WAFER LEVEL BUCK CONVERTER
First Claim
1. A buck converter module comprising:
- a) a high side (HS) die having source, drain, and gate bonding pads on a front side of said HS die;
b) a low side (L S) die having a first section thereof with a plurality of through silicon vias (TSVs) extending from a back side to a front side of said LS die, said LS die having source, drain, and gate bonding pads located on a front side of a second section separate from said first section, said drain bonding pad electrically connected to said back side of said LS die in said second section; and
c) said HS die and said LS die bonded together such that said source bonding pad of said HS die is electrically connected to said back side of said LS die, and each of said drain and gate bonding pads are electrically connected to separate TSVs in said LS die.
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Accused Products
Abstract
A buck converter module includes a high side (HS) die having source, drain, and gate bonding pads on a front side of the HS die, a low side (LS) die having a first section thereof with a plurality of through silicon vias (TSVs) extending from a back side to a front side of the LS die, the LS die having source, drain, and gate bonding pads located on a front side of a second section separate from the first section, the drain bonding pad electrically connected to the back side of the LS die in the second section. The HS die and the LS die are bonded together such that the source bonding pad of the HS die is electrically connected to the back side of the LS die, and each of the drain and gate bonding pads are electrically connected to separate TSVs in the LS die.
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Citations
26 Claims
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1. A buck converter module comprising:
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a) a high side (HS) die having source, drain, and gate bonding pads on a front side of said HS die; b) a low side (L S) die having a first section thereof with a plurality of through silicon vias (TSVs) extending from a back side to a front side of said LS die, said LS die having source, drain, and gate bonding pads located on a front side of a second section separate from said first section, said drain bonding pad electrically connected to said back side of said LS die in said second section; and c) said HS die and said LS die bonded together such that said source bonding pad of said HS die is electrically connected to said back side of said LS die, and each of said drain and gate bonding pads are electrically connected to separate TSVs in said LS die. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A buck converter module comprising:
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a) a high side (HS) die having source, drain, and gate bonding pads on a front side of said HS die with metal plates attached to each of said bonding pads; b) a low side (LS) die having a first section thereof with a plurality of through silicon vias (TSVs) extending from a back side to a front side of said LS die, said LS die having source, drain, and gate bonding pads located on a front side of a second section separate from said first section, said drain bonding pad electrically connected to said back side of said LS die in said first section, wherein sides of the TSVs are in contact with an insulator that extends between said TSVs and to three sides of said LS die on said front side and said back side of said LS die; c) said HS die and said LS die bonded together by an anisotropic conductive film such that said source bonding pad of said HS die is electrically connected to said back side of said LS die, and each of said drain and gate bonding pads are electrically connected to separate TSVs in said LS die; and d) a plurality of solder bumps attached to said bonding pads of said LS die and on said TSVs on said front side of said LS die. - View Dependent Claims (11, 12)
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13. A method of making a buck converter module comprising the steps of:
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a) forming a high side (HS) die having source bonding pads on a front side of said HS die in a first section of said HS die and having a drain and gate bonding pad on said first side of a second section of said HS die; b) forming a low side (LS) die having source, drain, and gate bonding pads on a front side of said LS die in a first section of said LS die, said front side of said LS die having a back side opposite said front side of said LS die with a drain connection at said back side of said LS die in said first section; c) forming a plurality of through silicon vias (TSVs) in a second section of said LS die, said TSVs extending from said front side to said back side of said LS die; and d) electrically connecting said source bonding pads of said HS die to said drain connection at said back side of said LS die, and connecting said drain and gate bonding pads of said HS die to ends of said TSVs on said back side of said LS die. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
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21. A method of making a buck converter module comprising the steps of:
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a) forming in a high side (HS) die wafer having at least two spaced apart HS dies, each of said HS dies having source bonding pads on a front side of each of said HS dies in a first section of each of said HS dies and having a drain and gate bonding pad on said first side of a second section of each of said HS dies; b) forming in a low side (LS) die wafer having at least two spaced apart LS dies, each of said LS dies having source, drain, and gate bonding pads on a front side of each of said LS dies in a first section of each of said LS dies; c) forming a plurality of trenches into said front side in a second section of each of said LS dies; d) removing a first portion of each wafer around each of said plurality of trenches on said front side of said LS die wafer; e) oxidizing said trenches and said first portions around said trenches; f) filling said trenches with metallization; g) Thinning said LS die wafer by removing semiconductor material from the back side of said LS die wafer such that said metallization filled trenches are exposed on a backside of said LS die wafer, each of said LS dies having a drain connection at each of said back sides of said LS die wafer in each of said first sections; h) removing a second portion of each wafer around each of said plurality of trenches on said back side of said LS die wafer and oxidizing each of said second portions; i) Attaching said HS die wafer to said LS die wafer such that said source bonding pads of each of said HS dies are electrically connected to said first section in said back side of a corresponding LS die, and said drain and gate bonding pads of each of said HS dies are electrically connected to one of said metallization filled trenches is said second section of said corresponding LS die. - View Dependent Claims (22, 23, 24, 25, 26)
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Specification