TWM556916U - Transformer structure - Google Patents

Abstract

A transformer structure comprising a core and a coil composed of a first winding to a fourth winding, the core having a first flange, a second flange and an intermediate flange, the first flange being respectively provided The first terminal electrode and the second terminal electrode are respectively disposed on the second flange, and the first center tap and the second center tap are respectively disposed on the intermediate flange, first The winding is respectively connected to the first terminal electrode and the first center tap, the second winding is respectively connected to the first center tap and the third terminal electrode, and the third winding is respectively connected to the second terminal electrode and the second center tap, the fourth winding The second center tap and the fourth terminal electrode are respectively connected, whereby the present invention can significantly increase the voltage withstand voltage of the transformer, thereby having better high voltage resistance.

Description

Transformer structure

This creation is about a transformer structure.

According to the first figure, a conventional transformer structure is provided, which is provided with a pair of primary side terminal electrodes on a first flange 10 on one side of a drum core (primary- Side terminal electrodes 12a, 12b and a secondary-side center tap 12c, and a pair of secondary side terminal electrodes 13a, 13b and a primary side center tap 13c on the second flange 11 on the other side In addition, the pair of coils of the transformer is composed of four windings C1 to C4, wherein the windings C1 and C2 constitute a primary side coil, and the windings C3 and C4 constitute a secondary side coil, and the two ends of the winding C1 are respectively The primary side terminal electrode 12a and the primary side center tap 13c are connected, and the two ends of the winding C2 are respectively connected to the primary side terminal electrode 12b and the primary side center tap 13c, and the two ends of the winding C3 are respectively connected to the secondary side center tap 12c and the secondary The side terminal electrode 13b and the both ends of the winding C4 are connected to the secondary side center tap 12c and the secondary side terminal electrode 13a, respectively.

Referring to the first figure, the distance between the primary side terminal electrode 12b and the secondary side center tap 12c is the distance between the primary side coil and the secondary side coil of the conventional transformer. It is obviously smaller than the length of the first flange 10, so that under the premise that the size of the transformer is fixed, the pressure safety distance (also known as Hi-Pot safety distance, wherein Hi-Pot is a shorthand for High Potential) ) obviously smaller, resulting in higher voltage resistance characteristics of the transformer difference. In addition, the same problem exists in the transformer structure disclosed in the Republic of China Patent No. M531040.

Therefore, how to improve the above-mentioned deficiencies is the technical difficulty that the creators of this case want to solve.

In view of the above-mentioned deficiencies of conventional transformers, the purpose of this creation is to develop a transformer having better high voltage resistance.

In order to achieve the above object, the present invention provides a transformer structure including: an iron core having a winding portion and a pair of first flanges and second flanges respectively connected to the ends of the winding portion a first terminal electrode and a second terminal electrode are respectively disposed on two sides of the top surface of the first flange, and a third terminal electrode and a first portion are respectively disposed in the same direction on both sides of the top surface of the second flange a four-terminal electrode, the iron core extending to the periphery of the winding portion to form a middle flange, the top surface of the intermediate flange is respectively provided with a first center tap and a second center tap in the same direction a first winding, the first winding is wound around the winding portion, and the first end and the second end of the first winding are respectively connected to the first terminal electrode and the first center tap; a second winding, the second winding is wound around the winding portion, and the first end and the second end of the second winding are respectively connected to the first center tap and the third terminal electrode; Winding, the third winding is wound around the winding portion, and the third winding is first The second end is connected to the second terminal electrode and the second center tap; a fourth winding, the fourth winding is wound around the winding portion, and the first end of the fourth winding is The two ends are respectively connected to the second center tap and the fourth terminal electrode.

Wherein, the cover plate further includes a cover plate, and the cover plate and the iron core respectively have the convex portion The bottom surface of the edge is combined and fixed.

The winding direction of the first winding and the second winding is the same as the winding direction of the third winding and the fourth winding.

The winding direction of the first winding and the second winding is opposite to the winding direction of the third winding and the fourth winding.

With the above structure, the creation can significantly increase the voltage withstand voltage of the transformer, and thus can have better high-voltage resistance characteristics, thereby greatly improving the practicality of the creation.

10‧‧‧First flange

11‧‧‧second flange

12a‧‧‧Primary terminal electrode

12b‧‧‧primary terminal electrode

12c‧‧‧Secondary center tap

13a‧‧‧Secondary terminal electrode

13b‧‧‧Secondary terminal electrode

13c‧‧‧primary side center tap

3‧‧‧ iron core

31‧‧‧Winding Department

32‧‧‧First flange

33‧‧‧second flange

34‧‧‧Intermediate flange

51‧‧‧First terminal electrode

52‧‧‧second terminal electrode

53‧‧‧ Third terminal electrode

54‧‧‧fourth terminal electrode

55‧‧‧First Center Tap

56‧‧‧second center tap

6‧‧‧ Cover

C1~C4‧‧‧ winding

S1‧‧‧First winding

S2‧‧‧second winding

S3‧‧‧ third winding

S4‧‧‧fourth winding

S1a~S4a‧‧‧ first end

S1b~S4b‧‧‧ second end

The first figure is a schematic diagram of the structure of a conventional transformer.

The second figure is a perspective view of one embodiment of the present creation.

The third figure is a top plan view of one embodiment of the present creation.

The fourth figure is an equivalent circuit diagram of one embodiment of the present creation.

The fifth drawing is a perspective view of the second embodiment of the present creation.

Please refer to the second and third figures, which are respectively a perspective view and a top view of an embodiment of the transformer structure of the present invention. The transformer structure comprises: an iron core 3 having a winding portion 31 and a pair of first flanges 32 and second flanges 33 respectively connected to the two ends of the winding portion 31, and a first terminal electrode 51 and a second terminal are respectively disposed on two sides of the top surface of the first flange 32 A third terminal electrode 53 and a fourth terminal electrode 54 are respectively disposed in the same direction on both sides of the top surface of the second flange 33. Further, the core 3 is located at an intermediate position of the winding portion 31. The outer periphery is formed with an intermediate flange 34, the top of which is 34 A first center tap 55 and a second center tap 56 are respectively disposed on the two sides of the surface in the same direction, wherein each of the terminal electrodes and each of the center taps may be a conductive silver paste; a first winding S1, The first winding S1 is wound around the winding portion 31 of the core 3, and the first end S1a and the second end S1b of the first winding S1 are respectively connected to the first terminal electrode 51 and the first a center winding 55; a second winding S2, the second winding S2 is wound around the winding portion 31 of the core 3, and the first end S2a and the second end S2b of the second winding S2 are respectively connected to The first center tap 55 and the third terminal electrode 53; a third winding S3, the third winding S3 is wound around the winding portion 31 of the core 3, and the third winding S3 The one end S3a and the second end S3b are respectively connected to the second terminal electrode 52 and the second center tap 56; a fourth winding S4, and the fourth winding S4 is wound around the winding portion of the iron core 3. 31, and the first end S4a and the second end S4b of the fourth winding S4 are respectively connected to the second center tap 56 and the fourth terminal electrode 54; please refer to the transformer shown in the fourth figure An equivalent circuit diagram of an embodiment, for the present invention, the first winding S1 and the second winding S2 constitute a primary side coil of the transformer, and the third winding S3 and the fourth winding S4 constitute a transformer second a secondary side coil, the first terminal electrode 51 and the third terminal electrode 53 forming two input ends on the primary side, and the second terminal electrode 52 and the fourth terminal electrode 54 constitute two output ends on the secondary side, The first center tap 55 and the second center tap 56 are respectively used as center taps of the primary side and the secondary side; in addition, it can be mentioned that, when actually performing the winding work, as a transformer If the first winding S1 and the second winding S2 of the primary winding are wound in a first winding direction (forward), the third winding S3 and the fourth winding as the secondary winding of the transformer S4 may be wound in the first winding direction, or the third winding S3 and the fourth winding S4 may be opposite to the second winding direction of the first winding direction (ie, reverse direction). Winding; Referring to the second and third figures, with the above structure, the distance between the primary side coil and the secondary side coil of the transformer of the present invention is the first center tap 55 to the second center tap 56. The distance is equivalent to the length of the entire intermediate flange 34. Thus, compared with the conventional transformer, the creation can significantly increase the voltage withstand voltage of the transformer under the condition that the size of the transformer is fixed. The distance can thus have better high-pressure resistance, which can greatly improve the practicality of the creation.

Referring to FIG. 5, a perspective view of a second embodiment of the transformer structure of the present invention is further illustrated, which further includes a cover plate 6 and the cover plate 6 and the flange of the iron core 3 respectively. That is, the first flange 32 and the second flange 33 are combined with the bottom surface of the intermediate flange 34) to be fixed (for example, adhered), thereby enabling the creation to have a higher sense value and being convenient for the SMT device. The suction piece is installed to make the creation more practical.

Claims (4)

A transformer structure comprising: an iron core having a winding portion and a pair of first flanges and second flanges respectively connected to opposite ends of the winding portion, the top surface of the first flange a first terminal electrode and a second terminal electrode are respectively disposed on the side, and a third terminal electrode and a fourth terminal electrode are respectively disposed in the same direction on both sides of the top surface of the second flange, and the core is wound An intermediate flange is formed on the periphery of the intermediate portion, and a first center tap and a second center tap are respectively disposed in the same direction on both sides of the top surface of the intermediate flange; a first winding, the first Winding is wound around the winding portion, and the first end and the second end of the first winding are respectively connected to the first terminal electrode and the first center tap; a second winding, the second winding Winding on the winding portion, and the first end and the second end of the second winding are respectively connected to the first center tap and the third terminal electrode; a third winding, the third winding is wound In the winding portion, and the first end and the second end of the third winding are respectively connected to the second terminal a pole and the second center tap; a fourth winding, the fourth winding is wound around the winding portion, and the first end and the second end of the fourth winding are respectively connected to the second center tap The fourth terminal electrode. The transformer structure of claim 1, further comprising a cover plate, and the cover plate is respectively fixedly coupled with the bottom surface of each of the flanges of the iron core. The transformer structure of claim 1, wherein a winding direction of the first winding and the second winding is the same as a winding direction of the third winding and the fourth winding. The transformer structure of claim 1, wherein a winding direction of the first winding and the second winding is opposite to a winding direction of the third winding and the fourth winding.