DE10339890A1 - Packaged semiconductor component with ball grid array connections below, has second connection surface on top to permit connection for automatic testing. - Google Patents

Abstract

The invention relates to a semiconductor component with at least one semiconductor body (1) and with at least one laminated, structured carrier board (2), wherein the laminated, structured carrier board (2) has first connection surfaces (3) for solder connections (4) and wherein the first connection surfaces ( 3) are electrically conductively connected to the semiconductor bodies (1). According to the invention, second connection surfaces (5) are arranged above a main surface of the uppermost of the semiconductor bodies (1) facing away from the laminated, structured carrier board (2), the second connection surfaces (5) being spatially separated from this main surface of the uppermost one of the semiconductor bodies (1). by electrically insulating material (6, 7) are separated. Furthermore, the second connection surfaces (5) are electrically conductively connected to the first connection surfaces (3).

Description

The The present invention relates to a semiconductor device having at least a semiconductor body and with a carrier board according to the preamble of claim 1.

typical Representative for generic semiconductor devices are so-called ball grid array components (BGA). Semiconductor devices of this type no longer have laterally arranged connections, that of an electrical connection of the inside of the semiconductor device located chips with terminals of a board on which the semiconductor devices are to be attached, but they have for example, below the semiconductor chip, a carrier board with electrical connection surfaces on. The electrical connection surfaces are electrically connected to the Semiconductor chip connected. On the electrical pads is z. B. solderable in semiconductor devices of the BGA type, spherical material, z. From solder, appropriate. With the help of this material, as a solder connection acts, let the generic semiconductor devices with Solder printed circuit boards to modules. The soldering takes place below the base of the semiconductor device unlike those where the terminal pins are laterally out the housing emerge from the semiconductor device: Here, the soldering takes place laterally to the base area of the housing, viewed from above. Semiconductor devices according to the grid array principle therefore, they are facing each other Semiconductor devices with lateral connection pins the advantage to require less footprint on a circuit board, leaving such a footprint Printed circuit board can be packed with components denser. This Advantage, however, also has the disadvantage that the generic semiconductor devices no longer electrical after being mounted on a printed circuit board can be tested, since neither their pads nor their Lötanschlüsse continue accessible are. In contrast, with laterally exiting ports, these are independent of a mounting on a circuit board for probes and the like accessible.

task Therefore, the present invention is the generic semiconductor device so educate that in the operation of the semiconductor device at the connections applied electrical signals and potentials independent of a mounting on a circuit board for test purposes are accessible, for. For example Test tips that can be part of a test system.

These Task is in a generic semiconductor device with the characterizing features of claim 1. advantageous Training and further education are characterized in subclaims.

The invention is explained below with reference to a drawing. The show 1 to 3 various embodiments of the invention.

The inventive semiconductor device according to 1 contains as a central element a semiconductor body 1 , z. B. the semiconductor chip of an integrated circuit, and a laminated, structured carrier board 2 (For reasons of clarity, the lamination itself, which is structured, is not provided with reference numbers on its own, but rather is shown in a uniform manner with the carrier board, which also applies correspondingly to the further board to be described 6 ). A lower, structured lamination of the carrier board 2 , which is already known from generic semiconductor devices forth, has first pads 3 on, by means of the lamination, for example via bonding wires B1 with (not shown in the drawing) pads of the semiconductor body 1 are electrically connected. By means of the first connection surfaces 3 arranged solder terminals 4 For example, the semiconductor device can be soldered to a printed circuit board (not shown).

At the in 1 illustrated first embodiment of the inventive semiconductor device also has the top of the laminated, structured, advantageously designed as redistribution layer (= rewiring level) support board 2 a structured lamination, which is also not shown for reasons of clarity as an independent element, but in the context of the representation of the carrier board 2 , The structures of the upper lamination are with the structures of the lower lamination, for example by means of plated-through holes 9 electrically connected. The structures of the upper lamination are still via bonding connections 8a with bonding wires 8th electrically connected.

According to the invention, it is now above the semiconductor body 1 another laminated, structured, advantageously as Redistributionsschicht (= rewiring level) designed board 6 with second pads 5 arranged. Also the other laminated, structured board 6 has electrically conductive structures, on the one hand via bonding pads 8b with the bonding wires 8th electrically connected and on the other hand with the second pads 5 , Thus, in the operation of the semiconductor device according to the invention, those are at the first connection surfaces 3 adjacent electrical signals and potentials also at the second pads 5 at.

Like the known semiconductor components, the semiconductor component according to the invention also has an envelope 7 on, in particular, the semiconductor body 1 envelops. It is now provided according to the invention that the second pads 5 at least at its upper major surface are free of the envelope 7 so that they are freely accessible, for example for test tips of a test machine system. In this way, semiconductor devices according to the invention can also be electrically tested in a state in which they are already mounted on a printed circuit board and in which they are thus in a state in which the first connection surfaces 3 and also the solder connections 4 for a test machine system, viewed purely mechanically, are no longer accessible. After testing, the second pads 5 then coated with a protective layer or the like, optionally with such, which can be removed by simple means, without causing damage to the semiconductor device, again or can be re-closed.

2 shows a second advantageous embodiment of the present invention. In this case, the semiconductor component according to the invention contains two semiconductor bodies stacked one above the other 1 , The semiconductor body 1 are arranged so that their chip pads (not shown) on the top of the respective semiconductor body 1 are located (at the in 1 As illustrated, these chip pads are located on the underside of the semiconductor body 1 That is, this is "face down" on the laminated carrier board 2 arranged), so that one here of a "face up" arrangement of the semiconductor body 1 can speak. The two semiconductor bodies 1 are above or on the laminated carrier board 2 arranged. The laminated carrier board 2 itself is laminated on both sides, with the lamination on both sides of the laminated carrier board 2 having electrically conductive structures, as well as in the first embodiment. The structures on the underside of the laminated carrier board 2 lead on the one hand to the first connection surfaces 3 with the associated solder terminals 4 and on the other hand via vias 9 through the laminated carrier board 2 through to the structures on top of the laminated carrier board 2 , The structures on the top of the laminated carrier board 2 in turn lead to connection surfaces 8a for bonding wire connections.

Above each of the two semiconductor bodies 1 is, as in previously known generic semiconductor devices with multiple semiconductor bodies 1 , a favorable as redistribution layer (= rewiring level) designed structural layer 2a arranged, at the edge of which pads 8c for bonding wire connections. These connection surfaces 8c for bonding wire connections are via conductor track structures with the (again not shown) pads of the semiconductor body 1 electrically connected, so that in operation on them the electrical signals and potentials of the semiconductor body 1 issue. These connection surfaces 8c for bonding wire connections are still over bonding wires 8d with the aforementioned connection surfaces 8a for bonding wire connections of the laminated carrier board 2 electrically connected. In this way, as is known, the connections between the connection surfaces of the semiconductor bodies necessary for the operation of the semiconductor component exist 1 and the first pads 3 , as it is already known from generic semiconductor devices ago.

According to the invention, the semiconductor body is now above the uppermost one 1 , according to the semiconductor device according to 1 , the other laminated, structured board 6 with the second pads 5 arranged. The structures of the further laminated, structured board 6 connect, again electrically conductive, the second pads 5 with the also on the other laminated, structured board 6 existing connection surfaces 8b for bonding wire connections. These connection surfaces 8b for bonding wire connections are at the edge of the other laminated, structured board 6 arranged. Between these bordered pads 8b for bonding wire connections and on the top of the laminated carrier board 2 located connection surfaces 8a for bonding wire connections is now in each case a bonding wire 8th arranged, so that finally in operation at the second connection surfaces 5 those electrical signals and potentials are applied, which also at the first pads 3 issue.

As in this embodiment, the second pads 5 According to the invention are freely accessible, for example, for test tips, can also be the novel semiconductor devices according to 2 test electrically after mounting on a circuit board.

3 shows a further advantageous embodiment of the present invention. In simple terms, two generic semiconductor devices, as they according to the arrangement 1 underlying, stacked on top of each other. According to the invention, the upper of these semiconductor components has second connection surfaces 5 on, which abut those electrical signals and potentials, which also at the lower first pads 3 abut, so that even this semiconductor device is electrically testable after mounting on a circuit board.

In detail, the semiconductor device according to the invention according to the 3 a first semiconductor body 1 on, the "face down" (see 1 ) on a first laminated, structured carrier board 2 is mounted. Pads (not shown) of the first semiconductor body 1 are via bonding wires B1 and over the electrically conductive structures of the first carrier board 2 with a first part of those first pads 3 connected to solder terminals, located on the underside of the first laminated structured carrier board 2 are located. The first semiconductor body 1 is with a serving 7 Mistake. On the serving 7 are other first connection surfaces 3a arranged.

Above this, lower element 10 there is a largely identical upper element 11 with a second semiconductor body 1 , a second laminated structured carrier board 2 and with a second serving 7 , First connection surfaces 3 this upper element 11 are by means of the structures of the second laminated structured carrier board 2 and bonding wires B1 with pads (not shown) of the second semiconductor body 1 electrically connected. They are also solder connections 4 over which the upper element 11 with the lower element 10 mechanically stable connected to the other first connection surfaces 3a of the lower element 10 electrically connected. From here, there are further electrical connections to a second part of the first connection surfaces 3 of the lower element 10 , These compounds are in the form of vias 9 through the serving 7 of the lower element 10 and through the laminated structured carrier board 2 of the lower element 10 executed. Shown in 3 for clarity, only vias 9 in the laminated, structured carrier board 2 , But since such plated-through holes as such are already known from generic components, this is also known to the person skilled in the art. Overall, therefore, are in the operation of this known per se component on the pads 3 for solder connections 4 of the lower element 10 all between the two semiconductor bodies 1 on the one hand and a printed circuit board (not shown) on the other hand to be transmitted electrical signals and potentials.

According to the invention now has the upper element 11 on his serving 7 second connection surfaces 5 on that via vias 9 in the servings 7 the two elements 10 . 11 (not shown for clarity) and the carrier boards 2 the two elements electrically conductive with the first pads 3 of the lower element are connected. Thus, even in this embodiment, all electrical signals and potentials at the first pads 3 the lower of the two carrier boards 2 abutment, also at the second connection surfaces 5 available, e.g. For testing purposes.

LIST OF REFERENCE NUMBERS

Claims (10)

Semiconductor component having at least one semiconductor body ( 1 ) and with at least one laminated, structured carrier board ( 2 ), wherein the laminated, structured carrier board ( 2 ) first pads ( 3 ) for solder connections ( 4 ) and wherein the first pads ( 3 ) electrically conductive with the semiconductor bodies ( 1 ) are connected, characterized in that above a main surface of the uppermost of the semiconductor body ( 1 ), the laminated, structured carrier board ( 2 ) is remote, second pads ( 5 ) are arranged, wherein the second pads ( 5 ) spatially from this main surface of the uppermost of the semiconductor bodies ( 1 ) by electrically insulating material ( 6 . 7 ) and wherein the second pads ( 5 ) electrically conductive with the first pads ( 3 ) are connected. Semiconductor component according to Patent Claim 1, characterized in that the electrically insulating material ( 6 . 7 ) an envelope ( 7 ) at least the uppermost of the semiconductor bodies ( 1 ) which is used to protect the semiconductor body ( 1 ) is arranged so that at each of the second pads ( 5 ) its upper main surface free of the envelope ( 7 ). Semiconductor component according to Patent Claim 1, characterized in that the electrically insulating material ( 6 . 7 ) another laminated, structured board ( 6 ). Semiconductor component according to claim 3, characterized in that the further laminated, structured circuit board ( 6 ) is executed as redistribution layer. Semiconductor component according to one of the preceding claims, characterized in that the electrically conductive connections between the first (3) and the second pads ( 5 ) by means of bonding wires ( 8th ) are accomplished. Semiconductor component according to one of the preceding claims, characterized in that the electrically conductive connections between the first (3) and the second pads ( 5 ) by means of plated-through holes ( 9 ) are accomplished. Semiconductor component according to one of the preceding claims, characterized in that the laminated, structured carrier board ( 2 ) is laminated on both sides. Semiconductor component according to one of the preceding claims, characterized in that at least one of the laminations of the laminated, structured carrier board ( 2 ) is executed as redistribution layer. Semiconductor component according to one of the preceding claims, characterized in that in the region of connection surfaces at least one of the semiconductor bodies ( 1 ) a structural layer ( 2a ) is provided. Semiconductor component according to Patent Claim 9, characterized in that the structural layer ( 2a ) is executed as redistribution layer.