LED lighting can be defined according to the needs of each space and in terms of color finishes, CRI, color temperature, opening angle and luminous flux.
LUMEN (lm) is the unit that measures luminous flux, a measure of the light output emitted by the light source. Luminous flux is the measure of the total luminous power emitted by an LED lamp and perceived by the human eye. Luminous intensity measures how much luminosity the beam has in a specific direction.
LUX (lx) is the unit that measures the degree ofLED illumination taking a specific point as a reference, also defined as lumens/m2. Therefore, the difference between lux and lumen is that lux takes into account the surface over which the luminous flux is distributed. 1000 lumens concentrated on a square meter illuminate this surface with 1000 lux. The same thousand lumens distributed over 10 square meters only produce an illuminance of 100 lux. In other words, illuminating a larger area with the same degree of lux generally requires a greater number of lumens.
STEP McADAM: This technology allows to enhance all colors that are not visible to the human eye and guarantees a quality product.
CRI: Color Rendering Index (CRI) measures a light source's ability to accurately reproduce the colors of an object compared to a natural or real light source on a scale of 0 to 100.
The goal is to achieve maximum efficiency by ensuring that most products offer CRI 90 or higher quality without losing light output.
COLOR TEMPERATURE: The color temperature of a light source is measured in degrees Kelvin (K). Color temperatures above 5000 K are known as cool colors (blue–white), while temperatures between 2700 and 3000 K are considered warm colors.
FLICKER FREE: When it comes to LED technology , a low level of flicker is associated with human comfort and well-being. For good visual comfort and benefiting well-being, a low level of flicker is offered. For this reason, low-ripple LED drivers are used that offer a very stable current output, thus avoiding flickering in products.
IK: The IK code is an international numerical classification of the degree of protection provided by enclosures for electrical equipment against external mechanical impacts, measured as impact energy in Joules (J).
IP: According to EN 60598–1, luminaires are classified according to the protection provided by the construction elements. The degree of protection is indicated by the letters IP followed by a 2-digit number, although only the first two digits are shown.
1st digit: Indicates the protection of the material against the entry of foreign bodies and
dust, as well as people coming into contact with active parts of the device.
0 Not protected.
1 Protected against foreign objects >50mm.
2 Protected against foreign objects >12mm
3 Protected against foreign objects >2.50mm
4 Protected against foreign objects >1mm
5 Protected against dust
6 Completely dust-tight
2nd digit: Indicates the protection of the material against the ingress of moisture/water
0 Not protected
1 Protected against vertically falling water drops.
2 Protected against water droplets with the housing tilted at 15° relative to the
the vertical.
3 Protected from rain
4 Splash-proof
5 Protected against water jets.
6 Protected against powerful water jets
7 Protected against temporary immersion
8 Submersible material
UGR: The UGR is a scale that unifies different glare assessment methods. This concept describes the subjective perception in measurable terms considering the potential glare of all luminaires located within the observer's field of vision. Values range from 10 to 30, where 10 means “no glare” and 30 means “annoying glare”.
The UGR value is not a characteristic of the luminaire itself, but of the entire installation, so we calculate the UGR values indicated in the catalogue based on a common standard installation. We recommend calculating the UGR in your practical installation to ensure the desired UGR value in each space.
PHASE CUT: Phase-cut control (PFC), also called phase chopping, is a pulse-width modulation method of power limiting applied to AC voltages. It works by modulating a thyristor, silicon-controlled rectifier, AC triode, thyratron, or other diode-like gated device into and out of conduction at a predetermined phase of the applied waveform.
PUSH DIM: So called because the only control required is a push-to-do switch, also known as Touch Dimming. There is no 'standard' so there are various wiring methods depending on the ballast/drive manufacturer. Requires standard mains wiring plus one or two additional wires (depending on the driver/ballast variant).
DALI: allows the connection of equipment from different manufacturers. The DALI network consists of a controller and one or moreLED lighting devices with DALI interfaces. The controller can monitor and control the intensity of each light, providing up to 256 brightness levels between 0–100%. Wireless extension is available for the DALI network.
Oceanis Store offers a wide variety of LED lights for your home, offices, for installation in supermarkets, bakeries, butcher shops, fruit and vegetable stores.
They are excellent for clothing stores, shop windows and retail, as they help to highlight the product and make it more attractive to the consumer.
