Omega Moduline / OMEGA M 4100-840 HFIX WHG Q600

96636365

Data Sheet

A sustainable LED panel utilising replaceable modular linear LED light sources and driver for office and education applications. Each complete LED module can be easily replaced tool-free and offers a simple click-in mechanism, this allows a change of LED modules at end of life or the change of colour temperature or colour rendering if desired. A combination of deep cells with primary lenses provides high quality lighting with even light distribution and efficient glare control at very high brightness of the LED modules. Electronic, DALI-2 dimmable. Class II electrical, IP20, Impact strength: IK03. Body: white. LED module reflector finished in white. Suitable for recessed lay in grid ceilings as standard and when combined with additional accessories will allow installation in concealed ceilings, plasterboard ceilings, surface-mounted and suspended. All accessories need to be ordered separately. Rated median useful life: L90 50000 h at 25 °C. Colour Rendering Index min.: 80 Complete with 4000K LED.

Dimensions: 597 x 597 x 33 mm
Luminaire input power: 29.8 W
Luminaire luminous flux: 4400 lm
Luminaire efficacy: 148 lm/W
Weight: 2.65 kg

Mode selection
  • Lamp position:STD - standard
  • Light Source:LED
  • Luminaire luminous flux*:4400 lm
  • Luminaire efficacy*:148 lm/W
  • Colour Rendering Index min.:80
  • Ballast:1 x 28000672 LCA 45W 500-1400mA one4all SR PRE
  • Correlated colour temperature*:4000 Kelvin
  • Chromaticity tolerance (initial MacAdam):3
  • Rated median useful life*:L90 50000 h at 25 °C
  • Luminaire input power*:29.8 W Power factor = 0.95
  • Dimming:Dali2Dim
  • Total harmonic distortion (THD):9.00 %

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
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Step 2: Room Data
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Step 3: Result
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