Omega Pro 2 / OP2 3800 840 CKIT+ MPT BC PIR Q600

92913362

Data Sheet

A recessed/surface/suspended, edge-lit LED luminaire. LED driver, Wireless controlled via App with Bluetooth® 4.x - basicDim Wireless. Class II electrical (this product is not earthed), IP40_IP20, Impact strength: IK03. Body: steel sheet, finished white (close to RAL9016). Diffuser: UV-stabilised polycarbonate microprismatic optic for maximised spacing with central control pod hole. Equipped with presence detector and daylight harvesting function for dimming control plus slaves via bluetooth. Electrical connection via 7 pole piano key terminals, loop-in/loop-out possible. Complete with 4000K LED, Colour Rendering Index min.: 80

Radio definition: basicDIM Wireless - Bluetooth® 4.x, Radio frequency: 2.4...2.483 GHz, Radio power: +4 dBm.


Dimensions: 597 x 597 x 57 mm
Luminaire input power: 29.1 W
Luminaire luminous flux: 3800 lm
Luminaire efficacy: 131 lm/W
Weight: 5.52 kg

Mode selection
  • Lamp position:STD - standard
  • Light Source:LED
  • Luminaire luminous flux*:3800 lm
  • Luminaire efficacy*:131 lm/W
  • Lamp efficacy:130 lm/W
  • Colour Rendering Index min.:80
  • Correlated colour temperature:4000 Kelvin
  • Chromaticity tolerance (initial MacAdam):3
  • Rated median useful life*:L90 50000h at 25°C
  • Ballast:1x LED_DRV Tridonic LCA
  • Luminaire input power*:29.1 W Power factor = 0.97
  • Standby Power*:0.2 W
  • Dimming:BC dimmable to 1%
  • Radio definition: basicDIM Wireless - Bluetooth® 4.x
  • Radio frequency: 2.4...2.483 GHz
  • Radio power: +4 dBm
  • LED
  • CE
  • Einb_NDaeMat
  • 650°
  • IK03
  • IP40_IP20
  • SC2

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)
(%)