CITIZEN CLU049-1812C8-303H5R2 Citizen electronics is the first cob manufacture Datasheet

DATA SHEET
CITILED High Current COB
Standard Type
Ra90 Min. Model
CLU049-1812C8
Introduction
P 2
Performance Characteristics
P 3
Mechanical Dimensions
P 5
Characteristic Curves
P 6
Reliability
P 9
Packing Specification
P 10
Precaution
P 11
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Ref.CE-0174P-201801
Product Nomenclature
CLU049 - 18 12 C8 - 27 3 H5 R2
[1]
[2]
[1]
Product shape
[2]
Die count in series
[3]
Die count in parallel
[4]
Nominal CCT
[5]
CRI (Ra)
[3]
[4]
:
:
:
:
:
[5]
CLU049
18
12
2700K
90 Min.
1. Introduction
1-1. Product Description
CITIZEN ELECTRONICS is the first COB manufacture. Our advanced knowledge and packaging technology for many
years has excellent reliability and high quality of our products.
The new package High Current COB Type represents a new breakthrough for COB LED package. The maximum ratings
of current density has succeeded to be increased into highest level. The operating temperature range also dramatically
expanded wider ever. It will help for breaking the limits of LED luminaire design.
High Current COB Type share the same outline design and LES size as Standard Type (Ver.1~6). 3-step MacAdam
ellipse color definition at Tj=85C is available for ensuring uniform optical performance in various applications.
1-2. Features
・Mechanical Dimensions
・Package Structure
・Reference Assembly
・CRI (Ra)
・Nominal CCT
・Chromaticity Range
:
:
:
:
:
:
28 × 28 × 1.65 (mm)
Aluminum Base Chip on Board
M3 screw, Connector
90 Min.
2,700K, 3,000K, 3,500K, 4,000K
3-step MacAdam Ellipse,
the center refers to ANSI C78.377:2017.
: 0.23C/W
: 4200mA
・Thermal Resistance
・Maximum drive current
・RoHS compliant
・Better die arrangement for optics
・Wide range of luminous flux and high efficacy
・Improved lumen density compared with previous version
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2. Performance Characteristics
2-1. Electro Optical Characteristics
( Tj=85C )
Luminous flux
( lm )
CRI
Product code
Nominal
CCT
Tj85C
Ra
R9
Min.
Min.
Min.
Typ.
Tc25C*
Typ.
Efficacy Forward
( lm/W ) Current
( mA )
Typ.
Voltage
( V)
Min.
Typ.
Max.
Thermal
Resistance
Rj-c
( C/W )
CLU049-1812C8-273H5R2
2700K
90
50
7,986
9,075
9,681
123
1,440
47.2
51.4
55.6
0.23
CLU049-1812C8-303H5R2
3000K
90
50
8,309
9,442
10,072
128
1,440
47.2
51.4
55.6
0.23
CLU049-1812C8-353H5R2
3500K
90
50
8,463
9,618
10,259
130
1,440
47.2
51.4
55.6
0.23
CLU049-1812C8-403H5R2
4000K
90
50
8,477
9,634
10,277
130
1,440
47.2
51.4
55.6
0.23
Notes :
1. Citizen Electronics maintains a tolerance of ± 10% on luminous flux measurements.
2. Citizen Electronics maintains a tolerance of ± 3% on forward voltage measurements.
3. Citizen Electronics maintains a tolerance of ± 1 on Ra measurements.
* : Values of Luminous flux at Tc=25C are provided as reference only.
2-2. Absolute Maximum Ratings
Parameter
Symbol
Rating
Input Power (W)
Forward Current (mA)
Reverse Current (mA)
Operating Temperature (C)
Storage Temperature (C)
Case Temperature (C)
Junction Temperature (C)
Pi
If
Ir
Top
Tst
Tc
Tj
280.6
*1
4200
*1
1
-40 ~ +100
-40 ~ +100
130
*2
165
*3
*1. Input power and forward current are the values when the LED is used within the range of
the derating curve in this data sheet.
*2. Refer to 3. Outline drawing for Tc measurement point.
*3. D.C. Current : Tj = Tc + Rj-c × Pi
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2-3. Chromaticity Characteristics
( Rated current, Tj=85C )
Oval parameter
Color Region
3-step MacAdam ellipse
Nominal
CCT
Center Point
( x, y )
2,700K
Major Axis
a
Minor Axis
b
( 0.4578 , 0.4101 )
0.00774
0.00411
Ellipse
Rotation Angle
θ
57.28
3,000K
( 0.4339 , 0.4033 )
0.00834
0.00408
53.17
3,500K
( 0.4078 , 0.3930 )
0.00951
0.00417
52.97
4,000K
( 0.3818 , 0.3797 )
0.00939
0.00402
54.00
* Color region stay within MacAdam 3-step ellipse from the chromaticity center.
* The chromaticity center refers to ANSI C78.377:2017.
* θ is the angle between the major axis of the ellipse and the x-axis, and a and b are the major and minor semi-axes of an ellipse.
( Ref. IEC 60081:1997 AnnexD )
x-y chart CIE1931
0.45
0.40
y
2,700K
Black
Body
Locus
3,000K
3,500K
4,000K
0.35
3-step
0.30
0.30
0.35
0.40
x
0.45
0.50
Note : Citizen Electronics maintains chromaticity ( x, y ) +/-0.005
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3. Mechanical Dimensions
Unit : mm
Tolerances unless otherwise specified : +/-0.3
・Internal Circuit
Marking 1 : Serial No.
Marking 2 : AA 18 12 ** ** *
Protection
device
Code No.
CRI
Anode
Cathode
CCT
Dies count in parallel
LED device
Dies count in series
18 S 12 P
CLU0x9 series
Marking 3 : Data Matrix
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4. Characteristic Curves
4-1. Forward Current Characteristics / Temperature Characteristics
Forward Current vs. Forward Voltage
Tc=25C
Forward Current vs. Relative Luminous Flux
Tc=25C
65.0
Relative Luminous Flux [a.u.]
300%
Vf [V]
60.0
55.0
50.0
250%
200%
150%
100%
50%
0%
45.0
0
1000
2000
3000
4000
0
5000
1000
2000
If [mA]
4000
5000
If [mA]
Case Temperature vs. Forward Voltage
If=1440mA
Case Temperature vs. Relative Luminous Flux
If=1440mA
56.0
Relative Luminous Flux [a.u.]
120%
54.0
Vf [V]
3000
52.0
50.0
48.0
100%
80%
60%
40%
20%
0%
0
20
40
60
80
100 120 140
0
Tc [C]
20
40
60
80
100 120 140
Tc [C]
6
Ref.CE-0174P-201801
4-2. Optical Characteristics
Spectrum : CRI(Ra) 90 Min.
Tj=85C
4,000K
3,500K
3,000K
If=1440mA
2,700K
100%
90%
Radiative Intensity
80%
70%
60%
50%
40%
30%
20%
10%
0%
380
430
480
530
580
630
680
730
780
Wave length [nm]
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Ref.CE-0174P-201801
4-2. Optical Characteristics (continued)
Radiation Characteristic
-40°
-30°
-20°
-10°
10°
20°
30°
40°
100%
-50°
50°
80%
-60°
60%
60°
-70°
40%
70°
-80°
20%
X
80°
Y
-90°
0%
90°
4-3. Derating Characteristics
Case Temperature
vs. Allowable Forward Current
5000
If [mA]
4000
3000
2000
1000
0
0
20
40
60
80
100
120
140
Tc [C]
8
Ref.CE-0174P-201801
5. Reliability
5-1. Reliability Test
Test Item
Continuous Operation Test
Test Condition
IF=1440mA ,
Ta= 25C (with Al-fin) ×1000hrs
IF=1440mA ,
Tj=165C (with Al-fin) ×1000hrs
Low Temperature Storage Test
-40 C × 1000 hours
High Temperature Storage Test
100 C × 1000 hours
Moisture-proof Test
85 C, 85 %RH for 500 hours
-40 C × 30 minutes – 100 C × 30 minutes, 100 cycles
Thermal Shock Test
5-2. Failure Criteria
( Tc=25C )
Measuring Item
Symbol
Measuring Condition
Failure Criteria
Forward Voltage
Vf
If=1440mA
>U × 1.1
Total Luminous Flux
Φv
If=1440mA
<S × 0.85
U defines the upper limit of the specified characteristics. S defines the initial value.
Note : Measurement shall be taken between 2 hours and 24 hours, and the test pieces should be
return to the normal ambient conditions after the completion of each test.
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6. Packing Specification
6-1. Packing
An empty tray is placed on top of a 6-tier tray which contain 30 pieces each.
( Smallest packing unit : 180 pieces )
A label with product name, quantity and lot number is placed on the upper empty tray.
Tray ( Dimensions: 310 x 210 x 12 mm / Materials: Electrically conductive PS )
Unit : mm
Product : 30 pcs/tray
Example of indication label
1. TYPE
e.g. CLU049-1812C8
2. P.No. ( Customer's P/N )
3. Lot No.
CUSTOMER
TYPE
P.NO
Lot No
Q'ty
: CLU***-******-*******
: ******
: *******
: ***
e.g.
--- ( 1 )
--- ( 2 )
--- ( 3 )
--- ( 4 )
1 8 2 5 0 3 5
(a) (b)
(c)
(a) Last two digit of the year
(b) Production month
18 : Year 2018
2 : February
Note: October, November and December are designated X,Y and Z.
(c) CE's control number
4. Quantity
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Ref.CE-0174P-201801
7. Precaution
7-1. Handling with care for this product
-Both the light emitting area and white rim around the light emitting area is composed of resin materials.
Please avoid the resin area from being pressed, stressed, rubbed, come into contact with sharp metal nail
(e.g. edge of reflector part) because the function, performance and reliability of this product are negatively impacted.
-Please be aware that this product should not come into contact with any other parts while incorporating in your lighting
apparatus or your other products.
-Please be aware that careful handling is required after the attachment of lead wires to prevent the application of any load
to the connections.
-For more information, please refer to application note "Instruction Manual(COB LED Package)".
7-2. Countermeasure against static electricity
-Handling of this product needs countermeasures against static electricity because this is a semiconductor product.
-Please take adequate measures to prevent any static electricity being produced such as the wearing of a wristband or
anti-static gloves when handling this product.
-Every manufacturing facility in regard to the product (plant, equipment, machine, carrier machine and conveyance unit)
should be connected to ground and please avoid the product to be electric-charged.
-ESD sensitivity of this product is over 1000V (HBM, based on JEITA ED-4701/304).
-After assembling the LEDs into your final product(s), it is recommended to check whether the assembled LEDs are
damaged by static electricity (electrical leak phenomenon) or not.
-It is easy to find static damaged LED dies by a light-on test with the minimum current value.
7-3. Caution of product assembly
-Regarding this product assembling on the heat sink, it is recommended to use M3 screw.
It might be good for screw tightening on the heat sink to do temporary tightening and final tightening.
In addition, please don’t press with excess stress on the product.
-The condition of the product assembling on the heat sink and the control of screw tightening torque needs to be optimized
according to the specification of the heat sink.
-Roughness, unevenness and burr of surface negatively impact thermal bonding between the product and heat sink and
increase heat thermal resistance between them.
Confidence of thermally and mechanical coupling between the product and heat sink are confirmed by checking
the mounting surface and measuring the case temperature of the product.
-In order to reduce the thermal resistance at assembly, it might be good to use TIM (Thermal Interface Material) on whole
contact surface of the product.
In case of using thermal grease for the TIM, it might be good to apply uniformly on the contact surface of the product.
In case of using thermal sheet for the TIM, it might be good to make sure that the product is NOT strained by stress when
the screws are tightened for assembly.
-For more information, please refer to application note "Instruction Manual(COB LED Package)".
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Ref.CE-0174P-201801
7-4. Thermal Design
-The thermal design to draw heat away from the LED junction is most critical parameter for an LED illumination system.
High operating temperatures at the LED junction adversely affect the performance of LED’s light output and lifetime.
Therefore the LED junction temperature should not exceed the absolute maximum rating in LED illumination system.
-The LED junction temperature while operation of LED illumination system depends upon thermal resistance of internal
LED package (Rj-c), outer thermal resistances of LED package, power loss and ambient temperature. Please take both of
the thermal design specifications and ambient temperature conditions into consideration for the setting of driving
conditions.
-For more information, please refer to application note "Thermal Management", "Instruction Manual(COB LED
Package)".
7-5. Driving Current
-A constant current is recommended as an applying driving current to this product.
In the case of constant voltage driving, please connect current-limiting resistor to each products in series and control
the driving current to keep under the absolute maximum rating forward current value.
-Electrical transient might apply excess voltage, excess current and reverse voltage to the product(s).
They also affect negative impact on the product(s) therefore please make sure that no excess voltage, no excess current
and no reverse voltage is applied to the product(s) when the LED driver is turn-on and/or turn-off.
-For more information, please refer to application note "Driving", "Instruction Manual(COB LED Package)".
7-6. Lighting at a minimum current value
--A
A minimum
minimum current
mA.
current value
valueof
oflighting
lightingofofall
alldice
diceisis6015mA.
When
LEDdice
dicemay
maylook
lookdifferent
differentinintheir
their
brightnessdue
duetoto
Whena aminimum
minimum current is applied, LED
brightness
the
individual
difference
of
the
LED
element,
and
it
is
not
a
failed
product.
the individual difference of the LED element, and it is not a failed product.
7-7. Electrical Safety
-This product is designed and produced according to IEC 62031:2008
(IEC 62031:2008 LED modules for general lighting. Safety specification)
-Dielectric voltage withstand test has been conducted on this product to see any failure after applying
voltage between active pads and aluminum section of the product, and to pass at least 500V.
-Considering conformity assessment for IEC62031:2008, almost all items of the specification depend upon
your final product of LED illumination system.
Therefore, please confirm with your final product for electrical safety of your product.
As well, the products comply with the criteria of IEC62031:2008 as single LED package.
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Ref.CE-0174P-201801
7-8. Recommended soldering Condition (This product is not adaptable to reflow process.)
-For manual soldering
Please use lead-free soldering.
Soldering shall be implemented using a soldering bit at a temperature lower than 350C, and shall be
finished within 3.5 seconds for one land.
No external force shall be applied to resin part while soldering is implemented.
Next process of soldering should be carried out after the product has return to ambient temperature.
Contacts number of soldering bit should be within twice for each terminal.
* Citizen Electronics cannot guarantee if usage exceeds these recommended conditions.
Please use it after sufficient verification is carried out on your own risk if absolutely necessary.
-For more information, please refer to application note "Instruction Manual(COB LED Package)".
7-9. Eye Safety
-The International Electrical Commission (IEC) published in 2006 IEC 62471
”2006 Photobiological safety of lamps and lamp systems ” which includes LEDs within its scope.
When sorting single LEDs according to IEC 62471, almost all white LEDs can be classified
as belonging to either Exempt Group (no hazard) or Risk Group 1 (low risk).
-However, Optical characteristics of LEDs such as radiant flux, spectrum and light distribution are factors
that affect the risk group determination of the LED, and especially a high-power LED, that emits light
containing blue wavelengths,
might have properties equivalent to those of Risk Group 2 (moderate risk).
-Great care should be taken when directly viewing an LED that is driven at high current, has multiple
uses as a module or when focusing the light with optical instruments, as these actions might greatly
increase the hazard to your eyes.
-It is recommended to regard the evaluation of stand-alone LED packages as a reference
and to evaluate your final product.
7-10. This product is not designed for usage under the following conditions.
If the product might be used under the following conditions, you shall evaluate its effect and appropriate them. In places
where the product might:
-directly and indirectly get wet due to rain and/or at place with the fear.
-be damage by seawater and/or at place with the fear
-be exposed to corrosive gas (such as Cl2, H2S, NH3, SOx, NOx and so on) and/or at place with the fear.
-be exposed to dust, fluid or oil and/or at place with the fear.
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Ref.CE-0174P-201801
Precautions with regard to product use
(1) This document is provided for reference purposes only so that CITIZEN ELECTRONICS' products are used as
intended. CITIZEN ELECTRONICS neither makes warranties or representations with respect to the accuracy or
completeness of the information contained in this document nor grants any license to any intellectual property rights or
any other rights of CITIZEN ELECTRONICS or any third party with respect to the information in this document.
(2) All information included in this document such as product data, diagrams, charts, is current as of the date this
document is issued.
Such information, however, is subject to change without any prior notice.
Before purchasing or using any CITIZEN ELECTRONICS' products listed in this document, please confirm the latest
product information with a CITIZEN ELECTRONICS' sales office, and formal specifications must be exchanged and
signed by both parties prior to mass production.
(3) CITIZEN ELECTRONICS has used reasonable care in compiling the information included in this document, but
CITIZEN ELECTRONICS assumes no liability whatsoever for any damages incurred as a result of errors or omissions in
the information included in this document.
(4) Absent a written signed agreement, except as provided in the relevant terms and conditions of sale for product, and to
the maximum extent allowable by law, CITIZEN ELECTRONICS assumes no liability whatsoever, including without
limitation, indirect, consequential, special, or incidental damages or loss, including without limitation, loss of profits, loss
of opportunities, business interruption and loss of data, and disclaims any and all express or implied warranties and
conditions related to sale, use of product, or information, including warranties or conditions of merchantability, fitness for
a particular purpose, accuracy of information, or no infringement.
(5) Though CITIZEN ELECTRONICS works continually to improve products' quality and reliability, products can
malfunction or fail. Customers are responsible for complying with safety standards and for providing adequate designs and
safeguards to minimize risk and avoid situations in which a malfunction or failure of a product could cause loss of human
life, bodily injury or damage to property, including data loss or corruption.
In addition, customers are also responsible for determining the appropriateness of use of any information contained in this
document such as application cases not only with evaluating by their own but also by the entire system.
CITIZEN ELECTRONICS assumes no liability for customers' product design or applications.
(6) Please contact CITIZEN ELECTRONICS' sales office if you have any questions regarding the information contained
in this document, or if you have any other inquiries.
CITILED is a registered trademark of CITIZEN ELECTRONICS CO., LTD. Japan
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is a trademark or a registered trademark of CITIZEN ELECTRONICS CO., LTD. JAPAN.
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