CN201752011U - Foundation island-free and multi-ring pin packaging structure - Google Patents

Abstract

The utility model relates to a foundation island-free and multi-ring pin packaging structure which comprises a plurality of pins (2), a plurality of non-conducting bonding materials (6), a plurality of chips (7), a plurality of metal wires (8) and a plurality of filler plastic package materials (9), wherein the pins (2) are provided with a plurality of rings; the front sides of the pins (2) extend beside the regions which need to be packaged with the chips subsequently; the peripheral regions of the pins (2), the regions which need to be packaged with the chips subsequently and the regions among the pins (2) are embedded with a plurality of filler-free plastic package materials (3); the filler-free plastic package materials (3) connect the peripheries of the lower parts of the pins, the back sides of the extending parts of the front sides of the pins (2) and the lower parts of the pins (2) with the lower parts of the pins (2) into a whole; the front sides of the regions which need to be packaged with the chips subsequently are provided with the chips (7); the upper parts of the pins (2), the chips (7) and the metal wires (8) are externally packaged with the filler plastic package materials (9); and a first metal layer (4) which is arranged at the front sides of the pins (2) is wholly or partially electroplated. The structure has the benefit effects of being large in the binding capability between the plastic package body and the metal pin, reducing the cost, saving the energy, reducing the carbon, and reducing the waste.

Description

There is not basic island multi-turn pin packaging structure

(1) technical field

The utility model relates to a kind of encapsulating structure.Belong to the semiconductor packaging field.

(2) background technology

Traditional encapsulating structure mainly contains two kinds:

First kind:

After chemical etching and surface electrical coating are carried out in the front of employing metal substrate, stick the resistant to elevated temperatures glued membrane of one deck at the back side of metal substrate and form the leadframe carrier (as shown in Figure 3) that to carry out encapsulation process.

Second kind:

After chemical etching and surface electrical coating are carried out in the front of employing metal substrate, promptly finish the making (as shown in Figure 4) of lead frame.Back etched is then carried out at the back side of lead frame again in encapsulation process.

And the not enough point of two kinds of above-mentioned lead frames below in encapsulation process, having existed:

First kind:

1) but this kind lead frame must stick the glued membrane of one deck costliness high temperature resistance because of the back side.So directly increased high cost.

2) but also because the glued membrane of one deck high temperature resistance must be sticked in the back side of this kind lead frame, so the load technology in encapsulation process can only be used conduction or nonconducting resin technology, and the technology that can not adopt eutectic technology and slicken solder is fully carried out load, so selectable product category just has bigger limitation.

3) but again because the glued membrane of one deck high temperature resistance must be sticked in the back side of this kind lead frame, and in the ball bonding bonding technology in encapsulation process, because but the glued membrane of this high temperature resistance is a soft materials, so caused the instability of ball bonding bonding parameter, seriously influenced the quality of ball bonding and the stability of production reliability.

4) but again because the glued membrane of one deck high temperature resistance must be sticked in the back side of this kind lead frame, and the plastic package process process in encapsulation process, because the high pressure of plastic packaging relation is easy to cause between lead frame and the glued membrane and infiltrates plastic packaging material, be that the kenel of conduction has become insulation pin (as shown in Figure 5) on the contrary because of having infiltrated plastic packaging material and will formerly should belong to metal leg.

Second kind:

This kind lead frame structure has carried out etching partially technology in the metal substrate front, though can solve the problem of first kind of lead frame, but because only carried out the work that etches partially in the metal substrate front, and plastic packaging material only envelopes the height of half pin in the plastic packaging process, so the constraint ability of plastic-sealed body and metal leg has just diminished, when if the plastic-sealed body paster is not fine to pcb board, does over again again and heavily paste, with regard to the problem (as shown in Figure 6) that is easy to generate pin.

Especially the kind of plastic packaging material is to adopt when filler is arranged, because material is at the environment and the follow-up surface-pasted stress changing relation of production process, can cause metal and plastic packaging material to produce the crack of vertical-type, its characteristic is the high more then hard more crisp more crack that is easy to generate more of proportion of filler.

In addition, because the distance between chip and the pin is far away, shown in Fig. 7～8, the length of metal wire is longer, metal wire cost higher (the especially metal wire of Ang Gui proof gold matter); Same because the length of metal wire is longer, make that the signal output speed of chip is slow (being the product of storage class and the calculating that needs mass data by it, more outstanding); Too because the length of metal wire is longer, so existing dead resistance/parasitic capacitance of metal wire and parasitic electric pole are also higher to the interference of signal; Because the distance between chip and the pin is far away, make that the volume and the area of encapsulation are bigger again, material cost is higher, and discarded object is more.

(3) summary of the invention

The purpose of this utility model is to overcome above-mentioned deficiency, provides a kind of and reduces that packaging cost, selectable product category are wide, the big no base island multi-turn pin packaging structure of constraint ability of good stability, plastic-sealed body and the metal leg of the quality of ball bonding and production reliability.

(3) summary of the invention

The purpose of this utility model is achieved in that a kind of no basic island multi-turn pin packaging structure, comprise pin, non-conductive bonding material, chip, metal wire and the filler plastic packaging material arranged, described pin is provided with multi-turn, described pin front extends to the follow-up next door, zone that needs cartridge chip as much as possible, front at described pin is provided with the first metal layer, be provided with second metal level at the back side of described pin, zone in described pin periphery, the follow-up zone of cartridge chip and the zone between pin and the pin of needing is equipped with packless plastic packaging material, described packless plastic packaging material is with periphery, pin bottom, the back side of the positive extension of described pin and pin bottom and pin bottom link into an integrated entity, and make described pin back side size less than the positive size of pin, form up big and down small pin configuration, be provided with chip in the described follow-up front, zone of cartridge chip that needs by non-conductive bonding material, be connected with metal wire between chip front side and the pin front the first metal layer, outside the top of described pin and chip and metal wire, be encapsulated with the filler plastic packaging material.

The beneficial effects of the utility model are:

1) but the glued membrane of one deck costliness high temperature resistance need not sticked in the back side of this kind lead frame.So directly reduced high cost.

2) but because the glued membrane of one deck high temperature resistance need not sticked in the back side of this kind lead frame yet, so the load technology in encapsulation process is except using conduction or nonconducting resin technology, can also adopt the technology of eutectic technology and slicken solder to carry out load, so selectable product category is just wide.

3) but again because the glued membrane of one deck high temperature resistance need not sticked in the back side of this kind lead frame, guaranteed the stability of ball bonding bonding parameter, guaranteed the quality of ball bonding and the stability of production reliability.

4) but again because this kind lead frame need not stick the glued membrane of one deck high temperature resistance, and the plastic package process process in encapsulation process can not cause between lead frame and the glued membrane fully and infiltrate plastic packaging material.

5) because the zone between described metal leg (pin) and metal leg is equipped with packless soft gap filler, this packless soft gap filler has the filler plastic packaging material to envelope the height of whole metal leg with the routine in the plastic packaging process, so the constraint ability of plastic-sealed body and metal leg just becomes big, do not have the problem that produces pin again.

6) owing to adopted positive method of separating the etching operation with the back side, so in the etching operation, can form the slightly little and big slightly structure of front static release ring size of the size of back side static release ring, and slided by the tighter more difficult generation that packless plastic packaging material coated and falling pin with the size that varies in size up and down of a static release ring.

7) separate etched technology owing to used the back side with the front, so the pin in lead frame front can be extended to as much as possible the next door of chip, impel chip and pin distance significantly to shorten, so the cost of metal wire also can significantly reduce (the especially metal wire of Ang Gui proof gold matter).

8) also because the shortening of metal wire makes also significantly speedup (the especially product of storage class and the calculating that needs mass data of signal output speed of chip, more outstanding), because the length of metal wire has shortened, so existing dead resistance/parasitic capacitance of metal wire and parasitic electric pole are to the also significantly reduction of interference of signal.

9) because of having used the elongation technology of pin,, make the volume and the area of encapsulation significantly to dwindle so can be easy to produce the distance between high pin number and highdensity pin and the pin.

10) because volume after being encapsulated is significantly dwindled, more direct embody material cost significantly descend with because the minimizing of material usage also significantly reduces the puzzlement of discarded object environmental protection.

(4) description of drawings

Fig. 1 is basic island multi-turn pin packaging structure schematic diagram for the utility model does not have.

Fig. 2 is the vertical view of Fig. 1.

Fig. 3 was for sticked the resistant to elevated temperatures glued membrane figure of one deck operation in the past at the back side of metal substrate.

Fig. 4 was for to adopt the front of metal substrate to carry out chemical etching and surface electrical coating flow diagram in the past.

Fig. 5 was for formed insulation pin schematic diagram in the past.

Fig. 6 pin figure for what formed in the past.

Fig. 7 is an encapsulating structure schematic diagram in the past.

Fig. 8 is the vertical view of Fig. 7.

Reference numeral among the figure:

Pin 2, packless plastic packaging material 3, the first metal layer 4, second metal level 5, non-conductive bonding material 6, chip 7, metal wire 8, filler plastic packaging material 9 is arranged.

(5) embodiment

Referring to Fig. 1～2, Fig. 1 is basic island multi-turn pin packaging structure schematic diagram for the utility model does not have.Fig. 2 is the vertical view of Fig. 1.By Fig. 1～2 as can be seen, the utility model does not have basic island multi-turn pin packaging structure, comprise pin 2, non-conductive bonding material 6, chip 7, metal wire 8 and filler plastic packaging material 9 is arranged, described pin 2 is provided with multi-turn, described pin 2 fronts extend to the follow-up next door, zone that needs cartridge chip as much as possible, be provided with the first metal layer 4 in the front of described pin 2, be provided with second metal level 5 at the back side of described pin 2, zone in described pin 2 peripheries, the follow-up zone of cartridge chip and the zone between pin 2 and the pin 2 of needing is equipped with packless plastic packaging material 3, described packless plastic packaging material 3 is with periphery, pin bottom, the back side of described pin 2 positive extensions and pin 2 bottoms and pin 2 bottoms link into an integrated entity, and make described pin back side size less than the positive size of pin, form up big and down small pin configuration, be provided with chip 7 in the described follow-up front, zone of cartridge chip that needs by non-conductive bonding material 6, chip 7 positive with pin 2 front the first metal layers 4 between be connected with metal wire 8, outside the top of described pin 2 and chip 7 and metal wire 8, be encapsulated with filler plastic packaging material 9.

The utility model can be electroplated the making that the first metal layer 4 or regional area are electroplated the first metal layer 4 because of the Zone Full that need carry out in the front of above-mentioned pin 2 of chip functions.

Claims (1)

1. no basic island multi-turn pin packaging structure, comprise pin (2), non-conductive bonding material (6), chip (7), metal wire (8) and filler plastic packaging material (9) is arranged, it is characterized in that: described pin (2) is provided with multi-turn, described pin (2) front extends to the follow-up next door, zone that needs cartridge chip, be provided with the first metal layer (4) in the front of described pin (2), be provided with second metal level (5) at the back side of described pin (2), in the peripheral zone of described pin (2), the follow-up zone of cartridge chip and the zone between pin (2) and the pin (2) of needing is equipped with packless plastic packaging material (3), described packless plastic packaging material (3) is with periphery, pin bottom, the back side of the positive extension of described pin (2) and pin (2) bottom and pin (2) bottom link into an integrated entity, and make described pin back side size less than the positive size of pin, form up big and down small pin configuration, be provided with chip (7) in the described follow-up front, zone of cartridge chip that needs by non-conductive bonding material (6), chip (7) positive with pin (2) front the first metal layer (4) between be connected with metal wire (8), be encapsulated with filler plastic packaging material (9) outside the top of described pin (2) and chip (7) and metal wire (8), the first metal layer (4) that the front of described pin (2) is provided with is electroplated for Zone Full or the regional area plating.

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