 that triggers the first transistor 电 is electrically connected in series with the first-infinite resonant cavity of the first transistor Q1 3 - in the first The crystal is connected to the first infinite resonant tank 32 in parallel with the diode Di and a capacitor Ci in parallel with the first infinite-order resonance grabbing the 3 2 output, wherein the 'first-infinite-order resonant chamber 32 is driven by the inductor l, connected in parallel with each other; a damper XUl & - capacitor &composed; the high power charging processor circuit 8 〇 'contains - three-phase frequency regulator 8 1-converter 82 and - damper 8 3 'The three-phase frequency adjuster 81 is a step-down PFC power factor adjustment circuit 3 0 The two-pole electrical connection of the outlet has three-phase 卩, v, and hard-to-output terminals. The three-phase U, V, and W poles (four) and the PFC god factor adjustment circuit 3 〇 the output terminals are connected in parallel. The transistors q2, q3, Q4, Qs, = the converter 82 controlled by a trigger wafer 81 A, 8 i B, 8 , 8 1 E, 8 1 F, have two phases of three-phase u, v, w pole inputs The phase U, V, and W pole output terminals are electrically connected, and the three-phase U, . 〇 2, and D3 batteries 5 〇 C are respectively connected in parallel to the diode damper 83, and the battery is called the battery pack. :Electrical connection; /, u, V, W pole ends are respectively electrically connected in the three-phase S] 26 201145759 pole of the converter 8 2, the u, v, (four) terminals are mutually connected, age : There are two, three, and four infinite levels connected in series. 8 3 A, 8 3 b, 8 3 C, where '5 Hai second, third 'four infinite level resonance cabins 8 3 a, 8 3 b, 8 3 , C is composed of an electric damper 2 Xu3 Xu4 and a capacitor c3, c4, 〇5 connected in parallel with each other - the inductors L2, , and u are connected; the high power of the 俾 rectifier (10) A to the power input 71_ The AC power source 7 0 B rectifies, and the first IC chip 3 (10) of the power factor adjustment circuit 30 sends a first transistor, and the resonance and damping effects generated by the first-infinite-order resonance chamber 32 reach the group. Battery 5 〇C resonance dynamic p F c power factor adjustment, and high: force rate: electric processor circuit 8 〇 three-phase frequency adjuster δ on-board trigger chip 8丄' 8lC>81D, 8lE, 8lF respectively trigger The frequency adjustment of crystal Q3 Q4, Q5, q6 q7 and the three-phase u, v, w pole output = electronic reward, job _ δ 2 relay conversion, in the case of no extraction = power transfer problem, electricity Flow type _ Chi battery 5 〇 = hot high power double fast charging 'and different charging and discharging paths, also allow Ρ 'electricity and discharge, and the electronic flow is charged to the battery 5 〇 C, and because of —, 24F infinite resonance (4) 3Α, 83B, 83 雷# Battery 5 0 C generates resonance and damping effect 'so it can absorb or eliminate the reverse / 're-'. The above rectifier 6 〇 can be a three-phase rectifier circuit, source 7 0 B ^ ^ pole 5 input ^ 7 1 B '俾 is connected with high-power three-phase AC one-pole electrical connection, in order to provide rectification of the wire from the high-power, large-capacity device. m 27 201145759 A sixth embodiment of the present invention is an exchange charging device having a power conversion, as shown in FIG. 13' at least by a - boosting ppc power factor adjusting circuit 3a, a power charging processor circuit 8 - above the group (large) battery 5◦c household; the boost PFC power factor conversion circuit 3 QA, is electrically connected to the power input terminal 7丄c of the high-power DC power supply 70 C (for example, fuel cell), A diode Dq having a parallel power input end, followed by a diode D. After the first-infinite stage of the power input terminal 7 1 c-pole is co-sewn 3 2A, the diode 3 1 A is connected in series with the diode D1, in the first infinite stage 3 '2, the pole ^, the first transistor Qi connected in parallel, the first C-chip 3 1A ' of the first transistor-triggered - - the first capacitor a connected in parallel at the output end of the diode, wherein the first infinite resonance 3 2 H inductor Li is connected in parallel with each other - the electric damper XU1 and the capacitor C2 are mixed; the high power is compared with the Wei Li H circuit 8q, including = frequency adjuster 81 - converter 82 and a damper Μ; The three-phase, frequency modulator 81 is connected to the output of the step-down PFC power factor adjusting circuit 3◦, and has three-phase U, V, W pole wheel terminals, the phase-u, v, := and buck PFC Each of the power factor adjustment circuits 3 is connected in series with a transistor Q2 controlled by a trigger chip 8A, 8丨β 1 D, 8 1 E, 8 1 F, respectively, and the converter 82 has a three-phase phase The work of the three Qin ... output electrical connection 'two: rate machine 池 pool 50c parallel transmission separately - diode n [S] m (four) battery 5 Q e: Yu connection; hybrid 28 201145759 :: lose! LI even: pole = separately in conversion 8 2 ·, v, connected to the second, third, and fourth infinite resonance cabin 8 ^ connected 3 end 3 ^, also serial (four) two, three, four infinite resonance 08a S 3C, which consists of an inductor L2, L3, JB, and 8 3C are respectively an electric damper that is connected in series with a capacitor C3 and C4 ct. For example, the source wheel end plate 70C is triggered by the electric=C chip 31Α. Q_乍, the resonance and damping effect generated by the first-infinite=vibration reaches the axis of the group #电池5 0 β C power factor adjustment' and the high-power charging processor circuit 8' triggers the chip on the two-phase frequency adjuster 81 The frequency adjustment of δ1Α, 8ΐΒ, δ=8^ D, 81E, 81F___Q2, q3, q4, and the doubling action of the output electron flow of the three-phase U, v, w pole output, 7 through the conversion H 8 2 _ bit conversion In the case where there is no maximum power shift, the high-power double-capacity charging of the battery 5 〇c does not generate heat in the electronic flow pattern, and the charging and discharging paths are different, and _ charging and discharging are allowed, and the electrons are allowed. When the flow is charged to the battery pack 5 〇C, and due to the damper 8.3, the damper VIII, the finite damper resonance chambers 83A, 83B, 83C and the group Pool 5qc production: resonance, damping effect, so it can absorb or eliminate back electromotive force or eddy current; in addition, as shown in Figure 14 above, the boosting p F c power factor adjustment circuit 3 〇A's wheel end is also connected in parallel - 璧PF c power factor adjustment circuit 3 〇B as the other input end of the high-power charge processor circuit 8 ,, the step-down PF c power factor adjustment circuit U IS] 29 201145759 B 'system transmission-rectification n 6 QB and large turn The power supply terminal 71B of the AC power source 7 qb is electrically connected, and has a transistor electrically connected to the rectifier 6 〇β to - trigger the transistor (38! The C-chip 'is electrically connected to the fifth-order poor-order common fiber 3 2 B of the transistor Q8, and the diode-parallel-parallel in parallel between the electro-crystal 8 and the fifth infinite-order resonant tank 3 2 B is in the fifth infinity The capacitor C6 ' at the output of the 3 2 β of the resonant tank, and the third filament level is reduced by 3 2 b. It consists of an electric damper XU5 and an electric red 7 connected in series with each other. End 7 work b wheel. Into high power AC power supply 7 〇B rectified ϋ 6 〇 B rectification, buck pfc power factor adjustment circuit 3 0 B i C chip 3 ib trigger transistor Qs action, benefit five infinite The resonance and damping effects generated by the resonant cabin 3 2 B reach a dynamic pf C power factor adjustment that resonates with the group of battery cells 5 QC, while the three-phase frequency adjuster 8 of the high power charging processor circuit 80 triggers the wafer 8 Workers A, 8 workers B'81C, 81D, 81E, 81 F trigger the frequency adjustment of the transistor 〜, ~, · T, Q5, Qs Q7 and the doubling energy of the output electron flow of the Wang phase ^, v, w pole output The action is also changed by the converter 8 2 __, in the case of no maximum power transfer problem, the set battery 5 0 C is not in the electronic flow pattern. The heating south power double can quickly charge and allow simultaneous discharge, and is also the first, second, fourth infinite resonance cabins 8 3 A, 8 3 B, 8 3 C of the damper 8 3 and the battery 5 〇C Resonance, damping effect, absorption or elimination of back EMF or eddy current, ^ 乂 This source development of large-scale large-scale power generation equipment, whether it is generating high-power DC 2 or 疋 big AC power supply, are stepping or sub-idling, Stable and safe 'April b is stored by battery pack 5 Q c or used for eye discharge; moreover, here 30 201145759 T three-pole power supply, S, T three-pole set of electricity · Rectifier 6 QB can be three The phase rectification II circuit has R, s, and the input end 7 1 B, and is electrically connected only to the end of the high-power three-phase AC power supply 7 (10), and is rectified according to the bribe supply to the large three-phase source. The above method is better than the embodiment, and the equivalent method (4) of the above embodiment is still a technical example of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a circuit of a conventional AC power supply charging device. FIG. 2 is a schematic diagram of a circuit of a DC converter. FIG. 3 is a schematic diagram of an equivalent circuit for maximum power transfer. FIG. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 5 is a schematic view showing a construction circuit of a second embodiment of the present invention. FIG. 6 is a schematic diagram showing another embodiment of the second embodiment of the present invention. FIG. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 9 is a schematic diagram of a circuit configuration of a fourth embodiment of the present invention. FIG. 11 is a circuit diagram of another embodiment of the fourth embodiment of the present invention. FIG. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 12 is a circuit diagram showing another embodiment of a fifth embodiment of the present invention. FIG. 13 is a schematic view showing a configuration of a sixth embodiment of the present invention. FIG. 14 is another embodiment of the construction of a sixth embodiment of the present invention. Example circuit diagram 201145759 [Main component symbol description] Rectifier 1 1 PFC power factor adjuster 12, 2 2 Control wafer 12 0, 2 2 0 Battery 13, 2 3 frequency processor 14, 2 4 transistors Ql, Q2, Q3, Q4, Q5 inductance L!, L2 • FM chip 140, 240, 241, 242, 243 buck PFC power factor adjustment circuit 30, 30A IC chip 3 1 3 1 A Diode Di Capacitor q Electrode Qi Infinite Resonance Grab 3 2, 3 2 A Inductance L! Luth Electric Damper Xui Capacitor C2 Buck PFC Power Factor Adjustment Circuit 3 0 BIC Wafer 3 1 B Dipole Body D3, Ds Capacitor C4, C6 Transistor Q3, Q4, Qs Infinite Resonance Chamber 32B Inductance L3, L4, Ls [s] 32 201145759 Electrical Damper XU2, XU4, XU5 Capacitors C2, C6, C7

Boost P F C power due to 'tuning circuit 3 0 A diode Dq, Di transistor Qi

IC chip 3 1 A capacitor q infinite resonance cabin 3 2A inductor Li electrical damper Xui capacitor C2 charging processor circuit 4 0 diode D2 capacitor c2 inductor l2 1C wafer 4 1 transistor Q2 high power charging processor circuit 4 0A IC Chip 4 1 A, 4 1 B Infinite Resonance Gun 4 2, 4 3 Inductance h, L3 Electrical Damper XU2, XU3 Capacitor C3, C4 Diode D2, D3 Transistor q2, q3

Battery 50, 50A, 50B, 50C 33 201145759 Rectifier 6 0, 6 0A AC power supply 7 0, 7 0 B DC power supply 7 0A, 7 0 C Power input 71 High power charge processor circuit 8 0 Three-phase frequency adjuster 81 Trigger wafers 81A, 81B, 81C, 81D, 81E, 81F transistors Q2, Q3, Q4, Q5, Q6 Q7 • Converter 82 diode, 〇3, D4, D5, 〇7 damper 8 3 infinite resonance Grab 8 3A, 83B, 83C Inductance L2, L3, L4 Electrical Damper XU2, XU3, Xll4 Capacitor C3, C4, C5 [s] 34

Claims (1)

201145759 VII. Application for patents: 1 exchange charging power factor adjustment circuit with power conversion, a charging processor circuit and a PFC power factor adjustment circuit, the dust reduction PFC power factor adjustment circuit, the livestock battery The source of the power wheel is connected to the terminal, with - electric = and AC Q] '-trigger 苐 - the first of the transistor Qi! An infinite-order resonant capsule of the first-electrode body Qi of the health (10), in which the first electro-optic power is connected in series with the first electro-optic diode Di and the infinite-order resonant cabin and the processor circuit is lowered. Capacitor Cl: The charging diode 〇2 and the -capacitor C: The fine-light light circuit wheel (4) is connected in parallel - 罨C2, the capacitor Q is connected in series 盥 - the circuit of the circuit 2, and the pole body D2_D2 forms a parallel connection Connection, and is the e3 赖 ^mm 崎 出 电 ” C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C AC power rectification, step-down on ~ original 1C day (10) 璧 · FC power factor adjustment circuit · IC4 trigger - transistor Q1 action: resonance, resistance tank _ wheel (four) canning, the body makes the charge processor circuit The second τ ', the frequency adjustment action, the material W is triggered by the fast charging of the temperature of the second transistor ,, the type of the electric charge=2 is different from the charging and discharging path of the battery and does not have the most rc 1 35 201145759 High-powered lion reduction problem exists, so it also has double charge and allows simultaneous charging and The benefits of electricity. 2 · - The type of power conversion is more than the type of mosquito charging, at least by - Mp FC power factor adjustment circuit, - charging processor circuit and more than one battery; the boost PFC power factor circuit, It is electrically connected with the power input end of the DC power supply, and has a diode % of the input end of the parallel power supply, an infinite-order resonant cabin which is connected in series with the power input end after the diode D0, and a string with the wire level. Connected diode D1, - the first transistor Q1 in the stepless collinear and the second shop &amp; and - triggers the first !c wafer of the first transistor Q1, one in parallel with the terminal of the diode Di Capacitor C1; the charging processor circuit is connected in parallel with a diode body and a capacitor core at the output end of the boosting fc power factor adjusting circuit, and the capacitor &amp; is connected in series with the inductor forming a parallel circuit with the diode d2 L, and a second transistor Q2 triggered by the second 丨c chip is connected in series with the parallel circuit between the two inductors; the battery is transmitted through the charging processor circuit and boosting pfc =· The adjustment circuit _ occupation _, and is parallel in the string circuit of the capacitor; 'The boost PFC function pastes the fuselage, and the cabin is composed of an electric damper connected in parallel with the inductor L1, such as one, and one:: [, the 俾DC power supply is input from the power input terminal, and the booster is boosted. p 谷 2 The first IC chip of the whole circuit triggers the first - transistor Q complement, (4) The resonance generated by the vibration 'damping effect reaches the battery resonance _ state factor factor adjustment' which makes the second processor of the charging processor circuit Crystal _ rate adjustment action, can resonate with the wheel to power out 36 201145759 pool 5 0 does not produce a fast charging path without escaping the gods (four) domain and discharge electricity and allow electricity when there is no electricity. (5) The problem exists, so there is a double charge charging ===== editing conversion type Γ:: Γ 素 _ _ road as ==: ' sbaa electrical connection rectifier third electric S body Q3, - trigger The third IC of the tri-crystal :: the wafer, the second infinite-order resonance chamber of the transistor Q3, and the third transistor Q3 and the second two resonances are turned over and the second is connected to the D3 and the parallel The second wire vibrates the capacitor C4 at the output end; and the second infinite-order resonant cabin is composed of -inductor L3 in parallel with each other - electrical damping n XU2 and - electric red 5敝, 俾 electric input input AC The power supply is rectified by the finisher, and the third 1 C chip of the step-down PFC power factor adjustment circuit triggers the action of the third transistor q3, and the resonance and damping effect generated by the second infinite stage resonance chamber is used to reach the dynamic resonance with the battery. c power factor adjustment 'make the second of the charging processor circuit; [c wafer in the frequency adjustment action of triggering the second transistor '" also resonates with the type of the input electron flow (four) battery does not produce a temperature double charge, And allow _discharge, according to the money Wei lose people to charge electricity ^ charge and have a battery Health Branch insufficient supply situation 'system AC power mains and other timely input for the power supplement. 4 · A switching charging device with power conversion, at least by a step-down pf 37 201145759 c power factor adjustment circuit, a composition, the buck PF C power * rate charging processor circuit and two sets of battery rate AC surface The power supply circuit is connected to the first-infinite 1 C chip of the first transistor Q! electrically connected to the rectifier through a rectifier-powered-transistor hH a S-an electrical string-infinite-order resonant space Parallel diode 2 in the first transistor Q] and the remaining output capacitor c: ~1 and a parallel in the first-infinite-order resonant power factor adjustment circuit two electric circuit 11 circuit 'in the FC end parallel -无 three infinite level resonance remainder; === two infinite-order resonance grabs the two-pole pole ^f n (four) 5χ--infinite level resonance cabin, through a diode of d2 paint, one of the extremes of the battery is also connected in parallel with a second The sundial and its one-pole D2 level resonance cabin are transmitted through the second transistor Q2; the third infinity ^-1 is triggered by the slice of the third f crystal q3 and the drop. C power factor adjustment circuit of the wheel f extreme Electrical connection, and also through - diode 仏 and second group Battery-extreme parallel hybrid connection; material, the first infinite-order resonance grab is composed of a series of electric dampers XU1 and an electric red 2 connected in parallel, and the second infinite resonance is It is composed of a super inductor L2ii connected in series with each other - an electric damper and a three-capacitor, and the third infinite resonance chamber is also an electric damper connected in parallel by the super inductor. The fine-and-capacitor C4 is composed; the 俾rectifier rectifies the high-power AC power input to the power input terminal, and adjusts the first Jc chip of the circuit to trigger the first-transistor with the power factor of the p F c power factor, The resonance and damping effects generated by the cabin reach the dynamic PFC power that resonates with the first and second sets of batteries. S3 38 201145759 The factors are the same as the second 1 C chip and the third 1 c piece of the charging circuit. The knife does not trigger the second transistor Q2 and the third transistor 1 to adjust the rate of action, and the first and second non-n-level resonances (four) resonance and damping effects produce electricity county action, and the resonance of the resonance is performed by the f-substream. ―, two groups of battery department fast and fast Power, since the first, - Kawasaki battery charging and discharging path and (iv) does not shift the maximum power transfer problems &amp; and further having charging times to allow simultaneous charging and discharging efficiency. 5 · According to the fourth paragraph of the patent scope - an exchange-type charging device with power conversion, in which the 'super inductor L2 of the second infinite-order resonance cabin and the super-inductance L_3 of the third infinite-order resonance cabin are It consists of an inductor composed of _ and a ferromagnetic core, which is based on the electric effect of the super inductor L2 and the super inductor L3, and the first and second batteries of the supercapacitance. match. 6 </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; . 7. According to the fourth aspect of the patent application scope, a switching type charging device with power conversion, wherein the rectifier can be a three-phase rectifier circuit, having R, s, and three-pole electric hybrid terminals. s, τ three-pole power input terminal and high-power three-phase AC _R, S, three-pole to avoid the connection, according to the power supply from the high-power three-phase power generation device for rectification. 8 ·- an exchange charging device with f-force conversion, at least consisting of - boosting pF C power factor adjusting circuit '- high-power charging processor circuit and two sets of batteries; the boosting PFC power factor adjusting circuit With the high-power DC power supply 39 201145759 =, - the office connection 'dipole D 具有 with a parallel power input, the -IN ° pin power wheel human-pole series (four) - infinite resonance cabin, one with No.: the diode Di of the vibration chamber is connected, the first electric day of the 坌_a in the first infinite resonance and the parallel connection between the diodes D1, the first body of the first transistor Qi I c 电容 电容 电容 在一 在一 在一 在一 在一 在一 在一 在一 在一 在一 在一 在一 在一 在一 在一 在一 在一 在一 在一 在一 在一 在一 在一 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容, a poor level ', a vibrating and a second extreme parallel-a third infinite-order resonance residual; the second infinite-order resonant chamber' is electrically connected to the first group of batteries through a diode A in parallel with an extreme A second electric body, which is triggered by a second IC chip, is also connected in parallel between the diodes D2. The poor resonance capsule is electrically connected to the turn-off of the second transistor Q3 triggered by a third germanium wafer and the down-house PFC power factor adjustment circuit and also through a diode 03 and a second The battery is connected in an extremely parallel electrical connection, wherein the above-mentioned first infinite-order resonant cabin is composed of an inductor L! parallel connected to each other, an electrical damper and a capacitor Q, and the second infinity described above The level 'resonance chamber is composed of a super damper L connected in parallel with an electric damper Xu2 and a three capacitor C3, and the third infinite resonance chamber is also connected in parallel by a super inductor L3. An electric damper Xu3 and a capacitor 〇4 are formed; the 俾 high-power DC power source is input from the power input terminal, and the first IC chip of the rising house PFC power factor adjusting circuit triggers the action of the first transistor Q1 by The resonance and damping effects generated by the first infinite resonant lining_the dynamic PFC power factor adjustment of the first and second sets of battery resonances, and the second u ^-AC chip and the third IC chip of the high-power charging processor circuit Send second The frequency of the crystal Q2 and the third transistor Q3, flat [S] 201145759 The jade movement is caused by the resonance and damping effects of the first and second stepless resonance chambers, and the electric pump acts to resonate with the electron flow pattern. ―, the two sets of batteries do not heat the speed of charge due to #, - group of batteries with different charging and discharging paths and no maximum power transfer problem, it also has the benefits of double energy charging and allowing _ charging and discharging. An exchange-type charging device with power conversion according to Item 8 of the patent scope, wherein the second infinite-order resonant cabin #super inductor ^ and the third infinite-order resonant cabin super La L3 are both coiled and included The inductor composed of a strong magnetic core can be matched with the first and second sets of batteries having a super-capacitive property according to the electric chest effect generated on the super inductor L2 and the super inductor. 10. According to the towel, please take full-time _8 Gu Shuzhi - a kind of switching charging device with power conversion, wherein the output of the boosting p FC power factor adjusting circuit is also connected in parallel with a step-down p F c power factor adjusting circuit The other side of the high-power electric processor circuit's step-down PF C power factor adjustment circuit is electrically connected through a rectifier = high-power AC power supply, and has a fourth electrical connection to the rectifier The transistor Q4, the fourth 丨C wafer that triggers the fourth transistor, is electrically connected to the fourth transistor (the fourth infinite resonant tank of 34), and the fourth transistor 仏 is connected in parallel with the fourth stepless resonance The second shop D4 and the parallel connection of the capacitor 仏' at the output end of the fourth infinite stage resonance cabin, and the filament level is interesting, is composed of an inductor L4 connected in parallel with each other _-electric damper 4 and capacitor C6, 俾The power input terminal wheel human power AC power is rectified by the rectifier, the step-down PF c power factor adjustment circuit finely triggers the action of the fourth electro-crystal 4, and the resonance and damping effect phase of the fourth-generation poor 201145759 resonance Two sets of battery resonance The dynamic PFC power factor is adjusted, and the second j C chip and the third IC chip of the high power charging processor circuit respectively trigger the frequency adjustment of the second and third transistors &amp; 仏, and the first and second infinite level resonance cabins The resonance and damping effects produce an electric chestnut effect. 'There is also a fast resonance of the electron flow _ to the first and the second-semiconductor battery without heat, and allows simultaneous discharge. According to various types of high-power power generation devices for energy development, regardless of 疋Produce high-power DC power supply or large-scale AC power supply, which can be synchronized or divided into other speed, stability, full-size, double-energy charging into the first or second group of storage batteries or simultaneous discharge. 11 According to the scope of patent application A switched charging device with power conversion according to the above description, wherein the rectifier can be a two-phase rectifier circuit, and provides a high-power-phase-parent power supply for input, and can also be a three-phase rectifier circuit. It has R, S and D three-pole power input terminals, which are connected by R, s and D-three power supply. The input terminals are electrically connected with the R, s and D three terminals of the high-power AC power supply. The power supply from the power three-phase power generation device is rectified. 12 · A switching charging device with power conversion, which is composed of at least one step-down 卩 FC power factor adjustment circuit, a high-power charging processor circuit and a battery of the above group The step-down PF C power factor adjustment circuit is electrically connected to the power input end of the high-power AC power source through a rectifier, and has a first transistor Qi electrically connected to the rectifier, and a first circuit that triggers the first transistor An IC chip, a first infinite-order resonance detector electrically connected in series with the first transistor Qi, a diode Di and a parallel connected between the first transistor Q1 and the first-infinite-order resonance turn are connected in a first infinity 42 201145759 Resonance grabs the capacitance of the Ci, Ci sense 1^ parallel connected to the second compartment, is the electric power charging processor circuit, including a composition '·The Gurney has a phase frequency adjustment converter and a resistance ...π phase frequency adjuster, bribe pressure PFC power output terminal connection, with (four) u, v 7 whole magnetic Hrr1 &quot; H phase u'v, round human end and three-phase frequency threat, W pole output electrical connection , J The three-way, V, w wheel-in parallel with the group of batteries are respectively connected through the diodes D2, D3, D4, D5 D6, and 〇7 to the battery poles of the group; the damper is composed of u, v, W pole end respectively in the three-phase u, v, Cong input end of the converter is electrically connected, the U, V, w pole ends are connected to each other, and the second, third and fourth infinity are respectively connected in series Level · Fun cabin', wherein the second, third and fourth infinite resonance capsules are respectively an electrical damper connected by an inductor 1^' L3, L4ji, 2, thin, thin and a capacitor C3, C4, (10) composition; 俾Rectifier rectifies the high-power AC power input to the power input terminal, and the first Ic chip of the step-down PFC power factor adjustment circuit triggers the action of the first transistor Q1, with the first infinite level resonance capsule The generated resonance and damping effects reach the dynamic p F c power factor resonance with the set of batteries, and the trigger chip on the three-phase frequency adjuster of the high-power charging processor circuit respectively triggers the transistors Q2, Q3, ( ^, (^ frequency adjustment and triple suppression, V, W pole output output electron flow double action, Through the phase change of the converter [S] 43 201145759, in the absence of the maximum power transfer problem, the high-power multiplier that does not generate heat for the group of common cells in the electronic flow pattern is quickly charged, and the charging and discharging paths are different. Selecting to allow simultaneous charging and discharging, and the electronic flow charges the battery pack, and because the second, second, and fourth infinite resonant chambers of the damped state resonate with the battery, the damping 欵 should be able to absorb or eliminate the reverse Electromotive force or eddy current. 1 3 · According to the application for patents; the exchange-type charging device with power conversion described in Item 1], wherein the rectifier can be a three-phase rectifier circuit with a three-pole power supply of 尺, _ s, τ The terminal '俾 is connected with the R, s, and D three terminals of the high-power three-phase AC power supply to provide rectification of the power generated by the A-power large-scale electric device. X 14 ·- Switching type power-free device with power conversion, at least by a boost p FC power factor adjustment circuit... high power charging processing ^ circuit and - group above battery pack; the secret PFC power factor adjustment circuit, The electric power of the hybrid high-power DC power supply is light and has a diode of the parallel-electric hybrid terminal. D. ' - Following the diode D. The first infinite-order resonant vessel that is connected in series with the power-in terminal is connected to the first-infinite-order co-recorded serial diode. The first-infinite-order resonant grab is connected in parallel with the diode D1. The transistor Qi ' _ triggers the first I c chip of the first transistor ^ - the first capacitor connected in parallel at the output end of the diode D1, wherein the first-infinite-order resonance is entangled by the -inductor Liii The electric damper can and the capacitor C2; the high power charging processor circuit comprises a three-phase frequency regulator-converter and a damper. 益' the two-phase frequency regulator, system and drop PFC power factor adjustment circuit wheel terminal two-pole electrical connection, _,. ~ [ S] 44 201145759 V, W-pole output terminal three-phase u, v, w pole output and buck p F c power factor adjustment The two terminals of the circuit output are connected in parallel with a transistor Q2 'Q3, q4, Q5, Q6 Q7 respectively controlled by a trigger chip, and the converter has three-phase u, V, W pole input end and three phase The three-phase u and v'w pole output terminals of the frequency adjuster are electrically connected, and the three _, v, w read human terminals are connected in parallel with the contact pool. The pole bodies D2, 〇3, D4, 〇5, d6, 仏 are electrically connected to the battery poles of the group; the damper 'by its U, v, w pole ends respectively in the converter three-phase U, V , the W-pole input power-on connection 'the u, v, w poles are mutually connected' also have second, third, and fourth infinite-order resonance grabs respectively, which makes the second, third, and fourth infinite levels The resonant cabins are respectively composed of an electrical damper Xu2, XU3, XU4 and a capacitor C3, C4 and a core connected in series with an inductor L2' L3 and l4; 俾 a high-power DC power source is input from the power input terminal. The first IC chip of the boosting p F c power factor adjusting circuit triggers the action of the first transistor, and the dynamic p ® FC power factor that resonates with the battery by the resonance and damping effects generated by the first infinite resonant tank Adjustment, and the three-phase frequency adjuster of the high-power charging processor circuit triggers the BS chip to trigger the transistors Q2, Q3, Q4, Qs, Qe (the frequency adjustment of the ^7 and the two-phase U, V, W pole output output) The doubling action of the electron current passes through the phase transition of the converter, and there is no maximum power transfer problem. In the case of a high-power multiple of the battery that does not generate heat in the form of an electronic flow, and because of the different charging and discharging paths, simultaneous charging and discharging are allowed, and the electron flow charges the battery, and is damped The second, third, and fourth infinite-order resonance chambers generate resonance and damping effects with the battery, so that the back electromotive force or eddy current can be absorbed or eliminated. m 45 201145759 Change. =: PF packaged another input terminal, The cool-down k-rectifier and the high-power force-phase adjustment circuit are connected to the transistor Q8 of the rectifier through the power input end of the power supply of the power supply, and a trigger transistor _ has a connection transistor _ The five infinite-order resonant cabin is composed of a transistor, a raw-electrical y-inductor Ls connected in parallel with each other, a ▲f-nix device and a capacitor C7, and a power input terminal for inputting a high-power parent-current power supply through a rectifier. Rectifier 'buck PF C power factor adjustment circuit ^ C wafer trigger transistor Q8_, _ fifth wire level resonance cabin occupational resonance 曰曰, = level should reach the dynamic p F c work with the group of battery resonance Axis adjustment The triggering chip on the three-phase frequency regulator of the power charging processor circuit triggers the transistors Q2, Q3, respectively, (the frequency adjustment of the ^ and the doubling action of the output current of the output terminal of the triple suppressor, 妓_converter_ Bit conversion, in the absence of maximum power transfer _, the high-power multiple of the battery that does not generate heat in the electronic flow crane can quickly charge and allow simultaneous discharge, and also by the second, second and fourth infinity of the damper The resonance of the stage produces resonance and damping effects with the battery, and absorbs or eliminates back electromotive force or eddy current. According to the development of high-power large-scale power generation devices, whether it is generating high-power DC power or high-power AC power, Synchronous or for fast, stable, safe, multi-energy storage by battery pack or the same [S. 46 201145759 when used for discharge. 16 ·According to the application for patents, the 14th position of the charging type is light, in which the father s Tmw ... 4 and the head rectification 11 circuit, with R, _ electric hybrid ^, 俾 and big solution The electric R, s, and τ are connected to each other to provide rectification of the power generated by the high-power large-scale three-phase power generation device. [s] 47