SPECIFICATION - Egloospds13.egloos.com/pds/200907/24/46/pcl-c6wwcz33sc.pdf · 2009. 7. 23. · The...
Transcript of SPECIFICATION - Egloospds13.egloos.com/pds/200907/24/46/pcl-c6wwcz33sc.pdf · 2009. 7. 23. · The...
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SPECIFICATION
ITEM WARM WHITE TOP VIEW LED
MODEL PCL-C6WWCZ33SC
CUSTOMER
ISSUED DATE
S U P P L I E RDrawn by Checked by Approved by
/ / /
C U S T O M E RApproved by Approved by Approved by
/ / /
POWERLIGHTEC Co., LTD.110-1 Galgot - ri, Jinwy - myun, Pyeongtaek-si, Kyunggi – do, Korea
Tel : +82-31-379-5400 Fax : +82-31-378-9759http : //www.powerlightec.com
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C O N T E N T S
1. Revision history
2. General Description
3. Electro-Optical Characteristics
4. Ranks
5. Composition of Package
6. Environmental pollution free
7. Typical Electrical
/ Optical Characteristics Curves
8. Classification by name
9. Reliability
10. Soldering Condition
11. Reel Packing Structure
12. Precaution for Use
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Title Specification for Approval
Doc. No. KQSP-LL-3209
Rev. No. Date Summary of revision Remarks
00
01
01
03
04
05
06
07
2003.07.
2004.10.
2004.12.
2006.04.
2007.11
2008.02
2008.10
2009.07.
New establishment
New Chromaticity Coordinates ranks
Appliance Pb free material
Document registration number change
Revised All Sheets
Model name, Outline Dimensions, Ranks
Model name, Chromaticity Coordinates,
Precaution for Use
Chromaticity Coordinates
1. Revision history
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2. General Description
• Package Size : 5.4 × 5.0 × 1.6mm • SMD (Top View) type • Very wide viewing angle • Diffusion lens type • Chip material based on InGaN • High luminous Intensity • Long life time • ESD protection (Level 2 under 2KV)
(2) Outline Dimensions
(1) Features
UNIT : mm
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(1) Absolute Maximum Rating
Parameter Symbol Value Unit
Forward Current IF 90 ㎃
Peak Forward Current ♦ IFP 300 ㎃
Reverse Voltage VR 5 V
Power Dissipation PD 360 ㎽
Operating Temperature Topr -40 to +85 ℃
Storage Temperature Tstg -40 to +100 ℃
Soldering temperature Tsol Reflow soldering : 260℃, 10 secHand Soldering : 350℃, 3 sec
(Ta=25℃)
♦ Duty Ratio ≤ 1/10, Pulse Width ≤ 10 msec
(2) Electrical / Optical Characteristics
Parameter Symbol Condition Min Typ Max Unit
Forward Voltage VF IF=60㎃ - 3.2 3.6 V
Reverse Current IR VR=5V - - 10 ㎂
Luminous Intensity ■ IV IF=60㎃ 3,500 5,000 - mcd
Viewing Angle ★ 2θ1/2 IF=60㎃ 100 120 140 deg.
Chromaticity coordinates - IF=60㎃ -X : 0.43Y : 0.42
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■ Luminous intensity is measured with a light sensor and filter combination that approximatesthe CIE eye-response curve. Please refer to rank table.
★ θ1/2 is the off-axis angle at which the luminous intensity is half the axial luminous intensity.
(Ta=25℃)
3. Electro-Optical Characteristics
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4. Ranks
(1) Luminous Intensity Ranks
(2) Forward Voltage Ranks
※Measurement Uncertainty of the Luminous Intensity : ± 10%
VF Rank Condition Min Typ Max Unit
A
IF=60㎃
2.8 - 3.0
VB 3.0 - 3.2
C 3.2 - 3.4
D 3.4 - 3.6
※Measurement Uncertainty of the Forward Voltage : ± 0.07V
(Ta=25℃)
(Ta=25℃)
Iv Rank Condition Min Typ Max Unit
A
IF=60㎃
3,500 - 4,000
mcd
B 4,000 - 4,500
C 4,500 - 5,000
D 5,000 - 5,500
E 5,500 - 6,000
F 6,000 - -
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4. Ranks
(3) Chromaticity Coordinates ranks : IF =60mA (Ta=25℃)
※Measurement Uncertainty of the Color Coordinates : ± 0.01
Rank name Rank table
D rank( 5,950K ~ 7,500K)
1X 0.2923 0.2963 0.3047 0.3017
Y 0.3420 0.3263 0.3346 0.3510
2X 0.2963 0.3004 0.3077 0.3047
Y 0.3263 0.3103 0.3179 0.3346
3X 0.3004 0.3045 0.3108 0.3077
Y 0.3103 0.2942 0.3010 0.3179
4X 0.3017 0.3047 0.3131 0.3110
Y 0.3510 0.3346 0.3425 0.3595
5X 0.3047 0.3077 0.3151 0.3131
Y 0.3346 0.3179 0.3252 0.3425
6X 0.3077 0.3108 0.3173 0.3151
Y 0.3179 0.3010 0.3077 0.3252
7X 0.3110 0.3131 0.3220 0.3209
Y 0.3595 0.3425 0.3505 0.3680
8X 0.3131 0.3151 0.3231 0.3220
Y 0.3425 0.3252 0.3327 0.3505
9X 0.3151 0.3173 0.3242 0.3231
Y 0.3252 0.3077 0.3145 0.3327
E rank(4,900K ~ 5,950K)
1X 0.3209 0.3220 0.3312 0.3312
Y 0.3680 0.3505 0.3584 0.3763
2X 0.3220 0.3231 0.3313 0.3312
Y 0.3505 0.3327 0.3401 0.3584
3X 0.3231 0.3242 0.3314 0.3313
Y 0.3327 0.3145 0.3213 0.3401
4X 0.3312 0.3312 0.3406 0.3415
Y 0.3763 0.3584 0.3659 0.3841
5X 0.3312 0.3313 0.3397 0.3406
Y 0.3584 0.3401 0.3473 0.3659
6X 0.3313 0.3314 0.3388 0.3397
Y 0.3401 0.3213 0.3280 0.3473
7X 0.3415 0.3406 0.3498 0.3515
Y 0.3841 0.3659 0.3729 0.3912
8X 0.3406 0.3397 0.3480 0.3498
Y 0.3659 0.3473 0.3539 0.3729
9X 0.3397 0.3388 0.3461 0.3480
Y 0.3473 0.3280 0.3343 0.3539
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4. Ranks
(3) Chromaticity Coordinates ranks : IF =60mA (Ta=25℃)
※Measurement Uncertainty of the Color Coordinates : ± 0.01
Rank name Rank table
E rank(4,100K ~ 4,900K)
1X 0.3515 0.3498 0.3594 0.3620
Y 0.3912 0.3729 0.3797 0.3982
2X 0.3498 0.3480 0.3567 0.3594
Y 0.3729 0.3539 0.3606 0.3797
3X 0.3480 0.3461 0.3539 0.3567
Y 0.3539 0.3343 0.3407 0.3606
4X 0.3620 0.3594 0.3699 0.3734
Y 0.3982 0.3797 0.3866 0.4052
5X 0.3594 0.3567 0.3662 0.3699
Y 0.3797 0.3606 0.3674 0.3866
6X 0.3567 0.3539 0.3625 0.3662
Y 0.3606 0.3407 0.3474 0.3674
7X 0.3734 0.3699 0.3807 0.3850
Y 0.4052 0.3866 0.3932 0.4117
8X 0.3699 0.3662 0.3761 0.3807
Y 0.3866 0.3674 0.3740 0.3932
9X 0.3662 0.3625 0.3714 0.3761
Y 0.3674 0.3474 0.3540 0.3740
F rank(3,420K ~ 4,900K)
1X 0.3850 0.3807 0.3927 0.3979
Y 0.4117 0.3932 0.4000 0.4183
2X 0.3807 0.3761 0.3873 0.3927
Y 0.3932 0.3740 0.3809 0.4000
3X 0.3761 0.3714 0.3816 0.3873
Y 0.3740 0.3540 0.3609 0.3809
4X 0.3979 0.3927 0.4045 0.4104
Y 0.4183 0.4000 0.4059 0.4239
5X 0.3927 0.3873 0.3983 0.4045
Y 0.4000 0.3809 0.3871 0.4059
6X 0.3873 0.3816 0.3917 0.3983
Y 0.3809 0.3609 0.3673 0.3871
7X 0.4104 0.4045 0.4168 0.4234
Y 0.4239 0.4059 0.4114 0.4290
8X 0.4045 0.3983 0.4096 0.4168
Y 0.4059 0.3871 0.3928 0.4114
9X 0.3983 0.3917 0.4025 0.4096
Y 0.3871 0.3673 0.3735 0.3928
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4. Ranks
(3) Chromaticity Coordinates ranks : IF =60mA (Ta=25℃)
※Measurement Uncertainty of the Color Coordinates : ± 0.01
Rank name Rank table
H rank(2,900K ~ 3,420K)
1X 0.4234 0.4168 0.4290 0.4362
Y 0.4290 0.4114 0.4161 0.4333
2X 0.4168 0.4096 0.4214 0.4290
Y 0.4114 0.3928 0.3982 0.4161
3X 0.4096 0.4025 0.4134 0.4214
Y 0.3928 0.3735 0.3791 0.3982
4X 0.4362 0.4290 0.4408 0.4486
Y 0.4333 0.4161 0.4200 0.4367
5X 0.4290 0.4214 0.4327 0.4408
Y 0.4161 0.3982 0.4026 0.4200
6X 0.4214 0.4134 0.4241 0.4327
Y 0.3982 0.3791 0.3841 0.4026
7X 0.4486 0.4408 0.4528 0.4610
Y 0.4367 0.4200 0.4233 0.4394
8X 0.4408 0.4327 0.4442 0.4528
Y 0.4200 0.4026 0.4065 0.4233
9X 0.4327 0.4241 0.4351 0.4442
Y 0.4026 0.3841 0.3885 0.4065
I rank(2,450K ~ 2,900K)
1X 0.4610 0.4528 0.4648 0.4734
Y 0.4394 0.4233 0.4259 0.4414
2X 0.4528 0.4442 0.4558 0.4648
Y 0.4233 0.4065 0.4097 0.4259
3X 0.4442 0.4351 0.4463 0.4558
Y 0.4065 0.3885 0.3924 0.4097
4X 0.4734 0.4648 0.4776 0.4866
Y 0.4414 0.4259 0.4279 0.4428
5X 0.4648 0.4558 0.4682 0.4776
Y 0.4259 0.4097 0.4123 0.4279
6X 0.4558 0.4463 0.4583 0.4682
Y 0.4097 0.3924 0.3958 0.4123
7X 0.4866 0.4776 0.4912 0.5005
Y 0.4428 0.4279 0.4290 0.4432
8X 0.4776 0.4682 0.4815 0.4912
Y 0.4279 0.4123 0.4142 0.4290
9X 0.4682 0.4583 0.4713 0.4815
Y 0.4123 0.3958 0.3986 0.4142
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※Measurement Uncertainty of the Color Coordinates : ± 0.01
4. Ranks
(4) Chromaticity Coordinates Graph : IF = 60mA
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5. Composition of Package
Number Item Material
1 Mold Resin Silicone
2 Electrodes Ag Plating Cu Alloy
3 Die adhesive Ag Epoxy or Silicone
4 LED Chip InGaN
5 Au Wire 1.0~1.2mil
(2) Component material
(1) Composition of Package
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6. Environmental pollution free
(1) Testing institute
: Korea Environment & Merchandise Testing Institute
(2) Test material
: LED-PCB ▶① Resin, ②Metal
① Resin Test
Test item Unit Result Test method
Pb mg/kg No detection ISO 6101-2 (AAS)EN 1122 (ICP)
ISO 3856/7 (AAS)ISO 3856/5
UV-Vis. Spectrophotometer
Cd mg/kg No detection
Hg mg/kg No detection
Cr+6 mg/kg No detection
②Metal Test
Test item Unit Result Test method
Pb mg/kg No detectionISO 4749-98ISO 5960-84
JIS H 1066-93ICP analysis methodISO 3613:2000(E)
Cd mg/kg No detection
Hg mg/kg No detection
Cr+6 ㎍/kg No detection
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7. Typical Electrical / Optical Characteristics Curves
25℃ Ambient Temperature Unless Otherwise Noted
■ Relative Luminous intensity vs. Wavelength■ Directivity
0
10
20
30
40
50
60
70
80
90
100
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5Forward Voltage_Vf [V]
Forw
ard
Current_
If [
mA
]
0
5
10
15
20
25
30
35
-20 0 20 40 60 80 100
Ambient Temperature (Ta)
Forw
ard
Cur
rent
(If)
30º
60º
50º40º
10º20º
70º
80º
0º
90º080 60 40 20100
Relative Luminosity Iv(%)
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
0
30
60
90
120
150
180
210
240
270
300
Forward Current_If [mA]
Rel
ativ
e Lu
min
ous
Inte
nsi
ty
[ Iv
/Iv
(60m
A)
]
■ Forward Voltage Vs. Forward Current ■ Forward Current Vs. Relative Luminosity
■ Forward Current Derating Curve (per 1 chip) ■ Relative Luminosity Vs. Ambient Temperature
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8. Classification by name
(1) POWERLIGHTEC Lamp(2) PACKAGE TYPE
(3) EMITION COLOR
(4) LENS COLORA Colored Transparency C Colored Diffusion
B Colorless Transparency D Milky Diffusion
(5) ESD PROTECTION ( Zener Diode: Z / Varistor: V / No Protection: N )(6) NUMBER OF CHIP ( 1Chip: 1 / 2Chip: 2 / 3Chip: 3 / 4Chip: 4 / 5Chip: 5 )(7) NUMBER OF ZENER ( No Zener: 0 / 1Zener: 1 / 2Zener : 2 / 3Zener : 3 )(8) MOLD RESIN ( Epoxy: E / Silicone: S )(9) POLARITY MARK ( Anode: A / Cathode: C )
C0 P 1608 C/LED Package, T=0.3mm
C1 P 1608 C/LED Package, T=0.4mm
C2 P 1608 C/LED Package, T=0.55mm
C3 P 4014 Side View LED, T=0.8mm
C31 P 4014 Side View LED, T=0.6mm
C32 P 4014 Side View LED, T=0.48mm
C4 P 3528 Top View LED, T=1.9mm
C41 P 3528 TOP LED Transfer T=1.2mm
C42 P 3528 TOP LED Transfer T=0.9mm
C5 P 3020 Top View LED, T=1.3mm
C6 P 5450 Flash LED Package T=1.6mm
C61 P 5450 Flash LED Package T=0.9mm
C7 P 1615 Seven Color Package
C71 P 1612 Dual Color Package
C8 P Power LED Package (HB)
P1 P 1608 C/LED PCB Package T=0.4mm
S11 D 3810 Side View LED, T=0.8mm
S12 D 3810 Side View LED, T=0.6mm
S21 N 4011 Side View LED, T=0.8mm
S22 N 4011 Side View LED, T=0.6mm
S31 D 5508 Side View LED, T=0.8mm
S32 D 5506 Side View LED, T=0.6mm
T2 D 5450 Flat Type LED, T=0.9mm
T3 D 5450 Flat Type LED, T=1.3mm
T4 D 5450 Flat Type LED, T=1.3mm (2nd Ver.)
PM80 D 8080 Metal Power Package
PD13 D 1314 Dragon EYE Power Package
N : New ProductP : ProductD : Develop Product
PART NO. : PCL - □XX X□ □ □ □ □ □ □
(1) (2) (3) (4) (5) (6) (7) (8) (9)
B C SB G Y O A R
Blue Cyan Sky Blue Green Yellow Orange Amber Red
CW WW PW YG D RGB I
Cool White Warm White Pink White Y-Green Dual R, G, B Infrared
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9. Reliability
(1) Test items and results
(2) Criteria for judging the damage
Item Symbol Test ConditionsCriteria for Judgment
Min. Max.
Forward VoltageReverse Current
Luminous Intensity
VFIRIV
IF=60mAVR=5V
IF=60mA
--
L.S.L.**) × 0.7
U.S.L.*) × 1.1U.S.L.*) × 2.0
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*) U.S.L. : Upper Standard Level **) L.S.L. : Lower Standard Level
Test Item StandardTest Method Test Conditions NoteNumber
of Damaged
Resistanceto Soldering Heat
(Reflow Soldering)MIL-STD-105D Tsol=260℃, 10sec.(Pre treatment 30℃, 70%, 168hrs.) 2 times 0/20
Solderability(Reflow Soldering) MIL-STD-105D Tsol=215±5℃, 3sec.
1 timeover 95% 0/20
Temperature Cycle MIL-STD-105D -40℃ ~ 25℃ ~ 100℃ ~ 25℃30min. 5min. 30min. 5min.100
cycles 0/20
High TemperatureStorage MIL-STD-105D Ta=100℃ 1000 hrs. 0/20
Humidity HeatLoad MIL-STD-105D Ta=60℃, RH=90% 1000 hrs. 0/20
Low TemperatureStorage MIL-STD-105D Ta=-40℃ 1000 hrs. 0/20
Life TestCondition 1 MIL-STD-105D Ta=25℃, IF=60mA 1000 hrs. 0/20
Life TestCondition 2 MIL-STD-105D Ta=25℃, IF=90mA 500 hrs. 0/20
High TemperatureLife Test Ta=85℃, IF=15mA 1000 hrs. 0/20
High HumidityHeat Life Test 60℃, RH=90%, IF=45mA 500 hrs. 0/20
Low TemperatureLife Test Ta=-40℃, IF=60mA 1000 hrs. 0/20
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10. Soldering Condition
(2) Recommended Reflow Soldering profile
(1) Soldering condition
Reflow soldering Hand soldering
Step Lead solder Lead free Solder Condition Spec.
Pre heating 120~150 ℃ 180~220 ℃Soldering Temp. Max 300℃
Pre heating time Max 120 sec. Max 120 sec.
Peak temp. Max 240 ℃ Max 260 ℃Soldering Time Max 3sec.
Soldering time Max 10 sec. Max 10 sec.
◈ Lead Solder ◈ Lead Free Solder
(3) Recommended Soldering pattern
(4) Soldering Cautions • Modifications should not be done after the LEDs have been soldered.
• If modifications cannot be avoided, a double-head soldering iron should be used after
checking whether the characteristics of the LEDs will not be damaged by modificationafter soldering.
• Reflow soldering, do not apply force to the package during heating.
• After soldering, do not warp the circuit board.
2.5 2.51.9
0.2
1.4
1.4
4.6
6.9
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(1) Carrier tape & Reel dimensions
11. Reel Packing Structure
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(2) Packing & Packaging
• Reel • Label
• Aluminum bag(in a Reel)
DVD : PCL-XXXXXIV : OO ~ OO mcdVf : OO ~ OO VColor Code : XXX rankLot No. : XXXXX Q’ty : OOOO eaWD : 2007 . 11 . 11
DVD : PCL-XXXXXIV : OO ~ OO mcdVf : OO ~ OO VColor Code : XXX rankQ’ty : OOOO eaLot No. : XXXXXXXXXXXX
• Inner Box • Outer Box ( in 8ea inner boxes)
DVD : PCL-XXXXXIV : OO ~ OO mcdVf : OO ~ OO VColor Code : XXX rankQ’ty : OOOO eaLot No. : XXXXXXXXXXXX
11. Reel Packing Structure
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(1) Moisture-proof Package
(3) Heat Generation
• Heat generation must be taken into design consideration when using the LEDs. The coefficient of temperature increase per input electric power is about 0.62℃/mW at the LED’s active layer.This coefficient will be affected by the heat resistance of the circuit board and by dense mounting of the LEDs.At the same time, precautions must be taken into the design of circuitry to avoid intense heat generation. Properdesigns which allow radiation of heat, etc. may be needed.
• The operating current should be decided after considering the ambient maximum temperature when the LEDs
are illuminating.
(4) Static Electricity• Static Electricity and surge damages the LEDs.
It is recommended to use a wrist band or anti-electrostatic glove when handling the LEDs.
• All devices, equipment and machinery must be properly grounded.
• When inspecting own final products on which LEDs were mounted, it is recommended to check also whether
the mounted LEDs are damaged by static electricity or not. It is easy to find static-damaged LEDs by lightemission test at lower current (below 1 mA is recommended).
• Damaged LEDs will show some unusual characteristics such as leak current remarkably increases, starting
forward voltage becomes lower, or the LEDs get unlighted at the low current.
• Storage Condition- Before opening the package : The LEDs should be kept at 5~30℃, 65%RH or less.- After opening the package : The LEDs should be kept at 5~30℃, 30%RH or less.
• The LEDs should be soldered within 168 hours(7days) after opening the package.
• If unused LEDs remain, they should be stored in moisture proof package, such as sealed containers with package
of moisture absorbent material (silica gel). It is also recommended to return the LEDs to the original moistureproof bag and to reseal the moisture proof bag again
• If the moisture absorbent material (silica gel) has faded away or the LEDs have exceeded the storage time ,
baking treatment should be performed using the following conditions- Baking treatment : more than 24 hours at 65 ± 5℃
12. Precaution for Use
• When moisture is absorbed into the LEDs it may vaporize and expand during soldering.There is a possibility that this can cause the exfoliation of the contacts and the damage the optical characteristics
of the LEDs. For this reason, the moisture proof package is used to keep moisture to a minimum in the package.
• The Moisture proof package is made of an aluminum moisture proof bag. A package of a moisture absorbent
material (Silica gel) is inserted into the aluminum moisture proof bag.
(2) Storage
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(5) Cleaning
• Use Isopropyl Alcohol as a solvent for cleaning the LEDs. Using other solvents may dissolve the LED package and the epoxy. Caution is needed.Ultrasonic cleaning of the LEDs should not be done.
(6) Others
• Care must be taken to ensure that the reverse voltage will not exceed the absolute maximum rating when using LEDs with matrix drive.
• The electrode sections are plated with silver. Those will become discolored by contact with corroded gas etc.
Precautions must be taken to maintain a clean storing atmosphere.
• The LEDs light output is strong enough to injure human eyes. Precautions must be taken to prevent looking
directly at the LEDs with unaided eyes for more than a few seconds.
• These LEDs described in this brochure are intended to be used for ordinary electronic equipment (such as
office equipment, communications equipment, measurement instruments and household appliance). Consult POWERLIGHTEC’s sales staff in advance for information on the applications in which exceptional quality and reliability are required, particularly when the failure or malfunction of the LEDs may directly jeopardize life or health.(such as airplanes, aerospace, automobiles, traffic control equipment, life support systems and safety devices)
• User shall not reverse engineer by disassembling or analysis of the LEDs without having the prior written
consent of POWERLIGHTEC. When defective LEDs are found, User shall inform to POWERLIGHTEC directly before disassembling or analysis.
• The formal specifications must be exchanged and signed by both parties before large volume purchase begins.
• The appearance and specifications of the product may be modified for improvement without notice.
12. Precaution for Use
슬라이드 번호 1슬라이드 번호 2슬라이드 번호 3슬라이드 번호 4슬라이드 번호 5슬라이드 번호 6슬라이드 번호 7슬라이드 번호 8슬라이드 번호 9슬라이드 번호 10슬라이드 번호 11슬라이드 번호 12슬라이드 번호 13슬라이드 번호 14슬라이드 번호 15슬라이드 번호 16슬라이드 번호 17슬라이드 번호 18슬라이드 번호 19슬라이드 번호 20