Voyager Fit / Voyager FIT MSC E3D NM BK


Change configuration

  • Base: 96670380 — Voyager FIT MSC E3D NM BK
  • Optic: ESC: escape route emergency optic

Data Sheet

Self contained, surface mounted, non maintained, emergency lighting luminaire with 3 hour, Self/DALI Addressable test, emergency lighting circuit,. Housing: black polycarbonate. Suitable for ceiling surface mounting. Class II electrical, IP20, IK07. Housing 53mm high for side and back cable entry. Complete with 6500K LED.

Interchangeable optics for anti-panic, escape route and spot applications included.

Dimensions: 123 x 123 x 53 mm
Weight: 0.3 kg

Self-contained emergency luminaires rely on long-lasting batteries. Voyager Fit's high-tech lithium iron phosphate battery is robust and comes with a three-year guarantee (applicable subject to the terms and conditions of and to the extent as set forth in the manufacturer's guarantee on Thorn products, which shall be applicable analogously and which is available under The battery guarantee shall not come into effect if the product has been installed later than three(3) months after delivery EXW (Incoterms 2010).

Equipped with:

  • Optics transparent polycarbonate lens for escape emergency lighting. Set of three lenses supplied with the luminaire.
Mode selection
  • Lamp position:ESC (escape route optic)
  • Light Source:LED
  • Luminaire luminous flux*:200 lm
  • Colour Rendering Index min.:80
  • Correlated colour temperature*:6500 Kelvin
  • Chromaticity tolerance (initial MacAdam):3
  • Rated median useful life*:L90 50000 h at 30 °C
  • Standby Power*:0.6 W
  • Charging power:2.5 W
  • LED
  • CE
  • Hfree
  • IP20
  • SC2 - Protection Class 2


Photometric configuration


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
Step 2: Room Data
Step 3: Result