TW200917576A - Plug means, plug connector, and method of manufacturing plug means - Google Patents

Abstract

This invention concerns a plug means with a printed circuit board and a plug connector, in which the plug connector is soldered plane on the printed circuit board. This invention concerns also a plug connector and method of manufacturing plug means.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plug-in means, a plug connector, and a method of manufacturing a plug-in means. [Prior Art] A flat socket 'cable is known to have a winding socket thereon. A disadvantage of such a socket is that it produces a relatively high inductance when connected with a high current. SUMMARY OF THE INVENTION An object of the present invention is to solve the above disadvantages and to provide a plugging means capable of effectively forming a strong current connection. This can be achieved by means of a plug-in with the characteristics of an independent patent application. The content of the affiliated patent application is a further improvement of the invention. The plug-in means proposed by the present invention comprises a printed circuit board and a plug connector, wherein the plug connector is soldered to the printed circuit board in a planar manner. The plug connector is at least partially soldered to the printed circuit board in a planar manner. Via the planar connection, the plug connector can at least make contact with a conductive line of the printed circuit board, thus achieving a low inductance. According to a further development, the printed circuit board has at least one electrically conductive line that is in contact with the plug connector. According to another modification, the printed circuit board has two electrically conductive lines disposed at least partially on different sides of the printed circuit board. In particular, conductive lines of appropriate width can further reduce leakage inductance between the conductive lines 200917576. According to another modification, the printed circuit board is a flexible printed circuit board, especially a circuit board or a flexible printed circuit board. It is preferable to make the printed circuit board into a flexible printed circuit board. In particular, the printed circuit board can have a plurality of plug connectors that are soldered to the printed circuit board in a planar manner. Preferably, the plug connectors can be contacted via a plurality of electrically conductive lines of the printed circuit board. Alternatively, the plug connector has a plurality of contacts that are not electrically connected to each other and has a contact therein. The contacts are contacted via at least one electrically conductive line of the printed circuit board. In particular, at least one of the contacts can be electrically inactive, for example at least one of the contacts is used as an auxiliary guide or codec. According to a further development, the printed circuit board has at least two lines connected to at least one plug connector. In addition, the 'plug connector' can be a flat socket. According to one embodiment, the plug connector has a brake or a brake release. For example, a flat socket can be made using the FASTON principle. Another advantageous embodiment is to solder the plug connector to the printed circuit board by reflow soldering. According to another modification, the plug connector has a stop structure that ensures that the position of the plug connector does not move on the printed circuit board. The purpose of using this stop structure is to fix the position of the plug connector before soldering to prevent the plug connector from slipping during the soldering process (the process of reflow soldering). 200917576 According to another modification, the stop structure has a recess, a projection, or a notch. An advantageous embodiment is that the plug connector is a surface mount plug connector or has a surface mountable construction. According to one construction, the plug connector is a high current plug connector. In particular, the plug connector can be applied to currents above 2.5A. According to another configuration, the printed circuit board is soldered to the second printed circuit board. The second printed circuit board is preferably a rigid circuit board (non-flexible circuit board). The second printed circuit board can also be a circuit board having a plurality of layers, wherein the printed circuit board is soldered to the intermediate layer of the second printed circuit board. Another possible way is to connect the second printed circuit board to a piece of flexible printed circuit board, for example the flexible printed circuit board protrudes beyond the second printed circuit board. Another construction option is to use a single connector to bring together multiple plug connectors. For example, the connector can be a plastic connector. Another improvement is to place a plug connector on both sides of the printed circuit board. It is preferable to have conductive lines on both the front and back sides of the board, especially in pairs of conductive lines, as this allows for lower inductance. Moreover, the present invention also includes a plug connector having at least one plane for soldering on a printed circuit board. Another improvement is that the 'plug connector has at least one stop structure'. The plug connector can be attached to the printed circuit board by means of the stop structure. The plug connector preferably has a surface mountable construction. 200917576 furthermore, the invention also comprises a method of manufacturing a plug-in means, the method having the following steps: - placing at least one plug connector on a printed circuit board; - at least one plug connector The printed circuit boards are soldered together. According to a further development, the at least one plug connector is a surface mount plug connector. According to another modification, the at least one plug connector is soldered to the printed circuit board in a reflow manner. According to another modification, the at least one plug connector is secured to the printed circuit board by a stop structure. According to one configuration, the printed circuit board is a flexible printed circuit board, especially a flexible printed circuit board. The embodiments of the present invention will be described below in conjunction with the drawings. [Embodiment] Fig. 1 shows a front view of a plug connector (101) soldered to a printed circuit board (102). The curved regions (105, 106) are used to form a contact with a mating member (not shown in Fig. 1) that conforms to the shape. A plane (103) of the plug connector (101) is soldered to the printed circuit board (102), and a cross section of the plane (1〇3) is shown in the front view of Fig. 1. The printed circuit board (102) has at least one conductive line connected to the flat solder portion (1〇3). Further, the printed circuit board (1 υ · 2) is preferably a 4-bend printed circuit board, especially a flexible printed circuit board, such that the plug connector (101) can be connected via the printed circuit board (102). Mating parts (such as plug pieces) are connected. The 200917576 plug connector (101) is preferably a surface mount plug connector. Figure 2 shows a perspective view of the plug connector (101) and the printed circuit board (102). According to this embodiment, a plurality of adjacently arranged plug connectors can be provided. The flexible printed circuit board (102) extends in the direction (107) so that a cable-like connection can be formed via a combination of the plug connector (110) and the printed circuit board (102). This solution is particularly suitable as a means of insertion, for example by inserting such a plug-in means into an existing plug piece (for example a 6.3 mm-sized plug piece). The plug connector (101) can be connected to the plug piece or inserted into the plug piece. In particular, the plug tabs can be inserted in a vertical or horizontal manner with a center distance of 10 mm for adjacent plug tabs. For example, the plug connector (101) is a flat socket having a surface mountable construction. The plug connector (110) is soldered directly to the printed circuit board (102) in a planar manner, for example, the printed circuit board (102) is a single circuit board or a flexible printed circuit board. It is preferable to carry out the welding by the reflow method. Figure 3 shows the bottom of the plug connector (101). The bottom of the plug connector (101) has a stop structure (104), such as a stop structure that is formed as a small projection, groove, or notch. The action of the stop structure (104) secures the plug connector (101) to the printed circuit board (102) to prevent positional movement of the plug connector (101) due to flux melting and expansion of the plug connector (101). . Another possible way is to make the plug connector (1 0 1 ) with the so-called FASTON principle to reduce the effect on the flat soldering part (丨03) when inserting and releasing the plug connector (1 〇1). Force. It is also possible to solder the plug connector (101) to a general printed circuit board (102) (PCB: Printed Circuit Board). In addition, multiple plug-in 200917576 connection benefits can be arranged together. In particular, a plurality of plug connectors or flat sockets can be brought together by a plastic connector to simplify the setting and/or positioning of the plug connector or the flat socket. The plug-in means and plug connector of the present invention, which is composed of a plug connector and a printed circuit board, are suitable for a strong current connection, especially a current of 2.5 A or more. [Simple Schematic Description] Figure 1: Front view of a plug connector and a printed circuit board. Figure 2: Perspective view of the plug connector and printed circuit board. Figure 3: The bottom of the plug connector. [Main component symbol description] 10 1 Plug connector 102 Printed circuit board 103 Plane/welding part 104 Stop structure 105, 106 Bending area 107 Direction -10-

Claims (1)

200917576 X. Patent application scope: 1. A kind of plugging means with: - Printed circuit board; a plug connector that is soldered flat on a printed circuit board. 2. The plug-in means of claim 1, wherein the printed circuit board has at least a conductive line that is in contact with the plug connector. 3. The plug-in means of claim 2, wherein the printed circuit board has two conductive lines at least partially disposed on different sides of the printed circuit board. 4. A plug-in device according to any one of the preceding claims, characterized in that the printed circuit board is a flexible printed circuit board, in particular a circuit board or a flexible printed circuit board. A plug-in device according to any one of the preceding claims, characterized in that the printed circuit board has at least two electrically conductive lines connected to at least one of the plug connectors. 6. The plugging device of any of the preceding claims, wherein: the plug connector is a flat socket. The plug-in means according to any one of the preceding claims, characterized in that the plug connector has a brake or a brake releaser. The plug-in means according to any one of the preceding claims, characterized in that the plug connector is soldered to the printed circuit board by reflow soldering. A plug-in device according to any one of the preceding claims, wherein the plug connector has a stop structure capable of ensuring that the position of the plug connector does not move on the printed circuit board. 1 0. The plugging device of claim 9, wherein the stop -11 - 200917576 structure has a groove, a protrusion, or a notch. The plug-in means of any one of the preceding claims is characterized in that: the plug connector is a surface mount plug connector. 12. The plug-in means of any of the preceding claims, wherein: the plug connector is a high current plug connector. A plugging device according to any one of the preceding claims, characterized in that the plug connector can be applied to a current of 2.5 A or more. A plugging device according to any one of the preceding claims, wherein the printed circuit board is soldered to the second printed circuit board. A plugging device according to any one of the preceding claims, characterized in that a plurality of plug connectors are assembled together by means of a connector. A plugging device according to claim 15 of the patent application, characterized in that the connecting member is a plastic connecting member. A plug-in means according to any one of the preceding claims, characterized in that: a plurality of plug connectors are provided on both sides of the printed circuit board. 18. A plug connector having: - at least one plane for soldering on a printed circuit board. A plug connector according to claim 18, characterized in that it has at least one stop structure whereby the plug connector can be fixed to the printed circuit board. 2 0. The plug connector of claim i or 8 or 9 is characterized in that the plug connector has a surface mountable construction. 2 1 . A method of manufacturing a plug-in device, comprising the steps of: - placing at least one plug connector on a printed circuit board; - soldering the at least one plug connector to the printed circuit board From 1-12 to 200917576. 2 2. The method of claim 21, wherein the plug connector is a surface mount plug connector. 23. The method of claim 2, wherein the at least one plug connector is soldered to the printed circuit board by reflow. The method of any one of claims 21 to 23, wherein the at least one plug connector is fixed to the printed circuit board by a stop structure. A method according to any one of claims 21 to 24, characterized in that the printed circuit board is a flexible printed circuit board, in particular a flexible printed circuit board. -13 -