Compositions – Electrically conductive or emissive compositions – Free metal containing
Reexamination Certificate
2002-01-29
2004-06-15
Kopec, Mark (Department: 1751)
Compositions
Electrically conductive or emissive compositions
Free metal containing
C252S514000, C106S001140, C106S001180
Reexamination Certificate
active
06749775
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention generally relates to conductive compositions. In particular, the invention is directed to compositions, which are suitable for making conductive vias in a ceramic substrate.
2. Description of the Related Art
Electrically conductive compositions have numerous applications. Thick film conductive compositions are screenable pastes, which are used to form conductive elements in electronic applications. Such compositions contain electrically conductive material dispersed in a screening agent.
Many electronic packages utilize a via to connect one level or layer of circuitry to another. A via is a hole or aperture that is filled with a conductive compound to provide an electrical connection between different planes of a package allowing one side to be electrically connected to another.
The via after processing needs to be very flat in order for subsequent processing steps to succeed. The ends of the via need to be flat and not have a protrusion or a depression. The via also needs to adhere to the side walls of the via hole and not pull away from it after processing.
Prior art via fill compositions have suffered from excessive shrinkage during processing that cause depressions to form in the end of the via. The prior art compositions also can cause the via fill material to pull away from the side wall of the via hole resulting in an open circuit.
Prior art via fill compositions use silver and gold as the metallic component of the via fill. Gold is too expensive for most applications and therefore has limited use. Silver is preferred. The problem with silver is that it sinters at very low temperatures. The more sintering that occurs, the more its volume decreases. Most via fills are fired at 850° C. which is close to silver's melting point of 960° C. and therefore undergo substantial sintering. This causes shrinking in the via fill during firing which can result in a depression on the surface and pulling away from the via side wall. Using materials that block sintering such Rhodium can reduce the problem. Rhodium is expensive and does not completely block the sintering process. Non conductive materials such as alumina can be added to the silver to hinder sintering. When added in large quantities (replacing 60% of the silver) it does stop the sintering, however it also causes the electrical conductivity of the via fill to increase drastically. This high electrical resistance is detrimental to high frequency circuits.
A current unmet need exists for a conductive via composition that overcomes the deficiencies of the prior art compositions.
SUMMARY
The present invention is a conductive composition for filling a via. The composition is based on total composition and includes:
a) 4.0-12.0 wt. % organic vehicle; and
b) 88.0-96.0 wt. % electrically conductive particles selected from the group consisting of silver and nickel and mixtures thereof.
DETAILED DESCRIPTION
1. Organic Components
The organic component is common to the thick film industry and are commonly called screening agents. The screening agent wets the metal particles to form a paste that can be screened through a wire mesh pattern. The organic components used in the present invention comprises 4.0-12.0 wt. % of an organic vehicle or carrier based on total composition. One such organic vehicle contains 2.0-6.0 wt. % pine oil, 1.6-4.8 wt. % benzyl alcohol and 0.4-1.2 wt. % ethyl cellulose. Pine oil is commercially available from Chem Central Corporation. Benzyl alcohol is commercially available from Aldrich Chemical Corporation. Ethyl cellulose is commercially available from Hercules Corporation.
In the conductive via composition of the present invention, the organic vehicle is used in the range of 4.0-12.0 wt. % with a more preferred range of 7.0-10.0 wt. %. If less than 4.0 wt. % is used, the resulting conductive via composition is difficult to place into a hole or has poor hole filling properties. If more than 12.0 wt. % is used, the resulting via tends to have dimples on the ends of the via and pulls away from the via hole side wall. Other organic vehicles could also be used.
2. Conductive Component
The electrically conductive component of the present invention comprises fine spheroid shaped particles of electrically conductive materials such as silver, nickel, and mixtures thereof. A mixture of nickel and silver is the preferred conductive component. The conductive particles comprise 88.0 to 96.0 wt. % of the total composition with a preferred range of 90.0 to 93.0 wt. %.
The mixture of nickel and silver comprises 15.0 to 60.0 wt % silver and 28.0 to 81.0 wt % nickel of the total composition. A more preferred range of the nickel silver mixture is 15.0 to 30.0 wt. % silver and 66.0 to 78.0 wt. % nickel.
The preferred silver spheres are commercially available from Shoei Chemical Corporation as product number A-128. Silver spheres with a diameter in the range of 1.0-5.0 microns are used with a preferred size of 2.5 microns. The silver particles need to be spherical in order to promote flow into the via.
The preferred nickel spheres are commercially available from Atlantic Equipment Engineers as product number Ni-112. Nickel spheres with a diameter in the range of 15.0-25.0 microns are used with a preferred size of less than 20.0 microns. The nickel particles need to be spherical in order to promote flow into the via. Larger nickel spheres clog the mask or screen used to fill the via. Smaller nickel spheres have too much surface area for the silver to coat.
3. General Composition Preparation and Printing Procedures
In the preparation of the composition of the present invention, the electrically conductive metallic particles are mixed with the organic components. The organic vehicle, nickel spheres and silver spheres are placed in a three-roll mill and mixed for 20 minutes to form a paste. Moderate pressure is applied to the rolls. The resulting paste has a viscosity of 275 to 375 thousand centipoise.
Three-roll mill mixing is preferred for preparing the via fill composition. The via fill composition is placed in a bladder via fill machine manufactured by Pacific Trinetics Corporation. The bladder via fill machine has a mask with holes that correspond to the vias to be filled. A ceramic alumina substrate having holes to be filled is placed under the mask. The via fill composition is pressurized and extruded by the bladder fill machine through the mask and into the via. Screen printing can also be used to fill the vias. The vias are typically 8 mils in diameter and can range from 4 to 10 mils in diameter. The substrate is preferably 96% alumina and can range from 10 to 40 mils thick. Once the via is filled and fired it is no more than 25 microns above or below the top and bottom plain of the substrate.
The alumina substrate with filled vias is then cured in an oven at a temperature range of 80 degrees Celsius for 20 minutes. The substrate is then fired in an oven to sinter the via fill composition. The firing is done in an air atmosphere oven at 800 to 900 degrees Celsius for 5 to 30 minutes. Typical fired vias had a resistance of 0.05 ohm per via for a 8 mil diameter via that is 40 mils long.
4. Remarks
The nickel in the composition minimizes the sintering of the silver and also helps to maintains conductivity. The nickel does not sinter appreciably at the 850° C. firing temperature since its melting point is 1455° C. Also, as the silver tries to alloy with the nickel the majority of the silver nickel alloys also melt at a high temperature of approximately 1435° C. Nickel is also a fair conductor of electricity so its use as a partial replacement for silver does not significantly effect high frequency performance. The conductivities of several metals are given below:
Metal
Conductivity (Microhm-Cm)
Silver
1.59
Copper
1.67
Gold
2.35
Nickel
6.84
Iron
9.71
Tin
11.0
Lead
20.64
Changing the Nickel/Silver ratio has the following effect on the fired dimensions of the filled via. Starting with 100% Nickel the vias will conduct electricity and be very flat on the su
Bourgeois Mark P.
CTS Corporation
Kopec Mark
LandOfFree
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