Street Lights
From HPS to LEDs Replacing Optical Luminary Luminary Luminous Power Certificate Energy HPS Lens Power Efficacy Flux Saving Ratio Drive 70W 12-LED 20W 150 lm/W 3000 lm MOSO25W 78% 100W 24-LED 30W 160 lm/W 4800 lm MOSO42W 75% 150W 24-LED 40W 150 lm/W 6000 lm MOSO42W 78% 200W 36-LED 60W 150 lm/W 8000 lm MOSO60W 75% CE/ENEC 250W 48-LED 75W 160 lm/W 12000 lm MOSO72W 75% 400W 108-LED 100W 170 lm/W 17000 lm MOSO100W 78% 400W+ 144-LED 120W 175 lm/W 21000 lm MOSO120W 80%
Luminary Power 20W/25W/30W
Luminary Power 40W/50W/60W
Luminary Power 60W/75W/80W/90W
Luminary Power 100W/120W/150W
Luminary Power 180W/200W/240W
Reliability Lower Tj → Longevity (Tj: LED PN Junction Temperature) • Lifetime of LED can be longer than 100,000 hrs while Tj < 55 ℃ •
LM-80 Test Report
TM-21 Calculation TM-21 Inputs LM-80 Test Inputs Description of LED Light Source Tested Test Data for 54.6°C Case Test Data for 84.9°C Case Instructions Tested Case Temperature 3 (manufacturer, model, catalog number) Temperature Temperature Yellow fields are completed by the user. Time Lumen Maintenance Time Lumen Maintenance Time Lumen Maintenance Fields not used should be left blank. (hours) (%) (hours) (%) (hours) (%) Cyan fields are calculated based on user 0 100.00% 0 100.00% entries. 1000 99.99% 1000 99.47% 2000 98.94% 2000 98.24% First, enter a description of the LED light 3000 98.36% 3000 97.34% source tested. Then complete the fields 4000 98.81% 4000 97.52% labeled "LM-80 Testing Details". Test LM-80 Testing Details 5000 98.32% 5000 97.50% duration must be at least 6,000 hours. If Total number of units tested per case temperature: 40 6000 97.96% 6000 96.36% only one case temperature data set is to Number of failures: 0 be used (no interpolation), complete Number of units measured: 40 only "Tested case temperature 1". For Test duration (hours): 6000 only two case temperature data sets, Tested drive current (mA): 60 complete 1 and 2. Tested case temperature 1 (T , °C): 54.6 c Tested case temperature 2 (T , °C): 84.9 Next, further to the right, in the c Tested case temperature 3 (T , °C): corresponding box(es) for each tested c case temperature, enter the test data along with the time (in hours) at which each measurement was taken. Data entered must be normalized then averaged measured data (per TM-21 sections 5.2.1 and 5.2.2). Enter drive current, in-situ temperature In-Situ Inputs data and the percentage of initial Drive current for each lumens to project to in the fields labeled 60 LED package/array/module (mA): " In-Situ Inputs". In-situ case temperature (T , °C): 55 c Results can be tailored to estimate Percentage of initial lumens to project to (e.g. for L , 70 70 lumen maintenance at a specific time by enter 70): entering a value (t) in the yellow field. Results A complete TM-21 report will appear on the next tab labeled "Report". Time (t) at which to estimate lumen maintenance 50,000 (hours): Lumen maintenance at time (t) (%): 84.28% Calculated L70 (hours): 105,000 Reported L70 (hours): >36000
Reliability Good Thermal Management → Lower Tj •
Reliability IP 66/67 → Moisture Resistant •
Reliability Water immersed for 2 hours in production •
Reliability Lens Material •
Reliability UV Test •
Structure Easily Rain Rinsed •
Structure Enclosed Housing • • Enclosed housing structure resistant for dust and insects intrusion • Streamlined smooth upper frame easily for rain rinse • Toolless entry by captive fastener • The patented innovative design incorporates beautiful streamlined upper frame and high thermal conductive bottom cover for heat dissipation. • Corrosion resistant polyester powder paint min. 2.0mil thickness • Fasteners adopt 304 stainless steel
Structure Applied in very cold weather ( Ta = -40 o C ) •
Structure No Cracking by Frozen Ice •
Structure Typhoon Resistant •
Structure IK10 Test •
Electric Wide-range A/C Input and Surge Protection • Electrical 90-305V • System power factor > 0.95 • Total harmonic distortion: <10% at full load • Surge protection per ANSI C136.2-2015: 10kV/5A enhanced • EMI: Title 47 CFR Part 15, Class A • Photoelectric Sensor (PE) available • LoRaWan Smart Control Available ZigBee Smart Control Available
Electric Safety& EMC Regulations Category Standards CE IEC/EN 60598-1 CE IEC/EN 60598-2-3 EMI Standards Notes EN 55015/GB17743-2007 Conducted emission Test & Radiated emission Test EN 61000-3-2/GB17625.1-2003 Harmonic Current Emissions EN 61000-3-3 Voltage Fluctuations & Flicker PSE J 55015 (H20) EMS Standards Notes EN 61000-4-2 Electrostatic Discharge (ESD): 8 kV air discharge, 4 kV contact discharge EN 61000-4-3 Radio-Frequency Electromagnetic Field Susceptibility Test-RS EN 61000-4-4 Electrical Fast Transient / Burst-EFT EN 61000-4-5 Surge Immunity Test: AC Power Line: line to line 4 kV, line to earth 6 kV EN 61000-4-6 Conducted Radio Frequency Disturbances Test-CS EN 61000-4-8 Power Frequency Magnetic Field Test EN 61000-4-11 Voltage Dips EN 61547 Electromagnetic Immunity Requirements Applies To Lighting Equipment
Optical Design Ref: 1) IESNA Light Handbook 2) IESNA RP-08 Roadway Lighting 3) IESNA RP-16-10 Nomenclature & Definition for Illuminating Engineering 4) CIE 126-1997 Guidelines for Minimizing Sky Glow 5) CIE 115 1995 Recommendations for the Lighting of Roads for the Motor and Pedestrian Traffic. 6) CIE 31 1976 Glare and Uniformity in Road Lighting Installation 7) CIE 140 Road Lighting Calculation
Optical Design Choose the light pattern 1) Single Arrangement Transverse: # of Lanes < 2 2(MH=8m) 3(MH =8m) 4(MH =8m) Type I Type II Type III Type IV Longitudinal: 2.8-3.6 MH 1S 2S 3S 4S Pole Spacing 3.5-4.2 MH 1M 2M 3M 4M 4.0-5.5 MH 1L 2L 3L 4L 2) Double Arrangement Transverse: # of Lanes 4(MH=8m) 6(MH =8m) Longitudinal: 2.8-3.6 MH N N Pole Spacing 3.5-4.2 MH M M 4.0-5.5 MH W W
Optical Design Control the glare • LED street lights in Dalian, China Less glare Too much glare
Maintenance Toolless replacing power driver •
Contact Us +27 (0) 818 716 522 https://provprocure.com/ info@provprocure.com Mauritius, Ebène Cybercity, The Catalyst Suite 109 1st Floor
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