Chip scale surface mount package for semiconductor device and process of fabricating the same
First Claim
1. A process of fabricating a package for a semiconductor device comprising:
- providing a semiconductor wafer including a plurality of dice;
forming an overcoat on a surface on a front side of the wafer;
patterning the overcoat to expose a connection pad on a front side of the dice;
attaching the wafer to a substrate;
separating the wafer into multichip strips, each strip containing a plurality of dice;
assembling the strips sandwich-like to form a stack, with an edge of each die in the stack being exposed;
depositing at least a first metal layer on one side of the stack, the first metal layer wrapping around an edge of a die to form an electrical connection between a location on the front side of the die and a device terminal on a back side of the die;
disassembling the stack into individual strips; and
separating a strip into individual dice.
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0 Petitions
Accused Products
Abstract
This semiconductor surface mount package is relatively inexpensive to produce and has a footprint that is essentially the same size as the die. A conductive substrate is attached to the back side of a wafer and is in electrical contact with a terminal on the back side of each die in the wafer. A nonconductive overcoat is formed and patterned on the front side of the wafer, leaving a portion of the passivation layer and the connection pads for the dice exposed, each of the connection pads being coated with a solderable metal layer. The assembly is then sawed in perpendicular directions along the scribe lines between the dice, but the saw cuts do not extend all the way through the substrate, which remains intact at its back side. The parallel cuts in one direction are broken to produce die strips which are mounted, sandwich-like, in a stack, with one side of the strips exposed. A metal layer is sputtered or evaporated on one side of the stack; the stack is turned over and a similar process is performed on the other side of the stack. The resulting metal layers are deposited on front side of the die and extend along the edges of the die to the edges and back side of the substrate. The metal is not deposited on the surfaces of the overcoat. The strips in the stack are then separated, and the saw cuts in the perpendicular direction are broken to separate the individual dice. A thick metal layer is plated on the sputtered or evaporated layers to establish a good electrical connection between the front side and the terminal on the back side of each die. The resulting package thus includes a metal layer which wraps around the edges of the die to form an electrical connection between a location on the front side of the die and the conductive substrate. The package is essentially the same size as the die. In an alternative embodiment, a nonconductive substrate is used and vias are formed in the substrate and filled with metal to make electrical contact with the terminal on the back side of the die.
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Citations
61 Claims
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1. A process of fabricating a package for a semiconductor device comprising:
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providing a semiconductor wafer including a plurality of dice;
forming an overcoat on a surface on a front side of the wafer;
patterning the overcoat to expose a connection pad on a front side of the dice;
attaching the wafer to a substrate;
separating the wafer into multichip strips, each strip containing a plurality of dice;
assembling the strips sandwich-like to form a stack, with an edge of each die in the stack being exposed;
depositing at least a first metal layer on one side of the stack, the first metal layer wrapping around an edge of a die to form an electrical connection between a location on the front side of the die and a device terminal on a back side of the die;
disassembling the stack into individual strips; and
separating a strip into individual dice. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
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26. A process of fabricating a package for a semiconductor device comprising:
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providing a semiconductor wafer including a plurality of dice;
attaching a front side of the wafer to a first substrate;
processing the back side of the wafer so as to thin the wafer;
creating openings in the first substrate to expose connection pads on a front side of the dice;
attaching a back side of the wafer to a second substrate to form a sandwich containing the wafer interposed between the first and second substrates;
separating the sandwich into strips, each strip containing a plurality of dice;
assembling the strips together to form a stack, with one edge of each die being exposed;
depositing at least a first metal layer on one side of the stack, the first metal layer wrapping around an edge of a die to form an electrical connection between a location on the front side of the die and a terminal on a back side of the die;
disassembling the stack into individual strips; and
separating a strip into individual dice. - View Dependent Claims (27, 28, 29)
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30. A process of fabricating a package for a semiconductor device comprising:
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providing a semiconductor wafer including a plurality of dice;
attaching the wafer to a substrate;
forming an overcoat on a surface of the wafer;
patterning the overcoat to expose connection pads on a front side of the dice;
separating the wafer into multichip strips, each strip containing a plurality of dice;
forming an electrically conductive wraparound layer, the wraparound layer wrapping around an edge of the die to form at least a portion of an electrical path between a location on a front side of the die and a device terminal at a back side of the die; and
separating the wafer into individual dice. - View Dependent Claims (31, 32)
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- 33. A process of forming an electrical connection between a location on a front side of a semiconductor die and a device terminal at a back side of the die comprising depositing at least one metal layer extending from the location on the front die of the die and around an edge of the die, the at least one metal layer forming at least a portion of an electrical path between the location on the front side of the die and the device terminal at the back side of the die.
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35. A process of fabricating a package for a vertical power MOSFET comprising:
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providing a semiconductor wafer including a plurality of dice;
attaching a back side of the wafer to a conductive substrate;
forming a nonconductive overcoat on a front side of the dice;
patterning the overcoat to expose source and gate pads on the front side of the dice;
separating the wafer into strips, each strip containing a plurality of dice;
assembling the strips sandwich-like to form a stack, with an edge of each die in the stack being exposed;
depositing a first metal layer on one side of the stack, the first metal layer wrapping around an edge of each die to form an electrical connection between a location on the front side of the die and a drain terminal of the MOSFET;
disassembling the stack into individual strips; and
plating a second metal layer over the first metal layer.
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36. A semiconductor package comprising:
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a semiconductor die;
a substrate attached to a first side of the die;
an overcoat overlying a second side of the die, an opening in the overcoat exposing a portion of the second side of the die; and
an electrically conductive wraparound layer adjacent to the exposed portion of the second side of the die and extending along an edge of the die to the substrate and forming at least a portion of an electrical path between the second side of the die and a device terminal on a first side of the die. - View Dependent Claims (37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48)
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49. A package for a vertical power MOSFET comprising:
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a semiconductor die, with source and gate pads being located on a front side of the die and a drain terminal being located on a back side of the die;
a conductive substrate attached to the back side of the die and in electrical contact with the drain terminal; and
a metal layer overlying the front side of the die and extending along an edge of the die and making contact with the substrate. - View Dependent Claims (50, 51, 52)
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53. A semiconductor package comprising:
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a semiconductor die;
a first substrate attached to a front side of the die, an opening being formed in the substrate at a location of a connection pad;
a second substrate attached to a back side of the die; and
at least one metal layer in contact with a location on the front side of the die and extending along an edge of the die to said second substrate and forming an electrical contact with a terminal on a back side of the die. - View Dependent Claims (54)
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55. A semiconductor package comprising:
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a die having a front side and a back side and comprising a semiconductor device, the device having at least one terminal at the front side and at least a second terminal at the back side;
at least one connection pad at the front side of the die in electrical contact with the at least one terminal;
a substrate attached to the back side of the die, the die and the substrate having edges that are substantially coplanar and substantially perpendicular to the front and back sides of the die;
a wraparound metal layer extending from a location over the front side of the die and along the edges of the die and the substrate, the wraparound metal layer being in electrical contact with the second terminal of the semiconductor device. - View Dependent Claims (56, 57, 58, 59, 60, 61)
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Specification