US2966639A - Diminutive coaxial line resistive termination - Google Patents

Description

Dec. 27, 1960 H. H. HELLER I 2,956,639

DIMINUIIVE coAxIAL LINE: REsIsIIvE TERMINATION Filed June e. 1955 IN V EN TOR.V

5MM/M TTOE'A/E YS United States Patent() DIMINUTIVE COAXIAL LINE RESISTIVE rTERMINATION Herbert H. Heller, Cleveland Heights, Ohio, assigner to Bird Electronic Corporation, Cleveland, Ohio, a corporationrof Ohio Filed June 6, 1955, Ser. No. -513,293

'11 Claims. (Cl. S33-22) 'This invention relates -to high frequency line components and concerns particularly reflectionless terminations for coaxial lines. The invention is particularly concerned with the provision of such devices for use over a wide frequency band without change in electrical constants.

An object of the invention isto provide relatively inexpensive, easily made electrical connections which make good electrical contact and do not introduce discontinuities in impedance properties.

Other objects and advantages pertain to certain Vfeatures of vconstruction and combinations and arrangements of parts by which are obtained simplicity and economy as well as improved operating characteristics. Such will be come apparent from the following detailed description of a preferred embodiment ofthe invention.

This description is made in conjunction with accompanying drawings, in which Fig. l is a view partially in longitudinal section, of a refiectionless terminating unit for a coaxial transmission line. Fig. 2 is a view in cross section represented as cut by a vertical plane 2 2 indicated in Fig. 1. Fig. 3 is a fragmentary view of the right hand end of the apparatus shown in Fig. l but illustrated in longitudinal section. Fig. 4 is a cross sectional view of the apparatus of lFig. 1 represented as cut byplane 4 4. Fig, 5 is a fragmentary view, partially in longitudinal section corresponding in part to Fig. 3, of a modication in the apparatus of Figs. l and 3, to adapt the apparatus to receive a coaxial-line plug type connector Afitting instead of being received in a socket type connector type fitting. Fig. 6 is an end view of the modiiication of Fig. represented as seen from Ia plane 6 6 indicated in Fig. 5.

Like reference numerals are utilized throughout the `drawings to designate like parts.

For various purposes it is desirable to provide means for terminating a coaxial transmission line and absorbing energy transmitted through the line without producing refiections at any frequency. .For example, when sections of high frequency lines are beingtested, standing wave ratio measurements are being made, or whereother investigations are being made in high frequency apparatus employing coaxial line connections, it may be desirable to provide a like termination. As is well known by those skilled in the art, reflections may be avoided in a terminated coaxial line having a load-absorbing resistive inner conductor by a suitable curving taper of the inner diameter ofthe outer conductor in relation to the magnitude of the resistance of the inner conductor.

As illustrated in Fig. l a compact, easily and inexpensively assembled line termination unit is provided which comprises an outer conductor or resistor housing 11 havsuchas acarbon film thereon to form a resistor rod. The

resistor housing 11 has an inside diameter which tapers along a curve to form afunnel shaped horn inner surface,

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14. The curvature ofthesurface 14 and the resistance of thecarbon film resistor 13 are so related in accordance with known principles that at each point along the length of the line, the center conductor termination resistance between such point and the end of the line, is equivalent to the vcharacteristic impedance of the line measured at that point. The characteristic impedance of a coaxial line is proportional to the logarithm of the ratio of the surface diameters of the inner and outer conductors. `Consequently in aline with an exponential curvature a center conductor of uniform resistance may be used and distances measured along it are in proportion to the logarithm of the internal diameter of the resistor housing 11.

The inner conductor, 13, is silvered or provided with metallized or conductive bands, 15 and 16, at the ends to form surfaces of good conductivity for making electrical connection with theresistance coating 13. Connecting means are provided for gripping theconductor bands 1S and 16 with good electrical contact and they are so constructed that the connection may be made quickly and easily in'assembling the unit. The arrangement is such also as to avoid discontinuities which would interfere with the reflectionless character of the unit. In units designed for five watts or less the axially measured curved surface is approximately one and one-half inches but it will be understood that the invention is not limited to a particular size of units.

The outer conductor or resistor housing 11 has an extension at the left hand or terminal end slitted to lformcontact fingers 17. The inner diameter of the extension formed by thecontact fingers 17 equals the minimum diameter of the taperedinner surface 14 and corresponds to the outer diameter of thecentral conductor 12 so as to make good electrical Contact with theconductor band 15 at the left hand end of theresistor 13.

It will be observed that the extension consisting of thefingers 17 has a relatively small axial thickness in relation to the thickness of the resistor housing 11 at the left-hand end, so that thefingers 17 are relatively flexible.

For insuring tight gripping of the conductor band, 15 by thefingers 17 and avoiding any resistance other than that of the resistor 13 a plurality ofclamping rings 18, 19, 20, and 21 are employed. For example, .as illustrated, there may be four such clamping rings although the invention is not ilmited thereto. Such clamping rings, 18 to 21, may be of a form manufactured by Waldes- Kohinoor, Inc. of Long Island City, New York, `and sold under the name of Tru-Arc rings. Each clamping ring such as theclamping ring 18 has a pair ofears 22 andholes 23 therein, for receiving a suitable tool to spread the rings during assembly. The bending stress of the rings contracts them after assembly has been completed. Anannular groove 24, is machined in thefingers 17, to retain thering 18. The ring 118, thus prevents the other rings 19-21 from slipping off thefingers 17. Since there are no grooves for the rings 19-21, these remain under stress to force thefingers 17 against theconductor band 15 for insuring good electrical contact.

The resistor housing 11 and likewise the extendingfingers 17 are composed of a suitable metal of good electrical conductivity'such as brass or cooper, for example. In -adidtion to making electrical connection withfthe conductor band 15, thecontact fingers 17 serve also to support the kleft hand end of theresistor rod 13 centrally within the resistor housing 11.

Insulated means are provided for supporting and making electrical connection with theconductor band 16 .at the right hand or input end of thefilm resistor 13. As illustrated in the longitudinal sectional view of Fig. 3, such insulated supporting means comprises .a tubular insulator 2S and a socket contact fitting 26. For supporting thetubular insulator 25, there is aconnector jack body 27 orplug body 28, as illustrated in Fig. 3 or 5, according to whether the termination unit is to be screwed into the threaded sleeve of a coaxial line fitting or is to be connected to a coaxial line device adapted to be plugged or screwed into the threaded sleeve of the termination unit. i

In either case the right-hand or input end of the resistor housing `11 is provided with anextension 29 having an outer hex surface continuous with the outer hex surface of the remainder of the resistor housing 11 and a cylindrical inner surface of a diameter slightly larger than the maximum diameter of thetapered surface 14 to obtain a shallow radial shoulder orstep 30 which lies in a plane normal to the axis of the termination. This plane preferably intersects therod 12 at or adjacent the juncture of thelm resistor 13 and theconductor band 16. For receiving theconnector body 27 or 23, theextension 29 is counter-bored to a somewhat larger internal diameter at the right hand end and is also externally machined or cut down to leave a thincylindrical shell 31 and form ashoulder 32. The connector bodies, 27 and 28, are provided withcylindrical base portions 33 adapted to t within theshell 31 and against theshoulder 32.

-In the embodiment of Figs. 1 and 3, theconnector jack body 27 has abore 34 of suitable diameter to make a press t with thetubular insulator 25 and is provided with ashoulder 35 for limiting the axial movement of thetubular insulator 25. Centrally-located and press fitted in thetubular insulator 25 is acenter connector pin 36 having asocket 37 at the inner end for supporting theresistor 12. Outertubular end 38 of the pin is slotted axially in the provision of spring prongs that are sprung toward one another for the purpose of gripping between them the mating pin on the end of the center conductor terminal of a conventional line end fitting (not shown). The contact fitting 26 comprises alarger diameter portion 39, bored to form asocket 41, and a smaller diameter portion orstem 42 tting in theaxial socket 37 in the inner end of theconnector pin 36. Thesocket 41 is of such diameter or is slotted axially as to form a spring lit receiving theconductor band 16 of theceramic insulator rod 12.

It will be observed that thesocket 41 and theconductor band 16 are wholly enclosed, thereby protecting the electrical connection against dust and corrosion. For similarly protecting theconductor band 15 and the contacts with thefingers 13--21, adust cover 43 is preferably provided. The dust cover is in the form of a cup having a relatively thickcircular base 44, a hollow cylindricalA wall portion 45, and a thinner annular etxension orlip 46 on thecylindrical lwall 45. The extension lip is adapted to fit around left hand end 47 of the resistor housing 11. At this end the resistor housing is machined or cut down as by turning to cylindrical shape and provided with a groove shown as an annular V-notch groove 48 into which is rolled the edge of the annular cap lip 47 as by a suitable pressure wheel or crimper. Likewise the end edge of theaxially extending shell 31 of the resistor housing 11 is rolled or crimped intoannular groove 49 and around the slopingshoulder 51 of the connector jack body 27 (or the plug connector body 2S).

Aset screw 52 is preferably provided, mating with a threadedcentral hole 53 in thebase 44 of thedust cover 43 for pushing and holding the parts in assembled relation.

As illustrated in Figs. 1 and 3, thejack body 27 has an outer surface withthreads 54 and is formed with a taperinginner socket surface 55 concentrically surrounding the pronged end of thecenter conductor pin 36 whereby the jack body may be plugged into a suitable coaxial line fitting to make contact with an outer conductor through thesurfaces 54 and 55 and with an inner conductor through the tapering spring pin gripping prongs onend 38.

The reilectionless coaxial line termination unit of Fig. l may also be provided with a jack body having acoupling nut 56 as illustrated in Fig. 5 to receive an externally threaded connector fitting of the general type illustrated by thejack body 27 of Figs. 1 and 3. As illustrated in Fig. 5 thejack body 28 used in conjunction with acoupling nut 56 has abase portion 33,annular groove 49 and taperingshoulder 51 similar to thejack body 27 of Figs. l and 3, whereby it may be secured to the resistor housing 11 into the open end of which it is received by rolling down theshell portion 31 of the resistor housing or body 11. The same type oftubular insulatorV 25 may also be employed `for receiving and supporting thesocket fitting 26.

However, thejack body 28 is relatively short and instead of forming it with a shoulder such as theshoulder 35 of Figs. l and 3, a slottedtubular contact member 57 is provided having a base portion 58 with an outer surface in the form of a truncated cone adapted to be received against a shoulder 59 in thejack body 28 and to be held in place in thejack body 28 by spinning down theportion 61 of the jack body around the outer surface of the base 58 of the member S7.

Thecoupling nut 56 is in the form of a hollow cylinder with a knurledouter surface 63, a central, internally threaded,minimum diameter portion 64 and aninner end portion 65 counterbored to provide a loose tit around the outer surface of thejack body 28.Annular grooves 66 and 67 are formed in the jack body 2S and thecoupling nut 56, respectively, vfor cooperating with aspring ring 70 of the expanding type which holds thecoupling nut 56 in place axially on thejack body 28, but permits rotation thereof. As illustrated, the radial depth of thegroove 66 is as great as that of thering 70. But the radial depth of the outer groove 67 is less than that of the ring 7). Preferably agasket 68 of insulating material is provided Which surrounds the cylindrical portion of the conductor fitting 57 lying between the end of thejack body 28 and the shoulder 69 at the inner end of the threadedportion 64 of thenut 56.

In the embodiment of Fig. 5, 'acenter conductor pin 60 is employed which is received within thetubular insulator 25 as in the case of thepin 36 of Fig. 3, and thepin 60 is provided with `a socket (not shown) corresponding to thesocket 37 of Fig. 3. However, the right hand end of theconductor pin 60 of Fig. 5 is of different form terminating in a reduceddiameter end portion 71 having aconical endAtaper 72. Theconical end taper 72 is adapted to enter and spread a split end type of connector pin such as thepin end 38 of Fig. 3. Likewise theshell 57, havingslots 73, is adapted to be sprung inward for making electrical contact when engaging a tapered inner surface of a coaxial line connection such as the Fig. 3 taperedinner surface 55.

The construction illustrated is especially advantageous in providing a larger yield with a lower standing wave ratio than coaxial line terminations heretofore available. Moreover, the construction illustrated lends itself so well to mass production and accurate reproduction that on a statistical basis the product is better than that heretofore available.

The invention is not limited to forming the resistor housing 11 with a specific external shape. However for convenience in handling and preventing rolling of the unit, it has been found convenient to form the housing 11 with flat outer surfaces. For example, as illustrated in Figs. 2 and 4, the housing 11 may be hexagonal with six hat surfaces 74. The ends 47 and 31, however, of the resistor housing 11 are turned down to form cylindrical outer surfaces to tit thecylindrical cover wall 45 and theconnector body base 33, respectively. The hex- 'agonal shape of the body illustrated is adapted to receiving aname plate 77 of bent sheet form having two 120- degree angles 78 and provided with drive screws 79 which serve at the right-hand end to prevent relative'V rotation and to .provide additional securing means with theconnector body 27 or 28 as the case may be.

Before the unit as a whole is assembled the resistor sub-assembly consisting of theelements 12, 25, 26, 27 and 36 shown in Fig. 3 is assembled. Thestem 42 of the con-'tact fitting 26 is first soldered into thesocket 37 of the center 'conductor pin 36. Theceramic rod 12 having thefilm resistor 13 and theconductive band 16 is then pressed into thecup 39 of the fitting 26. Thetubular insulator 25, first received over theconductor pin 36, is then pressed into theconnector body 27.

Then the resistor sub-assembly is inserted axially into theresistor housing 11 through the right hand end of the latter. Thereupon the Truarc rings, 21, 20 and 19 are assembled in that order onto thefingers 17 by the use of a tool fitting theears 22. Thereafter the last Truarc ring, 18, is` assembled, being permitted to drop into theslot 44 for holding the other Truarc rings in place axially. The electrical performance of the apparatus may then be tested. The radial forces applied continuously to theaxial contact fingers 17 by the stressed rings 18, 19, 20 and 21 cause the fingers to grip the ceramic rod yieldingly. The curvedinner surface 14 of theV housing 11 is continued onto thefingers 17 and the inner surfaces of the fingers at their outer ends are relieved at 82 in the provision on each of the fingers of an axiallyshort land 80 which bears strongly against the conductor band at circular `juncture line 81 between the conductor bandand theresistive film 13.

The shell 31-of the resistor housing. 11 is then rolled over the slopingShoulder 51,vthe dust cap 43 is assembled and its lip or edge 46 is rolled into the V-notch groove 48. Thereafter, theset screw 42 is inserted.

Holes are drilled into the resistor housing 11 to receive the drive screws 79 and thename plate 77 is attached by means of thescrews 79.

If electrical performance has not already been tested it may also be tested after the name plate has been attached. As a final step after assembly and testing, theset screw 52 may be secured by a suitable cement or varnish. A drop of adhesive liquid is applied thereto such as a synthetic varnish or cement of the alkyd-resin type, for example, that sold under the trade name Glyptal.

In assembling the form of apparatus represented by Fig. 5, the resistor sub-assembly consisting of theceramic rod 12, theconnector body 28, thetubular contact 57, theVtubular insulator 25, the socket fitting 26 and thepin 60, is first assembled. This sub-assembly is then assembled with the resistor housing 11 and the Truarc rings 18, 19, 20, and 21 are assembled in place. Electrical performance is then tested, if desired. Theshell 31 is rolled over the slopingshoulder 51, after which thedust cap 43 is assembled as previously described and the name plate is att-ached. If not previously done, preferably the electrical performance is then tested, after which the connectingnut 56 is assembled by means of the expandingring 70 after inserting thegasket 68, The final step, as before, Vis applying the Glyptal resin to theset screw 52.

In accordance with the patent statutes, the principles of the present inventori may be utilized in various ways, numerous modifications and alterations being contemplated, substitution of parts and changes in constructions `being resorted to as desired, it being understood that the embodiment shown in the drawings and described above are given merely for purposes of explanation and illustration without intending to limit the scope of the claims to the specific details disclosed.

What is claimed is:

1. A reliectionless termination unit for a coaxial electrical line comprising in combination a hollow elongated lone piece metal housing of uniform external size over themajor portion of its length and having an internal tapered surfaceof circular section progressively reducing in diameter from a maximum at its input end to a minimum at its terminal end, said lhousing constituting the outer conductor of the unit, an elongated center conductor coaxial to the housing surface extending from the input end to the terminal end and comprising cylindrically surfaced resistance material, the center conductor having input and terminal ends, a fitting electrically contacting the center conductor at the input end thereof, said housing having an axial extension `at the input end thereof, said housing extension having an internal cylindrical surface coaxial lto and of substantially the same diameter as the maximum diameter of said internal tapered surface, a jack body, a tubular insulator in said jack body, a connection pin within said tubular insulator and having connection with said fitting, said housing at the terminal end of the outer conductor having a relatively thin tubular axial extension, said housing extension comprising radially yieldable contact means, the inner surface of such terminal extension contact means constituting an extension of the internal surface of the housing for making electrical contact with the terminal end of the center conductor, clamping ring means fitting around said tubular extension gripping the latter and pressing said contact means yieldingly inward against the center conductor for maintaining a shorting electrical connection between the tapered surface and the center conductor while permitting relative axial sliding thereof, and a hollow dust cover vshorter than the housing enclosing the terminal end of the center conductor, the tubular terminal end extension of the housing and the ring means, said cover being secured to the housing at a point of the latter intermediate its ends and spaced axially toward the input end from the ring means with the major portion of the housing outside the dust cap.

2. A refiectionless termination unit for a coaxial electrical line comprising in combination a hollow elongated one piece metal housing of uniform external size over the major portion of its length and having an internal tapered surface of circular section progressively reducing in diameter from a maximum at its input end to a minimum at its terminal end, said housing constituting the outer conductor of the unit, an elongated center conductor coaxial to the housing surface extending from the input kend to the terminal end and comprising cylindrically surfaced resistance material, the center conductor having input and terminal ends, a fitting electrically contacting the center conductor at the input end thereof, a jack body, a tubular insulator in said jack body, a connection pin within said tubular insulator and having connection with said tting, said housing at the terminal end of the outer conductor having a relatively thin tubular axial extension, said housing extension comprising radially yieldable contact means, the inner surface of such terminal extension contact means constituting an extension of the internal surface of the housing for making electrical `contact with the terminal end of the center conductor, clamping ring means fitting around said tubular extension gripping the latter and pressing said contact means yieldingly inward yagainst the center conductor for maintaining a shorting electrical connection between the tapered surface and the center conductor while permitting relative axial sliding thereof, an end member connected to the housing intermediate the terminal extension and the input end, said end member extending axially beyond the terminal extension, and screw means carried wholly by the end member kand engaged against the terminal end of the center conductor, said screw means being coaxial to the center conductor and actuatable to shift the latter axially in relation to the housing.

3. A termination for a coaxial electrical line, said termination comprising an elongated tubular housing having Va main portion formed with an internal conductive surface comprising the outer conductor of the termination, means carried by the housing connected to one end of the surface' for electrically connecting such surface to the outer conductor of such a line, an elongated center conductor within the housing and generally spaced from the conductive surface, said center conductor comprising cylindrically surfaced resistance material, means connected to one end of the center conductor for electrically connecting the center conductor to the inner conductor of such a line, insulating means supporting the second mentioned connecting means in the first mentioned connecting means, the center conductor having a radial shoulder abutting said insulating means, the housing including a portion extending as an axial extension of the main portion at the other end of said conductive surface and having radially yieldable elements providing conductive surface means electrically connected to and extending as a continuation of said internal surface, resilient means biasing the elements toward and holding said surface means in mechanically yielding constant electrical contact with the center conductor at the other end of the latter in the provision of a shorting electrical connection between said other ends of the conductive internal surface and the center conductor, an adjusting element, and means carried by the housing and supporting the adjusting element wholly outside the shorting connection for relative movement and adjustment to react against the center conductor While the shorting connection is maintained and to thereby hold the shoulder against the insulating means.

4. A termination as claimed in claim 3 in which Athe housing includes an attaching portion intermediate and spaced axially from both ends of the center conductor and located radially outwardly from the extension portion and said supporting means for the adjusting element is secured to the attaching portion.

5. A termination as claimed in claim 3 in which the supporting means straddles said other end of the center conductor, the yieldable elements and the biasing means and is connected to the housing solely at points axially located intermediate the ends of the center conductor, and the adjusting element threadedly engages the supporting means and is adapted for axial shifting movement relative to the housing and against the center conductor.

6. A termination as claimed in claim 5 in which the supporting means comprises a cup having a rim fast to the housing and providing a closed chamber outside the space between the internal conductive surface and the center conductor, said other end of the center conductor, said yieldable elements, and said biasing means being disposed in the closed chamber, and the adjusting element being threaded through the bottom of such cup.

7. A refiectionless termination unit for a coaxial electrical line comprising in combination an elongated tubular housing member having a tapered internal conductive surface, an elongated center conductor comprising a resistor extending through the housing member in coaxial relation, means at one end of the housing member for connecting the conductive surface and the center conductor to the outer and inner conductors, respectively, of such a line, means providing a shorting connection between the conductive surface and the center conductor at the other end of the housing member, the housing member being relatively thin walled at said one end and relatively thick walled at said other end, said conductive surface and center conductor defining and being separated by an annular dielectric space which decreases in cross sectional area progressively from said one thin walled end toward said other thick walled end of the housing member, said center conductor projecting out through and extending axially beyond the housing member at said thick walled end, said shorting means comprising means fast to the housing member at the thick end providing a plurality of generally axially extending radially yieldable fingers, each of said fingers having a radially inwardly directed surface substantially ush withand extending as a continuation of the tapered internal surface, resilient means embracing the axial fingers and clamping them against the projecting end of the center conductor to effect said shorting connection between the center conductor and the conductive surface of the housing member, means anchored to said thick walled end of the housing member and enclosing the projecting end of the center conductor, the yieldable fingers and the resilient means, and adjusting means carried by said enclosing means and actuatable to apply axial load to said projecting end of the center conductor. i

8. A termination unit for a coaxial electrical line comprising in combination an outer conductor with input and terminal ends and which includes an elongated hollow housing externally of generally uniform shape throughout the major portion of its length, the housing comprising a body portion formed `with an internal tapered surface of circular section progressively reducing in diameter from the input end toward the terminal end, the body portion being radially relatively thin at the input end and relatively thick at the terminal end, an elongated resistive center conductor within and coaxial to the housing surface extending from the input end to the terminal end, the center conductor having input and terminal ends respectively adjacent the input and terminal ends of the outer conductor, a fitting supportingly and electrically contacting the input end of the center conductor, a conductive jack body fast to the housing at the input end and having an internal surface electrically continuous with the tapered internal surface, a tubular insulator in said jack body, a connection pin Within said tubular insulator and havin-g connection with said fitting for supporting the latter and the input end rof the center conductor, said housing having at the thick terminal end of the body portion a tubular axial extension portion embracing the terminal end of the center conductor, said terminal extension portion being radially yieldable and thin relative to the body portion at the terminal end and having an inner surface continuous with the tapered surface to constitute an axial extension of the tapered surface, said surface of the terminal extension being in yielding electrical contact with the terminal end of the center conductor providing for axial movement of the center conductor relative to the housing while said yielding Contact is maintained, clamping ring means fitting around said tubular extension gripping the latter and pressing it inward against the center conductor, and a hollow dust cover enclosing the terminal end of the center conductor, the terminal extension portion of the housing and the ring means with an intervening annular clearance between the cover and the enclosed extension portion and ring means and an intervening axial clearance between the cover and the enclosed terminal end of the center conductor, the major portion of the housing being outside the cover and said cover having an open end secured to and closed `by the thick end of the body portion of the housing at the terminal end.

9. A termination unit for a coaxial electrical line comprising in combination an outer conductor with input and terminal ends and which includes an elongated hollow housing externally of generally uniform shape throughout the major portion of its length, the housing comprising a body portion formed with an internal tapered surface of circular section progressively reducing in diameter from the input end toward the terminal end, the body portion being radially relatively thin at the input end and relatively thick at the terminal end, an elongated resistive center conductor within and coaxial to the housing surface extending from the input end to the terminal end, the center conducto-r having input and terminal ends respectively adjacent the input and terminal ends of the outer conductor, a fitting supportingly and electrically contacting the input end of the center conductor, a conductive jack body fast to the housing at the input end and having an internal surface electrically Continuous with the tapered internal surface, a tubular insulator in said jack body, a connection pin within said tubular insulator and having connection with said fitting for supporting the latter and the input end `of the center conductor, said housing having at the thick terminal end of the body portion a tubular axial extension portion embracing the terminal end of the center conductor, said terminal extension portion being radially yieldable and thin relative to the body portion at the terminal end and having an inner surface continuous with the tapered surface to constitute an axial extension of the tapered surface, said surface of the terminal extension being in yielding electrical contact with the terminal end of the center conductor providing for axial movement of the center conductor relative to the housing while said yielding contact is maintained, a cover over the terminal end of the center conductor and the terminal extension portion of the housing with an intervening radial clearance between the cover and such terminal extension and an intervening axial clearance between the cover and the center conductor terminal end, said cover being secured to the thick end of the body portion of the housing at a point adjacent the terminal end of the outer conductor, and screw means threadedly engaged in the cover and wholly supported thereby, said screw means being adapted to bear axially against the terminal end of the center conductor to limit said relative axial movement.

10. A termination unit for a coaxial electrical line comprising in combination an outer conduct-or with input and terminal ends and which includes an elongated hollow housing externally of generally uniform shape throughout the major portion of its length, the housing comprising a body portion formed with an internal tapered surface of circular section progressively reducing in diameter from the input end toward the terminal end, the body portion being radially relatively thin at the input end and relatively thick at the terminal end, an elongated resistive center conductor within and coaxial to the housing surface extending from the input end to the terminal end, the center conductor having input and terminal ends respectively adjacent the input and terminal ends of the outer conductor, a fitting supportingly and electrically contacting the input end `of the center conductor, a conductive jack body fast to the housing at the input end and having an internal surface electrically continuous with the tapered internal surface, a tubular insulator in said jack body, a connection pin within said tubular insulator and having connection with said fitting for supporting the latter and the input end -of the center conductor, said housing having at the thick terminal end of the body portion a tubular axial extension portion embracing the terminal end of the center conductor, said terminal extension portion being radially yieldable and thin relative to the body portion at the terminal end and having an inner surface continuous with the tapered surface to constitute an axial extension of the tapered surface, said surface of the terminal extension being in yielding electrical contact with the terminal end of the center conductor providing for axial movement of the center conductor relative to the housing while said yielding contact is maintained, clamping ring means tting around said tubular extension gripping the latter and pressing it inward against the center conductor, a cover over and enclosing the terminal end of the center conductor, over and enclosing the terminal extension portion of the housing and over and enclosing the ring means, with an intervening annular clearance between the cover and such terminal extension and an intervening axial clearance between the cover and the center conductor terminal end, said cover being secured to the thick end of the body portion of the housing at a point adjacent the terminal end of the outer conductor, and screw means threadedly engaged in the cover and wholly supported thereby, said screw means being adapted to bear axially against the terminal end of the center conductor to limit said relative axial movement.

l1. A coaxial electrical line termination unit having input and terminal ends, said unit comprising in combination an outer conductor which includes an elongated hollow housing externally of generally uniform shape throughout the major portion of its length, the housing comprising a body portion formed with an internal surface of circular section progressively reducing in diameter toward the terminal end, the lbody portion being radially relatively thin in section adjacent the input end and having an end part relatively thick in section adjacent the terminal end, an elongated center conductor within and coaxial to the housing surface extending from the input end to and projecting axially beyond the thick sectioned end part of the housing body portion, the center conductor having a resistive portion and input and terminal ends, a tting supportingly and electrically contacting the input end of the center conductor, a conductive jack body fast to the housing at the input end and having an internal surface electrically continuous ywith the internal surface of the body portion, a tubular insulator in said jack body, a connection pin within said tubular insulator and having connection with said fitting for supporting the latter and the input end of the center conductor, said housing having a tubular terminal extension portion fast to the thick sectioned end part, said extension portion projecting axially beyond such thick part and embracing the projecting end of the center conductor, said extension portion being thin and radially yieldable relative to the thick part of the body portion and having an inner surface continuous with the internal surface of the body portion to constitute an axial extension of the llatter surface, and means maintaining said surface of the terminal extension bearing yieldingly radially against and in electrical contact with the projecting end of the center conductor.

References Cited in the file of this patent UNITED STATES PATENTS 2,438,915 Hansen Apr. 6, 1948 2,443,635 Morris et al. June 22, 1948 2,556,642 Bird June 12, 1951 2,746,098 Phillips Mar. 27, 1956 2,793,352 Bird May 2l, 1957 2,839,730 Rosenberg June 17, 1958 2,844,792 Bird July 22, 1958 FOREIGN PATENTS 819,549 Germany Nov. 5, 1951

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