US3621428A - Electrical windings and method of constructing same - Google Patents

Electrical windings and method of constructing same Download PDF

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US3621428A
US3621428A US75126A US3621428DA US3621428A US 3621428 A US3621428 A US 3621428A US 75126 A US75126 A US 75126A US 3621428D A US3621428D A US 3621428DA US 3621428 A US3621428 A US 3621428A
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Prior art keywords
coils
pancake
winding
turns
coil
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Robert L Johnston
Wallace G Chambers
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Westinghouse Electric Corp
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Westinghouse Electric Corp
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F29/00Variable transformers or inductances not covered by group H01F21/00
    • H01F29/02Variable transformers or inductances not covered by group H01F21/00 with tappings on coil or winding; with provision for rearrangement or interconnection of windings
    • H01F29/025Constructional details of transformers or reactors with tapping on coil or windings
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F27/00Details of transformers or inductances, in general
    • H01F27/34Special means for preventing or reducing unwanted electric or magnetic effects, e.g. no-load losses, reactive currents, harmonics, oscillations, leakage fields
    • H01F27/343Preventing or reducing surge voltages; oscillations
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F29/00Variable transformers or inductances not covered by group H01F21/00
    • H01F29/02Variable transformers or inductances not covered by group H01F21/00 with tappings on coil or winding; with provision for rearrangement or interconnection of windings
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T29/00Metal working
    • Y10T29/49Method of mechanical manufacture
    • Y10T29/49002Electrical device making
    • Y10T29/4902Electromagnet, transformer or inductor
    • Y10T29/49071Electromagnet, transformer or inductor by winding or coiling

Definitions

  • Lackey ABSTRACT A tapped winding for electrical inductive apparatus, and method of constructing same, including a plurality of axially spaced pancake or disk-type continuous coils. Each turn to be tapped is directed to the outermost turn of a pancake coil by successively winding and interconnecting a first portion of a plurality of pancake coils, proceeding from coil to coil in a first axial direction, and returning in the opposite axial direction to complete each pancake coil, with the number of turns added to complete each pancake coil being predetermined to locate the taps at the outer turns of certain pancake coils.
  • WITNESSES l-w/l a INVENTORS Wolloce G. Chambers and Robert L. Johnston ATTOR Y PATENTEDunv 16 Ian TAP CHANGER I33 135 PRIQR ART FIG.3.
  • SHEET 3 [1F 3 FIG] ELECTRICAL WINDINGS AND METHOD OF CONSTRUCTING SAME BACKGROUND OF THE INVENTION 1.
  • the invention relates in general to electrical inductive apparatus, such as power transformers, and more specifically to tapped winding structures for such apparatus.
  • an underload tap changer is utilized.
  • the number of turns between adjacent taps is determined by the magnitude of the voltage steps desired, and is usually specified by the user.
  • the turns to be tapped will usually not be the outermost turns of the continuous pancake coils, making it necessary to braze or weld tap leads to intermediate turns of the pancake coils.
  • the tap leads are brought out through the ducts between adjacent coils, with special insulation being required to adequately electrically insulate the tap leads from the adjacent coils.
  • This arrangement increases the cost of constructing the tap section, and it increases the axial length of the tap section due to the increased duct width required to insulate and bring out the tap leads. It is especially troublesome when aluminum conductor is used in the winding, because the welding procedure required to metallurgically bond the tap lead to an aluminum conductor buried at an intermediate turn location of the coil is difficult and time consuming.
  • the tap section should be located at the electrical center of phase, i.e., the center line which divides the ampere turns into two equal portions, in order to produce minimal axial unbalance and reduce the variation in impedance over the tap range, and also reduce the magnitude of short circuit forces caused by the unbalance.
  • the present invention is new and improved tapped winding section for electrical inductive apparatus, such as power transformers of the core-form type, having a plurality of pancakeor disk-type coils in which all of the taps are directed to the outermost turns of the coils of the tap section, providing the desired number of coils of the tap section, regardless of the total number of turns in the coils.
  • This is ac complished by winding the coils of the tap section such that they are first wound as electrically interconnected part coils having a predetermined number of turns, which number is less than the required number of turns in the pancake coils.
  • the last part coil to be wound is then completed, and the remaining coils completed in reverse sequence, with the number of turns added per coil being predetermined to direct the turns to be tapped to the outer turns of predetennined pancake coils.
  • a no-load tap section When a no-load tap section is constructed, another similarly constructed tap section is wound adjacent to the first section, and the two sections are interconnected via a no-load tap changer.
  • the disclosed construction wherein the first or inner portions of the pancake coils are not tapped out, prevents complete gaps from being created in the ampere turns, which reduces axial unbalance and reduces impedance variation over the tap range, and since the ends of the adjacent tap sections have a plurality of pancake coils between them, insulating these ends from one another is not a problem.
  • FIG. 1 is an elevational view, partially in section, of one phase of a transformer having a high-voltage winding constructed according to the teachings of the invention
  • FIG. 2 is a schematic diagram of the high-voltage winding shown in FIG. 1;
  • FIG. 3 is a schematic diagram of a high-voltage winding constructed according to the teachings of the prior art
  • FIGS. 4, 5, and 6 illustrate different arrangements for making a tap connection to the outermost turn of a pancake coil
  • FIG. 7 is a schematic diagram of the high-voltage winding shown in FIG. 1, connected start-start, finish-finish, instead of finish-start.
  • FIG. 1 there is shown an elevational view of a transformer 10 of the core-form type, constructed according to the teachings of the invention, which may be single-phase or polyphase, as desired.
  • Transformer 10 includes a magnetic core 12 which may be of conventional construction, having a winding leg 14 about which highand low-voltage phase winding assemblies 16 and 18 are concentrically disposed.
  • Low-voltage winding 18 may also be of conventional construction, having a plurality of electrically insulated conductor turns 20, which are insulated from magnetic core 12 and high-voltage winding assembly 16 by insulating means 22.
  • the invention applies to tapped windings of the continuous disk or pancake coil type for electrical inductive apparatus, such as transformers of the isolated winding type, or of the autotransfonner type. It applies to any type winding of such apparatus, used either with a no-load tap changer, or an underload tap changer.
  • transformer 10 is illustrated as being of the isolated winding type, with its outer or high-voltage winding being tapped and connected to a no-load tap changer 23.
  • High-voltage phase assembly 16 includes a plurality of continuous pancakeor disk-type coils which are spaced axially apart in a stacked arrangement about the longitudinal center line 24 of magnetic core leg 14.
  • Winding 16 has terminals 26 and 28 connected to opposite ends thereof, i.e., to pancake coils 30 and 32, respectively, and a tap section 34 which includes a plurality of pancake coils, such as pancake coils 38, 40, 42, 44, 46, 48, 50, 52, 54, and 56.
  • the tap section 34 is usually disposed intermediate the ends of winding 16, in order to protect the tap section from transient or surge voltages, which may enter the terminals 26 and 28.
  • a plurality of pancake coils are disposed between one end of the tap section 34 and terminal 26, and a plurality of pancake coils, indicated generally by pancake coils 58 and 32 and line 62, are disposed between the other end of the tap section 34 and terminal 28.
  • FIG. 3 is a schematic diagram of winding 16 shown in FIG. 1, constructed and connected according to the teachings of the prior art, with like reference numerals in FIGS. 1 and 3 indicating like components. A prime mark has been added to the reference numerals in FIG. 3 to distinguish the difierent constructions.
  • FIG. 3 illustrates a high-voltage winding 16 having a plurality of continuous-type pancake coils 30, 36, 38', 42', 44, 48', 50, 52', 54, 56, 58', and 32, with the pancake coils starting with pancake coil 30 and ending with pancake coil 46 being disposed on one side of the tap break, and the pancake coils starting with pancake 48' and ending with pancake coil 32' being disposed on the other side of the tap break.
  • the number of pancake coils, and the number of turns per pancake coil are determined by the electrical requirements of the apparatus.
  • a plurality of no-load taps are provided on winding 16' which are interconnected through a no-load tap changer or movable connector (not shown), which selectively interconnects a tap on one side of the tap break with a tap on the other side of the tap break, with any tap change being made when the winding 16' is deenergized.
  • the pancake coils may be serially interconnected with finish-start interpancake connections, starting at each terminal 26' and 28', such as finish-start connection 64 between the outermost turn of pancake coil 36' and the innermost turn of pancake coil 38.
  • the "start” of a coil, or section of a coil, as used in this specification, is the end of its innermost turn, and the “finish” of a coil, or section of a coil, is the end of its outermost turn, regardless of where the electrical circuit first enters the coil.
  • the pancake may also be serially interconnected with start-finish connectors, or with successive start-start finish-finish connections, as desired.
  • the no-load taps are conventionally uniformly disposed, from an electrical viewpoint, having a desired number of turns N between adjacent taps.
  • a tap 66 is disposed at one end of the tap break, connected to the outermost turn of pancake coil 46, and the next tap 68 is located N turns from the outermost turn of pancake coil 46', which location may be an intermediate tum of an adjacent pancake coil, such as an intermediate turn of pancake coil 44.
  • the next tap 70 will be N turns from tap 68, and may be an intermediate turn of another pancake coil, such as pancake coil 42.
  • a tap 72 is disposed at the other end of the tap break, i.e., at the end of the outermost turn of pancake coil 48'.
  • the next tap 74 will be located N turns from tap 72, such as an intermediate turn of pancake coil 50'.
  • the last tap 76 will be located N turns from tap 74, such as an intermediate turn of pancake coil 52.
  • Six taps are conventionally used, providing five different output voltages, but any number of taps may be used, as dictated by the user's specific application.
  • taps 68, 70, 74, and 76 are connected to an intermediate turn of their associated pancake coils.
  • the connection of these taps is, therefore, more difficult to make than taps 66 and 72, which are connected to the outermost turns of their associated pancake coils, with the tap leads connected to intermediate turns requiring additional insulation to properly insulate the tap lead from the adjacent coils.
  • the more heavily insulated tap lead increases the. width of the ducts between adjacent pancake coils, which deleteriously affects the space factor of the winding, it increases the length of the winding leg and the size of the magnetic core, and it reduces the series capacitance of the winding at this point, as the major portion of the series capacitance of a continuous type winding is provided between adjacent pancake coils.
  • This discontinuity in the series capacitance of the winding may produce voltage oscillations of an undesirable magnitude when the winding is surged, such as by a lightening or switching surge, even though the tap section is buried in the phase winding, as oscillatory voltages are set up which travel through the winding when a continuous winding is subjected to a surge potential.
  • the gap in the ampere turns increases in width.
  • the magnetic flux instead of remaining parallel with the axis of the coils or winding, fringes outwardly from the winding at the gap.
  • the amount of flux which fringes is proportional to the size of the gap. Since the fringing flux may cause heating of the tank walls and other surrounding metallic parts, it would be desirable to reduce the size of the gap produced in the ampere turns as the tap section is tapped out.
  • the present invention discloses a new and an improved tapped winding, and method of constructing same, which directs all of the taps to the outermost turns of predetermined pancake coils in the tap section, and at the same time reduces the size of the effective gap in the ampere turns produced as the tap section is tapped out.
  • the new winding aids in reducing flux fringing, it reduces axial unbalance and concomitant mechanical stresses, and it reduces the variation in impedance across the tap range.
  • FIG. 1 illustrates winding 16 constructed according to a first embodiment of the invention, with FIG. 2 being a schematic diagram of winding 16.
  • Winding 16 has two main parts, one on each side of a tap break, and each part if constructed in like manner, starting from line terminals 26 and 28, respectively.
  • the first part includes a plurality of conventional pancake coils of the continuous type, indicated by pancake coils 30 and 36, with a line 60 between them, which in this embodiment are serially interconnected with finish-start interpancake connections.
  • each pancake coil has 13 turns, which are given the letter T plus a turn number in each coil, and that the number of turns required between adjacent taps is 15.
  • a predetermined number of part coils are wound and interconnected, proceeding axially inward from each terminal, and then the coils are completed by proceeding axially outward toward each terminal.
  • the 15 turns of the example may be achieved by adding eight turns to one part coil and seven turns to the next. Since it is desirable to provide the same build or outside dimension for all of the coils within the tap section 34, the part coils to be completed with eight turns should be constructed with one less turn than the part coils which are to be completed with seven turns. With these relationships in mind, the tap section 34 may then be started.
  • the finish" or outermost turn of pancake coil 36 is connected to the start of pancake coil 38 via finish-start connection 78.
  • Pancake coil 38 is then started by winding an insulated conductor in the same circumferential direction as pancake coils 30 and 36, in order to provide an additive magnetomotive force in the coil 14, providing a first part coil 80, best shown in FIG. 2, which has a predetermined number of radially disposed conductor turns therein, such as 4.
  • the insulated conductor of which part coil 80 was wound may be bent to provide a finish-start connection 82, and pancake coil 40 may be started, providing a part coil 84, which in this example has one less turn than part coil 80, such as three.
  • the insulated conductor may then be used to form a finish-start connection 86, and pancake coil 42 may be started, providing a part coil 88 having four turns.
  • the insulated conductor then forms the finish-start connection 90, and pancake coil 44 may be started, providing a part coil 92.
  • the insulated conductor may then be bent to form a finish-start connection 94, and pancake coil 46 may be started and completed.
  • the construction of pancake coil 46 may be thought of as winding a part coil, similar to the other part coils of the tap section, and then completing the part coil. Since there is no electrical discontinuity between this part coil and its completing turns, additional insulation is not required between the inner and outer portions of pancake coil 46. Thus, up to this point, an electrical path is created through tap section 34 having first and second ends located in pancake coils 38 and 46, respectively.
  • the next step of the new and improved method is to complete the partially wound pancake coils 44, 42, 40, and 38 returning the electrical path through tap section 34 back to pancake coil 38.
  • the pancake coils are completed in reverse or opposite sequence to that used when the part coils were constructed, taking care to wind the added turns to each part coil such that the magnetomotive force or ampere turns provided by the additional turns, add to the ampere turns provided by turns of its associated part coil.
  • the insulated conductor from the finish" of pancake coil 46 may be used to provide the finishstart connection 96.
  • Suitable electrical insulating means 98 is disposed about the outermost turn of part coil 92, and pancake coil 44 is completed by winding an outer portion 100 having the required number of turns therein, which in this example is eight.
  • the insulated conductor may then be used to form the finish-start connection 102, insulating means 104 is disposed about the outer turn of part coil 88, and an outer portion 106 is wound about part coil 88, to complete pancake coil 42, with seven turns being provided in the second or outer portion 106.
  • the insulated conductor may then be bent to form the finish-start connection 108, insulating means 110 is disposed about the outer turn of part coil 84, and outer portion 112 is wound to complete pancake coil 40, with the outer portion 112 having eight turns.
  • the insulated conductor may then be bent to form the finish-start interpancake connection 114, and insulating means 116 is disposed about the outer turn of part coil 80.
  • Pancake coil 38 is then completed by winding section 118 about part coil 80, with the outer portion 118 having seven turns therein. This completes the first part of the tap section 34, except for the connection of the taps to the pancake coils.
  • the outermost turn of pancake coil 46 is tapped at 120 and the tap lead is electrically connected to terminal 121 on the tap changer 23.
  • the circuit then traverses eight turns through pancake coil 44 and seven turns through pancake coil 42, thus directing the 15th turn to the outermost turn of pancake coil 42, which is tapped at 122 and the tap lead electrically connected to terminal 123 on tap changer 23.
  • the circuit then traverses eight turns through pancake 40, and 7 turns through coil 38, directing the 15th turn to the outermost turn of pancake coil 38, which is tapped at 124 and the tap lead electrically connected to terminal 125 on tap changer 23.
  • the other half of winding 16 is constructed similar to the first half, starting from terminal 28 and proceeding axially inward, winding each coil and portion thereof to provide a magnetomotive force in the magnetic core which adds to that provided by the first half of the winding.
  • This half of the winding 16 is tapped at the outer turn of the pancake coil 48 at and the tap lead electrically connected to terminal 131 on the tap changer 23, the outer turn of pancake coil 52 is tapped at 132 and the tap lead connected to terminal 133 on tap changer 23, and the outer turn of pancake coil 56 is tapped at 134 and the tap lead electrically connected to terminal 135 of the tap changer 23.
  • Tap changer 23 may be of any suitable construction, providing five different voltages, in this example. Terminals 125 and 135 of the tap changer 23 may be connected together to connect the complete tap section into the winding circuit. Other tap connections selectively connect terminals 125 to terminal 133, terminal 123 to terminal 133, terminal 123 to terminal 131, and terminal 121 to terminal 131, with the last-named connection shorting the tap section completely out of the active winding circuit. It is important to note, however, that a complete gap is not created in the ampere turns in any position of the tap changer 23. Even when the tap section is completely tapped out, pancake coils 46 and 48 are still completely in the active winding circuit, as are all of the part coils.
  • Pancake coils 46 and 48 also divide the reduction in ampere turns as the tap section is tapped out, directing the reduction in the ampere turns to two spaced locations, instead of concentrating the reduction at one location.
  • the disclosed winding construction will reduce axial unbalance, and short circuit stresses resulting therefrom, regardless of the connection of the tap changer 23, and the disclosed construction reduces flux fringing, and the losses resulting therefrom due to the heating of adjacent metallic parts, as there is always an active circuit to direct the flux parallel with the winding axis. Further, variation in impedance is minimized across the tap range.
  • the disclosed method and winding construction direct all of the taps to outer turns of predetermined pancake coils where the tap connections may be more easily made, without increasing the width of ducts, which thus improves the space factor of the winding, and without requiring special insulation for the tap leads.
  • FIGS. 4, 5, and 6 are fragmentary views of an outer turn of a pancake coil having a terminal or stub tap" connected thereto. Leads may be connected to the terminals, or when used as stub taps a movable connector may be used to directly interconnect predetermined stub taps. More specifically, FIG. 4 illustrates that a tap lead 140 may be easily brazed or welded to an outer tum 142, by stripping the insulation from the turn at the point of the connection, and metallurgically connecting terminal 140 to the bare conductor. FIG. 5 illustrates that an outer turn 144 may be looped at 146, and the insulation removed from the end of the looped portion.
  • a terminal 148 may then be brazed, crimped, or otherwise suitably fastened to the exposed metal in the loop.
  • FIG. 6 illustrates that an outer turn 150 may be looped at 152, the insulation stripped from the loop, and an opening I54 drilled or otherwise formed through the bare conductor, with the opening accepting a bolt for fastening a lead thereto.
  • the last two arrangements, shown in FIGS. 5 and 6, are especially useful when the winding is formed with an aluminum conductor instead of copper, as it is more difiicult to form a metallurgical bond to aluminum than it is to copper.
  • FIG. 7 being a schematic diagram of a winding 16" constructed according to this embodiment of the invention.
  • Like reference numerals in FIGS. 1 and 7, except for a double prime mark in FIG. 7, indicate like components, and will not be again described in detail.
  • winding 16" shown in FIG. 7 interconnects the innermost turn of pancake coil 36" with the innermost turn of part coil 80" via start-start connection 160.
  • the outermost ends of part coils 80" and 84" are interconnected via finish-finish connection 162.
  • the innermost turns of part coils 84" and 88" are interconnected with start-start connection 164, and the outermost turns of part coils 88" and 92" are interconnected with finish-finish connection 166.
  • the innermost turn of part coil 92" is connected to the outermost turn of pancake coil 46" via start-start connection 168.
  • F inish-finish, start-start interpancake connections are also used when completing the part coils, with the outermost turn of pancake coil 46 being connected to the outermost turn of the outer portion 100" of pancake coil 44", via finish-finish connection 170, the innermost turn of portion 100" is connected to the innermost turn of the completing portion 106" via start-start connection 172, the outermost turns of portions 106 and 112" are interconnected with finish-finish connection 174, and the innermost turns of portions 112" and 118" are interconnected via start-start connection 176.
  • tap 120 is connected to the finish-finish connection 170
  • tap 122" is connected to the finish-finish connection 174
  • tap 124" is connected to the outermost turn of pancake coil 38".
  • the portion of winding 16" on the other side of the tap break is constructed in a manner similar to that hereinbefore described relative to the first half of the winding, with the winding starting at terminal 28" and proceeding axially inward until reaching the tap break, and the proceeding axially outward to complete the part coils of the tap section.
  • Tap 130" is connected to the finish-finish connection between the pancake coils 48" and 50
  • tap 132" is connected to the finish-finish connection between pancake coils 52" and 54"
  • tap 134" is connected to the end of the outermost turn of pancake coil 56".
  • each part coil may be constructed to have the same number of turns.
  • the outer sections may be constructed with a like number of turns.
  • each part coil may have the same number of turns and each added outer section may have the same number of turns, regardless of whether the number of turns between adjacent taps is odd or even.
  • all of the pancake coils of winding may have substantially the same build or outside dimension, to facilitate the mechanical bracing of the winding, as hereinbefore stated, variations may be used.
  • the tap section may have a different build dimension than the untapped portions of the winding.
  • a new and an improved method of constructing a tap section for the winding of an electrical power transformer for either the dry or liquidfilled types as well as a new improved tapped winding structure, wherein all of the turns to be tapped appear at the outermost turns of certain pancake coils of the tap section.
  • This arrangement facilitates the connection of tap leads or tenninals to the tapped winding section, and it improves the space factor of the winding as the spacing between pancake coils does not have to be increased in order to bring tap leads out from intermediate turns between two adjacent pancake coils.
  • the new and improved tapped winding structure does not create a complete gap in the ampere turns, in any position of the tap changer, as the two pancake coils adjacent to the tap break, as well as all of the part coils, are always actively connected into the circuit.
  • the ampere turns are merely reduced in magnitude, and the reduction is spaced on opposite sides of the two centrally located pancake coils of the tap section, in certain positions of the tap changer, to further reduce the effect of the reduction in ampere turns.
  • the disclosed construction thus substantially reduces axial unbalance as the tap section is tapped out, and it reduces the magnitude of mechanical forces resulting from an unbalance, compared with the prior art arrangements where a complete gap is created in the ampere turns, and it also reduces variations in impedance across the tap range. Since the floating ends of the two tapped portions of the tap section have a plurality of pancake coils physically disposed between them when the tapped winding section is completely tapped out, voltage difierences between their ends is not a problem.
  • a method of constructing a tapped winding comprising the steps of:
  • the method of claim 1 including the steps of winding and electrically interconnecting a first group of complete coils adjacent to the first end of the first plurality of part coils, and electrically connecting one end of the first group of complete coils to the first end of the first electrical path.
  • the method of claim 1 including the steps of winding and electrically interconnecting a second plurality of part coils, each having a predetermined number of turns, to provide a second electrical path having first and second ends located at the first and last part coils wound, respectively, and with the last part coil wound of the second plurality being adjacent to the last part coil wound of the first plurality, winding and electrically interconnecting a plurality of turns on each part coil of the second plurality in reverse order, starting at the second end of the second electrical path in the last part coil wound, to return the second electrical path to the first pancake coil of the second plurality and complete the second plurality of part coils, with the number of turns added to each part coil being predetermined to locate each turn to be tapped at the outer turn of a completed coil, connecting tap leads to each of the outer turns to be tapped in the first and second plurality of coils, and connecting the tap leads to means for selectively interconnecting the tap leads from the first and second plurality of coils.
  • the method of claim 8 including the steps of winding and electrically interconnecting a second group of complete coils adjacent to the first end of the second plurality of part coils, and electrically connecting one end of the second group of complete coils to the first end of the second electrical path.
  • a tapped winding for electrical inductive apparatus comprising: a first group of axially spaced pancake coils having first and second ends, each of said pancake coils having inner and outer portions each including a plurality of radially disposed, connected conductor turns, which provide electrical paths through each of the inner and outer portions having inner and outer ends, means interconnecting the pancake coils to direct a first electrical circuit through each of the inner portions, starting at the first end of said first group, and through each of their outer portions, starting at the second end of said first group, and a plurality of taps electrically connected to predetermined outer turns of predetennined pancake coils.
  • each of the pancake coils have substantially the same build dimensions.
  • the tapped winding of claim 10 including a first untapped winding section connected to the first portion of the pancake coils at the first end of the first group of pancake coils.
  • the tapped winding of claim 10 including a second group of axially spaced pancake coils having first and second ends, constructed and connected similarly to the first group of axially spaced pancake coils, with the second ends of the first and second groups bein adjacent to one another.
  • the tapped win ing of claim 18 including tap changer means connected to the plurality of taps, for selectively interconnecting taps on the first and second groups of pancake coils.
  • the tapped winding of claim 18 including first and second untapped winding sections connected to the first portions of the pancake coils at the first ends of the first and second groups of pancake coils, respectively.

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0088934A1 (de) * 1982-03-15 1983-09-21 Transformatoren Union Aktiengesellschaft Scheibenspulenwicklung aus ineinandergewickelten Einzel- oder Doppelspulen
EP0114648A3 (en) * 1983-01-22 1984-08-29 Hitachi, Ltd. Onload tap-changing transformer
US5369388A (en) * 1993-04-27 1994-11-29 Abb Power T&D Company, Inc. LTC compensating winding for parallel operation of transformers
EP2797088A1 (en) * 2013-04-23 2014-10-29 ABB Technology AG Coil for a dry transformer and dry transformer
WO2018233204A1 (zh) * 2017-06-23 2018-12-27 海鸿电气有限公司 一种立体卷铁心敞开干式变压器线圈结构及其绕制方法

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1873824A (en) * 1931-02-14 1932-08-23 Westinghouse Electric & Mfg Co Variable-reactance transformer
US3452311A (en) * 1968-01-18 1969-06-24 Westinghouse Electric Corp Interleaved winding having a tapped section and switch
US3484727A (en) * 1967-10-26 1969-12-16 Allis Chalmers Mfg Co Tapped transformer winding having high short circuit strength

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1873824A (en) * 1931-02-14 1932-08-23 Westinghouse Electric & Mfg Co Variable-reactance transformer
US3484727A (en) * 1967-10-26 1969-12-16 Allis Chalmers Mfg Co Tapped transformer winding having high short circuit strength
US3452311A (en) * 1968-01-18 1969-06-24 Westinghouse Electric Corp Interleaved winding having a tapped section and switch

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0088934A1 (de) * 1982-03-15 1983-09-21 Transformatoren Union Aktiengesellschaft Scheibenspulenwicklung aus ineinandergewickelten Einzel- oder Doppelspulen
EP0114648A3 (en) * 1983-01-22 1984-08-29 Hitachi, Ltd. Onload tap-changing transformer
US5369388A (en) * 1993-04-27 1994-11-29 Abb Power T&D Company, Inc. LTC compensating winding for parallel operation of transformers
EP2797088A1 (en) * 2013-04-23 2014-10-29 ABB Technology AG Coil for a dry transformer and dry transformer
WO2014173497A1 (en) * 2013-04-23 2014-10-30 Abb Technology Ag Coil assembly for a dry transformer; method for manufacturing a coil assembly and dry transformer
WO2018233204A1 (zh) * 2017-06-23 2018-12-27 海鸿电气有限公司 一种立体卷铁心敞开干式变压器线圈结构及其绕制方法

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