Performance
Characteristics
Power consumption (W)
Nominal efficacy (lm/W)
Luminaire output flux (lm)
Luminaire efficacy (lm/W)
Photometry (**)
Nominal flux (lm) (*)
GENERAL INFORMATION Recommended installation height
ELECTRICAL INFORMATION Electrical class
Up to 40m
EU class I or II
Number of LEDs
Current (mA)
Driver Current (A)
Luminaire
Typical
Typical
Typical
Typical
Typical
Nominal voltage
198-264V – 50Hz
FutureProof
Easy replacement of the photometric engine and electronic assembly on-site
Power factor
> 95% at full load
50
350
0.24
9226
55
169
8119
149
Surge protection
10kV 20kV / 20kA (optional)
50
500
0.34
12555
78
161
11048
142
Driver included
Yes
50
700
0.48
16814
111
152
14797
134
ROHS compliant
Yes
Electromagnetic compatibility (EMC)
SANS 55015:2013/A1:2015, SANS 61000-3-2:2014, SANS 61000-3- 3:2013, SANS 61547:2009, SANS 62493:2015 Schréder ITERRA Schréder EXEDRA remote management Incorporated NEMA socket assembly – 3-pin Incorporated NEMA socket assembly – 7-pin, Schréder EXEDRA ready or compatible with standard daylight switch
60
350
0.28
11071
65
171
9742
150
Testing standard
SANS 475, SANS 60598, SANS 62262
60
500
0.40
15066
93
163
13258
143
Weight (kg)
MIDI: 10.5 MAXI: 16.5 MIDI: 0.11 MAXI: 0.18
Control options
60
600
0.48
17622
111
158
15507
139
60
700
0.57
20177
131
154
17756
135
Aerodynamic resistance (CxS) (m 2 )
80
350
0.37
14761
84
175
12990
154
80
500
0.53
20088
122
165
17678
145
HOUSING AND FINISH Housing
80
600
0.64
23496
147
160
20676
141
Marine grade high-pressure die-cast aluminium (EN 1706 AC-44300)
100
500
0.66
25110
151
166
22097
146
100
700
0.94
33629
217
155
29593
137
Optic
Acrylic PMMA
120
500
0.78
30132
179
168
26516
148
OPTICAL INFORMATION LED colour temperature 4000K (Neutral white 740)
Protector
High-impact clear glass High-impact polycarbonate (optional)
120
700
1.12
40355
257
157
35512
138
3000K (Warm white 730) (optional) 5700K (Cool white 757) (optional) ≥ 70 (Neutral white 740) ≥ 70 (Warm white 730) (optional) ≥ 70 (Cool white 757) (optional)
140
500
0.91
35154
209
168
30936
148
Housing finish
Unpainted aluminium
140
600
1.11
41117
254
162
36183
142
Tightness level
IP 66
Colour rendering index (CRI)
160
500
1.04
40176
239
168
35355
148
Impact resistance
High-impact clear glass: IK 09 High-impact polycarbonate: IK 10
160
550
1.15
43584
265
165
38354
145
Tolerance on LED flux is ± 7% and on total luminaire power ± 5% (*) The nominal flux is an indicative LED flux @ Ts 85°C based on LED manufacturer’s data. The real flux output of the luminaire depends on environmental conditions (e.g. temperature and pollution) and the optical efficiency of luminaire. The type of LED used is subject to change due to the ongoing rapid progress taking place in LED technology. (**) Custom combinations of lenses/optics to suit the project are available on request.
Access for maintenance Easy access to the gear
Standard optic
5366
compartment by means of a hinging mechanism
OPERATING CONDITIONS Operating temperature range (Ta)
-35°C up to +50°C (*)
(*) Depending on the luminaire inclination and driving current. For more details, please contact us.
LensoFlex ® 4
LIFETIME OF THE LEDS @ TQ 25°C For all versions
LensoFlex ® 4 maximises the heritage of the LensoFlex ® concept with a very compact yet powerful photometric engine based upon the addition principle of photometric distribution. The number of LEDs in combination with the driving current determines the intensity level of the light distribution. With optimised light distributions and very high efficiency, this fourth generation enables the products to be downsized to meet application requirements with an optimised solution in terms of investment. LensoFlex ® 4 optics can feature backlight control to prevent intrusive lighting, or a glare limiter for high visual comfort.
100,000h - L95B10
LIFETIME OF THE DRIVER @ TQ 25°C For all versions
100,000h ≤10% failure rate
BlastFlex TM 4
Using collimators made of high-transmission PMMA, the BlastFlex™4 photometric engine offers the highest efficiency for directional beams dedicated to specific applications in architectural and sports lighting. The ability to control the light with the highest accuracy reduces light spill in the surroundings, improves uniformity on the area to be lit and contributes to optimal use of the energy consumed.
490
491
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