CN1783631A - Multi-functional energy conditioner - Google Patents

Abstract

The present invention relates to a multi-functional energy conditioner (10) having architecture employed in conjunction with various dielectric and combinations of dielectric materials to provide one or more differential and common mode filters for the suppression of electromagnetic emissions and surge protection. The components architecture is dielectric independent and provides for integration of various electrical characteristics within a single component to perform the functions of filtering, decoupling, fusing and surge suppression.

Description

Multi-functional energy conditioner

Technical field

The application is the pending application of submitting on December 13rd, 1,999 09/460, No. 218 part subsequent application, the latter has been awarded United States Patent (USP) 6,018, the application 09/056 that submit to No. 448 7 days April in 1998, No. 379 subsequent application, the latter is again the part subsequent application of No. 09/008,769, the application submitted on January 19th, 1998, the latter has been awarded United States Patent (USP) 5, the subsequent application that No. 08/841,940, the application of submitting to 909, No. 350 8 days April in 1997.The application also requires to enjoy following priority: the U.S. that on May 28th, 1999 submitted to divides an application 60/136, No. 451, the U.S. that on June 15th, 1999 submitted to divides an application 60/139, No. 182, the U.S. that on August 3rd, 1999 submitted to divides an application 60/146, No. 987, the U.S. that on November 12nd, 1999 submitted to divides an application 60/165, No. 035, and the U.S. that on February 3rd, 2000 submitted to divides an application 60/180, No. 101, and the U.S. that on February 28th, 2000 submitted to divides an application 60/185, No. 320, and the U.S. that on April 28th, 2000 submitted to divides an application 60/200, the U.S. that No. 327 and on May 12nd, 2000 submit to divides an application 60/203, No. 863.

Background technology

The present invention relates to a kind of multi-functional energy conditioner, it has on the structure center conduction utmost point of sharing, and can cooperatively interact with charged and paired above-mentioned differential electrode simultaneously according to anti-phase or charging modes along with differential electrode operation respect to one another.

The current main electronic equipment of producing comprises small-sized active parts and the circuit that is used for carrying out high-speed functions, and utilizes high speed electric interconnection delivering power and data between critical piece.These parts are easy to parasitic by appearing at the electric energy of serving or utilize electromagnetic interference in the circuit of these systems and voltage transient to be produced.Voltage transient is understood major injury or is destroyed this miniature electronic parts, or by contact electronic equipment is lost efficacy, and often needs expensive maintenance and/or expensive replacing.

EMI, the electrical Interference of the parasitic form of RFI and electric capacity and inductance can be from producing and sense circuit and the parts such as radio broadcasting antenna or other electromagnetic wave generator.Circuit also can produce EMI, thereby just need shield EMI.On cable and circuit board traces, tend to produce difference and common mode current.In many cases, the effect of the field of these conductor emissions just likes antenna.In order to prevent to interfere with other circuit, be necessary to control these conduction/radiation to the hazardous noise sensitivity.The equipment of work also can produce other interference source to the which couple energy, may produce tangible interference.In order to satisfy the requirement of international radiation and/or sensitiveness, must eliminate this interference.

Thunder and lightning can induce transient voltage on power line, produce very high current potential in the short time at the utmost point.Similarly, electromagnetic pulse (EMP) also can produce big due to voltage spikes, produces the fast rise time pulse in a wide frequency ranges, and is harmful to most of electronic devices.The big voltage transient in other source and earthing potential change the ground loop interference that causes also can destroy electric power system.Existing safeguard measure can't provide sufficient protection in single integrated encapsulation.Various filters and surge restraint circuit structure have been designed according to prior art.In No. 5,142,430, the U.S. Pat of this paper institute reference, the details of various inventions in the prior art has been described.

' 430 patents itself relate to power line filter and surge protection circuit parts and circuit thereof, are used for constituting a protection device into electric equipment.These circuit blocks comprise wafer or the plate-like material that has such as desired electrical characteristics such as variable resistor or capacitance characteristics.On the surface of dish, have electrode pattern and isolation strip, also be furnished with the hole that forms in inside, so that with circuit these parts are connected on the conductor in the system in a kind of simple and efficient mode.Electrode pattern complements each other to form public electrode, and material is clipped in the middle.' 430 patents mainly are the filtering that is used for paired transmission line.Electric power system can only be born the short sawn timber life cycle in year surplus in the of ten.The system that the first two years has just built up for same category of device the 3rd or the 4th generation product just out-of-date.Therefore, construct the parts and the circuit upgrading in time of these systems.

The performance of computer or other electronic system often is subjected to the restriction of the slowest active element of its speed.As of late, still controlling the specific function and the calculating of overall system such as these elements such as microprocessor and memory members.Yet, along with microprocessor, the latest development of memory member and data thereof, main problem is to be that the user provides stronger disposal ability and speed with the unit cost that reduces.Therefore, engineering problem how to regulate the energy that flows to electric device has constituted cost and technical difficulty.Played for the year ends 2000 from the 1980's, the exemplary operation frequency of main flow microprocessor has improved about 240 times from 5MHz (per second 1,000,000 times), has reached about 1200MHz+.Current processor speed has been caught up with the development and the application of ultrahigh speed RAM structure.These breakthroughs have made total system speed surpass the 1GHz high point.In the same period, the passive component technology does not but have much progress, only slightly changes on composition and performance.Passive component progress in design mainly has influence on part dimension and dwindles, the slight modifications of discreet component electrode level, and the discovery of novel medium, and be the technological improvement of the shortening parts production time manufacturing industry being carried out.

In the past, the passive component engineer solves design problem by the number of components that increases in the circuit.This settling mode often will increase inductance and resistance, is used electric capacity and realizes filtering and decoupling.

Yet what can not be ignored is that single passive parts and many network of passive components all exist a kind of main restriction on the circuit regulating power.This restriction is an obstacle to the technological progress and the growth of computer industry, and has stayed last leftover problem for+GHz speed system.This restriction of High Speed System performance embodied a concentrated reflection of be processor, memory technology and those systems that are positioned at specific electronic system outside provide and regulate the formed restriction of supportive passive component of energy and data-signal.

According to professional OEM to Gao Suchuliqi ﹠amp; The new product of new-type memory pool is applied the historical data record of the recent system failure that is occurred, and improves the speed of microprocessor and memory pool and has brought another problem.Current passive component technology is to cause the root of many faults and delay.Its reason is that the operating frequency of single passive parts has one 5 physical cord to 250MHz to regulate limit usually.The high frequency of many parts all need be such as discrete L-C-R, and L-C, the passive component of R-C network make up shaping or control to offer the energy of system load.Frequency band more than 200MHz, the discrete L-C-R of prior art, L-C, R-C network begin the characteristic that transmission line occurs even be similar to the microwave feature, and network design original intention desired lumped capacitance, resistance or inductance can not be provided.Microprocessor, clock, this performance difference between power supply bus and accumulator system and the supportive passive component thereof can cause the system failure.

In addition, at high band, as the electric energy path that complementary element ground connection or paired often, or the element of electricity and magnetic must be worked harmonious and evenly.The obstacle that this balance faced is to be easy to occur the capacitance variations of scope between 15%-25% by two discrete capacitors that same production division makes.Although might change in the respective capacitances that obtains between the discrete unit below 10%, be used for test for retrieving, the hand-sorted of large-tonnage product, and the cost that is used for special media and manufacturing technology or the like in order to produce these devices of minimizing individual difference by the requirement of differential signal, must sell over call.Therefore, in view of the above-mentioned deficiency of prior art, the applicant has proposed the present invention.

Summary of the invention

For these reasons, need a kind of multifunction electric subassembly, compare with the prior art parts or the complicated passive network of simple function, it can be worked in wide frequency ranges.Desirable this parts should be able to effectively be worked more than 1GHz, the energy decoupling is provided and keeps constant voltage potential for active circuit for active parts simultaneously.This new components can also reduce or be suppressed in the electronic circuit electromagnetic radiations emission that the difference that flows and common mode current are produced.In being connected to circuit and play the time spent, taking multilayer embodiment and can provide functions such as line synchro adjusting, but not only be used for above-mentioned needs with a kind of multifunction electric subassembly of the passive structures of media independent.These need comprise power supply to load or load to the decoupling of power supply, and difference and common mode filtering suppress parasitic, and when utilizing exterior conductive zone or path to the surge protection of an integrated encapsulation.The present invention can be used for protecting electronic circuit and active electronic component to prevent the interference of electromagnetic field (EMI), overvoltage, and prevent to be distributed in the electromagnetic radiation of circuit neutralization from the present invention itself.In addition, the present invention's difference transport element of utilizing inside to comprise harmful parasitism of in the work of alive circuit, reducing or avoiding returning from the host circuit coupling.Specifically, the present invention proposes, take correct topology and be connected in the circuit, the electromagnetic interference that system just can utilize charged physical structure to suppress to be harmful to, no matter these radiation be receive from other source or in the present invention and electronic circuit is inner produces, these radiation might produce difference and common mode current, as parasitic contribution in host circuit.

In addition, because multi-functional energy conditioner has integrated physically, the biography conduction electrode structure of electric capacity shielding uses independent electrode material and/or independent dielectric material composition can not limit concrete shape of the present invention in the mill and has only described the size of the various embodiments that the present invention of several examples may provide herein.

Because the keen competition of current electronics industry, in order to adopt in numerous electronic products, this multi-functional energy conditioner/Surge Protector must be accomplished cheapness, and miniaturization is low-cost and highly integrated.Desirable requirement is should be able at will increase discrete passive component to realize necessary filtering and/or circuit adjusting, and the parts of prior art are not accomplished.

Main purpose of the present invention provides a kind of being convenient to and makes, and the multifunction electric subassembly of debugging can prevent or be suppressed at the electromagnetic radiation that the composition that produces in the pairing energy path and common mode current cause.

Another object of the present invention provides a kind of protectiveness circuit arrangement that can produce in enormous quantities and debug, can comprise one or more protective circuit in a component packages, can be used for resisting voltage transient, the parasitic electromagnetic interference of overvoltage and distribution.

Another object of the present invention provides a kind of discrete multifunction electric subassembly, it can be worked in wide frequency ranges on being connected to exterior conductive path or surface the time effectively, and can provide the energy decoupling for the active circuit parts when keeping constant voltage potential for the each several part circuit.

Another object of the present invention provides a kind of disable circuit, utilize original ground connection of making up to provide extra energy path by paired difference conductor with external conductor surface or contact area, be used to decay EMI and overvoltage, and do not need the mixed electronic parts are connected on the final earth point.

Another object of the present invention provides a kind of single device, does not need to adopt the special media that uses routinely just can obtain the capacitance variations of minimum degree between the internal capacitor plate.

Above-mentioned and other purposes of the present invention and advantage realize by adopting a plurality of public conductive plates, they center on the corresponding difference conduct electricity pole plate that is separated by a kind of material in conjunction with also local, and show any or a kind of combination in the multiple predetermined electrical characteristic.

Other purposes of the present invention and advantage are achieved in that pair of conductors are coupled to by zone of the public conductive plate local envelopment of a plurality of joints or space, and selectively external conductor or path be coupled on the differential electrical pole plate.

Another object of the present invention is to provide a kind of circuit to arrive ground capacity or inductance coupling high to circuit and circuit between inner panel and/or conducting electrode, produces the state of a kind of effective difference and filtering of common mode electromagnetic interference and/or surge protection.In addition, adopt a kind of circuit structure of the present invention to comprise the circuit regulating circuit parts that at least one is made of plate.On the one side of plate, be provided with electrode pattern, and electrode surface is coupled on the conductor of circuit with circuit.Electrode pattern, dielectric material that adopts and public conductive plate are being used as the circuit structure that forms a balance (equate but opposite) between the electrode of conductor jointly, by independent conductors at conductor and circuit to forming the electric component that circuit is coupled to circuit the ground connection.The special electric effect of multi-functional energy conditioner is by selecting the material between the battery lead plate and use earth shield to determine, effectively battery lead plate being contained in formed one or more Faraday formula shielding box.If selected a kind of special dielectric material, the multi-functional energy conditioner of gained is a kind of capacitive structure mainly just.Dielectric material combines with battery lead plate and public conductive plate can be combined into a kind of circuit to line capacitor, and its capacitance approximately is to form two also charged circuits of connection of the present invention to 1/2 of ground capacitor.If adopt metal oxide variable resistor (MOV) material, multi-functional energy conditioner will be called the capacitive character multi-functional energy conditioner, can provide overcurrent and surge protection characteristic by MOV-section bar material.Public conductive plate and battery lead plate can form circuit equally and arrive the capacitor board of ground connection to circuit and circuit, provide acceptable difference and common mode filtering under high transient voltage condition.Under these conditions, the MOV-type variable-resistance material that is nonlinear resistance basically is used to suppress high voltage transient, can limit the voltage that may appear between the conductor effectively.

In another embodiment, except the intrinsic inductance of multi-functional energy conditioner structure, can also use Ferrite Material.Equally constitute circuit in the past and arrive the ground capacity plate, increase inductance in this structure with Ferrite Material to circuit and circuit with common ground conduction and battery lead plate.

Use Ferrite Material that transient voltage protection can also be provided, it can conduct on certain voltage threshold, and excessive transient voltage is shorted on the public conductive plate, limits the voltage on the conductor effectively.

For the multifunctionality of showing the multi-functional energy conditioner in the scope of the invention and purposes widely, many other structure and structures have been proposed also on the basis of above-mentioned purpose of the present invention and advantage.

Description of drawings

Fig. 1 represents a decomposition diagram of multi-functional energy conditioner of the present invention;

Figure 1A represents the decomposition diagram of a change embodiment of multi-functional energy conditioner shown in Figure 1;

Fig. 2 provides a kind of circuit diagram, and expression is placed in the big electrical system and the physique during energising;

Fig. 3 A inserts the loss comparison curves with a kind of common-mode noise that the multi-functional energy conditioner of Fig. 1 is compared with the filter that the capacitor of prior art is formed, and has shown that inserting loss is the function of signal frequency;

Fig. 3 B inserts the loss comparison curves with a kind of differential noise that the multi-functional energy conditioner of Fig. 1 is compared with the filter that the capacitor of prior art is formed, and has shown that inserting loss is the function of signal frequency;

Fig. 4 is the decomposition diagram that is used to a kind of many conductors multi-functional energy conditioner of connector;

Fig. 5 A represents the schematic diagram according to a kind of many capacitive element of prior art;

A specific embodiment of the multi-functional energy conditioner of the schematic diagrammatic sketch 4 of Fig. 5 B;

A surface mount chip embodiment of the perspective representation multi-functional energy conditioner of Fig. 6 A, and represent its decomposition diagram with Fig. 6 B;

Fig. 7 is the decomposition diagram of the individual thin web of the another embodiment formation of multi-functional energy conditioner;

Fig. 8 A represents the top view of motor multifunctional energy regulator embodiment; Fig. 8 B represents its end view; Fig. 8 C represents its sectional side cutaway view; And Fig. 8 D is a schematic diagram of the specific embodiment of the multi-functional energy conditioner shown in Fig. 8 A;

Fig. 9 A represents to be coupled to the top view of the multi-functional energy conditioner on the motor, and Fig. 9 B represents its sectional side view;

Fig. 9 C is a logarithmic curve, represented the motor with basic filter and have the difference of Fig. 8 A-D and the motor of common-mode filter in as the comparison of the emission level of frequency function;

Figure 10 A is a kind of top view of twisted wire to presenting that shield by multi-functional energy conditioner; Figure 10 B is by shield the top view of twisted wire to the element of presenting the almost parallel that constitutes by multi-functional energy conditioner a kind of; Figure 10 C and Figure 10 D are a kind of schematic diagram of twisted wire to presenting that shield by multi-functional energy conditioner, are used for representing the differential noise elimination; And Figure 10 E and Figure 10 F are a kind of schematic diagram of twisted wire to presenting that shield by multi-functional energy conditioner, are used for representing the common-mode noise elimination;

Figure 11 A, 11B, 11C represent to constitute the public conducting electrode barricade of a change embodiment of multi-functional energy conditioner and a top view of differential electrical pole plate, take a kind of bypass construction according to the present invention, also represented the synthetic top view and the synthetic sectional view of this multi-functional energy conditioner;

Figure 12 A, 12B, 12C represent to constitute the public conducting electrode barricade of a change embodiment of multi-functional energy conditioner and a top view of differential electrical pole plate, take a kind of straight-through structure according to the present invention, also represented the synthetic top view and the synthetic sectional view of this multi-functional energy conditioner;

Figure 13 A, 13B, 13C represent to constitute the public conducting electrode barricade of a change embodiment of multi-functional energy conditioner and a top view of differential electrical pole plate, take a kind of straight-through structure according to the present invention, also represented the synthetic top view and the synthetic sectional view of this multi-functional energy conditioner;

Figure 14 A, 14B, 14C represent to constitute the public conducting electrode barricade of a change embodiment of multi-functional energy conditioner and a top view of differential electrical pole plate, take a kind of cross-over connection, straight-through structure according to the present invention, also represented the synthetic top view and the synthetic sectional view of this multi-functional energy conditioner;

Figure 15 A, 15B, 15C represent to constitute the public conducting electrode barricade of a change embodiment of multi-functional energy conditioner and a top view of differential electrical pole plate, take the structure of a kind of cross-over connection, straight-through and subsidiary public shielding insulation body according to the present invention, also represented the synthetic top view and the synthetic sectional view of this multi-functional energy conditioner;

Figure 16 A, 16B, 16C represent to constitute the public conducting electrode barricade of a change embodiment of multi-functional energy conditioner and a top view of differential electrical pole plate, take a kind of cross-over connection, straight-through structure according to the present invention, also represented the synthetic top view and the synthetic sectional view of this multi-functional energy conditioner;

Figure 17 A, 17B, 17C represent to constitute the public conducting electrode barricade of a change embodiment of multi-functional energy conditioner and a top view of differential electrical pole plate, take the structure of a kind of bypass and subsidiary public shielding insulation body according to the present invention, also represented the synthetic top view and the synthetic sectional view of this multi-functional energy conditioner;

Figure 18 A, 18B, 18C represent to constitute the public conducting electrode barricade of a change embodiment of multi-functional energy conditioner and a top view of differential electrical pole plate, take the structure of a kind of bypass and subsidiary public shielding insulation body according to the present invention, also represented the synthetic top view and the synthetic sectional view of this multi-functional energy conditioner;

Figure 19 represents the top plan view according to the Faraday shielding box structure with a public conductive plate of the present invention, and expression is to the compensation of an expose portion of the Faraday box structure that comprises a differential electrical pole plate.

Embodiment

The difference of common mode and differential mode energy is that they propagate in different circuit paths.Common-mode noise may be caused by electrostatic induction, and reason is that conducting path and electric capacity on every side are unequal.Can form same noise voltage on two lines, and/or by causing in the magnetic field of electromagnetic induction, magnetic field is from the conducting path of paired link, or many conducting paths on paired conducting path not etc. ground have essentially identical noise voltage.Noise energy can be propagated on the superficies of conductor.Differential noise is caused by the Voltage unbalance of alive circuit inside often, and interference can make the current potential of signal transmission path one side change with respect to an other side.

In order to reduce, the noise that reduces or suppress to be harmful to, utilized to be based upon an inner low impedance path in the present invention, the present invention is the part conduction ground connection with above-mentioned harmful energy, and/or (according to the present invention) delivers on an exterior conductive zone or the path.The part in this path can be positioned at inside of the present invention, and comprises public conductive plate part and or the structure of being made up of them.The exterior conductive zone of public conductive plate or structure and the extension that produced thereof can make energy propagate into one along these conductive shields path element bigger to be positioned at outside conductive area, in path or the system earth, it mainly is positioned at and is in inner public conductive plate zone or as the outside of the shielding structure of part of the present invention.

The possible outside in the path from a plurality of public conducting paths of the present invention to multilayer embodiment of the present invention outside connects and/or annex can be realized with multiple possible industrialization means commonly known in the art.This type of conduction annex of shielding structure from public conductive plate or annex to conduction is that the common board unit construction by these joints forms, and in most of the cases be connected to the difference conducting path, and be connected on the multi-functional energy conditioner, comprising power supply, multi-functional energy conditioner provides the overall noise current loop area of a shortening in the alive circuit of conducting path and load.

In the present invention is connected to a circuit and energising the time can produce at least two energy loops, these two loops are in parallel, but are in the relative both sides of public conductive plate in center or path.These energy loops phase phasic difference 180 degree to each other, like this, opposite energy will offset, and can reduce or suppress noise.A kind of charged structure that comprises multi-functional energy conditioner in bigger alive circuit inside can also provide multiple possible conducting path in multi-functional energy conditioner inside, can be used for transmitting from the energy to the load part energy.

The public shielding conductive plate of being made up of panel element and/or the part of shielding structure are being used for from the energy or during from the load Propagation of Energy, return path as the energy, between the each several part of paired difference conducting path, have independently short distance or loop area, and, when public conducting structure or public conductive plate were used as the energy transmission part, this return path can be used as one or many return paths that return its (that part of energy of propagation) source.

Be connected to separately external conductor or the path on the time, a part of loop area is positioned at the inside of multi-functional energy conditioner, provides distance between difference conductive plate or path and public conductive plate or the path by intervenient dielectric material.The part energy that circuit is propagated can be along the internal migration of multi-functional energy conditioner, and return the migratory direction of that part of circuit Propagation of Energy of the energy from load opposite a part of circuit Propagation of Energy from the energy to the load migration and the circuit inside that multi-functional energy conditioner is installed.

As mentioned above, the energy of phase anti-spread is separated by public conductive shields path, center, and the latter also is comprised in the Faraday boxlike shielding construction, in all multi-functional energy conditioner inside all across medium.This backpropagation energy can be regulated simultaneously with respect to the static characteristic of Faraday boxlike shielding construction, the main magnetic field of repealing by implication in the short path of isolating as mentioned above.

The public conducting electrode of marshalling or path are from physically having shielded above-mentioned paired differential power conductive plate or most of area in path to each other, and make these closely approaching difference conducting paths energising the time separated by public shielding path all the time closely on play opposite effect, coact with complementation or coordinated mode, provide effective energy adjustment in multi-functional energy conditioner inside.

In adjuster of the present invention, part circuit energy can be propagated along the difference conductor between the distinct public conductive plate of two parts zone on sometime, the difference conductor is separated by medium from public conductive plate zone separately, and this part energy is in the part of the above-mentioned energy of multi-functional energy conditioner internal communication in the work of alive circuit.

Referring to Fig. 1, represented a decomposition diagram of the physique of multi-functional energy conditioner 10 among the figure.Multi-functional energy conditioner 10 is made of a plurality of public conductive plates 14, has two battery lead plate 16A and 16B at least, and each battery lead plate 16 is sandwiched between two public conductive plates 14.Insulated hole 18 or coupling aperture 20 by a plurality of public conductive plates 14 and battery lead plate 16A and 16B are provided with pair of conductors 12a and 12b at least, allow the also selected coupling aperture 20 that is connected to battery lead plate 16A and 16B of conductor 12a and 12b.The whole public conductive plate 14 that for example is made of with metal in most preferred embodiment or different embodiment conductive material can be to be deposited on one according to the conductive material that is similar on the medium lamination (not shown) that the technology of making chip capacity makes.By each common ground conductive plate 14 at least one pair of insulated hole 18 is set, allows conductor 12 pass through, keep the electric insulation between public conductive plate 14 and the conductor 12 simultaneously again.A plurality of public conductive plates 14 can select to install the fastener hole of arranging according to predetermined cooperation position 22, allow a plurality of conductive plates 14 for example be that screw rod and screw closely are coupled by the standard fastener to each other, or (not shown) can be with being similar to technology manufacturing of making chip capacity or the like and the elastic piece structure that is bonded into standard in the embodiment of change.Fastener hole 22 can also be used to multi-functional energy conditioner 10 is fixed on another non-conduction or the conducting surface, for example is to be fixed on the shell or chassis that is used with electronic device multi-functional energy conditioner 10.

The similar part of battery lead plate 16A and 16B and public conductive plate 14 is that they are made of conductive material, or can be to be deposited on one, and have conductor 12a and the 12b that is provided with by the hole according to the conductive material that is similar on the medium lamination (not shown) that the technology of making chip capacity makes in different embodiment.Different with public conductive plate 14, battery lead plate 16A and 16B are electrically connected to one of two conductors 12 selectively.Although battery lead plate as shown in Figure 1 16 is littler than public conductive plate 14, but be not necessary, it is in order to prevent that battery lead plate 16 from disturbing the physical coupling device of fastener holes 22 in this structure, and should be able to insert public conductive plate 14 inside in ideal conditions.

As shown in Figure 1, conductor 12 provides the path that a power supply stream flows on the direction that is positioned at the arrow indication on the arbitrary end of conductor 12a and 12b.Conductor 12a provides the transfer path of the signal of telecommunication, and conductor 12b provides the signal return path.Although only represented pair of conductors 12a and 12b, being intended that with multi-functional energy conditioner 10 of inventor provides filtering for many to conductor, forms the multi-functional energy conditioner of the many conductors of a kind of high density.

The primary element that constitutes multi-functional energy conditioner 10 is a material 28, it has one or more electrical characteristics and surrounds center common ground conductive plate 14 in such a way, two battery lead plate 16A and 16B, and that part of conductor 12a and 12b from passing through between two public conductive plates 14 in the outside, will except conductor 12a and 12b and coupling aperture 20 form be connected plate and conductor isolate mutually.The electrical characteristics of multi-functional energy conditioner 10 are to be determined by the material of selecting 28.If the selection dielectric material, multi-functional energy conditioner 10 just mainly has capacitance characteristic.Material 28 can also be the metal oxide variable-resistance material, and electric capacity and surge protection characteristic so just can be provided.Also can use such as other materials such as ferrite and sintering polycrystal, Ferrite Material can provide intrinsic inductance together with the surge protection characteristic, can also improve common-mode noise by the eutralizing operation that intercouples and eliminate.The sintering polycrystalline material can provide conduction, medium and magnetic characteristic.The sintering polycrystalline material is in U.S. Pat 5,500, concrete description arranged in 629, can supply this paper reference.

Operational other materials is high magnetic permeability ferroelectric material and the high magnetic permeability ferromagnetic material that synthesizes, and in U.S. Pat 5,512, concrete description is arranged in 196, can supply this paper reference.This ferroelectric-ferromagnetic synthetic material can be made compact single element, and it can present inductance and electric capacity two specific characters unusually, plays the effect of a LC-type electrical filter.The compactedness of this element, shapeable and filter action help to suppress electromagnetic interference.In one embodiment, ferroelectric material is a barium titanate, and ferromagnetic material is a kind of Ferrite Material such as copper zinc ferrite etc.The electric capacity and the inductance characteristic of this ferroelectric-ferromagnetic synthetic have damping capacity, the sign that it does not level off on the frequency up to 1GHz.The geometrical construction meeting of ferroelectric-ferromagnetic synthetic obviously has influence on final electric capacity and the inductance characteristic of electrical filter that adopts this synthetic.In manufacture process, can regulate, change the special characteristics of multi-function capability adjuster, specific application and environment are produced suitable decay synthetic.

Below to specify public conductive plate 14, battery lead plate 16A and 16B, conductor 12a and 12b and material 28 with reference to Fig. 1.Starting point is a center common ground conductive plate 14.Central plate 14 has paired conductor 12a and 12b, keeps electric insulation between common ground conductive plate 14 and two conductor 12a and the 12b by its insulated hole 18 separately.In center common ground conductive plate 14 upper and lower any sides is battery lead plate 16A and 16B, has the paired conductor 12a and the 12b that therefrom pass separately.Different with center common ground conductive plate 14, only there are a conductor 12a or 12b to isolate with battery lead plate 16A separately or 16B by an insulated hole 18.In the middle of conductor 12a or the 12b one forms electric coupling by coupling aperture 20 with respective electrode plates 16A or 16B respectively in pairs.Coupling aperture 20 for example is welding by the connection of standard, and resistance is adaptive, or can provide any method of firm electrical connection to dock with one of paired conductor 12.For multi-functional energy conditioner 10 is correctly worked, electric pole plate 16A must be electrically coupled to relative conductor 12a, and lower electrode plate 16B will be electrically coupled to conductor 12b.Multi-functional energy conditioner 10 preferably comprises the public conductive plate 14 in a plurality of outsides.When a plurality of public conductive plates 14 are electrically connected to an outer side edges along the conduction band, on the conductive terminal material or when directly being attached on the bigger exterior conductive face (not shown) by pulling force bracing or strutting arrangement or welding material commonly used, provide bigger conductive ground plane and/or picture plane by these public conductive plates 14 in outside, conducting surface 14a and 14b and different conductive plate 16A and 16b and/or all physically isolate such as in a plurality of conductors such as 12a and 12b any one.Public conductive plate 14 is connected to the exterior conductive zone helps the electromagnetic radiation that decays, and provide bigger surface area to disperse overvoltage and surge.

Public conductive plate 14 is connected to the exterior conductive zone helps static to suppress any inductance or spuious parasitism, come absorbed radiation with different conductive plate 16A and 16B and/or such as in a plurality of different conductors such as 12a and 12b any one.

Be engaged with each other in a manner described and coact in common board and mainly adopt the Faraday box structure when suppressing electromagnetic radiation by the public conductive plate of marshalling and bigger exterior conductive zone or surface, and provide a bigger conduction surfaces area, be used for disperseing overvoltage and surge, and utilize the Faraday box structure to come static to suppress parasitic and other transitions simultaneously.This point is coupled to the earth (not shown) at a plurality of public conductive plates with circuit) time particularly useful, the invention provides intrinsic ground connection but depend in circuit to adopt.As mentioned above, the material 28 that inserts and remain between public conductive plate 14 and two battery lead plate 16A and the 16B can be one or more material with different electrical characteristics.

Figure 1A represents one of multi-functional energy conditioner 10 change embodiment, and it comprises attachment devices such as the coupling conductors that is connected to multi-functional energy conditioner 10 or circuit board.A plurality of public conductive plates 14 are electrically connected to together, share conduction band, an edge 14a and/or a 14b (not shown) that is positioned at the outside separately in the outlet of each conducting electrode, and engage subsequently and/or be connected on the same exterior conductive face (not shown), when the present invention is placed into a part of (not shown) of a big circuit and can keeps a voltage potential when charged.This voltage potential by present embodiment band 14a and/or the 14b (not shown) with inner public conducting electrode 14 and realize being connected required any transport element and exterior conductive surf zone and coact and finish energy transmission.In addition, each differential electrical pole plate 16A and 16B have self respectively outer side edges along the conduction band or surperficial 40a and 40b.For battery lead plate 16A and 16B with its separately conduction band 40a and 40b between provide and be electrically connected, keep simultaneously the electric insulation between other parts of multi-functional energy conditioner 10 again, each battery lead plate 16 has been extended, and the direction that its position is pointed to the prolongation of battery lead plate 16A is opposite with the direction that battery lead plate 16B points to.The prolongation of battery lead plate 16 also extends to certain distance, and a plurality of public conductive plate 14 that has extended additional distance is isolated along conduction band 40a and 40b by additional material 28 and outer side edges.Electrical connection between each band 14a and/or its corresponding plate 14 of 14b (not shown) is to realize by the physics contact between each band 14a and its corresponding public conduction of difference of 14b (not shown) or the conduct electricity pole plate.

Fig. 2 represents a circuit diagram, represents the specific embodiment of multi-functional energy conditioner 10 to be mounted in the big circuit and the live part of a circuit when charged.Circuit is made of battery lead plate 16A and 16B to line capacitance 30, and battery lead plate 16A is coupled to the conductor 12a in the pair of conductors, and another battery lead plate 16B is coupled to relative conductor 12b, constitutes two parallel-plates that electric capacity is required thereby provide.Center common ground conductive plate 14 is a base components in the middle of all embodiment of the present invention, it is bonded together with two public conductive plates 14 that are clipped in the outside and forms intrinsic ground connection 34 and 34b, show as with 14 and the 14B (not shown) be connected to bigger exterior conductive zone 34 (not shown), and circuit also can be used as each circuit to line capacitance 30 and arrives one of two parallel-plates of ground capacity 32.

Each circuit is that battery lead plate 16B by correspondence provides to the ground capacity 32 second required parallel-plates.See figures.1.and.2 and just can find out the relation of capacitor board.With material 28 center common ground conductive plate 14 is isolated with each battery lead plate 16A or 16B with electrical characteristic, the result has just formed a capacitance network, it has a common mode shunt capacitance 30 of extending between conductor 12a and 12b, and is coupled to circuit on the bigger exterior conductive zone 34 to ground connection decoupling capacitor 32 from each conductor 12a and 12b.

Below also want the bigger exterior conductive zone 34 of specific explanations, but from supposing that instinctively it and the earth or circuit ground are equivalent.Bigger exterior conductive zone 34 can be coupled with center and additional public conductive plate 14, form the public conductive plate 14 that links to each other on one or more circuit with above-mentioned central plate 14 combinations, and can be coupled to circuit or greatly by means of the conventional means of prior art, for example be welding or the screw that insertion fastener hole 22 is installed, be coupled to then on the shell or hot chassis (not shown) of electric equipment.Although the effect of this multi-functional energy conditioner 10 is equivalent to be coupled to the intrinsic ground connection 34 of the earth or circuit ground, an advantage of the physique of this multi-functional energy conditioner 10 is to depend on required energy condition, does not need the connection of actual ground connection in some concrete application.

Referring to Fig. 1, supplementary features of multi-functional energy conditioner 10 have been demonstrated among the figure respectively with clockwise and counterclockwise flux field 24 and 26.The direction of each flux field is to adopt Ampere's law and determine and draw with right-hand rule.For this reason the parallel placement of the thumb of two hands and sensing can the be flowed through sense of current of conductor 12a or 12b is shown in arrow of each end of conductor among the figure.If thumb and electric current point to same direction, the crooked direction of other fingers of staff is just represented the direction of rotation of flux field 24 and 26.Because the position of conductor 12a and 12b is adjacent one another are, and can represent the current loop of common one or more in many I/O and the data circuit structure, the electric current that enters and leave multi-functional energy conditioner 10 is reciprocal, the opposite flux field 24 and 26 that generation can mutually offset in closely, and the inductance that is applied on the device is very little.Along with the increase of new-type facility switching speed and pulse rise time fast, can produce unacceptable due to voltage spikes, have only low inductance surge device and network just can deal with, therefore, low inductance is an advantage of new-type I/O and high speed data lines.

Compare with the discreet component of available technology adopting combination, adopt multi-functional energy conditioner 10 that tangible effect is also arranged on the meaning of labour intensive, for manufacturing industry provides a kind of convenient and low cost method.Because just only need connect at arbitrary end of conductor 12 to provide a circuit to line capacitance for circuit, its value approximately is 1/2 of a capacitance that each circuit of forming in inside in the present embodiment is recorded to ground capacity, so just for the user provides flexibility, and when utilizing the present invention to make bigger electrical system, can also save time and the space.

The comparison that the circuit that Fig. 3 A represents the multi-functional energy conditioner shown in Figure 1A 10 is measured .20 μ F is done to the response of through hole capacitor 50 (not shown) of the roughly the same prior art of the measured common mode insertion loss of line capacitance and physical size and diameter.It is different to the performance of line capacitance with multi-functional energy conditioner 10 performance by contrast with .20 μ F capacitance that curve display goes out circuit that the prior art capacitor 50 with .47 μ F capacitance constitutes.If these two multi-functional energy conditioners 10 and 50 all are connected to exterior conductive zone 34, compare the insertion loss reading (only limiting to testing equipment) that multi-functional energy conditioner 10 demonstrates obviously and difference is very big in up to the 1200MHz frequency range with capacitor 50.

Fig. 3 B represents the comparison that the response of through hole capacitor 50 (not shown) of prior art identical among differential mode that the same multi-functional energy conditioner 10 that Fig. 3 A adopts is recorded and Fig. 3 A is done.If these two multi-functional energy conditioners 10 and prior art capacitor 50 all are connected to exterior conductive zone 34, the insertion loss (only limiting to testing equipment) that multi-functional energy conditioner 10 demonstrates in up to the 1200MHz frequency range obviously and difference is very big.

Curve 3B represents that constituting circuit with .47 μ F capacitance is different to the reading of the prior art capacitor 50 of ground capacity with multi-functional energy conditioner 10, the circuit of the latter's adjuster 10 1 lateral capacitances is .40 μ F to the ground capacity value, and approximately is two times to line capacitance value .20 μ F of the circuit that recorded from multi-functional energy conditioner 10 before the test of Fig. 3 A.

An alternative embodiment of the invention is the difference shown in Fig. 4 and many conductors of common mode filter 110.Filter 110 is with the similar part of the multi-functional energy conditioner of Fig. 1 and Figure 1A, it is the structure that is made of differential mode decoupling capacitor and common mode decoupling capacitor a plurality of public conductive plates 112 and a plurality of electrode 118a to 118h, they act on do not represent among Fig. 4 many on the conductor, but similar with conductor 12a and 12b shown in Fig. 1 and the 1A.As mentioned with reference to shown in Figure 1 single described to the multi-functional energy conditioner of conductor about being used for, public conductive plate 112, electrode 118 and a plurality of conductor are to be isolated mutually by a kind of material 122 of preliminary election, material 122 has the predetermined electrical characteristic, it for example is dielectric material, Ferrite Material, MOV material and sintering polycrystalline material.A plurality of public conductive plates 112 have a plurality of insulated hole 114 that supply conductor dbus to cross separately, keep the electric insulation with each each conductive plate 112 simultaneously again.Many to conductor in order to hold, multi-functional energy conditioner 110 must adopt a kind of modification to battery lead plate shown in Fig. 1 and the 1A.

For for each provides a plurality of absolute electrodes to conductor, adopted the backing material 116 that constitutes by a kind of material 122 that comprises desirable electrical characteristic.Supporting bracket 116A is by a plurality of electrode 118b that are printed on plate 116B one side, 118c, and 118e and 118h constitute, and each electrode has a coupling aperture 120.Supporting bracket 116A also is by a plurality of electrode 118a that are printed on plate 116A one side, 118d, and 118f and 118g constitute.Supporting bracket 116A and 116B are separated by a plurality of public conductive plates 112 and surround, and the plate 112 except that conductive material all is made of material 122, so that with the standard approach of prior art each plate is merged in manufacture process or stacked and/or be fused together.Also can be with electrode material and the insulation system that known standard approach increases or deposit is above-mentioned in the prior art manufacturing process.

Also to apply conducting terminal material 112D in the mill in the side of plate 112, at least connect of the present invention 110 a plurality of public conductive plate electrode 112A with terminal material 112D, 112B, 112C, being bonded together with circuit constitutes single conducting structure, can share same the conducting path that leads to exterior conductive zone or surperficial (not shown) when inserting circuit and energising.Paired input conductor has the electrode pair of a correspondence separately in multi-functional energy conditioner 110.Although not expression among the figure, conductor passes public conductive plate 112 and electrode separately.Realize being connected or not connecting with insulated hole 114 by selecting coupling aperture 120.Public conductive plate 112 is cooperating battery lead plate 16A and the 16B roughly the same function of electrode 118a in 118h execution and Fig. 1 and the 1A.

Fig. 5 represents the many capacitive element of prior art and the schematic diagram of difference of the present invention and many conductors of common mode multi-functional energy conditioner 110.Fig. 5 A is a schematic diagram of prior art array of capacitors 130.Form a plurality of capacitors 132 and intercouple, conductor is connected to each capacitor 132 with open terminal 134 to array 130 provides common ground 136.When the open terminal 134 usefulness circuit of each capacitor 132 were connected on the single conductor, these prior art array of capacitors only can be realized the common mode decoupling to single conductor.

Fig. 5 B represents to have four difference and common-mode filter pin to the difference of structure and a schematic diagram of many conductors of common mode multi-functional energy conditioner 110.Extend through each the horizontal line of electrode is represented public conductive plate electrode 112A, 112B and 112C surround insulating material 112a with these lines.Insulating material 112a is electrically coupled to public conductive plate electrode 112A, 112B and 112C and side conducting terminal material 112D, the conductive grid that provides zone that a quilt do not have electric conducting material and battery lead plate 118a further to separate to 118h, thus each battery lead plate 118a is separated with conductive grid each other to 118h.Corresponding electrode 118a to 118h be positioned at fid flitch 116A and 116B above, be in the above and below of center common ground conductive plate 112, and constitute circuit and arrive ground connection common mode decoupling capacitor.Each battery lead plate 118a is to 118h, public conductive plate electrode 112A, and 112B and 112C and fid flitch 116A and 116B are spaced from each other by dielectric material 122.When multi-functional energy conditioner 110 by for example being coupling aperture 120 among battery lead plate 118a and the 118c when being connected on the paired conductor, multi-functional energy conditioner 110 has just formed a common mode and differential mode filter.

Referring to Fig. 4, the multi-functional energy conditioner of representing among the figure 110 not only has center public conductive plate electrode 112B and also has public conductive plate electrode 112A in the outside and 112C.Described as reference Fig. 1 and 1A, if these outside public conductive plates and public conducting electrode 112A and 112C are bonded with each other together, and provide an exterior conductive path or a zone that obviously increases for multi-functional energy conditioner 110 together with each conductive plate 14 of each center of the present invention or center each electrode 112B and an exterior conductive zone (not shown), simultaneously can suppress and/or reduce again and/or the electromagnetic emission of decay paired radiation of conductors and conduction, and between the above-mentioned conductive plate of Fig. 1 and 1A or other embodiments of the invention and electrode, provide shielding, provide a bigger surface area to disperse and/or absorb overvoltage, surge and other transition noises, and when energising, play the effect that a Faraday boxlike shields effectively.

A popular tendency of all new-type electronic equipments is exactly the continuous miniaturization of equipment and the electronic unit that constitutes this equipment.Critical component capacitor in the multi-functional energy conditioner structure is no exception, and its size has narrowed down to the degree that can be shaped and embed in the integrated circuit gradually in silicon chip, have only with microscope and just can see.Very popular a kind of midget capacitor is a chip capacitor, and it is more much smaller than the through hole or the lead capacitance device of standard.Chip capacitor adopts surface mounting technology to realize physics and electric being connected with the conductor on the circuit board with track.The multifunctionality structure of multi-functional energy conditioner of the present invention can expand to surface mounting technology as shown in Figure 6.Fig. 6 A represents a kind of mounted on surface multi-functional energy conditioner 400, and its internal structure is shown in Fig. 6 B.Referring to Fig. 6 B, public conductive plate 412 is sandwiched between the first difference plate 410 and the second difference plate 414.Public conductive plate 412 and the first and second difference plates 410 and 414 all are to be made of the material 430 with the predetermined electrical characteristic that depends on that material is selected separately.In all embodiment of the present invention, but expect that operational various material for example is not limited only to dielectric material, the MOV material, Ferrite Material is such as Mylar and the new particular matter film of sintering polycrystalline material or the like for example.

The first difference plate 410 comprises the electrode 416 that is coupled on material 430 end faces, stays isolation strip 418 and surrounds its outer periphery along three limits in four limits of the first difference plate 416.Isolation strip 418 is those parts that do not covered by electrode 416 as yet along material 430 edges.The second difference plate 426 and the first difference plate 416 are roughly the same, and unique difference is the physical arrangement mode difference with respect to the first difference plate 416.The second difference supporting bracket 414 comprises the electrode 426 that is coupled on material 430 end faces, stays isolation strip 428 and surrounds its outer periphery along three limits in four limits of the second difference plate 426.Main points about the first and second difference plates 416 and 426 physical arrangement of asking mutually are that each plate is not arranged to differ each other 180 degree by isolation strip 418 and 428 those sides of surrounding.In Figure 19, have further explanation about the first and second difference plates 416 and 426 main points with respect to the physical arrangement of public conductive plate 424.

Each differential electrode 416 and 426 conduction surface are by the shielding each other physically of the public conducting electrode 412 in intervenient center, each differential electrode 416 and 426 border or periphery are inserted into to a certain degree with respect to the border or the periphery of public conducting electrode 424, allow the remaining zone of public conductive plate or the zone that is covered provides a difference conductive plate 416 that equates than the size of clamping above-mentioned public conductive plate 412 and 426 bigger sizes for public conductive plate.

Difference plate 416 that equates with respect to public conducting electrode 424 with respect to size and 426 overlapping scope roughly are inserted into such degree, the time be enough to capture the parasitic animal and plant of attempting to escape or enter in energising, prevent performance degradation by differential electrode 416 and 426 occupied zones.Difference conductive plate 410 and 414 is with respect to one group of bigger common board 424 of clamping difference plate 416 and 426, and 424a, 424b are inserted into this point can strengthen electrostatic screen under electriferous state.This arrangement allows a conductor circuit is coupled to arbitrary single difference plate 416 and 426, but does not need the coupling with both sides, so just can still be formed with phase difference between the difference conductor 416 and 426 of position opposite in pairs but complementary energy adjustment.

Common support plate 412 structurally with the similarity of the first and second difference supporting brackets 410 and 414 be it also comprise material 430 and with the public electrode 424 of its end face coupling.As seen, common board 424 has two isolation strip 420 and 422 that are positioned at opposite end from Fig. 6 B.Common board 412 is alignd between the first and second difference plates 416 and 426,, allowing isolation strip 420 and 422 aim at does not have first and second difference plates 416 of isolation strip and 426 end.

All three plates be each plate below of common board 424 and the first and second difference plates 416 and 426 without any conducting surface, therefore, when these plates by one folded one when stacked, the back side of common support plate 412 isolates differential electrode 416 and public electrode 424.In a comparable manner, the back side of the first difference supporting bracket 410 that is made of material 430 isolates public electrode 424 and differential electrode 426.

Below to further explain the structure of mounted on surface multi-functional energy conditioner 400 with reference to Fig. 6 A.When common board 424 and the first and second difference plates 416 and 426 are sandwiched in a time-out according to Fig. 6 B and layout shown in Figure 19, make two additional public conductive plate 424A and 424B location, clamp difference plate 416 and 426, the latter clamps public conductive plate 424 again.In the present embodiment, the composition material of plate 424B and 424A, size is substantially the same, and roughly is and is arranged in parallel, and allows separately band and electrode rim be within the above-mentioned center conductive plate 424.

Must there be a device that conductor is coupled to differential electrode 416 and 426.Conductor dbus is crossed the isolation strip 408 that is positioned between conduction band 402,404 and 406 and the first difference conduction band 404 and the second difference conduction band 406 that public conduction band 402 isolates and is coupled to mounted on surface multi-functional energy conditioner 400.Public conduction band 402 and isolation strip 408 can be around Subject Extension 360 degree of multi-functional energy conditioner 400, provide isolation at all four sides, but, because public conductive plate 424,424A and 424B have surrounded above-mentioned differential electrode 416 and 426 with almost completely shielding, replace being with 402 if be similar to form commonly used in the conducting terminal structure (not shown) of terminal band 84 shown in Figure 14 or the prior art, just can dwindle the size of public conductive plate 402 even its cancellation with shape and function class.360 degree are not only extended around each position of multi-functional energy conditioner 400 in the first and second difference conduction bands 404 and 406, also extend to and cover end 432 and 434 respectively.

Contrast Fig. 6 A and Fig. 6 B be the coupling between conduction band and the plate as can be seen.The first difference conduction band 404 comprises the end 434 that keeps electric coupling with electrode 416, and the latter does not extend to the isolation strip 418 of the first difference plate, 416 ends.Because the effect of isolation strip 422 and 428, the second difference conduction band 406 are isolated with the common board 424 and the first difference plate 416 respectively on circuit.

According to mode similar to the above, comprise that second difference conduction band 406 of end 432 and second differential electrode 426 of the second difference supporting bracket 414 form electric coupling.Because common support plate 412, the isolation strip 420 of 412A and 412B and the first difference plate 416,420A, 420B and 422, the effect of 422A and 422B, the second difference conduction band 406 on circuit with the first difference plate 416 and common board 424,424A and 424B isolate.

Public conduction band 402 and common board 424, the electric coupling of 424A and 424B are that the physical coupling by the side 436 of public conduction band 402 realizes, or change the public electrode 424 that does not have the isolation strip along both sides, 424a, 424b into.In order to keep public electrode 424,424A, 424B and the first and second difference conduction bands 404 and 406 isolation on circuit is with common board 412,412A, the isolation strip 420 of 412B, 420A, 420B and 422,422A, 422B prevents the end 432 and 434 and public electrode 424 of the first and second difference conduction bands 404 and 406, and any physical coupling takes place for 424A, 424B.

Other embodiment according to difference of the present invention and common mode multi-functional energy conditioner, when electrode was coupled to the first and second difference conduction bands 404 and 406, the first and second difference supporting brackets 410 and 414 electrode 416 and 426 effect were that a circuit is to the line differential mode capacitor.Circuit is respectively in each electrode 416 and 426 and public electrode 424 to the ground connection decoupling capacitor, and 424A forms between the 424B and Faraday boxlike shielding construction 800 (not shown) of coupling.

Fig. 7 represents another embodiment with the multi-functional energy conditioner of Mylar formula or thin film dielectrics formation.Present embodiment is made of thin film dielectrics, and utilize means commonly known in the art that metallicity and conductivity are provided, constitute a public conductive plate 480 earlier, be the first electrode difference plate 460 then, then being another the public conductive plate 480 and the second electrode difference plate 500, is another public conductive plate 480 subsequently.Each plate all is to constitute with film 472, and itself can be made of many kinds of materials, but for example is not limited only to Mylar, and film 472 is made by complete metalization or with conductor, forms the plate of metallization or conduction with another kind of electric conducting material in a side.Utilize laser to remove a part of metallized electric conducting material (metallization removal) and form isolation barrier according to predetermined pattern.The first difference plate 460 has the isolation barrier 462 and 466 of two laser formings, and the first difference plate 460 is divided into three conductive regions: electrode 464, the electrode 468 of isolation and public electrode 470.The something in common of the second difference plate 500 and the first difference plate 460 is to have two isolation barriers 506 and 504, and the second difference plate 500 is divided into three conductive regions: electrode 510, the electrode 502 of isolation and public electrode 508.The first and second difference plates 460 and 500 isolation barrier 462 and 506 all are U-shapeds, the electrode 464 of formation and the 510 very large tracts of land of surrounding first and second plates 460 and 500.U-shaped isolation barrier 462 and 506 can make electrode 464 and 510 extend to separately end 476 and 514 always.Parts 474 and 512 extend from isolation barrier 462 and 506, and parts 473 and 513 extend from isolation barrier 466 and 504.Parts 474 stretch out with the end on 514 the point is vertical near ends 476 from U-shaped isolation barrier 462 with 506 with 512, and parts 473 vertically on the isolation barrier 466 and 504 respectively stretch out with 513, so that 476 and 514 isolate public electrode 470 and 508 fully from the end.In addition, the first and second difference plates 460 and 480 also have by the electrode 468 and 502 of isolation barrier 466 with 504 isolation that form in relative end.

Public conductive plate 480 comprises isolation barrier 482 and 492, and public conductive plate 480 is divided into three conductive surfaces: public electrode 488, the electrode 484 of isolation and the electrode 494 of isolating.As shown in the figure, isolation barrier 482 parallel with the left and right edge of public conductive plate 480 with 492 and extend in vertical direction with adjoining.Isolation barrier 482 and 492 also comprise stretch out and with isolation barrier 482 parts 496 vertical with 492 vertical cross-section, its position is such, when plate 460,480 and 500 are laminated in a time-out, and they align with the U-shaped isolation barrier 462 of the first and second difference plates 460 and 500 and 506 horizontal component.

Another is characterised in that public conductive plate 480 can select to be used for to AC or DC signal filtering.For the DC signal, the electrode 484 of isolation and 494 only needs very little area in public conductive plate 480.If constitute filter and be used for the AC signal filtering with thin film dielectrics, the electrode 484 of isolation and 494 just needs bigger area, and it is revised isolation barrier 486 and 490 by etching and realizes.Make vertically extending isolation barrier 484 and 494 close with etching, and near public conductive plate 480.In order to realize such modification, stretch out and parts 496 vertical with vertical cross-section longer than the structure that is used for DC.Although any structure can both be to the current filtering of two kinds of forms, larger area isolation barrier 484 and 494 can provide AC filtering performance preferably.

Fig. 8 and the main embodiment that still can not only be used for the multi-functional energy conditioner of motor of 9 expressions, this embodiment also can carry out energy adjustment in other electronic equipment.Motor is an electromagnetic radiation and a unbalanced important source.Even this is true also to be conspicuous to the layman, many people had the experience of operating vaccum suction cleaners before television set, and saw to be on the screen and be covered with " snowflake ".To the interference of television set is electromagnetic radiation from motor.The application of motor in household electric appliances is very general, and washing machine is for example arranged, drier, dishwasher, mixer and hair-dryer.In addition, many motor are arranged all on most automobiles, be used for controlling rain brush, motorized window, the motorized adjustment mirror, telescopic antenna and overall other function of control, its quantity surpasses 150 motor and does not wait from 25 motor of each car to luxurious car.Because the raising of the universal and Electromagnetic Radiation Standards of motor, in an integrated encapsulation, need to possess differential mode and common mode filtering ability, it can reduce and only need a passive component that necessary filtering and noise suppressed is provided in many cases, need not adopt inductance or ferrite part except embodiments of the invention.Motor filter 180 can be made Any shape, and still shown in Figure 8 is a most preferred embodiment, and it is the rectangle frame that is made of a kind of material 182 with one of multiple predetermined electrical characteristic.Fig. 8 a represents the external structure of filter 180, and it is to be made of the rectangle frame material 182 with the isolation axis hole 188 that passes filter 180 centers.Above-mentioned 188 holes are not necessary for this special purpose, but adopt for the ease of carrying out any electric regulating action by above-mentioned hole 188, can cancel and select configuration in design.Conduction band 184 and 194 and public conduction band 186.Fig. 8 b represents the end view of filter 180 structures, conduction band 184 and 194 and public conduction band 186 be positioned to each other each the band between material 182 the cross section from electric and physically the isolation.Fig. 8 c represents a sectional view seeing along the phantom center line of Fig. 8 a.The same with aforesaid all embodiment, physique of the present invention be by electrode 181 and 185 and be clipped between public electrode 183 constitute.Material 182 with predetermined electrical characteristic is dispersed between all electrodes, prevent each electrode 181 and 185 and public electrode 183 between electrical connection.Similar to mounted on surface embodiment of the present invention, filter 180 adopts conduction band 184 and 194 electrodes with filter 180 inside to be connected on the conductor.Electrode 181 extends always and touches conduction band 184 provides required circuit butt joint.Shown in Fig. 8 c, electrode 181 does not extend to conduction band 194 always and contacts, and the latter is coupled to electrode 185.Although not expression among the figure, public electrode 183 extends non-contiguously with conduction band 184 and 194 between conduction band 186 always.If public conduction band 186 is coupled to motor case 200 inboard (not shown) and is used as floating earth, just can strengthen the dead earth that provides by public electrode 183.

Fig. 8 d is a schematic diagram of differential mode and common mode motor filter 180, expression provides two required parallel-plates to the line differential mode coupling capacitor with electrode 181 and 185 for circuit, cooperating with public electrode 183 simultaneously provides circuit to arrive ground connection common mode decoupling capacitor, allows public electrode 183 cooperate with the dead earth (not shown).Also represent conduction band 184,194 and public conduction band 186 among the figure, motor filter 180 can be connected respectively to independently conductive area (not shown) of outside difference conductor and.Although the embodiment of Fig. 8 represents to have three public electrodes 183 and two electrodes 181 and 185, with the same among the aforesaid embodiment, the inventor can also change capacitance by the effect that increases parallel capacitance with a plurality of public and differential electrodes.

Fig. 9 represents the differential mode and the common mode motor filter 180 of and physical coupling electric with motor 200.Shown in Fig. 9 a, motor filter 180 is placed on motor 200 tops, and motor reel 202 stretches out.Motor reel 202 passes the axis hole 188 of filter 180, conduction band 184 and 194 and form electric coupling to each other and with splicing ear 196 that the rotor of motor 200 is isolated.Although not expression, each splicing ear 196 be also connected to for motor 200 power supply is provided and the power line that returns on.In case motor filter 180 is connected/is coupled to motor 200, just motor panel 208 is placed on motor 200 and above the filter 180, allows motor reel 202 pass a same hole at motor panel 208 centers.With clamping plate 206 panel 208 is physically coupled on the main body of motor 200 then.Although not expression, filter 180 can adopt dead earth 34 and 34B, public conduction band 186 is coupled on the motor casing, or directly public conduction band 186 is connected to the motor case inboard.

The logarithmic curve of Fig. 9 C represent with 220 the motor of representing with basic filter produce as the electromagnetic radiation grade of the motor 200 of frequency function and with the comparison between the filtering result of 222 differential modes of representing and common mode motor filter 180.Curve display goes out, compare at gamut or even specific to the situation in 0.1 to the 1MHz scope with the prior art filter, adopt filter 180 can increase the inhibition of 20dB to electromagnetic radiation, at 0.01MHz to a minimum value is arranged between about 10MHz, as can be seen, high-frequency range more than 10-20MHz, many when the minimizing of electromagnetic radiation does not resemble low frequency, but this is unimportant, because most of motor can both operate as normal below frequency range at this, 180 pairs of most of purposes of motor filter can reduce electromagnetic radiation, thereby improve performance.

Above with the patent that belongs to the applicant together of this paper institute reference and patent application in by the agency of many kinds of difference and common-mode filter.An alternative embodiment of the invention has adopted a kind of distortion of aforesaid filters.It is right that Figure 10 A represents by the shielding twisted wire of difference and common-mode filter 300 power supplies.Difference between this filter 300 and the aforesaid filters is the first differential electrode band 302A, the 302B and the second differential electrode band 306A, and 306B position separately is mutually symmetrical.The same with the filter of previous embodiment, with insulating material 308 the common ground conduction band 304 and the first and second differential electrode bands 302 and 306 are separated.Shown in Figure 10 B, the shielding twisted wire by 300 power supplies of difference and common-mode filter also comprises three common ground conductive plates 314 at least to comprising the first and second differential electrical pole plates 312 and 316 at least respectively.The same with aforesaid filter embodiment, plate 312,314 and 316 is mutually stacked and be isolated from each other by material 308.

Referring to Figure 10 C and 10D, represented the right schematic diagram of shielding twisted wire among the figure, and how to be used for eliminating differential noise by 300 power supplies of difference and common-mode filter.The direction of electric current I of first and second differential electrode band 302A intersected with each other and 306B of flowing through is opposite, and flows out from the first and second differential electrode band 302B and 306A.The crosspoint of electric current I is used as circuit to line capacitance, and the public conductive grounding plate 314 that is in a certain side in crosspoint provides circuit to arrive ground capacity.

In Figure 10 D, filter 300 is expressed as the plate 312,314 and 316 of almost parallel, clamps each battery lead plate 312,316 according to Faraday boxlike shielding construction structure with common ground conductive plate 314.The flow direction of the electric current I by the differential electrical pole plate is opposite.The same with the filter of the previous embodiment that can supply reference herein, common ground conductive plate 314 is used circuit interconnection, but isolates with differential electrode.

Referring to Figure 10 E and 10F, represented the right schematic diagram of shielding twisted wire among the figure, and how to be used for eliminating common-mode noise by 300 power supplies of difference and common-mode filter.The direction of electric current I of first and second differential electrode band 302A intersected with each other and 306A of flowing through is identical, and flows out from the first and second differential electrode band 302B and 306B.The crosspoint of electric current I is used as circuit to line capacitance, and the public conductive grounding plate 314 that is in a certain side in crosspoint provides circuit to arrive ground capacity.

In Figure 10 F, filter 300 still is expressed as the plate 312,314 and 316 of almost parallel, clamps each battery lead plate 312,316 according to Faraday boxlike shielding construction structure with common ground conductive plate 314.The flow direction of the electric current I by the differential electrical pole plate is identical.The same with the filter of the previous embodiment that can supply reference herein, common ground conductive plate 314 is used circuit interconnection, but isolates with differential electrode.

Filter of the present invention can have many embodiment.As a various types of example of imagination, but be not limitation of the present invention, below will describe other embodiment of multi-part filter like layered structure.In each figure, represent five independently battery lead plates, also had a top plan view and an end view.Referring to Figure 11 and 12, expression two different embodiment 70,70 ' of the present invention among the figure, Figure 11 is bypass, Figure 12 is straight-through.In previous embodiment 300, the electric current electrode of must flowing through constitutes the circuit of Figure 12.Each embodiment has the first differential electrical pole plate 72 and the second differential electrical pole plate 76 that is sandwiched between three public conductive plates 74.The periphery of each plate 72,74,76 is all surrounded by material 75, however the terminal part 72a of each plate, 74a, 76A stretches out from material respectively.These terminal parts 72a, 74a, 76A are connected to the first difference conduction band 82 respectively, and the public conduction band 84 and the second difference conduction band 86 connect for the alive circuit (not shown) provides outside.Conduction band 82,84,86 are isolated from each other by insulation crust 88.Public conductive plate 74 has four public conduction bands 84, provides external connection on four positions, the ground area of Circuits System, and the public conduction band 84 adjacent with the next one, each public conduction band 84 differs about 90 degree.This feature can provide extra isolation, and is the center with the adjacent regulating power of these structures, and is used for improving charge density.

Filter 70,70 ' between main difference be the electrode terminal part 72a of filter 70,76A is in the same side longitudinally, and filter 70 ' electrode terminal part be in longitudinally both sides relatively.Electric current by filter 70 and filter 70 ' be different.Different terminal positions provides many-sided adaptability for different circuit structures in the application of filter.

Filter 80 shown in Figure 13 and the filter 70 of Figure 12 ' identical, difference only be its shape be rectangle and two public conduction bands 84 are only arranged.

Filter 80 shown in Figure 14 is identical with the filter 80 of Figure 13, and difference only is that electrode terminal part (not numbering) is mutually symmetrical to leading directly in the design at twisted wire.

Figure 15-the 18th is integrated in other filter embodiment with a plurality of filters in the encapsulation.The separate filter that can comprise any amount in single electronic unit, the present invention is not limited only to two independently filters.

Figure 15-18 represents to be sandwiched in the first couple of battery lead plate 72A with first electrode 72 and second electrode 76 between the public conductive plate 94 separately and has second couple of battery lead plate 76A of first electrode 76 and second electrode 72.Each electrode 72,74,76 among Figure 15 and each electrode 72,76 among Figure 16 have two electrode terminal parts (not numbering) to extend through the isolation strip that roughly becomes to surround shape of material 88.

Each electrode 72,74,76 among Figure 17 and each electrode 72,76 among Figure 18 have the isolation strip that roughly becomes to surround shape that an electrode terminal part (not numbering) extends through material 88.

Referring to Figure 15 and 17, public conductive plate 74A has four public terminals (not numbering), can be in the time of on being connected to public conduction band 84 for Circuits System provide four to be connected to outside ground area (not shown), the public conduction band 84 adjacent with the next one, each public conduction band 84 differs about 90 degree.

In addition, the first and second pairs of battery lead plates 90,96 first and second electrodes 72 and 76 and each plate 72A and 76A between have smaller public conductive plate electrode 74 respectively.This feature can provide extra isolation for bipolar electrode.

In a charged system, the present invention comprises the box structure 800 of single shielding, and " or the public transport element of ground connection; they are that the exterior conductive regional 34 that is connected forms converging of extension and/or conversion, eliminate significantly reduces and/or inhibition E-field and the radiation of H-field; RF loop radiation; parasitic capacitance, stray inductance, capacitive character parasitism; can also cancel out each other simultaneously opposite electric charge or phase place, and electric field adjacent or conflict.This electric field energy emission adjustment process is a dynamic process along with the time.

Can use the dual-port device to a certain extent, Time Domain Reflectometry testing equipment and/or other industrial standard testing equipment and device are measured this process.The present invention revises a little and can also insert a kind of list, constitutes outside input and output power transfer conductor or path in two or many conductor electrical system, can be used for such as signal power transfer, and/or power line decoupling, bypass, and filter action.The circuit of illustrated embodiment and explanation herein disclosed some physical plannings of applicant, but should not be considered as the present invention only has these possible structures.

Another aspect of the present invention comprises ' decoupling loop ' or ' RF loop '.The decoupling loop relates to by the physical layout of a passive unit and is included in real area and periphery thereof in the current loop, it for example is a decoupling capacitor, also relate to distance and position between it and the active parts, and the latter receives the energy of being regulated by passive component.In other words, electric current loop is exactly the current path from the voltage plane to the passive component and distance that return path surrounded of getting back to power supply and area (for example being on a PCB circuit board or the IC encapsulation).

The power supply and the ground return current path that constitute a charged loop area are the energy transmission line with certain frequency, and it depends on the physical size of current path loop area, can form antenna, the harmful energy of emission from system.This charged RF loop area can produce a kind of Voltage unbalance state in electrical system, because as the serious interference of harmful common mode energy meeting of unbalanced byproduct and the effective energy transmission of the active parts between the restriction energy and its subsequent path.The physical size of RF loop area directly relates to the size of the RF energy of launching from Circuits System.

Because the conductive terminal path is very little to the distance between each different conduction energy transmission path, does not have RF loop phenomenon.The balance of voltage of circuit can not resemble and be subjected to adverse effect the parts of prior art or the system.

Referring to Figure 19, Faraday boxlike shielding construction 800 of the present invention or aufbauprinciple have been specifically described among the figure.Below to go through the part of the multi-functional circuit trim that is constituted with five layers of basic embodiment.According to the present invention, Figure 19 comprises the part of Faraday box structure 800, and it is that two areas by the space of clamping one of two differential electrodes constitute, and in Fig. 6 of this paper A and Fig. 6 B sufficient description has been arranged.Battery lead plate 809 is sandwiched between the public conductive plate 804 in center and (expression of staggering) public conductive plate 808.Public conductive plate 804,808 and 810 (not shown) all are spaced from each other by the predetermined dielectric material that almost parallel inserts therebetween, and between the relative position of each outer panel 810 and 808 each plate of public conductive plate 804 with respect to the center, a differential electrode path 809 and 809A (not shown) are arranged, it has the feature of above-mentioned differential electrode, for example is exactly that the plate 808 and 804 of almost being clamped conductive plate 809 respectively from the above and below covers fully or shields under situation of the present invention.

Conductive plate 804,808 and 810 is also surrounded by dielectric material 801, provides support shell with parts by dielectric material.This embodiment needs a device two public shield terminal structures 802 is connected to same public conductive plate 808 and 804 and 810 (not shown) separately.When device of the present invention is whole when being placed into circuit, should terminal structure 802 be connected to same external conductive zone or same exterior conductive path (not shown) with standard set-up commonly known in the art, between each terminal structure 802, not interrupt or conductive gap.

Standard set-up commonly known in the art is convenient to connect together with public shield terminal structure 802 on 810 (not shown) and constitute a single structure as public conduction Faraday boxlike shielding construction 800 " (not shown) being connected respectively to all three conductive plates 804,808.

Although not expression among the figure, Faraday box structure 800 ' (not shown) is the mirror image of single Faraday box structure 800 (not shown), unique difference is that the differential electrode 809A (not shown) in the middle of being sandwiched in has an outlet/entrance 812A (not shown) not shielded fully, but with the opposite directions of 807 one-tenth 180 on conduction terminal structure degree on, and differential electrode 809 engages with conduction terminal structure 807A (not shown).

This two Faraday box structures 800 and 800 ' be in position parallel to each other, but most of important box structures 800 and 800 ' are all shared same public conductive plate 804, constitute separately each Faraday box structure 800 and 800 ' level or path.

Faraday box structure 800 and 800 ' " (not shown), it is a binary container to constitute a big conductibility Faraday boxlike shielding construction 800 jointly.Each container 800 and 800 ' maintenance equivalent and measure-alike differential electrode, they are at above-mentioned macrostructure 800 " in be respect to one another in the mode of almost parallel.By the big conductibility Faraday boxlike shielding construction 800 that single shielding structure 800 and 800 ' cooperation forms " charged and on circuit, form one when being connected to the public conducting path 34 in same outside.

When charged, the public electrode 804 that enters the difference conduction of the public barricade 804 in the center of clamping, 808 and 810 (not shown) are to constitute a public conduction box structure 800 " element, it is a primary element of the present invention, just Faraday boxlike shielding construction 800 ".

These are 800 years old " structure constitute basically at least two Faraday box structures 800 and 800 ', be used in the embodiment of each level of the present invention constituting a multi-functional circuit adjusting device.The public conductive plate 804 in the center of its relative position between differential electrode 809 and 809A (not shown) also needs two and clamps common electrical pole plate 808 and 810 in the outside, form a uncharged Faraday box structure 800 ".

And then center common board 804 can be used for two differential electrodes 809 and 809A at the same time, can the opposite result of generation but switch about electric charge.It should be noted that, to most of chips, atresia leads directly to embodiment, new-type device has at least two differential electrodes to be sandwiched between three public electrodes and is connected to outer terminal structure, by connecting and conduction forms a big Faraday boxlike shielding construction 800 "; in the time of on being connected to a big exterior conductive zone; when energy with opposite phases or charging modes along being clipped in above-mentioned boxlike shielding construction 800 " in conductor when propagating, help to carry out simultaneously alive circuit and regulate and filter function.

By the inside common electrical pole plate 804 that connects, 808 and 810 (not shown) constitute Faraday boxlike shielding construction and energising subsequently, allow exterior conductive zone or path 34 to stretch out, and intensive location and substantially parallel arrange transport element makes its relative position also be in the inside of the PCB or the similar electronic circuit of predetermined hierarchy.

Connect the common conductor that engages, and surround a plurality of public barricades 808 and 810 (not shown) with the public conductive plate 804 that is positioned at the center, plate 804 is outside extending elements 34, it is in a parallel manner between above-mentioned a plurality of elements, this outside extending element has a small spacing distance or ' loop area ' with respect to the differential electrode 809 and the 809A (not shown) of pairing phase place, differential electrode clamps they oneself, and extend distance that comprises dielectric material 801 of 34 interval (not shown) with the outside, allow above-mentioned extension surround to be used for carrying out the protected type element of electrostatic screen function, improve the performance of above-mentioned charged combination, and energy is effectively regulated when the above-mentioned part of the difference conductor of assembling is propagated simultaneously at energy.Form the parasitism that the inside and outside parallel construction in the public conducting surface of combination or zone can also be offset and/or be suppressed to be harmful to, and in the process that above-mentioned energy part is propagated along conducting path to the active block load, overflow or enter electromagnetic emission in it from above-mentioned difference conductor.

In following each section, still public conductive plate 804 is used as public conductive plate 808 and 810.Public conductive plate 804 has been offset a distance 814 with edge of the present invention.One or more part 811 of the public conductive plate 804 of common ground extends 812 ' by material 801 and be connected to common ground terminal band or substrate 802 on.Although not expression among the figure, common ground terminal band 802 usefulness circuit are connected to each other public conductive plate 804,808 and 810, and in use are connected to all other public conductive plates of filter.

Battery lead plate 809 does not have public conductive plate 804 so big, has an offset distance and area 806 between the edge of the public conductive plate 804 in the edge 803 and center of battery lead plate 809.This offset distance and area 806 allow public conductive plate 804 cross battery lead plate 809 extensions, the any line of flux that may cross the edge of battery lead plate 809 for protection provides a shielding, thereby filter element in addition reduces or eliminating the near field is coupled at other battery lead plate of filter inside or to extending to.

Horizontal-shift approximately is battery lead plate 809 and 804 vertical ranges of public conductive plate 0 to more than 20 times, yet, can optimized choice offset distance 806 for special purpose, still, all distances of overlapping 806 in the middle of each plate all should be roughly identical with the manufacturing tolerance that allows.Distance/area 806 slight size difference between plate and the plate are unimportant, as long as Faraday boxlike shielding construction 800 " the electrostatic screen function can not be affected.For electrode 809 is connected in the energy path (not shown), electrode 809 can have one or two part 812 to extend 812 ' cross the edge 805 of public conductive plate 804 and 808.These parts 812 to electrode terminal band 807, are arrived energy path (not shown) with circuit with electrode 809 paths by welding or the like as mentioned above by the path.Should be noted that element 813 is a kind of dynamic expression waies of the center axis point of three-dimensional energy regulatory function of the present invention, it relates to final size, shape and the position of present embodiment in an alive circuit.

As seen from the figure, this multi-functional energy conditioner structure can have the different purposes of many kinds, must be looked back several common traits of all embodiment.At first, material 801 with predetermined electrical characteristic can have multiple choices in any embodiment, include but not limited to dielectric material, metal oxide variable-resistance material, the polycrystal of Ferrite Material and other particular matter such as Mylar film or sintering.No matter using which kind of material 801, all is with a plurality of capacitors of being combined to form of public conductive plate and battery lead plate, constitutes circuit to the line differential coupling capacitor between capacitor, and by two circuits of pair of conductors to the ground connection decoupling capacitor.Material 801 with predetermined electrical characteristic can change capacitance, and/or increases extra feature, such as overvoltage and surge protection, or increases inductance, resistance, or all above-mentioned combinations.

The second, in all embodiments, no matter whether represent the quantity of ejecting plate, common conductor and electrode can have a plurality of, forming many parallel capacity cells, thereby increase capacitance extraly.

The 3rd, can adopt other public conductive plate of the combination of encirclement center conductive plate and a plurality of electrodes that the dead earth of reinforcement is provided, and optimize Faraday boxlike function and surge discrete areas in all embodiments.

The 4th, usually need and have a public conductive shields plate in center and other two public conductive plates or barricade pairing at least, and should be positioned at the relative both sides (can be arranged between these barricades as mentioned above) of the public conductive shields plate in center such as other elements such as dielectric material and differential electrodes.Above-mentioned any embodiment can also adopt extra public conductive plate, and this point the present invention has fully taken into account.

In fact, although not expression among the figure, this multi-functional energy conditioner is easy to be assemblied in the silicon chip, and directly includes the integrated circuit that uses in the application such as communication microprocessor integrated circuit or chip in.Had the capacitor that etching forms in the silicon chip of integrated circuit, this makes that structure of the present invention is easy to combine with the current technology that adopts.

Multi-functional energy conditioner can also directly embed from its circuit board terminals tie point, and to communication or data wire filtering, thereby dwindle the requirement of circuit board real area, and further dwindle the overall dimensions of circuit, simultaneously the requirement of making is simplified more.

At last, from above many embodiment as can be seen, its shape, thickness or size can change along with the electrical characteristic of needs, or change according to the concrete purposes of filter, the formed physique of the layout of common electrical pole plate and associated structure thereof can constitute at least one evenly Faraday boxlike shielding construction 800 of conduction " and other battery lead plate.

Although above specifically described principle of the present invention, most preferred embodiment and best application thereof, its original idea is not the present invention to be limited to described concrete form.Those skilled in the art obviously has the ability most preferred embodiment is made various modifications, and everything does not all have to break away from subsidiary principle of the present invention or scope that claims limited.

Claims (31)

1. an electrode structure comprises:

Stacked a plurality of electrodes, it has at least by first and third electrode second electrode clamping and shield, and the 4th electrode of being clamped and shielding by the 3rd and the 5th electrode;

The size and dimension of the second and the 4th electrode is substantially the same;

The second and the 4th electrode is isolated in conduction each other;

The second and the 4th electrode is separately less than the first, the three or the 5th electrode;

The first, the three and the size of the 5th electrode substantially the same, be in alignment with each other, and connect in order to shield the second and the 4th electrode with circuit mutually; And

Second is to clamp third electrode from relative position with the cooperative arrangement of the 4th electrode with arrangement mode.

2. according to the electrode structure of claim 1, it is characterized in that at least the first, the 3rd and the 5th electrode is a bucking electrode.

3. according to the electrode structure of claim 1, it is characterized in that at least the first, the 3rd and the 5th electrode is a bucking electrode; And

At least the second and the 4th electrode is to be subjected to bucking electrode.

4. according to the electrode structure of claim 2, it is characterized in that the bucking electrode quantity of electrode structure is odd integer; And

The number of electrodes of stacked a plurality of electrodes is odd integer.

5. according to the electrode structure of claim 2, it is characterized in that each electrode in stacked a plurality of electrodes has at least one extension.

6. according to the electrode structure of claim 3, it is characterized in that in stacked a plurality of electrodes each is subjected to bucking electrode to have first extension at least; And

Each bucking electrode in stacked a plurality of electrodes has first and second extensions at least.

7. according to the electrode structure of claim 1, it is characterized in that further comprising a kind of material; And

Any one electrode in stacked a plurality of electrodes is separated by any another one electrode at least a portion material and the stacked a plurality of electrodes at least.

8. according to the electrode structure of claim 1, it is characterized in that further comprising multiple material part;

Each electrode in stacked a plurality of electrodes is partly clamped by two kinds of materials in the multiple material part at least; And

Each material in the multiple material part partly has at least a predetermined electrical characteristic.

9. according to the electrode structure of claim 6, it is characterized in that further comprising first outer electrode, it is connected on the extension of second electrode at least;

Second outer electrode, it is connected on the extension of the 4th electrode at least;

The first public outer electrode, it is connected on the first extension of each bucking electrode in stacked a plurality of electrodes at least at least;

The second public outer electrode, it is connected on the second extension of each bucking electrode in stacked a plurality of electrodes at least at least; And

Each public outer electrode of each outer electrode of electrode structure and electrode structure is separated each other.

10. according to the electrode structure of claim 9, it is characterized in that further comprising:

The the first, the three and the 5th electrode the 3rd extension separately;

The the first, the three and the 5th electrode the 4th extension separately;

The third and fourth public outer electrode;

The 3rd public outer electrode is connected to the 3rd extension of the first, the three and the 5th electrode at least; And

The 4th public outer electrode is connected to the 4th extension of the first, the three and the 5th electrode at least.

11., it is characterized in that further comprising according to the electrode structure of claim 9:

Third and fourth outer electrode;

First and second electrodes, second extension separately;

The 3rd outer electrode is connected to second extension of second electrode; And

All round portion's electrode be connected to second extension of the 4th electrode.

12., it is characterized in that further comprising according to the electrode structure of claim 11:

The third and fourth public outer electrode;

Third and fourth extension of each bucking electrode in stacked a plurality of electrodes;

The 3rd public outer electrode is connected to the 3rd extension of each bucking electrode in stacked a plurality of electrodes; And

The 4th public outer electrode is connected to the 4th extension of each bucking electrode in stacked a plurality of electrodes.

13. an electrode structure comprises:

A plurality of first electrodes, its size is basic identical, aligns, and is connected to each other with circuit;

A plurality of second electrodes, its size is basic identical, aligns, and is connected to each other with circuit;

A plurality of third electrodes, its size is basic identical, aligns, and is connected to each other with circuit;

A plurality of the first, the second and third electrode on circuit, be isolated from each other;

Each electrode in wherein a plurality of first electrodes greater than a plurality of second or third electrode in the middle of any one electrode;

Each electrode in a plurality of second electrodes is disposed in relative position respectively with respect to corresponding in an a plurality of third electrodes electrode; And

A plurality of second and third electrode in each electrode clamped and shield by a plurality of first electrodes.

14. according to the electrode structure of claim 13, it is characterized in that a plurality of the first, the second or third electrode in the middle of any two electrodes all partly separated each other by at least one material in a plurality of materials part; And

Any one material in a plurality of material parts partly is from the Ferrite Material part, selects in the group that dielectric material part and variable-resistance material partly constitute.

15., it is characterized in that a plurality of first electrodes are a plurality of bucking electrodes according to the electrode structure of claim 13;

A plurality of second electrodes are a plurality of first electrodes of conductively-closed; And

A plurality of third electrodes are a plurality of second electrodes of conductively-closed.

16. according to the electrode structure of claim 13, the number of electrodes that it is characterized in that electrode structure is an odd integer.

17. according to the electrode structure of one of claim 13-16, it is characterized in that a plurality of second and third electrode be stacked, and partly separated each other by Ferrite Material at least.

18., it is characterized in that third electrode is the central electrode of a plurality of electrodes according to the electrode structure of one of claim 1-12.

19., it is characterized in that at least a portion of electrode structure is made by doping process according to the electrode structure of one of claim 1-12.

20., it is characterized in that electrode structure is the part in a kind of network of selecting at least from the group of energy adjustment network and capacitance network formation according to the electrode structure of one of claim 1-12.

21. according to the electrode structure of one of claim 1-12, it is characterized in that electrode structure is from the bypass electrode structure, a kind of structure of selecting in the group that the straight-through electrode structure of straight-through electrode structure and cross-over connection constitutes.

22. according to the electrode structure of one of claim 1-12, it is characterized in that electrode structure is connected to by substrate, parts of selecting in a group that motor and circuit constitute.

23., it is characterized in that electrode structure is a kind of voltage divider according to the electrode structure of one of claim 1-12.

24., it is characterized in that electrode structure is charged according to the electrode structure of one of claim 1-12.

25., it is characterized in that preventing jointly that by the first, the three and the 5th electrode in stacked a plurality of electrodes a part of near field electric flux from overflowing from electrode structure inside at least according to the electrode structure of one of claim 1-12.

26., it is characterized in that the second and the 4th electrode in can the electrostatic screen stacked a plurality of electrodes of third electrode at least in stacked a plurality of electrodes according to the electrode structure of one of claim 1-12.

27., it is characterized in that it being that first and second circuits can change to the earth capacitance relation at least according to the electrode structure of one of claim 1-12;

At least be that second circuit can change between third electrode and the 4th electrode to the earth capacitance relation;

At least be that circuit can change to the line capacitance relation; And

At least being first or second circuit approximates circuit greatly to half of the capacitance of line capacitance relation to the capacitance of earth capacitance relation.

28., it is characterized in that the first of circuit is connected to first outer electrode at least according to the electrode structure of one of claim 9-12;

Circuit the and part is connected to second outer electrode at least;

A conduction portion is connected to public outer electrode at least; And

First and second parts of circuit are isolated on circuit at least to each other and with conduction portion.

29. according to the electrode structure of one of claim 9-12, the first that it is characterized in that circuit is connected to second electrode in stacked a plurality of electrodes with circuit at least;

Circuit the and part is connected to the 4th electrode in stacked a plurality of electrodes with circuit at least;

Conduction portion is connected to public outer electrode; And

First and second parts of circuit are isolated on circuit at least to each other and with public outer electrode.

30., it is characterized in that the first, the second and third electrode in a plurality of electrodes has at least one extension separately according to the electrode structure of one of claim 13-16.

31. according to the electrode structure of one of claim 1-12, it is characterized in that the electrode of electrode structure is separated each other by a kind of material at least, this material has from iron-magnetic characteristic, the characteristic of selecting in a group that variable resistance characteristics and dielectric property constitute.

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