CN200994776Y - Radio-frequency coil with planar structure - Google Patents

Abstract

The utility model relates to a flat-plate structured radio frequency coil used for open magnetic resonance imaging system. The utility model is assembled in pairs, positioned in the imaging area near the two sides of magnetic pole, and arranged in parallel mutually. The utility model is characterized in that the flat-plate and disc structured quadrature binary channel radio frequency coil is adopted; the radio frequency coil comprises two channels which are arranged in quadrature mutually; each channel comprises a first forward direction current path and a second forward direction current path composed of straight line conductor belt, and a first reversal current path and a second reversal current path made of arched conductor belt, wherein a plurality of electric capacity is arranged inside the first forward direction current path, the second forward direction current path, the first reversal current path and the second reversal current path, the two forward direction current paths are connected with the two reversal current paths in series to form a first and second current loop, the two current loops generates an uniform radio frequency field in required imaging area. The two current paths in the same channel in parallel mutually are positioned in the middle part of the radio frequency coil, the radio frequency field in the imaging area is generated by the current in the forward direction current path, the uniformity of the radio frequency field depends on the position of each straight line conductor belt inside the forward direction current path and the current distributing relation; the two reversal current path in the same channel are arranged symmetrically around the periphery of the disc, having one center.

Description

A kind of radio-frequency coil of slab construction

Technical field

This utility model relates to the mr imaging technique field, is a kind of dull and stereotyped disc structure radio-frequency coil that is used for magnetic resonance imaging system.

Background technology

Because the existence of atomic nucleus natural magnetic moments is adding magnetostatic field B ₀Effect under, nuclear can be with frequency f around B ₀Precession.If apply direction and B this moment again ₀Vertical frequency is all the radio-frequency field B of f ₁(producing) by radio-frequency coil, then nuclear can interact and the covibration of produce power exchange with radio-frequency field, and we are referred to as nuclear magnetic resonance, NMR (Nuclear Magnetic Resonance, i.e. NMR).In order to weaken the feared state of mind of people, generally all " nuclear " word of nuclear magnetic resonance, NMR is removed and become magnetic resonance (MR) " nuclear ".Nuclear under the resonance state can be launched the radiofrequency signal of frequency f, this signal is received back (carrying out certain processing again) by radio-frequency coil just can obtain being in the people of imaging region or the image of internal structure of object, this process just is called nuclear magnetic resonance (Magnetic Resonance Imaging is called for short MRI).

Main magnet, gradient coil, radio-frequency coil are the indispensable several parts of nuclear magnetic resonance (MRI) system.Main magnet produces the static magnetic field B of a steady in desired imaging region ₀In the imaging process, (z) direction produces required gradient magnetic to gradient coil for x, y, and radio-frequency coil produces and stilling the theatre B at imaging region along each coordinate at imaging region ₀Orthogonal radio-frequency field B ₁, atomic nucleus is at B ₀, B ₁Effect under will produce magnetic resonance.Because the existence of gradient fields, these resonant nucleus that are positioned at different spatial can send different separately radiofrequency signals, and this radiofrequency signal can be detected and return to imaging system by radio-frequency coil.The signal that system sends back each road radio-frequency coil synthesize and handle the back just can generate desired image.

In order to obtain clear and distortionless image, no matter be magnetostatic field B ₀, gradient fields still is radio-frequency field B ₁All require to have the uniformity of height at imaging region.And, all coil design is become tightly solenoid shape around the patient usually in order to make evenly.The magnetostatic field B of this nuclear magnetic resonance (MRI) system ₀, also be solenoidal axis direction simultaneously generally along horizontal direction.Though solenoid coil can produce field highly uniformly, because it closely around the patient, allows other people be difficult near patient or imaging region such as medical personnel, this just makes the insertion type treatment be difficult to even may not carry out.The solenoid type structure can allow some patient produce claustrophobia in addition, also has the excessive patient of some builds also can't be held by space in the screwed pipe, has so just limited the application of nuclear magnetic resonance (MRI) to a certain extent.Therefore, be necessary the solenoid type loop construction is changed, open MRI (MRI) system has just well adapted to this requirement.Open MRI (MRI) system can allow medical personnel fully near the patient, has also reduced the probability of claustrophobia patient's morbidity simultaneously to a great extent.The magnetic pole of one class open MRI (MRI) system is the flat circle plate-like, and the upper and lower of imaging region respectively distributes one, magnetostatic field B ₀Be vertical.Similar with magnetic pole, gradient, radio-frequency coil all are dull and stereotyped disc structures.

The shortcoming of open MRI (MRI) system is to be difficult to produce field highly uniformly at imaging region, because magnetic pole and coil all are slab constructions, rather than surround imaging region or patient as solenoid, thereby no matter is magnetostatic field B ₀, gradient fields still is radio-frequency field B ₁The all difficult uniformity that obtains height.At B ₀In open MRI (MRI) system for vertical direction, the planar radio frequency coils of a kind of butterfly structure commonly used, the field that this coil produces is also very inhomogeneous, particularly near near the space the coil plane.We know, imaging region B ₁The uniformity of field and the uniformity of image are closely-related, have only B ₁The field evenly could produce uniform image.If B ₁Inhomogeneous, during emission of radio frequency signals, the degree of the atomic nucleus resonance in inhomogeneous district can be different so, and consequent radiofrequency signal size is also different; In the reception stage, its receiving sensitivity also can be not of uniform size, and the difference of the radiofrequency signal that receives is bigger, thereby the light and shade inequality will appear in the image that reconstruction is come out.Such as, near the zone of conductor belt in the radio-frequency coil, receiving sensitivity is high especially, and these regional images are just shinny, away from then dark many of the image in the zone of conductor belt.

Dull and stereotyped radio-frequency coil another one shortcoming is exactly its sensitivity radio-frequency field B in other words ₁Can not sharply descend outside imaging region, because the fold back effect in image reconstruction process, this also can influence picture quality.Many times at imaging region, we can guarantee B as far as possible ₀Field, gradient fields, B ₁The uniformity of field, but outside imaging region, then be not easy control.The radiofrequency signal that some outer local meeting generation of imaging region and the same frequency somewhere in the imaging region so just might occur.And simultaneously, the sensitivity of radio-frequency coil outside imaging region does not drop to enough low degree, thereby can receive the radiofrequency signal that send in all places.The final result of the homogenous frequency signal addition of these separate sources is exactly to produce folding artifact or speckle on image.If the sensitivity of radio-frequency coil outside imaging region sharply descends, then the influence of the inside and outside aliasing in zone is just much little.In traditional plate coil design, electric current is directly to form the loop by the radio shielding plate, owing to reasons such as Kelvin effects, reverse current on the barricade mainly concentrate on the straight line conductor band under, be equivalent to so directly reflux near hub of a spool, such reverse current can not make radio-frequency field sharply descend outside imaging region.Because outside imaging region, the radio-frequency field that also has a certain size, this radio-frequency field meets the combination of uneven magnetostatic field and nonlinear gradient fields again, just may outside imaging region, inspire and the zone in certain the some same frequency radio-frequency field, and then the generation folding artifact.In a word, want the outer signal of imaging region and the image in the imaging region is not exerted an influence, the sensitivity in other words of the radio-frequency field of radio-frequency coil must sharply descend outside the zone.

Usually the more closed nuclear magnetic resonance of emission effciency (MRI) the system magnetic plug of open MRI (MRI) system middle plateform coil is low, if produce the radio-frequency field of identical size at imaging region, bigger electric current or power need be provided, thereby open system need be than closed more powerful radio frequency amplifier, and this has increased its cost undoubtedly.The increase of transmitting power neither be random in addition, and the power consumption of at first various electronic devices and components is conditional, and voltage, electric current or power are crossed metropolis it is caused damage; Secondly relevant department is that there are strict requirements to this size that may be in the radio-frequency field that near in the imaging region or it patient and medical personnel absorb, and to prevent excessive electromagnetic radiation human body is damaged.Therefore, when guaranteeing radio-frequency field imaging region uniformity and outside attenuation characteristic, also to improve its emission effciency as far as possible, reduce power consumption.

In addition, the radio frequency coil designs of open MRI (MRI) system also is subjected to the restriction of some other factorses, such as the thickness of the interpolar distance of magnetic, polar diameter, gradient coil, size of imaging region or the like.In general, radio-frequency coil, gradient coil and polar diameter are all basic identical, and the diameter of radio-frequency coil and imaging region have a significant impact to the big or small uniformity to the imaging region radio-frequency field of the distance of coil plane.

In sum, the radio-frequency coil problem that need solve have emission effciency, uniformity and attenuation characteristic etc.

The utility model content

The purpose of this utility model is that the performance of radio-frequency coil mainly is meant distribution character (as the transmitting coil) sensitivity in other words (as receiving coil) of its radio-frequency field for open MRI (MRI) system provides a cover high performance radio-frequency coil.When signal source provides identical input power, if the radio-frequency field that radio-frequency coil produces is even and amplitude is very big at the imaging region height, imaging region outside, decay fast, then think this coil performance height.Radio-frequency coil in this utility model has reached than higher performance owing to its unique double-current loop structure.

This utility model is a kind of dull and stereotyped disc structure radio-frequency coil that is used for nuclear magnetic resonance (MRI) system, each passage of this coil comprises first, second forward current path be made up of the straight line conductor band and first, second reverse current path of being made up of the arc-shaped conductor band, these current paths are connected mutually and are formed first, second current loop, and two current in loop can produce uniform radio-frequency field B at required imaging region ₁Two forward current paths are parallel to each other, the radio-frequency field B of imaging region ₁Mainly produce radio-frequency field B by the electric current in the forward current path ₁Uniformity depend on the position and the electric current relations of distribution of each straight line conductor band in the forward current path.Two reverse current paths are symmetrically distributed near the circumference of disk, and the electric current on the reverse current path can make radio-frequency field B ₁Decay fast outside imaging region.Straight line conductor band placement all parallel to each other in each road forward current path is to improve the uniformity of field.Usually, the forward current path lays respectively at different planes with the reverse current path, and forward current plane separation imaging region is nearer, and reverse current plane separation imaging area is far away slightly.The purpose of doing like this is under the situation that does not reduce coil efficiency, reduces near the radio-frequency field of coil surface, guarantees that patient and medical personnel are not subjected to excessive electromagnetic radiation.

Dull and stereotyped disc structure radio-frequency coil in this utility model can only be used for open MRI (MRI) system, this open system should respectively have a discoid magnetic pole in relative position in the imaging region both sides, and each magnetic pole is all to there being an orthogonal double channels radio-frequency coil.Each passage of this radio-frequency coil all comprises by a plurality of conductor belts and first, second current loop formed in electric capacity wherein of going here and there, and each loop can be divided into forward current path and reverse current path again.Forward current in each loop can produce required even radio-frequency field at imaging region.Each forward current path symmetry that is parallel to each other is placed, and the straight line conductor band in the forward current path all is positioned at same plane, remembers that this plane is plane A.Each reverse current path is circle distribution, is made up of a series of arc-shaped conductor bands, and the arc-shaped conductor band links to each other with straight line conductor tape leader tail in first, second loop.Arc-shaped conductor band in each reverse current path also is positioned at same plane, remembers that this plane is plane B.Plane B is parallel with plane A and keep a segment distance, and plane A is more near imaging region.

Straight line conductor band in the forward current path in any current loop of this utility model coil can have only one, also can be two or many parallel connections, but the arc-shaped conductor band in the reverse current path is generally one.The CURRENT DISTRIBUTION of the current ratio distribution on the straight line conductor band and the distance of each interband and arc-shaped conductor band and position dimension etc. have determined radio-frequency field B in the imaging region ₁Size and uniformity, also determining non-imaging region radio-frequency field B ₁The decay speed.

The spatially orthogonal quadrature of two passages of this utility model coil, thereby mutual inductance is smaller, isolation can be accomplished very high.Total radio-frequency field that high isolated orthogonal double channels coil produces is good uniformity not only, and amplitude is also big, and is very big to the raising contribution of emission effciency.

Corresponding to open MRI (MRI) system, the dull and stereotyped disc structure radio-frequency coil in this utility model preferably resolves several problems that prior art exists.In order to improve emission effciency and imaging region radio-frequency field B ₁Uniformity, taked four-way crossed coil structure, every passage comprises first, second current loop again.Each current loop forward current passage portion adopts two or many straight line conductor bands again, to reduce the wastage, improves emission effciency.Current ratio in number by regulating the straight line conductor band and the different straight line conductor bands can be regulated radio-frequency field B ₁Size and uniformity at imaging region.The reverse current passage portion is the arc-shaped conductor band of circle distribution in each current loop, and circle distribution has guaranteed radio-frequency field B on the one hand ₁The isotropism (an inhomogeneity part) of field also can make radio-frequency field B on the other hand ₁Decay fast outside imaging region.In order to reduce the harm of excessive radio-frequency field to human body, the reverse current via conductor band that electric current is bigger is distributed in one in imaging region plane far away slightly.Be uniform-distribution with tuning capacity on the reverse current path, these capacitances of appropriate change also can improve radio-frequency field B to a certain extent ₁In the size and the uniformity of imaging region, improve the efficient and the stability of radio-frequency coil.

From the above mentioned, this radio-frequency coil has following advantage:

1. dull and stereotyped disc structure can be used for open MRI (MRI) system.

2. double plate four-way orthogonal packing has improved emission effciency and uniformity.

3. the distribution character of radio-frequency field has been optimized in double-current loop.

4. the multi straight conductor belt is parallel, has improved the amplitude and the uniformity of imaging region radio-frequency field.

5. distribute around the reverse current path, improved the rate of decay of the outer radio-frequency field of imaging region.

6. the reverse current path has reduced electromagnetic radiation that may be harmful away from imaging region.

Description of drawings

Fig. 1 is open type magnetic resonance system commonly used magnetic pole, coil, imaging space distribution schematic diagram;

Fig. 2 is I, Q dual pathways quadrature radio frequency coil electrical block diagram;

Fig. 3 is radio-frequency coil I channel conductor band and CURRENT DISTRIBUTION sketch map;

Fig. 4 is an electric capacity distribution schematic diagram on the radio-frequency coil I channel conductor band;

Fig. 5 is that radio-frequency coil I, Q two channel spacings are from circuit diagram;

Fig. 6 is each passage input port tuning circuit figure of radio-frequency coil;

Fig. 7 is the three-dimensional explosion engineering sketch map of dual pathways radio-frequency coil;

Fig. 8 is a dual pathways radio-frequency coil forward direction conductor belt distribution floor map;

Fig. 9 is a dual pathways radio-frequency coil opposed conductor band distribution floor map;

Figure 10 is a dual pathways radio-frequency coil conductor belt distribution shaft section sketch map;

Figure 11 is radio-frequency coil radio-frequency field B ₁Horizontal plane distribution schematic diagram at Z=0;

Figure 12 is radio-frequency coil radio-frequency field B ₁Along the Y-axis scatter chart.

The specific embodiment

The open MRI that this utility model was suitable for (MRI) system's magnetic pole and coiler part structure are as shown in Figure 1.Discoid magnetic pole 1,2 is symmetrically distributed in the both sides up and down of imaging region 12, and magnetic pole generally closely is spliced by the Nd-Fe-B magnet steel piece, and the magnetic signature of magnet steel has been determined the size of magnetostatic field 14 substantially.The zone 6 of the zone 5 of magnetic pole 1 downside and magnetic pole 2 upsides is the regulatory region of magnetostatic field 14, or cries the shimming district.By regulating the shimming parts in shimming district 5,6, can make the magnetostatic field 14 of imaging region 12 reach the needed uniformity.The top in the below in shimming district 5 and shimming district 6 is respectively dish 3 and a gradient lower wall 4 on the gradient, all contains the gradient coil that can produce x, y, three direction gradients of z in each gradient dish, and when imaging, they can be combined into the gradient of needed any direction.Dish 9 is positioned at the downside of dish 3 on the gradient on the radio-frequency coil, radio-frequency coil lower wall 10 is positioned at the upside of gradient lower wall 4, radio-frequency coil is excited the back at imaging region 12 generations one even horizontal circle polarization radio-frequency field 15, radio-frequency field 15 is round magnetostatic field 14 rotations, simultaneous excitation patient 13 is positioned at the atomic nucleus of imaging region 12, makes it produce magnetic resonance signal.Be clipped on the gradient that dish 9 intermediary thin layers are radio shielding plates 7 on dish 3 and the radio frequency, in the middle of gradient lower wall 4 and the radio frequency lower wall 10 is radio shielding plate 8, the radio shielding plate can prevent the infiltration of radio-frequency field 15 to gradient dish 3,4 directions, that is to say to allow radio-frequency field 15 energy maintain imaging region 12, be unlikely to leak into the loss that causes energy behind the gradient dish.Point 0 is the center of imaging region 12, and 13 for treating patient's sketch map of imaging, and 11 is the imaging region external space.

As shown in Figure 2, radio frequency lower wall 10 is I, Q dual pathways crossed coil, and passage I 50 and passage Q 51 circuit structures are basic identical, the just orthogonal placement of forward current path straight line conductor band of the two, and be positioned at same plane substantially.Dish 9 is mirror-image structure with lower wall 10 on the radio frequency, also is I, Q dual pathways crossed coil.When radio-frequency coil is worked, the corresponding mirror-image channels current opposite in direction of upper lower burrs, phase contrast is 180 degree in other words, and in the same dish I, Q two-way on the space the mutually orthogonal, also differ from 90 degree on the phase place, phase place was respectively 0 degree, 90 degree, 180 degree, 270 degree when four of upper lower burrs passages were worked like this.The such PHASE DISTRIBUTION of radio-frequency coil could guarantee to produce at imaging region 12 the even circular polarisation radio-frequency field 15 of along continuous straight runs.Rectangle frame 16 each passage I/O interface (concrete structure is seen Fig. 6) of expression coil are connected on respectively on the arc-shaped conductor band 18,118 of each passage reverse current passage portion.Rectangle frame 160 expression I, the Q two interchannel buffer circuits (concrete structure is seen Fig. 5) that add are connected between the arc-shaped conductor band 117 of the arc-shaped conductor band 18 of I passage and Q passage.

Radio frequency dish 9,10 geometry separately, and the relative position relation of the central point 0 of they and imaging region 12 plays crucial effects to the decay speed of the field of the uniformity of the radio-frequency field 15 of imaging region 12 and imaging region outer 11.Specifically, the position of each forward current path straight line conductor band 26,27,28,29 (see figure 3) of radio-frequency coil and wherein electric current I ₁, I ₂Size and the ratio size and the uniformity that have determined the radio-frequency field 15 of imaging region 12 substantially, the position of each reverse current path arc- shaped conductor band 17,18,19 of radio-frequency coil has then determined the decay speed of outer 11 of imaging region.What deserves to be mentioned is that each conductor belt comprises that the big or small Z2 of distance, the Z3 (see figure 10) of straight line and arc and respective radio-frequency barricade also play decisive role to the distribution of radio-frequency field 15.

The structure of each paths of radio-frequency coil all is similarly, below we are that example elaborates with the I passage 50 of lower wall 10, see Fig. 3 and Fig. 4.Forward current path 24 and reverse current path 17,18 have been formed first current loop, and forward current path 25 and reverse current path 19 have been formed second current loop.The forward current path can have only a straight line conductor band to link 22 or link 23 by 21 by 20, many straight line conductor bands also can be arranged, the many more easy more uniformities that obtain the radio-frequency field of wanting 15 of conductor belt radical, but also can increase the complexity of circuit simultaneously, this utility model describes by the situation of two conductor belts.Forward current path 24 just is made up of 20,22,26,27 isoline conductor belts like this, and forward current path 25 is made up of 21,23,28,29 isoline conductor belts.Each conductor belt in the forward current path 24 and 25 is that the axis of symmetry left-right symmetric distributes with the disk bisector, wherein the electric current I in each outer conductors band ₁With the electric current I in the inner conductor band ₂Also be symmetrical distribution.Electric current I ₁, I ₂Size and straight line conductor band 26,27,28,29 to the distance X 1 of bisector, X2 and they to central point 0 determined the size and the uniformity of the radio-frequency field 15 of imaging region 12 apart from the Z1 (see figure 10), concrete numerical relation can be determined by Biot-Safa Er Dinglv.Electric current I ₁, I ₂Ratio depend primarily on the size of electric capacity 34,35,36,37 in the straight line conductor band again, it and distance X 1, X2 also have certain relation simultaneously.Generally the uniformity of the radio-frequency field 15 of our minimum requirements imaging region 12 is better than ± 6dB, high slightly requirement is ± 3dB, also has requirements at the higher level to reach ± 1.5dB.

First, second reverse current path 17,18,19 is being connected in series first, second forward current path 24,25, forms complete successive current loop, the electric current I in the reverse current path ₃=I ₁+ I ₂Reverse current path 19 is connecting an end 21 of forward current path 25 and an other end 22 of forward current path 24, similarly, the in succession other end 23 of forward current path 25 of an in succession end 20 of forward current path 24 of reverse current path 17,18 in reverse current path.Be exactly the sense of current that intersects like this in first, second forward current path 24,25 of result of serial connection is identical, each comfortable imaging region 12 of these electric currents in the same way produces the identical radio-frequency field of directions, total radio-frequency field 15 be their algebraical sum.Reverse current path 17,18,19 is generally circular shape, and radius is all r mutually _I, promptly be distributed on the same circumference.The result who does like this makes the distribution of radio-frequency field 15 in horizontal plane be tending towards isotropism, no matter is outside imaging region 12 or imaging region 11.The insider knows that the reverse current path also can be with other shape, such as elliptic arc, rectangle, triangle or the like.But compare with the standard circular arc, other shape reverse may cause bigger decay, sensitivity decline or anisotropy to current path.But the insider should be understood that no matter what shape the reverse current path takes, and all should belong in this utility model scope.

Q passage 51 forward current paths, reverse current path are all similar with I passage 50, see Fig. 2 to Fig. 4, and it is tuning that the electric capacity that is connected in series on each path mainly acts on, promptly allow each passage of coil respectively resonance on required frequency.The radius r of reverse current path place circumference _IAnd r _QNumerical value determining radio-frequency field 15 decay speed of 11 outside imaging region.The radio-frequency field decay of imaging region outer 11 severe more may cause the noise signal that folds just more little during imaging.Generally require this decay more than 10dB, that stricter is 20dB, and peak demand can reach 30dB.

Common r _IAnd r _QVary in size r among Fig. 2 _Q＞r _I, at regular intervals between the reverse current path place circumference of I, Q two passages, can improve two interchannel isolation like this, reduce energy loss.If two channel radius sizes is the same, reverse current via conductor band can only be over against placement in two very little at interval parallel planes, and this very big coupling capacitance will occur, thereby causes isolating very poor or extra noise and loss occur.Because r _IAnd r _QThe reasonable existence of difference, we wish and can remain on 15dB to isolation to more than the 20dB.

In the coil actual fabrication process owing to material inhomogeneous, machining accuracy is not enough etc., and reason can cause some asymmetric factors, causes isolating variation, need add a buffer circuit 160 like this in suitable place and improve isolation between I, Q two-way, sees Fig. 5.Buffer circuit 160 is parallel circuits of simply being made up of inductance 41 and tunable capacitor 40, selects suitable inductance and capacitance adjustment scope, can be transferred to isolation more than the 20dB.

Each passage I/O (I/O) port one 6 of coil all is connected in reverse current path 17,18 position intermediate, its internal structure as shown in Figure 6, form pi-network by three tunable capacitors 42,43,44, the crust and the heart yearn that are connecting coaxial line 45, these electric capacity are added the electric capacity 30～37 among Fig. 4, are determining the resonant frequency and the input and output impedance operator of coil jointly.

In this utility model, see Fig. 7, Fig. 8, Fig. 9, Figure 10, forward current path straight line conductor band all is distributed near the A plane 84, and the inverse-arc shape conductor belt all is distributed near the B plane 114, and A, B two planes are parallel to each other, and certain distance Z2 is arranged.B plane 114 is away from imaging region 12, also away from patient 13, and bigger like this reverse current passage current I ₃Just, be unlikely to patient or near medical personnel are caused excessive electromagnetic radiation away from the patient.Simultaneously, suitably adjust apart from Z2, Z3 and still can be modified to the uniformity of radio-frequency field 15 in picture zone 12 and it 11 attenuation characteristic outside imaging region.

Therefore, we can be made in all forward current paths on the double-sided PCB 67, and all reverse current paths all are made on another double-sided PCB 69.Two circuit boards 67,69 lay respectively at A plane 84,114 places, B plane.Wherein, the top layer of circuit board 67 is all placed the straight line conductor band of I passage 50, and bottom is all placed the straight line conductor band of Q passage 51; The top layer of circuit board 69 is all placed the arc-shaped conductor band of I passage 50, and bottom is all placed the arc-shaped conductor band of Q passage, sees that Fig. 7 is to Figure 10.But the insider should be understood that, forms similar circuit structure on the insulation framework with other method also in this utility model scope such as directly being fastened on copper strips or other conductor belt.Circuit board is that the copper-clad plate of FR4 is made with medium generally, thickness be 1mm to 2mm, when analyzing the radio-frequency field distribution of radio-frequency coil, can ignore at imaging region, think that all forward current paths all are positioned at A plane 84, and all reverse current paths all are positioned at B plane 114.The forward current path that is positioned at Different Plane in the same passage is connected by line 108～111 grades with the reverse current path, and line can be taked various ways such as rivet, screw, lead.

End is got up, and is determining that radio-frequency field 15 principal element of 11 attenuation characteristic outside the uniformity of imaging region 12 and imaging region is as follows:

1. reverse current path plane 114 and barricade 8 apart from Z3

2. forward current path plane 84 and barricade 8 apart from Z2+Z3

3. the geometrical distribution of reverse current path, r _IAnd r _QSize

4. the quantity of forward current path straight line conductor band and position distribution X1, X2

5. the current division ratio example of each straight line conductor band of forward current path

The size of imaging region and central point 0 to coil apart from Z1

In conjunction with Biot-Safa Er Dinglv, by given requirement, can list a series of equations, can obtain the size of each parameter by these equations.

Embodiment

Provide an actual result of overlapping the radio-frequency coil of producing according to this utility model below.

This radio-frequency coil is used for open magnet, magnetostatic field B ₀Be vertical, imaging region is the ball of diameter 40cm, requires radio-frequency field B ₁Good uniformity in ball is in ± 3dB, in the decay of the place of ball external distance centre of sphere 35cm greater than 20dB.The thickness (Z2+Z3) of radio-frequency coil single-deck (comprising barricade) is no more than 23mm.The magnetic pole diameter, just the radio-frequency coil maximum gauge is 92cm, radio frequency dish spacing 50cm up and down, promptly Z1 is 25cm.Each forward current path cathetus conductor of coil is two, as shown in Figure 2, can calculate two straight lines and be 4cm to the distance X 1 of bisector, and X2 is 15cm, and range deviation is ± 1cm.Electric current I on the straight line conductor of the outside ₁Be 34A, electric current I on the inner conductor ₂Be 17A, reverse current passage current I ₃Be 51A, the size of current deviation is ± 2A.But the size of actual needs electric current is by the required radio-frequency field B of system ₁The size decision can not be fixed as the value that provides above.I channel radius r _IBe that its reverse current path place radius of a circle is 38cm, Q channel radius r _QBe 40cm.Forward direction, reverse current path are apart from Z2=13mm, and reverse current path and barricade are apart from Z3=10mm.

Input impedance can be transferred to 50 Ou Chun resistance state by I/O port one 6 tuning capacities 42,43,44, this moment, reflection was minimum, and emission effciency is the highest.Because required frequency f difference, the capacitance variation scope is bigger, in conjunction with control capacittance 30～37, general last electric capacity 42,43 at 100pF between the 200pF, electric capacity 44 at 200pF to proper between the 400pF.In the buffer circuit 160, inductance 41 is generally 2 μ H to 3 μ H, electric capacity 40 for 10pF to 20pF, these values are except outside the Pass having with frequency f, with capacitance profile in circuit board machining accuracy, material homogeneity, the reverse current path etc. certain relation are arranged all.

Figure 11 has provided the radio-frequency field B of this coil in comprising the x-y plane of central point 0 ₁The distribution relative size, getting the central point maximum is 1,3dB (corresponding linear value is 0.5) equal pitch contour is essentially the circle of radius 20cm as can be seen.In the 3dB line, Distribution of Magnetic Field is more uniform, and outside this line, field decay is very fast.

Figure 12 has provided the radio-frequency field B on the y axle of crossing central point 0 ₁The dB number that distributes can find out more obviously that from this width of cloth figure magnetic field is in the uniformity of center and the quick attenuation characteristic outside the imaging region.

In this example, each passage has only four parallel lines conductor belts, the insider knows, the number of straight line conductor band is many more, the adjustable degree of freedom of Distribution of Magnetic Field is big more, and accessible uniformity and attenuation characteristic are also high more, and the complexity of coil design also can improve simultaneously certainly, therefore from engineering viewpoint, neither the conductor belt number The more the better.Under general occasion, four straight line conductor bands can reach desired Distribution of Magnetic Field characteristic basically.In addition, the numerical value of elements such as each electric capacity, inductance, space size, magnetostatic field B between each current path conductor belt quantity and position and concrete magnetic resonance system magnetic pole ₀Size all is correlated with.Therefore the example of giving can not illustrate that this utility model only is applicable to these particular values above.

Claims (10)

1, a kind of radio-frequency coil of slab construction is used for open type magnetic resonance imaging (MRI) system, is used in combination in pairs, lays respectively at imaging region near polar both sides, and placement is parallel to each other; It is characterized in that,

Orthogonal double channels radio-frequency coil for dull and stereotyped disc structure;

Radio-frequency coil comprises two passages, mutually orthogonal layout between the passage;

Each passage all comprises first, second forward current path be made up of the straight line conductor band and first, second reverse current path of being made up of the arc-shaped conductor band, in first, second forward current path and first, second reverse current path, also string has several electric capacity, two forward current paths and two reverse current paths are connected mutually and are formed first, second current loop, and two current in loop produce uniform radio-frequency field at required imaging region;

Two forward current paths are parallel to each other in the same passage, be positioned at the radio-frequency coil middle part, the radio-frequency field of imaging region is produced by the electric current in the forward current path, and the uniformity of radio-frequency field depends on the position and the electric current relations of distribution of each straight line conductor band in the forward current path;

Two reverse current paths are symmetrically distributed near the circumference of disk in the same passage, totally one center of circle.

2, radio-frequency coil as claimed in claim 1 is characterized in that, described first, second forward current path respectively has 1～4 straight line conductor band, and each conductor belt is parallel to each other, and is that the axis of symmetry left-right symmetric distributes with the disk bisector.

3, radio-frequency coil as claimed in claim 1, it is characterized in that, described first, second reverse current path, an arc-shaped conductor band is at least respectively arranged, link to each other with an end of the first forward current path and the other end of the second forward current path respectively, two reverse current paths in the same passage are positioned on the identical circumference of radius, the reverse current path radius difference of different passages.

4, radio-frequency coil as claimed in claim 1 or 2, it is characterized in that, straight line conductor band in described first, second forward current path, the quantity of the ratio of its size of current, straight line conductor band, to the distance of bisector with to the distance of central point, its concrete numerical value is by to provisioning request, by Biot one Safa Er Dinglv establish an equation find the solution definite.

As claim 1 or 3 described radio-frequency coils, it is characterized in that 5, the conductor belt of first, second reverse current path of described composition is elliptic arc, rectangle or triangle.

6, radio-frequency coil as claimed in claim 1 is characterized in that, between two passages of described radio-frequency coil, also is connected with buffer circuit, and buffer circuit is made of inductance and tunable capacitor parallel connection, and the buffer circuit two ends are connected with the reverse current path of each passage respectively.

7, radio-frequency coil as claimed in claim 1, it is characterized in that, described radio-frequency coil, comprise that each passage is connected in series with the input/output end port of the first or second reverse current path position intermediate, this port is formed pi-network by three tunable capacitors, is connecting the crust and the heart yearn of conductor belt and feed-in coaxial line.

8, radio-frequency coil as claimed in claim 1 is characterized in that, the forward current path of described two passages, and the top, the end that lay respectively at a two-sided circuit board, are two-layer, and mutually orthogonal, and it is two-layer that the reverse current path lays respectively at top, the end of another double-sided PCB; Two double-sided PCBs not at grade, the double-sided PCB that contains the forward current path is positioned at the inboard, also promptly near a side of imaging region; The placement that is parallel to each other of two double-sided PCBs, between a space is arranged, between the forward current path and reverse current path on the various boards, connect in the same passage by line, line is rivet, screw or lead.

9, radio-frequency coil as claimed in claim 8 is characterized in that, described double-sided circuit plate thickness is that 1mm is to 2mm.

10, radio-frequency coil as claimed in claim 1 is characterized in that, described forward current path and reverse current path are to be connected and fixed the circuit structure that forms by copper sheet or other conductor belts.

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