1#
Product Family Data Sheet Rev. 25.5 2019. 12.24
High Power LED Series
3535 Ceramic Hot Binning
LH351B
High efficacy and high quality color rendering makes
the LH351B suitable use in a broad range of applications
Featur
es & Benefits
• Operates at a maximum current of up to 1.5 A
• Uniform light distribution under any beam angle
• 80 CRI makes it well suited for most applications
• Hot binning @ 85 ºC
• Completed 10,000 hours of LM-80 testing @ 1 A, 105℃
Applications
• Indoor Lighting: Spotlight, Downlight
• Outdoor Lighting: Street Light, Tunnel Light, Security Light, Parking Lot Light
• Industrial Lighting: High Bay Light, Low Bay Light
• Consumer Lighting: Torch Light
2
Table of Contents
1. Characteristics ----------------------- 3
2. Product Code Information ----------------------- 7
3. Typical Characteristics Graphs ----------------------- 21
4. Outline Drawing & Dimension ----------------------- 23
5. Reliability Test Items & Conditions ----------------------- 24
6. Soldering Conditions ----------------------- 25
7. Tape & Reel ----------------------- 26
8. Label Structure ----------------------- 28
9. Packing Structure ----------------------- 29
10. Precautions in Handling & Use ----------------------- 31
3
1. Characteristics
a) Absolute Maximum Rating
Item Symbol Rating Unit Condition
Operating Temperature Topr -40 ~ +105 ºC Note 1)*
Storage Temperature Tstg -40 ~ +120 ºC -
LED Junction Temperature Tj 150 ºC -
Forward Current IF 1500 mA -
Peak Pulse Forward Current IFP 2000 mA Duty 1/10 pulse width 10ms
Assembly Process Temperature
260
<10
ºC
s -
ESD (HBM) - ±8 kV -
Notes:
1) Refer to the derating curve, ‘3. Typical Characteristics Graph’, for proper driving current that maintained below maximum
junction temperature.
4
b) Electro-optical Characteristics
Item Unit Nominal CCT
(K)
Condition Value
Typ.
IF (mA) Tj (°C)
Luminous Flux (Φv) lm
3000
(80 CRI)
350 25 149
350 85 136
700 85 249
1000 85 332
1500 85 446
5000
(70 CRI)
350 25 175
350 85 160
700 85 292
1000 85 391
1500 85 525
Forward Voltage (VF) V
350 25 2.86
350 85 2.75
700 85 2.89
1000 85 2.99
1500 85 3.12
Reverse Voltage
(@ 5 mA) V 350 25 14~19.5
Thermal Resistance
(junction to solder point) ºC/W 350 25 4
Beam Angle º 350 25 120
Notes:
1) Samsung maintains measurement tolerance of: luminous flux = ±7 %, forward voltage = ±0.1 V
2) Characteristics @ 25 °C are for reference only
5
c) Luminous Flux Characteristics (Tj = 85 ºC)
Nominal CCT
(K)
CRI (Ra)
Min.1)
Sorting @ 350 mA (lm) Calculated Minimum Flux2) (lm)
Flux Rank Flux Min.1) @ 700 mA @ 1000 mA @ 1500 mA
2200
70
J3
(K3)
120
(132)
217
(238)
286
(314)
386
(424)
80
G3
(H3)
100
(110)
181
(199)
238
(262)
322
(353)
2700
70
K3
(M3)
130
(143)
235
(258)
310
(340)
418
(460)
M3
(N3)
140
(153)
252
(276)
335
(366)
457
(499)
N3
(P3)
150
(164)
270
(295)
359
(392)
489
(534)
80
J3
(K3)
120
(132)
217
(238)
286
(314)
386
(424)
K3
(M3)
130
(143)
235
(258)
310
(340)
418
(460)
90
F3
(G3)
90
(99)
163
(179)
214
(236)
289
(318)
G3
(H3)
100
(110)
181
(199)
238
(262)
322
(353)
3000
70
M3
(N3)
140
(153)
252
(276)
335
(366)
457
(499)
N3
(P3)
150
(164)
270
(295)
359
(392)
489
(534)
80
J3
(K3)
120
(132)
217
(238)
286
(314)
386
(424)
K3
(M3)
130
(142)
234
(256)
311
(340)
424
(463)
M3
(N3)
140
(153)
252
(276)
335
(366)
457
(499)
90
G3
(H3)
100
(110)
181
(199)
238
(262)
322
(353)
H3
(J3)
110
(121)
199
(218)
262
(288)
354
(389)
3500
70
K3
(M3)
130
(142)
234
(256)
311
(340)
424
(463)
M3
(N3)
140
(153)
252
(276)
335
(366)
457
(499)
N3
(P3)
150
(164)
270
(295)
359
(392)
489
(534)
80
K3
(M3)
130
(142)
234
(256)
311
(340)
424
(463)
M3
(N3)
140
(153)
252
(276)
335
(366)
457
(499)
90
G3
(H3)
100
(110)
181
(199)
238
(262)
322
(353)
H3
(J3)
110
(121)
199
(218)
262
(288)
354
(389)
(value in bracket): Minimum luminous flux @ 25 °C, for reference only
Notes:
1) Samsung maintains measurement tolerance of: luminous flux = ±7 %, CRI = ±3
2) Calculated minimum flux values are for reference only
6
c) Luminous Flux Characteristics (Tj = 85 ºC)
Nominal CCT
(K)
CRI (Ra)
Min.1)
Sorting @ 350 mA (lm) Calculated Minimum Flux2) (lm)
Flux Rank Flux Min.1) @ 700 mA @ 1000 mA @ 1500 mA
4000
70
N3
(P3)
150
(164)
270
(295)
359
(392)
489
(534)
P3
(Q3)
160
(174)
288
(312)
382
(415)
518
(562)
80
K3
(M3)
130
(143)
235
(258)
310
(340)
418
(460)
M3
(N3)
140
(153)
252
(276)
335
(366)
457
(499)
90
J3
(K3)
120
(132)
217
(238)
286
(314)
386
(424)
5000
70
M3
(N3)
140
(153) 252
(276)
335
(366)
457
(499)
N3
(P3)
150
(164) 270
(295)
359
(392)
489
(534)
P3
(Q3)
160
(174) 288
(312)
382
(415)
518
(562)
Q2
(R2)
170
(184) 306
(329)
405
(437)
545
(590)
80
M3
(N3)
140
(153) 252
(276)
335
(366)
457
(499)
N3
(P3)
150
(164) 270
(295)
359
(392)
489
(534)
90 K3
(M3)
130
(142) 234
(256)
311
(340)
424
(463)
5700
70
N3
(P3)
150
(164) 270
(295)
359
(392)
489
(534)
P3
(Q3)
160
(174) 288
(312)
382
(415)
518
(562)
80 M3
(N3)
140
(153) 252
(276)
335
(366)
457
(499)
6000K 80
K3
(M3)
130
(142) 234
(256)
311
(340)
424
(463)
M3
(N3)
140
(153) 252
(276)
335
(366)
457
(499)
6500
70
N3
(P3)
150
(164) 270
(295)
359
(392)
489
(534)
P3
(Q3)
160
(174) 288
(312)
382
(415)
518
(562)
80
K3
(M3)
130
(142) 234
(256)
311
(340)
424
(463)
M3
(N3)
140
(153) 252
(276)
335
(366)
457
(499)
(value in bracket): Minimum luminous flux @ 25 °C, for reference only
Notes:
1) Samsung maintains measurement tolerance of: luminous flux = ±7 %, CRI = ±3
2) Calculated minimum flux values are for reference only
7
2. Product Code Information
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
S P H W H 2 L 3 D 3 0 E D 4 V 0 K 3
Digit PKG Information Code Specification
1 2 3 Samsung Package High Power SPH
4 5 Color WH White
6 Product Version 2
7 8 Product L3 LH351 Series
9 Lens Type D Dome lens
10 Internal Code 3
11 Not Defined 0 Default
12 CRI & Sorting Temperature
C Min. 70
D Min. 75
E Min. 80 85℃
F Min. 85
G
Min. 90
13 14 Forward Voltage (V) D 4 2.5~3.0 Bin
Code:
D2
2.5~2.8
F2
2.8~3.0
15 16 CCT (K)
Y
☆
2200 Y1, Y2, Y3, Y4, Y5, Y6, Y7, Y8, Y9, YA, YB, YC, YD, YE, YF, YG, YM
W
☆
2700
Bin
Code:
W1, W2, W3, W4, W5, W6, W7, W8, W9, WA, WB, WC, WD, WE, WF, WG, WM
V
☆
3000 V1, V2, V3, V4, V5, V6, V7, V8, V9, VA, VB, VC, VD, VE, VF, VG, VM
U
☆
3500 U1, U2, U3, U4, U5, U6, U7, U8, U9, UA, UB, UC, UD, UE, UF, UG, UM
T
☆
4000 T1, T2, T3, T4, T5, T6, T7, T8, T9, TA, TB, TC, TD, TE, TF, TG, TM
R
◇
5000 R1, R2, R3, R4
Q
◇
5700 Q1, Q2, Q3, Q4
P Q 6000 P2, Q1, P4, Q3
P
◇
6500 P1, P2, P3, P4
☆ :
"
0
" (Whole bin), "
P
" (Quarter bin), or "
M
" (MacAdam 3-step ellipse bin)
◇ : " T" (Half bin), or "N" (MacAdam 5-step ellipse bin)
17 18 Luminous Flux (lm)
F 3 90~120 F1
90~100
G 3 100~130 G1
100~110
F 3
H 3 110~140 H1
110~120
G 3
J 3 120~150 J1
120~130
H 3
K 3 130~160 K1
130~140
J 3
M 3 140~170 M1
140~150
K 3
N 3 150~180 N1
150~160
M 3
P 3 160-190 P1
160~170
N 3
Q2 170-190 Q1
170~180
R1
180
-190
Digit 17: Min. spec.
Digit 18: The number of higher bin(s) from min. spec.
e.g.: K1 = 130~140 lm, K3 = 130~160 lm
8
a) Luminous Flux Bins (IF = 350 mA, Tj = 85 ºC)
Nominal CCT
(K)
CRI (R
a
)
Min.
Product Code Flux Rank Flux Bin
Flux Range
(Φv, lm)
2200
70 SPHWH2L3D30CD4Y☆J3 J3
J1
120 ~ 130
K1
130 ~ 140
M1
140 ~ 150
80 SPHWH2L3D30ED4Y☆G3 G3
G1
100 ~ 110
H1
110 ~ 120
J1
120 ~ 130
2700
70
SPHWH2L3D30CD4W☆K3 K3
K1
130 ~ 140
M1
140 ~ 150
N1
150 ~ 160
SPHWH2L3D30CD4W☆M3 M3
M1
140 ~ 150
N1
150 ~ 160
P1
160 ~ 170
SPHWH2L3D30CD4W☆N3 N3
N1
150 ~ 160
P1
160 ~ 170
Q1
170 ~ 180
80
SPHWH2L3D30ED4W☆J3 J3
J1
120 ~ 130
K1
130 ~ 140
M1
140 ~ 150
SPHWH2L3D30ED4W☆K3 K3
K1
130 ~ 140
M1
140 ~ 150
N1
150 ~ 160
90
SPHWH2L3D30GD4W☆F3 F3
F1
90 ~ 100
G1
100 ~ 110
H1
110 ~ 120
SPHWH2L3D30GD4W☆G3 G3
G1
100 ~ 110
H1
110 ~ 120
J1
120 ~ 130
3000
70
SPHWH2L3D30CD4V☆M3 M3
M1
140 ~ 150
N1
150 ~ 160
P1
160 ~ 170
SPHWH2L3D30CD4V☆N3 N3
N1
150 ~ 160
P1
160 ~ 170
Q1
170 ~ 180
80
SPHWH2L3D30ED4V☆J3 J3
J1
120 ~ 130
K1
130 ~ 140
M1
140 ~ 150
SPHWH2L3D30ED4V☆K3 K3
K1
130 ~ 140
M1
140 ~ 150
N1
150 ~ 160
SPHWH2L3D30ED4V☆M3 M3
M1
140 ~ 150
N1
150 ~ 160
P1
160 ~ 170
"☆" can be "0" (Whole bin), "P" (Quarter bin), or "M" (MacAdam 3-step ellipse bin) of the color binning
"◇" can be "T" (Half bin), or "N" (MacAdam 5-step ellipse bin) of the color binning
9
a) Luminous Flux Bins (IF = 350 mA, Tj = 85 ºC)
Nominal CCT
(K)
CRI (R
a
)
Min.
Product Code Flux Rank Flux Bin
Flux Range
(Φv, lm)
3000 90
SPHWH2L3D30GD4V☆G3 G3
G1
100 ~ 110
H1
110 ~ 120
J1
120 ~ 130
SPHWH2L3D30GD4V☆H3 H3
H1
110 ~ 120
J1
120 ~ 130
K1
130 ~ 140
3500
70
SPHWH2L3D30CD4U☆K3 K3
K1
130 ~ 140
M1
140 ~ 150
N1
150 ~ 160
SPHWH2L3D30CD4U☆M3 M3
M1
140 ~ 150
N1
150 ~ 160
P1
160 ~ 170
SPHWH2L3D30CD4U☆N3 N3
N1
150 ~ 160
P1
160 ~ 170
Q1
170 ~ 180
80
SPHWH2L3D30ED4U☆K3 K3
K1
130 ~ 140
M1
140 ~ 150
N1
150 ~ 160
SPHWH2L3D30ED4U☆M3 M3
M1
140 ~ 150
N1
150 ~ 160
P1
160 ~ 170
90
SPHWH2L3D30GD4U☆G3 G3
G1
100 ~ 110
H1
110 ~ 120
J1
120 ~ 130
SPHWH2L3D30GD4U☆H3 H3
H1
110 ~ 120
J1
120 ~ 130
K1
130 ~ 140
4000 70
SPHWH2L3D30CD4T☆N3 N3
N1
150 ~ 160
P1
160 ~ 170
Q1
170 ~ 180
SPHWH2L3D30CD4T☆P3 P3
P1
160 ~ 170
Q1
170 ~ 180
R1
180 ~ 190
"☆" can be "0" (Whole bin), "P" (Quarter bin), or "M" (MacAdam 3-step ellipse bin) of the color binning
"◇" can be "T" (Half bin), or "N" (MacAdam 5-step ellipse bin) of the color binning
10
a) Luminous Flux Bins (IF = 350 mA, Tj = 85 ºC)
Nominal CCT
(K)
CRI (Ra)
Min. Product Code Flux Rank Flux Bin Flux Range
(Φv, lm)
4000
80
SPHWH2L3D30ED4T☆K3 K3
K1
130 ~ 140
M1
140 ~ 150
N1
150 ~ 160
SPHWH2L3D30ED4T☆M3 M3
M1
140 ~ 150
N1
150 ~ 160
P1
160 ~ 170
90
SPHWH2L3D30GD4T0J3 J3
J1
120 ~ 130
K1
130 ~ 140
M1
140 ~ 150
SPHWH2L3D30GD4TPJ3 J3
J1
120 ~ 130
K1
130 ~ 140
M1
140 ~ 150
5000
70
SPHWH2L3D30CD4R◇M3 M3
M1
140 ~ 150
N1
150 ~ 160
P1
160 ~ 170
SPHWH2L3D30CD4R◇N3 N3
N1
150 ~ 160
P1
160 ~ 170
Q1
170 ~ 180
SPHWH2L3D30CD4R◇P3 P3
P1
160 ~ 170
Q1
170 ~ 180
R1
180 ~ 190
SPHWH2L3D30CD4R◇Q2 Q2
Q1
170 ~ 180
R1
180 ~ 190
80
SPHWH2L3D30ED4R◇M3 M3
M1
140 ~ 150
N1
150 ~ 160
P1
160 ~ 170
SPHWH2L3D30ED4R◇N3 N3
N1
150 ~ 160
P1
160 ~ 170
Q1
170 ~ 180
90 SPHWH2L3D30GD4R◇K3 K3
K1
130 ~ 140
M1
140 ~ 150
N1
150 ~ 160
"☆" can be "0" (Whole bin), "P" (Quarter bin), or "M" (MacAdam 3-step ellipse bin) of the color binning
"◇" can be "T" (Half bin), or "N" (MacAdam 5-step ellipse bin) of the color binning
11
a) Luminous Flux Bins (IF = 350 mA, Tj = 85 ºC)
Nominal CCT
(K)
CRI (R
a
)
Min.
Product Code Flux Rank Flux Bin
Flux Range
(Φv, lm)
5700
70
SPHWH2L3D30CD4Q◇N3 N3
N1
150 ~ 160
P1
160 ~ 170
Q1
170 ~ 180
SPHWH2L3D30CD4Q◇P3 P3
P1
160 ~ 170
Q1
170 ~ 180
R1
180 ~ 190
80 SPHWH2L3D30ED4Q◇M3 M3
M1
140 ~ 150
N1
150 ~ 160
P1
160 ~ 170
6000 80
SPHWH2L3D30ED4PQK3 K3
K1
130 ~ 140
M1
140 ~ 150
N1
150 ~ 160
SPHWH2L3D30ED4PQM3 M3
M1
140 ~ 150
N1
150 ~ 160
P1
160 ~ 170
6500
70
SPHWH2L3D30CD4P◇N3 N3
N1
150 ~ 160
P1
160 ~ 170
Q1
170 ~ 180
SPHWH2L3D30CD4P◇P3 P3
P1
160 ~ 170
Q1
170 ~ 180
R1
180 ~ 190
80
SPHWH2L3D30ED4P◇K3 K3
K1
130 ~ 140
M1
140 ~ 150
N1
150 ~ 160
SPHWH2L3D30ED4P◇M3 M3
M1
140 ~ 150
N1
150 ~ 160
P1
160 ~ 170
"☆" can be "0" (Whole bin), "P" (Quarter bin), or "M" (MacAdam 3-step ellipse bin) of the color binning
"◇" can be "T" (Half bin), or "N" (MacAdam 5-step ellipse bin) of the color binning
12
b) Color Bins (IF = 350 mA, Tj = 85 ºC)
Nominal CCT
(K)
CRI (Ra)
Min. Product Code Color Rank Chromaticity Bins
2200
70
SPHWH2L3D30ED4Y0J3
Y0
(Whole bin)
Y1, Y2, Y3, Y4, Y5, Y6, Y7, Y8,
Y9, YA, YB, YC, YD, YE, YF, YG
SPHWH2L3D30ED4YPJ3
YP
(Quarter bin)
Y6, Y7, YA, YB
SPHWH2L3D30ED4YMJ3
YM
(MacAdam 3-step)
YM
80
SPHWH2L3D30ED4Y0G3
Y0
(Whole bin)
Y1, Y2, Y3, Y4, Y5, Y6, Y7, Y8,
Y9, YA, YB, YC, YD, YE, YF, YG
SPHWH2L3D30ED4YPG3
YP
(Quarter bin)
Y6, Y7, YA, YB
SPHWH2L3D30ED4YMG3
YM
(MacAdam 3-step)
YM
2700
70
SPHWH2L3D30CD4W0K3
W0
(Whole bin)
W1, W2, W3, W4, W5, W6, W7, W8,
W9, WA, WB, WC, WD, WE, WF, WG
SPHWH2L3D30CD4W0M3
SPHWH2L3D30CD4W0N3
SPHWH2L3D30CD4WPK3
WP
(Quarter bin) W6, W7, WA, WB
SPHWH2L3D30CD4WPM3
SPHWH2L3D30CD4WPN3
SPHWH2L3D30CD4WMK3
WM
(MacAdam 3-step) WM
SPHWH2L3D30CD4WMM3
SPHWH2L3D30CD4WMN3
80
SPHWH2L3D30ED4W0J3
W0 (Whole bin) W1, W2, W3, W4, W5, W6, W7, W8,
W9, WA, WB, WC, WD, WE, WF, WG
SPHWH2L3D30ED4W0K3
SPHWH2L3D30ED4WPJ3
WP
(Quarter bin)
W6, W7, WA, WB
SPHWH2L3D30ED4WPK3
SPHWH2L3D30ED4WMJ3
WM
(MacAdam 3-step) WM
SPHWH2L3D30ED4WMK3
90
SPHWH2L3D30GD4W0F3
W0 (Whole bin) W1, W2, W3, W4, W5, W6, W7, W8,
W9, WA, WB, WC, WD, WE, WF, WG
SPHWH2L3D30GD4W0G3
SPHWH2L3D30GD4WPF3
WP
(Quarter bin)
W6, W7, WA, WB
SPHWH2L3D30GD4WPG3
SPHWH2L3D30GD4WMF3
WM
(MacAdam 3-step) WM
SPHWH2L3D30GD4WMG3
3000
70
SPHWH2L3D30CD4V0M3
V0
(Whole bin)
V1, V2, V3, V4, V5, V6, V7, V8,
V9, VA, VB, VC, VD, VE, VF, VG
SPHWH2L3D30CD4V0N3
SPHWH2L3D30CD4VPM3
VP
(Quarter bin)
V6, V7, VA, VB
SPHWH2L3D30CD4VPN3
SPHWH2L3D30CD4VMM3
VM
(MacAdam 3-step) VM
SPHWH2L3D30CD4VMN3
80
SPHWH2L3D30ED4V0J3
V0
(Whole bin)
V1, V2, V3, V4, V5, V6, V7, V8,
V9, VA, VB, VC, VD, VE, VF, VG
SPHWH2L3D30ED4V0K3
SPHWH2L3D30ED4V0M3
SPHWH2L3D30ED4VPJ3
VP
(Quarter bin) V6, V7, VA, VB
SPHWH2L3D30ED4VPK3
SPHWH2L3D30ED4VPM3
SPHWH2L3D30ED4VMJ3
VM
(MacAdam 3-step) VM
SPHWH2L3D30ED4VMK3
SPHWH2L3D30ED4VMM3
13
b) Color Bins (IF = 350 mA, Tj = 85 ºC)
Nominal CCT
(K)
CRI (Ra)
Min. Product Code Color Rank Chromaticity Bins
3000 90
SPHWH2L3D30GD4V0G3
V0
(Whole bin)
V1, V2, V3, V4, V5, V6, V7, V8,
V9, VA, VB, VC, VD, VE, VF, VG
SPHWH2L3D30GD4V0H3
SPHWH2L3D30GD4VPG3
VP
(Quarter bin) V6, V7, VA, VB
SPHWH2L3D30GD4VPH3
SPHWH2L3D30GD4VMG3
VM
(MacAdam 3-step) VM
SPHWH2L3D30GD4VMH3
3500
70
SPHWH2L3D30CD4U0K3
U0
(Whole bin)
U1, U2, U3, U4, U5, U6, U7, U8,
U9, UA, UB, UC, UD, UE, UF, UG
SPHWH2L3D30CD4U0M3
SPHWH2L3D30CD4U0N3
SPHWH2L3D30CD4UPK3
UP
(Quarter bin) U6, U7, UA, UB
SPHWH2L3D30CD4UPM3
SPHWH2L3D30CD4UPN3
SPHWH2L3D30CD4UMK3
UM
(MacAdam 3-step) UM
SPHWH2L3D30CD4UMM3
SPHWH2L3D30CD4UMN3
80
SPHWH2L3D30ED4U0K3
U0
(Whole bin)
U1, U2, U3, U4, U5, U6, U7, U8,
U9, UA, UB, UC, UD, UE, UF, UG
SPHWH2L3D30ED4U0M3
SPHWH2L3D30ED4UPK3
UP
(Quarter bin) U6, U7, UA, UB
SPHWH2L3D30ED4UPM3
SPHWH2L3D30ED4UMK3
UM
(MacAdam 3-step) UM
SPHWH2L3D30ED4UMM3
90
SPHWH2L3D30GD4U0G3
U0
(Whole bin)
U1, U2, U3, U4, U5, U6, U7, U8,
U9, UA, UB, UC, UD, UE, UF, UG
SPHWH2L3D30GD4U0H3
SPHWH2L3D30GD4UPG3
UP
(Quarter bin) U6, U7, UA, UB
SPHWH2L3D30GD4UPH3
SPHWH2L3D30GD4UMG3
UM
(MacAdam 3-step) UM
SPHWH2L3D30GD4UMH3
4000
70
SPHWH2L3D30CD4T0N3
T0
(Whole bin)
T1, T2, T3, T4, T5, T6, T7, T8,
T9, TA, TB, TC, TD, TE, TF, TG
SPHWH2L3D30CD4T0P3
SPHWH2L3D30CD4TPN3
TP
(Quarter bin) T6, T7, TA, TB
SPHWH2L3D30CD4TPP3
SPHWH2L3D30CD4TMN3
TM
(MacAdam 3-step) TM
SPHWH2L3D30CD4TMP3
80
SPHWH2L3D30ED4T0K3
T0
(Whole bin)
T1, T2, T3, T4, T5, T6, T7, T8,
T9, TA, TB, TC, TD, TE, TF, TG
SPHWH2L3D30ED4T0M3
SPHWH2L3D30ED4TPK3
TP
(Quarter bin) T6, T7, TA, TB
SPHWH2L3D30ED4TPM3
SPHWH2L3D30ED4TMK3
TM
(MacAdam 3-step) TM
SPHWH2L3D30ED4TMM3
90
SPHWH2L3D30GD4T0J3
T0
(Whole bin)
T1, T2, T3, T4, T5, T6, T7, T8,
T9, TA, TB, TC, TD, TE, TF, TG
SPHWH2L3D30GD4TPJ3
TP
(Quarter bin)
T6, T7, TA, TB
14
b) Color Bins (IF = 350 mA, Tj = 85 ºC)
Nominal CCT
(K)
CRI (Ra)
Min. Product Code Color Rank Chromaticity Bins
5000
70
SPHWH2L3D30CD4RTM3
RT
(Half bin) R1, R2, R3, R4
SPHWH2L3D30CD4RTN3
SPHWH2L3D30CD4RTP3
SPHWH2L3D30CD4RTQ2
SPHWH2L3D30CD4RNM3
RN
(MacAdam 5-step) RN
SPHWH2L3D30CD4RNN3
SPHWH2L3D30CD4RNP3
SPHWH2L3D30CD4RNQ2
80
SPHWH2L3D30ED4RTM3
RT
(Half bin) R1, R2, R3, R4
SPHWH2L3D30ED4RTN3
SPHWH2L3D30ED4RNM3
RN
(MacAdam 5-step) RN
SPHWH2L3D30ED4RNN3
90
SPHWH2L3D30GD4RTK3
RT
(Half bin)
R1, R2, R3, R4
SPHWH2L3D30GD4RNK3
RN
(MacAdam 5-step)
RN
5700
70
SPHWH2L3D30CD4QTN3
QT
(Half bin) Q1, Q2, Q3, Q4
SPHWH2L3D30CD4QTP3
SPHWH2L3D30CD4QNN3
QN
(MacAdam 5-step) QN
SPHWH2L3D30CD4QNP3
80
SPHWH2L3D30ED4QTM3
QT
(Half bin)
Q1, Q2, Q3, Q4
SPHWH2L3D30ED4QNM3
QN
(MacAdam 5-step)
QN
6000 80
SPHWH2L3D30ED4PQK3
PQ
(Half bin) Q1, Q3, P2, P4
SPHWH2L3D30ED4PQM3
6500
70
SPHWH2L3D30CD4PTN3
PT
(Half bin) P1, P2, P3, P4
SPHWH2L3D30CD4PTP3
SPHWH2L3D30CD4PNN3
PN
(MacAdam 5-step)
PN
SPHWH2L3D30CD4PNP3
80
SPHWH2L3D30ED4PTK3
PT
(Half bin) P1, P2, P3, P4
SPHWH2L3D30ED4PTM3
SPHWH2L3D30ED4PNK3
PN
(MacAdam 5-step) PN
SPHWH2L3D30ED4PNM3
15
c) Voltage Bins (IF = 350 mA, Tj = 85 ºC)
Nominal CCT
(K)
CRI (Ra)
Min. Product Code Voltage Rank Voltage Bin Voltage Range
(V)
- - - D4
D2 2.5 ~ 2.8
F2 2.8 ~ 3.0
16
d) Chromaticity Region & Coordinates (IF = 350 mA, Tj = 85 ºC)
17
d) Chromaticity Region & Coordinates (IF = 350 mA, Tj = 85 ºC)
Region CIE x CIE y Region CIE x CIE y
Y rank (2200 K)
Y1
0.4805 0.3968
Y9
0.4925 0.4156
0.4854 0.3968 0.4976 0.4156
0.4915 0.4062 0.5038 0.4250
0.4865 0.4062 0.4984 0.4250
Y2
0.4854 0.3968
YA
0.4976 0.4156
0.4903 0.3969 0.5028 0.4156
0.4966 0.4062 0.5091 0.4249
0.4915 0.4062 0.5038 0.4250
Y3
0.4903 0.3969
YB
0.5028 0.4156
0.4952 0.3969 0.5080 0.4156
0.5016 0.4062 0.5145 0.4249
0.4966 0.4062 0.5091 0.4249
Y4
0.4952 0.3969
YC
0.5080 0.4156
0.5000 0.3969 0.5132 0.4156
0.5066 0.4062 0.5198 0.4249
0.5016 0.4062 0.5145 0.4249
Y5
0.4865 0.4062
YD
0.4984 0.4250
0.4915 0.4062 0.5038 0.4250
0.4976 0.4156 0.5099 0.4344
0.4925 0.4156 0.5044 0.4344
Y6
0.4915 0.4062
YE
0.5038 0.4250
0.4966 0.4062 0.5091 0.4249
0.5028 0.4156 0.5154 0.4343
0.4976 0.4156 0.5099 0.4344
Y7
0.4966 0.4062
YF
0.5091 0.4249
0.5016 0.4062 0.5145 0.4249
0.508 0.4156 0.5209 0.4342
0.5028 0.4156 0.5154 0.4343
Y8
0.5016 0.4062
YG
0.5145 0.4249
0.5066 0.4062 0.5198 0.4249
0.5132 0.4156 0.5264 0.4342
0.5080 0.4156 0.5209 0.4342
Region CIE x CIE y Region CIE x CIE y
W rank (2700 K)
W1
0.4373 0.3893
W9
0.4465 0.4071
0.4418 0.3981 0.4513 0.4164
0.4475 0.3994 0.4573 0.4178
0.4428 0.3906 0.4523 0.4085
W2
0.4428 0.3906
WA
0.4523 0.4085
0.4475 0.3994 0.4573 0.4178
0.4532 0.4008 0.4634 0.4193
0.4483 0.3919 0.4582 0.4099
W3
0.4483 0.3919
WB
0.4582 0.4099
0.4532 0.4008 0.4634 0.4193
0.4589 0.4021 0.4695 0.4207
0.4538 0.3931 0.4641 0.4112
W4
0.4538 0.3931
WC
0.4641 0.4112
0.4589 0.4021 0.4695 0.4207
0.4646 0.4034 0.4756 0.4221
0.4593 0.3944 0.4700 0.4126
W5
0.4418 0.3981
WD
0.4513 0.4164
0.4465 0.4071 0.4562 0.4260
0.4523 0.4085 0.4624 0.4274
0.4475 0.3994 0.4573 0.4178
W6
0.4475 0.3994
WE
0.4573 0.4178
0.4523 0.4085 0.4624 0.4274
0.4582 0.4099 0.4687 0.4289
0.4532 0.4008 0.4634 0.4193
W7
0.4532 0.4008
WF
0.4634 0.4193
0.4582 0.4099 0.4687 0.4289
0.4641 0.4112 0.4750 0.4304
0.4589 0.4021 0.4695 0.4207
W8
0.4589 0.4021
WG
0.4695 0.4207
0.4641 0.4112 0.4750 0.4304
0.4700 0.4126 0.4813 0.4319
0.4646 0.4034 0.4756 0.4221
18
d) Chromaticity Region & Coordinates
Region CIE x CIE y Region CIE x CIE y
V rank (3000 K)
V1
0.4147 0.3814
V9
0.4221 0.3984
0.4183 0.3898 0.4259 0.4073
0.4242 0.3919 0.4322 0.4096
0.4203 0.3833 0.4281 0.4006
V2
0.4203 0.3833
VA
0.4281 0.4006
0.4242 0.3919 0.4322 0.4096
0.4300 0.3939 0.4385 0.4119
0.4259 0.3853 0.4342 0.4028
V3
0.4259 0.3853
VB
0.4342 0.4028
0.4300 0.3939 0.4385 0.4119
0.4359 0.3960 0.4449 0.4141
0.4316 0.3873 0.4403 0.4049
V4
0.4316 0.3873
VC
0.4403 0.4049
0.4359 0.3960 0.4449 0.4141
0.4418 0.3981 0.4513 0.4164
0.4373 0.3893 0.4465 0.4071
V5
0.4183 0.3898
VD
0.4259 0.4073
0.4221 0.3984 0.4299 0.4165
0.4281 0.4006 0.4364 0.4188
0.4242 0.3919 0.4322 0.4096
V6
0.4242 0.3919
VE
0.4322 0.4096
0.4281 0.4006 0.4364 0.4188
0.4342 0.4028 0.4430 0.4212
0.4300 0.3939 0.4385 0.4119
V7
0.4300 0.3939
VF
0.4385 0.4119
0.4342 0.4028 0.4430 0.4212
0.4403 0.4049 0.4496 0.4236
0.4359 0.3960 0.4449 0.4141
V8
0.4359 0.3960
VG
0.4449 0.4141
0.4403 0.4049 0.4496 0.4236
0.4465 0.4071 0.4562 0.4260
0.4418 0.3981 0.4513 0.4164
Region CIE x CIE y Region CIE x CIE y
U rank (3500 K)
U1
0.3889 0.3690
U9
0.3941 0.3848
0.3915 0.3768 0.3968 0.3930
0.3981 0.3800 0.4040 0.3966
0.3953 0.3720 0.4010 0.3882
U2
0.3953 0.3720
UA
0.4010 0.3882
0.3981 0.3800 0.4040 0.3966
0.4048 0.3832 0.4113 0.4001
0.4017 0.3751 0.4080 0.3916
U3
0.4017 0.3751
UB
0.4080 0.3916
0.4048 0.3832 0.4113 0.4001
0.4116 0.3865 0.4186 0.4037
0.4082 0.3782 0.4150 0.3950
U4
0.4082 0.3782
UC
0.4150 0.3950
0.4116 0.3865 0.4186 0.4037
0.4183 0.3898 0.4259 0.4073
0.4147 0.3814 0.4221 0.3984
U5
0.3915 0.3768
UD
0.3968 0.3930
0.3941 0.3848 0.3996 0.4015
0.4010 0.3882 0.4071 0.4052
0.3981 0.3800 0.4040 0.3966
U6
0.3981 0.3800
UE
0.4040 0.3966
0.4010 0.3882 0.4071 0.4052
0.4080 0.3916 0.4146 0.4089
0.4048 0.3832 0.4113 0.4001
U7
0.4048 0.3832
UF
0.4113 0.4001
0.4080 0.3916 0.4146 0.4089
0.4150 0.3950 0.4222 0.4127
0.4116 0.3865 0.4186 0.4037
U8
0.4116 0.3865
UG
0.4186 0.4037
0.4150 0.3950 0.4222 0.4127
0.4221 0.3984 0.4299 0.4165
0.4183 0.3898 0.4259 0.4073
19
d) Chromaticity Region & Coordinates
Region CIE x CIE y Region CIE x CIE y
T rank (4000 K)
T1
0.3670 0.3578
T9
0.3702 0.3722
0.3726 0.3612 0.3763 0.3760
0.3744 0.3685 0.3782 0.3837
0.3686 0.3649 0.3719 0.3797
T2
0.3726 0.3612
TA
0.3763 0.3760
0.3783 0.3646 0.3825 0.3798
0.3804 0.3721 0.3847 0.3877
0.3744 0.3685 0.3782 0.3837
T3
0.3783 0.3646
TB
0.3825 0.3798
0.3840 0.3681 0.3887 0.3836
0.3863 0.3758 0.3912 0.3917
0.3804 0.3721 0.3847 0.3877
T4
0.3840 0.3681
TC
0.3887 0.3837
0.3898 0.3716 0.3950 0.3875
0.3924 0.3794 0.3978 0.3958
0.3863 0.3758 0.3912 0.3917
T5
0.3686 0.3649
TD
0.3719 0.3797
0.3744 0.3685 0.3782 0.3837
0.3763 0.3760 0.3802 0.3916
0.3702 0.3722 0.3736 0.3874
T6
0.3744 0.3685
TE
0.3782 0.3837
0.3804 0.3721 0.3847 0.3877
0.3825 0.3798 0.3869 0.3958
0.3763 0.3760 0.3802 0.3916
T7
0.3804 0.3721
TF
0.3847 0.3877
0.3863 0.3758 0.3912 0.3917
0.3887 0.3836 0.3937 0.4001
0.3825 0.3798 0.3869 0.3958
T8
0.3863 0.3758
TG
0.3912 0.3917
0.3924 0.3794 0.3978 0.3958
0.3950 0.3875 0.4006 0.4044
0.3887 0.3836 0.3937 0.4001
20
d) Chromaticity Region & Coordinates
Region CIE x CIE y
Region CIE x CIE y
Region CIE x CIE y
Region CIE x CIE y
Region CIE x CIE y
R rank (5000 K)
QR rank (5300 K)
Q rank (5700 K)
PQ rank (6000 K)
P rank (6500 K)
R1
0.3371 0.3490
Q2
0.3290 0.3417
Q1
0.3215 0.3350
P2
0.3144 0.3186
P1
0.3068 0.3113
0.3451 0.3554
0.3371 0.3490
0.3290 0.3417
0.3221 0.3261
0.3144 0.3186
0.344 0.3427
0.3366 0.3369
0.3290 0.330
0.3213 0.3373
0.3130 0.329
0.3366 0.3369
0.3290 0.3300
0.3222 0.3243
0.3130 0.3290
0.3048 0.3207
R2
0.3451 0.3554
R1
0.3371 0.3490
Q2
0.3290 0.3417
Q1
0.3215 0.335
P2
0.3144 0.3186
0.3533 0.3620
0.3451 0.3554
0.3371 0.3490
0.3290 0.3417
0.3221 0.3261
0.3515 0.3487
0.3440 0.3427
0.3366 0.3369
0.3290 0.3300
0.3213 0.3373
0.3440 0.3427
0.3366 0.3369
0.3290 0.3300
0.3222 0.3243
0.3130 0.3290
R3
0.3376 0.3616
Q4
0.3290 0.3538
Q3
0.3207 0.3462
P4
0.3130 0.3290
P3
0.3048 0.3207
0.3463 0.3687
0.3376 0.3616
0.3290 0.3538
0.3213 0.3373
0.3130 0.3290
0.3451 0.3554
0.3371 0.3490
0.3290 0.3417
0.3205 0.3481
0.3115 0.3391
0.3371 0.349
0.3290 0.3417
0.3215 0.3350
0.3115 0.3391
0.3028 0.3304
R4
0.3463 0.3687
R3
0.3376 0.3616
Q4
0.3290 0.3538
Q3
0.3207 0.3462
P4
0.3130 0.3290
0.3551 0.3760
0.3463 0.3687
0.3376 0.3616
0.3290 0.3538
0.3213 0.3373
0.3533 0.3620
0.3451 0.3554
0.3371 0.3490
0.3290 0.3417
0.3205 0.3481
0.3451 0.3554
0.3371 0.3490
0.3290 0.3417
0.3215 0.3350
0.3115 0.3391
e) MacAdam Ellipse (IF = 350 mA, Tj = 85 ºC)
Nom. CCT
(K)
Color
Rank Ellipse Center Rotation
Angle θ (°) a b
CIE x CIE y
2200 YM 3-step 0.5018 0.4153 53.45 0.0072 0.0040
2700 WM 3-step 0.4578 0.4101 53.70 0.0081 0.0042
3000 VM 3-step 0.4338 0.4030 53.22 0.0083 0.0041
3500 UM 3-step 0.4073 0.3917 54.00 0.0093 0.0041
4000 TM 3-step 0.3818 0.3797 53.72 0.0094 0.0040
5000 RN 5-step 0.3447 0.3553 59.62 0.0137 0.0059
5700 QN 5-step 0.3287 0.3417 59.10 0.0125 0.0053
6500 PN 5-step 0.3123 0.3282 58.57 0.0116 0.0048
Note:
Samsung maintains measurement tolerance of: Cx, Cy = ±0.005
θ
CIE x,y
21
3. Typical Characteristics Graphs
a) Spectrum Distribution (IF = 350 mA, Tj = 85 ºC)
Cool White (CRI70) Warm White (CRI80)
Warm White (CRI90)
b) Forward Current Characteristics (Tj = 85 ºC)
22
c) Temperature Characteristics (IF = 350 mA)
d) Color Shift Characteristics (IF = 350 mA, Tj = 85 ºC)
e) Derating Curve and Beam Angle Characteristics (IF = 350 mA, Tj = 25 ºC)
23
4. Outline Drawing & Dimension
Notes:
1) This LED has built-in ESD protection device(s) connected in parallel to LED chip(s).
2) The thermal pad is electrically isolated from the anode and cathode contact pads.
3) Ts point and measurement method:
① Measure the nearest point to thermal pad as shown above. If necessary, remove PSR of PCB to reach Ts point.
② All pads must be soldered to the PCB to dissipate heat properly, otherwise the LED can be damaged.
Precautions:
1) Pressure on the LEDs will influence to the reliability of the LEDs. Precautions should be taken to avoid strong pressure on the LEDs. Do
not put stress on the LEDs during heating.
2) Re-soldering should not be done after the LEDs have been soldered. If re-soldering is unavoidable, LED`s characteristics should be
carefully checked before and after such repair.
3) Do not stack assembled PCBs together. Since materials of LEDs is soft, abrasion between two PCB assembled with LED might cause
catastrophic failure of the LEDs.
• Measurement unit: mm
• Tolerance: ±0.13 mm
Recommended Soldering Pattern
Anode
Cathode
24
5. Reliability Test Items & Conditions
a) Test Items
Test Item Test Condition Test
Hour / Cycle
Room Temperature
Life Te st 25 ºC, , Maximum Rated Drive Current 1000 h
High Temperature
Life Test 85 ºC, , Maximum Rated Drive Current 1000 h
High Temperature
Humidity Life Test 85 ºC, 85 % RH, , Maximum Rated Drive Current 1000 h
Low Temperature
Life Test -40 ºC, , Maximum Rated Drive Current 1000 h
Damp Heat Cycling -10 ºC ↔ 25 ºC 95 % RH ↔ 65 ºC 95 % RH
, Maximum Rated Drive Current, 24 h / 1 cycle 10 cycles
Powered Temperature Cycle -40 ºC / 85 ºC each 20 min, 100 min transfer
power on/off each 5 min, , Maximum Rated Drive Current
100 cycles
Temperature Cycling
-45 ºC / 15 min ↔ 125 ºC / 15 min
temperature change within 5 min 500 cycles
High Temperature
Storage 120 ºC 1000 h
Low Temperature
Storage
-40 ºC 1000 h
ESD (HBM)
R
1
: 10 MΩ
R2: 1.5 kΩ
C: 100 pF
V: ±8 kV
5 times
ESD (MM)
R
1
: 10 MΩ
R2: 0
C: 200 pF
V: ±0.5 kV
5 times
Vibration Test
20~2000~20 Hz, 200 m/s
2
, sweep 4 min
X, Y, Z 3 direction, each 1 cycle 4 cycles
Mechanical Shock Test 1500 g, 0.5 ms
3 shocks each X-Y-Z axis 5 cycles
b) Criteria for Judging the Damage
Item Symbol Test Condition
(Tj = 25 ºC)
Limit
Min.
Max.
Forward Voltage VF IF = 350 mA Init. Value * 0.9 Init. Value * 1.1
Luminous Flux Φv IF = 350 mA Init. Value * 0.7 Init. Value * 1.1
25
6. Soldering Conditions
a) Reflow Conditions (Pb free)
Reflow frequency: 2 times max.
b) Manual Soldering Conditions
Not more than 5 seconds @ max. 300 ºC, under soldering iron.
26
7. Tape & Reel
a) Taping Dimension
(unit: mm)
Taping Direction
27
b) Reel Dimension
(unit: mm)
Notes:
1) Quantity: The quantity/reel is 1,000 pcs
2) Cumulative tolerance: Cumulative tolerance / 10 pitches is ±0.2 mm
3) Adhesion strength of cover tape: Adhesion strength is 0.1-0.7 N when the cover tape is turned off from the carrier tape at 10° angle to
the carrier tape
4) Packaging: P/N, Manufacturing data code no. and quantity are indicated on the aluminum packing bag
28
Bin Code
D2V1K1
SPHWH2L3D30ED4V0K3 D2V1K1
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
GLAY94001 / I001 / 1,000 pcs
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
D2V1K1
SPHWH2L3D30ED4V0K3 D2V1K1
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
①②③④⑤⑥⑦⑧⑨/Iⓐⓑⓒ/ 1,000 pcs
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
Lot Number
Product Code
8. Label Structure
a) Label Structure
Note: Denoted bin code and product code above is only an example (see description on page 7)
Bin Code:
ⓐⓑ: Forward Voltage bin (refer to page 15)
ⓒⓓ: Chromaticity bin (refer to page 16-19)
ⓔⓕ: Luminous Flux bin (refer to page 8-11)
b) Lot Number
The lot number is composed of the following characters:
①②③④⑤⑥⑦⑧⑨ / Iⓐⓑⓒ / 1,000 pcs
①, ② : Production site (GL: Tianjin, China, GB : Nanchang, China)
③ : Product state (A: Normal, B: Bulk, C: First Production, R: Reproduction, S: Sample)
④ : Year (Y: 2014, Z: 2015, A: 2016, B: 2017, C: 2018, D: 2019 …)
⑤ : Month (1~9, A, B, C)
⑥ : Day (1~9, A, B~V)
⑦⑧⑨ : Product serial number (001 ~ 999)
ⓐⓑⓒ : Reel number (001 ~ 999)
ⓐⓑⓒⓓⓔⓕ
29
D2V1K1
SPHWH2L3D30ED4V0K3 D2V1K1
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
GLAY94001 / I001 / 1,000 pcs
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
D2V1K1
SPHWH2L3D30ED4V0K3 D2V1K1
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
GLAY94001 / I001 / 8,000 pcs
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
D2V1K1
SPHWH2L3D30ED4V0K3 D2V1K1
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
GLAY94001 / I001 / 1,000 pcs
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
9. Packing Structure
a) Packing Process
Material: Paper SW(B)
Type
Size (mm)
Note
(a)
(b)
(c)
7 inch (L) 245 ± 5 220 ± 5 182 ± 5 Up to 8 reels
7 inch (S) 245 ± 5 220 ± 5 86 ± 5 Up to 4 reels
Reel
Outer Box
Aluminum Vinyl Packing Bag
(a)
(b)
(c)
30
b) Aluminum Vinyl Packing Bag
c) Silica Gel & Humidity Indicator Card inside Aluminum Vinyl Bag
D2V1K1
SPHWH2L3D30ED4V0K3 D2V1K1
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
GLAY94001 / I001 / 1,000 pcs
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
31
10. Precautions in Handling & Use
1) For over-current protection, users are recommended to apply resistors connected in series with the LEDs to mitigate sudden change
of the forward current caused by shift of forward voltage.
2) This device should not be used in any type of fluid such as water, oil, organic solvent, etc. When cleaning is required, IPA is
recommended as the cleaning agent. Some solvent-based cleaning agent may damage the silicone resins used in the device.
3) When the device is in operation, the forward current should be carefully determined considering the maximum ambient
temperature and corresponding junction temperature.
4) LEDs must be stored in a clean environment. If the LEDs are to be stored for three months or more after being shipped from
Samsung, they should be packed with a nitrogen-filled container (shelf life of sealed bags is 12 months at temperature 0~40 ºC,
0~90 % RH).
5) After storage bag is opened, device subjected to soldering, solder reflow, or other high temperature processes must be:
a. Mounted within 672 hours (28 days) at an assembly line with a condition of no more than 30 ºC / 60 % RH, or
b. Stored at <10 % RH
6) Repack unused devices with anti-moisture packing, fold to close any opening and then store in a dry place.
7) Devices require baking before mounting, if humidity card reading is >60 % at 23 ± 5 ºC.
8) Devices must be baked for 1 hour at 60 ± 5 ºC, if baking is required.
9) The LEDs are sensitive to the static electricity and surge current. It is recommended to use a wrist band or anti-electrostatic glove
when handling the LEDs. If voltage exceeding the absolute maximum rating is applied to LEDs, it may cause damage or even
destruction to LED devices. Damaged LEDs may show some unusual characteristics such as increase in leakage current, lowered
turn-on voltage, or abnormal lighting of LEDs at low current.
10) VOCs (Volatile Organic Compounds) can be generated from adhesives, flux, hardener or organic additives used in luminaires
(fixtures). Transparent LED silicone encapsulant is permeable to those chemicals and they may lead to a discoloration of
encapsulant when they exposed to heat or light. This phenomenon can cause a significant loss of light emitted (output) from the
luminaires. In order to prevent these problems, we recommend users to know the physical properties of materials used in
luminaires and they must be carefully selected.
Legal and additional information.
About Samsung Electronics Co., Ltd.
Samsung Electronics Co., Ltd. inspires the world and shapes the future with
transformative ideas and technologies, redefining the worlds of TVs, smartphones,
wearable devices, tablets, cameras, digital appliances, printers, medical
equipment, network systems and semiconductors.
We are also leading in the Internet of Things space through, among others, our
Digital Health and Smart Home initiatives. We employ 307,000 people across 84
countries. To discover more, please visit our official website at
www.samsung.com and our official blog at global.samsungtomorrow.com.
Copyright © 2016 Samsung Electronics Co., Ltd. All rights reserved.
Samsung is a registered trademark of Samsung Electronics Co., Ltd.
Specifications and designs are subject to change without notice. Non-metric
weights and measurements are approximate. All data were deemed correct
at time of creation. Samsung is not liable for errors or omissions. All brand,
product, service names and logos are trademarks and/or registered trademarks
of their respective owners and are hereby recognized and acknowledged.
Samsung Electronics Co., Ltd.
1, Samsung ro
Giheung-gu
Yongin-si, Gyeonggi-do, 17113
KOREA
www.samsungled.com
