References (2007. 2. 12)

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References

(200
7
. 2. 12)


1. Backlight General


[1] M. Anandan,

LCD Backlighting

, SID

01 Seminar Lecture Notes F
-
2/1 (2001).

[2] M. Anandan,

Backlights for LCD/TV Monitors: LCD vs. CCFL

, SID

06 Seminar Lecture
Notes M
-
2/1 (2006).

[3] [
液晶ディスプレイバックライ

]
edited by S. Mikoshiba and S. Lim (
Science & Technology
,
Tokyo, 2006) (in Japanese Language).

[4] [
액정

디스플레이

백라이트
] (
임성규
,
단국대학교출판부
, 2005).

[5]
김차연
,
“BLU
기술

시장

동향



분석
” [LCD TV
부품소재

기술시장

동향



분석

세미나
]
강의

노트



(
산업교육연구소
, 2005
.

4
.
29)
.


[6]
[LCD
부품



재료
/
소재




시장

분석
]
세미나

강의노트

(
산업교육연구소
, 2005
.1)
.


[7]
[LED
기술시장

세미나
]
강의

노트

(
매일경제

지식센터
, 2005
.

5
..
17)
.

[8] [
대형

액정
TV
대상

BLU
신기술

세미나
]

(
매일경제

지식센터
, 200
6
.

9
.

20
)
.


[9]
B. H. Hong,

Trends of Market and Technology in BLU

,
[Backlight Market Analysis &
Technology Trends] (Korea

Display Conference Book, Displaybank, 2006. 7. 7)
.


[10]
김차연
,

Backlight Unit
부품소재

기술개발

동향

,

인포메이션디스플레이
,
6

3


(2005).

[11]
S.
-
J. Han,
“Technology of LCD Backlight for TV Application”

,
FPD International 2006 Pre
-
S
eminar

(2006. 3. 23)
.

[12]
요네다

마사히로
,

대형

L
CD TV


백라이트의

최신기술

,
디스플레이

아시아
, 2006


10
월호
,
p.66.

[13] Heesung Electronics,

LCD Backlight
기술

현황



향후

기술

전개


in Displaybank Lecture
Notes (2006. 2. 7)

[14] T. Nishigara,

Technical trend of light source & inverter for large size LCD TV

, Korea
Display Confe
rence

Book (2004. 6.).

[1
5
]
http://www.hallym.ac.kr/~jhko/blu.htm

(Display Lab., Hallym Univ., Korea)
.



2.
Light Sources


(1) Light Sources General

[1]
김현진
(
삼성전자
),

LCD BLU


광원기술

동향

, in

[
대형

액정
TV
대상

BLU
신기술

세미나
]

자료


(
매일경제

지식센터
, 200
6.

9. 20
)
.


[
2
]
박해일
,

대형

액정

디스플레이의

백라이트

광원

개발

동향

,
인포메이션디스플레이
,

5

5

,
p.13 (2004)
.

[3
]
조광섭
,

냉음극



외부전극

형광램프의

방전

특성

,

Journal of the Korean Vacuum Society,
Vol.14, p.48,
(
2005)
.

[4
]
고재현
,
EEFL/FFL
백라이트의

기술동향과

전망

,

월간전자부품
, 2006

11
월호
, 78

.


(2)
CCFL

BLU

[1
]
함훈
,

CCFL


기술



동향

,
월간

전자부품
, 2007


1
월호
.

[2
]
김중현
,
“LCD
대화면화에

따른

CCFL


기술개발

방향

,

조명전기설비학회지
,



19


p.15,
(
2005
).

[3
]
R.
Y. Pai,

Efficiency Limits for Fluorescent Lamps and Application to LCD Backlighting

,
SI
D

97 Digest, p.447 (1997).

[4
] H. Noguchi,

A 50,000
-
hour Lifetime Cold
-
Cathode Fluorescent Lamp for LCD Backliting

,
SID

99 Digest, 42.2 (1999).

[5
] H. Noguchi,

A High
-
Efficiency Cold
-
Cathode Fluorescent Lamp for a Backlighting Unit

,
SID

98 Digest, 17
.4 (1998).

[6
]
JKL Components Co.: application notes about CCFL



http://www.jkllamps.com/techLibrary/index.cfm?action=techLibraryApplication

[7
]

Harroson
-
Toshiba CCFL site


http://www.htl.co.jp/

[8
]
Sanken CCFL Catalogue (English and Japanese)



http:
//www.sanken
-
ele.co.jp/prod/library/lib_rei.htm


(3) EEFL BLU

[1
]
G.

S. Cho, “EEFL Technology”,
, [Backlight Market Analysis & Technology Trends] (Korea
Display Conference Book, Displaybank, 2006. 7. 7).

[2
]
G.
-
S. Cho,
et al.
, “Glow discharge in the exte
rnal elec
-
trode fluorescent lamp”, IEEE Trans.
Plasma Sci., Vol.33, pp.1410
-
1415 (2005).

[
3
]
Y. Takeda,
et al.
, “The characteristics of the external
-
electrode mercury fluorescent lamp for
backlight liquid
-
crystal
-
television dis
-
plays”, J. SID, Vol.11, pp.6
67
-
673 (2003).

[
4
] J.
-
H. Ko,

EEFL Technology, Present and Future”
,

CVCE’06 Digest, p.93

(2006).


(4) FFL BLU

[1]
박해일
,


액정

디스플레이

TV


면광원

백라이트

기술

조명전기설비학회지
,



19


p.6,
(
2005
).

[
2
]
염정덕
,
“PDP


방전기술을

이용한

평면광원

기술개발

현황

,

조명전기설비학회지



18


p.34,
(
2004)
.

[
3
] Ligh
t Source Technology Co.,

FFL Technologies

, Displaybank Lecture Notes (2005. 2).

[
4
]
T. Shiga,
et al.
,

A 30,000
-
cd/m
2
, 50 lm/W, and 92%
-
luminance
-
uniformity flat discharge
fluorescent lamp for LCD backlights

, J.
SID Vol.7/3, p.151 (1999).

[
5
] T. Shiga
,
et al.
,

Lateral Multi
-
Channel Flat Discharge Fluorescent Lamp for LC
-
TV
Backlight” SID

04 Digest
,

47.3

(2004).

[
6
] M. Illmer,
et al.
,

Hg
-
free Flat Panel Light Source PLANON


a Promising Candidate for
Future LCD Backlights

, SID

00 Digest, p.931 (2000
).

[
7
]
J. K. Lee,
et al.
,

High Efficiency Mercury
-
free Flat Light Source for LCD Backlighting

,
SID

05 Digest, p.1309 (2005).

[
8
] D. I. Kang,
et al.
, “
Nanoporous Dielectrics for High
-
luminance and High
-
Efficacy Flat Xe
Discharge Lamp

, CVCE

06 Digest, p
.51 (2006).


(5) LED BLU

[
1
] M. Anandan,

LED Backlight for LCD/TV Monitor: Issues that Remain

, SID

06 Digest, p.1509
(2006).

[
2
]
민경익
,

고출력

광원의

최근

연구동향

물리학과

첨단기술
,

20
05


1/2
월호
.

[
3
]
[LED
기술시장

세미나
]
강의

노트

(
매일경제

지식센터
, 2005
.

5
..
17)
.

[
4
]
“LED
백라이트

도입으로

LCD TV


색재현성

범위

대폭

향상

,

니케이

일렉트로닉스

2005


3
월호

40

.

[
5
]
G. Kim,

LED Backlight: Development Trend and Technology

, IMID/IDMC
’’
06 B
u
siness

Forum Book (2006. 8).

[
6
] H. Hahm,

LED, the Light Source for the LCD

,
[Backlight Market Analysis & Technology
Trends] (Korea Display Conference Book, Displaybank, 2006. 7. 7).

[7]
백종엽
,

발광다이오드

(LED)
기술

,
경북대

반도체공정교육



지원센터

세미나

자료

(2005. 3.
11).

[8] K.

Satoshi (Minebea),

LED backlights evolving with a higher efficiency and a lower profile

,
presentation material at FPD International 2006. (
http://www.minebea
-
ele.com/technical_papers/index.html
)

[
9
]
Lumileds LED
technology



http://www.lumileds.com/doc
s.cfm?docType=15

[
10
] Osram Opto Semiconductors


http://www.osram
-
os.com/

[11] M. Zeiler,
et al.
,

Optimization parameters for LED backlighting solutions

, SID

06 Digest,
p.1524 (2006).


(6) New Light Sources

[
1
]
김한기
,
“OLED
광원



BLU
기술

,

월간

전자부품

2007


1
월호
.

[2
]
주병권
,

탄소

나노

튜브

전자

방출원을

이용한

디스플레이



광원

기술

,

ICASE Magazine,
Vol.10, p.15 (2004).

[3
]
J. Y. Park, “
Technical trend & present status of CNT light source

,
[Backlight Market
Analysis & Technology Trends] (Kor
ea Display Conference Book, Displaybank, 2006. 7. 7).


3. Optical Components of BLU


(1) Optical Films General

[1]
홍병희
,

BLU
부품



제품

기술

동향

, Displaybank
디스플레이

산업포럼

자료집

(2005. 9).

[2]
서민석
,

Technical Trends of Optical Film for LCD

, Displaybank
디스플레이

산업포럼


료집

(2005. 9).

[3]
이수미
,

중소형

백라이트

개발

동향

, 2006 LCD
기술혁신을

위한

부품소재



장비개발

세미나

자료집

(2006. 1. 18).

[4] M. Tjahjadi,
et al.
,

Advances in LCD Backlight Film and Plate Technology

, Information
Display, Vol.10/06, p.22 (2006).

[5] D. G. Pelka,
et al.
,

Replicatio
n of Microstructured Display Films

, SID

03 Digest, p.72 (2003).


(2)
Lamp Reflector, Reflection Sheet

[1]
“BLU


반사기능부품에

대한

소고

,
Displaybank column

(2006).

[2]
E. J. Lightfoot,

Novel Reflectors for LCD Backlights

, SID

06 Digest, p.498 (2006).

[3] X. Y
ang
et al.
,

Compound hyperbolic concentrator
-
type reflectors for liquid crystal display
backlight systems

, J. Opt. A: Pure Appl. Opt., Vol.7, p.514 (2005).


(3) Light Guide Plate (LGP)

[1]
이수미
,

LCD Backlight Unit (
도광판
)
개발

동향

,
매일경제

세미나

자료집

(2006. 6. 1
).

[2]
한국과학기술정보연구원
,

BLU


도광판

, MCTNET (2007).


<Patterned or molded LGP
, Reverse
-
prism LGP
>

[3]
T. Ishikawa,
et al.
,

New design for a highly collimating turning film

, SID

06 Digest, p.514
(2006).

[4]
M.
-
S. Lee,

The study on prism
-
patterned light guid
e plate for increase of efficiency in
monitor backlight unit

, IDW

05, p.1387 (2005).

[5]
K. Kalantar,
et al.
,

Backlight unit with double
-
surface light emission using a single micro
-
structured lightguide plate

, J. SID, Vol.12/4, p.379 (2004).

[6]
사종엽


,

LCD
백라이트

도광판의

광학

특성에

대한

연구

,
대한기계학회

논문집

A

,


28




4

, p.362 (2004).

[7]
K, Kalantar,

Modified functional ligut
-
guide plate for backlighting transmissive LCDs

, J. SID,
Vol.11/4, p.641 (2003).

[8]
K, Kalantar,

Modulation of viewing angle on an LCD

surface through backlight optics

, J. SID,
Vol.11/4, p.647 (2003).

[9]
T. Ide,
et al.
,

A novel dot
-
pattern generation to improve luminance uniformity of LCD
backlight

, J. SID, Vol. 11/4, p.659 (2003).

[10]
T. Ide,
et al.
,

Moire
-
free collimating light

guide plate with low
-
discrepancy dot patterns

,
SID

02 Digest, p.1232 (2002).

[11]
K. Kalantar,
et al.
,

Functional light
-
guide plate characterized by optical micro
-
deflector and
micro
-
reflector for LCD backlight

, IEICE Trans. Electron., Vol. E84
-
C, p.1
637 (2001).

[12]
C.
-
Y. Tai,

A small
-
area backlight employing divergent
-
angle beam rotator and unique
double
-
layer micro
-
prisms

, SID

98 Digest, p.556 (1998).


<Hybrid
-
LGP>

[13]
K. Fujisawa et al.,

Edge
-
Light Backlight Unit Using Optically Patterned Fil
m

, Jpn. J. Appl.
Phys., Vol.46, p.194 (2007).

[14]
S. Aoyama,

et al.
,

Hybrid normal
-
reverse prism coupler for light
-
emitting diode backlight
systems

, Appl. Opt., Vol.45, p.7273 (2006).

[15]
G.Kurata, et al.,

Sheetless Backlight System for Mobile Phon
e

, IDW

06 Digest, p.1727
(2006).

[16]
A. Nagasawa,
et al.
,

A novel backlight system with the unified component

, IDW

05 Digest,
p.1285 (2005).

[17]
D. Feng,
et al.
,

Novel integrated light
-
guide plates for liquid crystal display backlight

, J.
Opt. A:
Appl. Opt., Vol. 7, p.111 (2005).

[18]
D. Feng,
et al.
,

High quality light guide plates that can control the illumination angle based
on microprism structures

, Appl. Phys. Lett., Vol.
85, p.6016 (2004).

[19]
T. Okumura,
et al.
,

Highly
-
efficient backlig
ht for liquid crystal display having no optical
films

, Appl. Phys. Lett., Vol. 83, p.2515 (2003).

[20]
A. Tagaya,
et al.
,

The advanced highly scattering optical transmission polymer backlight for
liquid crystal displays

, Jpn. J. Appl. Phys., Vol. 41, p.
2241 (2002).

[21]
A. Tagaya,
et al.
,

Thin liquid
-
crystal display backlight system with highly scattering optical
transmission polymers

, Appl. Opt., Vol. 40, p.6274 (2001).


<Holographic LGP>

[22]
S. R. Park,

Micro
-
holographic light guide plates in LED

BLU

, IDW

06 Digest, p.1025
(2006).

[23]
H.
-
S. Lee,
et al.
,

Improvement of color dispersion in holographic backlight units using beat
patterns

, IDW

05 Digest, p.1281 (2005).

[24]
A. Funamoto,
et al.
,

Diffusive
-
sheetless backlight system for mobile phon
e

, IDW

05 Digest,
p.1277 (2005).

[25]
J. H. Min,
et al.
,

Holograhpic backlight unit for mobile LCD devices

, J.
SID, Vol.11/4, p.653
(2003).

[26]
S. M. Lee,
et al.
,

New concept for improvement of white color balance in hologram
backlight unit

, SID

03

Digest, p.1361 (2003).

[27]
M. G. Lee,
et al.
,

Optical characteristics of holographic light
-
guide plate for LCD

,
Eurodisplay

02 Digest, p.343 (2002).

[28]
M. Parikka,
et al.
,

Deterministic diffractive diffusers for displays

, Appl.
Opt., Vol. 40,
p.2
239 (2001).


<Polarizing LGP>

[29]
H. J. Conelissen,
et al.
,

State of Polarization of polarized
-
light backlights

, IDW

06 Digest,
p.965 (2006).

[30]
X. Yang,
et al.
,

High
-
efficiency integrated polarized backlight system for liquid crystal
display

, App
l. Phys. Lett., Vol. 88, p.221109 (2006).

[31] X. Yang,
et al.
,

Polarized light
-
guide plate for liquid crystal display

, Opt. Exp., Vol.13,
p.8349 (2005).

[32] K.
-
W. Chien,
et al.
,

polarized backlight based on selective total internal reflection at
mi
crogrooves

, Appl. Opt., Vol. 43, p.4672 (2004).

[33] K.

W. Chien,
et al.
,

Design and fabrication of an integrated polarized light guide for lilquid
-
crystal
-
display illumination

, Appl. Opt., Vol.43, p.1830 (2004).

[34] H. J. Cornelissen,
et al.
,

Pola
rized light LCD backlight based on liquid crystalline polymer
film: a new manufacturing process

, SID

04 Digest, p.1178 (2004).

[35] H. Jagt,
et al.
,

Micro
-
structured polymeric linearly polarized light emitting lightguide for
LCD illumination

, SID

02 Di
gest, p.1236 (2002).

[36] N. Stutzmann,
et al.
,

Novel polarized
-
light emitting polymer systems

, Jpn. J. Appl. Phys.,
Vol.40, p.5966 (2001).

[37] N. Stutzmann,
et al.
,

Novel polarized
-
light emitting polymer systems: II. Use of form
birefringent polariz
ation
-
selective mirrors

, Jpn. J. Appl. Phys., Vol.40, p.5972 (2001).

[38]
H. Jagt,
et al.
,

Linearly polarized light emitting backlight

, IDW

00 Digest, p.387 (2000).

[39] H. Tanase,
et al.
,

A new backlighting system with a polarizer light pipe for enh
anced light
output from LCDs

, SID

97 Digest, p.365 (1997).

[40] M. Suzuki,
et al.
,

A backlighting unit with polarization recycle by stacked transparent
plates

, SID Digest, 25.1.


<LGP for LED>

[41 ]
K. Kalantar,

Highly light collimating unit for reali
zation of mosaic structure large size RGB
backlight

, IDW

05 Digest, p.1273 (2005).

[42] Y.
-
H. Lu,
et al.
,

A novel direc
-
LED
-
backlight unit using grooved hexagonal light
-
guide
plate

, SID

06, p.1513 (2006).

[43] S. Siitonen

et al.
,

Coupling of light fro
m an LED into a thin light guide by diffractive
gratings

, Appl. Opt., Vol.43, p.5631 (2004).

[4
4
] Y. Martynov,
et al.
,

High
-
efficiency slim LED backlight system with mixing light guide

,
SID

03 Digest, p.1259 (2003).


<LGP manufacturing process>

[4
4
]
사토시

오쿠보
,

백라이트
,
이틀만에

제작
!
프린팅

기술로

싸고

빠르게

, Nikkei Electronics
Asia, 2006 October.

[45]
최가을


,

실리콘

결정면을

이요한

LCD
-
BLU


도광판의

미세산란구조

형성

,
한국광학회지
,

16

, p.113 (2005).


(4)
Diffusion Sheet, Diffusion Plate

[1] DongWoo Fine Chem,

Light Diffusion Plate for LCD T
V Backlight Unit

, in

[
대형

액정
TV



BLU
신기술

세미나
]

자료집

(
매일경제

지식센터
, 200
6.

9. 20
)
.


[2] S.

I. Sung,
et al.
,

Microlens array diffuser for a light
-
emitting diode backlight system

, Opt.
Lett.,

Vol. 31, p.3016 (2006).

[3] G. Y. Kim,

A PMMA composite as an optica
l diffuser in a liquid crystal display backlighting
unit (BLU)

, Eur. Polym. J., Vol. 41, p.1729 (2005).

[4] J. Qi,
et al.
,

Tailored holographic micro
-
diffusers for display applications

, SID

04, p.314
(2004).

[5] A. S. Baturin

et al.
,

Application of h
olographic diffusers to improve light uniformity of source
with carbon fiber cathodes

, J.
Vac. Sci. Technol. B, Vol.21(4), p.1629 (2003).

[6] Sun Il Kim
et al.
,

Holographic diffuser by use of a silver halide sensitized gelatin process

,
Appl. Opt.,

Vol.42, p.2482 (2003).

[
7
] A. Prat,
et al.
,

Glass diffuser for LCD TV backlight

, Eurodisplay

02 Digest, p.347 (2002).

[
8
]
M.

Uekita
,
et al.
,

A novel protective
diffuser for backlit LCDs


SID

00 Digest, 43.4L (2000).


[9
] M. Carrascosa

et al.
,

Lamber
t emitters: a simple Monte
-
Carlo approach to optical diffusers

,
Eur. J. Phys., Vol.6, pp.183
-
187 (1985).


(5) Prism Sheet

[1]
이상도
(Doosan BG),

Prism Sheet


기술개발

동향

, Displaybank
디스플레이

산업포럼

자료집

(2005. 9).

[2]
R. H. Wilson
et al.
,

Predicting performance of a microlens LCD brightness film

, SID

06
Digest, p.1332 (2006).

[3] E. G. Olczak
et al.
,

A Moire
-
free platform for LCD backl
ighting

, SID

06 Digest, p.1336
(2006).

[4] M. H. Lee
et al.
,

New light collimation film (LCF) for direct
-
lit BLU system

, SID

06 Digest,
p.503 (2006).

[5] O. Dross,
et al.
,

A superior architecture of brightness enhancement for display backlighting

,
P
roc.
of SPIE, Vol.6338, 63380G (2006).

[
6
] J. D. LeGrange,
et al.
,

Brightness enhancement of reflective polymer
-
dispersed LCDs

,
SID

95 Digest, p.275 (1995).

[7
] information of BEF film


3M website:
http://www.vikuiti.com/


(6) Polarizer


<Reflective p
olarizer
: multi
-
layer type
>

[1] M. F. Weber,
et al.
,

Giant birefringent optics in multilayer polymer mirrors

, Science, Vol.
287, p.2451 (2000).

[2] I. Hodgkinson,
et al.
,

Birefringent thin
-
film polarizers for use at normal incidence and with
planar te
chnologies

, Appl. Phys. Lett., Vol. 74, p.1794 (1999).

[3] information of DBEF film


3M website:
http://www.vikuiti.com/


<Reflective polarizer
: CLC type
>

[4] W. J. Jeong,
et al.
,

Comparative study on reflective polarizers: on
-
axis properties

, IDW

06

Digest, p.999 (2006).

[5] H. Pak,
et al.
,

Compensation of color shift in a cholesteric liquid crystal polarizer by using
stacks of a quarter
-
wave film with a low
n
z

value


IDW

06 Digest, p.1003 (2006).

[7] H. Pak,
et al.
,

Determination of optical con
stants for cholesteric liquid crystal films using
transmission and reflectance spectra

, IDW

05 Digest, p.1415 (2005).

[8] T. Nakajima,

NIPOCS brightness enhancement film

, Nitto Denko Tech. Rep., Vol.41, p.30
(2003).

[9] J. R. Park,
et al.
,

Numerical
modeling and simulation of a cholesteric liquid crystal polarizer

,
Opt. Rev., Vol.9, p.207 (2002).

[10] D. J. Broer,
et al.
,

Wide
-
band reflective polarizers from cholesteric polymer networks

with
a pitch gradient

, Nature, Vol.378, p.467 (1995).


<Refl
ective polarizer: wire
-
grid type>

[11] S. H. Kim,
et al.
,

Fabrication of a nano
-
wire grid polarizer for brightness enhancement in
liquid crystal display

, Nanotech., Vol.17, p.4436 (2006).

[12] J. J. Wang,

et al.
,

30
-
nm
-
wide aluminum nanowire grid for u
ltrahigh contrast and
transmittance polarizers made by UV
-
nanoimprint lithography

, Appl.
Phys. Lett., Vol. 89,
p.141105 (2006).

[13] J. J. Wang,
et al.
,

High
-
performance large
-
area ultra
-
broadband (UV to IR) nanowire
-
grid
polarizers and polarizing beam
-
splitters

, Proc.
o
f SPIE, Vol. 5931, p.59310D
-
1 (2005).

[1
4
]
X.
-
D. Mi,
et al.
,

Low fill
-
factor wire grid polarizers for LCD backlighting

, SID

05 Digest,
p.1004 (2004).

[15
] D. Kim,

Polarization characteristics of a wire
-
grid polarizer in a rotating pl
atform

, Appl.
Opt., Vol.44, p.1366 (2005).

[16
] X. J. Yu,
et al.
,

Optical wire
-
grid polarizers at oblique angles of incidence

, J. Appl. Phys.,
Vol.93, p.4407 (2003).

[17
] Z. Yu,
et al.
,

Reflective polarizer based on a stacked double
-
layer subwaveleng
th metal
grating structure fabricated using nanoimprint lithography

, Appl. Phys. Lett., Vol.77, p.927
(2000).

[18] Proflux Co.,


www.profluxpolarizer.com


<Polarizer: anisotropic
-
scattering type>

[17] I. Amimori,
et al.
,

Optomechanical properties of
stretched polymer dispersed liquid crystal
films for scattering polarizer applications

, J. Appl. Phys., Vol.93, p.3248 (2003).

[18] Y. Dirix,
et al.
,

Scattering birefringence polarizers based on oriented blends of
poly(ethylene terephthalate) and core
-
s
hell particles

, J. Appl. Phys., Vol.83, p.2927 (1998).


(7) Simulation

[1] W. Y. Lee,
et al.
,
“ “
Fast ray
-
tracing methods for LCD backlight simulation using the
characteristics of the pattern

, Opt. Eng., Vol.44, p.014004 (2005).

[2]
C. R. Ou,

Equivale
nt model and statistical analysis for the ray tracing of backlight model

,
IDW

05 Digest, p.1403 (2005).

[3]
유재성
,
정만호
,

Micro Fresnel Lens Array


이용한

Backlight Unit
설계

,
한국광학회지
,

16

, p.217 (2005).

[4]
서희경


,

LCD Backlight Unit
설계를

위한

최적화

기법

,
정보과학회논문지
:

시스템



이론
,

32

, p.133 (2005).

[5] J.
-
G. Chang
et al.
,

Generating random and nonoverlapping dot patterns for liquid
-
crystal
display backlight light guides using molecular
-
dynamics method

, J.
Appl. Phys., Vol.98, p.114910
(2005).

[6] J. Choi

et al.
,

De
sign, analysis, and optimization of LCD backlight unit using ray tracing
simulation

, ICCSA2004, p.837 (2004).

[7
] Y. Koyama,

Ray
-
tracing simulation in LCD development

, Sharp Tech. J., Vol.3, p.1 (2002).

[8
] M. Gebauer,
et al.
,

Ray tracing tool for de
veloping LCD
-
backlights

, SID

00 Digest, p.558
(2000)


4. Advanced Technologies



5. BLU
T
erminology
, Measurement and Colorimetry


[1]
International Light, [
Light Measurement

Handbook
]


http://www.intl
-
light.co
m




Please visit

http://www.hallym.ac.kr/~jhko/blu.htm


for more information of backlight unit
technology. The information is regularly updated.