The present invention relates to planar electrical transformers.
Electrical transformers typically include a primary winding and a secondary winding wound about a magnetic core. Energy from the primary winding transfers to the secondary winding through electromagnetic induction using the magnetic core.
In a conventional transformer, the primary winding is an electrically conductive wire such as a copper wire. A portion of the wire is in the form of a winding coil wound about the magnetic core with an amount of winding turns. Each winding turn of the winding coil is one loop of the wire. Similarly, the secondary winding is another wire and a portion of this wire is in the form of a winding coil wound about the magnetic core with an amount of winding turns.
In a planar transformer, the winding coils are flat, or planar, electrically conductive elements instead of wire loops. For instance, winding coils in certain planar transformers are spiral copper traces on a planar surface. In this type of planar transformer, a winding coil of the primary winding is a spiral of traces on a first board and a winding coil of the secondary winding is a spiral of traces on a second board.
A planar transformer includes conductor plates each having a channel separating a region of the conductor plate into first and second portions. Each conductor plate corresponds to one wire turn of a first winding coil with one of the first and second portions being a start point of the wire turn and the other one of the first and second portions being an end point of the wire turn.
The transformer further includes insulator sheets. The conductor plates are stacked on top of one another with an insulator sheet between each pair of conductor plates and the conductor plates are connected together at connection areas of the first and second portions of the conductor plates to establish electrical continuity from one conductor plate to the next conductor plate and thereby form a first packet corresponding to the first winding coil.
The end point of a first one of the conductor plates is connected to the start point of a second one of the conductor plates and the end point of the second one of the conductor plates is connected to the start point of a third one of the conductor plates.
The insulator sheets include windows aligned with the connection areas of the conductor plates, wherein the conductor plates are connected together at the connection areas through the windows of the insulator sheets and the insulator sheets otherwise prevent the conductor plates from being connected together such that the conductor plates are not inadvertently shorted together.
The conductor plates may include a terminal conductor plate having a terminal tab extending from the first portion of the terminal conductor plate, and the second portion of the terminal conductor plate includes first and second connection areas for the terminal conductor plate connected at one of the first and second connection areas to another one of the conductor plates.
The conductor plates may further include a tab conductor plate having a bending tab extending from the second portion of the tab conductor plate, and the first portion of the tab conductor plate includes a connection area for the tab conductor plate to be connected at the connection area to another one of the conductor plates.
The conductor plates may further include at least one common conductor plate. The first portion of each common conductor plate includes a first connection area for the common conductor plate to be connected at the first connection area to another one of the conductor plates and the second portion of each common conductor plate includes a second connection area for the common conductor plate to be connected at the second connection area to some other one of the conductor plates.
The first and second common conductor plates have the same type of configuration and are flipped relative to one another such that the second portion of the first common conductor plate is the end point of the first common conductor plate and the second portion of the second common conductor plate is the start point of the second common conductor plate.
The conductor plates may be full planar copper stamped conductor plates.
The insulator sheets may be made of Nomex® insulation.
Another planar transformer includes packets each including conductor plates and insulator sheets. Each conductor plate has a channel separating a region of the conductor plate into first and second portions. The packets respectively correspond to winding coils and the conductor plates of each packet respectively corresponding to wire turns of the winding coil corresponding to the packet. In each packet the conductor plates of the packet are stacked on top of one another with an insulator sheet between each pair of the conductor plates of the packet and the conductor plates of the packet are connected together at connection areas of the first and second portions to establish electrical continuity between the conductor plates of the packet.
Conductor plates of a first set of the packets may be connected together to form a secondary winding and conductor plates of a second set of the packets exclusive of the packets of the first set of packets may be connected together to form a primary winding.
The conductor plates of all of the packets may include only three types of conductor plates. The insulator sheets in any packet may include only three types of insulator sheets.
Detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the present invention that may be embodied in various and alternative forms. The figures are not necessarily to scale; some features may be exaggerated or minimized to show details of particular components. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a representative basis for teaching one skilled in the art to variously employ the present invention.
Referring now to
As indicated in
Each winding coil 18, 20, 22, 24, and 26 includes a pair of taps. Each tap of a winding coil is a start point or end point of the winding coil. First primary winding coil 18 includes taps A and B; and second primary winding coil 20 includes taps C and D. Tap B of first primary winding coil 18 and tap C of second primary winding coil 20 are connected together to thereby electrically connect primary winding coils 18 and 20 and form primary winding 12. Tap A of first primary winding coil 18 represents the start tap of primary winding 12. Tap D of second primary winding coil 20 represents the end tap of primary winding 12.
Similarly, first secondary winding coil 22 includes taps A′ and B′; second secondary winding coil 24 includes taps C′ and D′; and third secondary winding coil 26 includes taps E′ and F′. Tap B′ of first secondary winding coil 22 and tap C′ of second secondary winding coil 24 are connected together to thereby electrically connect secondary winding coils 22 and 24. Tap D′ of second secondary winding coil 24 and tap E′ of third secondary winding coil 26 are connected together to thereby electrically connect secondary winding coils 24 and 26. Secondary winding coils 22, 24, and 26 electrically connected together form secondary winding 14. Tap A′ of first secondary winding coil 22 represents the start tap of secondary winding 14. Tap F′ of first secondary winding coil 22 represents the end tap of secondary winding 14.
Winding coils 18, 20, 22, 24, and 26 are flat, or planar, so that planar transformer 10 is a “planar” transformer. The winding coils are formed by respective packets of planar components.
As indicated in
Referring now to
A conductor plate is one winding turn of a winding coil. Thus, a packet having three conductor plates forms a winding coil having three winding turns; a packet having seven conductor plates forms a winding coil having seven winding turns; etc. The conductor plates in a packet are physically connected (e.g., soldered) together at designated connection areas to establish electrical continuity from one conductor plate to the next. Accordingly, a first winding turn formed by a first conductor plate is electrically connected to a second winding turn formed by a second conductor plate at the location where the first winding turn transitions into the second winding turn.
Packets 28, 30, 32, 34, and 36 further include insulator sheets. In the packets, pairs of insulator sheets sandwich corresponding ones of the conductor plates. The insulator sheets insulate the conductor plates from one another except at the designated connection areas of the conductor plates. The insulator sheets do not prevent the conductor plates from being electrically connected together at the designated connection areas, but otherwise prevent the conductor plates from being electrically connected together such that the conductor plates are not inadvertently shorted together. This is analogous to wire loops of an insulated-covered winding coil being contiguously connected without being inadvertently shorted together. The insulator sheets have a planar shape corresponding to the planar area of the conductor plates. In an embodiment, the insulator sheets are made of Nomex® insulation. The conductor plates may alternatively be insulated from one another via an insulating coating, such as a varnish, applied to the conductor plates.
First secondary winding coil 22 has four winding turns as first packet 28 includes four conductor plates. Conductor plates 38, 40, and 42 are full planar copper stamped conductor plates having the same planar profile and rectangular perimeter configuration. Conductor plates 38, 40, and 42 include a circular-shaped hole 44 in a central region of the rectangular area of the conductor plates.
Terminal conductor plate 38 includes a terminal tab 46. With reference to
Terminal conductor plate 38 includes a radial channel 50. Radial channel 50 runs radially between the perimeter and hole 44 of terminal conductor plate 38. Radial channel 50 functions to interrupt electrical continuity between a first portion 52 and a second portion 54 of terminal conductor plate 38 adjacent the radial channel. First portion 52 is adjacent terminal tab 46, which is the start point of first secondary winding coil 22. As such, first portion 52 corresponds to a start point of a wire turn and second portion 54 corresponds to an end point of the wire turn.
Terminal conductor plate 38 further includes an axial channel 56 (labeled in
Common conductor plate 40 includes a serpentine channel 62. Serpentine channel 62 runs in a serpentine pattern between the perimeter and hole 44 of common conductor plate 40. Serpentine channel 62 functions to interrupt electrical continuity between a first portion 64 and a second portion 66 of common conductor plate 40 adjacent serpentine channel 62. First portion 64 of common conductor plate 40 corresponds to one of a start or end point of a wire turn. Second portion 66 of common conductor plate 40 corresponds to the other one of a start or end point of a wire turn.
Serpentine channel 62 further functions to physically form a first connection area 68 in first portion 64 of common conductor plate 40 and a second connection area 70 in second portion 66 of the common conductor plate. Connection areas 68 and 70 are opposite one another on respective sides of an axial running portion of serpentine channel 62. First connection area 68 provides an area of first portion 64 (e.g., the start point) of common conductor plate 40 for being soldered to another conductor plate. In this way, common conductor plate 40 and the other conductor plate can be electrically connected together at first portion 64 (e.g., the start point) of the common conductor plate. Likewise, second connection area 70 provides an area of second portion 66 (e.g., the end point) of common conductor plate 40 for being soldered to another conductor plate. In this way, common conductor plate 40 and the other conductor plate can be electrically connected together at second portion 66 (e.g., the end point) of the common conductor plate.
The two common conductor plates 40 of first packet 28, along with common conductor plates 40 of packets 30, 32, 34, and 36 respectively shown in
As a result, the connection area of the end point of a first common conductor plate aligns with the connection area of the start point of a second common conductor plate; the connection area of the end point of the second common conductor plate aligns with the connection area of the start point of a third common conductor plate; etc.
For instance, in first packet 28 shown in
Further, first common conductor plate 40a and terminal conductor plate 38 are to be electrically connected together. First portion 64 of first common conductor plate 40a is a start point of first common conductor plate 40a and second portion 54 of terminal conductor plate 38 is an end point of the terminal conductor plate. Conductor plates 40a and 38 are to be electrically connected together at connection area 68 of first portion 64 of first common conductor plate 40a (i.e., the start point of first common conductor plate 40a) and second portion 54 of terminal conductor plate 38 (i.e., the end point of terminal conductor plate 38). Connection area 68 of first common conductor plate 40a and connection area 58 of terminal conductor plate 38 are aligned with one another. Accordingly, connection area 68 of first common conductor plate 40a and connection area 58 of terminal conductor plate 38 can be soldered together to thereby electrically connect the start point of first common conductor plate 40a and the end point of terminal conductor plate 38.
The significance of second portion 54 of terminal conductor plate 38 having two separate connection areas 58 and 60 in second portion 54 of the terminal conductor plate will now be described in greater detail. As described above, connection area 68 of first portion 64 (i.e., the start point) of first common conductor plate 40a and connection area 58 of second portion 54 (i.e., the end point) of terminal conductor plate 38 are aligned with one another for being soldered together. However, if first common conductor plate 40a was flipped over to have the arrangement of second common conductor plate 40b, then second portion 66 would be the start point of first common conductor plate 40a. As such, connection area 70 of second portion 66 (i.e., the start point) of first common conductor plate 40a is to be electrically connected to second portion 54 (i.e., the end point) of terminal conductor plate 38. Terminal conductor plate 38 having two separate connection areas 58 and 60 in second portion 54 enables this electrical connection as connection area 70 of second portion 66 of first common conductor plate 40a and connection area 60 (instead of connection area 58) of second portion 54 of terminal conductor plate 38 are aligned with one another.
Tab conductor plate 42 includes a (bending) tab 72. With reference to
Tab conductor plate 42 includes a serpentine channel 73. Serpentine channel 73 runs in a serpentine pattern between the perimeter and hole 44 of tab conductor plate 42. Serpentine channel 73 functions to interrupt electrical continuity between a first portion 74 and a second portion 76 of tab conductor plate 42 adjacent serpentine channel 73. Second portion 76 of tab conductor plate 42 is adjacent tab 73, which is the end point of first secondary winding coil 18. As such, first portion 74 of tab conductor plate 42 corresponds to a start point of a wire turn and second portion 76 corresponds to an end point of the wire turn. Serpentine channel 73 further functions to physically form a connection area 78 in first portion 74 of tab conductor plate 42 which is to serve as a designated connection areas for being soldered to another conductor plate.
Tab conductor plate 42 and a common conductor plate 40 are to be electrically connected together. In particular, in first packet 28, the start point of tab conductor plate 42 and the end point of second common conductor plate 40b are to be soldered together. Connection area 78 provides an area of first portion 74 (i.e., the start point) of tab conductor plate 42 for being soldered to the end point of second common conductor plate 40b. The end point of second common conductor plate 40b is first portion 64 of second common conductor plate 40a. Connection area 78 of first portion 74 of tab conductor plate 42 and connection area 68 of first portion 64 of second conductor plate 40b are aligned with one another. Accordingly, connection area 78 of tab conductor plate 42 and connection area 68 of second common conductor plate 40b can be soldered together to thereby electrically connect the start point of tab conductor plate 42 and the end point of second common conductor plate 40b.
As indicated above, packets 28, 30, 32, 34, and 36 further include insulator sheets. In the packets, pairs of stacked insulator sheets sandwich corresponding ones of the stacked conductor plates. The insulator sheets insulate the conductor plates from one another except at the designated connection areas of the conductor plates. The insulator sheets do not prevent the conductor plates from being electrically connected together at the designated connection areas, but otherwise prevent the conductor plates from being electrically connected together such that the conductor plates are not inadvertently shorted together.
As shown in
In first packet 28, a first insulator sheet 84 having a radially-in positioned window 86 is positioned between terminal conductor plate 38 and first common conductor plate 40a. Window 86 aligns with connection area 58 of first portion 56 (the end point) of terminal conductor plate 38 and connection area 68 of first portion 64 (the start point) of first common conductor plate 40a. Otherwise, first insulator sheet 84 insulates terminal conductor plate 38 and first common conductor plate 40a from one another. As such, the end point of terminal conductor plate 38 and the start point of first common conductor plate 40a can be soldered together while the remaining entirety of terminal conductor plate 38 and first common conductor plate 40a are insulated from one another to thereby prevent any inadvertent shorting thereof.
Similarly, a second insulator sheet 84 having a radially-in positioned window 86 is positioned between tab conductor plate 42 and second common conductor plate 40b. Window 86 aligns with connection area 78 (the start point) of tab conductor plate 42 and connection area 68 of first portion 64 (the end point) of second common conductor plate 40b. Otherwise, second insulator sheet 84 insulates tab conductor plate 42 and second common conductor plate 40b from one another. As such, the start point of tab conductor plate 42 and the end point of second common conductor plate 40b can be soldered together while the remaining entirety of tab conductor plate 42 and second common conductor plate 40b are insulated from one another to thereby prevent any inadvertent shorting thereof.
Further in packet 28 an insulator sheet 88 having a radially-out positioned window 90 is positioned between common conductor plates 40a and 40b. Window 90 aligns with connection area 70 of second portion 66 (the end point) of first common conductor plate 40a and connection area 70 of second portion 66 (the start point) of second common conductor plate 40b. Otherwise, insulator sheet 88 insulates common conductor plates 40a and 40b from one another. As such, the end point of first common conductor plate 40a and the start point of second common conductor plate 40b can be soldered together while the remaining entirety of the common conductor plates are insulated from one another to thereby prevent any inadvertent shorting thereof.
With continual reference to
Turning initially to secondary winding 14, as described, first packet 28 includes two common conductor plates 40 between a terminal conductor plate 38 and a tab conductor plate 42 in which terminal tab 46 of the terminal conductor plate corresponds to tap A′ of first secondary winding coil 22 and tab 72 of the tab conductor plate corresponds to tap B′ of first secondary winding coil 22 (
As noted, terminal tab 46 of terminal conductor plate 38 of fifth packet 36 corresponds to tap F′ of third secondary winding coil 26. Tap F′ is an end point of third secondary winding coil 26, which is the end tap of secondary winding 14. Terminal tab 46 of terminal conductor plate 38 of third packet 36 is associated with a second terminal 48b. Second terminal 48b is to be physically connected to terminal tab 46 of terminal conductor plate 38 of third packet 36.
First secondary winding coil 22 formed by first packet 28 and second secondary winding coil 24 formed by second packet 32 are to be electrically connected together and second secondary winding coil 24 formed by the second packet and third secondary winding coil 26 formed by third packet 32 are to be electrically connected together to form secondary winding 14. In particular, tap B′ of first packet 28 and tap C′ of third packet 32 and tap D′ of third packet 32 and tap E′ of fifth packet 36 are to be electrically connected together to form secondary winding 14. In the assembled planar transformer 10, tab 72 (tap B′) of first packet 28 and tab 72 (tap C′) of third packet 32 are pushed towards each other to meet together and are then soldered together to establish an electrical connection; and tab 72 (tap D′) of third packet 32 and tab 72 (tap E′) of fifth packet 36 are pushed towards each other to meet together and are then soldered together to establish an electrical connection. As a result, packets 28, 32, and 36 respectively forming secondary winding coils 22, 24, and 26 are connected to thereby form secondary winding 14.
A load (not shown) is connected to secondary winding 14 by connecting to terminal 48a connected to terminal tab 46 (tap A′) of terminal conductor plate 38 of first packet 28 and by connecting to second terminal 48b connected to terminal tab 46 (tap E′) of terminal conductor plate 38 of fifth packet 36.
Turning now to primary winding 12, second packet 30 includes two common conductor plates 40 between a terminal conductor plate 38 and a tab conductor plate 42 in which terminal tab 46 of the terminal conductor plate corresponds to tap A of first primary winding coil 18 and tab 72 of the tab conductor plate corresponds to tap B of first primary winding coil 18 (
As noted, terminal tab 46 of terminal conductor plate 38 of second packet 30 corresponds to tap A of first primary winding coil 18, which is the start point of primary winding 12. Terminal tab 46 of terminal conductor plate 38 of second packet 30 is associated with a third terminal 48c. Third terminal 48c is to be physically connected to terminal tab 46 of terminal conductor plate 38 of second packet 30. Terminal tab 46 of terminal conductor plate 38 of fourth packet 34 corresponds to tap D of second primary winding coil 20, which is the end tap of primary winding 12. Terminal tab 46 of terminal conductor plate 38 of second packet 34 is associated with a fourth terminal 48d. Fourth terminal 48d is to be physically connected to terminal tab 46 of terminal conductor plate 38 of fourth packet 34.
First primary winding coil 18 formed by second packet 30 and second primary winding coil 20 formed by fourth packet 34 are to be electrically connected together to form primary winding 12. In particular, tap B of second packet 30 and tap C of fourth packet 34 are to be electrically connected together to form primary winding 12. In the assembled planar transformer 10, tab 72 (tap B) of second packet 34 and tab 72 (tap C) of fourth packet 34 are pushed towards each other to meet together and are then soldered together to establish an electrical connection. As a result, packets 30 and 34 respectively forming primary winding coils 18 and 20 are connected to thereby form primary winding 12.
A source (not shown) is connected to primary winding 12 by connecting to third terminal 48c connected to terminal tab 46 (tap A) of terminal conductor plate 38 of second packet 30 and to fourth terminal 48b connected to terminal tab 46 (tap D) of terminal conductor plate 38 of fourth packet 34.
As indicated in
Planar transformer 10 further includes a pair of magnetic core members 100a and 100b placed around the stacked components. Magnetic core members 100a and 100b include a central arm having magnetic core 16 which extends through holes 44 and 92 in the central region of the rectangular area of the packets and insulator sheets. As shown in
Planar transformer 10 as described herein is suitable for high-voltage (e.g., 7 kW) applications including high-voltage battery charger applications. The use of conductor plates corresponding to winding coil turns enables planar transformer 10 to be used in such high-voltage applications.
While exemplary embodiments are described above, it is not intended that these embodiments describe all possible forms of the present invention. Rather, the words used in the specification are words of description rather than limitation, and it is understood that various changes may be made without departing from the spirit and scope of the present invention. Additionally, the features of various implementing embodiments may be combined to form further embodiments of the present invention.