Method of forming electroluminescent circuit

Details Method of forming electroluminescent circuit Method of forming electroluminescent circuit

2001-11-14

2003-04-01

Smith, Matthew (Department: 2825)

Semiconductor device manufacturing: process

Making device or circuit emissive of nonelectrical signal

Including integrally formed optical element

C313S110000, C313S510000, C313S506000, C313S507000, C313S509000, C313S117000, C438S031000, C438S022000, C438S029000

Reexamination Certificate

active

06541296

ABSTRACT:

FIELD OF INVENTION
The present invention provides a method of forming an electroluminescent circuit, and more particularly to a method of forming an electroluminescent circuit utilizing screen printing technology.
BACKGROUND OF THE INVENTION
A prior art electroluminescent circuit
10
is schematically represented in crosssection in FIG.
1
. This type of electroluminescent circuit consists of a substrate
20
, which is typically a polyester sheet, having a plurality of interleaved first conductor segments
30
and second conductor segments
40
screen printed thereon. A dielectric layer
50
is screen printed over the interleaved conductor segments
30
,
40
, and a phosphor layer
60
is screen printed over the dielectric layer
50
. Application of an alternating current voltage across the interleaved conductor segments
30
,
40
generates a changing electric field within the phosphor layer
60
, which causes the phosphor layer
60
to emit light.
FIG. 2
is a schematic representation showing a top plan-view of the interleaved conductor segments
30
,
40
in the electroluminescent circuit
10
schematically represented in FIG.
1
. The interleaved conductor segments
30
,
40
typically have a width of 5 mils and are separated by spaces that are 5 mils in width. Due to the narrowness of the conductor segments
30
,
40
and their relatively close proximity to each other, it is very difficult to produce the print screens necessary to print the interleaved conductor segments
30
,
40
and/or to consistently print the interleaved conductor segments
30
,
40
using the print screens. The main problems with screen printing the interleaved conductor segments
30
,
40
are the formation of voids or breaks in the conductor segments
30
,
40
, which can result in the appearance non-illuminated areas in the electroluminescent circuit, and the formation of conductor segments that touch, which results in a short. Generally, when a short occurs in an electroluminescent circuit of this type, no portion of the circuit is illuminated.
Electroluminescent circuits of the type schematically represented in
FIG. 1
are highly desirable because they can be formed using screen printing technology, they are formable and flexible because they do not contain sputtered indium tin oxide (ITO), and because they produce excellent light output at low power. However, because the average yield of satisfactory electroluminescent circuits of this type is only approximately 1% to 5% according to current fabrication methods, a new method of fabricating electroluminescent circuits by screen printing is needed.
SUMMARY OF INVENTION
The present invention provides a method of forming an electroluminescent circuit by screen printing. The method of the present invention comprises screen printing a rear electrode pattern on a substrate, screen printing a dielectric layer over the rear electrode pattern, screen printing a front electrode pattern on the dielectric layer, and screen printing a phosphor layer over the front electrode layer. The rear electrode pattern is preferably formed of a silver conductive ink and comprises a solid layer disposed on the substrate. The front electrode pattern is also preferably formed of a silver conductive ink and comprises a plurality of opaque lines separated by spaces. The width of the lines is preferably about 5 to about 15 mils, and the lines are preferably separated by spaces that are about 5 to about 25 mils in width. In an alternative embodiment, the method of forming an electroluminescent circuit comprises screen printing a phosphor layer on a substrate, screen printing a front electrode pattern on the phosphor layer, screen printing a dielectric layer over said front electrode pattern, and screen printing a rear electrode pattern over the dielectric layer.
The method of the present invention provides several advantages over prior art methods used to fabricate electroluminescent circuits. For example, because the electrodes are separated by a dielectric layer, there is no possibility that shorts can occur. Furthermore, even if there is a void or break in an opaque lines, or if the opaque lines touch, the electroluminescent circuit still illuminates because the lines are powered from both sides of the break or void. Thus, the yield of satisfactory electroluminescent circuits fabricated according to the method of the invention is substantially higher than the yield of satisfactory electroluminescent circuits fabricated according to conventional methods.
The foregoing and other features of the invention are hereinafter more fully described and particularly pointed out in the claims, the following description setting forth in detail certain illustrative embodiments of the invention, these being indicative, however, of but a few of the various ways in which the principles of the present invention may be employed.


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