Approved Driver List for GE Infusion LED Modules ... - GE Lighting
Approved Driver List for GE Infusion LED Modules ... - GE Lighting
Approved Driver List for GE Infusion LED Modules ... - GE Lighting
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<strong>Approved</strong> <strong>Driver</strong> <strong>List</strong> <strong>for</strong> <strong>GE</strong> <strong>Infusion</strong> <strong>LED</strong> <strong>Modules</strong> (European Voltage Input 220‐240V)<br />
<strong>Driver</strong>s have been tested and approved to <strong>GE</strong> <strong>GE</strong>2018‐4387 test protocol (<strong>GE</strong> internal ref <strong>GE</strong>2018‐4387) <strong>for</strong> use with <strong>Infusion</strong> <strong>LED</strong> <strong>Modules</strong><br />
All drivers measured at 700mA (M1000/M1500 series) and 1400mA (M2000/M3000 series)<br />
<strong>Driver</strong> brand <strong>Driver</strong> model Safety<br />
Compatible<br />
module series Dimming<br />
Auxillary<br />
output Certification Status Comment<br />
New<br />
Addition<br />
Excelsys LXD25‐0700SW‐00G SELV M1000 1‐10V ‐ OK<br />
Excelsys LXD35‐0700SW‐00G SELV M1000 1‐10V ‐ OK<br />
Excelsys LXD35‐0700SW‐00G SELV M1500 1‐10V ‐ OK Output current overshoot at startup<br />
Excelsys LXD35‐0700SW‐00G SELV NPM 1‐10V ‐ OK Output current overshoot at startup<br />
Excelsys LXD40‐0700SW‐00G SELV M1500 1‐10V ‐ OK Output current overshoot at startup<br />
Excelsys LXD40‐0700SW‐00G SELV NPM 1‐10V ‐ OK Output current overshoot at startup<br />
Excelsys LXD40‐1400SW‐00G SELV M2000 1‐10V ‐ OK Output current overshoot at startup<br />
Excelsys LXD50‐1400SW‐00G SELV M2000 1‐10V ‐ OK<br />
Excelsys LXD75‐1400SW‐00G SELV M3000 1‐10V ‐ OK<br />
Excelsys LXD75‐1400SW‐00G SELV M4500 1‐10V ‐ OK x<br />
Harvard CL700 ‐ 240 SELV M1000 NO ‐ OK No repetitive short circuit protection<br />
Harvard CL700 ‐ 240 SELV M1500 NO ‐ OK No repetitive short circuit protection<br />
Harvard CL700 ‐ 240 SELV NPM NO ‐ OK No repetitive short circuit protection<br />
Harvard CL700A ‐ 240 ‐ C Rev6 SELV M1000 1‐10V ‐ OK<br />
Harvard CL700A ‐ 240 ‐ C Rev6 SELV M1500 1‐10V ‐ OK<br />
Harvard CL700A ‐ 240 ‐ C Rev6 SELV NPM 1‐10V ‐ OK<br />
Harvard CL700D ‐ 240 ‐ C SELV M1000 Dali ‐ OK<br />
Harvard CL700D ‐ 240 ‐ C SELV M1500 Dali ‐ OK<br />
Harvard CL700D ‐ 240 ‐ C SELV NPM Dali ‐ OK<br />
Harvard CL700S ‐ 240 SELV M1000 NO ‐ OK No repetitive short circuit protection<br />
Harvard CL700S ‐ 240 SELV M1500 NO ‐ OK No repetitive short circuit protection<br />
Harvard CL700S ‐ 240 SELV NPM NO ‐ OK No repetitive short circuit protection<br />
Harvard CL700S ‐ UNI SELV M1000 NO ‐ OK<br />
Harvard CL700S ‐ UNI SELV M1500 NO ‐ OK<br />
Harvard CL700S ‐ UNI SELV NPM NO ‐ OK<br />
Harvard CLK700S ‐ 240‐C SELV M1000 NO ‐ OK<br />
Harvard CLK700S ‐ 240‐C SELV M1500 NO ‐ OK<br />
Harvard CLK700S ‐ 240‐C SELV NPM NO ‐ OK<br />
Harvard CLQ2700S‐240 SELV M2000 NO ‐ OK<br />
Harvard CLQ2700S‐240 SELV M3000 NO ‐ OK<br />
Harvard CLQ2700S‐240 SELV M4500 NO ‐ OK x<br />
Harvard CL40‐1400F12‐240‐C SELV M2000 NO 12V OK<br />
Harvard CL40‐1400F5‐240‐C SELV M2000 NO 5V OK<br />
Harvard CL50‐1400ADF12‐240‐C SELV M3000 NO 12V OK<br />
Harvard CL50‐1400ADF5‐240‐C SELV M3000 NO 5V OK<br />
Helvar LL120‐U‐CC SELV M1000 NO ‐ OK<br />
Inventronics EUC‐026S070DS SELV M1000 1‐10V ‐ OK<br />
Inventronics EUC‐026S070DS SELV M1500 1‐10V ‐ OK<br />
Inventronics EUC‐026S070PS SELV M1000 NO ‐ OK<br />
Inventronics EUC‐026S070PS SELV M1500 NO ‐ OK<br />
Inventronics EUC‐040S140DS SELV M2000 1‐10V ‐ OK<br />
Inventronics EUC‐040S140PS SELV M2000 NO ‐ OK
Inventronics EUC‐060S140ST SELV M2000 NO ‐ OK<br />
Inventronics EUC‐060S140ST SELV M3000 NO ‐ OK<br />
Inventronics EUC‐060S140ST SELV M4500 NO ‐ OK x<br />
Inventronics EUC‐075S140DT SELV M3000 1‐10V ‐ OK<br />
Inventronics EUC‐075S140DT SELV M4500 1‐10V ‐ OK x<br />
IST iDrive® Quad SELV M1500 DMX‐512A ‐ OK<br />
Lightech <strong>LED</strong> 15 CC 700mA ELBD SELV M1000 NO ‐ OK<br />
Lightech <strong>LED</strong>‐36‐CC‐700‐P240DL SELV M1000 1‐10V ‐ OK<br />
Lightech <strong>LED</strong>‐36‐CC‐700‐P240DL SELV M1500 1‐10V ‐ OK<br />
Lightech <strong>LED</strong>‐36‐CC‐700‐P240DL SELV NPM 1‐10V ‐ OK<br />
Lightronic LD270 SELV M2000 NO ‐ OK<br />
Phihong PDA030A‐700C SELV M1000 NO ‐ OK<br />
Phihong PDA030A‐700C SELV M1500 NO ‐ OK<br />
Phihong PDA030A‐700C SELV NPM NO ‐ OK<br />
Roal Ozone RSOZ070‐60‐Full SELV M3000 1‐10V, Dali 5V OK<br />
Need to program the correct output current with Ozone<br />
Programming Tool RSOZ070‐PTOOL<br />
Roal Ozone RSOZ070‐60‐Full SELV M4500 1‐10V, Dali 5V OK<br />
Need to program the correct output current with Ozone<br />
Programming Tool RSOZ070‐PTOOL<br />
x<br />
Roal Strato RSLD035‐07 SELV M2000 1‐10V ‐ OK<br />
Roal Strato RSLD035‐11 SELV M1500 1‐10V ‐ OK<br />
Roal Strato RSLD035‐12 SELV NPM 1‐10V ‐ OK<br />
Roal Strato RSLD035‐7A SELV M1000 1‐10V ‐ OK<br />
Roal Strato RSLD070‐14 SELV M3000 1‐10V ‐ OK<br />
Roal Strato RSLD070‐14 SELV M4500 1‐10V ‐ OK x<br />
Roal Tropo RLDD015H‐700 SELV M1000 Trailing and leading edge ‐ OK<br />
Roal Vento RCLV035‐07 SELV M2000 1‐10V 5V Pending CE approval to be confirmed<br />
TCI DC Jolly SELV M1000 1‐10V ‐ OK<br />
TCI DC Jolly SELV M1500 1‐10V ‐ OK<br />
TCI DC Jolly Slim SELV M1000 1‐10V ‐ OK<br />
TCI DC Jolly Slim SELV M1500 1‐10V ‐ OK<br />
TCI DC Jolly Slim SELV NPM 1‐10V ‐ OK<br />
TCI Maxi Jolly HC BI SELV M2000 1‐10V 12V OK<br />
TCI Maxi Jolly HC BI SELV M3000 1‐10V 12V OK<br />
TCI Maxi Jolly HC BI SELV M4500 1‐10V 12V OK x<br />
TCI Maxi Jolly HC DALI BI SELV M2000 1‐10V,Dali 12V OK<br />
TCI Maxi Jolly HC DALI BI SELV M3000 1‐10V,Dali 12V OK<br />
TCI Maxi Jolly HC DALI BI SELV M4500 1‐10V,Dali 12V OK x<br />
Tridonic LCI 30 W 700 mA IP20 SELV M1500 NO ‐ OK<br />
Tridonic LCI 30 W 700 mA IP20 SELV NPM NO ‐ OK<br />
Tridonic LCCI 016‐0700 SELV M1000 NO ‐ OK<br />
IMPORTANT NOTICE. This statement of compatibility is based upon a small test sample size and, because applications and conditions of use are many and<br />
varied and beyond <strong>GE</strong>’s control, it is not intended and should not be taken as a representation or warranty as to the suitability of the module <strong>for</strong> any particular<br />
application or use in any particular equipment. <strong>GE</strong> obviously cannot possibly have the same degree of knowledge that the purchaser or designer has with<br />
respect to the design of its equipment and the conditions of use. There<strong>for</strong>e, it is up to the purchaser and designer to make its own determination as to the<br />
suitability of the module <strong>for</strong> its intended application or use and to assume the responsibility <strong>for</strong> that determination. Each user bears full responsibility <strong>for</strong><br />
making its own determination as to the suitability of <strong>GE</strong>'s materials, products, recommendations, analyses, or advice <strong>for</strong> its own particular use. Each user<br />
must identify and per<strong>for</strong>m all tests and analyses necessary to assure that its finished parts incorporating <strong>GE</strong> products will be safe and suitable <strong>for</strong> use under<br />
end-use conditions. Luminaire incorporating the module must be demonstrated to comply with all relevant EMI/EMC regulations. <strong>GE</strong> desires to supply the<br />
best possible products at all times. For this reason, <strong>GE</strong> reserves the right to make changes in its products, and to introduce new products or discontinue<br />
existing ones without notice.