High / Low Bay Datasheet

Solid-State Lighting Series High / Low Bay Datasheet High / Low Bay lighting is typically used in industrial applications. They have the same features as high Opteon solution of light in low/high ceiling applications. The appearance of Opteon High / Low Bay is as similar as traditional High / Low Bay lighting but it saves more energy and has lower light depreciation rates to decrease both energy and maintenance cost. Without complicated installation and too much limited condition, Opteon High / Low Bay provides a great lighting solution for industrial applications. Features : Solid State Lighting Technology Superior Quality Light Energy Saving(50W/100W/120W) Ecologically Friendly Long Life-Time IP65 Copyright 2010 Opteon. All right reserved. The information in this document is subject to change without notice. version : 5

Table of Contents Nomenclature... 2 Dimensions... 3 Absolute Maximum Ratings... 4 4 5 Light Pattern... 8 Applications... 9 Environmentally Friendly... 11 Package Information... 14 15 Nomenclature The following table describes the available colors, and wattage. E B 1 W - 05 0-0 X1 X2 X3 X4 X5 X6 X7 X1 LED Item X2 Module X4 Emitting Color X5 Watt X6 Filed Angle X7 Serial No. Code Type Code Type Code Type Code Type Code Type Code Type Code Type E Opteon B Bay 0 W Cool White 05 50W 0 90º 0 Driver external 1 H Neutral White 10 100W 1 40º 1 Driver internal 2 X Warm White 12 120W 2 60º 3 Heat-sink lengthen version 3 120º (Driver external) 4 Heat-sink lengthen version (Driver internal) Figure 1 : High / Low Bay nomenclature. Copyright 2010 Opteon. All right reserved. The information in this document is subject to change without notice. version : 5 2

Dimensions EB1x - 05xx (50W) Ø153 146 245 Ø360 EB1x - 10xx (100W) Ø153 Ø153 280 380 230 330 Ø360 EB1x - 12xx (120W) Copyright 2010 Opteon. All right reserved. The information in this document is subject to change without notice. version : 5 3 Ø360 Figure 2 : High / Low Bay dimensions. Notes: 1. Unit : mm. 2. Tolerance : ± 5.0 mm.

Absolute Maximum Ratings The following table shows electrical characteristics and operating temperature of Low/High Bay. Part No. Symbol Rating Units Plastic Housing Temperature T C 80 C Operating Temperature T opr -30~50 C Storage Temperature T stg -40~60 C AC Input Voltage(50W) V 90~264 V AC Input Voltage(100/120W) V 90~277 V LED Life Time 25,000 hrs EDIS Temperature T EDIS 80 C Table 1 : High / Low Bay absolute maximum ratings. The following describes the choices of color temperature, angles, and CRI of Low/High Bay for Part No. Rating Units Power Consumption Field Angle 50 / 100 / 120 *1, 2 40 / 60 / 90 / 120 W Degree Color Temperature 5300~6300 / 3800~4500 / 2800~3200 K CRI 70 / 75 / 80 / Weight (EB1x - 05xx) Weight (EB1x - 10xx) Weight (EB1x - 12xx) 3.3±0.2 4.8±0.2 5.6±0.2 kg kg kg Notes: 1. Power consumption has 5% tolerance. 2. Thermal equilibrium at 50 degree C ambient. Copyright 2010 Opteon. All right reserved. The information in this document is subject to change without notice. version : 5 4

Power Consumption 50W Part No. CCT Field Angle Flux (min.) Flux EB1W-051x 5300~6300K 40 2100 lm 2300 lm EB1H-051x 3800~4500K 40 1750 lm 1950 lm EB1X-051x 2800~3200K 40 1650 lm 1850 lm EB1W-052x 5300~6300K 60 2350 lm 2600 lm EB1H-052x 3800~4500K 60 2000 lm 2200 lm EB1X-052x 2800~3200K 60 1900 lm 2100 lm EB1W-050x 5300~6300K 90 2400 lm 2700 lm EB1H-050x 3800~4500K 90 2100 lm 2300 lm EB1X-050x 2800~3200K 90 2000 lm 2200 lm EB1W-053x 5300~6300K 120 2350 lm 2600 lm EB1H-053x 3800~4500K 120 2000 lm 2200 lm EB1X-053x 2800~3200K 120 1900 lm 2100 lm Power Consumption 100W Part No. CCT Field Angle Flux (min.) Flux EB1W-101x 5300~6300K 40 3850 lm 4250 lm EB1H-101x 3800~4500K 40 3150 lm 3500 lm EB1X-101x 2800~3200K 40 2750 lm 3050 lm EB1W-102x 5300~6300K 60 4300 lm 4800 lm EB1H-102x 3800~4500K 60 3600 lm 4000 lm EB1X-102x 2800~3200K 60 3100 lm 3450 lm EB1W-100x 5300~6300K 90 4500 lm 5000 lm EB1H-100x 3800~4500K 90 3700 lm 4100 lm EB1X-100x 2800~3200K 90 3300 lm 3600 lm EB1W-103x 5300~6300K 120 4300 lm 4800 lm EB1H-103x 3800~4500K 120 3600 lm 4000 lm EB1X-103x 2800~3200K 120 3100 lm 3450 lm Copyright 2010 Opteon. All right reserved. The information in this document is subject to change without notice. version : 5 5

Power Consumption 120W Part No. CCT Field Angle Flux (min.) Flux EB1W-121x 5300~6300K 40 5400 lm 6000 lm EB1H-121x 3800~4500K 40 4350 lm 4850 lm EB1X-121x 2800~3200K 40 3800 lm 4250 lm EB1W-122x 5300~6300K 60 6050 lm 6700 lm EB1H-122x 3800~4500K 60 5000 lm 5500 lm EB1X-122x 2800~3200K 60 4300 lm 4800 lm EB1W-120x 5300~6300K 90 6300 lm 7000 lm EB1H-120x 3800~4500K 90 5100 lm 5700 lm EB1X-120x 2800~3200K 90 4500 lm 5000 lm EB1W-123x 5300~6300K 120 6050 lm 6700 lm EB1H-123x 3800~4500K 120 5000 lm 5500 lm EB1X-123x 2800~3200K 120 4300 lm 4800 lm Copyright 2010 Opteon. All right reserved. The information in this document is subject to change without notice. version : 5 6

Power Consumption 50W Part No. Lux@ 4m Lux@ 6m Lux@ 8m Lux@ 10m Lux@12m EB1W-051x 410 180 100 64 44 EB1H-051x 340 150 84 52 36 EB1X-051x 320 140 80 50 34 EB1W-052x 240 107 58 38 26 EB1H-052x 200 89 50 30 20 EB1X-052x 90 82 45 30 20 EB1W-050x 205 90 50 32 22 EB1H-050x 170 75 42 26 18 EB1X-050x 160 70 40 25 17 EB1W-053x 110 50 28 18 12 EB1H-053x 90 40 23 14 9 EB1X-053x 88 38 22 14 9 Power Consumption 100W Part No. Lux@ 4m Lux@ 6m Lux@ 8m Lux@ 10m Lux@12m EB1W-101x 800 350 194 124 84 EB1H-101x 640 280 154 98 68 EB1X-101x 560 240 136 84 60 EB1W-102x 470 208 115 74 50 EB1H-102x 380 165 90 58 40 EB1X-102x 330 140 80 50 36 EB1W-100x 400 175 97 62 42 EB1H-100x 320 140 77 49 34 EB1X-100x 280 120 68 42 30 EB1W-103x 220 95 53 34 23 EB1H-103x 175 75 42 27 19 EB1X-103x 155 65 37 23 17 Copyright 2010 Opteon. All right reserved. The information in this document is subject to change without notice. version : 5 7

Power Consumption 120W Part No. Lux@ 4m Lux@ 6m Lux@ 8m Lux@ 10m Lux@12m EB1W-121x 1120 490 270 170 118 EB1H-121x 900 390 215 138 96 EB1X-121x 780 330 190 118 84 EB1W-122x 665 290 161 103 70 EB1H-122x 535 230 128 82 57 EB1X-122x 460 195 113 70 50 EB1W-120x 560 245 136 87 59 EB1H-120x 450 195 108 69 48 EB1X-120x 390 165 95 59 42 EB1W-123x 310 135 75 48 33 EB1H-123x 250 110 60 38 26 EB1X-123x 210 90 52 32 23 Light Patterns 40 60 90 120 1600 800 800 400 2400 1200 1200 600 1600 cd/klm C0-C180 C90-C270 cd/klm C0-C180 C90-C270 cd/klm C0-C180 C90-C270 cd/klm C0-C180 C90-C270 EB1x - xx1x EB1x - xx2x EB1x - xx0x EB1x - xx3x Figure 3 : High / Low Bay light patterns. Copyright 2010 Opteon. All right reserved. The information in this document is subject to change without notice. version : 5 8

Applications Opteon High / Low Bay can produce an intense light in a certain area. It can be easily installed or replaced a traditional High / Low Bay lighting in warehouse, factory, gymnasium, large outlet, and etc. Figure 4 : High / Low Bay application. Copyright 2010 Opteon. All right reserved. The information in this document is subject to change without notice. version : 5 9

Application 100W High Bay Application. Figure 5 : High / Low Bay light plan example : warehouse application. Figure 6 : High / Low Bay light plan example : warehouse simulation picture. Copyright 2010 Opteon. All right reserved. The information in this document is subject to change without notice. version : 5 10

Environmentally Friendly Opteon in preserving the forest by reducing energy consumption, and CO2 emission one step at a time. Replacing traditional mercury vapor lamp with Opteon EdiStar Module lighting application, one can help in reducing golbal warming by lots of CO2 annually. 50W Low Bay VS 100W Mercury Vapor Lamp Power Reduction by 50% = Reduction of CO 2 emission by 168 kg = Saves 12 trees a year Figure 7 : 50W Low Bay VS 100W Mercury Vapor Lamp. Note : Calculation based on 24 hours of daily operation. Copyright 2010 Opteon. All right reserved. The information in this document is subject to change without notice. version : 5 11

Environmentally Friendly 100W High Bay VS 250W Mercury Vapor Lamp Power Reduction by 60% = Reduction of CO 2 emission by 505 kg = Saves 36 trees a year Figure 8 : 100W High Bay VS 250W Mercury Vapor Lamp. Note : Calculation based on 24 hours of daily operation. Copyright 2010 Opteon. All right reserved. The information in this document is subject to change without notice. version : 5 12

Environmentally Friendly 120W High Bay VS 400W Mercury Vapor Lamp Power Reduction by 70% = Reduction of CO 2 emission by 1286 kg = Saves 92 trees a year Figure 9 : 120W High Bay VS 400W Mercury Vapor Lamp. Note : Calculation based on 24 hours of daily operation. Copyright 2010 Opteon All right reserved. The information in this document is subject to change without notice. version : 5 13

Package Information 1.50W Packge 2.100W Packge 3.100W Packge (driver external) 4.120W Packge 5.120W Packge (driver external) Notes : 1. 50W Package : 170mm(width)*170mm(length)*315mm(height) 2. 100W heatsink length version : 170mm(width)*170mm(length)*405mm(height) 3. 100W heatsink length version (driver external) : 170mm(width)*220mm(length)*405mm(height) 4. 120W heatsink length version : 170mm(width)*170mm(length)*460mm(height) 5. 120W heatsink length version (driver external) : 170mm(width)*220mm(length)*460mm(height) Figure 10 : High / Low Bay package. Copyright 2010 Opteon. All right reserved. The information in this document is subject to change without notice. version : 5 14

Date 1 1. Establish a Datasheet. 2010.02.01 2 3 1. Update the Flux and Lux of the Illuminance and Field Angles. 1. Update the Flux and Lux of the Illuminance. 2. Update the Nomenclature of the Speciications. 2010.05.03 2010.07.01 4 1. Revised the size of heatsink. 2010.10.13 5 1.Revised the AC Input Voltage of Absolute Maximum Ratings 2011.01.14 Copyright 2010 Opteon. All right reserved. The information in this document is subject to change without notice. version : 5 15