SMJD-XD16W2P3 - Seoul Semiconductor

Z-Power LED
X10490
Technical
Data
Sheet
RoHS
Specification
Acrich2 – 17W
SMJD-2D16W2P3 (120V)
SMJD-3D16W2P3 (220V)
(For DC Analog Dimmer)
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April 2013
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Z-Power LED
X10490
Technical
Data
Sheet
RoHS
Acrich2
Acrich2 - 17W
Features
Description
(120V)
(220V)
The Acrich2 series of products are designed to be driven directly off of AC
• Connects directly to
AC line voltage
• High Power Efficiency
• High Power Factor
• Low THD
• Long Life Time
• Simple BOM
• Miniaturization
• Lead Free product
• RoHS compliant
line voltage, therefore they do not need the standard converter essential
for conventional general lighting products.
The converter or driver found in most general lighting products can limit
Applications
the overall life of the product, but with the Acrich2 series of products the
• Down light
• Factory Ceiling light
• Industrial Light
• Flush mount
life of the product can more closely be estimated from the LED itself.
This will also allow for a much smaller form factor from an overall fixture
design allowing for higher creativity in the fixture.
The modules have a high power factor which can contribute to a higher
energy savings in the end application.
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Z-Power LED
X10490
Technical
Data
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[ Contents ]
1.
Characteristics
2.
Thermal Resistance
3.
Color spectrum
4.
Power characteristics
5.
Radiation pattern
6.
Binning Structure
7.
Marking
8.
Part List
9.
Outline dimensions
10. Circuit Drawing
11. Packing
12. Cautions for use
13. Handling of silicone resin for LEDs
14. Handling with regards to static electricity
15. Storage before use
16. Guidelines for properly working with Acrich2
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April 2013
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Z-Power LED
X10490
Technical
Data
Sheet
RoHS
1. Characteristics
1-1. Electro-Optical characteristics of Acrich2 17W
Value
Parameter
Luminous Flux [2]
Correlated Color
Temperature [4]
Symbol
ФV [3]
CCT
CRI
Ra
Operating Voltage [5]
v opt
Mark
Unit
Min
Typ
Max
17a
1140
1300
1480
17b
1480
1590
1700
17c
1700
1780
-
B
5300
5600
6000
C
4700
5000
5300
E
3700
4000
4200
G
2900
3000
3200
H
2600
2700
2900
80
-
-
lm
K
-
120
V[RMS]
220
16.0
17.0
18.0
Power Dissipation
PD
Operating Frequency
Freq
50 / 60
Hz
Power Factor
PF
Over 0.95
-
View Angle
2Θ 1/2
120
deg.
Tolerance of Surge [6]
Vs
500
-
W
-
V
1-2. Absolute Maximum Ratings
Parameter
Symbol
Max. Voltage
v opt
Raged
Voltage
Value
120V
140
220V
264
Unit
V[RMS]
Power Dissipation
Pd
23.0
W
Operating Temperature
Topr
-30 ~ 85
ºC
Storage Temperature
Tstg
-40 ~ 100
ºC
ESD Sensitivity
-
±4,000V HBM
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Z-Power LED
X10490
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* Notes :
[1] At 120V and 220V RMS, Ta=25℃
[2] Acrich2 series maintain the tolerance of 10% on flux and power measurements.
[3] ФV is the total luminous flux output measured with an integrated sphere.
[4] Correlated Color Temperature is derived from the CIE 1931 Chromaticity diagram.
[5] Operating Voltage doesn't indicate the maximum voltage which customers use but means
tolerable voltage according to each country’s voltage variation rate.
It is recommended that the solder pad temperature should be below 70℃.
[6] It means surge voltage of product that can withstand. Surge value followed by the standard of
IEC61000-4-5.
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Z-Power LED
X10490
Technical
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2. Thermal Resistance
Part
Package Power
Dissipation [W]
Maximum Junction
Temp[℃]
Rθj-s
[℃/W]
Acrich2 LED
SAW8KG0B Max 0.5
125
27
Acrich2 IC
Max 1.0
125
16.4
The Acrich2 LED has a thermal resistance of 27℃/W from junction of the LED to the LED lead.
The maximum junction temperature of the Acrich2 LED package is 125℃, therefore the maximum
lead temperature Ts_max is
Ts_max = Tj_max - (Rqj-s * PD)
= 125℃ - (27℃/W * 0.5W) = 111.5℃
Although this is the maximum lead temperature, it is recommended to keep the lead temperature
under 70℃
The Acrich2 IC has a 16.4˚C/W thermal resistance from junction to the top surface.
The maximum junction temperature (Tt_max) of the IC is 125℃, therefore the maximum
temperature of the top of the IC is
Tt_max = Tj_max - (yj-t * PD)
= 125℃ - (16.4℃/W * 1.0W) = 108.6℃
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Z-Power LED
X10490
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3. Color spectrum
Relative Spectral Distribution vs. Wavelength Characteristic – G, H
1.2
Relative Spectral Power
Distribution
1
0.8
0.6
0.4
0.2
0
300
400
500
600
700
800
Wavelength[nm]
Relative Spectral Distribution vs. Wavelength Characteristic - E
1.2
Relative Spectral Power
Distribution
1
0.8
0.6
0.4
0.2
0
300
400
500
600
700
800
Wavelength[nm]
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Z-Power LED
X10490
Technical
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Relative Spectral Distribution vs. Wavelength Characteristic – B, C
1.2
Relative Spectral Power
Distribution
1
0.8
0.6
0.4
0.2
0
300
400
500
600
700
800
Wavelength[nm]
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April 2013
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Z-Power LED
X10490
Technical
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4. Power characteristic
Relative Power Distribution vs. Voltage at Ta=25℃
1.6
1.4
Relative Power
1.2
1.0
0.8
0.6
0.4
0.2
0.0
100
110
120
130
140
150
160
240
250
260
Voltage[RMS,V]
1.4
Relative Power
1.2
1.0
0.8
0.6
0.4
0.2
0.0
200
210
220
230
Voltage[RMS,V]
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April 2013
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Z-Power LED
X10490
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Relative Luminous Flux [a.u.]
Relative Luminous flux vs. Voltage at Ta=25℃
1.6
1.4
1.2
1
0.8
0.6
100
110
120
130
140
150
160
240
250
260
Relative Luminous Flux [a.u.]
Voltage[RMS,V]
1.6
1.4
1.2
1
0.8
0.6
200
210
220
230
Voltage[RMS,V]
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April 2013
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Z-Power LED
X10490
Technical
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5. Radiation Pattern
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Z-Power LED
X10490
Technical
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6. Binning Structure
0.46
0.44
2700K
2600K
2900K
3000K
3200K
0.42
G0
3700K
0.40
4000K
4200K
CIE Y
4700K
E2
5000K
C1
5300K
0.36
5600K
6000K
B0
G
G5
H4
H
H3
H5
G4
E0
0.38
G2
E1
H2
G3
H1
H0
G1
E
E3
E5
E4
C0 C3
B1 C2C
C5
B3 C4
B2 BB5
0.34
B4
0.32
McAdam 4 step
0.30
0.28
0.28
0.30
0.32
0.34
0.36
0.38
0.40
0.42
0.44
0.46
0.48
0.50
Bin code
X
Y
0.3778
0.3815
0.3753
0.3714
0.3874
0.3788
0.3906
0.3895
CIE X
Bin code
B
G
X
Y
0.3253
0.3425
0.3255
0.3350
0.3331
0.3418
0.3333
Bin code
X
Y
0.3415
0.3568
0.3409
0.3483
0.3487
0.3546
0.3498
0.3498
0.3635
0.4311
0.4071
0.4560
0.4152
0.4258
0.3952
0.4494
0.4029
0.4377
0.3994
0.4609
0.4056
0.4437
0.4116
0.4680
0.4180
C
H
E
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Z-Power LED
X10490
Technical
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7. Marking
• 13 Digits(including Blank)
130109 17a G 2 3
①
130109
17aG23
①
②
③
④
⑤
② ③④⑤
SMT Date(6 Digits) – ex)130109
Flux(3 Digits)
CCT(1 Digit)
CCT Combination No.(1 Digit)
Vf Combination No.(1 Digit)
* Marking is based on SMJD-2D16W2P3
③ CCT
② Flux
Marking
Flux[lm]
Marking
Min
Typ
Max
17a
1140
1300
1480
17b
1480
1590
1700
17c
1700
1780
-
④ CCT Combination No.
CCT[K]
Min
Typ
Max
B
5300
5600
6000
C
4700
5000
5300
E
3700
4000
4200
G
2900
3000
3200
H
2600
2700
2900
⑤ Vf Combination No.
Marking
Bin 1
Bin 2
Marking
Bin 1
Bin 2
1
0
5
1
A
A
2
5
0
2
A
B
3
1
4
3
B
A
4
4
1
4
A
C
5
2
3
5
C
A
6
3
2
6
B
B
7
B
C
8
C
B
9
C
C
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April 2013
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Z-Power LED
X10490
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8. Part List
No.
Part
Silk
Specification
Q'ty
1
PCB
-
Metal(Al) Φ100 1.6T
1
2
LED
-
SAW8KG0B
42
3
Fuse
F1
250V 1A
1
4
Varistor
V1
330V DC/250V AC
1
5
Bridge Diode
BD1
MB6S
1
6
Resistor
R1
1
6432size 91Ω 5%
7
Resistor
R2
1
8
TVS
Z1
440V 600W UNI 5%
1
9
IC
U1
DT3001B
1
10
Resistor
R3
1608size 4.32KΩ 1%(120V)
1
1608size 1.74KΩ 1%(220V)
11
Resistor
R4
1608size 1KΩ 5%
1
12
Capacitor
C1
1608size X7R 25V 1uF
1
13
Resistor
R5
1608size 3.4KΩ 1%
1
14
Resistor
R6
1608size 20KΩ 1%
1
15
Resistor
R7
3216size 0Ω (220V)
1
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Z-Power LED
X10490
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9. Outline dimensions
* Notes :
[1] All dimensions are in millimeters. (Tolerance : ±0.2)
[2] Dimensions are based on SMJD-3V16W2P3
[3] Scale : none
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Z-Power LED
X10490
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10. Circuit Drawing
Surge Protection Circuit (SPC)
SMJD-2D16W2P3 (120V)
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X10490
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SMJD-3D16W2P3 (220V)
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X10490
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11. Packing
๏ 1Box : 8 PCS per tray x Max 20 layer = Max 160 PCS (about 6.5kg)
๏ Box size( L x W x H ) = 515 x 393 x 242
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12. Cautions for use
• Please review the Acrich2 Application Note for proper protective
circuitry usage
• Please note, Acrich2 products run off of high voltage, therefore caution should be
taken when working near Acrich2 products.
• DO NOT touch any of the circuit board, components or terminals with body or
metal while circuit is active.
• Please do not add or change wires while Acrich2 circuit is active
• Long time exposure to sunlight or UV can cause the lens to discolor.
• Please do not use adhesives to attach the LED that outgas organic vapor.
• Please do not use together with the materials containing Sulfur.
• Please do not assemble in conditions of high moisture and/or oxidizing gas such
as Cl, H2S,NH3,SO2,NOX,etc.
• Please do not make any modification on module.
• Please be cautious when soldering to board so as not to create a short between
different trace patterns.
13. Handling of silicone resin for LEDs
•
•
•
•
•
•
Acrich2 series is encapsulated with silicone resin for high optical efficiency.
Please do not touch the silicone resin area with sharp objects such as
pincette(tweezers).
Finger prints on silicone resin area may affect the performance.
Please store LEDs in covered containers to prevent dust accumulation as this
may affect performance.
Excessive force more than 3000gf to the silicone lens can result in fatal or
permanent damage with LEDs.
Please do not cover the silicone resin area with any other resins such as
epoxy, urethane, etc.
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Z-Power LED
X10490
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14. Handling with regards to static electricity
• The Acrich2 products use an integrated circuit (IC) which can be damaged when
exposed to static electricity. Please handle using equipment that prevents static
electricity. Do not touch unless ESD protection is used.
• The Acrich2 product should also not be installed in end equipment without
ESD protection.
15. Storage before use
• Do not impact or place pressure on this product because even a small amount of
pressure can damage the product. The product should also not be placed in high
temperatures, high humidity or direct sunlight since the device is sensitive to
these conditions.
• When storing devices for a long period of time before usage, please following
these guidelines:
* The devices should be stored in the anti-static bag that it was shipped in from
Seoul-Semiconductor with opening.
* If the anti-static bag has been opened, re-seal preventing air and moisture from
being present in the bag.
16. Guidelines for properly working with Acrich2
• Discharge the lighting system a minimum of 2-3 times prior to working with
the module.
• Use only properly rated test equipment and tools for the rated voltage and current
of the product being tested.
• It is strongly suggested to wear rubber insulated gloves and rubber bottom shoes.
• Do not wear any conductive items (such as jewelry) which could accidentally contact
electric circuits.
• Perform several tests with power off and the lighting system unplugged.
• Faults, lightning, or switching transients can cause voltage surges in excess of the
normal ratings.
• Internal component failure can cause excessive voltages.
• Stored or residual electricity in long wire could be hazardous.
• Make sure proper discharge prior to starting work.
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April 2013
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