TLMS1000, TLMO1000, TLMY1000
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Low Current 0603 SMD LED
FEATURES
• Smallest SMD package 0603 with exceptional
brightness 1.6 mm x 0.8 mm x 0.6 mm
(L x W x H)
• High reliability lead frame based
• Temperature range -40 °C to +100 °C
• Footprint compatible to 0603 chipled
• Wavelength 633 nm (red), 606 nm (orange),
587 nm (yellow)
18562
DESCRIPTION
• AllnGaP technology
The new 0603 LED series have been designed in the
smallest SMD package. This innovative 0603 LED
technology opens the way to
• Compatible to IR reflow soldering
• Viewing angle: Extremely wide 160°
• Grouping parameter: luminous intensity, wavelength
• Smaller products of higher performance
• Available in 8 mm tape
• More design in flexibility
• Preconditioning according to JEDEC® level 2
• Enhanced applications
• AEC-Q101 qualified
The 0603 LED is an obvious solution for small-scale, high
power products that are expected to work reliability in an
arduous environment.
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
PRODUCT GROUP AND PACKAGE DATA
APPLICATIONS
• Product group: LED
• Backlight keypads
• Package: SMD 0603
• Navigation systems
• Product series: low current
• Cellular phone displays
• Angle of half intensity: ± 80°
• Displays for industrial control systems
• Automotive features
• Miniaturized color effects
• Traffic displays
PARTS TABLE
PART
COLOR
LUMINOUS INTENSITY
WAVELENGTH
FORWARD VOLTAGE
at IF
at IF
at IF
(mcd)
(nm)
(V)
TECHNOLOGY
(mA)
(mA)
(mA)
MIN. TYP.
MAX.
MIN. TYP. MAX.
MIN. TYP. MAX.
TLMS1000-GS08 (1)
Red
1.8
4
-
2
624
628
636
2
-
1.8
2.6
2
AlInGaP
TLMS1000-GS15
Red
1.8
4
-
2
624
628
636
2
-
1.8
2.6
2
AlInGaP
TLMO1000-GS08 (1) Soft orange
3.55
7.5
-
2
600
605
609
2
-
1.8
2.6
2
AlInGaP
TLMO1000-GS15
3.55
7.5
-
2
600
605
609
2
-
1.8
2.6
2
AlInGaP
Soft orange
TLMY1000-GS08 (1)
Yellow
3.55
7.5
-
2
580
588
595
2
-
1.8
2.6
2
AlInGaP
TLMY1000-GS15
Yellow
3.55
7.5
-
2
580
588
595
2
-
1.8
2.6
2
AlInGaP
Note
(1) Will be changed from GS08 (3000 pcs per reel) to GS15 (5000 pcs per reel)
Rev. 2.3, 18-Jul-2022
Document Number: 83172
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ABSOLUTE MAXIMUM RATINGS (Tamb = 25 °C, unless otherwise specified)
TLMS1000, TLMO1000, TLMY1000
PARAMETER
TEST CONDITION
SYMBOL
VALUE
VR
12
V
Tamb ≤ 95 °C
IF
15
mA
tp ≤ 10 μs
Reverse voltage (1)
DC Forward current
Surge forward current
UNIT
IFSM
0.1
A
Power dissipation
PV
40
mW
Junction temperature
Tj
120
°C
Operating temperature range
Tamb
-40 to +100
°C
Storage temperature range
Tstg
-40 to +100
°C
Acc. Vishay spec
Tsd
260
°C
Mounted on PC board (pad size > 5 mm2)
RthJA
500
K/W
Soldering temperature
Thermal resistance junction to ambient
Note
(2) Driving the LED in reverse direction is suitable for short term application
OPTICAL AND ELECTRICAL CHARACTERISTICS (Tamb = 25 °C, unless otherwise specified)
TLMS1000, RED
PARAMETER
TEST CONDITION
SYMBOL
MIN.
TYP.
MAX.
UNIT
Luminous intensity
IF = 2 mA
IV
1.8
4
-
mcd
Dominant wavelength
IF = 2 mA
λd
624
628
636
nm
Peak wavelength
IF = 2 mA
λp
-
640
-
nm
Angle of half intensity
IF = 2 mA
ϕ
-
± 80
-
°
Forward voltage
IF = 2 mA
VF
-
1.8
2.6
V
Reverse current
VR = 6 V
IR
-
-
10
μA
VR = 0 V, f = 1 MHz
Cj
-
15
-
pF
Junction capacitance
OPTICAL AND ELECTRICAL CHARACTERISTICS (Tamb = 25 °C, unless otherwise specified)
TLMO1000, SOFT ORANGE
PARAMETER
TEST CONDITION
SYMBOL
MIN.
TYP.
MAX.
UNIT
Luminous intensity
IF = 2 mA
IV
3.55
7.5
-
mcd
Dominant wavelength
IF = 2 mA
λd
600
605
609
nm
Peak wavelength
IF = 2 mA
λp
-
610
-
nm
Angle of half intensity
IF = 2 mA
ϕ
-
± 80
-
°
Forward voltage
IF = 2 mA
VF
-
1.8
2.6
V
VR = 6 V
IR
-
-
10
μA
VR = 0 V, f = 1 MHz
Cj
-
15
-
pF
Reverse current
Junction capacitance
OPTICAL AND ELECTRICAL CHARACTERISTICS (Tamb = 25 °C, unless otherwise specified)
TLMY1000, YELLOW
PARAMETER
TEST CONDITION
SYMBOL
MIN.
TYP.
MAX.
UNIT
Luminous intensity
IF = 2 mA
IV
3.55
7.5
-
mcd
Dominant wavelength
IF = 2 mA
λd
580
588
595
nm
Peak wavelength
IF = 2 mA
λp
-
591
-
nm
Angle of half intensity
IF = 2 mA
ϕ
-
± 80
-
°
Forward voltage
IF = 2 mA
VF
-
1.8
2.6
V
VR = 6 V
IR
-
-
10
μA
VR = 0 V, f = 1 MHz
Cj
-
15
-
pF
Reverse current
Junction capacitance
Rev. 2.3, 18-Jul-2022
Document Number: 83172
2
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COLOR CLASSIFICATION
DOMINANT WAVELENGTH (nm)
GROUP
YELLOW
ORANGE
MIN.
MAX.
MIN.
MAX.
2
580
583
600
603
3
583
586
602
605
4
586
589
604
607
5
589
592
606
609
6
592
595
Note
• Wavelengths are tested at a current pulse duration of 25 ms and an accuracy of ± 1 nm
LUMINOUS INTENSITY CLASSIFICATION
LUMINOUS INTENSITY (mcd)
GROUP
MIN.
MAX.
G1
1.80
2.24
G2
2.24
2.80
H1
2.80
3.55
H2
3.55
4.50
J1
4.50
5.60
J2
5.60
7.10
K1
7.10
9.00
K2
9.00
11.20
L1
11.20
14.00
L2
14.00
18.00
Note
• Luminous intensity is tested at a current pulse duration of 25 ms and an accuracy of ± 11 %.
The above type numbers represent the order groups which include only a few brightness groups. Only one group will be shipped on each
reel (there will be no mixing of two groups on each reel).
In order to ensure availability, single brightness groups will not be orderable.
In a similar manner for colors where wavelength groups are measured and binned, single wavelength groups will be shipped in any one reel.
In order to ensure availability, single wavelength groups will not be orderable
TYPICAL CHARACTERISTICS (Tamb = 25 °C, unless otherwise specified)
2nd line
IV rel - Relative Luminous Intensity
IF - Forward Current (mA)
20
15
10
5
20°
30°
θ0°
40°
θ90°
1.0
50°
0.9
60°
0.8
70°
ϕ - Angular Displacement
2nd line
Axis0°Title10°
25
80°
0
0
20
40
60
80
100
120
Tamb - Ambient Temperature (°C)
0
1st line
2nd line
Fig. 1 - Forward Current vs. Ambient Temperature
Fig. 2 - Relative Luminous Intensity vs. Angular Displacement
Rev. 2.3, 18-Jul-2022
0.6
0.4
0.2
Document Number: 83172
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Axis Title
1.0
10000
10
0.9
1000
0.6
1st line
2nd line
2nd line
Irel - Relative Intensity
0.7
0.5
0.4
100
0.3
0.2
I F - Forward Current (mA)
red
0.8
1
0.1
0
0.1
10
1
540 560 580 600 620 640 660 680 700 720 740 760
λ - Wavelengths (nm)
2nd line
2
2.5
3
Fig. 6 - Forward Current vs. Forward Voltage
10
6
IVrel - Relative Luminous Intensity
Δ λ d - Change of Dom. Wavelength (nm)
Fig. 3 - Relative Intensity vs. Angular Displacement
red
4
2
0
-2
-4
- 20
0
20
40
60
80
red
0.6
0.4
0.2
0
- 0.2
- 0.4
- 0.6
- 0.8
-1
0.1
19135
1
1
10
IF - Forward Current (mA)
Fig. 7 - Relative Luminous Intensity vs. Forward Current
10
IF - Forward Current (mA)
Fig. 5 - Dominant Wavelength vs. Forward Current
Rev. 2.3, 18-Jul-2022
0.1
I Vrel - Relative Luminous Intensity
1
1
19129
Fig. 4 - Change of Dominant Wavelength vs.
Ambient Temperature
0.8
red
0.01
0.1
100
Tamb - Ambient Temperature (°C)
19138
λ d - Dominant Wavelength (nm)
1.5
VF - Forward Voltage (V)
19132
19142
2.4
2.2
red
2.0
1.8
1.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0
- 20
0
IF = 2 mA
20
40
60
80
100
Tamb - Ambient Temperature (°C)
Fig. 8 - Relative Luminous Intensity vs. Ambient Temperature
Document Number: 83172
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2.00
1
IF = 2 mA
red
λ d - Dominant Wavelength (nm)
V F - Forward Voltage (V)
1.95
1.90
1.85
1.80
1.75
1.70
1.65
1.60
- 20
0
20
40
60
80
0.6
0.4
0.2
0
- 0.2
- 0.4
- 0.6
- 0.8
-1
0.1
100
Tamb - Ambient Temperature (°C)
19145_1
orange
0.8
19133
Fig. 9 - Forward Voltage vs. Ambient Temperature
1
IF - Forward Current (mA)
10
Fig. 12 - Dominant Wavelength vs. Forward Current
1.2
10
orange
orange
I F - Forward Current (mA)
I rel - Relative Intensity
1.0
0.8
0.6
0.4
0.2
1
0.1
0.0
560
580
600
620
640
2
2.5
3
Fig. 13 - Forward Current vs. Forward Voltage
8
10
orange
I Vrel - Relative Luminous Intensity
Δλd - Change of Dom. Wavelength (nm)
Fig. 10 - Relative Intensity vs. Wavelength
1.5
VF - Forward Voltage (V)
19130
λ - Wavelength (nm)
9510885-1
1
660
6
4
2
0
-2
-4
-6
- 20
19136
0
20
40
60
80
100
Tamb - Ambient Temperature (°C)
Fig. 11 - Change of Dominant Wavelength vs. Ambient Temperature
Rev. 2.3, 18-Jul-2022
orange
1
0.1
0.01
0.1
19127
1
10
IF - Forward Current (mA)
Fig. 14 - Relative Luminous Intensity vs. Forward Current
Document Number: 83172
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IF = 2 mA
20
40
60
80
100
Tamb - Ambient Temperature (°C)
19139
6
4
2
0
-2
-4
-6
- 20
20
40
60
80
20
40
60
80
100
Tamb - Ambient Temperature (°C)
yellow
0.8
0.6
0.4
0.2
0
- 0.2
- 0.4
- 0.6
- 0.8
-1
0.1
100
19134
Fig. 16 - Forward Voltage vs. Ambient Temperature
0
Fig. 18 - Change of Dominant Wavelength vs.
Ambient Temperature
λ d - Dominant Wavelength (nm)
V F - Forward Voltage (V)
yellow
8
1
IF = 2 mA
Tamb - Ambient Temperature (°C)
19143_1
10
19137
Fig. 15 - Relative Luminous Intensity vs. Ambient Temperature
2.20
orange
2.15
2.10
2.05
2.00
1.95
1.90
1.85
1.80
1.75
1.70
1.65
1.60
- 20
0
Δ λ d - Change of Dom. Wavelength (nm)
I Vrel - Relative Luminous Intensity
2.4
orange
2.2
2.0
1.8
1.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0
- 20
0
Vishay Semiconductors
1
IF - Forward Current (mA)
10
Fig. 19 - Dominant Wavelength vs. Forward Current
1.2
10
yellow
IF = 20 mA
yellow
I F - Forward Current (mA)
Irel - Relative Intensity
1.0
0.8
0.6
0.4
0.2
0.0
550
9510881-3
0.1
570
590
610
630
λ - Wavelength (nm)
Fig. 17 - Relative Intensity vs. Wavelength
Rev. 2.3, 18-Jul-2022
1
1
650
19131
1.5
2
2.5
3
VF - Forward Voltage (V)
Fig. 20 - Forward Current vs. Forward Voltage
Document Number: 83172
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I Vrel- Relative Luminous Intensity
10
yellow
1
0.1
0.01
0.1
1
10
IF - Forward Current (mA)
19128
Fig. 21 - Relative Luminous Intensity vs. Forward Current
I Vrel - Relative Luminous Intensity
2.4
IF = 2 mA
yellow
2.0
1.6
1.2
0.8
0.4
0
- 20
0
20
40
60
80
100
Tamb - Ambient Temperature (°C)
19141
Fig. 22 - Relative Luminous Intensity vs. Ambient Temperature
2.2
IF = 2 mA
V F - Forward Voltage (V)
yellow
2.1
2.0
1.9
1.8
1.7
1.6
- 20
19144_1
0
20
40
60
80
100
Tamb - Ambient Temperature (°C)
Fig. 23 - Forward Voltage vs. Ambient Temperature
Rev. 2.3, 18-Jul-2022
Document Number: 83172
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REEL DIMENSIONS in millimeters
Not indicated tolerances ± 0.05
Drawing-No.: 9.800-5086.01-4
Issue: 1; 29.04.04
Material: black static dissipative
19043
GS08: MOQ = 3000 pcs on one reel
GS15: MOQ = 5000 pcs on one reel
(MOQ = minimum order quantity)
Rev. 2.3, 18-Jul-2022
Document Number: 83172
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TLMS1000, TLMO1000, TLMY1000
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0.75 ± 0.05
0.2 ± 0.02
TAPE DIMENSIONS in millimeters
1.75 ± 0.05
C
A
Polarity
Technical drawings
according to DIN
specifications
Not indicated tolerances ± 0.05
Material: Conductive black PC
4 ± 0.1
2 ± 0.05
0.95 ± 0.05
Ø 0.5 ± 0.05
1.75 ± 0.1
Direction of pulling out
4 ± 0.1
Ø 1.5 + 0.1
3.5 ± 0.05
+ 0.3
8 - 0.1
Drawing-No.: 9.700-5290.01-4
Issue: 3; 24.09.13
Rev. 2.3, 18-Jul-2022
Document Number: 83172
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PACKAGE DIMENSIONS in millimeters
Package identification
0.3
A
0.3
1.6 ± 0.1
Bare copper,
no solder joint area
not intended for soldering
C
0.8 ± 0.1
0.5
0.6 ± 0.05
No solder joint area,
not intended for soldering
Technical drawings
according to DIN
specifications
Drawing-No.: 6.541-5056.01-4
Issue: 3; 20.01.2022
Not indicated tolerances ± 0.1
Note
• Solder joints are only formed on the bottom of the component and solder filet will not be observable on the sides of the component
DRY PACKING
SOLDERING PROFILE
The reel is packed in an anti-humidity bag to protect the
devices from absorbing moisture during transportation and
storage.
IR Reflow Soldering Profile for lead (Pb)-free Soldering
Preconditioning acc. to JEDEC Level 2
300
Temperature (°C)
max. 260 °C
245 °C
255
255 °C
240 °C
217 °C
250
Aluminum bag
200
Label
max. 30 s
150
max. 100 s
max. 120 s
100
max. Ramp Up 3 °C/s
50
max. Ramp Down 6 °C/s
Reel
0
0
50
19470-4
100
150
Time (s)
200
250
300
15973
max. 2 cycles allowed
Fig. 24 - Vishay Lead (Pb)-free Reflow Soldering Profile
(acc. to J-STD-020C)
Rev. 2.3, 18-Jul-2022
Document Number: 83172
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FINAL PACKING
ESD PRECAUTION
The sealed reel is packed into a cardboard box. A secondary
cardboard box is used for shipping purposes.
Proper storage and handling procedures should be followed
to prevent ESD damage to the devices especially when they
are removed from the antistatic shielding bag. Electro-static
sensitive devices warning labels are on the packaging.
RECOMMENDED METHOD OF STORAGE
Dry box storage is recommended as soon as the aluminum
bag has been opened to prevent moisture absorption. The
following conditions should be observed, if dry boxes are
not available:
• Storage temperature 10 °C to 30 °C
• Storage humidity ≤ 60 % RH max.
After more than 1 year under these conditions moisture
content will be too high for reflow soldering.
VISHAY SEMICONDUCTORS STANDARD
BAR CODE LABEL
The Vishay Semiconductors standard bar code labels are
printed at final packing areas. The labels are on each
packing unit and contain Vishay Semiconductors specific
data.
In case of moisture absorption, the devices will recover to
the former condition by drying under the following condition:
192 h at 40 °C + 5 °C / - 0 °C and < 5 % RH (dry air/nitrogen)
or
96 h at 60 °C + 5 °C and < 5 % RH for all device containers
or
24 h at 100 °C + 5 °C not suitable for reel or tubes.
An EIA JEDEC standard JESD22-A112 level 2 label is
included on all dry bags.
17028
Example of JESD22-A112 level 2 label
Rev. 2.3, 18-Jul-2022
Document Number: 83172
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Legal Disclaimer Notice
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Disclaimer
ALL PRODUCT, PRODUCT SPECIFICATIONS AND DATA ARE SUBJECT TO CHANGE WITHOUT NOTICE TO IMPROVE
RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.
Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively,
“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other
disclosure relating to any product.
Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or
the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all
liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special,
consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular
purpose, non-infringement and merchantability.
Statements regarding the suitability of products for certain types of applications are based on Vishay's knowledge of typical
requirements that are often placed on Vishay products in generic applications. Such statements are not binding statements
about the suitability of products for a particular application. It is the customer's responsibility to validate that a particular product
with the properties described in the product specification is suitable for use in a particular application. Parameters provided in
datasheets and / or specifications may vary in different applications and performance may vary over time. All operating
parameters, including typical parameters, must be validated for each customer application by the customer's technical experts.
Product specifications do not expand or otherwise modify Vishay's terms and conditions of purchase, including but not limited
to the warranty expressed therein.
Hyperlinks included in this datasheet may direct users to third-party websites. These links are provided as a convenience and
for informational purposes only. Inclusion of these hyperlinks does not constitute an endorsement or an approval by Vishay of
any of the products, services or opinions of the corporation, organization or individual associated with the third-party website.
Vishay disclaims any and all liability and bears no responsibility for the accuracy, legality or content of the third-party website
or for that of subsequent links.
Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining
applications or for any other application in which the failure of the Vishay product could result in personal injury or death.
Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk. Please
contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.
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any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.
© 2022 VISHAY INTERTECHNOLOGY, INC. ALL RIGHTS RESERVED
Revision: 01-Jan-2022
1
Document Number: 91000