Prices incl. VAT plus shipping costs
Delivery time 5-10 Workdays
- Order number: SW11420.1
The pendant luminaire NABO is a luminaire from the SLACK LINE family by OLIGO. Tunable white function: Through built-in Casambi wireless module, the luminaire can be switched on / off via app or Casambi transmitter, dim, as well as adjust the light color between 2200K (super warm white) to 5000K (cool white) and thus adapt to personal preferences. Ex works 2700K (warm white) are preset. NABO requires a luminaire adapter for adaptation to the SMART.TRACK track system (see accessories).
Operation via touch dimmer or Bluetooth (Casambi): The control element (touch dimmer) can be assigned all functions provided by the app via the Casambi app e.g. switching/dimming, changing light color, controlling scene and groups (also in connection with other Casambi luminaires), etc.. Example: For a multi-flame luminaire, all luminaire heads can be combined into one group. One of the control elements controls the brightness for the whole luminaire, another controls the light color.
OLIGO has created a completely new palette of softly shimmering shades that not only look fantastic each on their own, but also create a harmonious play of colors in any combination with each other. The surface structure of the applied glaze process is particularly fine and also offers a pleasant haptic experience:
Material: metal, glass
Order numbers of the manufacturer Oligo:
T71-847-10-21/16 Lamp head NABO, white / rose gold.
T71-847-10-18/19 Lamp head NABO, basalt / cream
T71-847-10-18/17 Lamp head NABO, basalt / bronze
T71-847-10-23/19 Lamp head NABO, black / cream
T71-847-10-23/17 Lamp head NABO, black / bronze
T71-847-10-23/16 Lamp head NABO, black / rose gold
T71-847-10-23/23 Lamp head NABO, black / black
T71-847-10-21/21 Lamp head NABO, white / white
Technical data lamp head:
Illuminant: 1x LED, 24V DC
Bulb included in delivery: yes
Power of LED: 12.8W
Luminous flux: 1000lm
Beam angle: 44°
Light color: 2200K (super warm white) ... 5000K (cool white) adjustable via Casambi
Color rendering index CRI: >90
Dimmable: yes - optionally via touch dimmer and Casambi
A few information about the technical data
- What is luminous flux?
The luminous flux Φ - measured in lumens (lm) - is the light output of a light source. It describes the power emitted by the light source in all directions in the visible range. To get a rough idea of what this value means, here are a few comparisons:
230V halogen bulb with base GU10, 50W: 345lm
230V halogen bulb with base G9, 60W: 740lm
12V halogen bulb with socket GX5.3 (GU5.3), 35W: 450lm
12V halogen bulb with socket GX5.3 (GU5.3), 50W: 720lm
12V halogen bulb with base G4, 20W: 257lm
12V halogen bulb with base GY6.35, 50W: 840lm
230V halogen rod with base R7s, 100W: 1200lm
- What does color temperature mean?
Roughly speaking, the color temperature indicates how warm or cold especially white light is. The oneness is Kelvin (K). The lower the Kelvin value, the warmer the light gets. The light of a commercial light bulb here would correspond to about 2700K, a candle has about 1500K. The higher the Kelvin value becomes, the colder the blue becomes the light. Daylight is compared with about 7000K. A rough classification of the light color is:
- 2,700 to 3,250 Kelvin: warm white
- 3,250 to 5,250 Kelvin: neutral white
- 5,250 to 8,000 Kelvin: daylight white
- What does the color rendering index called RA or CRI?
The color rendering index indicates the degree of correspondence of the seen body color with its appearance under the respective reference light source. The smaller the deviation, the better the color rendering property. A light source with RA = 100 reproduces all colors very well. The lower the RA value, the less well the colors are rendered. In bathrooms and dressing rooms with mirrors, we generally recommend the use of luminaires and light sources with a high RA value of at least 90.
RA 70-80: medium color rendering
RA 80-90: good color reproduction
Ra 90-100 very good color reproduction
TOUCH DIMMER WITH MEMORY FUNCTION
Switching on and off is done by a short touch, stepless dimming by a longer touch. The slightest potential differences between the luminaire and the person touching it cause a switching operation at the built-in electronics. The duration of the touch is evaluated by a microprocessor with special software and the brightness is readjusted. In the case of pendant luminaires, for example, this not only saves the additional dimmer on the wall. The person also no longer needs to get up from the table to change the brightness.