Title of Invention	MADULAR JACK ASSEMBLY
Abstract	A terminal module is provided, such as for use in a modular jack, assembly. The module includes a dielectric body having a pair of body halves with opposing faces. A plurality of terminals have mounting portions embedded in the opposing faces of the body halves. The terminals are securely captured in the dielectric body when the mounting portions are sandwiched between the body halves.

Full Text

WO 2004/112201 PCT/US2004/017811 MODULAR JACK ASSEMBLY Field of the Invention: This invention generally relates to the art of electrical connectors and, particularly, to a modular jack assembly for use in telecommunications equipment. Background of the Invention: Modular jack assemblies are used in telecommunications equipment for mating with telephone-type modular plugs to transmit electrical signals therethrough. A typical modular jack assembly includes a dielectric housing having a receptacle for receiving the modular plug. A plurality of conductive terminals are mounted in the housing, with contact arms cantilevered into the receptacle. A conventional modular jack assembly includes at least eight terminals for engaging eight contacts of the modular plug. A simple eight-terminal modular jack assembly which mates with an eight wire plug is quite reliable and creates few problems. However, some modular plugs contain only four or six wires, but the four or six wire plugs still are inserted into an eight-wire jack assembly. When this occurs, the outside terminals in an eight-terminal array in the jack assembly are prone to become damaged. This is due to the plastic ends of the plugs outside the four or six wire array contacting some of the jack terminals. The plastic ends cause the terminals to deflect excessively, resulting in a large rotating movement where the terminals are fixed to the jack housing. This large rotational movement causes the terminals to take a permanent set, and those damaged terminals no longer can apply sufficient pressure to the outside wires of a full eight wire modular plug. In addition, with the ever-increasing speed of data transmission, the reduction or elimination of crosstalk has become important for electrical connectors including modular jack assemblies. Crosstalk is a phenomena that occurs when a part of the electromagnetic energy transmitted through one of a plurality of conductors in a connector causes electrical currents in the other conductor or conductors. Various systems have been designed to prevent this crosstalk, such as passing the signals through over-line plates or through traces on a printed circuit board which create a capacitive connection. Heretofore, modular jack terminals have been provided with capacitive plates which were insert molded in the jack housing to WO 2004/112201 PCT/US2004/017811 capital investment. Still other problems are encountered simply in mounting the tiny modular jack terminals in the very small jack housing. As stated, insert molding is quite expensive for an otherwise simple and inexpensive electrical connector. Mechanically inserting the terminals into the jack housing often results in damage to the tiny and very fragile terminals. The present invention is directed to solving this myriad of problems, including the provision of an unproved system for mounting the terminals in the assembly as well as providing a capacitive relationship between the terminals. Summary of the Invention: An object, therefore, of the invention is to provide a new and improved modular jack assembly of the character described. In the exemplary embodiment of the invention, the modular jack assembly includes a housing having a plug-receiving receptacle. A terminal module is disposed in the housing and includes a dielectric body mounting a plurality of terminals, with contact portions of the terminals cantilevered from the body into the receptacle. The dielectric body includes a pair of body halves having opposing abutting faces. The terminals have mounting portions embedded in the opposing faces of the body halves. The terminals are securely captured in the dielectric body when the mounting portions of the terminals are sandwiched between the body halves. According to one aspect of the invention, the opposing abutting faces of the body halves include a plurality of recesses for receiving the mounting portions of at least some of the terminals. The mounting portions are press-fit into said recesses. The body halves, themselves, have interengaging means for press-fitting the body halves together. According to another aspect of the invention, the mounting portion of at least one of the terminals in the opposing abutting face of one of the body halves overlaps the mounting portion of one of the terminals in the opposing abutting face of the other body half to create a capacitance arrangement. The overlapping mounting portions may be generally flat plate portions of the terminals. In the preferred embodiment, a dielectric sheet is disposed between overlapping mounting portions of the terminals. 2 WO 2004/112201 PCT/US2004/017811 following detailed description taken in connection with the accompanying drawings. Brief Description of the Drawings: The features of this invention which are believed to be novel are set forth with particularity in the appended claims. The invention, together with its objects and the advantages thereof, may be best understood by reference to the following description taken in conjunction with the accompanying drawings, in which like reference numerals identify like elements in the figures and in which: FIG. 1 is a front perspective view of a modular jack assembly incorporating the concepts of the invention; FIG. 2 is an exploded perspective view of the modular jack assembly; FIG. 3 is an exploded perspective view of the terminal module before the two-part terminal module body is assembled; FIG. 4 is a perspective view of the left-hand terminal module body part as viewed in FIG. 3, with a dielectric sheet covering the terminals within the module; FIG. 5 is a perspective view showing the terminal module of FIG. 3 in assembled condition; FIG. 6 is a perspective view of the terminal module mounted in the rear housing half of the modular jack assembly; FIG. 7 is a perspective view of the terminals isolated from the modular jack assembly to show the overlapping relationship of portions of the terminals; FIG. 8 is a perspective view showing the mating end of a four-wire modular plug for mating with the modular jack assembly; FIG. 9A is a section through the modular jack assembly, with the modular plug about to be inserted into the assembly; FIG. 9B is a view similar to that of FIG. 9 A, but showing an eight-wire plug inserted into the modular jack assembly; and FIG. 9C is a view similar to that of FIG. 9B, but showing the four-wire plug of FIG. 8 inserted into the modular jack assembly. 3 WO 2004/112201 PCT/US2004/017811 Referring to the drawings in greater detail, and first to FIGS. 1 and 2, the invention is embodied in a modular jack assembly ("modular jack"), generally designated 10. The modular jack includes a dielectric housing means, generally designated 12 (Fig. 1), which is a two-pait housing means provided by a front housing part 14 and a rear housing part 16. A terminal module, generally designated 18 in FIG. 5 and described in greater detail hereinafter, is mounted within the modular jack between front and rear housing parts 14 and 16, respectively. As viewed in FIG. 2 and described hereinafter, the terminal module includes a pair of body halves 20 and 22 which sandwich a plurality of terminals, generally designated 24, therebetween. As seen in FIG. 2, the terminals are mounted in a linear array. The terminals are inserted into a printed circuit board 25 having circuit traces which help to minimize crosstalk. A plurality of insulation-displacement terminals 25A are terminated to the circuit traces and project rearwardly from printed circuit board 25. Front housing part 14 of housing means 12 includes a typically configured receptacle 26 for receiving a modular plug as is known in the telecommunications industry. The front housing part is constructed for mounting in a panel, circuit board or other substrate, with a flange 28 on each opposite side of the front housing part for engaging a back side of the panel. A flexible latch arm 30 includes a latch hook 30a for snappingly engaging the front side of the panel. The front housing part includes a latch opening 32 in each opposite side thereof. Rear housing part 16 includes a cavity 34 for substantially receiving terminal module 18 with terminals 24 cantilevered forwardly into receptacle 26 of the first housing part whereby the terminals can engage the contacts of the mating modular plug. A pair of chamfered latch bosses 36 project outwardly from opposite sides of the rear housing part for engaging within openings 32 and latching the front and rear housing parts together surrounding the terminal module. Both housing parts may be fabricated of molded plastic material, whereby chamfered latch bosses 36 "snap" into latching engagement with latch openings 32 when the housing parts are assembled in the direction of arrow "A" (Fig. 2). A cover 38 closes the rear end of rear housing part 16. The cover includes a pair of inwardly facing chamfered latch bosses 40 for latching engagement in a pair of latch openings 42 in 4 WO 2004/112201 PCT/US2004/017811 tennination to insulation displacement terminals 25 A. Referring to FIGS. 3-5, terminal module 18 includes a terminal module body, generally designated 44 (Fig. 5), which inciuaos the aforementioned body halves 20 and 22. The "housing means" of modular jack assembly 10 includes terminal module body 44 (body halves 20 and 22) as well as front and rear housing parts 14 and 16, respectively. FIG. 5 shows the body halves secured together. FIG. 3 shows that each body halve has a securing post 46 which is press-fit into a securing hole 48 in the other body half. Body halves 20 and 22 have opposing abutting faces 20a and 22a, respectively, which abut each other at an interface 50 (Fig. 5) when the body halves are assembled. Each opposing abutting face of each body half includes a plurality of recesses 52 within which terminals 24 are press-fit before the body halves are press-fit together. Therefore, it can be seen that the entire terminal module is extremely simple and extremely efficient to manufacture and assembly by a simple press-fit concept. To that end, FIG. 6 shows terminal module 18 mounted within cavity 34 in rear housing part 16. The cavity conforms to the outer peripheral dimensions of the terminal module, including the assembled body halves 20 and 22, so that the body halves cannot separate, thereby securely sandwiching terminals 24 between the body halves and securely mounting the terminals within rear housing part 16. Both body halves 20 and 22 of terminal module 18 are molded of plastic material. For purposes described hereinafter, body half 20 is molded with a support block 54 projecting therefrom and defining a generally planar wall 56 which extends generally parallel to the linear array of terminals 24, for purposes described hereinafter. Referring back to FIG. 4, a dielectric sheet 58 is adhered to face 20a of body half 20 covering the terminals. This dielectric sheet is effective to ensure that any portion of the terminals in one body half do not engage any portions of the terminals in the other body half when the body halves are press-fit together, As will be seen hereinafter, certain portions of the terminals overlap to create capacitive arrangements, and dielectric sheet 58 prevents engagement between the overlapping terminal portions. Of course, dielectric sheet 58 could be adhered to face 22a of body half 22 as well as or in the alternative to adhering the sheet to face 20a of body half 20. 5 WO 2004/112201 PCT/US2004/017811 and 6. Actually, the terminals would never exist in this isolated depiction as well as in the depiction of FIG. 2, because the terminals are mounted within terminal module 18 between body halves 20 and 22 of the module. The depiction of FIG. 7 is to enable a clear description of the configurations of the terminals, below. With that understanding, terminals 24 have been identified as individual terminals 24a-24h in sequence, from one end of the linear array of terminals to the opposite end. All of the terminals are stamped and formed of conductive sheet metal material and have tail portions 60 for insertion into printed circuit board 25 (Fig. 2). All of the terminals have enlarged or irregular body portions forming mounting portions 62 which are press-fit into recesses 52 in body halves 20 and 22 as seen in FIG. 3. The mounting portions of terminals 24 and 24b overlap. The mounting portions of terminals 24c and 24d overlap. The mounting portions of terminals 24e and 24f overlap. The mounting portions of terminals 24g and 24h overlap. These overlapping portions of the terminals create capacitive arrangements to reduce or eliminate crosstalk within the modular jack assembly. Dielectric sheet 58 (Fig. 4) is disposed between these overlapping portions of the terminals to prevent engagement therebetween. The four inside terminals 24c-24f are provided with contact portions 64, and the four outside terminals 24a, 24b, 24g and 24h are provided with contact portions 66. All of the contact portions are provided for engaging contacts of a modular jack plug inserted into receptacle 26 (Fig. 1) of the modular jack assembly. The contact portions are bent out of contact arms 68 of the terminals, with the contact arms being cantilevered into receptacle 26. It can be seen in FIG. 7 that two pairs of terminals 24a/24b and 24g/24h are disposed outside the four inner terminals 24c-24f. The outside terminals have different configurations and include engaging portions 70 which are bowed to define convex surfaces 70a. Contact portions 66 of contact arms 68 of the outside terminals also are bowed, but in the opposite direction of bowed engaging portions 70, to define convex contact surfaces for engaging the contacts of the modular plug. In addition, the contact portion of each contact arm of each outside terminal is bent back onto itself, as at 72, to define a convex surface 72a at a back side of the contact arm. In other words, the convex surfaces defined by contact portions 66 6 WO 2004/112201 PCT/US2004/017811 convex surfaces 72a are located at an opposite or back side of the contact arms. FIG. 8 shows a typical modular jack plug, generally designated 76. The plug includes a dielectric housing 78 mounting a plurality of terminals which have contacts 80 exposed within a plurality of troughs 82 at one side 78a of the housing. The plug is inserted into receptacle 26 (Fig. 1) in modular jack assembly 10, and a flexible latch arm 84 on the plug latchingly engages with front housing part 14 inside the receptacle, as is known in the art. FIG. 9A shows plug 76 about to be inserted into receptacle 26 of modular jack assembly 10 in the direction of arrow "B". One of the outside terminals 24a, 24b, 24g, 24h is shown in this depiction. It can be seen that wall 56 of terminal module body half 20 (which forms part of the overall housing means of jack assembly 10) projects forwardly from an interior mating face 90 of the jack housing means. In addition, a second interior wall 92 of front housing part 14 also projects generally parallel with first wall 56, generally perpendicular to interior mounting face 90. It can be seen that the convex surface of bowed engaging portion 70 of the terminal opposes first wall 56, and convex surface 72a of the bent-back portion 72 of the terminal opposes second wall 92. FIG. 9B shows plug 76 inserted into receptacle 26 with one of the contacts 80 on the plug engaging contact portion 66 of the terminal. This causes the terminal to flex only a sufficient amount to establish a positive electrical connection between the terminal and contact 80 of the plug. The depiction of FIG. 9B represents a situation where plug 76 is an eight-wire plug. In other words, contacts 80 (Fig. 8) would be disposed in troughs 82 substantially along the entire width of side 78a of the front of the plug, so that all eight contacts will engage the eight terminals 24a-24h of the jack assembly. Now, referring back to FIG. 8, it can be seen that modular plug 76 is a four-wire plug, resulting in only four contacts 80 disposed within four troughs 82. This creates rather sizable plastic corners or shoulders 94 at the front mating face of the modular plug. FIG. 9C shows the situation where the four-wire modular plug 76 of FIG. 8 is inserted into receptacle 26 of modular jack assembly 10. It can be seen that plastic corners 94 of the plug will engage and considerably flex the outside terminals. In order to prevent overflexing of the terminals which might result in establishing permanent sets in the terminals, it can be seen that bowed engaging portion 70 (compare to FIGS. 9A and 9B) has engaged first wall 56 7 WO 2004/112201 PCT/US2004/017811 contact portion 66 engages comer 94 of housing 78 of piug 76. These counteracting forces on the terminal tend to straighten the terminal out as can be seen in comparing FIG. 9C with FIG. 9B, rather than bending or flexing the terminal excessively which could damage the terminal or create a permanent set in the terminal. Although the function of the outside terminals were described above in relation lo FIG. 9C, in regard to a four-wire modular plug 76 shown in FIG. 8, the same result would occur during mating of a six-wire modular plug. The only difference is that only the outer- most tenninais 24a and 24h would engage the plastic comer 94 of the plug when mating with the six-wire plug. It will be understood that the invention may be embodied in other specific forms without departing from the spirit or central characteristics thereof. The present examples and embodiments, therefore, are to be considered in all respects as illustrative and not restrictive, and the invention is not to be limited to the details given herein. 8 WO 2004/112201 PCT/US2004/017811 CLAIMS 1. A modular jack assembly, comprising: a housing having a plug-receiving receptacle; and a terminal module disposed in the housing and including a dielectric body mounting a plurality of terminals with contact portions of the terminals cantilevered from the body into the receptacle of the housing, said dielectric body including a pair of body halves having opposing abutting faces, and said terminals having mounting portions embedded in the opposing faces of the body halves, the terminals being securely captured in the dielectric body when said mounting portions are sandwiched between the body halves. 2. The modular jack assembly of claim 1 wherein the opposing abutting face of at least one of said body halves includes a plurality of recesses for receiving the mounting portions of at least some of the terminals. 3. The modular jack assembly of claim 2 wherein the mounting portions of said at least some of the terminals are press-fit into said recesses. 4. The modular jack assembly of claim 1 wherein the mounting portion of at least one of the terminals in the opposing abutting face of one of the body halves overlaps the mounting portion of one of the terminals in the opposing abutting face of the other body half to create a capacitance arrangement. 5. The modular jack assembly of claim 4, including a dielectric sheet between said overlapping mounting portions. 6. The modular jack assembly of claim 4 wherein said overlapping mounting portions are generally flat plate portions of the terminals. 7. The modular jack assembly of claim 6, including a dielectric sheet between said overlapping mounting portions. WO 2004/112201 PCT/US2004/017811 a dielectric body including a pair of body halves having opposing faces; and a plurality of terminals having mounting portions embedded in the opposing faces of the body halves, the terminals being securely captured in the dielectric body when said mounting portions are sandwiched between the body halves. 9. The terminal module of claim 8 wherein the opposing face of at least one of said body halves includes a plurality of recesses for receiving the mounting portions of at least some of the terminals. 10. The terminal module of claim wherein the mounting portions of said at least some of the terminals are press-fit into said recesses. 11. The terminal module of claim 8 wherein the mounting portion of at least one of the terminals in the opposing face of one of the body halves overlaps the mounting portion of one of the terminals in the opposing face of the other body half to create a capacitance arrangement. 12. The terminal module of claim 11, including a dielectric sheet between said overlapping mounting portions. 13. The terminal module of claim 11 wherein said overlapping mounting portions are generally flat plate portions of the terminals. 14. The terminal module of claim 13, including a dielectric sheet between said overlapping mounting portions. 15. The terminal module of claim 8, including complementary interengaging securing means between said body halves to hold the body halves together with said opposing faces in abutment. 10 WO 2004/112201 PCT/US2004/017811 securing means comprise press-fit components between the body halves. 11 17. The lerminal module of claim 16 wherein the opposing face of at least one of said body halves includes a plurality of recesses for receiving the mounting portions of at least some of the terminals. 18. The terminal module of claim 17 wherein the mounting portions of said at least some of the terminals are press-fit into said recesses. A terminal module is provided, such as for use in a modular jack, assembly. The module includes a dielectric body having a pair of body halves with opposing faces. A plurality of terminals have mounting portions embedded in the opposing faces of the body halves. The terminals are securely captured in the dielectric body when the mounting portions are sandwiched between the body halves.

Documents:

02561-kolnp-2005-abstract.pdf

02561-kolnp-2005-claims.pdf

02561-kolnp-2005-description complete.pdf

02561-kolnp-2005-drawings.pdf

02561-kolnp-2005-form 1.pdf

02561-kolnp-2005-form 2.pdf

02561-kolnp-2005-form 3.pdf

02561-kolnp-2005-form 5.pdf

02561-kolnp-2005-international publication.pdf

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