For air conditioning machines, the directive only applies to devices less than 12 kW. The label includes:.

Air conditioners that have heat functions also include:

Contenido

Todas las etiquetas de bombillas y tubos (incluyendo las lámparas incandescentes, luminarias fluorescenes y las lámparas led) contienen la siguiente información:.

De acuerdo al consumo eléctrico de la bombilla relativo a una convencional (GLS o incandescente), la bombilla se clasifica en las siguientes clases:[8]​.

La clase A se determina de un modo distinto, razón por la cual tiene un porcentaje variable.

En 2012[9]​ se introdujeron las clases A y A y clasificaciones en función de si las lámparas son direccionales o no direccionales. Las lámparas direccionales son aquellas que tienen al menos un 80 % del flujo luminoso en un ángulo sólido de π sr (que corresponde a un cono con un ángulo de 120°).[9]​.

Desde septiembre de 2009, las bombillas domésticas deben ser de clase A, con la excepción de las lámparas transparentes. Para este tipo de bombillas se necesita alcanzar una clase C o mejor en un plazo hasta septiembre de 2012 y una clase B o mejor a partir de septiembre de 2016.[10]​.

Calculation

Incandescent lamps and fluorescent tubes with and without integrated ballast can be divided into two energy efficiency classes. This division was produced by Directive 98/11/EC on January 27, 1998[8]​ and includes lamps that are not classified for domestic use. Light sources larger than 6500 lm and those that do not operate at current voltages are excluded. The energy efficiency class is determined as follows (Φ is the luminous flux in lumens and P is the lamp consumption in watts):

The lamps obtain A classification if:.

Fluorescent tubes without integrated ballast obtain A classification if:.

The classification in the B-G range is based on the percentage (energy efficiency index) with respect to the reference power and consumption of a standard bulb with identical luminous flux:.

In 2010, the energy label for televisions was introduced.[11]​ The energy class is determined by the energy efficiency index (EEI), which is the electrical consumption relative to a reference consumption. This reference consumption is that of a normal television with an A: area screen.

Where for a TV with a tuner and without a hard drive.

Due to the switch to digital terrestrial television, all televisions in the European Union have a digital and an analogue tuner; so the reference power was increased to 24 watts as follows:.

If a hard drive is added, the following formula is used:.

For example, a television with a diagonal of 82 cm (32 inches) has a screen area A = 28.7 dm² and corresponds to a reference consumption of 144 W.

Another piece of information included on the label is the annual energy consumption in on mode, in kWh, which is calculated as E = 1.46 × P.

The energy efficiency rating and annual power consumption in on mode are reduced by 5% if the following conditions are met for TVs with automatic brightness control:.

For motor vehicles, the value used to determine the class is not the energy efficiency, but the carbon dioxide emissions per kilometer:.

The label also includes the following information:

In 2012 the efficiency label for tires was introduced. The tire label shows three tire attributes: rolling resistance, wet braking efficiency and external rolling noise.[12]​ Tire labeling applies to cars, vans and trucks. With the following exceptions:

For air conditioning machines, the directive only applies to devices less than 12 kW. The label includes:.

Air conditioners that have heat functions also include:

Contenido

Todas las etiquetas de bombillas y tubos (incluyendo las lámparas incandescentes, luminarias fluorescenes y las lámparas led) contienen la siguiente información:.

De acuerdo al consumo eléctrico de la bombilla relativo a una convencional (GLS o incandescente), la bombilla se clasifica en las siguientes clases:[8]​.

La clase A se determina de un modo distinto, razón por la cual tiene un porcentaje variable.

En 2012[9]​ se introdujeron las clases A y A y clasificaciones en función de si las lámparas son direccionales o no direccionales. Las lámparas direccionales son aquellas que tienen al menos un 80 % del flujo luminoso en un ángulo sólido de π sr (que corresponde a un cono con un ángulo de 120°).[9]​.

Desde septiembre de 2009, las bombillas domésticas deben ser de clase A, con la excepción de las lámparas transparentes. Para este tipo de bombillas se necesita alcanzar una clase C o mejor en un plazo hasta septiembre de 2012 y una clase B o mejor a partir de septiembre de 2016.[10]​.

Calculation

Incandescent lamps and fluorescent tubes with and without integrated ballast can be divided into two energy efficiency classes. This division was produced by Directive 98/11/EC on January 27, 1998[8]​ and includes lamps that are not classified for domestic use. Light sources larger than 6500 lm and those that do not operate at current voltages are excluded. The energy efficiency class is determined as follows (Φ is the luminous flux in lumens and P is the lamp consumption in watts):

The lamps obtain A classification if:.

Fluorescent tubes without integrated ballast obtain A classification if:.

The classification in the B-G range is based on the percentage (energy efficiency index) with respect to the reference power and consumption of a standard bulb with identical luminous flux:.

In 2010, the energy label for televisions was introduced.[11]​ The energy class is determined by the energy efficiency index (EEI), which is the electrical consumption relative to a reference consumption. This reference consumption is that of a normal television with an A: area screen.

Where for a TV with a tuner and without a hard drive.

Due to the switch to digital terrestrial television, all televisions in the European Union have a digital and an analogue tuner; so the reference power was increased to 24 watts as follows:.

If a hard drive is added, the following formula is used:.

For example, a television with a diagonal of 82 cm (32 inches) has a screen area A = 28.7 dm² and corresponds to a reference consumption of 144 W.

Another piece of information included on the label is the annual energy consumption in on mode, in kWh, which is calculated as E = 1.46 × P.

The energy efficiency rating and annual power consumption in on mode are reduced by 5% if the following conditions are met for TVs with automatic brightness control:.

For motor vehicles, the value used to determine the class is not the energy efficiency, but the carbon dioxide emissions per kilometer:.

The label also includes the following information:

In 2012 the efficiency label for tires was introduced. The tire label shows three tire attributes: rolling resistance, wet braking efficiency and external rolling noise.[12]​ Tire labeling applies to cars, vans and trucks. With the following exceptions: