JPH11514485A - Modular jack assembly with filter and method of use - Google Patents

Abstract

A modular jack assembly with a filter having an outer insulating housing having front and rear open ends. A ferrite member (72) having vertical conductive wires (86, 88) is positioned proximate the rear end and a long insulating insert (94) is overlaid on the ferrite member. The insulative insert is secured to the housing, and the conductive wire extends vertically from the ferrite member, over the top of the insert, to the terminal end, and is further bent downward and backward on the upper surface of the inner intermediate wall in the housing. Placed on A method of assembling a jack having noise removal capability is also disclosed.

Description

DETAILED DESCRIPTION OF THE INVENTION Modular Jack Assembly with Filter and Method of Use Background of the Invention FIELD OF THE INVENTION The present invention relates to electrical connectors, and more particularly, to electrical connectors having noise filter means therein. 2. Brief Description of the Prior Art : Various types of filters are used in electrical equipment containing modular jacks to reduce or eliminate noise. Such filters include three terminal capacitors or common mode choke coils. The disadvantage of using such a filter is that it complicates the manufacture of the circuit board. Therefore, it has been recognized that there is a need to provide a simple means of removing noise within a modular jack. To this end, the use of an integrated ferrite member has been proposed in Japanese Patent Publication No. 64-2273. This publication discloses a modular jack in which a modular insert is introduced into a casing. The body of the insert is formed of ferrite, and an insert hole for guiding a connection line connected to each contact strip is formed on one side of the insert body. While the above publication appears to simplify the apparatus for removing noise in modular jacks, it is necessary to make such modular jacks with integral ferrite members more compact. SUMMARY OF THE INVENTION The modular jack of the present invention includes an outer insulating housing. An inner intermediate wall projects upward from the bottom wall of the housing. The housing has open front and rear ends, and the ferrite member covers a part of the rear end of the opening and is arranged to face the inner middle wall. A long insulating insert is positioned beyond the top end of the ferrite member and extends inside the housing. A conductive wire extends upward through a hole in the ferrite member and further extends through an axially aligned hole in the insulating insert. These conductive wires extend laterally in grooves in the upper surface of the insulating insert, bend downward and rearward at the terminal ends of the insulating insert, and rest on the upper surface of the inner intermediate wall. Opposite sides of the inner intermediate wall are provided with upper extensions that engage latches on the lower base side of the insulating insert. BRIEF DESCRIPTION OF THE DRAWINGS The modular jack with filter of the present invention will be described in more detail with reference to the accompanying drawings. Here, FIG. 1 is an end view of a preferred embodiment of the modular jack with a filter of the present invention, FIG. 2 is a sectional view taken along line II-II of FIG. 1, and FIG. FIG. 4 is a detailed view of a region surrounded by a circle III in FIG. 1, FIG. 4 is an exploded perspective view of the modular jack with a filter shown in FIG. 1, FIG. 5, FIG. 6, and FIG. FIG. 8 is a plan view, an end elevation view and a side elevation view of the ferrite member of FIG. 1, respectively. FIG. 8 is a perspective view of the ferrite member shown in FIG. 4, FIG. 5 and FIG. 9 is a sectional view similar to FIG. 2 of another embodiment of the modular jack assembly with a filter according to the present invention, and FIGS. 10, 11 and 12 are each a sectional view of FIG. FIG. 13 is a plan view, an end elevation view, and a side elevation view of the ferrite member. And 11 is a perspective view of a ferrite member shown in FIG., FIG. 14 is a sectional view taken along the line XIV-XIV of Figure 13. Referring to the detailed illustration of the preferred embodiment , the outer insulating housing is generally designated by the numeral 10. The housing includes a top wall 12, a bottom wall 14, and a pair of opposed side walls 16,18. The material forming the housing is a thermoplastic polymer having suitable insulating properties. The inner portion 20 in these walls has a rear open end 22 and a front open end 24. An intermediate wall portion generally indicated by reference numeral 26 protrudes from the bottom wall portion into the inside portion. The intermediate wall portion includes a rear side portion 28, a bottom front side portion 29, a top front side portion 32, and a recessed intermediate front side portion 31. And a sloped upper portion 32, which slopes upward and forward from the rear side toward the front side. Proximal to the side wall, the intermediate wall has lateral extensions 34, 36 which act as projections for holding other members, as described below. A plurality of wire separating extensions are provided between these lateral extensions as indicated by reference numerals 38, 40 and 42, and a plurality of slots 44 and 46 are provided between these wire separating extensions. It is formed. A pin 48 and a standoff 50 extend downward from the bottom wall. The bottom wall of the insulating housing is further provided with a front slot 52. The side wall portion 16 includes a lower shoulder portion 54, another shoulder portion 56, a lower main wall portion 58, an upper main wall portion 60, and a concave wall portion inserted between the lower and upper main wall portions. 62. It can be seen that side wall 18 is substantially the same as side wall 16. The top wall 12 includes an upper bridge 64, a lower bridge 66, a front recess 68, and a rear recess 70. A ferrite member, generally indicated at 72, abuts against the rear side of the intermediate wall, is located near the bottom wall, above a portion of the opening rear end of the insulated housing, and at a portion of the intermediate wall. In addition, since a part thereof is arranged so as to face the shoulder part 73 extending upward from the bottom wall part, it is firmly held at a predetermined position. The ferrite member includes an upper end 74, a bottom end 76, a front side 78, a rear side 80, and a plurality of vertical holes indicated by reference numerals 82 and 84. Conductive wires, indicated at 86 and 88, extend down through these holes to form leads as indicated at 90 and 92. The term "ferrite" means any of the group consisting of ferromagnetic ceramic ferromagnetic compounds containing other oxides, having a spinel crystal structure characterized by both high magnetic permeability and electrical resistivity It includes, without limitation, compounds and materials having similar magnetic and electrical characteristics used for the purpose of suppressing or eliminating noise. The insulating insert, generally designated by reference numeral 94, has a base side 96, an upper side 98, and vertical holes 100,102. The material forming the insulating insert is any suitable thermoplastic polymer having suitable insulating properties. The insulating insert has an L-shape, with its base side abutting against the upper end of the ferrite member and the holes 100, 102 are arranged in axial alignment with the holes 84, 82 of the ferrite member, respectively. Inside the housing, the insert has a terminal end 104 with a plurality of upper grooves 106, 108 on the upper side and a plurality of end grooves 110 on the terminal end. The ultrasonic welding section 111 holds the wire at a predetermined position. The insulating insert is disposed on the rear opening end and forms a recess as shown at 112. A conductive wire extends upward through holes 110 and 112, is bent, and extends horizontally in the upper groove as shown at sides 114 and 116. At the end of the groove, the wire is bent downward to form a downward and rearward extension as indicated at 118 and extends toward the rear end of the insulating housing. The terminal end 120 of the conductive wire is placed on the upper side of the intermediate wall. Further, the insulating insert is generally L-shaped, the base surface of which has a lower base surface 122 which extends inwardly toward a vertical step 124, the vertical step comprising an upper base surface. Extends vertically toward surface 126. It is clear to a person skilled in the art that this insert can be provided with a vertical groove 127, and a vertical ridge (not shown) of the housing can be snap-fitted into and engaged with the housing more firmly. is there. Further, means are provided for securing the insulating insert to the housing. In the preferred embodiment shown, this means comprises a pair of latches 128, 130 having a triangular cross section and projecting downward from the upper base surface of the insulating insert. Latch 128 has a front end 132 and a rear end 134, and latch 130 has a front end 136 and a rear end 138. These clips increase in height from the front end to the rear end, and when the insulating insert is inserted into the interior of the housing, the latches 128, 130 respectively engage the lateral extensions 34 of the intermediate wall. , 36 through the tops 140, 142. When the insert is fully inserted into the housing, its rear ends 134, 138 bear against the front sides 144, 146 of the lateral extensions 34, 36, respectively, securing the insulating insert to the housing. To further assist in securing the insulating insert to the housing, side ridges 148, 150 are provided which engage the lateral wall grooves 152, 154, respectively. Another embodiment is shown in FIGS. Referring to these figures, the outer insulating housing is indicated generally by the numeral 210. The housing has a top wall 212, a bottom wall 214, and a side wall (not shown) facing the side wall 216. The inner portion 220 inside these walls has a rear open end 222 and a front open end 224. At this inner portion, an intermediate wall portion 226 projects upwardly from the bottom wall portion, the intermediate wall portion has a rear side portion 228, a front side portion 230, and an inclined upper portion 232, and the upper portion extends from the rear side to the front side. Inclining upward and forward toward. Near the side wall, the intermediate wall has a lateral extension 234. As in the case of the assembly of the first embodiment, a plurality of wire separation extensions are provided between these lateral extensions as indicated by reference numerals 238, 240, and 242, and between these wire separation extensions. Is provided with a plurality of slots. A pin 248 and a standoff 250 extend downward from the bottom wall. A front slot 252 is also provided in the bottom wall of the insulating housing. As in the first embodiment, the side wall portion 216 has a lower shoulder portion, another shoulder portion, a lower main wall portion, an upper main wall portion, and a concave portion inserted between the upper and lower main wall portions. And a wall. The opposing side wall has substantially the same characteristics as the side wall 216. The top wall 212 has an upper bridge 264, a lower bridge 266, a front recess 268, and a rear recess 270. A ferrite member, generally designated by reference numeral 272, is disposed opposite the shoulder 273 of the bottom wall, abuts the rear side of the inner wall, and is close to the bottom wall and above the rear opening end of the insulating housing. Placed in The ferrite member has an upper end 274, a bottom end 276, a front side 278, a rear side 280, and a plurality of long vertical recesses as indicated by reference numerals 281, 282, 283, and 284. Conductive wires such as 286 and 288 extend through these holes and extend downward through connecting vertical holes such as 287 and 289 to form leads 290 and 292. One skilled in the art will appreciate that placing both wires within recess 284 will reduce common mode electromagnetic interference (EMI). The insulating insert, generally indicated at 294, includes a base side 296, an upper side 298, and vertical holes 300,302. The insulating insert is L-shaped, with the base side abutting against the upper end of the ferrite member and the holes 300, 302 being arranged in axial alignment with the recesses 284 of the ferrite member, respectively. Inside the housing, the insert has a terminal end 304, on the upper side of which are provided a plurality of end grooves, as indicated at 310. The ultrasonic welding part 311 holds the wire in the groove. The insulating insert is positioned over the rear opening such that the slot 312 has the slot 312 formed therein. Conductive wires extend upward through the holes 300, 302 and bend to extend horizontally within the upper groove, such as at the sides 314, 316. The end groove bends downward to form a lower and rearward extension extending toward the rear end of the insulative housing as shown at 318. The terminal end 320 of the conductive wire rests on the upper part of the intermediate wall. Further, the insulating insert is generally L-shaped, the base surface of which includes a lower base surface 322, which inwardly faces a vertical step 324 that extends upwardly toward an upper base surface 326. Extend. Further, means are provided for securing the insulating insert to the housing. In the preferred embodiment shown, the means comprises a pair of triangular cross-section latches, as indicated at 328, which project downwardly from the upper base surface of the insulating insert. Latch 328 has a front end 332 and a rear end 334. These latches increase in height from the front end to the rear end, and when the insulating insert is inserted into the interior of the housing, the latch designated by reference numeral 328 is at the top of the lateral extension 334 of the intermediate wall. Pass over 340. When the insert is fully inserted inside the housing, the rear end 334 supports the front side 344 of the lateral extension 234, securing the insulating insert to the housing. To further assist in securing the insulating insert to the housing, a lateral ridge (not shown) is provided which engages a respective groove (not shown) in the side wall, which is substantially similar to that shown in the first embodiment. The same is true. It will be apparent to one skilled in the art that other similar arrangements are possible for securing the insulating insert to the housing. As a non-limiting example, various types of internal retention projections can protrude from the bottom wall of the housing proximate the side wall and engage the clips on the insulating insert. It will be apparent to those skilled in the art that a method of assembling a modular jack having noise removal capability is also described. In particular, the method includes: (a) positioning a ferrite member having a top end and a bottom end and a front side and a rear side proximate a rear end of the outer insulating housing; and (b) a base side and an upper side. A long insulated insert having a rear end and a terminal end, the base end overlapping the upper end of the ferrite member, and the upper end adjacent to the upper end of the insulative housing. (C) extending vertically from the bottom end to the upper end of the ferrite member, extending from the rear base side to the upper side of the insulating insert, and the terminal of the insulating insert. Providing conductive means extending substantially horizontally at the end and extending downward and rearward toward the rear end of the insulating housing, and (d) securing the insulating insert to the insulating housing. It will be appreciated that means have been described for providing a modular jack with an integral noise elimination member. Further, it will be appreciated that means are described for making such a modular jack with a filter having an integral ferrite member more compact. In addition, although this invention was demonstrated in detail, this is only an illustration and the scope of the invention is defined by a claim.

────────────────────────────────────────────────── ─── Continuation of front page    (72) Inventor Nosy, William             Pennsylvania, United States             17319, Etters, Village Road             95 (72) Inventor Zhao, Jen             Taiwan, Tao Yuan, Phu Tho Story             To Yun Mei Town, Alley 89, Leh             N 6 29

Claims (1)

[Claims] 1. A modular jack assembly with a filter,   (A) having top and bottom walls and opposing side walls, all of which are inside An outer insulating housing defining a portion and further having a front and a rear open end;   (B) having a top and a bottom end and disposed proximate a rear end of the outer insulating housing; A ferrite member to be placed,   (C) a base and upper side, and a rear and terminal end; The upper end of the cellite member, and the upper end thereof is an insulating housing. So that its terminal end extends into the inner part of the insulated housing close to the upper part of the housing. An insulating insert to be placed,   (D) extending vertically from the bottom end to the top end of the ferrite member; From the base side of the cable to the upper part, and furthermore, almost to the terminal end of the insulating insert. Conductive, extending horizontally, and further down and rearward towards the rear end of the insulating housing Sexual means,   (E) means for securing the insulating insert to the insulating housing; A modular jack assembly comprising: 2. 2. The method of claim 1, wherein the conductive means extends below the bottom end of the ferrite member. Modular jack with filter as described. 3. From the bottom end of the ferrite member to the top end vertically, From the base side of the insulating insert to the upper part, and further to the terminal end of the insulating insert. Substantially horizontally, and further downward and rearwardly toward the rear end of the insulating housing. 3. The filter module according to claim 2, further comprising first and second substantially parallel conductive means. Hurajack assembly. 4. A substantially parallel first ferrite member extends from the bottom end toward the top end. , A second vertical hole and a ferrite extending from the base side toward the upper side. The first and second vertical holes in the insulating insert are aligned with the first and second vertical holes of the member. A first conductive means disposed within the aligned first vertical hole and a second conductive hand. 4. The modular jack according to claim 3, wherein the step is located in the second aligned vertical hole. set Three-dimensional. 5. 4. The apparatus of claim 3 further comprising a plurality of conductive means extending vertically from the base side. Modular jack assembly. 6. In the ferrite member, a plurality of almost parallel vertical holes are formed from the bottom end to the top. A plurality of substantially vertical holes extending toward the end and further through the insulating insert are formed on the base side thereof. Each of the vertical holes in the ferrite member extends from In axial alignment with one of said vertical holes in the 6. The modular jack assembly according to claim 5, wherein conductive means is disposed. 7. The first groove on the upper side of the insulating insert extends from the first vertical hole of the insulating insert to the terminal end. And the second groove on the upper side of the insulating insert is formed from the second vertical hole of the insulating insert. A first conductive means extending in the first groove and a second conductive means extending to the terminal end; 5. The modular jack assembly of claim 4, wherein said modular jack assembly extends within said second groove. 8. Each one from the vertical hole of the insulating insert to the terminal end of the insulating insert A plurality of grooves extending into the groove, one of said conductive means being located in one of these grooves The modular jack assembly of claim 6, wherein 9. An inner intermediate wall extends upwardly from the bottom wall of the insulating housing, and the intermediate wall is It has a front and rear side part and an upper part, and the terminal end of the conductive means is placed on this upper part. A modular jack assembly with a filter according to claim 1. 10. The upper part of the inner intermediate wall part is inclined upward and forward from the rear part. Item 10. A modular jack assembly with a filter according to Item 9. 11. At least one latch extends from the insulating insert and engages the insulating housing. The modular jack assembly with a filter according to claim 1, wherein the modular jack assembly has a filter. 12. If at least one of the inner insert retaining projections is outside the insulating housing; 12. The latch of claim 11, extending upwardly from the insulating insert and engaging a latch extending from the insulating insert. Modular jack assembly with filter. 13. The lateral extension of the inner intermediate wall is located close to the opposing lateral wall of the housing. Latches projecting downward from the base surface of the insulating insert, Latch engages the lateral extension to secure the insulating insert to the insulating housing A modular jack assembly with a filter according to claim 9. 14． The latch has a rear end, a front end, and a height, the height being from the front end to the rear end. The filter according to claim 13, further comprising a protrusion having a triangular cross-section that increases toward the portion. Modular jack assembly. 15. The base side of the insulating insert comprises a lower base side, the lower base side being Extending inward toward the vertical step, which extends upward relative to the upper base surface; 15. The filter of claim 14, wherein the upper base surface extends inward toward the terminal end. Modular jack assembly. 16. The latch may project downwardly from an upper base surface of the insulating insert. A modular jack assembly with a filter according to claim 1. 17． First and second inner holding projections extend from the lower wall of the housing, and Opposite first and second lateral edges disposed adjacent each of the lateral walls of the edge housing Part is provided on the insulating insert, and the first and second latches are connected to the first and second lateral inserts. Protruding downward from the insulating insert in the vicinity of the 13. The modular jack assembly with a filter according to claim 12, wherein the modular jack assembly engages with the holding projection. 18. First and second conductive means are provided, and the second conductive means and the wire separation protrusion are inclined. 11. The fan according to claim 10, which extends upward from a plane and separates said first and second conductive means. Modular jack assembly with filter. 19. Further, a plurality of conductive means are mounted on the inclined surface, and each of these conductive means is The wire separation protrusions extend between them, and these wire separation protrusions extend upward from the inclined surface. 15. The filter of claim 14, wherein each conductive means is separated from adjacent conductive means. Modular jack assembly with tabs. 20. A central recess extends downward in the ferrite member, and the first and second conductive means 4. The modular jack assembly according to claim 3, wherein both are housed in the recess. 21. First and second holes extend downward from the recess, and the first and second conductive means respectively 21. The modular jack assembly of claim 20, wherein said modular jack extends separately through said first and second holes. body. 22. The bottom end of the ferrite member extends upward from the bottom wall of the insulating housing 2. The modular jack assembly of claim 1, wherein the modular jack assembly is disposed opposite the shoulder. 23. The ferrite member is held firmly in the position between the ferrite member and the shoulder. 23. The modular jack assembly according to claim 22, wherein 24. Having outer insulating top and bottom walls and opposing side walls; All of the walls define the inside, and the housing has front and rear open ends. To assemble into a modular jack,   (A) front and bottom ends near the top and bottom ends and the rear end of the outer insulating housing; Position the ferrite member with   (B) a long insulating insert having a base and upper side and a rear and terminal end; The base side overlaps the upper end of the ferrite member and the upper end is The terminal ends extend into the inside of the insulated housing, close to the top of the rim housing. U, positioning,   (C) extending vertically from the bottom end to the top end of the ferrite member, From the base side of the insert to the upper side, and to the terminal end of the insulating insert. Extend generally parallel and further downward and rearwardly toward the rear end of the insulating housing Providing conductive means,   (D) securing the insulating insert to the insulating housing. 25. An inner intermediate wall extends upwardly from the bottom wall of the insulated housing, The portion has front and rear side portions and an upper portion, and a terminal end of the conductive means is connected to the upper portion. 25. The method of claim 24 mounted thereon. 26. The lateral extension of the inner intermediate wall is adjacent to the opposite lateral wall of the housing, Latch protrudes downward from the base surface of the insulating insert, and the latch 28. The method of claim 25, wherein the insert is engaged to secure the insulating insert to the insulating housing. . 27. The latch has a rear end, a front end, and a height that increases from the rear end to the front end. 27. The method of claim 26, comprising a protrusion having a triangular cross-section having: 28. The base side of the insulating insert comprises a lower base side, the lower base side Extends inward toward the vertical step, which extends upward toward the upper base surface 28. The method of claim 27, wherein the upper base surface extends inward relative to the terminal end. 29. 29. The method of claim 28, wherein the latch projects downward from the upper base surface. 30. An electrical connector,   (A) having top and bottom walls and opposing side walls, all of which are inside An outer insulating housing defining a portion and further having a front and a rear open end;   (B) having a top and a bottom end and disposed proximate a rear end of the outer insulating housing; A ferrite member to be placed,   (C) a base and upper side, and a rear and terminal end; The upper end of the cellite member, and the upper end thereof is an insulating housing. So that its terminal end extends into the inner part of the insulated housing close to the upper part of the housing. An insulating insert to be placed,   (D) extending vertically from the bottom end to the top end of the ferrite member; From the base side of the cable to the upper part, and furthermore, almost to the terminal end of the insulating insert. Conductive, extending horizontally, and further down and rearward towards the rear end of the insulating housing Sexual means,   (E) means for securing the insulating insert to the insulating housing; A connector comprising: