Standard POB – TUD7MF1B
Deep UV LED - 275nm
Standard POB series
TUD7MF1B
RoHS
Product Brief
Description
Features and Benefits
TUD7MF1B is a small UV module with peak
emission wavelengths from 270nm to 280nm.
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The LED is encased in a ceramic package
with a UV-transparent optical window.
The attached circuit board makes this module
useful for application development requiring
adjustable device spacing, removable devices,
and small scale testing.
TUD7MF1B is designed for air and water
sterilization and tools including chemical and
biological analysis.
Key Applications
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Rev 0.0, April 18, 2019
Deep ultraviolet LED
Removable
Adjustable
Low thermal resistance
Lead-free product
RoHS compliant
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Disinfection
Fluorescent spectroscopy
Chemical and biological analysis
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Standard POB – TUD7MF1B
Table of Contents
Index
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Product Brief
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Table of Contents
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Performance Characteristics
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Characteristics Graph
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Mechanical Dimensions
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Precaution for Use
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Company Information
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Standard POB – TUD7MF1B
Performance Characteristics
Table 1. Electro - Optical characteristic at 150mA
(Ta=25℃, RH=30%)
Parameter
Symbol
Value
Unit
Peak Wavelength [1]
λp
275
nm
Optical Output Power [2]
Φe[3]
11.5
mW
Forward Voltage [4]
VF
6.0
V
Spectrum Half Width
Δλ
11
nm
View Angle
2Θ1/2
125
deg.
Thermal Resistance (J to S) [5]
RθJ-S
31.0
ºC/W
Table 2. Absolute Maximum Rating
Value
Parameter
Symbol
Forward Current
Operating Temperature
[7]
Storage Temperature [7]
Unit
Min.
Typ.
Max.
IF
-
-
200
mA
Topr
- 30
-
60
ºC
Tstg
- 40
-
100
ºC
Notes :
1. Peak wavelength measurement tolerance: ± 3 nm
2. Optical Output Power measurement tolerance: ± 10%
3. Φe is the Optical Output Power as measured with an integrated sphere
4. Forward voltage measurement tolerance: ± 3%
5. RθJ-S is the thermal resistance between chip junction and solder point
6. Exposure to the absolute maximum rated conditions may affect device reliability
7. At extreme temperatures - extra care must be taken to keep devices free from moisture
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Standard POB – TUD7MF1B
Characteristics Graph
Fig 1. Spectrum, Ta=25℃, IF=150mA
110
100
Relative Spectral Power (%)
90
80
70
60
50
40
30
20
10
0
230
240
250
260
270
280
290
300
310
320
Wavelength (nm)
Fig 2. Forward Current vs. Forward Voltage, Ta=25℃
200
175
150
Current (mA)
125
100
75
50
25
0
5.0
5.5
6.0
6.5
7.0
Voltage (V)
Rev 0.0, April 18, 2019
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Standard POB – TUD7MF1B
Characteristics Graph
Fig 3. Relative Optical Output Power vs. Forward Current, Ta=25℃
Relative Optical Output Power (%)
150
125
100
75
50
25
0
0
25
50
75
100
125
150
175
200
150
175
200
Current (mA)
Fig 4. Peak Wavelength vs. Forward Current, Ta=25℃
280
279
278
Wavelength (nm)
277
276
275
274
273
272
271
270
0
25
50
75
100
125
Current (mA)
Rev 0.0, April 18, 2019
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Standard POB – TUD7MF1B
Characteristics Graph
Fig 5. Relative Optical Output Power vs. Solder Point Temperature, IF=150mA
110
Relative Optical Output Power (%)
100
90
80
70
60
50
40
30
20
10
0
20
30
40
50
60
70
80
90
Tsp (C)
Fig 6. Peak Wavelength vs. Solder Point Temperature, IF=150mA
280
279
278
Wavelength(nm)
277
276
275
274
273
272
271
270
20
30
40
50
60
70
80
90
Tsp(C)
Rev 0.0, April 18, 2019
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Standard POB – TUD7MF1B
Characteristics Graph
Fig 7. Forward Voltage vs Solder Point Temperature, IF=150mA
7.0
Forward Voltage
6.5
6.0
5.5
5.0
4.5
30
40
50
60
Tsp(C)
Fig 8. Typical Spatial Distribution, IF=150mA
Angle [deg.]
-20
1.0
0
-10
Relative Intensity
-30
20
30
-40
0.8
10
40
-50
50
0.6
-60
0.4
60
-70
70
0.2
-80
80
0.0
-90
90
Rev 0.0, April 18, 2019
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Standard POB – TUD7MF1B
Mechanical Dimensions
Notes :
[1] All dimensions are in millimeters
[2] Not to scale
[3] Undefined tolerances are ±0.2mm
Rev 0.0, April 18, 2019
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Standard POB – TUD7MF1B
Precaution for Use
A. UV Light
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These devices are ultraviolet LEDs. During operation, the LED emits high intensity
ultraviolet (UV) light, which is harmful to skin and eyes. Do not look directly into the UV
light and wear protective equipment during operation.
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UV light is hazardous to skin and may cause cancer. Avoid exposure to UV light when
LED is operational.
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Precautions must be taken to avoid looking directly at the UV light without the use of UV
light protective glasses. Do not look directly at the front of the LED or at the LED’s lens
when LED is operational.
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Attach the following warning labels on products/systems that use UV LEDs.
B. Static Electricity
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Electrostatic discharge (ESD) is the defined as the release of static electricity when two
objects come into contact. While most ESD events are considered harmless, it can be an
expensive problem in many industrial environments during production and storage. The
damage from ESD to an LEDs may cause the product to demonstrate unusual
characteristics such as:
- Increase in reverse leakage current lowered turn-on voltage
- Abnormal emissions from the LED at low current
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The following recommendations are suggested to help minimize the potential for an ESD
event.
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One or more recommended work area suggestions:
- Ionizing fan setup
- ESD table/shelf mat made of conductive materials
- ESD safe storage containers
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One or more personnel suggestion options:
- Antistatic wrist-strap
- Antistatic material shoes
- Antistatic clothes
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Environmental controls:
- Humidity control (ESD gets worse in a dry environment)
Rev 0.0, April 18, 2019
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Standard POB – TUD7MF1B
Precaution for Use
C. Operating Conditions
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In order to ensure the correct functioning of these LEDs, compliance to the maximum
electrical specifications is paramount. These LEDs are particularly sensitive to any
current value that exceeds the absolute maximum rating of the product. Any applied
current in excess of the maximum specification will cause damage and possible complete
failure of the product.
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The current flowing in a LED is an exponential function of the voltage across it. A small
change in voltage can produce a very large change in current and lead to complete
failure of the LED. The use of current regulated drive circuits are recommended for these
products.
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Any attempt to drive these UV LEDs with a voltage source instead of a current
source will cause damage and possible complete failure of the product.
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These devices are not designed to be used under negative bias.
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This device is not to be used in any type of fluid such as water, oil, organic solvent, etc.
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These LEDs are susceptible to heat generation. Use care to design end product with
adequate thermal management to ensure that LEDs do not exceed maximum
recommended temperatures. Operating LEDs at temperatures in excess of specification
will result in damage and possible complete failure of the product. When the LEDs are in
operation the maximum current should be decided after measuring the package
temperature.
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The driving circuit must be designed to allow forward voltage only when it is ON or OFF.
If the reverse voltage is applied to LED, migration can be generated resulting in LED
damage.
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EOS (Electrical Over Stress) – EOS is defined as damage that may occur when an
electronic device is subjected to a current or voltage that is beyond the maximum
specification limits of the device. The effects from an EOS event can be noticed through
product performance like:
o Changes to the performance of the LED package (If the damage is around the
bond pad area and since the package is completely encapsulated the package
may turn on but flicker or show severe performance degradation.)
o Changes to the light output of the luminaire from component failure
o Components on the board not operating at determined drive power
o Failure of performance from an entire fixture due to changes in circuit voltage
and current across total circuit causing trickle down failures.
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It is impossible to predict the failure mode of every LED exposed to electrical overstress
as the failure modes vary significantly, but there are some common signs that will
indicate an EOS event has occurred:
o Damaged may be noticed to the bond wires (appearing similar to a blown fuse)
o Damage to the bond pads located on the emission surface of the LED package
(shadowing can be noticed around the bond pads while viewing through a
microscope)
o Anomalies noticed in the encapsulation and phosphor around the bond
wires.This damage usually appears due to the thermal stress produced during
the EOS event.
Rev 0.0, April 18, 2019
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Standard POB – TUD7MF1B
Precaution for Use
C. Operating Conditions - Continued
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To help minimize the damage from an EOS event Seoul Viosys recommends utilizing:
o A surge protection circuit
o An appropriately rated over voltage protection device
o A current limiting device
D. Storage
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To avoid moisture penetration, we recommend storing UV LEDs in a dry box with a
desiccant. The recommended temperature and relative humidity are between 5ºC and
30ºC and below 50% respectively.
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LEDs must be stored properly to maintain the device. If the LEDs are stored for 3 months
or more after being shipped from SETI, a sealed container with a nitrogen atmosphere
should be used for storage.
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Replace the remained LEDs into the moisture-proof bag and reseal the bag after work to
avoid those LEDs being exposed to moisture. Prolonged exposure to moisture can
adversely affect the performance of the LEDs.
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If the package has been open for more than 168hr or the color of the desiccant changes,
components should be dried for 10-12hr at 60±5ºC.
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The conditions of resealing should be as follows: Temperature between 5 and 40ºC and
relative humidity less than 30%
E. Handling Precautions
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VOCs (Volatile organic compounds) emitted from materials used in the construction of
fixtures can penetrate the LED packages and affect LED performance and lifetime.
Knowledge of the properties of the materials selected to be used in the construction of
fixtures can help prevent these issues.
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When attaching LEDs, do not use adhesives that outgas organic vapor.
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Soldering should be done as soon as possible after opening the moisture-proof bag.
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Do not rapidly cool device after soldering.
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Do not apply mechanical force or excess vibration during the cooling process to normal
temperature after soldering.
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Components should not be mounted on warped (non coplanar) portions of a PCB.
Rev 0.0, April 18, 2019
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Standard POB – TUD7MF1B
Precaution for Use
E. Handling Precautions - Continued
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The UV LED is protected by a lens which requires careful handling
o Avoid touching glass lens parts especially with sharp tools such as tweezers
o Avoid leaving fingerprints on glass lens parts.
o When populating boards in SMT production, there are basically no restrictions
regarding the form of the pick and place nozzle, except that excessive
mechanical pressure on the surface must be prevented.
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Do not handle this product with acid or sulfur material in sealed space.
Rev 0.0, April 18, 2019
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Standard POB – TUD7MF1B
Company Information
Published by
Seoul Viosys © 2013 All Rights Reserved.
Company Information
Seoul Viosys (www.seoulviosys.com) manufactures light emitting diodes (LEDs) with a full range of
UV wavelengths from UVC to UVA (under 400nm) for Industrial Curing, Air/Water Purification,
Disinfection and Home appliance.
The company is one of the world leading UV LED supplier, holding more than 4,000 patents globally,
while offering various kinds of LED technologies and application-solutions in High power UV LED, UV
sensor, UV LED Lamp and variety of UV LED sourced Applications.
The company's broad product portfolio includes hybrid modules for unique applications such as UV
disinfection, deodorization, UV purification as well as customized modules for your Application.
Legal Disclaimer
Information in this document is provided in connection with Seoul Viosys products. With respect to
any examples or hints given herein, any typical values stated herein and/or any information regarding
the application of the device, Seoul Viosys hereby disclaims any and all warranties and liabilities of
any kind, including without limitation, warranties of non-infringement of intellectual property rights of
any third party. The appearance and specifications of the product can be changed to improve the
quality and/or performance without notice.
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