XLamp MHD-G

New category of LED arrays to achieve lowest system cost

The XLamp® MHD-G LED is a new category of high-power LED arrays that delivers a better way to achieve low-cost systems than multiple mid-power (MP) LEDs. Built using Cree’s high-reliability ceramic-package technology, the XLamp MHD-G is able to operate at higher temperatures than MP LEDs with no reduction in rated lifetime, enabling an impressive 60% reduction in heat-sink size and cost. Using many times fewer LEDs than MP LEDs to achieve the same performance, the XLamp MHD-G LED is optimized to simplify LED system designs for directional and semi-directional applications.

Size 7 x 7 mm
Product Options 18 V
36 V
High-CRI
Maximum Drive Current 1.0 A (18 V)
0.5 A (36 V)
Maximum Power 19 W
Maximum Light Output 2545 lm
Maximum Efficacy at Binning Conditions 134 lm/W
Typical Forward Voltage 18.2 V @ 700 mA (18V)
36.4 V @ 350 mA (36V)
Viewing Angle 115 °
Maximum Junction Temperature 150 °C
Maximum Reverse Current -0.1 mA
Binning 85°C
2- 3- and 5-Step EasyWhite®
Maximum ESD Withstand Voltage 8000 V (HBM per Mil-Std-883D)
RoHS-Compliant Yes
REACH-Compliant Yes
Reflow Solderable Yes - JEDEC J-STD-020C-compatible
UL-Recognized Yes - Level 4 Enclosure Consideration

Applications

CRI Color Temperature (K)
2700,
3000,
3500
4000 5000,
5700,
6500
Min 70  
Min 80
Min 90

Related Documents

Data Sheet Version Last Updated
1H 22 Dec 2015
Design Files Version Last Updated
Sales Terms Version Last Updated
XLamp Application Notes Version Last Updated
5C 15 Aug 2016
Download the Application Note and watch this video to learn more about Cree's Chemical Compatibility Testing Procedures
05 Oct 2011
1E 17 May 2013
28 06 Jan 2017
18 01 Jan 2017
0E 24 Jul 2007
3C 04 Aug 2016
2I 10 Feb 2012
1D 07 Dec 2012
1D 22 Oct 2013
1C 17 Feb 2016
1D 07 Dec 2012
2E 13 May 2013
1C 27 May 2014
1B 23 Nov 2015
3F 01 Jan 2017
XLamp Feature Sheets Version Last Updated
02 Dec 2015
02 Dec 2015
02 Dec 2015
XLamp LEDs Product Ecology Version Last Updated
MHD-E, MHD-G
RE2107062016 20 Jun 2016
MHD-E, MHD-G
RS2107032016 08 Mar 2016