USRE43807E1 - Microcircuit package having ductile layer - Google Patents
Microcircuit package having ductile layer Download PDFInfo
- Publication number
- USRE43807E1 USRE43807E1 US13/348,934 US201213348934A USRE43807E US RE43807 E1 USRE43807 E1 US RE43807E1 US 201213348934 A US201213348934 A US 201213348934A US RE43807 E USRE43807 E US RE43807E
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- Prior art keywords
- layer
- copper
- substrate
- alloy
- microcircuit package
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- H01L2924/157—Material with a principal constituent of the material being a metal or a metalloid, e.g. boron [B], silicon [Si], germanium [Ge], arsenic [As], antimony [Sb], tellurium [Te] and polonium [Po], and alloys thereof
- H01L2924/15738—Material with a principal constituent of the material being a metal or a metalloid, e.g. boron [B], silicon [Si], germanium [Ge], arsenic [As], antimony [Sb], tellurium [Te] and polonium [Po], and alloys thereof the principal constituent melting at a temperature of greater than or equal to 950 C and less than 1550 C
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- H01L2924/30—Technical effects
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- H01L2924/3511—Warping
Definitions
- Microcircuit packages are known for containing a semiconductor device or circuit but are relatively costly to achieve acceptable levels of reliability and performance. The manufacturing goal is to produce a microcircuit package having a high performance at a low cost. However, microcircuit packages of presently known construction cannot achieve intended performance levels at a low cost. In general, known microcircuit packages employ a ceramic material to provide high thermal performance and high reliability.
- Typical materials incorporated into ceramic packages as flanges include copper-tungsten, copper/molybdenum clad structures, and aluminum-silicon carbide (Al-SiC). These materials have an advantage of TCEs fairly close to that of the semiconductor devices.
- Semiconductor devices typically have thermal coefficients of expansion in the range of 2.8-4.0 ppm/° C.
- the aforementioned flange materials have TCE values in the range of 6.0-10.0 ppm/° C. TCE values below 10.0 ppm/° C.
- the deficiencies in these materials are that the thermal conductivities are fairly low, i.e., in the range of 150-240 W/mK (Watt per meter Kelvin), and the cost of these materials is high.
- a better flange material would be copper or a copper alloy for at least the following reasons. Copper is a material which is commonly available, has a low cost, and can be fabricated using high volume manufacturing techniques such as stamping. Also, copper and copper alloys have a thermal conductivity in the range of 350-400 W/mK. A technical barrier to using copper for flanges in these applications has been the fact that copper and copper alloys have a high TCE (about 17-20 ppm/° C.). This large difference between the TCEs of copper and that of semiconductor devices has resulted in large stresses applied to the semiconductor devices which can cause a failure during operation. In addition, conventional dielectric materials used for this application are ceramic based. The ceramic material has a TCE in the range of about 6-8 ppm/° C., and the combination of the traditional ceramic dielectric and copper flange result in a large mismatch of TCE and results in excessive warpage or cracking of the dielectric.
- one prior art approach employs an adhesive for the die attach. This allows use of a more ductile die attach but has a substantial drawback in that the adhesive has a very low thermal conductivity which limits the performance of the die attach.
- Another prior art approach uses high lead solder for the die attach, which allows use of a more ductile solder, but the high lead solder is a problem due to environmental issues.
- a further prior art approach uses a thick layer of gold, typically 300 micro-inches, applied to the backside of the semiconductor die, which allows for a buffer layer of gold on the die, but the thick layer of gold adds considerable cost to the product.
- a gold layer has been used on the backside of a gallium arsenide die which is soldered with AuSn eutectic solder to a copper substrate, but this approach has traditionally been limited to small devices ⁇ 3 mm on a side, and has been limited to devices which have a substantially square shape.
- the TCE mismatch between the semiconductor device and the flange material results in failure of the semiconductor device or the die attach by reason of the stress induced by the TCE mismatch.
- the mismatch in TCE between ceramic and copper can cause large stresses to be developed in the structure, which results in excessive warpage or cracking of the dielectric.
- the temperature of the solder at a liquidus point is 280° C. for gold-tin alloys, or 368° C. for a gold-silicon eutectic composition. For these eutectic compositions, the solder turns into a solidus at the aforementioned temperatures.
- a top layer of the flange material is frozen, and cooling to room temperature causes a bottom portion of the flange to contract more than the top portion, causing the flange to bend into a concave shape.
- This concave shape subjects the semiconductor device to a bending stress, and such a tensile stress in the semiconductor device can cause a failure of the device.
- the invention provides a reliable microcircuit package having the above-noted preferred criteria by use of a ductile layer between the copper flange and the die attach.
- the ductile layer absorbs the stress between the flange and semiconductor device, and can substantially reduce the stress applied to the semiconductor device.
- this invention provides the combination of copper flange and polymeric dielectric with a TCE close to copper.
- the polymeric material has a TCE about 17 ppm/° C. which is a closer match with copper.
- This combination results in a low stress structure that is robust when temperature cycled and which also demonstrates low cost and high thermal performance.
- the stress can be reduced by up to 40%.
- This invention therefore, provides a microcircuit package having improved reliability and a significant improvement in thermal conductivity.
- the thermal conductivity can be improved by a factor of about 2.
- FIG. 1 is a perspective view of a circuit package, without a lid, according to one embodiment of the present invention.
- FIG. 2 is a perspective view of the circuit package of FIG. 1 with a lid attached thereto;
- FIG. 3 is a diagrammatic elevation view of a circuit package in accordance with the invention illustrating the several layers.
- FIG. 1 One embodiment of a microcircuit package in accordance with the invention is shown in FIG. 1 .
- the circuit package 100 includes a flange 102 , a frame 104 and two leads 106 and 108 extending from respective sides of the package.
- the frame 104 electrically insulates the leads 106 and 108 from the flange 102 and from each other.
- a semiconductor die 110 is attached to a die attach area 112 within the area defined by the frame 104 .
- the die 110 is attached to the die attach area 112 by a eutectic or other appropriate solder 114 . In the illustrated embodiment only one die is shown, although two or more dies can typically be attached to the die attach area 112 in accordance with application and user requirements.
- the eutectic solder 114 electrically bonds the die 110 to the confronting surface of the flange 102 .
- the leads 106 and 108 are connected to contact areas of the die 110 by wire bonded leads 120 and 122 .
- a lid 200 is attached to the confronting periphery of the frame 104 to enclose the die, as illustrated in FIG. 2 .
- the flange 102 forms a base to which other parts of the circuit package are attached, and also serves as a heat sink to conduct heat from the one or more semiconductor dies mounted in the package.
- the flange is preferably made of copper or a high copper alloy to provide high electrical and thermal conductivity.
- the frame 104 is made of an injection molded thermoplastic and is molded to the flange 102 and to the leads 106 and 108 .
- the frame 104 is preferably made of a dielectric material is preferably having a TCE in the range of 12-25 ppm/° C. such as a liquid crystal polymer (LCP) that can withstand die attach temperatures which typically are 280-330° C. for AuSn soldering, or 390-420° C. for AuSi soldering.
- LCP liquid crystal polymer
- Preferable high temperature LCP frame materials are further described, for example, in Applicant's prior U.S. Pat. No. 7,053,299.
- the high temperature polymeric material can have a composition which includes one of the following chemical groups: hydroquinone (HQ), 4,4 bisphenol (BP), bis (4-hydroxylphenyl ether) (POP), terephthalic acid (TPA), 2,6 naphthalene dicarboxylic acid (NPA), 4,4 benzoic acid (BB), 4-hydroxybenzoic acid (HBA), 6-hydroxy-2-napthoic acid (HNA).
- HQ hydroquinone
- BP 4,4 bisphenol
- POP bis (4-hydroxylphenyl ether)
- TPA terephthalic acid
- NPA 2,6 naphthalene dicarboxylic acid
- BB 4,4 benzoic acid
- HBA 4-hydroxybenzoic acid
- HNA 6-hydroxy-2-napthoic acid
- the leads 106 and 108 are preferably made of an alloy of copper which may be of many alternative compositions such as those described in the aforesaid U.S. Pat. No. 7,053,299.
- the copper alloys include those known under the UNS designations C19400, C15100, C19500, C19700, C50710, C19210, C19520, C18070, C19010, C70250, EFTEC-64T, KLF-25 and MF224.
- the microcircuit package comprises a flange or substrate 200 of copper or copper alloy, having a ductile layer 210 , typically of copper or silver, applied on a surface of the flange.
- a barrier layer 212 of nickel or nickel cobalt is applied over the ductile layer, and a gold layer 214 is applied over the nickel layer.
- a eutectic solder 216 typically of gold-tin (AuSn), gold silicon (AuSi), or gold-germanium (AuGe)is applied over the gold layer, and one or more semiconductor dies 218 are attached to the eutectic solder.
- the semiconductor dies can be fabricated from materials such as silicon, gallium arsenide, gallium nitride or any other suitable semiconductor material.
- the flange 200 typically has a thickness in the range of about 0.040-0.060 inches.
- the ductile layer 210 has a thickness in the range of about 100-500 micro-inches.
- the barrier layer 212 has a thickness in the range of about 100-200 micro-inches.
- the semiconductor dies 218 typically have a thickness in the range of about 0.002-0.010 inches.
- the thickness of the gold layer 214 will depend upon the type of eutectic solder employed. For gold-tin (AuSn) solder, the gold layer on the flange has a thickness in the range of about 30-50 micro-inches.
- a gold layer of about 25 micro-inches is applied over a palladium layer of about 5 micro-inches.
- the gold layer has a thickness in the range of about 100-200 micro-inches.
- the eutectic solder can be a lead-free solder such as tin-silver-copper (SnAgCu), tin-silver (SnAg), antimony-tin (SbSn), tin-zinc (SnZn), bismuth (Bi) and tin-indium (SnIn).
- a layer of nickel is applied at a thickness of about 150 micro-inches over the ductile layer.
- a “flash” coating of about 5 micro-inches of gold can be applied over the nickel layer to prevent oxidation of the nickel.
- the ductile layer 210 can be copper, silver, or an alloy of copper and silver, and the ductile layer can be provided in several different ways such as by plating, cladding, evaporation, and sputtering.
- the ductile layer has hardness less than about 80 Knoop and a thickness in the range of about 100 to 1000 micro-inches, and preferably in the range of about 100 to 500 micro-inches.
- the flange 200 can be made of a harder form of copper or other suitable material, which is more resistant to damage during manufacturing such as scratches, nicks, and the like.
- a preferred hardness is greater than 80 Knoop and preferably in the range of about 85-100 Rockwell F.
- the flange 10 can be made of a copper zirconium alloy (CDA 151) which has hardness in the intended range of 85-100 Rockwell F.
- CDA 151 copper zirconium alloy
- CDA 151 copper has an annealing temperature greater than 500° C. and a significantly greater hardness.
- the harder flange material is more stable and suitable for efficient manufacturing processes.
Abstract
Description
-
- 1. High thermal conductivity in a low cost base material;
- 2. Low cost insulator material with a thermal coefficient of expansion (TCE) match to the base material; and
- 3. High thermal performance die attach.
Claims (21)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US13/348,934 USRE43807E1 (en) | 2006-11-09 | 2012-01-12 | Microcircuit package having ductile layer |
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US85802006P | 2006-11-09 | 2006-11-09 | |
US11/983,813 US7679185B2 (en) | 2006-11-09 | 2007-11-09 | Microcircuit package having ductile layer |
US13/348,934 USRE43807E1 (en) | 2006-11-09 | 2012-01-12 | Microcircuit package having ductile layer |
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US11/983,813 Reissue US7679185B2 (en) | 2006-11-09 | 2007-11-09 | Microcircuit package having ductile layer |
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EP (1) | EP2089901A4 (en) |
CN (1) | CN101641785B (en) |
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US7480718B2 (en) * | 2004-06-28 | 2009-01-20 | International Business Machines Corporation | Method for providing single sign-on user names for Web cookies in a multiple user information directory environment |
DE112009004530B4 (en) * | 2009-03-23 | 2015-04-02 | Toyota Jidosha Kabushiki Kaisha | Semiconductor device |
US8753983B2 (en) * | 2010-01-07 | 2014-06-17 | Freescale Semiconductor, Inc. | Die bonding a semiconductor device |
DE102011011051B3 (en) * | 2011-02-11 | 2012-03-01 | Ovd Kinegram Ag | Process for the production of a laminate as well as card body from this |
EP2693465A1 (en) | 2012-07-31 | 2014-02-05 | Nxp B.V. | Electronic device and method of manufacturing such device |
EP2889903A1 (en) * | 2013-12-24 | 2015-07-01 | Nxp B.V. | Die with a multilayer backside interface layer for solder bonding to a substrate and corresponding manufacturing method |
US9490031B2 (en) | 2014-02-26 | 2016-11-08 | Freescale Semiconductor, Inc. | High-speed address fault detection using split address ROM |
US9263152B1 (en) | 2014-07-23 | 2016-02-16 | Freescale Semiconductor, Inc. | Address fault detection circuit |
US9698116B2 (en) * | 2014-10-31 | 2017-07-04 | Nxp Usa, Inc. | Thick-silver layer interface for a semiconductor die and corresponding thermal layer |
CN104299922A (en) * | 2014-11-03 | 2015-01-21 | 苏州同冠微电子有限公司 | Back metallization eutectic process method |
EP3563099A4 (en) * | 2017-01-02 | 2021-03-10 | Black & Decker Inc. | Electrical components for reducing effects from fluid exposure and voltage bias |
US10741446B2 (en) * | 2017-07-05 | 2020-08-11 | Nxp Usa, Inc. | Method of wafer dicing for wafers with backside metallization and packaged dies |
CN109877156B (en) * | 2019-03-20 | 2020-10-27 | 汕尾市索思电子封装材料有限公司 | Copper-molybdenum-copper laminated composite material and manufacturing method thereof |
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2007
- 2007-11-09 EP EP07861869A patent/EP2089901A4/en not_active Withdrawn
- 2007-11-09 US US11/983,813 patent/US7679185B2/en not_active Ceased
- 2007-11-09 WO PCT/US2007/023590 patent/WO2008060447A2/en active Application Filing
- 2007-11-09 CN CN2007800495924A patent/CN101641785B/en active Active
-
2012
- 2012-01-12 US US13/348,934 patent/USRE43807E1/en active Active
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Also Published As
Publication number | Publication date |
---|---|
EP2089901A4 (en) | 2011-05-18 |
US20080128908A1 (en) | 2008-06-05 |
CN101641785B (en) | 2011-07-13 |
WO2008060447A2 (en) | 2008-05-22 |
EP2089901A2 (en) | 2009-08-19 |
WO2008060447A8 (en) | 2009-07-16 |
US7679185B2 (en) | 2010-03-16 |
CN101641785A (en) | 2010-02-03 |
WO2008060447B1 (en) | 2008-12-11 |
WO2008060447A3 (en) | 2008-09-18 |
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