Features

• Wavelengths Ranging from 365 nm to 1050 nm
• High-Power Outputs Ranging from 35 mW to 900 mW
• Warm White and Cold White LED Also Available
• LED Mounted on Metal-Core Printed Circuit Board for Excellent Heat Management

Thorlabs' High-Power LEDs on Metal-Core Printed Circuit Boards (MCPCBs) are designed to provide high-power output in a compact package. Each LED consists of a single high-power LED with multiple emitters that has been soldered to an MCPCB.

Thorlabs uses high thermal conductivity MCPCB material from Berquist. The MCPCB is designed to provide good thermal management; however, the LED must still be mounted onto a 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 holes are compatible with #1 (M2) screws (not included). Therefore, these LEDs are ideal for OEM or custom applications.

Thorlabs also offers Mounted High-Power LEDs with an integrated heat sink, as well as Collimated Mounted LEDs, which are better suited for laboratory use where there are fewer space constraints. For questions on choosing an appropriate LED and to discuss mounting requirements, please contact Tech Support.

Optimized Thermal Management
These high-power LEDs possess good thermal stability properties, and hence, degradation of 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 or thermally conductive double-sided tape. For more details, please see the Stability tab.

Driver Options and Pin Assignments
Thorlabs offers four drivers: LEDD1B, DC2100, DC4100 and DC4104 (the latter two require the DC4100-HUB). See the Drivers tab for compatibility and driver features tab for a list of specifications. The LEDD1B is capable of providing LED modulation frequencies up to 5 kHz, while DC2100, DC4100, and DC4104 can modulate the LED at a rate up to 100 kHz. Please note that these LEDs are not compatible with the EPROM feature of the DC2100, 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 connector labeled "+" is the Anode (+V), and the connector labeled "-" is the Cathode. The other two connectors ("IO" and "GND") do not need to be connected and are reserved for future use. The connectors on different items may be in different locations, but the labels are the same.

For convenient connecting the LEDs to the above drivers please order the optional LED Connection Cable below.

• 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. Output plots and center wavelength specs are only intended to be used as a guideline. Click here to download spectrum data.
• The nominal wavelength indicates the wavelength at which the LED appears brightest to the human eye. This may not correspond to the peak wavelength as measured by a spectrograph.
• The MWWHD1 and MCWHD1 LEDs may not turn off completely when modulated at frequencies above 5 kHz, as the white light is produced by optically stimulating emission from phosphor.

Click to Enlarge

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	DC2100a	DC4100a, b, c	DC4104a, b, c
Click Photos to Enlarge
Max LED Driver Current Output	1.2 A	2.0 A	1.0 A per Channel	1.0 A per Channel
Max Modulation Frequency Using External Input	5 kHzd	100 kHzd	100 kHzd (Simultaneous Across all Channels)	100 kHzd (Independently Controlled Channels)
Interface	Analog	USB 2.0	USB 2.0	USB 2.0
Main Driver Features	Very Compact Footprint 60 mm x 73 mm x 104 mm (W x H x D)	Individual Pulse Width Control	4 Channelsc	4 Channelsc
EEPROM Compatible: Reads Out LED Data for LED Settings	-	x	x	x
LCD Display	-	x	x	x

• Please note that the EPROM readout feature that automatically adjusts the driver's current limit for our mounted LEDs is not compatible with our LEDs on MCPCB.
• LED sources with a forward voltage of greater than 5 V are not compatible with DC4100 and the DC4104.
• 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 when used with the DC4100 or DC4014.
• The MWWHD1 and MCWHD1 LEDs may not turn off completely when modulated at frequencies above 5 kHz, as the white light is produced by optically stimulating emission from phosphor.

Note: The DC3100 driver sold with our Modulated LEDs for FLIM Microscopy kits is not compatible with the LEDs sold on this page.