EP1110227B1 - Transformer core - Google Patents

Transformer core Download PDF

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Publication number
EP1110227B1
EP1110227B1 EP99968734A EP99968734A EP1110227B1 EP 1110227 B1 EP1110227 B1 EP 1110227B1 EP 99968734 A EP99968734 A EP 99968734A EP 99968734 A EP99968734 A EP 99968734A EP 1110227 B1 EP1110227 B1 EP 1110227B1
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EP
European Patent Office
Prior art keywords
ring
cross
rings
section
degrees
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
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EP99968734A
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German (de)
English (en)
French (fr)
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EP1110227A1 (en
Inventor
Lennart Harry Erik HÖGLUND
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HEXAFORMER AB
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Lennart Harry Erik HÖGLUND
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Application filed by Lennart Harry Erik HÖGLUND filed Critical Lennart Harry Erik HÖGLUND
Publication of EP1110227A1 publication Critical patent/EP1110227A1/en
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F3/00Cores, Yokes, or armatures
    • H01F3/04Cores, Yokes, or armatures made from strips or ribbons
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F27/00Details of transformers or inductances, in general
    • H01F27/24Magnetic cores
    • H01F27/25Magnetic cores made from strips or ribbons

Definitions

  • the present invention relates generally to transformer cores and especially to a transformer core comprising three legs and yoke parts connecting the legs.
  • Three-phase transformer cores are usually made of transformer plates cut to E I shape for small transformers and to rectangular plates, which are laid edge to edge, in larger transformers. They have the drawback that the magnetic field has to pass via edges from plate to plate and that the magnetic field must go an unnecessarily long way and not always along a magnetic orientation.
  • Strip cores for three-phase transformers have hitherto been difficult to manufacture.
  • the efficiency of the core can be increased by cutting strips to variable width and winding rings, which are given a circular cross-section for single-phase transformers and semicircular cross-section for three-phase transformers. This method results in a great deal of waste and the winding process is time consuming.
  • US 4,557,039 discloses a method of manufacturing transformer cores using electrical steel strips having approximately a linear taper. By selecting a suitable taper, a hexagonal or higher order approximation of a circular cross section for the legs of the cores is produced. However, the tapered strips are difficult and time-consuming to produce and the design is not well adapted to large-scale production.
  • a prior art three-phase transformer core according to Manderson, generally designated 10.
  • the core has a general delta-shape, as is seen in the isometric view of fig. 1 , with three legs interconnected by yoke parts.
  • fig. 1a a cross-sectional view of the core is shown before final assembly.
  • the core comprises tree identical ring-shaped parts 12, 13, and 14, the general shape of which appears from fig. 1 .
  • Each ring-shaped part fills up one half of two legs with hexagonal cross-sections, see fig. 1a , thus totalling the three legs of a three-phase transformer.
  • the ring-shaped parts are initially wound from constant width strips to three identical rings 12a, 13a, 14a with rhombic cross-sections comprising two angles of 60 degrees and two angles of 120 degrees. These rings 12a-14a constitute the basic rings. The orientation of the strips also appears from figs. 1a and 1b .
  • each ring-shaped part there is an outer ring 12b, 13b, 14b of a regular triangular cross-section.
  • the outer rings are wound from strips with constantly decreasing width.
  • Three-phase transformer cores are also described in the following documents: SE 163797 , US 2,458,112 , US 2,498,747 , US 2,400,184 , US 2,544,871 , US 2,401,952 and US 2,431,155 .
  • the cores described in these documents do not overcome the above-mentioned problems.
  • An object of the present invention is to provide a transformer core wherein the energy losses are minimised.
  • Another object is to provide a transformer core, which is easy to manufacture and avoids material waste.
  • Another object is to provide a method of manufacturing a transformer that is well adapted for large-scale production.
  • the invention is based on the realisation that a transformer core with one or more regularly multi-edged legs with more than four edges can be wound of strips of material with constant width.
  • a transformer core comprising three legs and yoke parts connecting the legs, wherein the cross-section of the legs is the same and in the form of a regular polygon with more than four edges, characterised in that the core is solely made up of rings rolled from strips of constant width, where different rings may have different widths and each of the rings make up part of two of the legs.
  • Fig. 1 has already been discussed in connection with prior art and will not be explained further.
  • fig. 2 a three-phase transformer core according to the invention, generally designated 20.
  • 20 In its general shape it is similar to the prior art transformer core shown in fig. 1 with a general delta-shape but is designed in an entirely different way.
  • the core is made up of three ring-shaped parts 22, 23, 24 comprising several rings. These come in two widths, broad or narrow wherein the narrow rings are made up of strips of half the width of the broad rings. Also, they come in two heights, low or high wherein the low rings have half the height of the high rings. Unless otherwise stated, these definitions will be used throughout this description.
  • the strips are preferably made of transformer plate.
  • Each of the ring-shaped parts 22-24 comprises a broad high basic ring 22a-24a, respectively, similar to those described with reference to fig. 1 .
  • these rings form in pairs four of the sides in the hexagonal legs.
  • the remaining rhombs in the legs are built in different ways, see figs. 2a and 2b .
  • the additional rhombic cross-section is composed of two rhomboids.
  • the first one, designated 24b and belonging to ring-shaped part 24, is a broad low ring.
  • the second one, designated 22b and belonging to ring-shaped part 22, is a narrow high ring.
  • the additional rhombic cross-section is composed of one rhomboid and two rhombs.
  • the rhomboid is filled by the narrow high ring 22b belonging to the ring-shaped part 22.
  • the rhombs are filled by two narrow low rings 23b, 23c belonging to the ring-shaped part 23.
  • the additional rhombic cross-section is also composed of one rhomboid and two rhombs.
  • the rhomboid is filled by the broad low ring 24b belonging to the ring-shaped part 24.
  • the rhombs are filled by two narrow low rings 23b, 23c belonging to the ring-shaped part 23.
  • the reason that the ring-shaped part 23 comprises two low narrow rings instead of one larger ring is that this larger ring can not be both narrow and high, as required in the left leg 27, and broad and low, as required in the right leg 26. Thus, instead two narrow low rings are used.
  • All upper or lower yokes connecting the legs 25-27 have different shapes but all are built from one basic ring with a large rhombic cross-section plus one ring with a rhomboidal cross-section or two rings with a small rhombic cross-section. This gives all yokes the same total cross-section area.
  • the core generally designated 30, has the same general shape as the first embodiment described above. However, in this embodiment the core comprises three identical ring-shaped parts 32-34, of which the rightmost one 32 will be described.
  • the ring-shaped parts 32-34 are similar to the part 23 described in connection with fig. 2 .
  • part 32 comprises two narrow low rings 32b, c wherein ring 32c is wound outside of ring 32b.
  • part 32 has the two rings 32b, 32c placed one beside the other, see fig. 3a .
  • the two other parts 33, 34 are identical to the first one 32.
  • the production of the core can as a rule be simplified, depending on the production volume, because all three ring-shaped parts 32-34 can be made from the same mould.
  • a further possibility is to make broad low rings and turn the leg parts 60 degrees, forcing a corresponding bending of the yoke parts.
  • the yoke parts then require more space and the bending is not so easy to effect.
  • Making narrow high rings and turning and bending as mentioned is also possible, but difficult. Additional variants, including those with smaller divisions, are also possible.
  • a core with octagonal legs, generally designated 40, will now be described with reference to figs. 4 and 4a .
  • the sides turn 45 degrees, which means that they have a relative angle of 135 degrees to each other.
  • the three profiled rings all contain two rings with equal leg parts.
  • a first ring 42a, 43a, 44a has a rhombic cross-section and the yoke parts bent 15 degrees.
  • a second ring 42b, 43b, 44b outside of the first ring is quadratic and follows the form of the first ring 42a-44a.
  • two outer rhombs compose the cross-section of an outer ring with the yoke parts bent 15 degrees.
  • two inner rhombs compose an inner ring but bent 60 degrees.
  • the next ring must now give an outer rhomb in one leg and an inner rhomb in the other leg and be bent 30 degrees.
  • One type of profiled ring is to be preferred because it is difficult to bend a ring 60 degrees and one can not avoid a ring with both an outer rhomb and an inner rhomb.
  • the third ring 42c has a rhombic cross-section in the leg parts and is placed outermost in the back leg 45 but inside the right leg 46. These rhombs of the leg parts are obtained by displacing the outer strips of the ring to the right at the right leg 46 and to the left at the back leg 45. Furthermore, the legs are turned asymmetrically 30 degrees and the yoke parts are bent accordingly. The ring is given such a circumference that it will lie outside of the other rings. The final result appears in fig. 4 .
  • a 10-sided leg, generally designated 50 will now be described with reference to fig. 5 .
  • the profiled rings contain all four rings with equal leg parts.
  • a first ring 50a, a second ring 50b and a third ring 50c with rhombic cross-sections in their leg parts are attached to the 10-sided cross-section. Thus they have the angles 36, 72, and 108 degrees and their yoke parts bent 24 degrees.
  • a fourth ring 50d having a rhomboid cross-section with the angle 36 degrees lies mainly upon the first ring 50a. Its leg parts are turned outwards 24 degrees, causing a 48 degrees bending of its yokes.
  • the fourth ring also causes the yoke parts of the third ring 50c to make a larger bow to give space.
  • a fifth ring 50e has a rhombic cross-section in its leg parts with the angle 144 degrees when it lies outside of the third ring 50c, but the ring has a rhombic cross-section with the angle 72 degrees when it lies outside of the fourth ring 50d.
  • the yokes are bent only 12 degrees.
  • the arrows i the figure indicate that the cross-sections 50e belong to different profiled rings.
  • the space can e.g.
  • Fig. 6 shows a 12-sided core, generally designated 60.
  • the profiled rings are composed of four rings 60a-d with rhombic cross-sections with the angles 30, 60, 90, and 120 degrees, which are attached to the 12-sided cross-section and are turned 15 degrees. Inside of these rings there are two rings 60e, 60f with rhombic cross-sections with the angles 30 and 60 degrees, respectively, and turned outward 15 degrees. Attached to the fifth and sixth rings 60e, 60f there is space for a ring 60g with a rhombic cross-section with the angle 30 degrees turned outward 45 degrees. Its other leg part is a rectangle outside of the sixth ring 60f and turned outward 15 degrees.
  • the good properties of these transformer cores can be made even better for some transformer application, see fig. 7 .
  • the leakage inductance can easily be increased by an additional core 29 of strips between the primary and secondary windings of the transformer. The strips are brought together at the top and bottom. The strips can be spread around the entire primary winding or be concentrated to one place, making the secondary winding eccentric.
  • the non-linear magnetic properties of iron result in harmonics in the magnetic fields, voltages and currents.
  • the centre leg is made of three rectangular poles 80 from strips given a height three times the width, laid on each other to a quadratic cross-section, see fig. 8 .
  • This is preferably triangular and a custom-made solution contains poles with a rhombic cross-section, of which three are put together to form a packet with the strip edges toward each other in a wave form, see fig. 9 .
  • Three packets are put together with small distances to form a leg with a cross-section approximating a triangle.
  • the ends of the poles are bent outward to reach the yokes. To make the bends possible spacers between the poles are necessary.
  • the spacers do not influence the magnetic properties because one pole from each packet 91a-c; 92a-c; 93a-c is bent to each yoke.
  • the strips are, at least on one side, parallel to the spacers.
  • a rod, wound of strips in spiral form or as coils, is useful, especially if there are to be air gaps between the centre leg and the yokes.
  • the spiral can be made wider at the ends to reduce the air gaps to the yokes.
  • the flexibility of building cores like this is good and is shown in fig. 10 .
  • the figure shows the core described in connection with fig. 4 .
  • a major part of the magnetic flux can pass from one profiled ring to another in the legs where they are touching each other. This enables the rotation of larger fluxes in the yoke triangle.
  • Fig. 11a shows the transverse cross-section of a transformer with octagonal legs. All legs comprise four rhombs with an angle of 45 degrees and two squares. Rings running between adjacent legs are shown in the figure while those running between the outer legs are almost entirely hidden.
  • the leg parts In order to make transformer cores of this kind, the leg parts must be bendable and that the yoke parts can be bent and pass each other.
  • the leg parts of the rings are bent outward and the yoke part inward or vice versa.
  • the shape of the yoke parts is limited by the limited possibilities of plastic deformations but otherwise the yoke parts can have any shape.
  • the principle shown in fig. 11 is to have sharp bends and straight yoke parts.
  • the rings can also be placed on each other giving rounded bends in order to save material.
  • the yokes between the left leg 115 and the centre leg 116 are built up of a ring 112a with a rhombic cross-section in the leg part, a ring 112b with a square cross-section and both bent 22.5 degrees and a rhombic ring 112c turned 67.5 degrees in the leg parts.
  • the rings 112a and 112b fit into the octahedrons close to the yoke side while the ring 112c fits into the opposing side.
  • the yoke between the centre leg 116 and the right leg 117 can only be placed in the centre leg in the remaining positions: 114a-c.
  • the cross-sections of the left and right legs 115, 117 are mirror images to the centre leg 116 so that the rings running in the centre leg are symmetric.
  • the inner rings 114a, 114b have their closest positions in the right leg 117.
  • the ring 114c with a square cross-section in the leg parts runs to the closest square-shaped position in the right leg.
  • the reason behind that is that the ring 113a with a square cross-section between the outer legs is in an outer position on the yoke parts already present in order to reach the left leg.
  • a heavily sloping fold is used instead. This is shown for the ring 114c having the shortest yoke. The fold starts at one end of the yoke and ends at the other end, marked by 118a for the lower yoke and 118b for the upper yoke in fig. 11 . Also, the yokes can be subdivided into several narrow rings.
  • Fig. 12 shows a transformer with an octagonal cross-section composed of rings with the same cross-sections as in the three-phase transformers but with the return loops going the closest way outside of the windings.
  • the rings can be transposed and yet given an octagonal cross-section.
  • a small reduction of the amount of plate can e.g. be obtained by looping up to the left of the ring looping rightmost in the figure. There must its cross-section be changed to a rhombic form close to rectangular form.
  • a core with two legs can be made from the three-phase designs by bending the rings from one leg together to form only one more leg.
  • a core is shown in fig. 13 with an octagonal cross-section in its legs. The turning of three leg-parts is 45 degrees and the bending is 90 degrees.
  • a ring with a rectangular cross-section and the two rings outside of that ring are not deformed.
  • Cores with hexagonal legs need only three rings made of strips with the same width.
  • the segments outside of a polygonal leg can be filled by a thin rhombic ring of a strip with about half the width and the full height of the segment and wound to its total width. Folds in the strips along the middle of the rhomb as in fig. 15 make two sides to one flat side giving a triangle, the sides of which are in contact with the core. With about 2/3 width and 8/9 height, a fold at the edge of the innermost strip makes a trapezoid cross-section as in fig. 16 .
  • the cross-section can also be rounded.
  • the leg parts can be given a cross-section shape closer to the shape of a circle, see fig. 17, 17a and 17b .
  • the right leg 172 in fig. 17 will be described as an example with reference to fig. 17a , wherein a transverse cross-section of that leg is shown.
  • rings 173 of e.g. 80% of full width and to a height of 9% of its width.
  • rings 173 e.g. 80% of full width and to a height of 9% of its width.
  • a ring 174 can be placed on the outer sides of the hexagons.
  • FIG. 17b Another embodiment is shown in fig. 17b , wherein the ring 174 has been replaced by broader strips in the other rings.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Coils Or Transformers For Communication (AREA)
  • Coils Of Transformers For General Uses (AREA)
  • Manufacturing Cores, Coils, And Magnets (AREA)
  • Transformers For Measuring Instruments (AREA)
  • Details Of Television Scanning (AREA)
EP99968734A 1998-09-02 1999-09-02 Transformer core Expired - Lifetime EP1110227B1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
US14650198A 1998-09-02 1998-09-02
PCT/SE1999/001518 WO2000014753A1 (en) 1998-09-02 1999-09-02 Transformer core
US146501 2002-05-14

Publications (2)

Publication Number Publication Date
EP1110227A1 EP1110227A1 (en) 2001-06-27
EP1110227B1 true EP1110227B1 (en) 2010-03-24

Family

ID=22517669

Family Applications (1)

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EP99968734A Expired - Lifetime EP1110227B1 (en) 1998-09-02 1999-09-02 Transformer core

Country Status (27)

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EP (1) EP1110227B1 (no)
JP (1) JP4514954B2 (no)
KR (1) KR100613751B1 (no)
CN (1) CN1178234C (no)
AP (1) AP1302A (no)
AT (1) ATE462191T1 (no)
AU (1) AU757893B2 (no)
BG (1) BG64573B1 (no)
BR (1) BR9913661A (no)
CA (1) CA2342331C (no)
CZ (1) CZ297230B6 (no)
DE (1) DE69942179D1 (no)
EA (1) EA004162B1 (no)
EE (1) EE04406B1 (no)
HK (1) HK1039827A1 (no)
HR (1) HRP20010153B1 (no)
HU (1) HU225832B1 (no)
ID (1) ID29340A (no)
IL (2) IL141670A0 (no)
NO (1) NO320985B1 (no)
OA (1) OA11907A (no)
PL (1) PL193118B1 (no)
RS (1) RS49920B (no)
TR (1) TR200101259T2 (no)
UA (1) UA54619C2 (no)
WO (1) WO2000014753A1 (no)
ZA (1) ZA200101707B (no)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US11158449B2 (en) 2015-03-12 2021-10-26 Guglielmo MONTAGNANI Method and device for manufacturing transformers with a core made of amorphous material, and transformer thus produced

Families Citing this family (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE60141897D1 (de) 2000-03-02 2010-06-02 Lennart Hoeglund Transformatorkern
CN1921036B (zh) * 2005-08-26 2010-11-03 张明德 一种增轭式立体/平面卷铁芯
CN102314997A (zh) * 2011-05-27 2012-01-11 广东海鸿变压器有限公司 非晶合金立体卷铁心
CN103050235B (zh) * 2012-09-05 2016-12-21 马志刚 内冷式变压器卷铁芯
WO2014133423A1 (en) * 2013-02-26 2014-09-04 Lennart Höglund Transferring machine and three phase transformer core built with transferring machine
CN104319078B (zh) * 2014-10-11 2016-11-02 海鸿电气有限公司 一种110kV及以上电压等级立体卷铁心变压器及其绕制工艺
EP3467851A1 (en) 2017-10-04 2019-04-10 Transformer Cage Core AB Transformer core with reduced building factor
KR102385304B1 (ko) * 2022-02-17 2022-04-12 주식회사 케이피일렉트릭 변압기 철심

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SE163797C1 (no) *
US523572A (en) * 1894-07-24 Electrical converter
US2400184A (en) * 1943-11-29 1946-05-14 Line Material Co Electromagnetic device
US2401952A (en) * 1943-09-10 1946-06-11 Line Material Co Three-phase transformer
US2431155A (en) * 1943-08-20 1947-11-18 Line Material Co Three-phase transformer and method of making the same
US2458112A (en) * 1947-01-20 1949-01-04 Line Material Co Three-phase transformer construction
US2498747A (en) * 1944-09-20 1950-02-28 Mcgraw Electric Co Electromagnetic device and method of making the same

Family Cites Families (6)

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Publication number Priority date Publication date Assignee Title
US2333464A (en) * 1940-11-29 1943-11-02 Gen Electric Stepped outline wound core
US2544871A (en) * 1947-04-24 1951-03-13 Mcgraw Electric Co Three-phase transformer
AR204449A1 (es) * 1974-10-07 1976-02-06 Ingenieria Electrica Ind Sa Circuito magnetico para transformadores electricos trifascos
JPS5463320A (en) * 1977-10-31 1979-05-22 Tokushu Denki Kk Threeephase deformation wounddcore
US4557039A (en) * 1979-10-19 1985-12-10 Susan V. Manderson Method of manufacturing transformer cores
JPS57106103A (en) * 1980-12-15 1982-07-01 Mo Puroizuuodosutouennoe Obied Ferromagnetic core

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SE163797C1 (no) *
US523572A (en) * 1894-07-24 Electrical converter
US2431155A (en) * 1943-08-20 1947-11-18 Line Material Co Three-phase transformer and method of making the same
US2401952A (en) * 1943-09-10 1946-06-11 Line Material Co Three-phase transformer
US2400184A (en) * 1943-11-29 1946-05-14 Line Material Co Electromagnetic device
US2498747A (en) * 1944-09-20 1950-02-28 Mcgraw Electric Co Electromagnetic device and method of making the same
US2458112A (en) * 1947-01-20 1949-01-04 Line Material Co Three-phase transformer construction

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US11158449B2 (en) 2015-03-12 2021-10-26 Guglielmo MONTAGNANI Method and device for manufacturing transformers with a core made of amorphous material, and transformer thus produced

Also Published As

Publication number Publication date
HU225832B1 (hu) 2007-10-29
AP1302A (en) 2004-09-09
ZA200101707B (en) 2002-05-28
HK1039827A1 (en) 2002-05-10
BR9913661A (pt) 2001-06-05
CN1178234C (zh) 2004-12-01
EA200100260A1 (ru) 2001-10-22
EE04406B1 (et) 2004-12-15
AU6014999A (en) 2000-03-27
JP2002524866A (ja) 2002-08-06
EA004162B1 (ru) 2004-02-26
PL193118B1 (pl) 2007-01-31
RS49920B (sr) 2008-09-29
KR20010085754A (ko) 2001-09-07
JP4514954B2 (ja) 2010-07-28
CN1317144A (zh) 2001-10-10
OA11907A (en) 2006-04-10
HRP20010153B1 (en) 2011-11-30
CA2342331C (en) 2010-04-13
UA54619C2 (uk) 2003-03-17
AU757893B2 (en) 2003-03-13
ATE462191T1 (de) 2010-04-15
ID29340A (id) 2001-08-23
EE200100137A (et) 2002-06-17
NO320985B1 (no) 2006-02-20
PL346275A1 (en) 2002-01-28
HUP0104069A2 (hu) 2002-03-28
CZ2001786A3 (cs) 2001-09-12
AP2001002081A0 (en) 2001-03-31
EP1110227A1 (en) 2001-06-27
NO20011043D0 (no) 2001-02-28
IL141670A0 (en) 2002-03-10
HUP0104069A3 (en) 2003-02-28
HRP20010153A2 (en) 2002-04-30
KR100613751B1 (ko) 2006-08-23
CA2342331A1 (en) 2000-03-16
TR200101259T2 (tr) 2001-08-21
BG105300A (en) 2001-10-31
IL141670A (en) 2007-10-31
BG64573B1 (bg) 2005-07-29
NO20011043L (no) 2001-02-28
DE69942179D1 (de) 2010-05-06
CZ297230B6 (cs) 2006-10-11
YU17101A (sh) 2002-12-10
WO2000014753A1 (en) 2000-03-16

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