Home / Products / Outdoor Lighting / Area Floodlighting / Areaflood Pro 2 / Areaflood Pro 2, Large / AFP2 L 144L70 740 A4 H CLO BS 3525 SP ->

Areaflood Pro 2 / AFP2 L 144L70 740 A4 H CLO BS 3525 SP ->

92998081

Data Sheet

A compact, lightweight, general purpose LED area floodlight. With large body. driving 144 LEDs at 700mA with Asymmetrical 40° light distribution. IP66, IK08, Class I electrical. Body: die-cast aluminium (EN AC-44300), Light grey 150 sanded textured (close to RAL9006). High transmission Glass. Enclosure: 5mm thick toughened glass. Reversable mounting stirrup supplied, optional spigot adaptors available separately for post top mounting. BSxyzz: Autonomous, physically disconnectable, bi-power reduction (x: hours before midnight, y: hours after midnight, zz: reduction (%)). Driver programmed for constant light output. Fitted with 10kV surge protection. Pre-wired with 3m, 1.5mm² H07RN-F cable. Complete with 4000K LED.




Dimensions: 729 x 360 x 115 mm
Luminaire input power: 298 W
Luminaire luminous flux: 48099 lm
Luminaire efficacy: 161 lm/W
Weight: 14.18 kg
Scx: 0.068 m²

Mode selection
  • Lamp position:STD - standard
  • Light Source:LED
  • Luminaire luminous flux*:48099 lm
  • Luminaire efficacy*:161 lm/W
  • Colour Rendering Index min.:70
  • Ballast:2 x 87500991 LCO 165/200-1050/285 o4a NF C EXC3
  • Correlated colour temperature*:4000 Kelvin
  • Chromaticity tolerance (initial MacAdam):5
  • Rated median useful life*:L95 100000 h at 25 °C
  • Luminaire input power*:298 W Power factor = 0.99
  • LED
  • 0.5
  • BWS - ball proof
  • ENEC+
  • GLedReP
  • IK08
  • IP66
  • Coastal_C5
  • LLedReP
  • RCM
  • SC1 - Protection Class 1

Photometry

Photometric configuration

CalcExpress

Use CalcExpress to quickly carry out quick online calculations of required indoor luminaire numbers for rectangular rooms. Enter the calculation parameters for your solution such as room dimensions, mounting height, height of the useful plane and required level of illuminance, and the site will instantly suggest a solution according to the light output ratio method.

Step 1: Technical data
(lm)
(m)
(m)
(%)
Step 2: Room Data
(m)
(m)
(m)
(m)
(%)
Step 3: Result
(lx)
(%)