WO2016126751A1

WO2016126751A1 - Electrical contact

Info

Publication number: WO2016126751A1
Application number: PCT/US2016/016258
Authority: WO
Inventors: Aymeric Soudy
Original assignee: Fci Asia Pte. Ltd; Fci Americas Technology Llc
Priority date: 2015-02-03
Filing date: 2016-02-03
Publication date: 2016-08-11
Also published as: KR20170107090A; US20180013224A1; SG11201706180RA; EP3254338A4; JP7123561B2; EP3254338A1; KR102551767B1; US10355386B2; EP3254338B1; JP2018503963A

Abstract

An electrical connector including a housing; and a plurality of electrical contacts connected to the housing. Each of the contacts includes opposing cantilevered contact arms configured to receive a male contact of a mating electrical connector therebetween. Each of the contacts has a retention feature assisting in locating the contact in a contact receiving area of the housing and a first surface mount solder tail.

Description

BACKGROUND

Technical Field

[0001] The exemplary and non-limiting embodiments relate generally to an electrical contact and, more particularly, to a female electrical terminal.

Brief Description of Prior Developments

[0002] Electrical contacts are known which have opposing contact arm and which are mounted to a housing in a contact receiving area,

SUMMARY

[0003] The following summary is merely intended to be exemplary. The summary is not intended to limit the scope of the claims.

[0004] In accordance with one aspect, an example embodiment is provided in an electrical connector comprises a housing; and a plurality of electrical contacts connected to the housing, where each of the contacts comprise opposing cantilevered contact arms configured to receive a male contact of a mating electrical connector therebetween, a retention feature assisting in locating the contact in a contact receiving area of the housing, and a first surface mount solder tail . [0005] In accordance with another aspect, an example method comprises stamping a fiat metal member to form an electrical contact attached to a carry strip, where the electrical contact is stamped to form. opposing cantxlevered contact arms configured to receive a male contact of a mating electrical connector therebetween,, a retention feature assisting in locating the contact in a contact receiving area of the housing, and a first surface mount solder tail; and rolling the carry strip with the electrically contact attached onto a .roll.

BRIEF DESCRIPTION OF THE DRAWINGS

[0006] The foregoing aspects and other features are explained in the following description, taken in connection with the accompanying drawings, wherein:

[0007] Fig. 1 is a bottom perspective view of an example embodiment, of an electrical connector;

[0008] Fig. 2 is a partial schematic top view of the example shown in Fig, 1;

[0009] Fig. 3 is a side view of the example shown in Figs. 1-2 with a cut away section;

[0010] Fig. 4 is a perspective view of one of the electrical contacts shown in Figs. 1-3;

[0011] Fig. 5 is a plan view of a blank used to form the electrical contact shown in. Fig. 4;

[0012] Fig. 6 is a plan view similar to Fig. 5 showing a bridgin.g portion; [0013] Fig. 7 is a plan view similar to Fig. 6 showing- possible locations for solder tails;

[0014] Fig, 8 is a plan view similar to Fig. 7 showing an electrical contact without a bridging portion and showing' possible locations for solder tails;

[0015] Fig, 9 shows a rear side view of a conventional electrical contact;

[0016] Fig, 10 shows a rear side view similar to Fig. 9 of an alternate shape of retention feature;

[0017] Fig, 11 is a plan view of a flat blank used to form the electrical contact shown in Fig. 10 and showing removable solder tails for solder tail location configurability;

[0018] Fig, 12 shows a width of the conventional contact shown in Fig. 9;

[0019] Fig. 13 shows a width of the contact shown in Fig. 10;

[0020] Fig. 14 is a cross sectional view of the contact shown in Fig. 10 and 13;

[0021] Figs, 15-16 show an alternate shapes;

[0022] Fig. 17 shows a retention feature with an hourglass shaped profile;

[0023] Figs. I8A-29B shows various alternate design shapes of electrical contacts have features as described herein . DETAILED DESCRIPTION OF EMBODIMENTS

[0024] Referring to Fig, 1, there is shown a bottom perspective view of an electrical connector 10 incorporating features of an example embodiment. Although the features will be described with reference to the example embodiments shown in the drawings, it should be understood that features can be embodied in many alternate forms of embodiments. In addition, any suitable size, shape or type of elements or materials could be used.

[0025] The connector 10 generally comprises a housing 12 and a plurality of electrical contacts or terminals 14, Referring also to Figs. 2-3, the housing 12 is preferably comprised of molded plastic or polymer material. The housing 12 has a plurality of contact receiving areas 16. In this example the contact receiving areas 16 are arranged in two parallel rows along the length of the housing. The top side of the housing is configured to have a mating connector (not shown) located thereat with male pins or contacts of the mating connector extending into the contact receiving areas 16 through the tops side to make electrical contact with the contacts 14.

[0026] Referring also to Figs. 4-5, the contacts 14 in this example are female contacts having right angle solder tails. With the right angle solder tails, the connector 10 is configured to be surface mounted on another member (not shown) , such as by soldering for example. Fig. 5 shows a stamped blank 14' of sheet metal before being bent into the shape shown in Fig, 4. The contact 14 comprises a main section 15, the solder tail

IS, a mounting section or retention feature 20, and two opposing contact arms 22, 24, In an alternate example embodiment more or less that two contacts arms could be provided, and the arms might not be opposing. The solder tail 18, the mounting section 20, and the two contact arms 22, 24 extend off of the main section 15 in a general cantilever fashion. The solder tail 18 is generally aligned with the first contact arm 22 and offset, from, the mounting section 20. Opposite ends of the main section 15 also comprise mounting portions 26, 28, The mounting section 20 and mounting portions 26, 28 allow the contact 14 to be inserted into one of the contact receiving areas 16 of the housing 12, and fixedly attach the contact to the housing 1.2.

[0027 ] The two contact arms 22, 24 are bent inward to from a mating contact receiving area therebetween . The arms 22, 24. have contact areas 30 for contacting the mating contact therebetween. The solder tail 18 is bent about 180 degrees from the main section 15 at bend 32, and then bent about 90 degrees at bend 34 to from the right angle of the solder r.a.ii. Thus, in its final shape shown in Fig. 4, the solder tail 18, the mounting section 20, and the two contact arms 22, 24 ail extend in a general same direction away from the main section 15. The solder tail 18 is on the same side as the first contact arm. 22,

[0028] As seen in Figs. 2 and 3, the solder tails 18 extend away from the housing 12 at the lateral sides of the housing. Because of the shape of the contact, the first, contact, arm 22 is located closer to its respective lateral side of the housing 12 than the second contact arm 24, As shown by the arrows in Figs. 2 and 4, this results in the force to be exerted on the inserted male contact (between the opposing contact areas 30) to be inline with the solder tail's lateral extension from the housing; not perpendicular.

[0029] Features with the example shown in Figs. 1-5 include a terminal bottom entry (entry of the terminal into the housing via the bottom, end of the housing) and a North/South contact orientation rather than an East/West orientation of the contact arms . The terminal bottom entry allows the contact 14 to be inserted into the housing 12 through the bottom of the housing as indicated by arrow 36 in Fig. .3. Bottom, entry allows an "East- West" contact point to be provided for the surface mount (SMT) solder tail 18. By providing the North/South contact orientation of the contact, arms in-line with the solder tail 18, this orientation of the contact may allow an important cost reduction regarding the platting of the contact .

[0030] Referring also to Fig. 6, an alternative design for the contact, is shown, In this example the contact comprises an additional bridge portion 33. This bridge portion 38 could be optionally removed to provide a contact similar to Fig. 5. Bridge area 38 could be deleted in the tool to create the low profile design. Area 40 could be modified in the tool to create the low profile features of retention shown in Fig. 5 or the high profile version shown in E'ig. 6. Several versions of connector products may be from several different types of contacts for a concerning product family. This universal bridge terminal , by having portion (s) removed or not removed, will bring the possibility to obtain (only with one tool and versions) :

● High or Low profile version

● Offer the possibility to create several kind of solder tails all around the bridge

[0031] This solution will help to save money (minimize number of tool} and enhance the competitiveness.

[0032] Figs. 7 and 8 show alternative designs showing additional or alternative possible locations of one or more solder tails 18' .

[0033] Fig. 9 shows a portion of a conventional contact which has a section 20' . Fig. 10 shows the contact 14, but with a different mounting portion 20", The width of the mounting portion 20" has a dimension B shown in Fig. 13 which is larger than the dimension A shown in Fig. 12 for the contact shown in Fig . 9.

[0034] The extra feature will bring a dimension ^WB" obtained from stamping process instead of dimension "A" from bending and will provide a better position of the terminal into the cavity due to a. difference of the tolerances capability of stamping versus bending. As shown by areas 44 in Fig. 12, a clearance clue to big tolerances from bending of the contact shown in Fig. 9 exists between the contact and the housing, This could have a bad alignment between the axis of the terminal and the window in the housing 12 for the mail pin of the mating connector. This issue is mainly due to a large tolerances of the terminal from, the bending process resulting in dimension A; which impact the assembly references. The mounting portion 20", however, is not bent. It is stamped. With features as described herein, references from cutting step instead of the bending step of the process may be used for manufacturing and assembly. Effectively, the cutting process may provide a total tolerance of 0.02 mm. (instead of 0.1 mm for the bending features) . Thus, as shown in Fig. 13, the area 44 ' of clearance is much smaller than the area 44. A small clearance is due to small tolerances from cutting. As seen, with frig. 14, the extra feature at 20" will bring a dimension ^WB" obtained, frora stamping process instead of dimension "A" from bending and will provide a very better position of the terminal into the cavity due to a difference of the tolerances capability.

[0035] Figs . 15-29 show some alternative designs for the contacts .

[0036] An example embodiment may be provided in an electrical connector comprising a housing; and a plurality of electrical contacts connected to the housing, where each of the contacts comprise opposing canti.levered contact arms configured to receive a male contact of a mating electrical connector therebetween, a retention feature assisting in locating the contact in a contact receiving area of the housing, and a surface mount solder tail.

[0037] The contact arm, retention feature and solder tail may extend in a same direction from a main body of the contact as seen in Fig. 4 for example. The retention feature may have a general cantiievered shape extending from the main body of the contact as seen in Figs. 4-5 for example. The contact may further comprise a bridging portion connected to the retention feature and opposite ends of the main body of the contact as seen in Fig. 6 for example. The retention feature may be the widest portion of the contact and extend past opposite sides of the contact proximate the contact arms as seen in Figs. 5, 10 and. 14 for example , where the retention feature is flat and not. bent.

[0038] The retention feature may be wider than the contact arms as seen in Figs, 5 and 10 for example. The retention feature may be orientated at a substantial right angle relative to both the contact arms as seen in Figs. 4 and 14 for example. The electrical connector may further comprise a second solder tail as seen in Figs. 7, 8, and 11 for example, where the first solder tail extends off of a main body of the contact at a first location and where the second solder tail extends from the contact at a second location. The second solder tail may extend off of the main body. The second solder tail may extends off of one of the contact arms. The second solder tail may extend off of the retention feature. The electrical connector may further comprise a third solder tail extending off of one of the main body, another one of the contact arms or the retention feature. The retention feature may have a substantially diamond shaped outline as seen in Fig. 14 for example. The retention feature may have a substantially hour-glass shaped, outline as seen in Fig. 17 for example.

[0039] As illustrated by Figs. 18Ά-29Β an example method may comprise stamping a flat metal member to form an electrical contact attached to a carry strip, where the electrical contact is stamped to form opposing cantilevered contact, arms configured to receive a male contact of a mating electrical connector therebetween, a retention feature assisting in locating the contact in a contact receiving area of the housing,, and a first surface mount solder tail; and roiling the carry strip with the electrically contact attached onto a roll.

[0040] The stamping may further comprise the contact arms, retention feature and first solder tail extending in. a same direction from a main body of the contact . The stamping may further comprise the retention feature having a general canti levered shape extending from the main body of the contact. The stamping may further comprise forming a bridging portion connected to the retention feature and opposite ends of the main body of the contact. The stamping may further comprise forming the retention feature is the widest portion of the contact, where the retention feature extends past opposite sides of the contact proximate the contact arms,

[0041] It should be understood that the foregoing description is only illustrative, Various alternatives and modifications can be devised by those skilled in the art. For example, features recited in the various dependent claims could be combined with each other in any suitable combination ( s ) . In addition, features from different emi.bodim.ents described above could be selectively combined into a new embodiment. Accordingly, the description is intended to embrace all such alternatives, modifications and variances which fall within the scope of the appended claims.

Claims

CLAIMS What is clalined is:

1. An electrical connector comprising: a housing; and a plurality of electrical contacts connected to the housing, where each of the contacts comprise at least one caritilevered contact arm configured to receive a male contact of a mating electrical connector therebetween, a retention feature assisting in locating the contact in a contact receiving area of the housing,, and a first surface mount solder tail.

2. The electrical connector of claim 1 where the at least one caatilevered contact arm, retention feature and first solder tail extend in a same direction from a main body of the contact.

3. The electrical connector of claim 2 where the retention feature has a general caritilevered shape extending frora the main body of the contact.

Ί . The electrical connector of any of claims 1-3 where the contact further comprises a bridging portion connected to the. retention feature and opposite ends of the main body of the contact,

5, The electrical connector of any one of claims 1 where the retention feature is the widest portion of the contact and extends past, opposite sides of the contact proximate the at least one canti levered contact arm.

6. The electrical connector of any one of ciaiius 1-5 where the retention feature is flat and not bent.

7. The electrical connector of any one of claims 1-6 where the retention feature is wider than the at least one cantilevered contact arm.

8. The electrical connector of any one of claims 1-7 where the retention feature is orientated at a substantial right angle relative to the at least one cantilevered contact arm.

9. The electrical connector of any one of claims 1-8 further comprising a second solder tail, where the first solder tail extends off of a main body of the contact at a first location and where the second solder tail extends from the contact at a second location.

10. The electrical, connector of claim. 9 where the second solder tail extends off of the main body,

11. The electrical connector of claim. 9 where the second solder tail extends off of the at least one cantilevered contact arm,

12. The electrical connector of claim 9 where the second solder tail extends off of the retention feature.

13. The electrical connector of any one of claims 9-12 further comprising a third solder tail extending off of one of the main foody, another one of the at least one cantilevered contact arm or the retention feature.

14. The electrical connector of any one of claims 1-13 where the retention feature has a substantially diamond shaped outline .

15. The electrical connector of any one of claims 1-13 where the retention feature has a substantially hourglass shaped outline.

16. The electrical connector of any one of claims 1-15 where the retention feature has opposite lateral sides which engage the housing to retain the electrical contact in the housing, where the retention feature is the widest portion of the electrical contact.

17. A method comprising: stamping a flat metal member to form an electrical contact attached to a carry strip, where the electrical contact is stamped to form at least one cantiievered contact arm configured to receive a male contact of a mating electrical connector therebetween, a retention feature assisting in locating the contact in a contact receiving area of the housing, and a first surface mount solder tail; and. rolling the carry strip with the electrically contact attached onto a roll.

18. A method as in claim 17 where the stamping further comprises the at least one cantiievered contact arm, retention feature and first solder tail extending in a same direction from a main body of the contact.

19. A method as in any one of claims 17-18 where the stamping further comprises the retention feature having a general cantiievered shape extending from the main body of the contact .

20. A method as in any one of claims 17-19 where the stamping further comprises forming a bridging portion connected to the retention feature and opposite ends of the main bcdy of the contact.

21, A method as in any one of claims 17-2G where the stamping further comprises forming the retention feature is the widest portion of the contact, where the retention feature extends past opposite sides of the contact proximate the at least one cantiievered contact, arm.