LED wall lamp Marset Ambrosia A 90 Left with a 90 cm long tubular methacrylate diffuser and metallic
structure with arm arranged on the left. Including power supply for recessed installation in wall, phase-cut dimmable.
Including a 20W 24V Triac power supply for recessed installation in the wall. DALI power supply available on request. If needed, the slender wall base can optionally be mounted on a cover plate available as an accessoire (diameter 12,2 cm) that can cover larger installation holes.
Collection | Marset Ambrosia |
Category |
Marset Wall Lights
Marset Recessed Lights |
Design | Ciszak Dalmas |
Dimensions | Length 45 cm. |
Controls | Dimmble trailing edge |
MPN: | A704-017-16-27K + 968-223-23 |
Luminous flux (lm) | 1521 |
Color rendering index Ra | 90 |
Color temperature (° Kelvin) | 2700 |
Dimmable | ✔ |
Power (W) | 14.4 |
Width | 90 cm |
Height | 9,3 cm |
Diameter base | 6 cm |
The LED lights Ambrosia were designed by the Spanish design studio Ciszak Dalmas as a modern alternative to the classical Linestra light fixture. Originally, they were conceived for a luxury boutique in Madrid. The collaboration between Joan Gaspar and Marset resulted in a large collection including suspensions, ceiling lamps and wall lamps. Diverse lengths, variable heights, light colours and dimming and connecting options make possible to adapt the Ambrosia lights to any room context.
A lighting tube of white methacrylate held by a minimalistic metallic structure takes centre stage. LEDs of 3000K, 2700K or very warm 2200K ensure a pleasant illumination. A high colour rendering makes the light especially cozy and welcoming, because the colours hues are natural and precisely represented.
With the aid of extension rods, it is possible to modify the Ambrosia ceiling lamps' pendulum height. A maximum of three rods can be combined to reach the desired length. The Ambrosia LED lights are suitable for rooms with high ceiling and for illuminating dining rooms and counters. The wall lights can be mounted horizontally or vertically. The various models' asymmetrical design enables subtle variations within the ensembles.
Awarded with the iF Design Award 2023 and with the Gold Delta ADI Award 2022.