AU646856B2

AU646856B2 - Jack assembly

Info

Publication number: AU646856B2
Application number: AU75009/91A
Authority: AU
Inventors: Byron Eriksen; Bruce Charles Ogren
Original assignee: ADC Telecommunications Inc
Current assignee: Commscope Connectivity LLC
Priority date: 1990-06-12
Filing date: 1991-04-16
Publication date: 1994-03-10
Anticipated expiration: 2011-04-16
Also published as: JPH04248282A; EP0462084A3; IL97886A; AU7500991A; KR920001783A; CA2040398A1; NZ238471A; EP0462084A2

Description

i:P:

AUSTRALIA

Patents Act COMPLETE SPECIFICATION

(ORIGINAL)

6468 Int. Class Class Application Number: Lodged: Complete Specification Lodged: Accepted: Published: Priority Related Art: Applicant ADC Telecommunications, Incorporated 4900 West 78th Street, Minneapolis, Minnesota, 55435, UNITED STATES OF AMERICA Address for Service is: PHILLIPS ORMONDE FITZPATRICK Patent and Trade Mark Attorneys 367 Collins Street Melbourne 3000 AUSTRALIA "Complete Specification for the invention entitled: SJACK ASSEMBLY Our Ref 213439 POF Code: 1415/10407 S The following statement is a full description of this invention, including the best method of performing it known to applicant(s): 600- 1 6006

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JACK ASSEMBLY This invention pertains to a jack assembly for use in the telecommunications or signal transmission industries. More particularly, this invention pertains to an improved switch assembly for such a jack.

Switching coax jack assemblies for use in the telecommunications or signal transmission industries are well known. An example of such is shown in commonly assigned U.S. Patent No. 4,749,968 to Burroughs dated June 7, 1988. The Burroughs patent teaches a switching o coax jack having a housing which contains two parallel spaced apart internal conductors. Ports on the forward 20 end of the jack permit a plug to be inserted within the 0 jack housing to make electrical contact with the conductors. The Burroughs patent teaches two configurations where the forward end of the jack has either one or two forward ports.

25 In Burroughs, a switch assembly is provided for normally connecting the internal conductors but breaking the electrical connection upon insertion of a jack plug into either of the forward ports. With best reference to 0000 0o0 Fig. 11 of U.S. Patent No. 4,749,968. the jack includes a switch asseinbly 156 having a normal spring 164 in a generally V-shaped configuration extending between the 0000 conductors 150,158. Upon insertion, a jack plug 52 :O OI engages a termination spring 168 which deflects to urge a first portion of a normal spring 164 away from conductor 150.

In switch designs, a risk of failure is presented by cyclic deformation of the normal spring by repeated insertion of a jack plug into the jack assembly.

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-2- Namely, the deformation of the normal spring may result in breakage or plastic deformation of the normal spring.

The consequences of failure of the normal spring can best be appreciated by consideration of the environment in which a jack assembly is used. The jack assembly is one of several assemblies and other elements combined in a module (referred to as a "DSX module").

Examples )f such modules are shown in U.S. Patent No.

4,815,104 (Figs. In the event of failure of a normal spring in a jack assembly, the entire module must be replaced. This has severe economic consequences. The spring which fails is typically inexpensive (for example,

GSOS

S°less than $1.00 On the other hand, the module 15 which must be replaced upon failure of this spring can be off* quite expensive (typically greater than $200.00 g e.

Even more significant than the adverse economic consequences resulting from spring failure is the interruption in data or signal transmission resulting from such failure. Modules incorporating switching coax jacks are commonly used in the telecommunications industry for cross-connecting voice or data transmission °oeo° lines. At high signal speed transmission rates (known in gee.

the industry as DS-3 rates or greater), a single DSX 25 module may handle 672 voice conversations simultaneously.

e~g.

If a single normal spring fails within the DSX module, the module fails and the many customers being serviced by the module have their service interrupted.

Ce Due to the significant economic and service 30 interruption consequences attributable to spring failure, the telecommunications industry has prudently placed a high premium on reliability of spring contacts used in switching coax jacks. Accordingly, while designs such as that shown in the Burroughs patent are commercially satisfactory the products are manufactured and designed to have a cycle life greater than any reasonably anticipated cycling in the field and, therefore, they very rarely, if ever, fail), the industry is continually looking for ways to increase the cycle life of such springs. Cycle life means the number of times that a spring may be alternately deformed and released before failure.

Customers continue to look for improved cycle life and may often make purchasing decisions based on improved cycle life. This is true even though prior device cycle life greatly exceeds anticipated cycling experienced in the field. Therefore, improvements in cycle life are of significant economic consequence.

It is an object of the present invention to provide a switching coax jack having an improved switch 15 assembly to dramatically enhance the cycle life of springs within the jack.

SII. SUMMARY OF THE INVENTION According to a preferred embodimentf the present invention, a switching coax jack is rovided having a jack housing containing first a second spaced apart conductors. At least one port i formed in the jack housing and sized to receive a ack plug which is inserted through the port. The pug engages the first conductor in electrical commu *cation. The jack housing o° :contains a switch assembly or electrically connecting the first and second cond ctors when a plug is absent from the port and for reaking the electrical connection upon insertion of aplug. The switch assembly includes a 30 normal spring h ing a first portion biased into releasable elctrical contact with the first conductor and a seco d portion in electrical contact with the second onductor. Means are provided for urging the firs portion away from the first conductor in response t insertion of a plug into the port. The switch assembly also includes a retaining mechanism for assembly that may dramatically enhance the cycle life of springs within the jack.

According to a preferred embodiment of the present invention, a switching coax jack is provided having a jack housing containing first and second spaced apart conductors. At least one port may be formed in the jack housing and sized to receive a jack plug which may be inserted through the port. The plug engages the first conductor in electrical communication. The jack housing may contain a switch assembly for electrically connecting the first and second conductors when a plug is absent from the port and for breaking the electrical connection upon insertion of a plug. The switch assembly may include a normal spring having a first portion biased into releasable electrical contact with the first conductor and a second portion in electrical contact with the second :conductor. Means may be provided for urging the first :..portion away from the first conductor in response to insertion of a plug into the port. The switch assembly may also include a retaining mechanism for retaining a central portion of the normal spring at a fixed location.

The normal spring may be resiliently deformable in response to a force placed on the normal spring urging it away from the first conductor. As the normal spring S 25 deforms, it may assume a predetermined shape. The switch assembly may further include a support surface opposing the normal spring as it is deformed. The support surface eoee :o :may be shaped to be complementary to the predetermined deformed shape of the normal spring.

According to one aspect of the present invention there is provided a switch coax jack including: a jack housing; first and second spaced apart electrical signal conducting means disposed within said housing; at least a first port formed in said jack housing and sized to receive a jack plug to be inserted through said port and into said housing with said plug in electrical communication with said first electrical signal 313Y- 3a conducting means; a switch assembly for electrically connecting said first and second conducting means when a plug is absent from said first port and for breaking electricLt connection between said first and second conducting means when the plug is inserted into said first port; said switch assembly including a normal spring of electrically conductive material with said normal spring having a first portion biased into releasable electrical contact with said first conducting means and a second portion in electrical contact with said second conducting means; said switch assembly further including urging means for urging said first portion away from said first conducting means in response to an insertion of a plug into said first port with said urging means applying an urging force on said first portion at a first predetermined location; said switch assembly including means for retaining e said normal spring in said jack housing with said normal spring having a portion held in a fixed location; deformable from said fixed location to said predetermined i first location in response to said urging force, said first 25 portion presenting a spring surface of predetermined shape as said first portion is deformed in response to an urging 4 "force in an absence of restraints opposing said first ''portion assuming said predetermined shape; and said switch assembly including aXsupport surface opposing said first portion as said first portion is deformed, said support surface selected to be complementary to said predetermined shape and positioned to oppose and abut said spring surface as said spring surface is urged to said predetermined shape with said /support surface positioned to complementarily mate with said spring surface in said predetermined shape.

According to another aspect of the present invention i there is provided a switching coax jack including: 3b a jack housing; first and second spaced apart electrical signal conducting means disposed within said housing; at least a first port formed in said jack housing and sized to receive a jack plug to be inserted through said port and into said housing with said plug in electrical communication with said first electrical signal conducting means; a switch assembly for electrically connecting said first and second conducting means when a plug is absent from said first port and for breaking electrical connection between said first and second conducting means when the plug is inserted into said first port; said switch assembly including a normal spring of electrically conductive material with said normal spring having a first portion biased into releasable electrical contact with said first conducting means and a second portion in electrical contact with said second conducting means; said switch assembly further including urging means for urging said first portion away from said first conducting means in response to an insertion of a plug into said first port with said urging means applying an urging force on said first portion at a first S 25 predetermined location; said switch assembly including means for retaining said normal spring in said jack housing with said normal :spring having a portion held in a fixed location; said normal spring first portion resiliently deformable from said fixed location to said predetermined location in response to said urging force; and said switch assembly including a support surface opposing said first portion as said first portion is deformed, said support surface having a generally non-circular radius of curvature and selected for said first portion to experience minimized localized stress as said first portion is urged against said support surface.

-3c invention there is provided a method for constructing switching coax jack having a jack housing; first a d second spaced apart electrical signal conducting m ans disposed within said housing; at least a first port ormed in said jack housing and sized to receive a jack lug to be inserted through said port and into said hou ing with said plug in electrical communication with aid first electrical signal conducting means; a switch ssembly for electrically connecting said first and sec nd conducting means when a plug is absent from said fir t port and for breaking electrical connection between/ said first and second conducting means when the plug is inserted into said first port; said switch assembl including a normal spring of electrically conductive material with said normal spring ha; ing a firs/ portion biased into releasable electrical contact wth said first conducting means and a second portion in/electrical contact with said second conducting means; sid switch assembly further :including urging means for/urging said first porLon away from said first conduc ing means in response to an insertion of a plug in o said first port with said urging means applying an urging force on said first portion at a first predetermine location; said switch assembly including means f r retaining said normal spring in said 25 jack housing wit said normal spring having a portion held in a fixed location; said normal spring first portion ."resiliently eformable from said fixed location to said predetermin d location in response to said urging force; said swit h assembly including a support surface opposing said fi st portion as said first portion is deformed; said metho comprising: modelling said normal spring first portion and se ecting a support surface shape to minimize stress on aid modeled first portion as said modeled first portion /is displaced.

A preferred embodiment of the present invention will now be described with reference to the accompanying 'a drawings wherein:- 4 ,AT 3d *see co 0* 04 a 0000 000 0 0

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0* 50 0( 0055 0 00

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retaining a central portion of the normal spring at a fixed location. The normal spring is resiliently deforma.le in response to a force placed on normal spring urging it away from the first co ctor. As the normal spring deforms, it assumes predetermined shape.

The switch assembly further i cludes a support surface opposing the normal s ng as it is deformed. The support surface shaped to be complementary to the predeterm' deformed shape of the :normal spring.

III. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a top plan view of a switching coax jack according to the present invention with a portion of the jack housing removed to show the interior elements of 15 the jack; Fig. 2 is a top plan view of a prior art switch assembly; Fig. 3 is a side elevation view, shown partially in section, of a switch assembly according to the present invention; Fig. 4 is a top plan view of a portion of the switch assembly of Fig. 3 showing a normal spring in an undeflected position; and Figs. 5-8 are top plan views of a normal spring surrounding a support post with the spring shown in various states of compression from mild deflection (?ig.

through fully deflected (Fig. 8).

irv. 9sgionir n 8V TH REn ERnR Referring initially to Fig. 1, a switching coax jack 10 according to the present invention is shown. The jack 10 includes a housing 12. Disposed within the interior of housing 12 are a first eleutrical conductor 14 and a second electrical conductor 16. The forward end 13 of the housing 12 contains a first port 18 and a "LZ\ second port 20. Ports 18 and 20 are sized to receive a jack plug (not shown) of predetermined dimensions. The ports 18 and 20 are disposed for a plug to electrically engage conductors 14,16 respectively, upon insertion into ports 18,20.

The embodiment shown in Fig. 1 has dual ports on the forward end 13. Alternatively, only a single port (such as port 18) could be provided. As shown in the aforementioned U.S. Patent No. 4,749,968, switching coax jacks having dual or single forward port configurations are well known.

A switch assembly 80 is provided for electrically connecting the first conductor 14 with the second conductor 16 when a plug is absent from either of ports 18,20. The switch assembly 80 is further selected So*. 15 such that the electrical connection is broken upon insertion of a plug into either of ports 18,20.

*0*e a It will be appreciated that a coax jack having an internal switch assembly is no part of this invention per se. Such a jackc is the subject of U.S. Patent No.

4,749,968. The present invention is directed to an improvement in the jack assembly Before proceeding with a detailed description of jack assembly 80, a description of a prior art jack assembly will be given to facilitate an understanding and appreciation for the present invention. Wit t-est reference to Fig. 2, a prior art switch assembly 30 is shown. Switch assembly 30 includes a switch assembly housing 32, a normal spring 34 and a termination spring *36.

30 Normal spring 34 is generally V-shaped in configuration and includes a first portion 38 biased toward a first conductor (not shown) and a second portion biased toward a second conductor (not shown). An arcuate central portion 42 is disposed within an arcuate slot 44 in switch housing 32 to retain the normal spring 34 in the switch housing 32.

-6- The termination s, ag 36 is generally U-shaped and includes a first arm 46 upposing first portion 38 and a second arm 48 opposing second portion 40. Each of first and second arms 46,48 are provided with dielectric contact pads 50,52 which are engaged by a plug inserted within the jack to urge the arms 46,48 a,-inst first and second portions 38,40 to thereby urge the first portions 38,40 against their natural bias away from the internal conductors of the jack.

The switch housing 32 includes a support post 54 which has a semi-circular surface 56 which opposes central portion 42 of normal spring 34. At the ends of the semi-circular portion 56, the support post 54 extends in flat surfaces 58 and 60 which are tangent to the semi- 15 circular portion 56.

.see We have determined that the structure thus described produces localized stress points in the spring rT' 34 as it is deformed by either of first or second arms 46,48. For example, as portions 38,40 are deflected toward support post 54, localized stress occurs in portions 38,40. The localized stress is positioned at locations A and B which are located near or closely o o Sadjacent to the intersection of the flat surfaces 58,60 with the semi-circular surface 56. The localized stress locations A,B are attributable to the location of a fixed fulcrum point at these locations as the switch spring 34 is deflected. During very high repeated cycling of the switch springs about the fixed fulcrum points A and B test cycling beyond industry standards), the S: 30 spring can fail due to breakage or plastic deformation of the spring at the localized stress points A and B.

Having described the prior art switch assembly attention is now directed to Figs. 3-8 which show a switch assembly 80 according to the present invention.

Switch assembly 80 includes a housing 82 having an upper half 84 and a lower half 86 formed of dielectric material. For ease of illustration, only lower half 86 is shown in Fig. 4 and only a normal spring and support post are shown in Figs. 5-8. The housing 82 contains a generally V-shaped normal spring 88 and a generally U-shaped termination spring Shown best in Figs. 4-8, normal spring 88 includes a first portion 92 and a second portion 94 joined by an arcuate central portion 96. Arcuate central portion 96 is retained in a fixed location in housing 82 by arcuate portion 96 being retained in a generally semicircular slot 98 formed in lower switch housing half 86 adjacent a support post 114. First and second portions 92,94 terminate at contact ends 93,95.

Termination spring 90 has its central portion 15 91 received within a slot 100 formed in housing half 86.

•.400. A first arm 102 extends from portion 91 and terminates at a contact end 103 opposing first portion 92. A second r arm 104 extends from central portion 91 and terminates at a contact end 105 opposing second portion 94. The contacts 103,105 are first and second predetermined locations against which forces are applied on first and second portions 92,94 to urge the normal spring 88 to ••dce deform as will be described.

e g.

.0 o First and second arms 102,104 are provided with 00 25 contact pads 108,109 of dielectric material. Contact eg"" pads 108,109 aae engaged by a plug inserted within either of ports 18,20. In Fig. 4, normal spring 88 is shown in a relaxed position with no force being applied at the contacts 103,105. When assembled into a completed Poo": switching jack 10, as shown in Fig. 1, the spring 88 is partially deflected with arms 92,94 urged toward one another as shown in Fig. 1. This deflection is necessary for the resilient bias of the spring 88 to be utilized to insure a good electrical contact between contact ends 93,95 and conductors 14,16.

Fig. 5 shows a portion of the view of Fig. 1 with the spring 88 partially deflected against a support post 114 by an amount equal to the deflection of the spring between conductors 14,16 the amount of deflection shown in Fig. Fig. 6 shows the shape of spring 88 with portions 92,94 deflected toward post 114 in response to a plug (not shown) partially inserted into ports 18,20. Fig. 7 shows the shape of the spring 88 deflected further toward post 114 in response to further insertion of a plug. Fig. 8 shows the shape of spring 88 with portions 92,94 fully deflected toward post 114 in response to a plug being fully inserted into ports 18,20.

Through empirical observation, the shape of arms 92,94 when spring 88 is fully compressed (as shown 15 in Fig. 8) is determinable. Having predetermined the shape of the resiliently deformed normal spring 88, the support surfaces or support ramps 110,112 of support post 114 are shaped.

ith best reference to Figs. 5-8, it is noted that support post 114 has a generally semi-zircular surface 116 opposing central portion 96. Support surfaces 110,112 are generally parabolic and are shaped Sto be complementary to and conform with the predetermined arcuate surface of arms 92,94 which have been fully 25 deflected in response to urging forces by contacts 0**e 103,105. The surfaces 110,112 are positioned to abut arms 92,94 when they are so deformed.

As a result of shaping surfaces 110,112 to be complementary to the deformed shape of arms 92,94, the 30 disadvantages associated with a fixed fulcrum point are eliminated. Instead, the fulcrum p- t experienced by the bending or deformation of arms 92,94 is constantly moving along the length of arms 92,94. The length of surfaces 110,112 are selected so that they terminate at termination ends 111,113 spaced beyond the contacts 103,105. Conveniently referred to as a "moving fulcrum" -9point, this phenomena results in a distribution of stress along the length of arms 92,94 rather than having the stress being localized as was the case in prior art switch assembly designs.

With reference to Figs. 5-8, the fulcrum point of portions 92,94 moves from locations AA,AA' to locations BB,BB' as the portions 92,94 are deformed from Fig. 5 to Fig. 6. From Fig. 6 to Fig. 7, the fulcrums move from BB,BB' to locations CC,CC'. Finally, as the portions 92,94 are deformed to the position of Fig. 8, the fulcrums move from location CC,CC' to location

DD,DD'.

By distributing the stress over the length of the arms 92,94, we project that the cycle life of the oe *15 normal spring 88 may be tripled (or better). This greatly enhances the projected reliability of the jack and the module of :hich it is a part.

In Figs. 5-8, surfaces 110, 112 are generally 0Coo parabolic. However, this shape may vary depending on the normal spring. The surfaces 110, 112 are selected to complement the shape of any deflected normal spring.

This shape is preferably selected from empirical observations of a fully deflected normal spring so that a se:* of.* fulcrum or tress point on the normal spring is 25 constantly moving along the length of the spring as the oboe spring is being deformed.

In addition to greatly enhancing the life of the spring 88, the switch assembly 80 of the present invention includes means for incorporating electrical 30 elements in a more desirable manner.

As disclosed in the aforesaid U.S. Patent No.

4,749,968 termination springs such as spring 90 are connected across a resistance to ground. The present invention incorporates a novel technique for accomplishing that function.

Shown best in Fig. 3, the central portion 91 of the termination spring is generally flat and, in the view of Fig. 3, is vertically oriented. A grounding clip 120 is shown connected to the dielectric housing 82. The grounding clip 120 includes a cantilevered grounding contact 122 (shown in Figs. 1 and The grounding contact 122 has a contact surface 124 which is generally perpendicular to the plane of portion 91. Disposed between surface 124 and portion 91 is a ramp 126 formed on a surface of top housing half 84. Preferably, ramp 126 is positioned at about 500 to the parting line 129 between the upper and lower housing halves 84,86.

A chip resistor 128 of known surface mount technology is provided having contact pads 130,132 609. 15 disposed on edges of the chip resistor 128. Edge pad 130 opposes surface 124 and edge pad 132 opposes surface 91.

The resilient cantilevered contact 122 urges chip resistor 128 against portion 91 such that sound *0 *00 electrical contact is made between surfaces 124,91 and pads 130, 132 respectively upon attachment of the grounding clip 120 to the housing 82.

Having described the present invention with

°OBO°

Sa reference to a preferred embodiment, those skilled in the 0000 art will appreciate the many modifications and variations 25 to which the preferred embodiment may be made while 0 °"retaining the concepts of the invention. Accordingly, it is intended not to limit the scope of the protection of the present application to the preferred embodiment but to include such modifications and equivalents.

Claims

2. A jack according to claim 1 wherein said first support surface is generally parabolic.
3. A jack according to claim 1 wherein said first support surface extends at least to said first predetermined location.
4. A jack according to claim 1 wherein said predetermined shape is empirically determined and said 15 fsupport surface is formed to complementarily mate with said first portion spring surface when said spring surface is deformed to said predetermined shape. A jack according to claim 1 including at least a second port formed in said jack housing and sized to receive a jack plug through said port and into said housing with said plug in electrical communication with said second electrical signal conducting means; said normal spring's second portion being resiliently biased into electrical contact with said second conducting means; said switch assembly urging means including means for urging said second portion away from said second conducting means in response to an insertion of a plug into said second port by applying an urging force on said second portion at a second predetermined location; said normal spring second portion being resiliently deformable from said fixed location to said second predetermined location in response to said urging force, said second portion presenting a surface of predetermined shape as said second portion is deformed; said switch assembly including a second support surface opposing said second portion as said second portion is deformed, said second support surface selected to be complimentary to said second predetermined shape. 13
6. A jack according to claim 5 wherein said second support surface is positioned to abut said second portion.
7. A jack according to claim 5 wherein said second support surface is generally parabolic.
8. A jack according to claim 5 wherein said second support surface extends at least to said second predetermined location.
9. A switching coax jack including: a jack housing; first and second spaced apart electrical signal conducting means disposed within said housing; at least a first port formed in said jack housing and sized to receive a jack plug to be inserted through said port and into said housing with said plug in 15 electrical communication with said first electrical signal conducting means; *a switch assembly for electrically connecting said first and second conducting means when a plug is absent from said first port and for breaking electrical connection between said first and second conducting means when the plug is inserted into said first port; said switch assembly including a normal spring of electrically conductive material with said normal spring •having a first portion biased into releasable electrical 25 contact with said first conducting means and a second portion in electrical contact with said second conducting means; said switch assembly further including urging means for urging said first portion away from said first conducting means in response to an insertion of a plug into said first port with said urging means applying an urging force on said first portion at a first predetermined location; said switch assembly including means for retaining said normal spring in said jack housing with said normal spring having a portion held in a fixed location; said normal spring first portion resiliently deformable from said fixed location to said predetermined Ii,/A.\9 location in response to said urging force; and 14 said switch assembly including a support surface opposing said first portion as said first portion is deformed, said support surface having a generally non-circular radius of curvature and selected for said first portion to experience minimized localized stress as said first portion is urged against said support surface. A method for constructing a switching coax jac having a jack housing; first and second spaced ap t electrical signal conducting means disposed within aid housing; at least a first port formed in said jack husing and sized to receive a jack plug to be inserted/through said port and into said housing with said/ plug in electrical communication with said first elect ical signal conducting means; a switch assembly for/ electrically 15 connecting said first and second conductin means when a plug is absent from said first port nd for breaking electrical connection between said /first and second conducting means when the plug is ins rted into said first port; said switch assembly includi g a normal spring of S" 20 electrically conductive material /ith said normal spring having a first portion biased Into releasable electrical contact with said first con ucting means and a second portion in electrical contat with said second conducting means; said switch assembl further including urging means 25 for urging said first/ portion away from said first conducting means in rsponse to an insertion of a plug into said first por with said urging means applying an urging force on/ said first portion at a first predetermined lo ation; said switch assembly including means for ret ining said normal spring in said jack housing with aid normal spring having a portion held in a fixed loc ion; said normal spring first portion resilientl deformable from said fixed location to said predete ined location in response to said urging force; said sitch assembly including a support surface opposing said/first portion as said first portion is deformed; said me hod comprising: modelling said normal spring first portion and C.L: i /selecting a support surface shape to minimize stress on 15 A switch coax jack substantially as herein described with reference to Figures J. and 3 to 8 of the accompanying drawings. DATED: 20 December, 1993. PHILLIPS ORMONDE FITZPATRICK Attorneys for: ADC TELECOMMUNICATIONS, INC. 5624u 6 0* 6 666 6 666666 66 6 39 MJP ~N1