CN102882031A

CN102882031A - Card connector

Info

Publication number: CN102882031A
Application number: CN2011101945160A
Authority: CN
Inventors: 马勇峰; 吉姆·麦格拉斯; 李志强; 张镒纬
Original assignee: Tyco Electronics Shanghai Co Ltd
Current assignee: Tyco Electronics Shanghai Co Ltd
Priority date: 2011-07-12
Filing date: 2011-07-12
Publication date: 2013-01-16
Anticipated expiration: 2031-07-12
Also published as: CN102882031B; TWM452507U; WO2013027130A1

Abstract

The present invention relates to a card connector suitable for providing greater power to a memory card electrically connected to the card connector. The card connector includes: an insulating body with a slot for inserting a memory card; a pair of locking parts respectively located at two ends of the slot, and the locking parts are suitable for the locking position and the Each locking member has a hook; and a set of first conductive terminals are arranged in the slot, wherein the first conductive terminals include several first power terminals and several signal terminals. terminals, wherein: the card connector further includes a set of second power terminals, the resistance of the second power terminals is smaller than the resistance of the first power terminals, and is used for transmitting power different from the power transmitted by the first power terminals.

Description

Card connector

Technical field

The present invention relates to a kind of card connector, relate in particular to a kind of DDR DIMM (Dual Data Rate, Dual-Inline-Memory-Modules) connector.

Background technology

A kind of DDR3 DIMM connector 200 has been shown among Fig. 1, and this connector 200 comprises: slot 201; Be arranged on a pair of locking member 202 at slot 201 two ends, locking member 202 is suitable between the off-position of the locked position of locking storage card (not shown) and release storage card mobile; A plurality of splicing ears 203 are arranged in this slot 201.In addition, as mentioning in the back, each locking member 202 has a grab, and described grab is driving described locking member described storage card disengaging slot 201 when described locked position moves to described off-position.

Fig. 2 is the zoomed-in view of the end of the connector 200 among Fig. 1.Obviously, at the end of connector 200 domain of the existence A, this zone A the splicing ear at locking member 202 and edge between.Because the existence of this zone A, when locking member 202 moves to the off-position, the grab of locking member 202 still with slot 201 in the splicing ear at edge to there being a distance, cause the splicing ear distortion to prevent grab from touching splicing ear.

But, along with the progress of technology, there are the needs that in the situation of connector at size constancy, more splicing ear are set and more power is provided for storage card in slot.

Summary of the invention

The invention provides a kind of connector, in the situation of its size constancy, by arranging or designing power supply splicing ear and provide more power for storage card.

According to an aspect of the present invention, proposed a kind of card connector for storage card, having comprised: an insulating body, which is provided with a slot, be used for the storage card slot of pegging graft; A pair of locking member, lay respectively at two ends of described slot, described locking member is suitable between the off-position of the locked position of locking storage card and release storage card mobile, each locking member has a grab, and described grab breaks away from described slot in that described locking member is driven described storage card when described locked position moves to described off-position; With one group of first conducting terminal, be arranged in the described slot, wherein said the first conducting terminal comprises several first power supply terminals and several signal terminals, wherein: described card connector further comprises one group of second source terminal, the resistance of described second source terminal is used for the electric energy that transmission is different from the first power supply terminal through-put power less than the resistance of described the first power supply terminal.

Alternatively, the cross-sectional area of described second source terminal is greater than the cross-sectional area of the first conducting terminal.Advantageously, along on the longitudinal direction of described slot, the width of the width of described second source terminal and described the first power supply terminal is roughly the same.

Alternatively, described the first power supply terminal is suitable for conducting 0.5 ampere electric current, and described second source terminal is suitable for conducting 1.5 amperes electric current.

Alternatively, described one group of second source terminal is arranged near at least one end of described slot.

Further, described one group of second source terminal forms at least one second source terminal pair, the second source terminal of a described second source terminal centering is opposite each other in slot, the grab that is in a locking member of described off-position is crossed the described plane of second source terminal to limiting, and described grab between the right second source terminal of described second source terminal and is interfered with any second source terminal of described second source terminal centering.

Advantageously, each second source terminal of described second source terminal centering has a pin section, a contact site and is connected to a beam section between described pin section and the described contact site; And described second source terminal to described in the parallel to each other or almost parallel of described beam section of second source terminal, be in the grab of off-position between the right beam section of described the second splicing ear.Further, the contact site of described each second source terminal of second source terminal centering is bent to form arc contact surface from described beam section, and the end of contact site is towards the described beam section that is connected with described contact site, and described contact-making surface is used for forming with described storage card and electrically contacts; The right described contact-making surface of described second source terminal toward each other.

Perhaps advantageously, each terminal has a pin section, a contact site and is connected to a beam section between described pin section and the described contact site, and wherein, described contact site has the contact zone that electrically contacts with described storage card; On the grafting direction of described storage card, the height of the bottom land of the described slot of the contact zone of the second source terminal of described second source terminal centering distance is greater than the height of the bottom land of the described slot of contact zone distance of the first conducting terminal.

In above card connector, described card connector can be DDR DIMM connector.

Alternatively, described at least one second source terminal is to comprising two second source terminals pair, and a second source terminal is near the end that is arranged in slot, and another second source terminal is near another end that is arranged in slot.

Utilize card connector of the present invention, can in the situation of connector at size constancy, provide more power for storage card, even the splicing ear that can also effectively utilize the locking member of card connector and edge between the space, for example increase splicing ear on the basis of original DDR3 DIMM connector, thereby other power delivery path can be provided for novel DIMM.

Description of drawings

Fig. 1 is the schematic perspective view of DDR3 DIMM connector of the prior art;

Fig. 2 is the zoomed-in view of the end of the DDR3 DIMM connector among Fig. 1;

Fig. 3 is the right structural representation of splicing ear of the DDR3 DIMM connector among Fig. 1;

Fig. 4 is the schematic perspective view of card connector according to an embodiment of the invention;

Fig. 5 is the partial sectional view of the end of the card connector among Fig. 4, and wherein, locking member is shown in an open position or the off-position;

Fig. 6 is the right structural representation of the splicing ear of one embodiment of the present of invention.

Embodiment

The below describes the embodiment of exemplary of the present invention in detail, and the example of embodiment is shown in the drawings, and wherein same or analogous label represents same or analogous element.The embodiment that describes below with reference to accompanying drawing is exemplary, is intended to explain the present invention, and can not be interpreted as limitation of the present invention.

As shown in Fig. 4-6, according to card connector 100 of the present invention, it comprises: an insulating body 110, which is provided with a slot 101, and be used for the storage card (not shown) of pegging graft; A pair of locking member 102, lay respectively at two ends of described slot 101, described locking member 102 is suitable between the off-position (as shown in Figure 5) of the locked position (as shown in Figure 4) of locking storage card and release storage card mobile, each locking member 102 has a grab 103, and described grab 103 breaks away from described slot 101 in that described locking member 102 is driven described storage card when described locked position moves to described off-position; With one group of first conducting terminal 1042, be arranged in the described slot 101, wherein said the first conducting terminal 1042 comprises several first power supply terminals and several signal terminals, wherein: described card connector 100 further comprises one group of second source terminal 1042, the resistance of described second source terminal 1042 is used for the electric energy that transmission is different from the first power supply terminal through-put power less than the resistance of described the first power supply terminal.

Advantageously, the cross-sectional area of described second source terminal 1041 is greater than the cross-sectional area of the first conducting terminal.Certainly, thus second source terminal 1041 also can use the larger material of conductance to obtain better conductive capability to have less resistance.

Advantageously, along on the longitudinal direction of described slot 101, the width of the width of described second source terminal 1041 and described the first power supply terminal 1042 is roughly the same.Like this, second source terminal 1041 is identical with the spacing between adjacent the first power supply terminal with spacing (pitch) between adjacent the first conducting terminal 1042.Thereby second source terminal 1041 can be arranged on the position between two ends of card connector 100, also can be arranged near the end of card connector 100.But, be arranged on when second source terminal 1041 near the situation the end of card connector 100, might not require the described width of the described width of described second source terminal 1041 and described the first power supply terminal 1042 roughly the same.

Advantageously, the electric current that the electric current that described second source terminal is suitable for conducting transmits greater than the first power supply terminal, according to one embodiment of present invention, described the first power supply terminal is suitable for conducting 0.5 ampere electric current, and described second source terminal is suitable for conducting 1.5 amperes electric current.

The below discusses near the situation in end that the first power supply terminal 1042 is arranged on card connector 100.Particularly, as shown in Fig. 4-5, described one group of second source terminal 1041 forms at least one second source terminal pair, the second source terminal 1041 of a described second source terminal centering is opposite each other in slot 101, the grab 103 that is in a locking member 102 of described off-position is crossed the described plane of second source terminal to limiting, and described grab 103 between the right second source terminal 1041 of described second source terminal and is interfered with any second source terminal 1041 of described second source terminal centering.

Although it should be noted that among Fig. 4-5 as an example of transformation DDR3 DIMM connector example design of the present invention to be illustrated,, technical scheme of the present invention also can be applied to other card connector.

The described second source terminal here to the plane that limits represent when hypothesis second source terminal 1041 when very thin, the plane that opposed a pair of second source terminal 1041 limits.Particularly, this plane also can represent the plane that the side S of opposed a pair of second source terminal 1041 limits, and the plane P that also can limit together for a pair of second source terminal 1041 symmetrical center line separately is as shown in Fig. 5-6.Here the purpose of the introducing of plane P be for restriction be in the off-position locking member 102 grab 103 and from the position relationship between its nearest a pair of second source terminal 1041, be used for representing that this grab 103 crosses this plane P and entered between its nearest a pair of second source terminal 1041, thus from prior art in grab can not enter into from different between its nearest a pair of opposed splicing ear.As shown in Figure 5, can also describe like this " grab 103 that is in a locking member 102 of described off-position is crossed the plane P of described second source terminal to limiting; and described grab 103 is between the right second source terminal 1041 of described the second splicing ear ", namely in Fig. 5, in the projection on the direction inside perpendicular to paper, be in the off-position locking member 102 grab 103 projection with exist overlapping apart from the projection of its nearest a pair of second source terminal 1041.

Because grab 103 can move to apart between its nearest a pair of second source terminal 1041, even between the how right terminal, can effectively utilize two end place's locking members 102 of slot 101 and the space between the immediate splicing ear, be the regional A that mentions in the background technology, thereby provide other power delivery path for card connector.

Can adopt the distance that strengthens grab 103 activities that supply locking member 102 between a pair of splicing ear 1041 to realize such scheme.Particularly, as shown in Figure 6, each second source terminal 1041 of described second source terminal centering has an a of pin section, a contact site c and is connected to a b of beam section between the described pin a of section and the described contact site c; And described second source terminal to described in the parallel to each other or almost parallel of the described beam b of section of second source terminal 1041, be in the grab 103 of off-position between the right b of beam section of described second source terminal.Like this, the splicing ear that uses in the prior art shown in the accompanying drawing 3 pair, can effectively increase the distance between the right second source terminal of second source terminal in the scope of activities of grab 103, thereby prevent that grab 103 from contacting with arbitrary second source terminal 1041 of second source terminal centering or interfere in moving process.

As shown in Fig. 4,6, the contact site c of described each splicing ear 1041 of second source terminal centering is bent to form arc contact surface 105 from described beam section, and the end of contact site c is towards the described beam b of section that is connected with described contact site; Described contact-making surface 105 is used for forming with described storage card and electrically contacts, and the right described contact-making surface 105 of described the second splicing ear toward each other.

Certainly, be not in contact with it in moving process as long as can realize grab 103, the shape of second source terminal 1041 is not limited to this.For example, the b of beam section can be cambered outwards shape, can further widen like this distance between the relative beam b of section.

The grab 103 that can also guarantee by the position of improving the right contact site of second source terminal locking member 102 not can with the second source termination contact.Particularly, in card connector, each conducting terminal has an a of pin section, a contact site c and is connected to a b of beam section between described pin section and the described contact site, and wherein, described contact site c has the contact zone that electrically contacts with described storage card; On the grafting direction of described storage card, the height h2 of the bottom land of the described slot of the contact zone of the second source terminal 1041 of described second source terminal centering distance is greater than the height h1 of the bottom land of the described slot of contact zone distance of the first conducting terminal 1042.Because the distance between the right contact site of conducting terminal is minimum, the position of improving the right contact site of conducting terminal, the grab 103 that just can expand locking member 102 conducting terminal between the activity space that does not contact with conducting terminal.In this scheme, the conducting terminal 1041 of the second conducting terminal centering can be the splicing ear shown in the accompanying drawing 3, can certainly be the splicing ear shown in the accompanying drawing 6.

It is pointed out that the contact zone here for example represents apart from the height of bottom land: form in the situation that line contacts with the contact terminal of storage card in the contact zone, this contact wire is to the distance of bottom land; In contact zone and situation that the contact terminal formation face of storage card contacts, the horizontal center line of contact-making surface is to the distance of bottom land.

Except designing shape and the position near the second source terminal of locking member 102, can also reduce the width perpendicular to described plane P of grab 103, try one's best so that move in the roughly centre position of grab 103 between opposed second source terminal, if precision is enough, this can effectively utilize two ends place's locking members 102 of slot 101 and the space between the immediate splicing ear equally, thereby provides other power delivery path for card connector.

Certainly, the described width that reduces grab 103 also can combine with the shape of second source terminal and the design of layout.

The second source terminal 1041 of above-mentioned second source terminal centering can provide other power delivery path for card connector 100.For example, this second source terminal 1041 can be avoided because card connector, for example DDR3 DIMM connector power supply terminal lazy weight and the power supply problem that causes.

As shown in Figure 4, described card connector 100 can be DDR DIMM connector.Alternatively, described at least one second source terminal is to comprising two second source terminals pair, and a second source terminal is near the end that is arranged in slot 101, and another second source terminal is near another end that is arranged in slot 101.

Although illustrated and described embodiments of the invention, for the ordinary skill in the art, be appreciated that without departing from the principles and spirit of the present invention and can change these embodiment.The scope of application of the present invention is limited by claims and equivalent thereof.The scope of the present invention, that should define such as the application's claim is as the criterion.It should be noted that word " comprises " does not get rid of other element, and word " " is not got rid of a plurality of.

Claims

1. A card connector comprising:

An insulating body, on which is provided a slot for inserting a memory card slot;

A pair of locking parts are respectively located at the two ends of the slot, and the locking parts are adapted to move between a locking position for locking the memory card and a release position for releasing the memory card, each locking part having a hook that drives the memory card out of the slot when the locking member is moved from the locked position to the released position; and

A set of first conductive terminals is arranged in the slot, wherein the first conductive terminals include several first power terminals and several signal terminals,

It is characterized by:

The card connector further includes a set of second power terminals having a resistance lower than that of the first power terminals for transmitting power different from that transmitted by the first power terminals.

2. The card connector according to claim 1, characterized in that:

The cross-sectional area of the second power terminal is larger than that of the first conductive terminal.

3. The card connector according to claim 2, characterized in that:

Along the longitudinal direction of the slot, the width of the second power terminal is substantially the same as the width of the first power terminal.

4. The card connector according to claim 1, characterized in that:

The second power supply terminal is adapted to conduct a greater current than the first power supply terminal is adapted to conduct.

5. The card connector according to claim 4, characterized in that:

The first power terminal is adapted to conduct a current of 0.5 amperes and the second power terminal is adapted to conduct a current of 1.5 amperes.

6. The card connector according to claim 1, characterized in that:

The set of second power terminals is disposed near at least one end of the slot.

7. The card connector according to claim 6, characterized in that:

The set of second power terminals forms at least one pair of second power terminals, the second power terminals in the pair of second power terminals are opposite to each other in the slot, and the locking member in the release position The hook crosses the plane defined by the second pair of power terminals, and the hook is located between the second power terminals of the second pair of power terminals and does not touch any of the second pair of power terminals. The second power terminal interferes.

8. The card connector according to claim 7, characterized in that:

Each second power terminal of the pair of second power terminals has a pin portion, a contact portion, and a beam portion connected between the pin portion and the contact portion; and

The beams of the second power terminals in the pair of second power terminals are parallel or substantially parallel to each other, and the hook in the release position is located between the beams of the second pair of connection terminals.

9. The card connector according to claim 8, characterized in that:

The contact portion of each second power terminal in the pair of second power terminals is bent from the beam portion to form an arc-shaped contact surface, and the end of the contact portion faces the beam portion connected to the contact portion, and the contact portion A surface for forming electrical contact with the memory card;

The contact surfaces of the second pair of power supply terminals face each other.

10. The card connector of claim 7, wherein:

Each terminal has a pin portion, a contact portion, and a beam portion connected between the pin portion and the contact portion, wherein the contact portion has a contact area electrically contacting the memory card;

In the insertion direction of the memory card, the distance between the contact area of the second power terminal of the second power terminal pair and the groove bottom of the slot is greater than the distance between the contact area of the first conductive terminal and the slot The height of the tank bottom.

11. The card connector according to any one of claims 7-10, characterized in that:

The card connector is a DDR DIMM connector.

12. The card connector of claim 11, wherein:

The at least one second power supply terminal pair includes two second power supply terminal pairs, one second power supply terminal pair is arranged near one end of the slot, and the other second power supply terminal pair is arranged at the other end of the slot near the Ministry.