U.S. patent application number 14/502482 was filed with the patent office on 2015-01-15 for mask frame assembly for thin layer deposition and organic light emitting display device.
The applicant listed for this patent is Samsung Display Co., Ltd.. Invention is credited to Sang-Shin Lee.
Application Number | 20150013601 14/502482 |
Document ID | / |
Family ID | 44187154 |
Filed Date | 2015-01-15 |
United States Patent
Application |
20150013601 |
Kind Code |
A1 |
Lee; Sang-Shin |
January 15, 2015 |
MASK FRAME ASSEMBLY FOR THIN LAYER DEPOSITION AND ORGANIC LIGHT
EMITTING DISPLAY DEVICE
Abstract
A mask frame assembly for thin film deposition is disclosed. In
one embodiment, the assembly includes: a frame, and a plurality of
unit mask strips attached to the frame, wherein each of the unit
mask strips includes a plurality of unit masking patterns which are
spaced apart from each other. In one embodiment, each of the unit
masking patterns includes: i) a plurality of stripe pattern slits
and ii) a plurality of sets of dot pattern slits each set formed to
be substantially parallel with the stripe pattern slits. Further,
the stripe pattern slits and the sets of dot pattern slits are
alternately formed with respect to each other, wherein each set of
the dot pattern slits includes a plurality of dot pattern slits,
and wherein the length of each stripe pattern slit is substantially
the same as the length of each set of the dot pattern slits.
Inventors: |
Lee; Sang-Shin;
(Yongin-city, KR) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Samsung Display Co., Ltd. |
Yongin-city |
|
KR |
|
|
Family ID: |
44187154 |
Appl. No.: |
14/502482 |
Filed: |
September 30, 2014 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
12973597 |
Dec 20, 2010 |
8852346 |
|
|
14502482 |
|
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Current U.S.
Class: |
118/504 |
Current CPC
Class: |
H01L 27/3211 20130101;
H01L 51/0011 20130101; C23C 14/042 20130101; H01L 51/56 20130101;
B05C 21/005 20130101 |
Class at
Publication: |
118/504 |
International
Class: |
B05C 21/00 20060101
B05C021/00 |
Foreign Application Data
Date |
Code |
Application Number |
Dec 25, 2009 |
KR |
10-2009-0125023 |
Claims
1. A mask frame assembly for thin film deposition comprising: a
frame, wherein an opening is defined in the frame; and a plurality
of unit mask strips which extend in a first direction to be
substantially parallel with each other and attached to the frame
such that the unit mask strips cross the opening of the frame,
wherein each of the unit mask strips comprises a plurality of unit
masking patterns which are spaced apart from each other and extend
in a second direction substantially perpendicular to the first
direction, wherein each of the unit masking patterns comprises: i)
a plurality of stripe pattern slits each of which extends in the
second direction and ii) a plurality of sets of dot pattern slits
each set formed to be substantially parallel with the stripe
pattern slits, wherein the stripe pattern slits and the sets of dot
pattern slits are alternately formed with respect to each other,
wherein each set of the dot pattern slits comprises a plurality of
dot pattern slits, wherein the length of each stripe pattern slit
is substantially the same as the length of each set of the dot
pattern slits, wherein at least one of the stripe pattern slits is
disposed in the leftmost and rightmost ends of each unit masking
pattern, wherein the at least one stripe pattern slit is
continuously formed, and wherein one set of the dot pattern slits
are formed between adjacent stripe pattern slits.
2. The mask frame assembly for thin film deposition of claim 1,
wherein the stripe pattern slits and the sets of dot pattern slits
are formed to be substantially symmetrical to each other with
respect to a central axis of the unit masking patterns, and wherein
the central axis is substantially parallel with the second
direction.
3. The mask frame assembly for thin film deposition of claim 1,
wherein the dot pattern slits of each set are substantially evenly
spaced apart from each other.
4. The mask frame assembly for thin film deposition of claim 1,
wherein the dot pattern slits of each set are divided by a
plurality of blocking bridges, and wherein the blocking bridges
have substantially the same length.
5. The mask frame assembly for thin film deposition of claim 1,
wherein the unit mask stripes are formed of nickel or a nickel
alloy.
6. The mask frame assembly for thin film deposition of claim 1,
wherein each of the unit mask stripes further comprises a blocking
portion which surrounds the unit masking patterns.
7. A mask frame assembly for thin film deposition comprising: a
mask frame, wherein an opening is defined in the mask frame; and a
plurality of unit mask strips which extend in a first direction to
be substantially parallel with each other and cross the opening of
the mask frame, wherein each of the unit mask strips comprises a
plurality of unit masking patterns which are spaced apart from each
other and extend in a second direction substantially perpendicular
to the first direction, wherein each of the unit masking patterns
comprises: i) a plurality of stripe pattern slits each of which
extends in the second direction and ii) a plurality of sets of dot
pattern slits each set formed to be substantially parallel with the
stripe pattern slits, wherein the stripe pattern slits and the sets
of dot pattern slits are alternately formed with respect to each
other, wherein each set of the dot pattern slits comprises a
plurality of dot pattern slits, wherein the length of each stripe
pattern slit is substantially the same as the length of each set of
the dot pattern slits, wherein all of the unit masking patterns
have substantially the same slit arrangement, wherein at least one
of the stripe pattern slits is disposed in the leftmost and
rightmost ends of each unit masking pattern, wherein the at least
one stripe pattern slit is continuously formed and wherein one set
of the dot pattern slits are formed between adjacent stripe pattern
slits.
8. The mask frame assembly for thin film deposition of claim 18,
wherein the stripe pattern slits and the sets of dot pattern slits
are formed to be substantially symmetrical to each other with
respect to a central axis of the unit masking patterns, and wherein
the central axis is substantially parallel with the second
direction.
Description
CROSS-REFERENCE TO RELATED PATENT APPLICATION
[0001] This application is a divisional application of U.S.
application Ser. No. 12/973,597, filed on Dec. 20, 2010, which is
incorporated by reference in its entirety. application Ser. No.
12/973,597 claimed priority to and the benefit of Korean Patent
Application No. 10-2009-0125023, filed on Dec. 25, 2009, in the
Korean Intellectual Property Office, the disclosure of which is
incorporated herein in its entirety by reference.
BACKGROUND
[0002] 1. Field
[0003] The disclosed technology generally relates to a mask frame
assembly for thin film deposition and an organic light emitting
display device, and more particularly, to a mask frame assembly for
thin film deposition that reduces deformation of a mask pattern and
an organic light emitting display device manufactured by using the
mask frame assembly.
[0004] 2. Description of the Related Technology
[0005] Organic light emitting displays are self-emissive, and have
wide viewing angles, excellent contrast, and fast response rates.
Thus, they have been considered as a next generation display.
SUMMARY OF CERTAIN INVENTIVE ASPECTS
[0006] One aspect is a mask frame assembly for thin film deposition
that includes a plurality of unit mask strips and reduces errors in
positions of a plurality of unit masking pattern portions included
in each unit mask strip, and an organic light emitting display
device using the mask frame assembly.
[0007] Another aspect is a mask frame assembly for thin film
deposition including a plurality of unit mask strips having both
end portions extended in a lengthwise direction and fixed to a
frame including an opening portion, wherein each of the plurality
of unit mask strips comprises a plurality of unit masking pattern
portions disposed in the lengthwise direction, wherein the
plurality of unit masking pattern portions comprises: a plurality
of stripe pattern opening portions disposed in parallel with the
lengthwise direction and a plurality of dot pattern opening
portions continuously disposed in the lengthwise direction between
the plurality of stripe pattern opening portions.
[0008] The plurality of stripe pattern opening portions and the
plurality of dot pattern opening portions may be disposed
symmetrically to each other with respect to a central axis of the
plurality of unit masking pattern portions in the lengthwise
direction.
[0009] The plurality of stripe pattern opening portions may be
disposed in both end portions of the plurality of unit masking
pattern portions in the lengthwise direction. At least one of the
plurality of dot pattern opening portions continuously disposed in
the lengthwise direction may be disposed between the plurality of
stripe pattern opening portions.
[0010] The plurality of dot pattern opening portions are divided by
a plurality of blocking bridges disposed perpendicularly to the
lengthwise direction and a space between the plurality of blocking
bridges remains constant. The plurality of dot pattern opening
portions continuously disposed in the lengthwise direction may be
disposed in both end portions of the plurality of unit masking
pattern portions in the lengthwise direction.
[0011] At least one of the plurality of stripe pattern opening
portions may be disposed between the plurality of dot pattern
opening portions continuously disposed in the lengthwise direction.
The plurality of dot pattern opening portions may be divided by a
plurality of blocking bridges disposed perpendicularly to the
lengthwise direction and a space between the plurality of blocking
bridges remains constant.
[0012] The plurality of unit mask stripes may have a tension. The
plurality of unit mask stripes may be formed of nickel or a nickel
alloy. Each of the plurality of unit mask stripes may further
include a blocking portion for surrounding the plurality of unit
masking pattern portions. The plurality of unit mask stripes may be
fixed to the frame using welding. The plurality of unit mask
stripes may be fixed to the frame using laser welding.
[0013] Another aspect is an organic light emitting display device
comprising a first electrode and a second electrode that face each
other and an intermediate layer comprising at least an organic
light emitting layer disposed between the first electrode and the
second electrode, wherein the intermediate layer comprises a
plurality of stripe patterns continuously disposed in parallel with
a first direction and a plurality of dot patterns disposed between
the plurality of stripe patterns and continuously disposed in
parallel with the first direction.
[0014] Both end portions of the organic light emitting display
device may include the plurality of stripe patterns continuously
disposed in parallel with the first direction. Both end portions of
the organic light emitting display device may include the plurality
of dot patterns continuously disposed in parallel with the first
direction.
[0015] The organic light emitting layer may include a unit pixel as
three sub-pixels comprising red, green, and blue light emitting
layers, and the plurality of stripe patterns and the plurality of
dot patterns are disposed in at least one unit pixels. One of the
plurality of dot patterns may correspond to one of the three
sub-pixels.
[0016] One of the plurality of dot patterns may correspond to a
plurality of sub-pixels disposed in a first direction. A space
between a plurality of blocking bridges disposed between the
plurality of dot patterns that are adjacent to each other in the
lengthwise direction may remain constant.
[0017] Another aspect is a mask frame assembly for thin film
deposition comprising: a frame, wherein an opening is defined in
the frame; and a plurality of unit mask strips which extend in a
first direction to be substantially parallel with each other and
attached to the frame such that the unit mask strips cross the
opening of the frame, wherein each of the unit mask strips
comprises a plurality of unit masking patterns which are spaced
apart from each other and extend in a second direction
substantially perpendicular to the first direction, wherein each of
the unit masking patterns comprises: i) a plurality of stripe
pattern slits each of which extends in the second direction and ii)
a plurality of sets of dot pattern slits each set formed to be
substantially parallel with the stripe pattern slits, wherein the
stripe pattern slits and the sets of dot pattern slits are
alternately formed with respect to each other, wherein each set of
the dot pattern slits comprises a plurality of dot pattern slits,
and wherein the length of each stripe pattern slit is substantially
the same as the length of each set of the dot pattern slits.
[0018] In the above assembly, the stripe pattern slits and the sets
of dot pattern slits are formed to be substantially symmetrical to
each other with respect to a central axis of the unit masking
patterns, and wherein the central axis is substantially parallel
with the second direction.
[0019] In the above assembly, at least one of the stripe pattern
slits is disposed in both ends of the unit masking patterns. In the
above assembly, the dot pattern slits of each set are substantially
evenly spaced apart from each other, and wherein at least one set
of the dot pattern slits is disposed between the adjacent stripe
pattern slits.
[0020] In the above assembly, two sets of the dot pattern slits are
disposed between the adjacent stripe pattern slits. In the above
assembly, the dot pattern slits of each set are divided by a
plurality of blocking bridges, and wherein the blocking bridges
have substantially the same length.
[0021] In the above assembly, at least one set of the dot pattern
slits is disposed in both end portions of the unit masking
patterns. In the above assembly, at least two of the stripe pattern
slits are disposed between the adjacent sets of the dot pattern
slits. In the above assembly, the unit mask stripes are formed of
nickel or a nickel alloy. In the above assembly, each of the unit
mask stripes further comprises a blocking portion which surrounds
the unit masking patterns.
[0022] Another aspect is an organic light emitting display device
comprising: a first electrode and a second electrode that face each
other; and an intermediate layer comprising at least an organic
light emitting layer disposed between the first electrode and the
second electrode, wherein a plurality of stripe patterns and a
plurality of sets of dot patterns are formed in the intermediate
layer, wherein each set of the dot patterns is formed to be
substantially parallel with the stripe patterns, wherein the stripe
patterns and the sets of dot patterns are alternately formed with
respect to each other, wherein each set of the dot patterns
comprises a plurality of dot patterns, and wherein the length of
each stripe patterns is substantially the same as the length of
each set of the dot patterns.
[0023] In the above device, at least one of the stripe patterns is
formed in both end portions of the organic light emitting display
device. In the above device, at least one set of the dot patterns
is formed in both end portions of the organic light emitting
display device. In the above device, the organic light emitting
layer comprises red, green, and blue light emitting layers, wherein
the organic light emitting layer corresponds to a unit pixel, and
wherein the red, green, and blue light emitting layers correspond
to three sub-pixels, respectively, and wherein the stripe patterns
and the sets of dot patterns correspond to at least one unit
pixel.
[0024] In the above device, at least one set of the dot patterns
corresponds to one of the three sub-pixels. In the above device, at
least one set of the dot patterns corresponds to a plurality of
sub-pixels. In the above device, the dot patterns of each set are
substantially evenly spaced apart from each other. A mask frame
assembly for thin film deposition comprising: a mask frame, wherein
an opening is defined in the mask frame; and a plurality of unit
mask strips which extend in a first direction to be substantially
parallel with each other and cross the opening of the mask frame,
wherein each of the unit mask strips comprises a plurality of unit
masking patterns which are spaced apart from each other and extend
in a second direction substantially perpendicular to the first
direction, wherein each of the unit masking patterns comprises: i)
a plurality of stripe pattern slits each of which extends in the
second direction and ii) a plurality of sets of dot pattern slits
each set formed to be substantially parallel with the stripe
pattern slits, wherein the stripe pattern slits and the sets of dot
pattern slits are alternately formed with respect to each other,
wherein each set of the dot pattern slits comprises a plurality of
dot pattern slits, wherein the length of each stripe pattern slit
is substantially the same as the length of each set of the dot
pattern slits, and wherein all of the unit masking patterns have
substantially the same slit arrangement.
[0025] In the above device, the stripe pattern slits and the sets
of dot pattern slits are formed to be substantially symmetrical to
each other with respect to a central axis of the unit masking
patterns, and wherein the central axis is substantially parallel
with the second direction. In the above device, at least one of the
stripe pattern slits is disposed in both ends of the unit masking
patterns.
BRIEF DESCRIPTION OF THE DRAWINGS
[0026] FIG. 1 is a schematic perspective view illustrating a mask
frame assembly for thin film deposition, according to an
embodiment.
[0027] FIG. 2 is a schematic top view illustrating a unit masking
pattern portion included in a mask frame assembly for thin film
deposition, according to an embodiment.
[0028] FIG. 3 is a schematic top view illustrating a unit masking
pattern portion included in a mask frame assembly for thin film
deposition, according to another embodiment.
[0029] FIG. 4 is a schematic top view illustrating a unit masking
pattern portion included in a mask frame assembly for thin film
deposition, according to another embodiment of the present
invention.
[0030] FIG. 5 is a schematic top view illustrating a unit masking
pattern portion included in a mask frame assembly for thin film
deposition, according to another embodiment.
[0031] FIG. 6 is a schematic top view illustrating a unit masking
pattern portion included in a mask frame assembly for thin film
deposition, according to another embodiment.
[0032] FIG. 7 is a schematic top view illustrating a unit masking
pattern portion included in a mask frame assembly for thin film
deposition, according to another embodiment.
[0033] FIG. 8 is a schematic top view illustrating a unit masking
pattern portion included in a mask frame assembly for thin film
deposition, according to another embodiment.
[0034] FIG. 9 is a schematic top view illustrating a unit masking
pattern portion included in a mask frame assembly for thin film
deposition, according to another embodiment.
[0035] FIG. 10 is a schematic cross-sectional view illustrating a
deposition apparatus including a mask frame assembly for thin film
deposition, according to an embodiment.
[0036] FIG. 11 is a schematic top view of a pixel pattern of an
organic light emitting display device in which an intermediate
layer is formed using the unit masking pattern portion of FIG. 2,
according to an embodiment.
[0037] FIG. 12 is a schematic cross-sectional view of a passive
matrix organic light emitting display device, according to an
embodiment.
[0038] FIG. 13 is a schematic cross-sectional view of an active
matrix organic light emitting display device, according to an
embodiment.
DETAILED DESCRIPTION OF CERTAIN INVENTIVE EMBODIMENTS
[0039] Organic light emitting displays include i) first and second
electrodes that face each other and ii) an intermediate layer which
is interposed between the electrodes and includes at least a light
emitting layer. The intermediate layer and the electrodes may be
formed using a variety of methods one of which is a deposition
method. In order to manufacture an organic light emitting display
using the deposition method, a mask having the same pattern as a
thin film to be formed is adhered onto a surface on which the thin
film is to be formed. The thin film is deposited on the mask, and
thus the thin film having a predetermined pattern is formed.
[0040] When a mask is used to manufacture an organic light emitting
display, a deposition process is performed after the mask is
adhered to a substrate. A center portion of a typical mask does not
adhere to the substrate due to the self-weight of the mask. Such a
problem deteriorates as sizes of organic light emitting displays
increase.
[0041] Hereinafter, embodiments will be described more fully with
reference to the accompanying drawings, in which exemplary
embodiments are shown.
[0042] FIG. 1 is an exploded perspective view of a mask frame
assembly for thin film deposition.
[0043] Referring to FIG. 1, the mask frame assembly for thin film
deposition includes a frame 30 and a plurality of unit mask strips
110 wherein both end portions thereof are supported on the frame
30. A mask 100 includes the unit mask strips 110.
[0044] The frame 30 includes first support portions 31 and 32 that
are installed in substantially parallel with each other and second
support portions 34 and 35 that are connected to end portions of
the first support portions 31 and 32. In one embodiment, a
substantially rectangular opening portion 33 is formed in the frame
30. In another embodiment, the shape of the opening portion 33 may
be non-rectangular, for example, circular or other polygonal type.
The second support portions 34 and 35 are installed in
substantially parallel with the unit mask strips 110 and may be
formed of an elastic material. However, the present invention is
not limited thereto and the first support portions 31 and 32 and
the second support portions 34 and 35 may be integrally formed with
each other.
[0045] The unit mask strips 110, to which a tensile force is
applied, are supported by the frame 30 and thus the frame 30 is
desirable to have a sufficient hardness. Furthermore, the frame 30
may have any structures in which interference does not occur when
the mask 100 is adhered to an object to be deposited.
[0046] The mask 100 includes the at least two unit mask strips 110.
The mask 100 is separated into a plurality of unit mask strips 110
and is fixed to the frame 30, thereby preventing the mask 100 from
sagging due to the self-weight of the mask 100. Meanwhile, although
the mask 100 includes 9 unit mask strips 110 in the present
embodiment, this is just exemplary and the present invention is not
limited thereto.
[0047] In one embodiment, each of the unit mask strips 110 includes
a substantially rectangular thin plate, a plurality of unit masking
pattern portions 120 including a plurality of patterns for
deposition 111 at predetermined intervals in a lengthwise direction
(in a direction of .+-.y), and a blocking portion 125 around the
unit masking pattern portions 120.
[0048] The unit mask strips 110 may be formed of a magnetic thin
plate, nickel or a nickel alloy, or a nickel-cobalt alloy having
convenient fine patterning and excellent surface roughness. The
patterns for deposition 111 included in each of the unit mask
strips 110 may achieve fine patterning and excellent surface
smoothness using an electro forming method. The unit mask strips
110 may be manufactured using an etching method. The unit mask
strips 110 may be manufactured by forming a photoresist layer
having substantially the same pattern as the patterns for
deposition 111 on a thin plate using a photoresist or attaching a
film having substantially the same pattern as the patterns for
deposition 111 on the thin plate and etching the thin plate.
[0049] Both ends of each of the unit mask strips 110 to which a
predetermined tensile force is applied in a lengthwise direction (a
direction of .+-.y) are fixed to the frame 30. The unit mask strips
110 are positioned to cross the opening portion 33. Further, all
the patterns for deposition 111 of the unit mask strips 110 are
disposed inside or directly above the opening portion 33 of the
frame 30.
[0050] Although a variety of methods, such as laser welding,
resistance thermal welding, etc., may be used to fix the unit mask
strips 110 to the frame 30, laser welding may be used in terms of a
change in precision, etc. In this embodiment, the unit mask strips
110 may be arranged by a predetermined gap and be fixed to the
frame 30 by using laser welding.
[0051] Usage of the mask 100 that is divided into the unit mask
strips 110 can prevent the mask 100 from sagging due to the
self-weight of the mask 100 as described above. However, when an
integral type mask is fixed to a frame, since the integral type
mask is extended in the all directions (of .+-.x and .+-.y) and is
fixed to the frame, the integral type mask is not greatly deformed
due to an asymmetry in an extension direction. In contrast, when
the unit mask strips 110 are fixed to the frame 30, since both ends
of each of the unit mask strips 110 are extended in the lengthwise
direction (the direction of .+-.y) of the unit mask strips 110 and
are fixed to the frame 30, stress is generated in a direction (a
direction of .+-.x) substantially perpendicular to the extension
direction. Such stress may cause deformation in the positions or
shapes of the deposition patterns 111.
[0052] FIG. 2 is a schematic top view illustrating the unit masking
pattern portion 120 included in the mask frame assembly for thin
film deposition, according to an embodiment.
[0053] Referring to FIG. 2, the unit masking pattern portion 120
according to the present embodiment includes a plurality of stripe
pattern opening portions 121 and a plurality of dot pattern opening
portions 122. The stripe pattern opening portions 121 are disposed
in substantially parallel with the lengthwise direction (the
direction of .+-.y) of the unit mask strips 110. The dot pattern
opening portions 122 are continuously disposed in the lengthwise
direction (the direction of .+-.y) between the stripe pattern
opening portions 121. The stripe pattern opening portions 121 and
dot pattern opening portions 122 are interchangeably used as stripe
pattern slits and dot pattern slits (or sets of dot pattern slits).
This applies to the remaining embodiments. The blocking portion 125
is disposed around the unit masking pattern portion 120.
[0054] The stripe pattern opening portions 121 and the dot pattern
opening portions 122 are disposed substantially symmetrically to
each other with respect to a central axis of the unit masking
pattern portion 120.
[0055] The stripe pattern opening portions 121 are disposed in both
ends of the unit masking pattern portion 120 in the lengthwise
direction (the direction of .+-.y). The dot pattern portions 122
are alternately disposed between the stripe pattern opening
portions 121.
[0056] The dot pattern opening portions 122 that are adjacent to
each other in the lengthwise direction (the direction of .+-.y) are
divided by a plurality of blocking bridges 126 that are disposed
substantially perpendicularly to the lengthwise direction (the
direction of .+-.y). A space d1 between the blocking bridges 126
remains substantially constant. In one embodiment, the space d1
between the blocking bridges 126 is related to sizes of the dot
pattern opening portions 122 in the lengthwise direction. For
example, the greater the sizes of the dot pattern opening portions
122 in the lengthwise direction (the direction of .+-.y), the
greater the space d1 between the blocking bridges 126.
[0057] Meanwhile, the dot pattern opening portions 122 that are
adjacent to each other and substantially perpendicular to the
lengthwise direction (the direction of .+-.y) are divided by a
plurality of blocking bridges 126 that are disposed in the
lengthwise direction (the direction of .+-.y).
[0058] If unit mask strips are extended in a lengthwise direction
and are fixed to a frame by forming a unit masking pattern portion
including all stripe pattern opening portions, blocking ribs
between the stripe pattern opening portions may be attached to or
detached from each other due to a stress applied substantially
perpendicularly to the lengthwise direction. Meanwhile, if unit
mask strips are extended in a lengthwise direction and are fixed to
a frame by forming a unit masking pattern portion including all dot
pattern opening portions, the unit masking pattern portion may be
seriously deformed, such as wrinkling of the unit masking pattern
portion, due to stress applied substantially perpendicularly to the
lengthwise direction.
[0059] However, in the unit masking pattern portion 120 according
to the present embodiment, the stripe pattern opening portions 121
and the dot pattern opening portions 122 are alternately formed in
the lengthwise direction (the direction of .+-.y) of the unit mask
strips 110, thereby preventing the blocking ribs 127 from being
separated from each other, and preventing the unit masking pattern
portion 120 from wrinkling.
[0060] FIG. 3 is a schematic top view illustrating a unit masking
pattern portion 220 included in a mask frame assembly for thin film
deposition, according to another embodiment.
[0061] Referring to FIG. 3, the unit masking pattern portion 220
according to the present embodiment includes i) a plurality of
stripe pattern opening portions 221 that are disposed in
substantially parallel with the lengthwise direction (the direction
of .+-.y) of the unit mask strips 110 and ii) a plurality of dual
dot pattern opening portions 222 and 223 that are continuously
disposed in the lengthwise direction (the direction of .+-.y)
between the stripe pattern opening portions 221. A blocking portion
225 is disposed around the unit masking pattern portion 220.
[0062] The stripe pattern opening portions 221 and the dot pattern
opening portions 222 and 223 are disposed substantially
symmetrically to each other with respect to a central axis of the
unit masking pattern portion 220.
[0063] Compared to the single dot pattern opening portions 122 of
the FIG. 2 embodiment, the FIG. 3 embodiment includes the dual dot
pattern opening portions 222 and 223 disposed between the strip
pattern opening portions 221. Meanwhile, although the dual dot
pattern opening portions 222 and 223 are disposed in the unit
masking pattern portion 220, the present invention is not limited
thereto and the number of dot pattern opening portions may
appropriately increase in such a way that the dual dot pattern
opening portions 222 and 223 can prevent the unit masking pattern
portion 220 from wrinkling.
[0064] Therefore, in the unit masking pattern portion 220 according
to the present embodiment, the dual dot pattern opening portions
222 and 223 are disposed and the dual dot pattern opening portions
222 and 223 and the stripe pattern opening portion 221 are disposed
substantially symmetrically to each other, thereby preventing
blocking ribs 227 from being separated from each other, and
preventing the unit masking pattern portion 220 from wrinkling.
[0065] FIG. 4 is a schematic top view illustrating a unit masking
pattern portion included in a mask frame assembly for thin film
deposition, according to another embodiment. A blocking portion 325
is disposed around the unit masking pattern portion 320.
[0066] In comparison with the unit masking pattern portion 120
described with reference to FIG. 2, referring to FIG. 4, a
plurality of dot pattern opening portions 322 are disposed in both
ends of a unit masking pattern portion 320 in the lengthwise
direction (the direction of .+-.y) and a plurality of stripe
pattern opening portions 321 are alternately disposed between the
dot pattern opening portions 322. In the FIG. 4 embodiment, the dot
pattern opening portions 322 are disposed in both ends of the unit
masking pattern portion 320, the stripe pattern opening portions
321 are alternately disposed between the dot pattern opening
portions 322. Further, the dot pattern opening portions 322 and the
stripe pattern opening portions 321 are disposed substantially
symmetrically to each other, thereby preventing blocking ribs 327
from being separated from each other, and preventing the unit
masking pattern portion 320 from wrinkling.
[0067] FIG. 5 is a schematic top view illustrating a unit masking
pattern portion 420 included in a mask frame assembly for thin film
deposition, according to another embodiment. A blocking portion 425
is disposed around the unit masking pattern portion 420.
[0068] Compared to the FIG. 4 embodiment, the FIG. 5 embodiment
includes a plurality of dual dot pattern opening portions 422 and
423 disposed between a plurality of stripe pattern opening portions
421. Meanwhile, although the dual dot pattern opening portions 422
and 423 are disposed in the unit masking pattern portion 420, the
present invention is not limited thereto and the number of dot
pattern opening portions may appropriately increase in such a way
that the dual dot pattern opening portions 422 and 423 can prevent
the unit masking pattern portion 420 from wrinkling. In the FIG. 5
embodiment, the dual dot pattern opening portions 422 and 423 are
disposed in both ends of the unit masking pattern portion 420 and
disposed between the stripe pattern opening portions 421. Further,
the dual dot pattern opening portions 422 and 423 and the stripe
pattern opening portion 421 are disposed substantially
symmetrically to each other, thereby preventing blocking ribs 427
from being separated from each other, and preventing the unit
masking pattern portion 420 from wrinkling.
[0069] FIG. 6 is a schematic top view illustrating a unit masking
pattern portion 520 included in a mask frame assembly for thin film
deposition, according to another embodiment.
[0070] Referring to FIG. 6, the unit masking pattern portion 520
includes a plurality of stripe pattern opening portions 521 that
are disposed in substantially parallel with the lengthwise
direction (the direction of .+-.y) of the unit mask strips 110 and
a plurality of dot pattern opening portions 522 that are
continuously disposed in the lengthwise direction (the direction of
.+-.y) between the stripe pattern opening portions 521. A blocking
portion 525 is disposed around the unit masking pattern portion
520. The stripe pattern opening portions 521 and the dot pattern
opening portions 522 are disposed substantially symmetrically to
each other with respect to a central axis of the unit masking
pattern portion 520.
[0071] The dot pattern opening portions 522 that are adjacent to
each other in the lengthwise direction (the direction of .+-.y) are
divided by a plurality of blocking bridges 526 that are disposed
substantially perpendicularly to the lengthwise direction (the
direction of .+-.y). A space d2 between the blocking bridges 526
remains substantially constant. The dot pattern opening portions
522 that are adjacent to each other (in the direction of .+-.x)
substantially perpendicular to the lengthwise direction (the
direction of .+-.y) are divided by a plurality of blocking bridges
527 that are disposed in the lengthwise direction (the direction of
.+-.y).
[0072] In one embodiment, the space d2 between the blocking bridges
526 is related to sizes of the dot pattern opening portions 522 in
the lengthwise direction. For example, the sizes of the dot pattern
opening portions 522 in the lengthwise direction (the direction of
.+-.y) are greater than those of the dot pattern opening portions
122, 222, 322, and 422. However, if the sizes of the dot pattern
opening portions 522 in the lengthwise direction (the direction of
.+-.y) are too great, since the blocking ribs 527 may be attached
to or detached from each other, the sizes of the dot pattern
opening portions 522 may be determined in an appropriate range in
order to prevent the blocking ribs 527 from being attached to or
detached from each other.
[0073] Therefore, in the unit masking pattern portion 520 according
to the present embodiment, the stripe pattern opening portions 521
are disposed in both ends of the unit masking pattern portion 520,
the dot pattern opening portions 522 having large sizes are
alternately disposed between the stripe pattern opening portions
521 in the lengthwise direction (the direction of .+-.y), thereby
preventing the blocking ribs 527 from being separated from each
other, and preventing the unit masking pattern portion 520 from
wrinkling.
[0074] FIG. 7 is a schematic top view illustrating a unit masking
pattern portion 620 included in a mask frame assembly for thin film
deposition, according to another embodiment. A blocking portion 625
is disposed around the unit masking pattern portion 620.
[0075] Compared to the single dot pattern opening portions 522 of
the FIG. 6 embodiment, the FIG. 7 embodiment includes a plurality
of dual dot pattern opening portions 622 and 623 disposed between
the strip pattern opening portions 621 in the lengthwise direction.
Meanwhile, although the dual dot pattern opening portions 622 and
623 are disposed in the unit masking pattern portion 620, the
present invention is not limited thereto and the number of dot
pattern opening portions may appropriately increase in such a way
that the dual dot pattern opening portions 622 and 623 can prevent
the unit masking pattern portion 620 from wrinkling.
[0076] In the FIG. 7 embodiment, the dual dot pattern opening
portions 622, 623 are disposed between the strip pattern opening
portions 621 in the lengthwise direction. Further, the dual dot
pattern opening portions 622 and 623 and the stripe pattern opening
portion 621 are disposed substantially symmetrically to each other,
thereby preventing blocking ribs 627 from being separated from each
other, and preventing the unit masking pattern portion 620 from
wrinkling. FIG. 8 is a schematic top view illustrating a unit
masking pattern portion 720 included in a mask frame assembly for
thin film deposition, according to another embodiment. A blocking
portion 725 is disposed around the unit masking pattern portion
720.
[0077] In comparison with the FIG. 6 embodiment, the FIG. 8
embodiment includes i) a plurality of dot pattern opening portions
722 disposed in both ends of the unit masking pattern portion 720
in the lengthwise direction (the direction of .+-.y) and ii) a
plurality of stripe pattern opening portions 721 alternately
disposed between the dot pattern opening portions 722.
[0078] In the FIG. 8 embodiment, the dot pattern opening portions
722 are disposed in both ends of the unit masking pattern portion
720, the stripe pattern opening portions 721 are alternately
disposed between the dot pattern opening portions 722. Further, the
dot pattern opening portions 722 and the stripe pattern opening
portions 721 are disposed substantially symmetrically to each
other, thereby preventing blocking ribs 727 from being separated
from each other, and preventing the unit masking pattern portion
720 from wrinkling.
[0079] FIG. 9 is a schematic top view illustrating a unit masking
pattern portion 820 included in a mask frame assembly for thin film
deposition, according to another embodiment. A blocking portion 825
is disposed around the unit masking pattern portion 820.
[0080] Compared to the single the dot pattern opening portions 722
of the FIG. 8 embodiment, the FIG. 9 embodiment includes a
plurality of dual dot pattern opening portions 822 and 823 disposed
between a plurality of stripe pattern opening portions 821.
Meanwhile, although the dual dot pattern opening portions 822 and
823 are disposed in the unit masking pattern portion 820, the
present invention is not limited thereto and the number of dot
pattern opening portions may appropriately increase in such a way
that the dual dot pattern opening portions 822 and 823 can prevent
the unit masking pattern portion 820 from wrinkling.
[0081] Therefore, in the unit masking pattern portion 820 according
to the present embodiment, the dual dot pattern opening portions
822 and 823 are disposed in both ends of the unit masking pattern
portion 820 and the dual dot pattern opening portions 822 and 823
are disposed between the stripe pattern opening portion 821.
Further, the dual dot pattern opening portions 822 and 823 and the
stripe pattern opening portion 821 are disposed substantially
symmetrically to each other, thereby preventing blocking ribs 827
from being separated from each other, and preventing the unit
masking pattern portion 820 from wrinkling.
[0082] FIG. 10 is a schematic cross-sectional view illustrating a
deposition apparatus including a mask frame assembly for thin film
deposition, according to an embodiment.
[0083] The mask frame assemblies for thin film deposition according
to at least one embodiment are deposited in the deposition
apparatus shown in FIG. 10 and perform a deposition operation.
[0084] Referring to FIG. 10, in order to deposit an intermediate
layer of a thin film of an organic light emitting display device
using the mask 100, the frame 30, which is coupled to the mask 100,
is installed in a side corresponding to a thin film deposition
crucible 42 installed in a vacuum chamber 41. Further, an object 20
on which the thin film is to be formed is mounted on the upper
portion of the frame 30. The intermediate layer includes a light
emitting unit for emitting light, such as red light, green light,
and blue light. A magnet unit 43 for adhering the mask 100
supported by the frame 30 to the object 20 on which the thin film
is to be formed is driven on the upper portion of the object 20 so
that the mask 100 is adhered to the object 20 on which the thin
film is to be formed. A material is deposited on the object 20,
according to an operation of the thin film deposition crucible
42.
[0085] FIG. 11 is a schematic top view of a pixel pattern 1900 of
an organic light emitting display device in which an intermediate
layer is formed using the unit masking pattern portion of FIG. 2,
according to an embodiment.
[0086] The organic light emitting display device includes a first
electrode and a second electrode that face each other and an
intermediate layer including at least a light emitting layer
between the first electrode and the second electrode.
[0087] When the organic light emitting display device is
manufactured using the mask frame assemblies including the unit
masking pattern portions of FIGS. 2 through 9, the intermediate
layer of the organic light emitting display device includes a
plurality of stripe patterns that are continuously disposed in
substantially parallel with a first direction and a plurality of
dot patterns that are disposed between the stripe patterns and are
continuously disposed in substantially parallel with the first
direction.
[0088] Referring to FIG. 11, when the unit masking pattern portion
120 of FIG. 2 is used to deposit a light emitting layer on the
organic light emitting display device, the light emitting layer has
the pixel pattern 1900. In both ends of the light emitting layer of
the organic light emitting display device, three line consecutive
stripe patterns 1920R, 1920G, and 1920B are disposed in
substantially parallel with a first direction (the direction of
.+-.y) that is a lengthwise direction of the unit mask stripes, and
three line consecutive dot patterns 1910R, 1910G, and 1910B are
disposed between the three line consecutive stripe patterns 1920R,
1920G, and 1920B.
[0089] The organic light emitting display device includes red,
green and blue light emitting layers which are deposited according
to different processes. In one embodiment, a mask including opening
portions corresponding to patterns of a sub-pixel region that is to
emit a red light is used to deposit the red light emitting layer, a
mask including opening portions corresponding to patterns of a
sub-pixel region that is to emit a green light is used to deposit
the green light emitting layer. Further, a mask including opening
portions corresponding to patterns of a sub-pixel region that is to
emit a blue light is used to deposit the blue light emitting layer.
Thus, the pixel pattern 1900 of the light emitting layer shows when
the mask frame assembly including the unit masking pattern portion
120 of FIG. 2 is used to deposit the light emitting layer.
[0090] If sub-pixels have the pixel pattern 1900, since patterns of
a deposition unit masking pattern portion have a high pitch
precision, it is possible to realize a very precise pitch between
pixels. Thus, a large sized display device has a high pitch
precision between pixels, and thus it is possible to realize a high
definition display device and prevent yield reduction due to
deformation of opening portions of a deposition mask during a
deposition process.
[0091] Although the pattern 1900 of the light emitting layer shows
only when the deposition mask of FIG. 2 is used to deposit the
light emitting layer in the present embodiment, the deposition
masks of FIGS. 3 through 9 may be used to deposit the light
emitting layer, thereby realizing a high definition display device
having a high pitch precision between pixels and preventing yield
reduction due to deformation of opening portions of a deposition
mask during a deposition process.
[0092] That is, when the unit masking pattern portion 220 of FIG. 3
is used to deposit the light emitting layer, in both ends of the
light emitting layer of the organic light emitting display device,
three line consecutive stripe patterns are disposed in
substantially parallel with the first direction (the direction of
.+-.y), and six line dot patterns are disposed between the three
line consecutive stripe patterns.
[0093] When the unit masking pattern portion 320 of FIG. 4 is used
to deposit the light emitting layer, in both ends of the light
emitting layer of the organic light emitting display device, three
line consecutive dot patterns are disposed in substantially
parallel with the first direction (the direction of .+-.y).
Further, three line stripe patterns are disposed between the three
line consecutive dot patterns.
[0094] When the unit masking pattern portion 420 of FIG. 5 is used
to deposit the light emitting layer, in both ends of the light
emitting layer of the organic light emitting display device, six
line consecutive dot patterns are disposed in substantially
parallel with the first direction (the direction of .+-.y), and
three line stripe patterns are disposed between the six line
consecutive dot patterns.
[0095] When the unit masking pattern portion 520 of FIG. 6 is used
to deposit the light emitting layer, in both ends of the light
emitting layer of the organic light emitting display device, three
line consecutive stripe patterns are disposed in substantially
parallel with the first direction (the direction of .+-.y), and
three line dot patterns having large sizes in the lengthwise
direction are disposed between the three line consecutive dot
patterns. Compared to the dot patterns of the light emitting layer
of the organic light emitting display device manufactured using the
unit masking pattern portion 120 of FIG. 2, the dot patterns of the
light emitting layer of the organic light emitting display device
manufactured using the unit masking pattern portion 520 of FIG. 6
are greater in the lengthwise direction. For example, if the size
of each dot pattern of FIG. 2 corresponds to the size of a single
sub-pixel, each dot pattern of FIG. 2 corresponds to at least four
sub-pixels in the lengthwise direction with reference to FIG.
6.
[0096] When the unit masking pattern portion 620 of FIG. 7 is used
to deposit the light emitting layer, in both ends of the light
emitting layer of the organic light emitting display device, three
line consecutive stripe patterns are disposed in substantially
parallel with the first direction (the direction of .+-.y), and six
line dot patterns having large sizes in the lengthwise direction
are disposed between the three line consecutive dot patterns.
[0097] When the unit masking pattern portion 720 of FIG. 8 is used
to deposit the light emitting layer, in both ends of the light
emitting layer of the organic light emitting display device, three
line dot patterns having large sizes in the lengthwise direction
are disposed in substantially parallel with the first direction
(the direction of .+-.y), and three line stripe patterns are
disposed between the three line consecutive dot patterns.
[0098] When the unit masking pattern portion 820 of FIG. 9 is used
to deposit the light emitting layer, in both ends of the light
emitting layer of the organic light emitting display device, six
line dot patterns having large sizes in the lengthwise direction
are disposed in substantially parallel with the first direction
(the direction of .+-.y), and three line stripe patterns are
disposed between the six line consecutive dot patterns.
[0099] The organic light emitting display device may include
passive matrix sub-pixels or active matrix sub-pixels.
[0100] FIG. 12 is a schematic cross-sectional view of a passive
matrix organic light emitting display device, according to an
embodiment.
[0101] Referring to FIG. 12, a first electrode layer 2210 is formed
on a substrate 2200 in a stripe pattern. An intermediate layer 2260
including a light emitting layer 2240 and a second electrode layer
2270 are sequentially formed on the first electrode layer 2210. The
intermediate layer 2260 further includes layers 2230 and 2250. An
insulation layer 2220 may be further disposed between lines of the
first electrode layer 2210. The second electrode layer 2270 may be
formed in a pattern that is substantially perpendicular to a
pattern of the first electrode layer 2210.
[0102] The light emitting layer 2240 of the intermediate layer 2260
includes red R, green G, and blue B light emitting layers to create
full color images, which may be formed using the masks including
the unit masking pattern portions of FIGS. 2 through 9.
[0103] In one embodiment, the first electrode layer 2210 functions
as an anode electrode, and the second electrode layer 2270
functions as a cathode electrode. The first and second electrode
layers 2210 and 2270 may function as cathode and anode electrodes,
respectively.
[0104] FIG. 13 is a schematic cross-sectional view of an active
matrix organic light emitting display device, according to an
embodiment.
[0105] Referring to FIG. 13, the organic light emitting display
device may be an active matrix (AM), and a subpixel thereof is
illustrated. The subpixel may include at least one thin film
transistor (TFT) and an organic light emitting diode (OLED) that is
a self-emissive device. However, the subpixel is not limited to the
structure illustrated in FIG. 13, and the number and structure of
the TFTs may be modified in various ways. The active matrix organic
light emitting display device of FIG. 13 will now be explained in
detail.
[0106] A buffer layer 2300 formed of, for example, S.sub.iO.sub.2,
S.sub.iN.sub.x, etc. may be disposed on a substrate 2200, and a TFT
may be disposed on the buffer layer 2300.
[0107] The TFT may include a semiconductor active layer 2310 formed
on the buffer layer 2300, a gate insulating layer 2320 covering the
active layer 2310 and a gate electrode 2330 on the gate insulating
layer 2320. An interlayer insulating layer 2340 may cover the gate
electrode 2330, and source and drain electrodes 2350 may be
disposed on the interlayer insulating layer 2340. The source and
drain electrodes 2350 may respectively contact a source region and
a drain region of the semiconductor active layer 2310 through
contact holes in the interlayer insulating layer 2340 and the gate
insulating layer 2320. The semiconductor active layer 2310 may be
formed of an inorganic semiconductor or an organic
semiconductor.
[0108] A passivation layer 2360 formed of, for example,
S.sub.iO.sub.2, S.sub.iN.sub.x, etc. may be formed on the source
and drain electrodes 2350. A planarization layer 2370 formed of,
for example, acryl, polyimide, etc. may be formed on the
passivation layer 2360. Although not shown, the TFT may be
connected to at least one capacitor.
[0109] Meanwhile, the source and drain electrodes 2350 may be
connected to the OLED. The source and drain electrodes 2350 may be
connected to a first electrode layer 2210 that is an anode of the
OLED. The first electrode layer 2210 may be disposed on the
planarization layer 2370, and a pixel defining layer 2380 may cover
the first electrode layer 2210. After a predetermined opening is
formed in the pixel defining layer 2380, the OLED may be
formed.
[0110] The OLED emits red, green, and blue light according to a
current flow and displays predetermined image information. The OLED
includes the first electrode layer 2210 that is connected to the
source and drain electrodes 2350 of the TFT and is supplied
positive power therefrom, the second electrode layer 2270 that
covers whole pixels and is supplied negative power therefrom, and
the intermediate layer 2260 that is disposed between the first
electrode layer 2210 and the second layer 2270 and emits light.
[0111] The active matrix (AM) organic light emitting display device
of the present embodiment may use the deposition masks of FIGS. 2
through 9 to form an organic light emitting layer of the
intermediate layer 2260 by using various patterning processes,
thereby realizing a high precision display device.
[0112] According to at least one embodiment, a mask capable of
reducing deformation of an opening portion pattern can be
manufactured. Further, the mask can be used to manufacture a high
precision organic light emitting display device. Moreover, the mask
can be used to manufacture a large area organic light emitting
display device.
[0113] While the present invention has been particularly shown and
described with reference to exemplary embodiments thereof, it will
be understood by those of ordinary skill in the art that various
changes in form and details may be made therein without departing
from the spirit and scope of the present invention as defined by
the following claims.
* * * * *