DE202008011118U1 - Double ended microelectronic connector - Google Patents

Abstract

Ball grid matrix connector comprising:
a cylinder (12) having a first opening end (20, 120) and a second opening end (20, 120) and less than one millimeter in diameter; and
a plurality of slots (15, 16, 17, 18; 115, 116, 117, 118) extending longitudinally and interstitially along the cylinder (12) from the first opening end (20, 120) and the second opening end (20, 120). extend so that the cylinder walls can expand, each slot (15, 16, 17, 18, 115, 116, 117, 118) close to a cutout (22, 23, 24, 25, 122, 123, 124, 125) the opening end (20, 120), but not at the opening end (20, 120), which forms a barrier across the slot (15, 16, 17, 18, 115, 116, 117, 118) so that the barrier (22, 23, 24, 25, 122, 123, 124, 125) comprises a ball having a larger diameter than the inner diameter of the cylinder (12) when the ball is inserted into the opening end (20, 120) ...

Description

The This invention relates to miniature electrical connectors and more particularly a class of microelectronic connectors that serve as ball grid matrix connectors ("BGA" connector) known which are cylindrical ball structures and sockets with dimensions less than 1 mm in diameter and more specifically of the order of magnitude of 0.5 mm in diameter. Such sockets and plugs are typically in increments of less than 2 mm in the center-to-center distance.

Interconnects are widely used in electronics to microelectronic Devices such. B. Integrated Circuits ("ICs"), Wired Circuit Boards, System boards, backplanes and to connect a cable of various kinds with each other. A Plug is a type of connector that is used to connect to a electronic device with corresponding contacts on one printed circuit board or other electrical connection means connect to. It is common to an arrangement of elements of the type of book, with elements should come from the plug type of a connector assembly into engagement. Furthermore For example, sockets in systems are routinely used for: (a) testing the performance of electronic devices (an assortment of Plug-in type was developed to be a device under test ("DUT") with a wide Variety of connections and configurations), or (b) precursors of electronic Devices at elevated Temperatures. A cable connector is another type of connector that typically used to attach an array of connectors an electrical cable with a group of parallel electrical wired or other conductors to connect. Backplane connector and connectors between boards are other types of connectors, which are used to make an array of connections a printed circuit board with a corresponding arrangement of connections to connect to another printed circuit board.

The class of connectors used to insert ICs is specialized and important in the electronics industry. The recent growth in the use of BGA connectors for the IC package has led to the use of new and changed sockets adapted to BGA connectors to increase the number of ports and areal density. BGA sockets have evolved in several directions. One type involves the use of a cam-driven spring wire to contact the side of each ball. Spring pins or pogo ^® pencils thus been adapted for use in BGA plug points for certain applications where the high cost of the stud are acceptable.

BGA plug points have unfolded the use of stamped and shaped springs, which support each ball of the BGA and a degree create mechanical compliance, which is required to one Press spring connector with an engaging ball in contact. Changes from stamped and shaped springs are designed to be two or more to use shaped springs to grab each ball and thereby an inevitable one make electrical contact while the ball is mechanical is held. The miniaturization and density of mechanically stamped and shaped springs are due to current capabilities at a particular Size limited. Although progress continues in the manufacturing field of punching and forming springs are plug-in points with so manufactured contact devices in density by the complexity of the punching and forming limited by very small miniaturized springs. Further is the mechanical compliance of a stamped and formed Spring in a vertical to a substrate of a ball vertical Direction typically small. Due to a small yield in a vertical direction can be a stamped and shaped miniature spring unable be aware of the movement of a contact carrier relative to one with this in To set engaged ball, creating a vibration, a mechanical impact load and forces Bending and the like allows be what causes the connector over the surface of the Ball slides. In the industry it is known that a repeated microscopic movement of a contact relative to a mating contact causes a frit effect or build-up of small particulate debris, that lead to a contact failure can.

BGA sockets have also been constructed with contact devices that make electrical contact with a lower portion of a ball by bundling helical wires, wires in an elastomeric material, cantilevered springs, lithographic flat springs, and other contactors that apply a force vertically to an engagement ball. produce. The vertical force is required to make a good connection between a ball of a BGA and such a contactor, and is significant for BGA packages with a large number of balls or bumps. For example, the clamping force for a BGA pin that applies force vertically to 1200 bumps is not less than 30 kg as required to achieve proper contact with each of the bumps. The clamping force required for BGA sockets, created by applying a vertical Making contact with force is an increasing problem as the number of bumps increases in the thousands.

progress in the density and speed of electronic devices take connectors extra Requirements. In particular, a continuing increase is required the wiring density of electronic Syste men a corresponding Progress of the density of connectors, as determined by the number of Contacts per unit area certainly. Further, at higher frequencies and clock speeds the size and the self-inductance connectors an important limitation on system performance. In addition to one lower inductance are advances in impedance control and shielding for future electronic Systems required.

in view of the above exists despite the many connector technologies used in the State of the art available There is a need in the art for a connector incorporating a or more of the smaller needs identified above Size, higher density and higher Performance can meet.

According to the invention becomes a ball grid array connector for electrical connection created a cylinder with less than 1 mm in diameter and typically about 0.5 mm diameter is with a wall thickness of about 0.005 mm and a plurality of slots, typically four, extending from an open end longitudinally longitudinally extend the cylinder, so that the cylinder walls spread or expand, each slot having a cutout near the opening end, but not on the opening end, has and forms a barrier across the slot, so that the lock a sphere with a larger diameter as the inner diameter of the cylinder, when the ball in the opening end is used, record and hold. An opposite one End is similar designed so that the slots between space or alternately to each other or interengaging arranged (adjacent slots are respectively assigned to the opposite end and the slots are arranged alternately around the circumference) to a compact Structure to define a ball to define at each end.

Further Embodiments of the invention are the following description refer to.

The The invention will be described below with reference to the accompanying drawings illustrated embodiment explained in more detail.

1 shows a perspective view of a eight-slot connector according to the invention;

2 is a height view of the connector according to the invention, wherein the left, the right and the rear view are identical;

3 is a bottom view of a connector according to the invention;

4 is a view from above of a connector according to the invention;

5 is a side elevational view of a connector according to the invention, showing an example of a ball connector used in the invention.

With reference to the 1 to 5 is a ball grid matrix connector 10 ("ball grid array connector") for an electrical connection a cylinder 12 which is less than 1 mm in diameter, and typically about 0.5 mm in diameter, with a wall 14 which has a thickness of about 0.005 mm and several slots 15 . 16 . 17 . 18 . 115 . 116 . 117 . 118 typically comprises eight in groups of four at each end which are circumferentially offset and from opposite openings 20 . 120 longitudinally along the cylinder 12 extend so that the cylinder wall 14 between the slots 15 . 16 . 17 . 18 and 115 . 116 . 117 . 118 can spread or widen.

According to the invention, each slot 15 . 16 . 17 . 18 and 115 . 116 . 117 . 118 a recess or a cutout 21 . 22 . 23 . 24 . 121 . 122 . 123 . 124 . 125 (as shown) near the opening 20 . 120 but not at the opening 20 . 120 , on. In pairs form the cutouts, such as the cutouts 22 and 23 , a lock or lock across the slot 16 so that the lock is a ball 26 . 26 ' ( 5 ) record and hold. The ball 26 . 26 ' must have a larger diameter than the inner diameter of the cylinder 12 if the ball 26 . 26 ' in the opening end 20 respectively. 120 is used.

In operation, the ball becomes 26 . 26 ' in the opening 20 . 120 used, which causes the walls of the cylinder 12 spread or expand until the ball 26 . 26 ' meets the barrier or arrives at the lock, for example, by the pair of cutout of the cutouts 22 . 23 and 122 . 123 is formed. The ball 26 . 26 ' then rest or lock in the lock. Inner ridges and inner edges 30 . 31 each of the cutouts 22 . 23 . 122 . 123 can be sharp and therefore the ball 26 . 26 ' engage or engage with this, wherein the ball 26 possibly is grooved or machined on the surface in the manner of a chisel or a chisel or planer to ver the electrical resistance reduce the electrical conductivity in the event of surface contamination or surface corrosion or oxidation.

The inherent elasticity of the walls of the conductive cylinder 12 For example, from a metal or an alloy of metals, creates sufficient inward force to the ball 26 safe in the cylinder 12 to hold until the time until an opposing withdrawal force the ball 26 releases or separates. The flexibility or flexibility of the walls is increased by overlapping the slits cut from opposite ends or otherwise introduced. This force is most likely due to a mechanical connection with the ball 26 executed or effected, which is not shown.

Claims (1)

A ball grid array connector comprising: a cylinder ( 12 ), which has a first opening end ( 20 . 120 ) and a second opening end ( 20 . 120 ) and less than one millimeter in diameter; and several slots ( 15 . 16 . 17 . 18 ; 115 . 116 . 117 . 118 ) extending from the first opening end ( 20 . 120 ) and from the second opening end ( 20 . 120 ) longitudinally and interstitially along the cylinder ( 12 ) so that the cylinder walls can expand, each slot ( 15 . 16 . 17 . 18 ; 115 . 116 . 117 . 118 ) a section ( 22 . 23 . 24 . 25 ; 122 . 123 . 124 . 125 ) near the opening end ( 20 . 120 ), but not at the opening end ( 20 . 120 ) having a barrier across the slot ( 15 . 16 . 17 . 18 ; 115 . 116 . 117 . 118 ) forms, so that the lock ( 22 . 23 . 24 . 25 ; 122 . 123 . 124 . 125 ) a ball with a larger diameter than the inner diameter of the cylinder ( 12 ), when the ball in the opening end ( 20 . 120 ) is used, record and hold.