CN107304736A - Stationary magnetic field superimposed pulse magnetic field magnetizer drive circuit - Google Patents
Stationary magnetic field superimposed pulse magnetic field magnetizer drive circuit Download PDFInfo
- Publication number
- CN107304736A CN107304736A CN201610255267.4A CN201610255267A CN107304736A CN 107304736 A CN107304736 A CN 107304736A CN 201610255267 A CN201610255267 A CN 201610255267A CN 107304736 A CN107304736 A CN 107304736A
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- China
- Prior art keywords
- magnetic field
- resistance
- switching tube
- pulse
- channel switching
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M27/00—Apparatus for treating combustion-air, fuel, or fuel-air mixture, by catalysts, electric means, magnetism, rays, sound waves, or the like
- F02M27/04—Apparatus for treating combustion-air, fuel, or fuel-air mixture, by catalysts, electric means, magnetism, rays, sound waves, or the like by electric means, ionisation, polarisation or magnetism
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M27/00—Apparatus for treating combustion-air, fuel, or fuel-air mixture, by catalysts, electric means, magnetism, rays, sound waves, or the like
- F02M27/04—Apparatus for treating combustion-air, fuel, or fuel-air mixture, by catalysts, electric means, magnetism, rays, sound waves, or the like by electric means, ionisation, polarisation or magnetism
- F02M2027/047—Apparatus for treating combustion-air, fuel, or fuel-air mixture, by catalysts, electric means, magnetism, rays, sound waves, or the like by electric means, ionisation, polarisation or magnetism with a pulsating magnetic field
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/10—Internal combustion engine [ICE] based vehicles
- Y02T10/12—Improving ICE efficiencies
Abstract
The invention discloses a kind of stationary magnetic field superimposed pulse magnetic field magnetizer drive circuit, the drive circuit produces stationary magnetic field using 12V direct currents by magnet coil and magnetic conductor, respectively with two switching tube complementary pulse formula conducting one capacitors of control, after a diode is isolated, bootstrap voltage mode boosts to about 23V;Separately there are two switching tube complementary pulse formula conducting control another capacitors simultaneously, after another diode is isolated, bootstrap voltage mode boosts to 34V, and then realizes being superimposed for the pulsed magnetic field that the stationary magnetic field that 12V voltages are produced is produced with 34V pulse voltages.Overcome heat engine electric power system 12V direct currents in existing General Motors and force down the shortcoming for causing magnetizer magnetic field intensity low, improve magnetic field intensity, the effect of Pulsed Magnetic reduces intermolecular active force, improves magnetic susceptibility.
Description
Technical field
The present invention relates to the drive circuit of magnetizer, it is related to the drive circuit of the magnetizer of liquids and gases, especially internal combustion engine
Fuel oil and combustion gas stationary magnetic field superimposed pulse magnetic field magnetizer drive circuit.
Background technology
Physical and chemical properties big city after liquids and gases magnetization is changed, and the liquid or gas after magnetization also extensively should
With.Such as magnetized water, for promoting plant growth and improving yield, magnetic wine is used for accelerating wine brewing process, fuel oil magnetizing and combustion gas
For improving efficiency of combustion etc..Wherein fuel oil magnetizing and combustion gas act on especially pronounced in terms of environmental protection and green world, cause more
Carry out more concerns.The mode of magnetization of existing magnetizer has two kinds, and a kind of is that the magnetic field produced using permanent magnet is magnetized, by
Limited, can only be used under conditions of magnetic field intensity is less demanding in by the magnetic field intensity that existing permanent-magnet material is produced;It is another
It is to produce electromagnetic field using magnet coil to be magnetized, the magnetic field that magnet coil is produced can be far longer than the magnetic field of permanent magnet generation,
Superconducting magnet can produce bigger magnetic field, but due to the restriction of prior art, superconducting magnet can be only applied to specific occasion, no
Preferably popularize.The magnetizer power supply that existing car combustion engine is used uses 12V low-voltage power supply systems mostly, what magnet coil was used
Conductive material is generally copper conductor, and its electric conductivity significantly limit the magnetic field intensity of magnetizer, the magnetic field of this electromagnetic magnetizing device
Intensity only changes in 0.15-0.3T, causes the magnetic efficiency of magnetizer unsatisfactory.
The content of the invention
For the deficiency of existing magnetizer, the technical problem to be solved in the present invention is to provide a kind of stationary magnetic field superimposed pulse magnetic field
Magnetizer drive circuit.The drive circuit produces stationary magnetic field using 12V direct currents by magnet coil and magnetic conductor, respectively with two
Switching tube complementary pulse formula conducting one capacitor of control, after a diode is isolated, bootstrap voltage mode boosts to about 23V;
Separately there are two switching tube complementary pulse formula conducting control another capacitors, after another diode is isolated, bootstrapping simultaneously
Boost in voltage is to 34V, and the pulse voltage driving magnet coil and magnetic conductor reached produces pulsed magnetic field, then liquid or gas are entered
Row magnetization treatment, and then realize being superimposed for the pulsed magnetic field that the stationary magnetic field that 12V voltages are produced is produced with 22V pulse voltages.
The technical solution adopted for the present invention to solve the technical problems is that a kind of stationary magnetic field superimposed pulse magnetic field magnetizer driving is electric
Road be by power supply+Ec ends and common ground end GND, pulse-width modulation circuit, booster circuit, drive circuit, secondary booster circuit,
Absorption capacitor C3 and magnetizing coil L compositions.Described pulse-width modulation circuit is by Single-end output PWM pulsewidth modulation integrated voltage-stabilizeds
Driving chip and corresponding peripheral components composition, chip output out export for totem pillar;Described booster circuit is by one
P-channel switching tube V1, N-channel switching tube V2, an isolating diode D1 and capacitor C1 compositions;Described drive
Dynamic circuit is made up of input in, output end out;Described secondary booster circuit is by a P-channel switching tube V3, a N
Channel switches pipe V4, isolating diode D2 and capacitor C2 compositions.
Fig. 1 is stationary magnetic field superimposed pulse magnetic field magnetizer driver circuit schematic diagram, and the annexation of its each circuit is:Power supply
+ Ec ends and the power supply supply side Vcc with pulse-width modulation circuit, the source electrode of the P-channel switching tube V1 in described booster circuit and
Isolating diode D1 positive pole is connected;Common ground end GND and described pulse-width modulation circuit GND, described booster circuit
Interior N-channel switching tube V2 source electrode, the GND of described drive circuit, the N-channel in described secondary booster circuit are opened
Pipe V4 source electrode, absorption capacitor C3 one end is closed with magnetizing coil L one end to be connected;In described pulse-width modulation circuit
Out ends and the P-channel switching tube V1 in described booster circuit grid and N-channel switching tube V2 grid, described
The grid of N-channel switching tube V4 in secondary booster circuit is connected with the in ends in described drive circuit;Described boosting electricity
The drain electrode of P-channel switching tube V1 and N-channel switching tube V2 in road are connected with capacitor C1 one end, and capacitor C1's is another
One end and isolating diode D1 negative pole, the power end Vcc1 of described drive circuit, in described secondary booster circuit every
Positive pole from diode D2 is connected with P-channel switching tube V3 source electrode, the out ends in described drive circuit and described two
The grid of P-channel switching tube V3 in secondary booster circuit is connected, P-channel switching tube V3 in described secondary booster circuit and
N-channel switching tube V4 drain electrode is connected with capacitor C2 one end, and the capacitor C2 other end is another with absorption capacitor C3's
One end, magnetizing coil L one end are connected with isolating diode D2 negative pole.
Described pulse-width modulation circuit is driven by the uc3842 Single-end output PWM pulsewidth modulations integrated voltage-stabilized exported with totem pillar
Dynamic chip, the adjustable resistance W and resistance R1 for determining the resistance RT and capacitor CT of pulse frequency, determining pulse width, benefit
Repay resistance R2 compositions;Annexation inside described pulse-width modulation circuit is:Chip uc3842 g pin Vcc and power supply+Ec
Hold, determine the adjustable resistance W of pulse width one end to be connected with the center-side for the adjustable resistance W for determining pulse width, it is determined that
The b pin phases of the adjustable resistance W of the pulse width other end and resistance R2 one end, resistance R1 one end and chip uc3842
Even, the resistance R2 other end is connected with chip uc3842 a pin, the resistance R1 other end and capacitor CT one end, core
Piece uc3842 c with e pin are connected, resistance RT of the capacitor CT other end with determining pulse frequency one end and chip uc3842
D pin be connected, determine that the resistance RT other end of pulse frequency is connected with chip uc3842 h pin, chip uc3842's
F pin are output end out.
Described drive circuit is by voltage-regulator diode DW1, capacitor Cb, resistance R3, resistance R4 and R5, PNP triode
T1 and NPN triode T2 compositions;Annexation is inside described drive circuit:Voltage-regulator diode DW1 negative pole and electricity
The power supply that the emitter stage of container Cb one end, resistance R4 one end and PNP triode T1 is connected to described drive circuit is supplied
Give end Vcc1, voltage-regulator diode DW1 positive pole and the electric capacity Cb other end, resistance R3 one end and NPN triode T2
Emitter stage be connected, the resistance R3 other end is the GND ends of drive circuit, the resistance R4 other end and the one of resistance R5
End, PNP triode T1 are connected with NPN triode T2 base stage, and the R5 other ends of resistance are the defeated of described drive circuit
Enter to hold in, PNP triode T1 and NPN triode T2 emitter stage to be connected to the output end out of described drive circuit.
P-channel switching tube V1 and V3 in described booster circuit and secondary booster circuit can be substituted with PNP type triode,
N-channel switching tube V2 and V4 can be substituted with NPN type triode.
12V DC voltages are risen to 34V pulse voltages by the present invention using two-stage capacitance boost circuit, utilize 12V DC voltages
The magnetic field that superposition 22V pulse voltages are produced is magnetized, and improves magnetic field intensity, and the effect of Pulsed Magnetic reduces intermolecular
Active force, improve magnetic susceptibility, make the fuel value of fuel oil and combustion gas be improved.
Brief description of the drawings
A kind of stationary magnetic field superimposed pulse magnetic field magnetizer driver circuit schematic diagrams of Fig. 1
A kind of stationary magnetic field superimposed pulse magnetic field magnetizer drive device circuit diagrams of Fig. 2
Label in figure
1. pulse-width modulation circuit
2. booster circuit
3. drive circuit
4. secondary booster circuit
Embodiment
The present invention is described in further details with reference to embodiment and its accompanying drawing.
Fig. 2 is a kind of stationary magnetic field superimposed pulse magnetic field magnetizer drive device circuit diagram, the drive device by power supply+Ec ends and
Common ground end GND, pulse-width modulation circuit 1, booster circuit 2, drive circuit 3, secondary booster circuit 4, Absorption Capacitance
C3 and magnetizing coil L compositions.Described pulse-width modulation circuit 1 is by the uc3842 Single-end outputs PWM that is exported with totem pillar
Pulsewidth modulation integrated voltage-stabilized driving chip, the resistance RT and capacitor CT that determine pulse frequency, the adjustable electric for determining pulse width
Hinder W and resistance R1, compensation resistance R2 compositions;Described booster circuit 2 is by a P-channel switching tube V1, a N ditch
Road switching tube V2, isolating diode D1 and capacitor C1 compositions;Described drive circuit 3 is by voltage-regulator diode DW1, electricity
Container Cb, resistance R3, resistance R4 and R5, PNP triode T1 and NPN triode T2 compositions;Described secondary liter
Volt circuit 4 is made up of a P-channel switching tube V3, N-channel switching tube V4, an isolating diode D2 and capacitor C2.
Described pulse-width modulation circuit 1 is by the uc3842 Single-end output PWM pulsewidth modulation integrated voltage-stabilizeds that are exported with totem pillar
Driving chip, the resistance RT and capacitor CT that determine pulse frequency, the adjustable resistance W and resistance R1 that determine pulse width,
Compensate resistance R2 compositions;Annexation inside described pulse-width modulation circuit 1 is:Chip uc3842 g pin Vcc and electricity
Source+Ec ends, determine that adjustable resistance W one end of pulse width is connected with the adjustable resistance W center-side for determining pulse width,
Determine the adjustable resistance W of the pulse width other end and the b of resistance R2 one end, resistance R1 one end and chip uc3842
Pin is connected, and the resistance R2 other end is connected with chip uc3842 a pin, the resistance R1 other end and capacitor CT one end,
Chip uc3842 c with e pin are connected, resistance RT of the capacitor CT other end with determining pulse frequency one end and chip
Uc3842 d pin are connected, and determine that the resistance RT other end of pulse frequency is connected with chip uc3842 h pin, chip uc3842
F pin be output end out.
Described drive circuit 3 is by voltage-regulator diode DW1, capacitor Cb, resistance R3, resistance R4 and the pole of R5, PNP tri-
Pipe T1 and NPN triode T2 compositions;The described inside annexation of drive circuit 3 is:Voltage-regulator diode DW1 negative pole
The emitter stage of one end, resistance R4 one end and PNP triode T1 with capacitor Cb is connected to described drive circuit 3
Power supply supply side Vcc1, voltage-regulator diode DW1 positive pole and electric capacity the Cb other end, resistance R3 one end and NPN tri-
Pole pipe T2 emitter stage is connected, and the resistance R3 other end is the GND ends of drive circuit, resistance the R4 other end and resistance
R5 one end, PNP triode T1 are connected with NPN triode T2 base stage, and the R5 other ends of resistance are described driving
Input in, the PNP triode T1 of circuit and NPN triode T2 emitter stage are connected to the defeated of described drive circuit 3
Go out to hold out.
When the circuit works, 12V direct-current working volts, pulsewidth modulation electricity are accessed into power supply+Ec ends and common ground end GND
The output end Out outputs on road 1 determine pulsed operation frequency by CT and RT, determine that pulse is wide by resistance R1 and adjustable resistance W
The pulsed driving voltage of degree, direct drive P-channel switching tube V1, N-channel switching tube V2 and N-channel switching tube V4, warp
The driving P-channel switching tube V3 switching regulator work of drive circuit 3, P-channel switching tube V1 and N-channel switching tube V2, P ditch
Road switching tube V3 and N-channel switching tube V4 is complementary work.Because the output stage inside chip UC3842 is totem pillar
Drive circuit, when drive end out exports high level, N-channel switching tube V2 and N-channel switching tube V4 conductings, P-channel
Switching tube V1 and P-channel switching tube V3 shut-offs;When drive end out exports low level, N-channel switching tube V2 and N ditch
Road switching tube V4 is turned off, P-channel switching tube V1 and P-channel switching tube V3 conductings, realizes that P-channel is opened with drive circuit 3
Close pipe V3 driving;When N-channel switching tube V2 and N-channel switching tube V4 conductings, P-channel switching tube V1 and P-channel
When switching tube V3 is turned off, capacitor C2 is carried out through isolating diode D1 to capacitor C1 and through isolating diode D2 respectively
Charging;When P-channel switching tube V1 and P-channel switching tube V3 conductings, N-channel switching tube V2 and N-channel switching tube V4
During shut-off, capacitor C1 is isolated by isolating diode D1, and capacitor C2 is isolated by isolating diode D2, and circuit is carried out
Electric discharge work;During electric discharge, 12V supply voltages are overlapped with the capacitor C1 and capacitor C2 voltages stored, driving magnetization
Coil L is overlapped 12V DC voltages plus 34V pulse voltages carry out magnetization work.
The present invention is superimposed due to 12V DC voltages are risen into 34V pulse voltages using two-stage capacitance boost circuit using 12V
The magnetic field that 22V pulse voltages are produced is magnetized, and is overcome existing General Motors internal combustion engine electric power system 12V direct currents and is forced down and leads
The shortcoming for causing magnetizer magnetic field intensity low, improves magnetic field intensity, the effect of Pulsed Magnetic reduces intermolecular active force,
Magnetic susceptibility is improved, makes the fuel value of fuel oil and combustion gas be improved.In the application present invention, strict it should change according to actual conditions
Become the burning time angle of engine, the efficiency after its magnetization of competence exertion.
Claims (5)
1. a kind of stationary magnetic field superimposed pulse magnetic field magnetizer drive circuit, it is characterised in that:A kind of stationary magnetic field superimposed pulse
Magnetic field magnetizer drive circuit is by power supply+Ec ends and common ground end GND, pulse-width modulation circuit (1), booster circuit (2), drive
Dynamic circuit (3), secondary booster circuit (4), absorption capacitor C3 and magnetizing coil L compositions;Described pulse-width modulation circuit (1)
It is made up of Single-end output PWM pulsewidth modulation integrated voltage-stabilized driving chips and corresponding peripheral components, chip output out is figure
Rise pillar output;Described booster circuit (2) is by a P-channel switching tube V1, N-channel switching tube V2, an isolation two
Pole pipe D1 and capacitor C1 compositions;Described drive circuit (3) is made up of input in, output end out;Described two
Secondary booster circuit (4) is by a P-channel switching tube V3, N-channel switching tube V4, an isolating diode D2 and capacitor
C2 is constituted.
2. a kind of stationary magnetic field superimposed pulse magnetic field magnetizer drive circuit according to claim 1, it is characterised in that:Electricity
P-channel switching tube in the power supply supply side Vcc of source+Ec ends and pulse-width modulation circuit (1), described booster circuit (2)
V1 source electrode is connected with isolating diode D1 positive pole;The GND of common ground end GND and described pulse-width modulation circuit (1),
The source electrode of N-channel switching tube V2 in described booster circuit (2), the GND of described drive circuit (3), described two
One end phase of the source electrode of N-channel switching tube V4 in secondary booster circuit (4), absorption capacitor C3 one end and magnetizing coil L
Connection;Out ends in described pulse-width modulation circuit (1) are with the P-channel switching tube V1's in described booster circuit (2)
Grid and N-channel switching tube V2 grid, the grid of N-channel switching tube V4 in described secondary booster circuit (4) and institute
In ends in the drive circuit stated are connected;P-channel switching tube V1 and N-channel switching tube in described booster circuit (2)
V2 drain electrode is connected with capacitor C1 one end, the capacitor C1 other end and isolating diode D1 negative pole, described drive
The power end Vcc1 of dynamic circuit (3), the isolating diode D2 in described secondary booster circuit (4) positive pole and P-channel
Switching tube V3 source electrode is connected, the out ends in described drive circuit (3) and the P in described secondary booster circuit (4)
Channel switches pipe V3 grid is connected, P-channel switching tube V3 and N-channel switching tube in described secondary booster circuit (4)
V4 drain electrode is connected with capacitor C2 one end, the capacitor C2 other end and absorption capacitor the C3 other end, the line of magnetization
Circle L one end is connected with isolating diode D2 negative pole.
3. a kind of stationary magnetic field superimposed pulse magnetic field magnetizer drive circuit according to claim 1 or 2, it is characterised in that:
Described pulse-width modulation circuit (1) is driven by the uc3842 Single-end output PWM pulsewidth modulations integrated voltage-stabilized exported with totem pillar
Dynamic chip, the adjustable resistance W and resistance R1 for determining the resistance RT and capacitor CT of pulse frequency, determining pulse width, compensation
Resistance R2 is constituted;Annexation inside described pulse-width modulation circuit is:Chip uc3842 g pin Vcc and power supply+Ec
Hold, determine the adjustable resistance W of pulse width one end to be connected with the center-side for the adjustable resistance W for determining pulse width, determine arteries and veins
The other end for rushing the adjustable resistance W of width is connected with the b pin of resistance R2 one end, resistance R1 one end and chip uc3842,
The resistance R2 other end is connected with chip uc3842 a pin, the resistance R1 other end and capacitor CT one end, chip uc3842
C with e pin be connected, the resistance RT of the capacitor CT other end with determining pulse frequency one end and chip uc3842 d pin
It is connected, determines that the resistance RT other end of pulse frequency is connected with chip uc3842 h pin, chip uc3842 f pin are
Output end out.
4. a kind of stationary magnetic field superimposed pulse magnetic field magnetizer drive circuit according to claim 1 or 2, it is characterised in that:
Described drive circuit (3) is by voltage-regulator diode DW1, capacitor Cb, resistance R3, resistance R4 and R5, PNP triode T1
With NPN triode T2 compositions;Annexation is inside described drive circuit (3):Voltage-regulator diode DW1 negative pole and electricity
The emitter stage of container Cb one end, resistance R4 one end and PNP triode T1 is connected to the electricity of described drive circuit (3)
Source supply side Vcc1, voltage-regulator diode DW1 positive pole and the electric capacity Cb other end, resistance R3 one end and NPN triode T2
Emitter stage be connected, the resistance R3 other end is the GND ends of drive circuit, the resistance R4 other end and resistance R5 one end,
PNP triode T1 is connected with NPN triode T2 base stage, and the R5 other ends of resistance are the defeated of described drive circuit (3)
Enter to hold in, PNP triode T1 and NPN triode T2 emitter stage to be connected to the output end out of described drive circuit (3).
5. a kind of stationary magnetic field superimposed pulse magnetic field magnetizer drive circuit according to claim 1 or 2, it is characterised in that:
P-channel switching tube V1 and V3 in described booster circuit (2) and secondary booster circuit (4) can use the pole of positive-negative-positive three
Pipe is substituted, and N-channel switching tube V2 and V4 can be substituted with NPN type triode.
Priority Applications (1)
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CN201610255267.4A CN107304736A (en) | 2016-04-20 | 2016-04-20 | Stationary magnetic field superimposed pulse magnetic field magnetizer drive circuit |
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Application Number | Priority Date | Filing Date | Title |
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CN201610255267.4A CN107304736A (en) | 2016-04-20 | 2016-04-20 | Stationary magnetic field superimposed pulse magnetic field magnetizer drive circuit |
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CN201610255267.4A Pending CN107304736A (en) | 2016-04-20 | 2016-04-20 | Stationary magnetic field superimposed pulse magnetic field magnetizer drive circuit |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109787474A (en) * | 2019-02-25 | 2019-05-21 | 珠海祺力电子科技有限公司 | A kind of electromagnetism superimposing amplifier |
-
2016
- 2016-04-20 CN CN201610255267.4A patent/CN107304736A/en active Pending
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109787474A (en) * | 2019-02-25 | 2019-05-21 | 珠海祺力电子科技有限公司 | A kind of electromagnetism superimposing amplifier |
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Application publication date: 20171031 |