WO1986002496A1 - Electronic key assemblies - Google Patents

Abstract

An electronic key assembly (80, 109, 119) comprising an insulating plug body (11, 88, 152, 230) having a front mating end (17) for receipt in a jack and a rearwardly spaced, chip carrier receiving cavity (19, 92, 114, 124, 154, 232). A series of contacts (12, 89, 90, 112, 125, 126, 179, 270) having first contact portions (34, 99, 127, 127', 180) are mounted in body recesses (33) at the mating end (17) for engagement with spring contacts of a complementary jack and second spring contact portions (36, 103, 132, 182, 272) which extend into the cavity (19, 92, 114, 124, 154, 232) are for engagement with respective leads of a chip carrier (15, 87, 111, 120, 155, 260) received therein. Releasable latch arms (41, 189, 189', 290) extend rearwardly from the mating end (17) and, in some examples, a sleeve-form shield (13, 192) moulded or latched in the fingerpiece (14) is received on the body (11, 58, 152) to surround a rear end and the chip carrier (15, 87, 111, 120, 155). Anti-overstress hooks or eyes (64, 220, 299) extending from the fingerpiece (14) hook over the latch arms (41, 189, 189', 290) to prevent excessive movement of the latch arms (41) away from the body (11). In one example, the shield (192) includes a window (194) having a rim (195) surrounding the first contact portions (180) and the fingerpiece (210) includes a tongue (213) which extends forwardly within the shield (192) to a location adjacent the first contact portions partly to close the window (194). In another example, a grounding plate (242) extends through a slot (240) in the plug body (230) into contact with a printed circuit board (260) in the cavity (232).

Description

ELECTRON I C KEY ASSEMB LIES The invention relates to electronic key assemblies. In order to prevent unauthorized entry or use of a facility such as a computer program , it has been proposed to require the use of an electronic key in the form of a preprogrammed microcircuit chip to gain access to the facility.

In one particular application , concerning computer software, the electronic key would be supplied to an authorized user with the disc or tape carrying the program. Use of the program would then only be possible when a compatible signal had been received from the key connected to the terminal .

It is clearly desirable that the key can be readily manipulated by the user, is significantly rugged to withstand handling abuse, easily connected and disconnected from the equipment. In addition , it is desirable that the key is compatible with standard modular jacks used in the data industry.

An example of such modular jacks (and compatible plugs) is disclosed in U . S. Patent No. 4,457, 575. In the standard jacks , a row of spring contacts extend from one side of a mating face, rearwardly, cantilever fashion , across a plug receiving socket, obliquely of the mating axis. Compatible plugs each include a row of contacts extending across one side of an insulating plug body at a mating end for engagement with respective socket contacts on insertion of the plug into the socket.

In addition , the key should be capable of economic manufacture, desirably using standard chip carriers permitting surface mounting with minimal modification . According to one aspect of the invention , an electronic key assembly comprises an insulating plug body moulded from plastics material having a front, mating end for receipt in a jack and a rear end formed with a cavity; a row of contact receiving recesses extending rearwardly along a side of the body adjacent to the mating end; a series of contacts having first contact portions mounted in the recesses and exposed along the side of the body adjacent the mating end for engagement with spring contacts of a complementary jack, and releasable, resilient latch arms extending rearwardly from the mating end , and is characterized in that, the cavity is adapted to receive a chip carrier and is spaced from the mating end , the contact receiving recesses communicating with the cavity and the contacts have second , spring contact portions extending rearwardly of the first contact portion into the cavity for engagement with respective conductors of a chip carrier received in the cavity.

Preferably, the shield is anchored in a fingerpiece at one axial end , to facilitate handling . To enable the key to be carried by the user and consequential rough handling, anti-overstress means extends from the fingerpiece trapping the latch arm to prevent excessive movement thereof away from the body.

More particularly, the latch arm is formed with a forwardly facing shoulder adjacent its rear end and the overstress means comprises a rearwardly facing hook engaging the shoulder. Conveniently , the latch arm is stepped outwardly towards its free end to provide the shoulder.

In one example, the fingerpiece is moulded from plastics material with the overstress means integral therewith , the shield being in moulded with the fingerpiece. In one preferred form, the shield includes a forwardly extending flap formed with a window, a rim of which window is deformable to extend along the side of the body and along the mating end surrounding the first contact portions of the series of contacts so that they are in registration with the window. This assists in preventing damage from electrostatic charge carried by any objects adjacent the first contact portions .

The wall of the shield may be spaced apart rearwardly of the first contact portions , a rear end of the shield being anchorable in a fingerpiece which includes a tongue which extends forwardly through the sleeve over the cavity to a location adjacent the recesses receiving the first contact portions to bridge the space between the shield wall and the recesses thereby completely to close the cavity. The anti-overstress means may comprise an eye on the fingerpiece receiving a rearwardly extending projection on a rear free end of the latching means .

The chip carrier may be constituted by a printed circuit board received in grooves extending along opposite side walls of the cavity from an open rear and the fingerpiece may include a stop engaging the rear of the printed circuit board in the assembled condition of the key to retain the printed circuit board accurately located in the grooves .

This provides a rugged and compact key assembly which incorporates a standard chip carrier with minimal modification , is economical to manufacture by mass production techniques , and which is also compatible with existing standard modular jack structures .

An electrical socket connector incorporating an integrated circuit is disclosed in U . S . Patent No. 4 ,206 ,962. However , the connector is not compatible with standard modular jacks commonly used in the data industries . I n addition , the integrated circuit is relatively insecure and electrically unprotected as by shielding .

Examples of key assemblies according to the invention will now be described with reference to the accompanying drawings in which :

FIGURE 1 is an exploded isometric view of a first example of a key assembly according to the invention;

FIGURE 2 is an isometric view of the assembly of Figure 1 ; FIGURE 3 is a cross-sectional view of the assembly taken along line 3-3 of Figure 2;

FIGURE 4 is an exploded isometric view of a second example of a key assembly according to the invention ;

FIGURE 5 is an isometric view of the assembly of Figure 4; FIGURE 6 is a cross-sectional view of the assembly taken along line 6-6 of Figure 5 ;

FIGURE 7 is an exploded isometric view of a third example of a key assembly according to the invention; FIGURE 8 is an isometric view of the assembly of Figure 7;

FIGURE 9 is a cross-sectional view of the assembly taken along line 9-9 of Figure 8;

FIGURE 10 is an exploded isometric view of a fourth example of a key assembly according to the invention; FIGURE 1 1 is an isometric view of the assembly of Figure

10;

FIGURE 12 is a cross-sectional view of the assembly taken along line 12-12 of Figure 1 1 ;

FIGURE 13 is a fragmentary cross-sectional view along line 13-13 of Figure 1 of the fourth example showing the contact layout;

FIGURE 14 is an* exploded isometric view of a fifth example of key assembly according to the invention;

FIGURE 15 is an isometric view of the assembly of Figure 14;

FI GURE 16 is a cross-sectional view taken along line 16-16 of Figure 1 ;

FIGURE 17 is a fragmentary plan view of the assembly of Figure 14 partly in cross section; FIGURE 18 is a longitudinal cross-sectional view of a sixth example of key assembly;

FIGURE 19 is a fragmentary cross-sectional view taken along line 19-19 on Figure 18;

FIGURE 20 is a perspective view of the sixth example; and , FI GURE 21 is a perspective view of the grounding plate of the sixth example.

In the first example, shown in Figures 1 to 3 , the key assembly 10 comprises an insulating plug body 1 1 , housing a series of contacts 12 , a sleeve-form shield 13 in moulded in a plastics fingerpiece 14 and a chip carrier 15 incorporating a programmed chip (not shown) .

The external profile of the plug body 11 is similar to that described in U . S . Patent No. 4, 457 , 575 and is adapted to mate with a suitable conventional jack. Briefly described , the plug body 1 1 has a front mating end 17 and a rear end 18. A chip carrier receiving cavity 19 is formed adjacent the rear end 18 spaced from the mating face and comprises a base 21 with a transverse aperture 22 , opposed side walls 23 upstanding from the base 21 and having an overhanging upper edge 24. The cavity is provided with a chip carrier admitting opening 26 at the rear across which extends a latching detent 27 integral with the upper edges 24 of the side walls 23. Two spaced rows of spaced barrier walls 29 and 31 outstand respectively from a depression in a side of the body between the mating end 17 and the cavity 19 and the front wall 28 of the cavity defining between them contact receiving recesses 32 / 33 extending rearwardly from the mating end towards the cavity and down the cavity wall 28 to the base 21 . Stamped and formed metal contacts 12 each have a first contact portion 34 anchored in the depression by barbs 35 , a body portion 37 extending along the front wall 28 of the cavity between barriers 31 , and a second contact portion 36 extending across the cavity base 21 in parallel , spaced apart relation and bowed upwardly to constitute a beam spring portion , anchored at free ends by tangs in recesses adjacent aperture 22.

Latch arms 41 extend rearwardly from root ends integral with opposite sides 42 of the body at the front end 17 and are formed with rearwardly facing latching shoulders 43 at intermediate locations. The arms are stepped outwardly of the plug body adjacent their rear, free, ends to provide forwardly facing shoulders 44 for cooperation with anti-overstress means described below.

The shield 13 is stamped and formed from sheet metal stock as an open-seamed rectangular-section tube with a flap 54 closing one end which is in moulded in the plastics fingerpiece 14. The shield is formed with latching detents 55 and 56 on upper and lower sides . An aperture 57, to admit potting material , is formed in the upper side. The fingerpiece 14 is of rearwardly tapering cross section and includes finger receiving recesses 61 on upper and lower faces. Extending forwardly in divergent fashion from opposite sides are anti-overstress cantilever arms 64 having hooked ends 65. The chip carrier 15 is of standard type having lead~ removed from opposite side faces 67 to facilitate receipt in the cavity, leaving a row of eight leads 68 and 69 on front and rear faces 70 and 71 .

To assemble the key, the chip carrier 15 is inserted through the rear opening 26 into the cavity by resilient flexure of the detent 27 so that the chip carrier is trapped by the detent 27 and the overhar ging upper edges . The leads 68 wipe across respective second contact portions 36 during insertion with flexure of both to establish connection therebetween . The shield carrying the fingerpiece is then slid over the rear of the plug body with the chamfered hooked portions 65 initially camming the free ends of the latch arms 41 inwardly- and ultimately snapping behind the shoulders 44. The detents 55 and 56 snap into recesses 69 on the underside of the plug ^!x>dy and behind detent 27, respectively , to latch the shield permanently onto the body. Potting material can then be injected through opening 57, if desired .

A rugged and compact structure is thus formed by mass production techniques . Overstress of the latch arms 41 away from the body is prevented by the anti-overstress arms 64 enabling the key assembly to be freely handled and carried by the user.

A minimum of modification , both of the conventional plug design and chip carrier, is needed and the plug is compatible with conventional jacks being readily plugged and unplugged from the computer terminal .

A further advantage of the particular contact, construction is that a smooth , unsrfeared surface of the contact portions engages the jack contacts rather than the rough sheared edge of conventional wire connecting contacts. This enhances contact life and the rel iability of the electrical connection .

The aperture 22 is provided to admit a shear blade to sever the contacts from a carrier strip after receipt in the housing . In the second , third and fourth examples of key assemblies

80 , 109 and 1 19 , respectively, the shield and fingerpiece are substantially identical to that of the first example. Similarly, the external profile of the plug body is substantially identical to that of the first example except in relation to dimensions and coding features . Other features of difference which adapt the plug to accommodate different chip carrier structures are described below.

I n the second example, shown in Figures 4 to 6 , the plug "body 88 and contacts 89 and 90 are designed to provide an eight line connection to a standard twenty-four line chip carrier 87. In this example, the rear wall 91 of the cavity 92 is imperforate, the base being open to admit the chip carrier, latching detents 93 being provided on side walls 94 to retain the chip carrier in position . A series of spaced barriers 95 extend rearwardly and continuously from the front end along one side and down a front wall 96 of the cavity. The top of the cavity is closed by a wall 97 and contact admitting passageways 100 are provided for second contact portions of contacts 89 entering the cavity. A pair of grooves 98 extend vertically along opposite side walls adjacent the front wall .

The six central contacts 89 are identical , with first contact portions 99 located between barriers 95 and second contact portions 101 extending through passageways 100 down along the front wall bowed away from the wall to form beam springs . The outer two contacts 90 have longer first contact portions that extend into grooves 106 in wall 97 then through 90 degrees to extend downwardly through passageways 107 at the junction of side and top walls 94 and 97 so that second contact portions 103 extend along the grooves in the side wall forming similar beam springs , but aligned with leads 106. Barbs such as indicated at

109 assist in retaining the contacts in the housing .

This enables the chip carrier to be press-fitted into the cavity through the open base with contact portions 101 connecting to the row of six leads 106 on one face of the carrier and contact portions 103 connecting to the one adjacent lead 104, 105 on each adjacent face.

In the third example 109 of the invention , eight lines of connection are formed by connection with eight preselected leads

110 of a standard forty-four lead chip carrier 111 using contacts 112 identical to each other and similar to the contacts 89 of the second example. The cavity 1 14 has a top chip carrier admitting opening and '•an imperforate base, side and end walls.

In the fourth example 119 , the chip carrier has the form of a dual-in-line package 120 with four leads 121 on each of a pair of opposite faces . .The cavity 124 is formed with a chip carrier admitting opening 125 at the base and a top wall 126 spaced in part from the top side of the plug. - Four, spaced apart, contact receiving passageways 133 , 134 extend through the top wall 126 adjacent a front and rear wall of the cavity communicating with the cavity and the space, opening to form grooves extending along the front and rear cavity walls. Between the grooves extend lead guiding ribs 135 , 135' which both assist in isolating adjacent contacts received in the grooves and the adjacent chip carrier leads 121 and assist in guiding the leads into the grooves .

The two sets of contacts 125 , 126 are of different lengths for receipt in the forward and rearward grooves 133 and 1 34 , respectively. The sets have identical first contact portions 127 , 127' but the body portions 128 of contacts 125 are relatively short so that their second , bowed , contact portions 130 extend through passageways 133 and are received in the grooves on the front wall of the cavity. The body portions 129 of contacts 126 are relatively long and stepped across at 131 so that second , bowed , contact portions 132 are received as beam spring 138 in grooves 134 opposite first contact portions 130. Barbs 140 are provided at various positions along the contacts to retain them as an interference fit in the grooves .

In this example, the shield latching detents 138 , 139 are received in recesses 141 , 142 on upper and lower sides of the plug body adjacent the rear.

I n the fifth example of key assembly shown in Figures 14- to 17, the plug body 152 is formed with a chip carrier receiving cavity 154 adapted to receive a chip carrier 155 constituted by a printed circuit board 156 having a chip 157 mounted on one face 158 ( Figure 16) . The cavity 151 is open to the plug rear and a base 154 of the cavity is formed with a central chip receiving pocket 16^*0 the opposite rims 162' of whi h cooperate - with overlying ribs 163 , 163' extending from side walls 164, 164' to define printed circuit board receiving grooves 166' -extending forwardly from the open rear.

A row of barrier walls 167 outstand from a depression 168 in a side of the body and extend rearwardly down a front wall 169 of the cavity 154 to define between them contact receiving recesses 170 which communicate rearwardly with contact receiving grooves 172 in the base 159. Portions 174 of the barrier walls which extend down the front wall are stepped down to provide shoulders 175 and are cut away adjacent the bases to provide board admitting openings 176.

The recesses receive contacts 179 each stamped and formed with hooked first contact portions 180 joined by body portion 181 to cantilever spring second contact portions 182. Leading ends 183 of the hooked contact portions 180 are located in wells 184 formed in the recesses adjacent the mating face; the body portions are anchored by barbs 185 which engage adjacent barriers and the second contact portions extend into the grooves 172. A shield receiving groove 188 extends along the front face surrounding the contact and barrier rows and rearwardly partway along an upper edge of the side walls , the base of the groove being coplanar therewith. Fingerpiece latching notches 186, 186' extend through respective side walls 164, 164' at locations towards the rear end and outwardly facing latching recesses 187, 187' are formed in the side walls between the latching notches and the free end . The latching arms 189 , 189' have outwardly projecting fingerpieces 190 , 190' at free ends and rearwardly projecting latches 191 , 191 ' .

The shield 192 is modified in that one side is provided with a forwardly extending flap 193 formed with a window 194 from opposite sides of a rim 195 of which extend anchoring barbs 196, 196' . Latching apertures 197, 197" , 198, 198' are formed adjacent a forward end in respective opposite sides of a seam and in opposite sides adjacent a rear end . Locking lances 201 , 201 ' upstand from_* a side wall at the rear open end of the shield . The fingerpiece 210 is moulded in one piece of plastics material and includes spaced apart upper and lower walls 21 1 , 21 1 ' joined by opposed side walls 212 , 212' and an end wall 208 forming a socket. A tongue 213 protrudes forwardly from the end wall 208 adjacent and spaced f.'om the upper wall 21 1 and is formed with a stress relieving aperture 215 at a location between latching detents 216 on respective opposite edges. A stop 217 is formed at the junction of the tongue and the end wall . A latching recess 218 is formed in a lower surface of the stop 217. Catches 219 are formed on forward edges of the end walls and anti-overstress eyes 220 , 220 extend from opposite side walls 212 , 212' .

To assemble the key, the printed circuit board 156 carrying the chip 157 is slid along the grooves 166 , 1 66' until the conductive paths on the board engage the second contact portions 182 with resulting flexure thereof. The shield is then inserted , rear first, into the fingerpiece socket with the upper wall received between the tongue 213 and the adjacent socket wall 21 1 and the catches 219 latching in apertures 198. The locking lances also snap into recesses 218 to assist in anchoring the shield in the fingerpiece. The subassembly of the fingerpiece and shield are then applied to the rear end of the plug body until the catches 216 , 216' snap into notches 186 , 186* and latching apertures 197 , 197' receive latching ramps 230 formed on the undersurface of the plug body securing the assembly together. The catches 219 are also received in recesses 187. The stop 217 engages the printed circuit board and retains it firmly in position . The flap 193 is then deformed so that the rim 195 seats in the groove 188 at the front end . Resin may then be injected through apertures (not shown) in the rear of the fingerpiece. Alternatively, where the assembly is to be supplied in only part assembled condition to permit subsequent insertion of the chip carrier the shield is preassembled onto the plug body and the flap deformed into place prior to receipt of the chip carrier and application of the fingerpiece. Advantages associated with the fifth example are that the shield rim 195 will usually be closer than the contacts to external objects that could carry a high electrostatic charge. Thus , preferential discharge will occur onto the grounded shield protecting the chip from damage. Further protection from ingress of charged foreign objects a^'djacent the. contacts is provided by the leading end of the tongue which substantially completely encloses the cavity when it seats on the shoulder 175 on the barriers 167 in the fully assembled condition of the key. This enables a greater clearance to be provided for the insertion of contact assembly tooling into the plug body adjacent the rear of the hooked first contact portion in the unassembled condition of the key. The key is thus readily manufactured and assembled using mass production techniques .

In the sixth example of key assembly shown in Figures 18 to 21 , the plug body 230 is formed with a chip carrier ( printed circuit board) receiving cavity 232 open to the rear 234 and having a front cavity portion 236 receiving a row of barrier walls 238 of reduced height and open to the top of the body . A slot 240 extends through a base wall 241 of the cavity at a location adjacent an end wall 243 of the cavity which wall is stepped at 245 and the exterior of the plug body is formed with a recess 247 communicating with the slot 240. A pair of printed circuit board support rails 244 extend along respective opposite sidewalls in alignment with the barrier walls 238 from the rear to a location adjacent the front cavity portion 236.

The latch arms 290 are each modified by the provision of an outwardly extending finger piece 292 adjacent a free end and a catch 294 at the free end having an inwardly facing cam surface 296 and an outwardly facing shoulder 298. An anti-tangling or overstress eye or hasp .299 outstands from each sidewall . The latch arms are moved from the condition in which they emerge from a mold and are not trapped by the eyes (as shown in ' broken lines in Figure 20) to the trapped condition (shown in continuous lines) by pressing the finger piece towards the sidewall producing resilient flexure of the catch and arm permitting the catch to be received in the eye in a snap action . In this condition , tangling of the free end of the latch arm is obviated.

A grounding plate 242 is stamped and formed from sheet metal stock with a planar portion 246 bent adjacent a rearward end to form a upstanding portion 248 from respective opposite sides of which extend contact legs 250 , 250' with contact feet 251 , 251 ' formed at free ends. Anchoring tangs 252 , 252' are provided at respective root ends of the contact legs. The grounding plate^' 242 is assembled with the plug body as shown in Figure 18 with the upstanding portion 248 received in the slot 240 and retained in place by the tangs 252 , 252' in anchoring engagement with opposite walls of the cavity . In this condition , the contact legs 250 , 250' will protrude above and between the support rails 244 and the barrier walls 238. Stamped and formed metal contacts 270 are generally similar to those of the previously described examples with second resilient contact portions 272 extending across a base wall portion 274 of the front cavity portion 236 between respective barrier walls 238 consituting beam springs with central bowed contact surfaces projecting above the barrier walls 238.

Insertion of a printed circuit board 260 carrying surface mounted chips generally indicated at 282 causes deflection of the contact legs 250, 250' rearwardly into a recess formed by the stepped portion 245 so that the feed 251 , 251 ' and the second contact portions 272 establish electrical connections with the conductive tracks on the board surface. Subsequently , the entire assembly may be potted by injection of a suitable material into the rear of the cavity. When the plug is mated with a suitable jack , as described in U . S . Patent No. 4 , 457, 575 , the grounding plate will π\ake contact with the resilient cantilever beam portions of the jack shield which extend into the jack cavity from the plug deceiving mouth . This example of key assembly is for use where complete shielding is not required , the grounding plate providing adequate ground connection to the printed circuit board. This key assembly may be produced for lower cost than the previous examples.

Claims

CLA1MS:

1. An electronic key assembly (10, 80, 109, 119) comprising an insulating plug body (11, 88, 152, 230) moulded from plastics material having a front, mating end (17) for receipt in a jack and a rear end (18) formed with a cavity (19, 92, 114,"

124, 154, 232); a row of contact receiving recesses (33) extending rearwardly along a side (11, 88, 152, 230) of the body adjacent the mating end; a series of contacts (12, 89, 90, 112,

125, 179, 270) having first contact portions (34, 99, 127, 127', 180) mounted in the recesses (33) and exposed along the side of the plug body (11, 88, 152, 230) adjacent the mating end for engagement with spring contacts of a complementary jack, and releasable, resilient latching arms (41, 189, 189', 290) extending rearwardly from the mating end characterized in that, the cavity (19, 92, 1Ϊ4, 124, 154, 232) is adapted to receive a chip carrier (15, 87, 111, 120, 155, 260) and is spaced from the mating end, the contact receiving recesses (33) communicate with the cavity (19, 92, 114, 124, 154, 232) and the contacts have second, spring contact portions (36, 103, 132, 182, 272) extending rearwardly of the first contact portions (34, 99, 127, 127', 180) into the cavity (19, 92, 114, 124, 154, 232) for engagement with respective conductors of the chip carrier (15, 87, 111, 120, 154, 232) when received therein.

2. An electronic key assembly (10, 80, 109, 119) according to claim 1, characterized in that, an anti-overstress hook or eye (64, 220, 299) extends laterally of the plug body (11, 88, 152, 230) trapping the latching arm (41, 189, 189', 290) adjacent the rear, free end to prevent excessive movement thereof away from the plug body (11, 88, 152, 230).

3. An electronic key assembly (10, 80, 109, 119) according to claim 1 or claim 2 characterized in that, a sleeve-form shield (13, 192) is received on the plug body (11, 88, 152) surrounding the rear end and extends forwardly over the cavity (19, 92, 114, 124, 154) to the mating end thereby completely to enclose and shield the chip carrier (15, 87, 111, 120, 155) therein.

4. An electronic key assembly (10, 80, 109, 119) according to claim 2 characterized in that, the latch arm (41, 189, 189', 290) is arranged to be trapped in the anti-overstress hook or eye (64, 220, 299) in a snap action by resilient flexure of the latch arm (41, 189, 189', 290) towards the plug body (11, 88, 152, 230).

5. An electronic key assembly (10, 80, 109, 119) according to claim 2 characterized in that, the latch arm (41, 189, 189') formed with a forwardly facing shoulder (44) adjacent its rear end and the anti-overstress hook (41, 220) comprise a rearwardly facing hook portion (65) engaging the shoulder (44).

6. An electronic key assembly (10, 80, 109, 119) according to claim 3 or claim 5 characterized in that, the shield is enclosed in a fingerpiece (14) at one axial end, which fingerpiece (14) is moulded from plastics material with' the anti-overstress hook (64) integral therewith, the shield (13) being inmoulded with the fingerpiece (14). •

7. An electronic key assembly (119) according to any one of claims 1-5 characterized in that, the contacts (125, 126) are of first and second types, the first and second contact portions (127, 130) of the first contact type are axially in line and located in the plug body (152) with second contact portions (130) of the first contact type extending adjacent a front wall of the cavity (124), the contacts (126) of the second type being laterally stepped so that their second contact portions (132) are laterally offset from their first contact portions (127') and the second contact types being located in the body (152) on opposite ends of the series of contacts (125, 126) such that their second contact portions (132) extend into the cavity (124) along side walls of the cavity (124) adjacent the front wall.

8. An electronic key assembly (119) according to any one of claims 1-5 characterized in that, the contacts (125, 126) are of first and second types, the first and second portions (127, 130) the first contact type are axially in line, with second contact portions (130) adjacent a front wall , the contacts (126) of the second type being longer than the contacts (125) of the first type thereby to span the cavity ( 124) and being laterally stepped such that their second contact portions (132 ) are laterally offset from their first contact portions (127' ) , the first and second contact types being arranged in alternating fashion such that the second contact portions (132) of the second type contacts are adjacent a rear wall of the cavity (124) opposite second contact portions (130) of the adjacent first type contacts.

9. An electronic key assembly (10, 80, 109 , 1 19) according to any one of the preceding claims characterized in that, the first contact portions (34, 99, 127, 127' , 180) provide a smooth , unsheared surface exposed for engagement with the spring contacts of a complementary jack.

10. An electronic key assembly according to claim 3 characterized in that, the shield (192) includes a forwardly extending flap (193) formed with a window ( 194) , a rim ( 195 ) of which window (194) is deformable to extend along the side of the body (152) and along the mating end surrounding the first contact portions (180) of the series of contacts ( 179) so that they are in registration with the window ( 194) ,

11 . An electronic key assembly according to claim 10 characterized in that, a wall of the shield ( 192) defining the window ( 194) is spaced apart rearwardly of the first contact portions (180) , a rear end of the shield ( 192) being anchorable in a fingerpiece (210) which includes a tongue ( 213) which extends forwardly through the shield (192) over the cavity ( 151 ) to a location adjacent the recesses ( 170' ) receiving the first contact portions ( 180) to bridge the space between the wall of the shield (192) and the recesses ( 170) thereby completely to close the cavity (151 ) .

12. An electronic key assembly according to claim 11 characterized in that, the cavity (151 ) is open to the rear and printed circuit board locating . means comprising grooves ( 166 , 166' ) are formed opposite side walls of the cavity ( 1 51 ) , which grooves ( 166 , 166' ) extend forwardly from the rear, the fingerpiece (210) being provided with a stop (217) engaging the board in the assembled condition to retain the printed circuit board (156) in the cavity ( 151 ) .

13. An electronic key assembly according to claim 1 or claim 2 characterized in that, the cavity (232) is open to a rear and printed circuit board locating rails (244) extend forwardly from the rear on opposite side walls , a slot (240) being formed in a base wall (241 ) adjacent an end wall ( 243) of the cavity (232) and a metal grounding plate (242) having a planar portion (246) seated against the base wall ( 241 ) , outside the cavity (232) and at least one resilient contact leg (250 or 250') extending perpendicularly of the planar portion (246) through the slot (240) above the printed circuit board receiving rails (244) for resilient engagement with a ground plane of a printed circuit board (260) on insertion into the cavity ( 232 ) . . ^*

14. An eleςtronic key assembly according to claim 13 characterized in that, the end wall (243 ) of the cavity (232 ) is stepped forwardly at a location adjacent the slot (240) to permit forward flexure of the contact leg (250 or 250' ) during insertion of the printed circuit board (260) into the cavity (232 ) .

1 5. An electronic key assembly according to claim 14 characterized in that, a portion (238) of the cavity ( 232 ) forward of the front end wall portion (243) is of reduced height and open at a top of the plug body (230) the second contact portion (272) being located across a base wall of the forward portion (238) of the cavity (232 ) in alignment with the printed circuit board receiving rails (260) .