1. Field of the Invention
The present invention relates to forming features in a metal-containing web using liquid-based etch process, and more particularly to forming double sided features in a metal-containing web by a liquid-based etch process.
2. Description of the Related Art
Functional patterns formed into aluminum foil are used in a variety of products, including thin foil products such as microwave plates, trays and bowls, as well as thick foil products such as planar speakers, electronic circuitry surveillance products used for shoplifting prevention in retail environments, and flexible heaters, just to name a few. Common processes to form these products includes chemical milling or chemical etching of a metal-containing layer of a web. The metal-containing layer typically is a metal foil of aluminum or copper or, less commonly, silver having a desired thickness that is laminated to or otherwise formed on a suitable substrate. A desired pattern is formed on the surface of the metal foil with a etch resistant protective coating, typically by using Gravure printing or silk screen printing. The web with the printed metal foil is introduced to an etching solution, whereupon the metal foil in the open areas of the pattern is etched away to leave behind the desired protected features of the pattern. The etching bath can be acidic or basic in nature, depending on the type of metal. The foil can be of different thickness, depending on the intended function of the desired product.
A liquid-based etch process for fabricating planar electrical circuits that is especially adapted for use in electronic security systems is described in U.S. Pat. No. 3,913,219, issued Oct. 21, 1975 to Lichtblau. The process begins with an electrically insulating substrate that has conductive foil directly bonded on each opposite surface. The thickness of the substrate is maintained to an accurate tolerance commensurate with the intended resonant properties of a completed resonant tag circuit, which is formed by repetitive planar patterns on both conductive surfaces. In particular, the web emerging from the process has circuit patterns on one foil side, the thick foil side, each of which contains two inductors and respective first plates for two capacitors, and has circuit patterns on the other side, the thin foil side, each of which contains a fusible link and respective second plates for the two capacitors. The plates of the capacitors are separated by the substrate, the dielectric characteristics of which affect the value of the two capacitors. The functions performed by the structures provided on the thick foil side, namely inductance and charge storage at one potential, are distinctly different than the functions performed by the structures provided on the thin foil side, namely fusible conductance and charge storage at another potential.
Continuous etching or milling processes are particularly advantageous when large amounts of patterned web is required because of the low cost per product unit relative to non-continuous processes. A particularly useful liquid-based continuous demetallizing process and apparatus are described in U.S. Pat. No. 5,340,436, which issued Aug. 23, 1994 to D. Gregory Beckett. Generally speaking, the apparatus has an elongate tank that holds a bath of aqueous etchant material. The web containing the metal layer to be etched initially is arranged in a roll. The web is taken off of the roll and guided into the bath at one end, guided either horizontally or sinusoidally through the bath, and removed from the bath and taken up on another roll at the opposing end of the bath The web is driven along its path by any suitable drive mechanism. An example of a drive mechanism is a combination of driven belts and roller elements. The web passes between these elements, which engage the web and drive it.
Planar speakers have been known for many years but have not achieved widespread commercial success because of the relatively high cost of manufacture of the diaphragm element. A schematic of an illustrative planar speaker diaphragm 100 is shown in
The continuous etch process of the '436 patent has commonly and successfully been used to make blanks for microwave plates, trays and bowls, but it is also useful in the large scale fabrication of items made from webs having thicker metal layers. Accordingly, it is desired to fabricate speaker diaphragms with thick metal traces using a continuous etch process to achieve low per unit cost but without sacrificing the quality of the traces in the conductive path.
While continuous etch processes such as the process of the '436 patent are useful in the fabrication of patterned product units on webs, they can lead to sidewall profiles that are not optimal for some applications such as speaker diaphragms that include thick conductive traces. The reason is due to the highly exothermic nature of such etch processes. The processing of a thick metal-containing layer on a web requires a longer dwell time of the web in the etchant liquid. The increased dwell time results in greater localized heating. Both the resist and upper sidewalls of the etched features are thereby subjected to increased chemical and thermal abuse, which severely constrains resist material selection and causes degraded sidewall quality, resulting in reduced effective cross-section as well as reduced packing density due to increased effective spacing. Even continuous spray etching processes such as the process of the '219 patent can under certain circumstances lead to sidewall profiles that are not optimal for some applications.
These and other disadvantages sometimes encountered in using a liquid-based etch process in the fabrication of patterned webs that include thick conductive traces are overcome in the present invention, which in one embodiment is ______. !!
FIGS. 6 is a cross-section view of practical etched trace profiles from the web of
FIGS. 9 is a cross-section view of practical etched trace profiles from the web of
Many useful products such as microwave plates, trays and bowls, planar speakers, electronic circuitry surveillance products, and flexible heaters are made from product units that contain one or more etched features. The features serve various well known functions in the final product, including shielding, localized heating, standing wave modification, and attenuation in microwave applications, magnetic motor action in planar speakers, heat generation in flexible heaters, and field disruption in electronic circuitry surveillance. The shape of a feature is influenced by its function, and ranges from patch-like to trace-like.
The product units and the feature or features within them can have a variety of different shapes.
An illustrative type of thick feature useful in planar speakers, flexible heaters, and electronic surveillance circuitry is the trace. Such traces usually are very long and very narrow, and typically are also quite thick to reduce circuit resistance. Traces used in some applications such as planar speakers may be multiply-folded, for which rectangular product units such as 210 and 220 are especially suitable.
The trace design 300 of
An ideal trace cross-section is shown in
A simplified practical trace cross-section is shown in
The results are quite different when the trace design 300 of
An ideal trace cross-section is shown in
A simplified practical trace cross-section is shown in
As is apparent from a comparison of
While feature degradation can be tolerated for some types of product units, other types of product units require a high degree of fidelity between the original feature design and the etched feature appearing in the product unit. This is particular true of the circuit in a speaker diaphragm, for example, which typically has one very lengthy multiply-folded trace—but which may have more than one trace if desired—that is designed to have a specific impedance and many densely packed sections to induce a specifically shaped strong magnetic field upon the application of a drive current. A significant deviation from the original trace design in any part of the etched trace can cause the speaker diaphragm to be out of specification, thereby decreasing the process yield and increasing manufacturing cost. Moreover, a significant deviation from the original trace design in any part of the etched trace can cause the speaker diaphragm to fail after installation in the product, thereby leading to poor product reliability and higher after-sale warranty expenses.
To achieve a large thickness of conductive metal-containing material in a feature of a product unit processed with a liquid-based etch process, the desired thickness of material for the feature is apportioned to the two opposing surfaces of an insulating substrate to create a two-part feature, each part of which performs the identical function. Conventional features, which are generally symmetrical about a plane parallel to the product unit, are made by similarly patterning the feature, and preferably identically patterning the feature, in a mirror image on two opposing same-thickness metal-containing layers, and electrically connecting the resulting mirror image parts in any suitable manner. This technique is useful for fabricating planar speaker circuit traces, for example. However, two part features may also be made that do not have identical mirror image parts on opposite sides of the substrate, the two parts being electrically connected and collectively performing the same function as the one part feature but having different thickness, or having shape variations that do not affect the overall feature function, or having both different thickness and shape variations that do not affect the overall feature function.
The apportionment may be equal or unequal, as desired. However, if unequal apportionment is used, the pattern that define feature parts made from the thinner metal-containing layer is adjusted to accommodate a degree of overetch that is experienced by the thinner metal-containing layer to allow complete removal of material from the thicker metal-containing layer.
In addition to having one or more features apportioned among the two opposing surfaces of an insulating substrate, one or more other features may be fabricated on one or the other side of the insulating substrate. For example, a speaker system may be optimized for different bandwidths by having a separate sub-woofer along with a planar speaker with a diaphragm having a main range circuit and a tweeter circuit. In one possible arrangement, the main range circuit is apportioned among the two sides of the diaphragm, while the tweeter circuit is fabricated on one side only or while different tweeter circuits are fabricated on one or both sides. The tweeter modulates a small section of the diaphragm so that its performance is not compromised by the mass of the main range circuit. As another example, all or parts of the inductors of an electronic circuit surveillance device are apportioned among the two sides of the substrate, while the fusible link or other variable impedance element is fabricated on one side and the respective plates of the capacitors are fabricated on the opposing sides.
When etched by a liquid-based process, the web of
Examples of a particularly effective and economical continuous demetallizing process and of machinery useful for practicing the process are described in U.S. Pat. No. 5,340,436, which is entitled “Demetallizing Procedure” and issued Aug. 23, 1994 to D. Gregory Beckett, which is hereby incorporated herein in its entirety by reference. The '436 patent involves the selective demetallizing of an etchable metal layer supported on a layer of suitable material or a self-supporting etchable metal layer. In one embodiment, a web of polymeric material bearing the etchable metal layer, illustratively aluminum, has a pattern of etch-resistant material applied to it. Then, the web is immersed in and passed through a bath of aqueous etchant, illustratively an aqueous sodium hydroxide base solution at an elevated temperature, for a time at least sufficient to remove the etchable metal from non-protected areas of the web. In another embodiment, a web of unsupported etchable metal, illustratively aluminum, has a pattern of etch-resistant material applied to both sides, in register. Then, the web is immersed in and passed through a bath of aqueous etchant, illustratively an aqueous sodium hydroxide base solution at an elevated temperature, for a time at least sufficient to remove the etchable metal from non-protected areas of the web, thereby forming orifices completely through the web. The demetallized web is washed and dried.
An illustrative metal-containing web that has etch-resistant resist patterns for forming various functional and perhaps other features when processed in the continuous etch processes of the '436 patent and others like it is now described in detail. The initial web laminate is formed by mounting a metal foil or a metal-containing foil onto both opposing surfaces of a suitable substrate, such as polyester or polymeric material. While any suitable method may be used, a suitable well known process for aluminum, for example, involves laminating aluminum foil to a layer of polyester or polymeric material using a dry bond adhesive, in a manner well known in the art. The combined foil thickness for use in continuous etch processes and equipment like that described in the '436 patent is generally determined by the capabilities of the foil manufacturer and the limitations of the web handling components in handling rolls of web layer materials and the finished web. Presently, these factors establish a combined foil thickness in the range of from about 1 micron to about 75 microns, although combined foil thickness in excess thereof may be use in the future. The actual combined foil thickness used in the web depends on the application. Illustratively, for microwave applications, two aluminum foil layers of about 1 micron to about 15 microns combined thickness and greater are mounted to the opposing surfaces of a PET polyester film of about 48 gauge. Illustratively, for planar speaker diaphragms, two aluminum foil layers of about 5 microns to about 50 microns thickness and greater are mounted to the opposing surfaces of a PEN film of about 48 gauge. However, greater combine thickness such as 70 microns or even 100 microns may be used for large planar speakers. Illustratively, for electronic article surveillance products, two aluminum foil layers of from about 5 microns to about 70 microns combined thickness and greater are mounted to the opposing surfaces of a PET polyester film of about 48 gauge.
Next, patterns of etch-resistant material such as, for example, resin are printed by, for example, using Gravure printing onto both of the foil sides of the web in register with one another to form protective etch masks, in a manner well known in the art. A suitable etch-resistant material for a sodium hydroxide base solution etchant is a vinyl chloride co-polymer resin. Other techniques for forming a pattern of etch-resistant material include spraying and the use of photoresist material. The thickness of the etch-resistant layer is determined by the strength and temperature of the etchant along with the time over which the etch-resistant material is exposed to the etchant, in a manner well known in the art. The protective coatings are dried and the web either is rolled onto a spindle for later etching in a continuous demetallizing process, or is directly introduced into the continuous demetallizing process. While the particular size of the web depends on the particular equipment used in the process, a typical web size for the process and equipment described in the '436 patent is from about 31 to about 36 inches wide and about 5000 feet to about 10,000 feet long, rolled onto a spindle in a maimer well known in the art.
Next, the web is etched in the continuous demetallizing process, in a manner well known in the art.
Subsequent steps depend on the product being made. Where the product is for microwave cooking applications, illustratively the web is laminated using a wet bond adhesive to a paper product having any suitable thickness, typically from about 20 pound paper to about 24 point paperboard, and various product units which include one or more of the functional features are cut out using any suitable technique such as a die cutting machine or robotic cutting, as are well known in the art. Microwave cooking articles are available from a variety of manufacturers, including Graphic Packaging Corporation of Golden, Colo. Where the product is for planar speaker applications, the functional features include circuit elements, and various product units which includes respective circuits formed from one or more of the circuit elements are cut out using any suitable technique such as a die cutting machine or robotic cutting, as are well known in the art, and suitably packaged into a speaker housing. Planar speaker drivers are available from a variety of manufacturers, including American Technology Corporation of San Diego, Calif. Where the product is for electronic article surveillance products, the functional features include circuit elements, and various product units which includes respective circuits formed from one or more of the circuit elements are cut out using any suitable technique such as a die cutting machine or robotic cutting, as are well known in the art, and suitably packaged. The finished products tend to be about one to about one and a half inch square, but other sizes and shapes are also used. Electronic article surveillance products are available from a variety of manufacturers, including Checkpoint Systems, Inc. of Thorofare, N.J.
Feature parts on opposite sides of a substrate may be interconnected in any desired manner. For instance,
The ability to place features and feature parts on opposite sides of a substrate affords enormous flexibility in feature design.
It will be appreciated that the type of metal or metal-containing material and the substrates described herein are illustrative, as are the various thickness, widths, lengths, and so forth. The planar speaker diaphragm and the electronic circuit surveillance device described herein also are illustrative, as the techniques described herein are applicable to other applications, and are particularly advantageous when applied to other applications that involve the use of thick metal foil such as, for example, flexible heaters. The choice as to material and thickness depends on the application and the temperatures encountered in the demetallizing process. For example, polyethylene terepthalate (“ET”) is suitable for many applications over a wide range of process temperatures, while Kaladex™ polyethylene naphthalate (“EN”) and Kapton™ polyimide, which are available from E.I. du Dupont de Nemours and Company of Wilmington, Del., are especially suitable where metal-containing webs are processed at elevated bath temperatures.
While the techniques described herein are especially useful for forming product units from a web whose metal-contaig layer is aluminum or copper foil, the techniques described herein may also be used to form product units from a web whose metal-containing layer is made in other ways such as, for example, by vapor deposition of metal. The metal itself may be a any metal or any alloy, or may contain added impurities to achieve certain desired electrical properties such as a particular resistivity or certain desired mechanical or chemical properties, or may be coated by an oxide of the metal formed by interaction of the metal with oxygen. Moreover, the metal-containing layer may be a composite structure made of multiple layers, which may include such material as metal foil or vapor deposited metal or both, and may even include non-metallic materials. The metal-containing layer may also be a non-metallic material such as polysilicon into which metal impurities have been introduced by doping or other suitable process to achieve a desired degree of electrical conductivity.
It will be appreciated that the specific materials and the thickness and other dimensions are illustrative, and will vary considerably in practice depending on a many factors such as the particular feature design, the thickness of the metal-containing layer, the desired results, and the specific application.
The scope of the invention is set forth in the following claims. The description of the various embodiments set forth herein is illustrative of the invention and is not intended to limit the scope thereof. Variations and modifications of the embodiments disclosed herein will become apparent to those of ordinary skill in the art upon reading this patent document, and alternatives to and equivalents of the various elements of the embodiments will be known to those of ordinary skill in the art. These and other variations and modifications of the embodiments disclosed herein may be made without departing from the scope and spirit of the invention as set forth in the following claims.
Number | Date | Country | |
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Parent | 09989898 | Nov 2001 | US |
Child | 11047962 | Feb 2005 | US |