Friday, July 28, 2023

High Intensity UV LED Modules Chip 31×30mm UV LED COB DOB

 Product Details

UV LED Modules Chip, high intensity and high power, is equipped with numbers of lights.


Key Features of Customized UV LED Module :

-  Best thermally conductive substrates: thick film silver layer on aluminum nitride, or DBC (directed

bonded copper) on aluminum nitride that enable the high-power density;

-  Eutectic soldering process instead of silver epoxy for die attach, improving thermal conductivity;

-  “Known Good Die”, good brand of UV chips that have been tested reliable with good statistics;

four wavelength ranges: 360 - 370nm; 380 – 390nm; 390 – 400nm; 400 – 410nm.

-  Thermally stable and UV stable silicone for encapsulation that were selected based on extensive

experimental test data;

-  Long history on packaging UV light source with rich experience and lessons.


Part Number Specification of Replaceable UV LED Modules Chip 365-395nm :

Part number

Wavelength range (nm)

MLUV64-360

360-370

MLUV64-380

380-390

MLUV64-390

390-400

MLUV64-400

400-410


Absolute Maximum Rating of High Intensity Ultraviolet LED Chip Curing UV Ink :

DC forward current (A)

MLUV64-360

5.6 (0.7 per channel)

MLUV64-380

10.0 (1.25 per channel)

MLUV64-390

10.0 (1.25 per channel)

MLUV64-400

10.0 (1.25 per channel)

Power consumption (W)

MLUV64-360

162 (2.5W per chip)

MLUV64-380

295 (4.6W per chip)

MLUV64-390

295 (4.6W per chip)

MLUV64-400

295 (4.6W per chip

LED junction temperature (°C)

130

Operating ambient temperature (°C)

50


Mechanical Dimension of High Performance UV LED Chip :

Dimension (mm x mm x mm)

46.0 x 32.6 x 3.0

Emitting area (mm x mm)

31.7 x 30.3


High Intensity UV LED Modules Chip


Electrical Characteristics of UV LED Chip LED Module for UV Curing Systems :

8 lines, each line has 8 LED chips connected in series; 8 lines are divided in 2 groups, each group has 4 lines;

the 4 lines in each group are connected in parallel at the ends.


UV LED Lights



Forward current (A)

Typical

Maximum

MLUV64-360

5.6 (0.7 per channel)

MLUV64-380

5.6 (0.7 per channel)

10.0 (1.25 per channel)

MLUV64-390

5.6 (0.7 per channel)

10.0 (1.25 per channel)

MLUV64-400

5.6 (0.7 per channel)

10.0 (1.25 per channel)

Forward voltage range (V)

Typical

Maximum

MLUV64-360

28.8 - 32.8 (3.6 - 4.1 for a die)

MLUV64-380

27.2 - 29.2 (3.4 - 3.65 for a die)

29.2 - 32.4 (3.65 - 4.05 for a die)

MLUV64-390

27.2 - 29.2 (3.4 - 3.65 for a die)

29.2 - 32.4 (3.65 - 4.05 for a die)

MLUV64-400

27.2 - 29.2 (3.4 - 3.65 for a die)

29.2 - 32.4 (3.65 - 4.05 for a die)

Power consumption range (watt)

Typical

Maximum

MLUV64-360

160 - 186 (2.5 - 2.9 for a die)

MLUV64-380

152 - 163 (2.38 - 2.55 for a die)

294 - 326 (4.6 - 5.1 for a die)

MLUV64-390

152 - 163 (2.38 - 2.55 for a die)

294 - 326 (4.6 - 5.1 for a die)

MLUV64-400

152 - 163 (2.38 - 2.55 for a die)

294 - 326 (4.6 - 5.1 for a die)

Connector 1

Connector 2


Optical Performance of Customized UV LED Chip 365-405nm :

Part Number

Peak wavelength range

(nm), @25°C, @3.5A (0.7A

per channel, note 1

MLUV64-360

360 - 370

MLUV64-380

380 - 390

MLUV64-390

390 - 400

MLUV64-400

400 - 410

FWHM (nm)

15


Radiant flux (W), @25°C, @3.5A

(0.7A per channel)

Min.

Max.

MLUV64-360

51 (0.8W per die)

64 (1W per die)

MLUV64-380

64 (1W per die)

77 (1.2W per die)

MLUV64-390

64 (1W per die)

77 (1.2W per die)

MLUV64-400

64 (1W per die)

77 (1.2W per die)

Radiant flux (W), @25°C, @3.5A

(0.7A per channel)

Min.

Max.

MLUV64-360

74 (1.16W per die)

95 (1.48W per die)

MLUV64-380

92 (1.44 per die)

113 (1.76W per die)

MLUV64-390

92 (1.44 per die)

113 (1.76W per die)

MLUV64-400

92 (1.44 per die)

113 (1.76W per die)

Notes:  The peak wavelength is measured with an accuracy of ±1nm


Thermal Performance of Low Temperature UV Light Source Module Curing UV Coating :

Thermal Resistance (°C / W)

0.08


Cautions of Industrial Specialized UV Light Module :

UV LIGHT These devices are ultraviolet LEDs. During operation, the LED emits high intensity ultraviolet (UV) light, which is harmful to skin and eyes.

UV light is hazardous to skin and may cause cancer. Avoid exposure to UV light when LED is operational.

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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