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In the search for solutions to maximize the performance of lighting systems, Actilum presents its High-Efficiency lighting technology.
This development represents the ability to achieve a significant advance in the reduction of energy consumption without sacrificing the essential luminosity to achieve the desired result.
40% more efficient than conventional LEDs
Actilum’s High-Efficiency systems are distinguished by their simplicity and robustness, exceeding the efficiency of conventional LED systems by 40%.
This achievement translates directly into 30% to 40% lower energy consumption.
Lower voltage drop, longer life
A key aspect of our improvement to achieve this goal lies in increasing the amount of copper in the circuits.
This optimization has reduced voltage drops, improving stability and extending system life.
40% additional energy efficiency
When we talk about High Efficiency in lighting, we are referring not only to superior performance but also to a more effective management of the heat generated.
Our systems guarantee a 40% decrease in heat production, which translates directly into 30 to 40% less energy consumption to maintain the same luminous flux.
High-efficiency power supplies, designed to operate in the 40 to 60-volt range, stand out as key elements in advanced lighting systems.
Combining efficiency and versatility, these power supplies offer energy-efficient solutions that can be tailored to the specific needs of each application.
They ensure efficient conversion of electrical energy to light, minimizing losses and maximizing energy utilization.
Programming from milliamps
The ability to program the power supply at milliamp levels allows detailed control over the current supplied to the lighting system.
This is essential for adjusting the luminous intensity and optimizing energy consumption according to specific needs.
Control from Actilum or user PC
Flexibility is a priority
These power supplies can be programmed from Actilum or directly from the user’s PC.
The software provided by the manufacturer allows precise configurations and adaptability to the changing demands of the lighting environment.
The constant search for energy efficiency has led to a significant evolution in circuit design, specifically in the selective elimination of key electronic components, such as resistors and diodes among others.
This approach is based on the premise that certain components are no longer needed in the circuit, which contributes to energy efficiency by eliminating unnecessary heat generation.
This decision is based on the evolution of power supplies. In this new paradigm, the power supply no longer “attacks” the system voltage, but is oriented towards current (mA).
This modification in energy management transforms the power supply into a more adaptable element to the system, adjusting dynamically, and varying the mA according to the specific needs of the system.
The difference between efficacy/efficiency is as follows:
Luminous efficiency is defined as the ratio of emitted light to total energy consumption, while luminous efficacy refers to the ability of a light source to transform electrical energy into luminous energy.
Luminous efficiency
An LED lamp with a luminous efficacy of 100 lm/W means that it emits 100 lumens of visible light for every watt of electrical energy it consumes.
The higher the lm/W value, the more efficient the bulb is in terms of converting energy into light.
Luminous effectiveness
Imagine two different light bulbs, both with a luminous efficacy of 80 lm/W. Both convert the same amount of electrical energy into light efficiently. However, one of these bulbs might emit the light in a more focused and directed manner, while the other might scatter the light more widely.
Depending on how the initial requirements are met towards one or the other way of lighting, that will be the efficiency of that light source.
Efficiency formula
The general formula for calculating efficiency is expressed as the ratio of desired (or useful) output to total input.
Luminous Efficiency = Luminous flux (lumens) \ Electrical power consumed (watts)
The higher the result, the higher the luminous efficiency of the light source.
Determining the efficiency of a luminaire depends on several factors, including the type of technology used, the specific application and the lighting objectives.
Efficiency: low
Halogen bulbs are more efficient than incandescent bulbs, with a typical efficiency of around 15-25 lm/W.
Efficiency: moderate.
CFLs are more efficient than incandescent, with typical values of 50-70 lm/W.
Efficiency: High.
LED lights are known for their high efficiency. They can easily exceed 100 lm/W and even reach values above 150 lm/W in some applications.
Redefining the future of lighting
At Actilum, High Efficiency is not just a feature; it is the tangible breakthrough that redefines the future of LED lighting.
Our systems not only represent a technical achievement in exceeding light output standards but embody a solid commitment to sustainability and
innovation.
Led’s create together
Mándanos tu currículum
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Responsible: Actilum RGB, S.L.
Purpose of the collection and processing of personal data: to manage the request you make in this contact form.
Rights: you may exercise your rights of access, rectification, limitation and deletion of data in info@www.actilum.com, as well as the right to file a complaint with a supervisory authority.
Additional information: in our privacy policy you will find additional information about the collection and use of your personal information. Including information on access, retention, rectification, deletion, security and other topics.