LEDs on Metal-Core PCBs


  • UV, Visible, and IR Models Available
  • LED Mounted on Metal-Core Printed Circuit Board
  • Ideal for OEM Applications

M340D3

340 nm LED, Power Output ≥ 53 mW

M1300D2

1300 nm LED, Power Output ≥ 25 mW

M565D2

565 nm LED, Power Output ≥ 880 mW

Related Items


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Features

  • Nominal Wavelengths Ranging from 265 nm to 1650 nm
  • White, Dual-Peak, and Broadband LEDs Also Available
  • Minimum Outputs Ranging from 10 mW to 2350 mW
  • LED Mounted on Metal-Core Printed Circuit Board for Excellent Heat Management
  • Long Lifetimes (See Specs Tab for Details)

Thorlabs' LEDs on Metal-Core Printed Circuit Boards (MCPCBs) are designed to provide high-power output in a compact package. Each LED package consists of a single LED that has been soldered to an MCPCB. These LEDs are ideal for OEM or custom applications; they should not be used for household illumination.

Thorlabs uses high-thermal-conductivity MCPCB materials. The MCPCB is designed to provide good thermal management. However, the LED must still be mounted onto an appropriate heat sink using thermal paste to ensure proper operation and to maximize operating lifetime. Mounting holes are provided on the MCPCB surface for attaching the LED to a heat sink; the Ø2 mm through holes are compatible with #1 (M2) screws (not included).

The spectrum of each LED and associated data file can be viewed by clicking on the links in the table to the right. Multiple windows can be opened simultaneously in order to compare LEDs.

Thorlabs also offers mounted LEDs with an integrated heat sink, as well as collimated mounted LEDs, which are compatible with microscopes from major manufacturers. For fiber applications, we also offer fiber-coupled LEDs. For questions on choosing an appropriate LED and to discuss mounting requirements, please contact Tech Support.

Optimized Thermal Management
These LEDs possess good thermal stability properties; hence, degradation of the optical output power due to increased LED temperature is not an issue when the LED is properly mounted to a heat sink using thermal paste, thermal epoxy, or thermally conductive double-sided tape.

White Light, Dual-Peak, and Broadband LEDs
Our warm, neutral, and cold white LEDs feature broad spectra that span several hundred nanometers. The difference in appearance amongst these three LEDs can be described using the correlated color temperature, which indicates that the LEDs color appearance is similar to a black body radiator at that temperature. In general, warm white LEDs offer a spectrum similar to a tungsten source, while cold white LEDs have a stronger blue component to the spectrum; neutral white LEDs provide a more even illumination spectrum over the visible range than warm white or cold white LEDs. Cold white LEDs are more suited for fluorescence microscopy applications or cameras with white balancing, because of a higher intensity at most wavelengths compared to warm white LEDs. Neutral white LEDs are ideal for horticultural applications.

For horticultural applications requiring illumination in both red and blue portions of the spectrum, Thorlabs offers the MPRP1D2. This purple LED features dual peaks at 455 nm and 640 nm, respectively, to stimulate photosynthesis (see graph to compare the absorption peaks of photosynthesis pigments with the LED spectrum). The LED was designed to maintain the red/blue ratio of the emission spectrum over its lifetime to provide high uniformity of plant growth.

The MBB1D1 broadband LED has been designed to have relatively flat spectral emission over a wide wavelength range. Its FWHM bandwidth ranges from 500 nm to 780 nm, while the 10 dB bandwidth ranges between 470 nm and 850 nm. To view a plot of the spectrum of this broadband source, please see the table to the right.

Soldering
These LEDs have been soldered to a metal core with low thermal resistance. While this feature allows for good thermal management, it can also prevent the metal pads from reaching the appropriate temperature for soldering when the package is connected to a heat sink. To properly solder wires to the pads, first make sure that the metal core is not in contact with a heat sink or a metal surface. We recommend using a small vise or similar device to hold the MCPCB during the soldering process and wires with a minimum gauge of 24 AWG (0.25 mm2).

To solder wires to the MCPCB, first hold the copper bit of the soldering iron on one of the pads for approximately 30 seconds using a soldering temperature of about 350 °C. The soldering iron will heat the entire metal-core PCB, so do not touch the LED package until it has cooled down after the soldering process. Test the temperature by touching tin solder to the pad: the solder will melt and flow evenly over the entire pad at the correct temperature. Coat the other pads with tin solder. Now, solder the wires to the pads. Use tweezers or pliers to remove the MCPCB from the vise and place it on a heat sink or metal surface. The metal-core PCB will cool down in several seconds and is now ready for your application.

For convenient connection of the LEDs to the drivers listed on the LED Drivers tab, please order the optional CAB-LEDD1 LED connection cable below.

Driver Options and Pin Assignments
Thorlabs offers four drivers: LEDD1B, DC2200, DC4100, and DC4104 (the latter two require the DC4100-HUB). See the LED Drivers tab for compatibility information and a list of specifications. The LEDD1B is capable of providing LED modulation frequencies up to 5 kHz, while DC4100 and DC4104 can modulate the LED at a rate up to 100 kHz. The DC2200 can provide modulation at up to 250 kHz if driven by an external source. Please note that MCPCB LEDs are not compatible with the EEPROM feature of the DC2200, DC4100, and DC4104, which automatically adjusts for the current limits of our mounted LEDs. Therefore, care must be taken not to exceed the current limits of the LEDs offered on this page.

To connect the PCB to a controller, please note that the soldering pad labeled "+" is the Anode (+V), and the pad labeled "-" is the Cathode. Although it is not required to make any connections in order to operate the LED, the EEPROM IO and EEPROM GND connections can be used when any LED listed in the tables below is operated with a Thorlabs LED driver. The soldering pads on different items may be in different locations, but the labels are the same. 

Item # Color
(Click for
Spectrum
and Data)a
Nominal
Wavelengtha,b
LED Output Powera Maximum
Current
(CW)
Forward
Voltagec
Bandwidth
(FWHM)
Irradianced Electrical Power Typical
Lifetime
Viewing Angle
(Full Angle
at Half Max)
Emitter Size MCPCB
Thickness
Min Typ.
M265D2e Deep UV 265 nm 10 mW 12 mW 350 mA 6.8 V 11 nm - 2.380 W >1 000 h 130° 1 mm x 1 mm 2.5 mm
M265D3e Deep UV 265 nm 24 mW 35 mW 350 mA 6.0 V 6.8 nm 0.47 µW/mm2 2.100 W >1 000 h 120° 3.5 mm x 3.5 mm 1.6 mm
M275D2e Deep UV 275 nm 45 mW 80 mW 700 mA 7.3 V 11 nm 0.8 µW/mm2 5.100 W >1 000 h 118° 2 mm x 2 mm 1.6 mm
M285D3e Deep UV 285 nm 50 mW 70 mW 500 mA 5.9 V 13 nm 0.7 µW/mm2 2.950 W >10 000 h 120° 1 mm x 1 mm 1.6 mm
M300D3e Deep UV 300 nm 26 mW 32 mW 350 mA 8.0 V 20 nm 0.3 µW/mm2 2.800 W >10 000 h 130° 1 mm x 1 mm 1.6 mm
M325D3e Deep UV 325 nm 25 mW 35 mW 600 mA 5.2 V 12 nm 0.44 µW/mm2 (Max) 3.120 W >5 000 h 120° 1 mm x 1 mm 1.6 mm
M340D3e Deep UV 340 nm 53 mW 60 mW 700 mA 4.6 V 11 nm 2.22 µW/mm2 3.220 W >3 000 h 110° 1 mm x 1 mm 2.4 mm
M365D1e UV 365 nm 190 mWf 360 mWf 700 mA 4.4 V 7.5 nm 8.9 µW/mm2 3.080 W >10 000 h 120° 1 mm x 1 mm 1.6 mm
M365D2e UV 365 nm 1150 mWg 1400 mWg 1700 mA 4.0 V 9 nm 17.6 µW/mm2 6.800 W >10 000 h 120° 1.4 mm x 1.4 mm 2.4 mm
M375D4e UV 375 nm 1270 mW 1540 mW 1400 mA 3.6 V 9 nm 19.2 µW/mm2 5.040 W >10 000 h 130° 1 mm x 1 mm 2.4 mm
M385D1e UV 385 nm 270 mW 430 mW 700 mA 4.3 V 10 nm 11.8 µW/mm2 3.010 W >10 000 h 120° 1 mm x 1 mm 1.6 mm
M385D2e UV 385 nm 1650 mW 1830 mW 1700 mA 3.9 V 12 nm 23.3 µW/mm2 6.630 W >10 000 h 120° 1.4 mm x 1.4 mm 2.4 mm
M395D3e UV 395 nm 400 mW 535 mW 500 mA 4.5 V 16 nm 6.7 µW/mm2 2.250 W >10 000 h 126° 1 mm x 1 mm 2.4 mm
M395D4e UV 395 nm 1420 mW 2050 mW 1400 mA 4.0 V 11 nm 22. 8 µW/mm2 5.600 W >10 000 h 120° 2.5 mm x 2.5 mm 2.4 mm
M405D2e UV 405 nm 1500 mW 1700 mW 1400 mA 3.45 V 12 nm 24.6 µW/mm2 4.830 W >10 000 h 120° 1.4 mm x 1.4 mm 2.5 mm
M415D2e Violet 415 nm 1640 mW 1940 mW 2000 mA 3.15 V 14 nm 19.5 µW/mm2 6.300 W >10 000 h 138° 1.4 mm x 1.4 mm 2.4 mm
M430D2e Violet 430 nm 490 mW 600 mW 500 mA 3.8 V 15 nm 35.3 µW/mm2 1.900 W >10 000 h 22° 1 mm x 1 mm 2.4 mm
M450D3 Royal Blue 450 nm 1850 mW 2100 mW 2000 mA 3.5 V 18 nm 35.6 µW/mm2 7.000 W 1 000 h 120° 1.5 mm x 1.5 mm 1.6 mm
M455D3 Royal Blue 455 nm 1150 mW 1445 mW 1000 mA 3.25 V 18 nm 32 µW/mm2 3.250 W >100 000 h 80° 1 mm x 1 mm 1.6 mm
M470D2 Blue 470 nm 650 mW 710 mW 1000 mA 3.2 V 25 nm 21.9 µW/mm2 3.200 W 100 000 h 80° 1 mm x 1 mm 1.6 mm
M470D3 Blue 470 nm 760 mW 965 mW 1000 mA 3.2 V 26 nm 19.9 µW/mm2 3.200 W >100 000 h 80° 1 mm x 1 mm 1.6 mm
M490D3 Blue 490 nm 205 mW 240 mW 350 mA 3.8 V 26 nm 2.5 µW/mm2 1.330 W >10 000 h 128° 1 mm x 1 mm 2.4 mm
M505D2 Cyan 505 nm 400 mW 440 mW 1000 mA 3.3 V 30 nm 11.1 µW/mm2 3.300 W 100 000 h 80° 1 mm x 1 mm 1.6 mm
M505D3 Cyan 505 nm 400 mW 520 mW 1000 mA 3.5 V 37 nm 5.94 µW/mm2 3.500 W >100 000 h 130° 1 mm x 1 mm 1.6 mm
M530D3 Green 530 nm 370 mW 480 mW 1000 mA 3.6 V 35 nm 9.46 µW/mm2 3.600 W >100 000 h 80° 1 mm x 1 mm 1.6 mm
MINTD3 Mint 554 nm 650 mW 815 mW 1225 mA 3.5 V - 12.4 µW/mm2 4.300 W >10 000 h 120° 1 mm x 1 mm 2.4 mm
M565D2h Lime 565 nm 880 mW 979 mW 1000 mA 3.1 V (Max) 104 nm 11.7 µW/mm2 3.100 W 50 000 h 125° 1 mm x 1 mm 1.6 mm
M590D3 Amber 590 nm 230 mW 300 mW 1000 mA 2.5 V 15 nm 6.0 µW/mm2 2.500 W >100 000 h 80° 1 mm x 1 mm 1.6 mm
M595D3h Amber 595 nm 820 mW 1217 mW 1500 mA 3.0 V 64 nm 13.5 µW/mm2 4.500 W >50 000 h 120° 2.9 mm x 2.9 mm 2.4 mm
M617D2 Orange 617 nm 600 mW 650 mW 1000 mA 2.2 V 18 nm 15.7 µW/mm2 2.200 W 100 000 h 80° 1 mm x 1 mm 1.6 mm
M617D3 Orange 617 nm 660 mW 860 mW 1000 mA 2.6 V 16 nm 19.86 µW/mm2 2.600 W >100 000 h 80° 1 mm x 1 mm 1.6 mm
M625D3 Red 625 nm 700 mW 920 mW 1000 mA 2.5 V 17 nm 21.9 µW/mm2 2.500 W >100 000 h 80° 1 mm x 1 mm 1.6 mm
M660D2 Deep Red 660 nm 940 mW 1050 mW 1200 mA 2.6 V 20 nm 20.88 µW/mm2 3.120 W >10 000 h 120° 1.5 mm x 1.5 mm 1.6 mm
M680D2 Deep Red 680 nm 180 mW 210 mW 600 mA 2.5 V 22 nm 14.5 µW/mm2 1.500 W >10 000 h 18° 1 mm x 1 mm 2.4 mm
M700D2 Deep Red 700 nm 80 mW 125 mW 500 mA 2.7 V 20 nm 1.0 µW/mm2 1.350 W >10 000 h 128° 1 mm x 1 mm 2.4 mm
M730D3 Far Red 730 nm 540 mW 680 mW 1000 mA 2.9 V 40 nm 13.1 µW/mm2 2.300 W >10 000 h 80° 1 mm x 1 mm 1.6 mm
M780D2 IR 780 nm 200 mW 300 mW 800 mA 2.0 V 28 nm 47.3 µW/mm2 1.600 W >10 000 h 20° 1 mm x 1 mm 2.4 mm
M780D3 IR 780 nm 800 mW 950 mW 800 mA 7.8 V 30 nm 13.3 µW/mm2 6.240 W >10 000 h 120° Ø3 mm
(3 Emitters)
1.6 mm
M810D2 IR 810 nm 325 mW 375 mW 500 mA 3.6 V 25 nm 61.8 µW/mm2 1.800 W >10 000 h 20° 1 mm x 1 mm 1.6 mm
M810D3 IR 810 nm 363 mW 542 mW 1000 mA 3.55 V 32 nm 23.7 µW/mm2 3.550 W >10 000 h 80° 1 mm x 1 mm 2.4 mm
M850D2 IR 850 nm 900 mW 1100 mW 1200 mA 2.95 V 30 nm 22.9 µW/mm2 3.540 W 100 000 h 90° 1 mm x 1 mm 1.6 mm
M850D3 IR 850 nm 1400 mW 1600 mW 1500 mA 3.85 V 30 nm 19.4 µW/mm2 5.770 W >10 000 h 150° 1 mm x 1 mm 1.6 mm
M880D2 IR 880 nm 300 mW 350 mW 1000 mA 1.7 V 50 nm 5.6 µW/mm2 1.700 W >10 000 h 132° 1 mm x 1 mm 2.4 mm
M940D2 IR 940 nm 800 mW 1000 mW 1000 mA 2.75 V 37 nm 19.1 µW/mm2 2.750 W 100 000 h 90° 1 mm x 1 mm 1.6 mm
M970D3 IR 970 nm 600 mW 720 mW 1000 mA 1.9 V 60 nm 7.4 µW/mm2 1.900 W >10 000 h 130° 1 mm x 1 mm 2.4 mm
Item # Color
(Click for Spectrum
and Data)a
Nominal
Wavelengtha,b
LED Output Powera Maximum
Current
(CW)
Forward
Voltagec
Bandwidth
(FWHM)
Irradianced Electrical
Power
Typical
Lifetime
Viewing Angle
(Full Angle
at Half Max)
Emitter Size MCPCB
Thickness
Min Typ.
M1050D1 IR 1050 nm 50 mW 70 mW 700 mA 1.5 V 60 nm 1.9 µW/mm2 1.050 W >10 000 h 120° 1 mm x 1 mm 2.4 mm
M1050D3 IR 1050 nm 160 mW 210 mW 600 mA 1.4 V 37 nm 3.7 µW/mm2 840 mW >10 000 h 128° 1 mm x 1 mm 2.4 mm
M1200D2 IR 1200 nm 30 mW 35 mW 700 mA 1.4 V 80 nm 0.7 µW/mm2 0.980 W >10 000 h 134° 1 mm x 1 mm 2.4 mm
M1300D2 IR 1300 nm 25 mW 30 mW 500 mA 1.4 V 80 nm 0.6 µW/mm2 0.700 W >10 000 h 134° 1 mm x 1 mm 2.4 mm
M1450D2 IR 1450 nm 31 mW 36 mW 700 mA 1.15 V 80 nm 0.4 µW/mm2 0.805 W >10 000 h 136° 1 mm x 1 mm 2.4 mm
M1550D2 IR 1550 nm 31 mW 36 mW 1000 mA 1.35 V 102 nm 0.5 µW/mm2 1.485 W >10 000 h 136° 1 mm x 1 mm 2.4 mm
M1650D2 IR 1650 nm 13 mW 16 mW 600 mA 1.1 V 120 nm 1.2 µW/mm2 660 mW >10 000 h 20° 1 mm x 1 mm 2.4 mm
MPRP1D2h Purple 455 nm (12.5%i)
/ 640 nm
275 mW 325 mW 300 mA 3.1 V N/A 3.7 µW/mm2 930 mW >10 000 h 115° 1 mm x 2 mm 1.6 mm
MBB1D1j Broadband 470 - 850 nmk 70 mW 80 mW 500 mA 3.6 V 280 nm 12.5 µW/mm2 1.800 W >10 000 h 120° 1 mm x 1 mm 1.6 mm
MWWHD3h Warm White 3000 Kl 2000 mW 2300 mW 700 mA 11.7 V N/A 37.0 µW/mm2 8.200 W >100 000 h 125° 3.5 mm x 3.5 mm 1.6 mm
MNWHD2h Neutral White 4900 Kl 740 mW 880 mW 1225 mA 2.9 V N/A 7.7 µW/mm2 3.553 W >10 000 h 150° 1 mm x 1 mm 2.4 mm
MCWHD5h Cold White 6500 Kl 930 mW 1370 mW 1300 mA 3.3 V N/A 25.9 uW/mm2 4.290 W >100 000 h 80° 1 mm x 1 mm 1.6 mm
MCWHD4h Cold White 6500 Kl 990 mW 1430 mW 1200 mA 2.8 V N/A 25.0 µW/mm2 3.400 W 100 000 h 120° 1 mm x 1 mm 2.4 mm
MCWHD3h Cold White 6500 Kl 2350 mW 2700 mW 700 mA 11.7 V N/A 41.3 µW/mm2 8.200 W >100 000 h 125° 3.5 mm x 3.5 mm 1.6 mm
  • Due to variations in the manufacturing process and operating parameters such as temperature and current, the actual spectral output of any given LED will vary. These values were measured with the back side of the PCB at 25 °C at the maximum current, unless otherwise noted. Output plots and center wavelength specs are only intended to be used as a guideline.
  • For LEDs in the visible spectrum, the nominal wavelength indicates the wavelength at which the LED appears brightest to the human eye. The nominal wavelength for visible LEDs may not correspond to the peak wavelength as measured by a spectrograph.
  • Values are typical unless otherwise stated.
  • Irradiance is measured at a distance of 200 mm from the LED. Typical value unless otherwise noted.
  • Our 265 nm to 430 nm LEDs radiate intense UV light during operation. Precautions must be taken to prevent looking directly at the UV light and UV light protective glasses must be worn to avoid eye damage. Exposure of the skin and other body parts to the UV light should be avoided.
  • When driven with a current of 500 mA.
  • When driven with a current of 1000 mA.
  • These LEDs are phosphor-converted and may not turn off completely when modulated above 10 kHz at duty cycles below 50%.
  • Percentage of LED intensity that emits in the blue portion of the spectrum, from 400 nm to 525 nm. See spectrum graph for details.
  • The MBB1D1 LED may not turn off completely when modulated at frequencies above 1 kHz with a duty cycle of 50%, as the broadband emission is produced by optically stimulating emission from phosphor. For modulation at frequencies above 1 kHz, the duty cycle may be reduced. For example, 10 kHz modulation is attainable with a duty cycle of 5%.
  • 10 dB Bandwidth
  • Correlated Color Temperature

Relative Power

The actual spectral output and total output power of any given LED will vary due to variations in the manufacturing process and operating parameters, such as temperature and current. Both a typical and minimum output power are specified to help you select an LED that suits your needs. Each metal-core PCB LED will provide at least the minimum specified output power at the maximum current. In order to provide a point of comparison for the relative powers of LEDs with different nominal wavelengths, the spectra in the plots below have been scaled to the minimum output power for each LED. This data is representative, not absolute. An Excel file with normalized and scaled spectra for all of the unmounted LEDs can be downloaded here.

LED Lifetime and Long-Term Power Stability

One characteristic of LEDs is that they naturally exhibit power degradation with time. Often this power degradation is slow, but there are also instances where large, rapid drops in power, or even complete LED failure, occur. LED lifetimes are defined as the time it takes a specified percentage of a type of LED to fall below some power level. The parameters for the lifetime measurement can be written using the notation BXX/LYY, where XX is the percentage of that type of LED that will provide less than YY percent of the specified output power after the lifetime has elapsed. Thorlabs defines the lifetime of our LEDs as B50/L50, meaning that 50% of the LEDs with a given Item # will fall below 50% of the initial optical power at the end of the specified lifetime. For example, if a batch of 100 LEDs is rated for 150 mW of output power, 50 of these LEDs can be expected to produce an output power of ≤75 mW after the specified LED lifetime has elapsed.

Optimizing Thermal Management

In order to achieve stable optical output power and maximize lifetime from your LED, the MCPCB must be properly mounted to a heat sink using thermally conductive paste in order to minimize the degradation of optical output power caused by increased LED junction temperature (see the graph to the right).

Compatible Drivers LEDD1B DC2200a DC4100a,b,c DC4104a,b,c
Click Photos to Enlarge LEDD1B Driver DC2100 Driver DC4100 Driver DC4104 Driver
LED Driver Current Output (Max) 1.2 A LED1 Terminal: 10.0 A
LED2 Terminal: 2.0 Ad
1.0 A per Channel 1.0 A per Channel
LED Driver Forward Voltage (Max) 12 V 50 V 5 V 5 V
Modulation Frequency Using External Input (Max) 5 kHz 250 kHze,f 100 kHzf
(Simultaneous Across all Channels)
100 kHzf
(Independently Controlled Channels)
External Control Interface(s) Analog (BNC) USB 2.0 and Analog (BNC) USB 2.0 and Analog (BNC) USB 2.0 and Analog (8-Pin)
Main Driver Features Very Compact Footprint
60 mm x 73 mm x 104 mm
(W x H x D)
Touchscreen Interface with Internal and External Options for Pulsed and Modulated LED Operation 4 Channelsc 4 Channelsc
EEPROM Compatible: Reads Out LED Data for LED Settings - Yes Yes Yes
LCD Display - Yes Yes Yes
  • Please note that the EEPROM readout feature that automatically adjusts the driver's current limit for our mounted LEDs is not compatible with our LEDs on MCPCB.
  • The DC4100 and DC4104 can power and control up to four LEDs simultaneously when used with the DC4100-HUB. The LEDs on this page all require the DC4100-HUB and the CAB-LEDD1 cable when used with the DC4100 or DC4104 drivers.
  • These LED drivers have a maximum forward voltage rating of 5 V and can provide a maximum current of 1000 mA. As a result, they cannot be used to drive LEDs which have forward voltage ratings greater than 5 V. LEDs with maximum current ratings higher than 1.0 A can be driven using this driver, but will not reach full power.
  • The MCPCB LEDs sold below are compatible with the LED2 Terminal via the CAB-LEDD1 (available separately below).
  • Small Signal Bandwidth: Modulation not exceeding 20% of full scale current. The driver accepts other waveforms, but the maximum frequency will be reduced.
  • Several of these LEDs produce light by stimulating emission from phosphor, which limits their modulation frequencies. The M565D2, M595D3, and all purple or white LEDs may not turn off completely when modulated above 10 kHz at duty cycles below 50%. The MBB1D1 LED may not turn off completely when modulated at frequencies above 1 kHz with a duty cycle of 50%. When the MBB1D1 is modulated at frequencies above 1 kHz, the duty cycle may be reduced; for example, 10 kHz modulation is attainable with a duty cycle of 5%.
Item # Information File Available Ray Files File Size Click to
Download
M365D1 M365_Info.pdf 100,000 Rays and 1 Million Rays 27 MB
M385D1 M385_Info.pdf 1 Million Rays and 5 Million Rays 147 MB
M450D3a LD_CQAR_20150731_info.pdf 100,000 Rays, 500,000 Rays, and 5 Million Rays 123 MB
M505D2a LV_CK7P_191212_info.pdf 100,000 Rays, 500,000 Rays, and 5 Million Rays 123 MB
M850D2a SFH4715S_100413_info.pdf 100,000 Rays, 500,000 Rays, and 5 Million Rays 139 MB
M940D2a SFH_4725S_110413_info.pdf 100,000 Rays, 500,000 Rays, and 5 Million Rays 140 MB
  • A radiometric color spectrum, bare LED CAD file, and sample Zemax file are also available for these LEDs.

Ray data for Zemax is available for some of the bare LEDs incorporated into these high-powered light sources. This data is provided in a zipped folder that can be downloaded by clicking on the red document icons () next to the part numbers in the pricing tables below. Every zipped folder contains an information file and one or more ray files for use with Zemax:

  • Information File: This document contains a summary of the types of data files included in the zipped folder and some basic information about their use. It includes a table listing each document type and the corresponding filenames.
  • Ray Files: These are binary files containing ray data for use with Zemax.

For the LEDs marked with an superscript "a" in the table to the right, the following additional pieces of information are also included in the zipped folder:

  • Radiometric Color Spectrum: This .spc file is also intended for use with Zemax.
  • CAD Files: A file indicating the geometry of the bare LED. For the dimensions of the high-power mounted LEDs that include the package, please see the support drawings provided by Thorlabs.
  • Sample Zemax File: A sample file containing the recommended settings and placement of the ray files and bare LED CAD model when used with Zemax.

The table to the right summarizes the ray files available for each LED and any other supporting documentation provided.


Posted Comments:
Hajun Song  (posted 2020-11-09 01:45:59.967)
I want to use the LD as a flash for the high speed flash. So, the LD should be modulated as fast as possible. Could you give me a information about the LD's bandwidth or rising time?
dpossin  (posted 2020-11-09 10:13:11.0)
Dear Hajun, Thank you for your feedback. Unfortunately we do not have information on the rise time of our metalcore PCB LEDs due to the fact that we are bandwidth limited by our drivers. However a good assumption is a rise time of at least 100ns which corresponds to an 3dB bandwidth of 3.5 MHz.
Ulrich Leischner  (posted 2020-07-09 05:32:47.76)
Hallo gäbe es diese LED auch für 1000mA Stromstärke? wir benützen den Wellenlängenbereich ab 1070nm für quasi-IR Imaging, also den Grenzbereich der grad noch mit Silizium-Chips machbar ist. Mit einer IR-Quelle und einem 1070nm Langpassfilter hat man ganz gute ergebnisse. Unsere Stromversorgungen sind standardisiert auf 1000mA. Wenn es da LEDs gäbe im Bereich 1050nm-1200nm mit 1000mA wären die für uns gut zu gebrauchen. Gäbe es da inzwischen LEDs in diesem Bereich? Grüße Ulrich Leischner
MKiess  (posted 2020-07-10 09:36:13.0)
Vielen Dank für Ihre Anfrage. Eine IR-LED, mit einer Wellenlänge zwischen 1050nm und 1200nm, auf einem Metallkern PCB, welche bei 1000mA betrieben werden kann, haben wir leider nicht als standard Produkt in unserem Sotrtiment. Eine Übersicht aller LEDs können Sie unter folgendem Link finden: https://www.thorlabs.de/newgrouppage9.cfm?objectgroup_ID=6071&tabname= LED Selection Guide Ich habe Sie direkt kontaktiert um die genauen Anforderungen mit Ihnen zu diskutieren.
alekkom  (posted 2017-12-15 11:09:23.127)
Can I use laser diode driver LD3000R as LED driver for M780D3 diode?
swick  (posted 2017-12-20 03:52:04.0)
This is a response from Sebastian at Thorlabs. Thank you for the inquiry. In general it should work to drive LEDs with constant current drivers so LD3000R (2.5 A , 12 V) should be compatible to M780D3 (800 mA, 7.8 V).
ludoangot  (posted 2017-11-16 22:57:56.71)
Which of your white LED has the highest Color Rendition Index (CRI)?
mvonsivers  (posted 2017-11-21 04:47:52.0)
This is a response from Moritz at Thorlabs. Thank you for you inquiry. Unfortunately, we cannot specify CRI values for our LEDs. I will contact you directly for further information.
ludoangot  (posted 2016-05-24 23:39:01.57)
Do you offer sm1 sized blank mounting plates for these LED? I have in mind 2 configurations: a 1" pre-drilled plate to insert in sm1 tubes or the same but with SM1 external thread.
shallwig  (posted 2016-05-25 02:29:13.0)
This is a response from Stefan at Thorlabs. Thank you very much for your inquiry. These LEDs on Metal-Core PCB must still be mounted onto an appropriate heat sink using thermal paste to ensure proper operation and to maximize operating lifetime. We do not offer these heat sinks separately. Our mounted LEDs with heatsink http://www.thorlabs.com/newgrouppage9.cfm?objectgroup_ID=2692 feature an internal SM1 Threading for attaching collimation adapters or 1’’ lens tubes. I will contact you directly to discuss your application in more detail.
kwestla  (posted 2015-01-29 13:03:14.38)
What is the control voltage needed to turn the device on via the EEPROM IO, is it TTL, CMOS etc?
shallwig  (posted 2015-01-30 05:24:28.0)
This is a response from Stefan at Thorlabs. Thank you very much for your inquiry. The EPROM cannot be used to turn the LED on. This chip only has saved information about the maximum driving current for this specific LED. It gets connected with an EPROM compatible driver like the DC2100 via the IO and GND Pad but the LED and EPROM have two different circuits. The driver reads out the EPROM information and sets the current limit accordingly. The M385D1 needs to be supplied via Cathode and Anode Pad with a constant current of 700 mA, the current must not exceed the max current of 700 mA. The current source must be able to deliver this current at a “Forward Voltage” of 4.3 V. I will contact you directly to discuss your application in detail.
jamesfreal  (posted 2013-08-27 11:58:01.013)
The Excel data file for the M365D1 is not correct on your web site. It looks like it contains the spectral data for the M505D2. Could you send me the correct file? Thanks James Freal
sharrell  (posted 2013-08-27 12:35:00.0)
Response from Sean at Thorlabs: Thank you for contacting us. We’ve updated the file linked on our website with the correct data.
Light Emitting Diode (LED) Selection Guide
(Click
Representative
Photo to Enlarge;
Not to Scale)
Wavelength Unmounted
LEDs
Pigtailed LEDs LEDs in
SMT Packages
PCB-
Mounted LEDs
Heatsink-
Mounted LEDs
Collimated LEDs for Microscopy
(Item # Prefixa)
Fiber-
Coupled LEDs
b
High-Power LEDs for Microsocopy Multi-Wavelength
LED Source
Optionsc
LED Arrays
Single Color LEDs
250 nm LED250J
(1 mW Min)
- - - - - - - - -
255 nm LED255W
(0.4 mW)
- - - - - - - - -
LED255J
(1 mW Min)
260 nm LED260W
(1 mW)
- - - - - - - - -
LED260J
(1 mW Min)
265 nm LED265W2
(1.6 mW)
- - M265D2
(10 mW Min)
M265L3
(10 mW Min)
- - - - -
M265D3
(24 mW Min)
M265L4
(24 mW Min)
275 nm LED275W
(1.6 mW)
- - M275D2
(45 mW Min)
M275L4
(45 mW Min)
- - - - -
LED275J
(1 mW Min)
280 nm LED280J
(1 mW Min)
- - - - - - - - -
LED280W
(2.3 mW)
285 nm LED285W
(1.6 mW)
- - M285D3
(50 mW Min)
M285L5
(50 mW Min)
- M285F4
(420 µW)
- - -
290 nm LED290W
(1.6 mW)
- - - - - - - - -
295 nm LED295W
(1.2 mW)
- - - - - - - - -
300 nm LED300W
(1.2 mW)
- - M300D3
(26 mW Min)
M300L4
(26 mW Min)
- M300F2
(320 µW)
- - -
310 nm LED310W
(1.5 mW)
- - - - - - - - -
LED315W
(1 mW)
325 nm LED325W2
(1.7 mW)
- - M325D3
(25 mW Min)
M325L5
(25 mW Min)
- M325F4
(260 µW)
- - -
340 nm LED340W
(1.7 mW)
- - M340D3
(53 mW Min)
M340L4
(53 mW Min)
- M340F3
(1.06 mW)
- - -
LED341W
(0.33 mW)
365 nm - - - M365D1
(190 mW Min)
M365L2
(190 mW Min)
M365L2
(60 mW)d
M365F1
(4.1 mW)
SOLIS-365C
(3.0 W)e
Chrolis
(1130 mW)
LIU365A
(31 mW)
M365L3
(880 mW Min)
M365D2
(1150 mW Min)
M365LP1
(1350 mW Min)
M365LP1
(350 mW)d
M365FP1
(15.5 mW)
4-Wavelength
Source
(85 mW)
375 nm LED375L
(1 mW)
- - M375D4
(1270 mW Min)
M375L4
(1270 mW Min)
- M375F2
(4.23 mW)
- - -
LED370E
(2.5 mW)
385 nm LED385L
(5 mW)
- - M385D1
(270 mW Min)
M385L2
(270 mW Min)
M385L2
(90 mW)d
M385F1
(10.7 mW)
SOLIS-385C
(5.8 W)e
Chrolis
(1250 mW)
-
M385L3
(1240 mW Min)
M385L3
(450 mW)d
M385D2
(1650 mW Min)
M385LP1
(1650 mW Min)
M385LP1
(520 mW)d
M385FP1
(23.2 mW)
4-Wavelength
Source
(95 mW)
395 nm LED395L
(6 mW)
- - M395D3
(400 mW Min)
M395L4
(400 mW Min)
- M395F3
(6.8 mW)
- - -
M395D4
(1420 mW Min)
M395L5
(1130 mW Min)
M395FP1
(20.1 mW)
M395LP1
(1420 mW Min)
Wavelength Unmounted
LEDs
Pigtailed LEDs LEDs in
SMT Packages
PCB-
Mounted LEDs
Heatsink-
Mounted LEDs
Collimated LEDs
for Microscopy

(Item # Prefixa)
Fiber-
Coupled LEDs
b
High-Power LEDs
for Microsocopy
Multi-Wavelength
LED Source
Optionsc
LED Arrays
Single Color LEDs
405 nm LED405L
(6 mW)
- - M405D2
(1500 mW Min)
M405L4
(1000 mW Min)
M405L3
(440 mW)d
M405F1
(3.7 mW)
SOLIS-405C
(3.9 W)e
Chrolis
(900 mW)
-
M405L4
(510 mW)f
4-Wavelength
Source

(290 mW)
LED405E
(10 mW)
M405LP1
(1200 mW Min)
M405LP1
(450 mW)d
M405FP1
(24.3 mW)
415 nm - - - M415D2
(1640 mW Min)
M415L4
(1310 mW Min)
- M415F3
(21.3 mW)
SOLIS-415C
(5.8 W)e
- -
M415LP1
(1640 mW Min)
420 nm - - - - - - - - Chrolis
(710 mW)
-
4-Wavelength
Source
(95 mW)
430 nm LED430L
(8 mW)
- - M430D2
(490 mW Min)
M430L4
(490 mW Min)
- - - - -
445 nm - - - - - - - SOLIS-445C
(5.4 W)e
- -
450 nm LED450L
(7 mW)
- LEDS450
(250 mW)
M450D3
(1850 mW Min)
M450LP1
(1850 mW Min)
- - - - -
455 nm - - - M455D3
(1150 mW Min)
M455L4
(1150 mW Min)
M455L3
(400 mW)g
M455F3
(24.5 mW)
- 4-Wavelength
Source
(310 mW)
-
M455L4
(490 mW)d
465 nm LED465E
(20 mW)
- - - - - - - - -
470 nm LED470L
(170 mW)
EP470S04
(18 mW Min)
- M470D2
(650 mW Min)
M470L4
(760 mW Min)
M470L4
(330 mW)d
M470F3
(17.2 mW)
SOLIS-470C
(3.0 W)e
4-Wavelength
Source
(250 mW)
LIU470A
(253 mW)
EP470S10
(100 mW Min)
M470D3
(760 mW Min)
475 nm - - - - - - - - Chrolis
(630 mW)
-
490 nm LED490L(3 mW) - - M490D3
(205 mW Min)
M490L4
(205 mW Min)
- M490F3
(2.3 mW)
- Chrolis
(120 mW)
-
4-Wavelength
Source
(50 mW)
505 nm LED505L
(4 mW)
- - M505D2
(400 mW Min)
M505L4
(400 mW Min)
M505L3
(150 mW)g
M505F3
(11.7 mW)
SOLIS-505C
(1.0 W)e
4-Wavelength
Source
(170 mW)
-
M505D3
(400 mW Min)
M505L4
(170 mW)d
525 nm LED525E
(2.6 mW Max)
- - - - - - SOLIS-525C
(2.4 W)e
Chrolis
(180 mW)
LIU525A
(111 mW)
LED525L
(4 mW)
LED528EHP
(7 mW)
530 nm - - - M530D3
(370 mW Min)
M530L4
(370 mW Min)
M530L3
(150 mW)g
M530F2
(6.8 mW)
- 4-Wavelength
Source
(100 mW)
-
M530L4
(160 mW)d
554 nm - - - MINTD3
(650 mW Min)
MINTL5
(650 mW Min)
- MINTF4
(21 mW Min)
- - -
565 nm - - - M565D2
(880 mW Min)
M565L3
(880 mW Min)
- M565F3
(13.5 mW)
SOLIS-4C
(3.2 W)e
Chrolis
(350 mW)
-
4-Wavelength
Source
(106 mW)
570 nm LED570L
(0.3 mW)
- - - - - - - - -
590 nm LED590L
(2 mW)
EP590S04
(3.5 mW Min)
- M590D3
(230 mW Min)
M590L4
(230 mW Min)
M590L3
(60 mW)d
M590F3
(4.6 mW)
SOLIS-590C
(350 mW)e
Chrolis
(140 mW)
LIU590A
(109 mW)
LED591E
(2 mW)
EP590S10
(18 mW Min)
M590L4
(100 mW)d
4-Wavelength
Source
(65 mW)
595 nm - - - M595D3
(820 mW Min)
M595L4
(820 mW Min)
- M595F2
(8.7 mW)
SOLIS-595C
(700 mW)e
- -
Wavelength Unmounted
LEDs
Pigtailed LEDs LEDs in
SMT Packages
PCB-
Mounted LEDs
Heatsink-
Mounted LEDs
Collimated LEDs
for Microscopy

(Item # Prefixa)
Fiber-
Coupled LEDs
b
High-Power LEDs
for Microsocopy
Multi-Wavelength
LED Source
Optionsc
LED Arrays
Single Color LEDs
600 nm LED600L
(3 mW)
- - - - - - - - -
610 nm LED610L
(8 mW)
- - - - - - - - -
617 nm - - - M617D2
(600 mW Min)
M617L3
(600 mW Min)
M617L3
(230 mW)d
M617F2
(10.2 mW)
SOLIS-617C
(1.5 mW)e
4-Wavelength
Source
(210 mW)
-
M617D3
(660 mW Min)
M617L4
(660 mW Min)
M617L4
(280 mW)d
623 nm - - - - - - - SOLIS-623C
(3.8 W)e
- -
625 nm LED625L
(12 mW)
- - M625D3
(700 mW Min)
M625L4
(700 mW Min)
M625L3
(270 mW)d
M625F1
(13.2 mW)
- Chrolis
(490 mW)
-
M625L4
(490 mW)d
4-Wavelength
Source
(240 mW)
630 nm LED630L
(16 mW)
- - - - - - - - LIU630A
(208 mW)
635 nm LED631E
(4 mW)
- - - - - - - - -
LED635L
(170 mW)
639 nm LED630E
(7.2 mW)
- - - - - - - - -
645 nm LED645L
(16 mW)
- - - - - - - - -
660 nm LED660L
(13 mW)
- - M660D2
(940 mW Min)
M660L4
(940 mW Min)
M660L4
(400 mW)d
M660F1
(14.5 mW)
SOLIS-660C
(2.0 W)e
4-Wavelength
Source
(210 mW)
-
670 nm LED670L
(12 mW)
- - - - - - - - -
680 nm LED680L
(8 mW)
- - M680D2
(180 mW Min)
M680L4
(180 mW Min)
- M680F3
(2.7 mW)
- - -
700 nm - EP700S04
(5 mW Min)
- M700D2
(80 mW Min)
M700L4
(80 mW Min)
- M700F3
(1.7 mW)
- - -
EP700S10
(30 mW Min)
730 nm - - - M730D3
(540 mW Min)
M730L5
(540 mW Min)
M730L4
(165 mW)d
- - - -
740 nm - - - - - - M740F2
(6.0 mW)
SOLIS-740C
(2.0 W)e
- -
750 nm LED750L
(18 mW)
- - - - - - - - -
760 nm LED760L
(24 mW)
- - - - - - - - -
770 nm LED770L
(22 mW)
- - - - - - - - -
780 nm LED780E
(18 mW)
- - M780D2
(200 mW Min)
M780L3
(200 mW Min)
M780L3
(130 mW)d
M780F2
(7.5 mW)
- Chrolis
(40 mW)
LIU780A
(315 mW)
LED780L
(22 mW)
M780D3
(800 mW Min)
M780LP1
(800 mW Min)
800 nm LED800L
(20 mW)
- - - - - - - - -
810 nm LED810L
(22 mW)
EP810S04
(16 mW Min)
- M810D2
(325 mW Min)
M810L3
(325 mW Min)
M810L3
(210 mW)d
M810F2
(6.5 mW)
- - -
EP810S10
(90 mW Min)
M810D3
(363 mW Min)
M810L4
(363 mW Min)
830 nm LED830L
(22 mW)
- - - - - - - - -
840 nm LED840L
(22 mW)
- - - - - - - - -
850 nm LED851L
(13 mW)
- - M850D2
(900 mW Min)
M850L3
(900 mW Min)
M850L3
(330 mW)d
M850F2
(13.4 mW)
SOLIS-850C
(2.7 W)e
- LIU850A
(322 mW)
M850D3
(1400 mW)
M850LP1
(1400 mW Min)
870 nm LED870E
(22 mW)
- - - - - - - - -
LED870L
(24 mW)
880 nm - - - M880D2
(300 mW Min)
M880L3
(300 mW Min)
- M880F2
(3.4 mW)
- - -
890 nm LED890L
(12 mW)
- - - - - - - - -
910 nm LED910L
(10 mW)
- - - - - - - - -
LED910E
(12 mW)
930 nm LED930L
(15 mW)
- - - - - - - -
940 nm LED940E
(18 mW)
- - M940D2
(800 mW Min)
M940L3
(800 mW Min)
M940L3
(320 mW)d
M940F3
(14.2 mW)
SOLIS-940C
(2.5 W)e
- -
970 nm LED970L
(5 mW)
- - M970D3
(600 mW Min)
M970L4
(600 mW Min)
- M970F3
(8.1 mW)
- - -
Wavelength Unmounted
LEDs
Pigtailed LEDs LEDs in
SMT Packages
PCB-
Mounted LEDs
Heatsink-
Mounted LEDs
Collimated LEDs
for Microscopy

(Item # Prefixa)
Fiber-
Coupled LEDs
b
High-Power LEDs
for Microsocopy
Multi-Wavelength
LED Source
Optionsc
LED Arrays
Single Color LEDs
1050 nm LED1050E
(2.5 mW)
- - M1050D1
(50 mW Min)
M1050L2
(50 mW Min)
- - - - -
LED1050L
(4 mW)
M1050D3
(160 mW Min)
M1050L4
(160 mW Min)
M1050F3
(3 mW)
1070 nm LED1070L
(4 mW)
- - - - - - - - -
LED1070E
(7.5 mW)
1085 nm LED1085L
(5 mW)
- - - - - - - - -
1200 nm LED1200E
(2.5 mW)
- - M1200D2
(30 mW Min)
M1200L3
(30 mW Min)
- - - - -
LED1200L
(5 mW)
1300 nm LED1300E
(2 mW)
- - M1300D2
(25 mW Min)
M1300L3
(25 mW Min)
- - - - -
LED1300L
(3.5 mW)
1450 nm LED1450E
(2 mW)
- - M1450D2
(31 mW Min)
M1450L3
(31 mW Min)
- - - - -
LED1450L
(5 mW)
1550 nm LED1550E
(2 mW)
- - M1550D2
(31 mW Min)
M1550L3
(31 mW Min)
- - - - -
LED1550L
(4 mW)
1600 nm LED1600L
(2 mW)
- - - - - - - - -
1650 nm LED1600P
(1.2 mW)
- - M1650D2
(13 mW)
M1650L4
(13 mW)
- - - - -
1750 nm LED1700P
(1.2 mW
Quasi-CW,
30 mW Pulsed)
- - - - - - - - -
1850 nm LED1800P
(0.9 mW
Quasi-CW,
20 mW Pulsed)
- - - - - - - - -
1950 nm LED1900P
(1.0 mW
Quasi-CW,
25 mW Pulsed)
- - - - - - - - -
2050 nm LED2050P
(1.1 mW
Quasi-CW,
28 mW Pulsed)
- - - - - - - - -
2350 nm LED2350P
(0.8 mW
Quasi-CW,
16 mW Pulsed)
- - - - - - - - -
2700 nm LED2700W
(0.15 mW
Quasi-CW,
1.0 mW
Pulsed)
- - - - - - - - -
2800 nm LED2800W
(0.3 mW
Quasi-CW,
2.0 mW
Pulsed)
- - - - - - - - -
3400 nm LED3400W
(0.3 mW
Quasi-CW,
2.0 mW
Pulsed)
- - - - - - - - -
3800 nm LED3800W
(0.18 mW
Quasi-CW,
1.5 mW
Pulsed)
- - - - - - - - -
4200 nm LED4300P
(0.03 mW
Quasi-CW,
0.2 mW Pulsed)
- - - - - - - - -
4300 nm LED4300W
(0.18 mW
Quasi-CW,
1.5 mW
Pulsed)
- - - - - - - - -
4500 nm LED4600P
(0.006 mW
Quasi-CW,
0.12 mW Pulsed)
- - - - - - - - -
Wavelength Unmounted
LEDs
Pigtailed LEDs LEDs in
SMT Packages
PCB-
Mounted LEDs
Heatsink-
Mounted LEDs
Collimated LEDs
for Microscopy

(Item # Prefixa)
Fiber-
Coupled LEDs
b
High-Power LEDs
for Microsocopy
Multi-Wavelength
LED Source
Optionsc
LED Arrays
Multi-Color, Broadband, and White LEDs
455 nm (12.5%h) and 640 nm - - - MPRP1D2
(275 mW Min)
MPRP1L4
(275 mW Min)
- - - - -
572 nm
and 625 nm
LEDGR
(0.09 mW
and 0.19 mW)
- - - - - - - - -
588 nm and 617 nm LEDRY
(0.09 mW
and 0.19 mW)
- - - - - - - - -
467.5 nm,
525 nm,
and 627.5 nm
LEDRGBE
(5.8 mW,
6.2 mW,
and 3.1 mW)
- - - - - - - - -
430 - 660 nm
(White)
LEDWE-15
(13 mW)
- - - - - - - - -
LEDW7E
(15.0 mW)
LEDW25E
(15.0 mW)
470 - 850 nm
(Broadband)
- - - MBB1D1
(70 mW Min)
MBB1L3
(70 mW Min)
- MBB1F1
(1.2 mW)
- - -
6500 K
(Cold White)
- - - MCWHD5
(930 mW Min)
MCWHL7
(930 mW Min)
- - SOLIS-1C
(3.3 W)e
- -
MCWHD4
(990 mW Min)
MCWHL6
(990 mW Min)
MCWHL5
(440 mW)f
MCWHD3
(2350 mW Min)
MCWHLP1
(2350 mW Min)
MCWHL6
(354 mW)d
6200 K
(Cold White)
- - - - - - MCWHF2
(21.5 mW)
- - -
5000 K
(Cold White)
- - LEDSW50
(110 mW)
- - - - - - -
4600 - 9000 K
(Cold White)
- - - - - - - - - LIUCWHA
(250 mW)
4000 K
(Warm White)
- - LEDSW40
(115 mW)
- - - MWWHF2
(16.3 mW)
- - -
3000 K
(Warm White)
- - LEDSW30
(100 mW)
MWWHD3
(2000 mW Min)
MWWHL4
(570 mW Min)
- - SOLIS-2C
(3.2 W)e
- -
MWWHLP1
(2000 mW Min)
5700 K
(Day Light White)
- - - - - - - SOLIS-3C
(3.5 W)
- -
  • These Collimated LEDs are compatible with the standard and epi-illumination ports on the following microscopes: Olympus BX/IX (Item # Suffix: -C1), Leica DMI (Item # Suffix: -C2), Zeiss Axioskop (Item # Suffix: -C4), and Nikon Eclipse (Bayonet Mount, Item # Suffix: -C5).
  • Typical power when used with MM Fiber with Ø400 µm core, 0.39 NA.
  • Our Multi-Wavelength LED Sources are available with select combinations of the LEDs at these wavelengths.
  • Typical power for LEDs with the Leica DMI collimation package (Item # Suffix: -C2).
  • Minimum power for the collimated output of these LEDs. The collimation lens is installed with each LED.
  • Typical power for LEDs with the Olympus BX and IX collimation package (Item # Suffix: -C1).
  • Typical power for LEDs with the Nikon Eclipse collimation package (Item # Suffix: -C5).
  • Percentage of LED intensity that emits in the blue portion of the spectrum, from 400 nm to 525 nm.

Deep UV LEDs (265 - 340 nm)

Please note that our deep UV LEDs radiate intense UV light during operation. Precautions must be taken to prevent looking directly at the UV light, and UV light protective glasses must be worn to avoid eye damage. Exposure of the skin and other body parts to UV light should be avoided.

Item # Nominal
Wavelengtha,b
LED Output Powerb,c Bandwidth
(FWHM)
Irradianced Maximum
Current
(CW)
Forward
Voltagec
Viewing Angle
(Full Angle
at Half Max)
Emitter Size MCPCB
Thickness
Minimum Typical
M265D2 265 nm 10 mW 12 mW 11 nm - 350 mA 6.8 V 130° 1 mm x 1 mm 2.4 mm
M265D3 265 nm 24 mW 35 mW 6.8 nm 0.47 µW/mm2 350 mA 6.0 V 120º 3.5 mm x 3.5 mm 1.6 mm
M275D2 275 nm 45 mW 80 mW 11 nm 0.8 µW/mm2 700 mA 7.3 V 118° 2 mm x 2 mm 1.6 mm
M285D3 285 nm 50 mW 70 mW 13 nm 0.7 µW/mm2 500 mA 5.9 V 120° 1 mm x 1 mm 1.6 mm
M300D3 300 nm 26 mW 32 mW 20 nm 0.3 µW/mm2 350 mA 8.0 V 130° 1 mm x 1 mm 1.6 mm
M325D3 325 nm 25 mW 35 mW 12 nm 0.44 µW/mm2 (Max) 600 mA 5.2 V 120° 1 mm x 1 mm 1.6 mm
M340D3 340 nm 53 mW 60 mW 11 nm 2.22 µW/mm2 700 mA 4.6 V 110° 1 mm x 1 mm 2.4 mm
  • Click on the wavelength to view a typical spectrum for the LED.
  • Due to variations in the manufacturing process and operating parameters such as temperature and current, the actual spectral output of any given LED will vary. Output plots and nominal wavelength specs are only intended to be used as a guideline.
  • When Driven at the Maximum Current
  • Irradiance is measured at a distance of 200 mm from the LED. Typical value unless otherwise noted.
Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available
M265D4 Support Documentation
M265D4265 nm, 38.4 mW (Min) LED on Metal-Core PCB, 440 mA
$358.73
Lead Time
M275D2 Support Documentation
M275D2275 nm, 45 mW (Min) LED on Metal-Core PCB, 700 mA
$256.90
3 weeks
M275D3 Support Documentation
M275D3275 nm, 47.3 mW (Min) LED on Metal-Core PCB, 300 mA
$150.32
Lead Time
M280D4 Support Documentation
M280D4280 nm, 78 mW (Min) LED on Metal-Core PCB, 500 mA
$273.06
Lead Time
M300D3 Support Documentation
M300D3300 nm, 26 mW (Min) LED on Metal-Core PCB, 350 mA
$393.63
Today
M310D1 Support Documentation
M310D1308 nm, 38.5 mW (Min) LED on Metal-Core PCB, 600 mA
$485.61
Lead Time
M325D3 Support Documentation
M325D3325 nm, 25 mW (Min) LED on Metal-Core PCB, 600 mA
$521.99
Today
M340D4 Support Documentation
M340D4340 nm, 45.5 mW (Min) LED on Metal-Core PCB, 600 mA
$303.35
Lead Time

UV LEDs (365 - 405 nm)

Please note that our UV LEDs radiate intense UV light during operation. Precautions must be taken to prevent looking directly at the UV light, and UV light protective glasses must be worn to avoid eye damage. Exposure of the skin and other body parts to UV light should be avoided.

Item # Nominal
Wavelengtha,b
LED Output Powerb Bandwidth
(FWHM)
Irradiance
(Typical)c
Maximum
Current
(CW)
Forward
Voltage
Viewing Angle
(Full Angle
at Half Max)
Emitter Size MCPCB
Thickness
Minimum Typical
M365D1 365 nm 190 mWd 360 mWd 7.5 nm 8.9 µW/mm2 700 mA 4.4 V 120° 1 mm x 1 mm 1.6 mm
M365D2 365 nm 1150 mWe 1400 mWe 9 nm 17.6 µW/mm2 1700 mA 4.0 V 120° 1.4 mm x 1.4 mm 2.4 mm
M375D4 375 nm 1270 mWf 1540 mWf 9 nm 19.2 µW/mm2 1400 mA 3.6 V 130° 1 mm x 1 mm 2.4 mm
M385D1 385 nm 270 mWf 430 mWf 10 nm 11.8 µW/mm2 700 mA 4.3 V 120° 1 mm x 1 mm 1.6 mm
M385D2 385 nm 1650 mWf 1830 mWf 12 nm 23.3 µW/mm2 1700 mA 3.9 V 120° 1.4 mm x 1.4 mm 2.4 mm
M395D3 395 nm 400 mWf 535 mWf 16 nm 6.7 µW/mm2 500 mA 4.5 V 126° 1 mm x 1 mm 2.4 mm
M395D4 395 nm 1420 mWf 2050 mWf 11 nm 22.8 µW/mm2 1400 mA 4.0 V 120° 2.5 mm x 2.5 mm 2.4 mm
M405D2 405 nm 1500 mWf 1700 mWf 12 nm 24.6 µW/mm2 1400 mA 3.45 V 120° 1.4 mm x 1.4 mm 2.5 mm
  • Click on the wavelength to view a typical spectrum for the LED.
  • Due to variations in the manufacturing process and operating parameters such as temperature and current, the actual spectral output of any given LED will vary. Output plots and nominal wavelength specs are only intended to be used as a guideline.
  • Irradiance is measured at a distance of 200 mm from the LED.
  • When Driven with a Current of 500 mA
  • When Driven with a Current of 1000 mA
  • When Driven at the Maximum Current
Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available
M365D2 Support Documentation
M365D2365 nm, 1150 mW (Min) LED on Metal-Core PCB, 1700 mA
$217.78
Today
M375D4 Support Documentation
M375D4375 nm, 1270 mW (Min) LED on Metal-Core PCB, 1400 mA
$62.80
3 weeks
M385D2 Support Documentation
M385D2385 nm, 1650 mW (Min) LED on Metal-Core PCB, 1700 mA
$217.78
Today
M395D3 Support Documentation
M395D3395 nm, 400 mW (Min) LED on Metal-Core PCB, 500 mA
$146.75
Today
M395D4 Support Documentation
M395D4395 nm, 1420 mW (Min) LED on Metal-Core PCB, 1400 mA
$217.78
Today
M405D2 Support Documentation
M405D2405 nm, 1500 mW (Min) LED on Metal-Core PCB, 1400 mA
$217.78
Today

Single-Color Cold Visible LEDs (415 - 565 nm)

Please note that the 415 nm (violet) LED radiates intense UV light during operation. Precautions must be taken to prevent looking directly at the UV light, and UV light protective glasses must be worn to avoid eye damage. Exposure of the skin and other body parts to the UV light should be avoided.

Item # Nominal
Wavelengtha,b,c
LED Output Powerb,d Bandwidth
(FWHM)
Irradiance
(Typical)e
Maximum
Current
(CW)
Forward
Voltaged
Viewing Angle
(Full Angle
at Half Max)
Emitter Size MCPCB
Thickness
Minimum Typical
M415D2 415 nm 1640 mW 1940 mW 14 nm 19.5 µW/mm2 2000 mA 3.15 V 138° 1.4 mm x 1.4 mm 2.4 mm
M430D2 430 nm 490 mW 600 mW 15 nm 35.3 µW/mm2 500 mA 3.8 V 22° 1 mm x 1 mm 2.4 mm
M450D3 450 nm 1850 mW 2100 mW 18 nm 35.6 µW/mm2 2000 mA 3.5 V 120° 1.5 mm x 1.5 mm 1.6 mm
M455D3 455 nm 1150 mW 1445 mW 18 nm 32 µW/mm2 1000 mA 3.25 V 80° 1 mm x 1 mm 1.6 mm
M470D2 470 nm 650 mW 710 mW 25 nm 21.9 µW/mm2 1000 mA 3.2 V 80° 1 mm x 1 mm 1.6 mm
M470D3 470 nm 760 mW 965 mW 26 nm 19.9 µW/mm2 1000 mA 3.2 V 80° 1 mm x 1 mm 1.6 mm
M490D3 490 nm 205 mW 240 mW 26 nm 2.5 µW/mm2 350 mA 3.8 V 128° 1 mm x 1 mm 2.4 mm
M505D2 505 nm 400 mW 440 mW 30 nm 11.1 µW/mm2 1000 mA 3.3 V 80° 1 mm x 1 mm 1.6 mm
M505D3 505 nm 400 mW 520 mW 37 nm 5.94 µW/mm2 1000 mA 3.5 V 130° 1 mm x 1 mm 1.6 mm
M530D3 530 nm 370 mW 480 mW 35 nm 9.46 µW/mm2 1000 mA 3.6 V 80° 1 mm x 1 mm 1.6 mm
MINTD3 554 nm 650 mW 815 mW - 12.4 µW/mm2 1225 mA 3.5 V 120° 1 mm x 1 mm 2.4 mm
M565D2f 565 nm 880 mW 979 mW 104 nm 11.7 µW/mm2 1000 mA 3.1 V (Max) 125° 1 mm x 1 mm 1.6 mm
  • Click on the wavelength to view a typical spectrum for the LED.
  • Due to variations in the manufacturing process and operating parameters such as temperature and current, the actual spectral output of any given LED will vary. Output plots and nominal wavelength specs are only intended to be used as a guideline.
  • The nominal wavelength indicates the wavelength at which the LED appears brightest to the human eye. The nominal wavelength for visible LEDs may not correspond to the peak wavelength as measured by a spectrometer.
  • When Driven at the Maximum Current
  • Irradiance is measured at a distance of 200 mm from the LED.
  • This LED is phosphor-converted and may not turn off completely when modulated above 10 kHz at duty cycles below 50%.
Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available
M415D2 Support Documentation
M415D2415 nm, 1640 mW (Min) LED on Metal-Core PCB, 2000 mA
$79.93
3 weeks
M430D3 Support Documentation
M430D3430 nm, 529.2 mW (Min) LED on Metal-Core PCB, 500 mA
$89.45
Lead Time
M450D4 Support Documentation
M450D4450 nm, 2118.1 mW (Min) LED on Metal-Core PCB, 2000 mA
$66.49
Lead Time
M455D3 Support Documentation
M455D3455 nm, 1150 mW (Min) LED on Metal-Core PCB, 1000 mA
$56.70
Today
M470D4 Support Documentation
M470D4470 nm, 809 mW (Min) LED on Metal-Core PCB, 1000 mA
$69.29
Lead Time
M490D3 Support Documentation
M490D3490 nm, 205 mW (Min) LED on Metal-Core PCB, 350 mA
$83.27
Today
M505D3 Support Documentation
M505D3505 nm, 520 mW (Typ.) LED on Metal-Core PCB, 1000 mA
$79.78
3 weeks
M530D3 Support Documentation
M530D3530 nm, 370 mW (Min) LED on Metal-Core PCB, 1000 mA
$79.78
Today
MINTD3 Support Documentation
MINTD3554 nm, 650 mW (Min) LED on Metal-Core PCB, 1225 mA
$133.02
Today
M565D2 Support Documentation
M565D2565 nm, 880 mW (Min) LED on Metal-Core PCB, 1000 mA
$67.55
3 weeks

Single-Color Warm Visible LEDs (590 - 730 nm)

Item # Nominal
Wavelengtha,b,c
LED Output Powerb,d Bandwidth
(FWHM)
Irradiance
(Typical)e
Maximum
Current
(CW)
Forward
Voltaged
Viewing Angle
(Full Angle
at Half Max)
Emitter Size MCPCB
Thickness
Minimum Typical
M590D3 590 nm 230 mW 300 mW 15 nm 6.0 µW/mm2 1000 mA 2.5 V 80° 1 mm x 1 mm 1.6 mm
M595D3f 595 nm 820 mW 1217 mW 64 nm 13.5 µW/mm2 1500 mA 3.0 V 120° 2.9 mm x 2.9 mm 2.4 mm
M617D2 617 nm 600 mW 650 mW 18 nm 15.7 µW/mm2 1000 mA 2.2 V 80° 1 mm x 1 mm 1.6 mm
M617D3 617 nm 660 mW 860 mW 16 nm 19.86 µW/mm2 1000 mA 2.6 V 80° 1 mm x 1 mm 1.6 mm
M625D3 625 nm 700 mW 920 mW 17 nm 21.9 µW/mm2 1000 mA 2.5 V 80° 1 mm x 1 mm 1.6 mm
M660D2 660 nm 940 mW 1050 mW 20 nm 20.88 µW/mm2 1200 mA 2.6 V 120° 1.5 mm x 1.5 mm 1.6 mm
M680D2 680 nm 180 mW 210 mW 22 nm 14.5 µW/mm2 600 mA 2.5 V 18° 1 mm x 1 mm 2.4 mm
M700D2 700 nm 80 mW 125 mW 20 nm 1.0 µW/mm2 500 mA 2.7 V 128° 1 mm x 1 mm 2.4 mm
M730D3 730 nm 540 mW 680 mW 40 nm 13.1 µW/mm2 1000 mA 2.9 V 80° 1 mm x 1 mm 1.6 mm
  • Click on the wavelength to view a typical spectrum for the LED.
  • Due to variations in the manufacturing process and operating parameters such as temperature and current, the actual spectral output of any given LED will vary. Output plots and nominal wavelength specs are only intended to be used as a guideline.
  • The nominal wavelength indicates the wavelength at which the LED appears brightest to the human eye. The nominal wavelength for visible LEDs may not correspond to the peak wavelength as measured by a spectrometer.
  • When Driven at the Maximum Current
  • Irradiance is measured at a distance of 200 mm from the LED.
  • This LED is phosphor-converted and may not turn off completely when modulated above 10 kHz at duty cycles below 50%.
Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available
M590D3 Support Documentation
M590D3590 nm, 230 mW (Min) LED on Metal-Core PCB, 1000 mA
$73.16
Today
M595D3 Support Documentation
M595D3595 nm, 820 mW (Min) LED on Metal-Core PCB, 1500 mA
$91.49
3 weeks
M617D4 Support Documentation
M617D4617 nm, 737.4 mW (Min) LED on Metal-Core PCB, 1000 mA
$68.62
Lead Time
M625D3 Support Documentation
M625D3625 nm, 700 mW (Min) LED on Metal-Core PCB, 1000 mA
$77.60
Today
M660D2 Support Documentation
M660D2660 nm, 940 mW (Min) LED on Metal-Core PCB, 1200 mA
$75.11
Today
M680D2 Support Documentation
M680D2Customer Inspired! 680 nm, 180 mW (Min) LED on Metal-Core PCB, 600 mA
$89.09
3 weeks
M700D2 Support Documentation
M700D2700 nm, 80 mW (Min) LED on Metal-Core PCB, 500 mA
$89.09
Today
M730D3 Support Documentation
M730D3730 nm, 540 mW (Min) LED on Metal-Core PCB, 1000 mA
$83.14
Today

IR LEDs (780 - 1650 nm)

Item # Nominal
Wavelengtha,b
LED Output Powerb,c Bandwidth
(FWHM)
Irradiance
(Typical)d
Maximum
Current
(CW)
Forward
Voltagec
Viewing Angle
(Full Angle
at Half Max)
Emitter Size MCPCB
Thickness
Minimum Typical
M780D2 780 nm 200 mW 300 mW 28 nm 47.3 µW/mm2 800 mA 2.0 V 20° 1 mm x 1 mm 2.4 mm
M780D3 780 nm 800 mW 950 mW 30 nm 13.3 µW/mm2 800 mA 7.8 V 120° Ø3 mm
(3 Emitters)
1.6 mm
M810D2 810 nm 325 mW 375 mW 25 nm 61.8 µW/mm2 500 mA 3.6 V 20° 1 mm x 1 mm 1.6 mm
M810D3 810 nm 363 mW 542 mW 32 nm 23.7 µW/mm2 1000 mA 3.55 V 80° 1 mm x 1 mm 2.4 mm
M850D2 850 nm 900 mW 1100 mW 30 nm 22.9 µW/mm2 1200 mA 2.95 V 90° 1 mm x 1 mm 1.6 mm
M850D3 850 nm 1400 mW 1600 mW 30 nm 19.4 µW/mm2 1500 mA 3.85 V 150° 1 mm x 1 mm 1.6 mm
M880D2 880 nm 300 mW 350 mW 50 nm 5.6 µW/mm2 1000 mA 1.7 V 132° 1 mm x 1 mm 2.4 mm
M940D2 940 nm 800 mW 1000 mW 37 nm 19.1 µW/mm2 1000 mA 2.75 V 90° 1 mm x 1 mm 1.6 mm
M970D3 970 nm 600 mW 720 mW 60 nm 7.4 µW/mm2 1000 mA 1.9 V 130° 1 mm x 1 mm 2.4 mm
M1050D1 1050 nm 50 mW 70 mW 60 nm 1.9 µW/mm2 700 mA 1.5 V 120° 1 mm x 1 mm 2.4 mm
M1050D3 1050 nm 160 mW 210 mW 37 nm 3.7 µW/mm2 600 mA 1.4 V 128° 1 mm x 1 mm 2.4 mm
M1200D2 1200 nm 30 mW 35 mW 80 nm 0.7 µW/mm2 700 mA 1.4 V 134° 1 mm x 1 mm 2.4 mm
M1300D2 1300 nm 25 mW 30 mW 80 nm 0.6 µW/mm2 500 mA 1.4 V 134° 1 mm x 1 mm 2.4 mm
M1450D2 1450 nm 31 mW 36 mW 80 nm 0.4 µW/mm2 700 mA 1.15 V 136° 1 mm x 1 mm 2.4 mm
M1550D2 1550 nm 31 mW 36 mW 102 nm 0.5 µW/mm2 1000 mA 1.35 V 136° 1 mm x 1 mm 2.4 mm
M1650D2 1650 nm 13 mW 16 mW 120 nm 1.2 µW/mm2 600 mA 1.1 V 20° 1 mm x 1 mm 2.4 mm
  • Click on the wavelength to view a typical spectrum for the LED.
  • Due to variations in the manufacturing process and operating parameters such as temperature and current, the actual spectral output of any given LED will vary. Output plots and nominal wavelength specs are only intended to be used as a guideline.
  • When Driven at the Maximum Current
  • Irradiance is measured at a distance of 200 mm from the LED.
Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available
M780D2 Support Documentation
M780D2780 nm, 200 mW (Min) LED on Metal-Core PCB, 800 mA
$67.55
Today
M780D3 Support Documentation
M780D3780 nm, 800 mW (Min) LED on Metal-Core PCB, 800 mA
$121.12
Lead Time
M810D2 Support Documentation
M810D2810 nm, 325 mW (Min) LED on Metal-Core PCB, 500 mA
$72.79
3 weeks
M810D4 Support Documentation
M810D4810 nm, 810 mW (Min) LED on Metal-Core PCB, 1000 mA
$118.77
Lead Time
M850D2 Support Documentation
M850D2850 nm, 900 mW (Min) LED on Metal-Core PCB, 1200 mA
$67.55
Today
M850D3 Support Documentation
M850D3850 nm, 1400 mW (Min) LED on Metal-Core PCB, 1500 mA
$131.61
Today
M880D2 Support Documentation
M880D2880 nm, 300 mW (Min) LED on Metal-Core PCB, 1000 mA
$67.55
Today
M940D2 Support Documentation
M940D2940 nm, 800 mW (Min) LED on Metal-Core PCB, 1000 mA
$67.55
Today
M970D3 Support Documentation
M970D3970 nm, 600 mW (Min) LED on Metal-Core PCB, 1000 mA
$85.64
Today
M1050D1 Support Documentation
M1050D11050 nm, 50 mW (Min) LED on Metal-Core PCB, 700 mA
$79.78
3 weeks
M1050D3 Support Documentation
M1050D31050 nm, 160 mW (Min) LED on Metal-Core PCB, 600 mA
$190.68
Today
M1100D1 Support Documentation
M1100D11100 nm, 168 mW (Min) LED on Metal-Core PCB, 1000 mA
$208.78
Lead Time
M1200D3 Support Documentation
M1200D31200 nm, 136 mW (Min) LED on Metal-Core PCB, 1000 mA
$162.21
Lead Time
M1300D2 Support Documentation
M1300D2Customer Inspired! 1300 nm, 25 mW (Min) LED on Metal-Core PCB, 500 mA
$123.87
Today
M1300D3 Support Documentation
M1300D31300 nm, 122.8 mW (Min) LED on Metal-Core PCB, 1000 mA
$165.78
Lead Time
M1450D3 Support Documentation
M1450D31450 nm, 81.8 mW (Min) LED on Metal-Core PCB, 1000 mA
$159.99
Lead Time
M1550D2 Support Documentation
M1550D2Customer Inspired! 1550 nm, 31 mW (Min) LED on Metal-Core PCB, 1000 mA
$146.75
Today
M1650D2 Support Documentation
M1650D21650 nm, 13 mW (Min) LED on Metal-Core PCB, 600 mA
$205.52
Today

Purple LED (455 nm / 640 nm)

Our dual-peak LED was designed for applications requiring illumination in both red and blue portions of the spectrum, such as horticulture. This purple LED features dual peaks at 455 nm and 640 nm, respectively, to stimulate photosynthesis (see graph to compare the absorption peaks of photosynthesis pigments with the LED spectrum). The LED was designed to maintain the red/blue ratio of the emission spectrum over its lifetime to provide high uniformity of plant growth.

Item # Nominal
Wavelengtha,b
LED Output Powerb,c Bandwidth
(FWHM)
Irradiance
(Typical)d
Maximum
Current
(CW)
Forward
Voltagec
Viewing Angle
(Full Angle
at Half Max)
Emitter Size MCPCB
Thickness
Minimum Typical
MPRP1D2e 455 nm (12.5%f)
/ 640 nm
275 mW 325 mW N/A 3.7 µW/mm2 300 mA 3.1 V 115° 1 mm x 2 mm 1.6 mm
  • Click on the wavelength to view a typical spectrum for the LED.
  • Due to variations in the manufacturing process and operating parameters such as temperature and current, the actual spectral output of any given LED will vary. Output plots and nominal wavelength specs are only intended to be used as a guideline.
  • When Driven at the Maximum Current
  • Irradiance is measured at a distance of 200 mm from the LED.
  • This LED is phosphor-converted and may not turn off completely when modulated above 10 kHz at duty cycles below 50%.
  • Percentage of LED intensity that emits in the blue portion of the spectrum, from 400 nm to 525 nm. Click on the wavelength for details.
Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available
MPRP1D2 Support Documentation
MPRP1D2455 nm (12.5%) / 640 nm, 275 mW (Min) LED on Metal-Core PCB, 300 mA
$46.82
Today

White LEDs (400 - 700 nm Wavelength Range)

Our warm, neutral, and cold white LEDs feature broad spectra that span several hundred nanometers. The difference in appearance among these LEDs can be described using the correlated color temperature, which indicates that the LEDs color appearance is similar to a black body radiator at that temperature. In general, warm white LEDs offer a spectrum similar to a tungsten source, while cold white LEDs have a stronger blue component to the spectrum; neutral white LEDs provide a more even illumination spectrum over the visible range than warm white or cold white LEDs. Cold white LEDs are more suited for fluorescence microscopy applications or cameras with white balancing, because of a higher intensity at most wavelengths compared to warm white LEDs. Neutral white LEDs are ideal for horticultural applications.

Item # Nominal
Wavelengtha,b
LED Output Powerb,c Bandwidth
(FWHM)
Irradiance
(Typical)d
Maximum
Current
(CW)
Forward
Voltagec
Viewing Angle
(Full Angle
at Half Max)
Emitter Size MCPCB
Thickness
Minimum Typical
MWWHD3e 3000 Kf 2000 mW 2300 mW N/A 37.0 µW/mm2 700 mA 11.7 V 125° 3.5 mm x 3.5 mm 1.6 mm
MNWHD2e 4900 Kf 740 mW 880 mW N/A 7.7 µW/mm2 1225 mA 2.9 V 150° 1 mm x 1 mm 2.4 mm
MCWHD5e 6500 Kf 930 mW 1370 mW N/A 25.9 µW/mm2 1300 mA 3.3 V 80° 1 mm x 1 mm 1.6 mm
MCWHD4e 6500 Kf 990 mW 1430 mW N/A 25.0 µW/mm2 1200 mA 2.8 V 120° 1 mm x 1 mm 2.4 mm
MCWHD3e 6500 Kf 2350 mW 2700 mW N/A 41.3 µW/mm2 700 mA 11.7 V 125° 3.5 mm x 3.5 mm 1.6 mm
  • Click on the wavelength to view a typical spectrum for the LED.
  • Due to variations in the manufacturing process and operating parameters such as temperature and current, the actual spectral output of any given LED will vary. Output plots and nominal wavelength specs are only intended to be used as a guideline.
  • When Driven at the Maximum Current
  • Irradiance is measured at a distance of 200 mm from the LED.
  • This LED is phosphor-converted and may not turn off completely when modulated above 10 kHz at duty cycles below 50%.
  • Correlated Color Temperature
Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available
MWWHD4 Support Documentation
MWWHD43000 K, 1713 mW (Min) LED on Metal-Core PCB, 700 mA
$80.60
Lead Time
MWUVD1 Support Documentation
MWUVD14000 K, 235 mW (Min) LED on Metal-Core PCB, 125 mA
$58.79
Lead Time
MNWHD2 Support Documentation
MNWHD24900 K, 740 mW (Min) LED on Metal-Core PCB, 1225 mA
$51.38
Today
MCWHD5 Support Documentation
MCWHD56500 K, 930 mW (Min) LED on Metal-Core PCB, 1300 mA
$68.39
Today
MCWHD6 Support Documentation
MCWHD66500 K, 942 mW (Min) LED on Metal-Core PCB, 1300 mA
$66.99
Lead Time
MCWHD8 Support Documentation
MCWHD86500 K, 1300.9 mW (Min) LED on Metal-Core PCB, 2000 mA
$72.42
Lead Time
MCWHD7 Support Documentation
MCWHD76500 K, 2064.8 mW (Min) LED on Metal-Core PCB, 700 mA
$84.48
Lead Time

Broadband LED (470 - 850 nm)

The MBB1D1 broadband LED has been designed to have a relatively flat spectral emission over a wide wavelength range. Its FWHM bandwidth ranges from 500 nm to 780 nm, while the 10 dB bandwidth ranges between 470 nm and 850 nm.

Item # Nominal
Wavelengtha,b
LED Output Powerb,c Bandwidth
(FWHM)
Irradiance
(Typical)d
Maximum
Current
(CW)
Forward
Voltagec
Viewing Angle
(Full Angle
at Half Max)
Emitter Size MCPCB
Thickness
Minimum Typical
MBB1D1e 470 - 850 nmf 70 mW 80 mW 280 nm 12.5 µW/mm2 500 mA 3.6 V 120° 1 mm x 1 mm 1.6 mm
  • Click on the wavelength to view a typical spectrum for the LED.
  • Due to variations in the manufacturing process and operating parameters such as temperature and current, the actual spectral output of any given LED will vary. Output plots and nominal wavelength specs are only intended to be used as a guideline.
  • When Driven at the Maximum Current
  • Irradiance is measured at a distance of 200 mm from the LED.
  • The LED may not turn off completely when modulated at frequencies above 1 kHz with a duty cycle of 50%, as the broadband emission is produced by optically stimulating emission from phosphor. For modulation at frequencies above 1 kHz, the duty cycle may be reduced. For example, 10 kHz modulation is attainable with a duty cycle of 5%
  • 10 dB Bandwidth
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MBB1D1 Support Documentation
MBB1D1470 - 850 nm Broadband LED, 70 mW (Min) on Metal-Core PCB, 500 mA
$435.57
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MBB2D1 Support Documentation
MBB2D1IR Broadband LED (770 nm, 860 nm & 940 nm), 740 mW (Min) on Metal-Core PCB, 1000 mA
$482.55
Lead Time

LED Connection Cable

 Pin Code
Male M8x1 Connector
Pin Description Wire Color
1 LED Anode Brown
2 LED Cathode White
3 EEPROM GND Black
4 EEPROM IO Blue
  • 4-Pin M8 Connector on One Side
  • 4 Bare Wires on Other Side
  • 2 m Long, 24 AWG Wires

The 4-Pin M8 connection cable can be used to connect the LEDs on metal-core PCBs to the following Thorlabs LED drivers: LEDD1B, DC2100, DC4100, and DC4104 (the latter two require the DC4100-HUB).

Pin Connections 
The diagram above shows the male connector for use with the above Thorlabs LED drivers. The connector is a standard M8x1 sensor circular connector. Pins 1 and 2 are the connection to the LED. Please note that the bare PCB board LEDs shown on this page do not include an EEPROM like our mounted LEDs; hence pins 3 and 4 should not be connected. Also, note that the pin connection diagram shown here may not be valid for third-party LED drivers.

For customers using their own power supplies, we also offer a female 4-pin M8 connector cable (item # CON8ML-4).

Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available
CAB-LEDD1 Support Documentation
CAB-LEDD1LED Connection Cable, 2 m, M8 Connector, 4 Wires
$18.52
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