10W LED Floodlights
10W LED floodlights are the lowest power of their kind. Their purpose is to organize lighting of large rooms and open areas where LED bulbs and portable lights are not efficient enough.
Peculiarities
The LED floodlight, like any floodlight, is designed for high-quality and efficient illumination of spaces ranging from one to several tens of meters. A lamp or a simple lantern is unlikely to reach such a distance with its beam, with the exception of especially powerful lanterns used by railway workers and rescuers.
First of all, the light projector contains a high-power, from 10 to 500 W, an LED matrix, or one or more heavy-duty LEDs.
The wattage indicated in the instructions takes into account the total electricity consumption, but does not include the heat loss that inevitably occurs in high-power LEDs and their assemblies.
High-power LEDs and light arrays require a heat sink to dissipate the heat removed from the aluminum substrate of the LED. One LED, emitting, for example, 7 W out of the declared 10, spends about 3 on heat dissipation. To prevent heat accumulation, the body of the floodlight is made massive, from a solid piece of aluminum, in which the ribbed back surface, the inner smooth side of the back wall, the upper, lower and side partitions are a single whole.
A spotlight needs a reflector. In the simplest case, it is a white square funnel that redirects the side beams closer to the center. In more expensive, professional models, this funnel is mirrored - as was once done in car headlights, which give out a high beam of 100 meters or more. In simple light bulbs, LEDs have a lens structure, they do not need a strip reflecting light, since the light directional pattern of each of the LEDs is already fixed.
The floodlight uses unpackaged LEDs based on a matrix or microassembly with light elements located separately from each other. The lens fits into the lens if it is a portable projector.
There are no lenses in network floodlights, since the purpose of these lamps is to be permanently suspended and illuminate the territory adjacent to the building or structure.
A network floodlight, unlike an LED strip, is connected to a driver board that controls the rated current. It converts the mains alternating voltage of 220 volts into a constant voltage - of the order of 60-100 V. The current is selected as the maximum working one so that the LEDs shine brighter.
Unfortunately, many manufacturers, especially Chinese ones, set the operating current slightly higher than the maximum value, almost peak, which leads to premature failure of the floodlight. An advertisement promising a 10-25-year service life is not true in this case - the LEDs themselves would have worked for the declared period of 50-100 thousand hours. This is due to the peak voltage and current values on the LEDs, forcing them to heat up to 60-75 degrees instead of the standard 25-36.
The rear wall with a radiator after 10-25 minutes of operation is a confirmation of this: it does not heat up only in frost with strong winds, which have time to remove excess heat from the body of the searchlight. Battery floodlights may not have a driver - only the battery voltage is calculated. The LEDs themselves are connected in parallel or one by one with each other, or in series with additional elements - ballast resistors.
The power of 10 W (FL-10 floodlight) is enough to illuminate the courtyard of a country house with an area of 1-1.5 acres with an entrance for a car, and a higher power, for example, 100 W, is designed for parking, say, near the exit from the avenue to the parking lot of a shopping and entertainment center or a supermarket.
What are they?
The network LED floodlight is equipped with a control board. In cheap models, it is very simple and includes:
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mains rectifier (rectifier bridge),
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smoothing capacitor for 400 volts;
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the simplest LC filter (coil-choke with a capacitor),
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high frequency generator (up to tens of kilohertz) on one or two transistors;
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isolation transformer;
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one or two rectifier diodes (with a cutoff frequency up to 100 kHz).
Such a scheme requires improvements - instead of a two-diode rectifier, it is advisable to install a four-diode, that is, one more bridge. The fact is that one diode already selects half of the power remaining after conversion, and a full-wave rectifier (two diodes) is also not efficient enough, although it surpasses a single-diode switching. However, the manufacturer saves on everything, the main thing is to remove variable pulsations of 50-60 Hz, which spoil people's eyesight.
A more expensive driver, in addition to the above details, is safe: LED assemblies are designed for a voltage of 6-12 V (4 consecutive LEDs in one housing - 3 V each). Life-threatening voltage in case of repair by replacing burned out LEDs - up to 100 V - is replaced with safe 3-12 V. In this case, the driver is more professional here.
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The network diode bridge has a threefold power reserve. For a 10 W matrix, diodes can withstand a load of 30 watts or more.
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The filter is more solid - two capacitors and one coil. Capacitors can have a voltage margin of up to 600 V, the coil is a full-fledged ferrite choke in the form of a ring or a core. The filter suppresses the driver's own radio interference much more effectively than its previous counterpart.
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Instead of the simplest converter on one or two transistors, there is a power microcircuit with 8-20 pins. It is equipped with its own mini-heatsink or is securely mounted on a thick substrate on a printed circuit board connected to the body using thermal paste. The device is complemented by a microcontroller on a separate microcircuit, which operates as thermal protection and periodically cuts off the power of the floodlight using power transistor-thyristor switches designed for high voltage.
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The transformer is designed for high overall power and is designed for a safe output voltage of the order of 3.3-12 V. The current and voltage on the light matrix are near-maximum, but not critical.
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The second diode bridge can have a small heatsink like the first.
As a result, the entire assembly rarely heats up above 40-45 degrees, including the LEDs, thanks to the power reserve and adequately exposed volt-amperes. The massive radiator casing immediately lowers this temperature to a safe 25-36 degrees.
Rechargeable floodlights do not need a driver. If a 12.6 V acid-gel battery acts as a power source, then the LEDs in the light matrix are connected in series - 3 each with a damping resistor, or 4 without it. These groups, in turn, are already connected in parallel. The 3.7V battery-powered floodlight - such as the voltage on the lithium-ion "cans" - is characterized by parallel connection of LEDs, often with a quenching diode.
To compensate for the rapid burnout at 4.2 V, quenching powerful diodes are introduced into the circuit, through which the light matrix is connected.
Top brands
Trademarks combining the following models are represented by Russian, European and Chinese brands. Let's list the best brands today:
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Feron;
- Gauss;
- Landscape;
- Glanzen;
- "Era";
- Tesla;
- Online;
- Brennenstuhl;
- Eglo Piera;
- Foton;
- Horoz Electric Lion;
- Galad;
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Philips;
- IEK;
- Arlight.
Spare parts
If the searchlight suddenly fails, as soon as the warranty has expired, then you can order components in Chinese online stores. Floodlights for 12, 24 and 36 volts are equipped with an impulse power supply.
For projectors designed for mains power, LEDs, ready-made micro-assemblies with a driver board, as well as housings and power cords are purchased.
Selection Tips
Do not chase after cheapness - models costing 300-400 rubles. at Russian prices do not justify themselves. In continuous mode - during the entire dark time of the day - sometimes they will not work even for a year: There are fewer LEDs in them, they all work in a critical mode and often burn out, and the product itself becomes almost hot in 20-25 minutes at any positive temperature.
Pay attention to trusted brands. High quality is determined not only by the price, but also by the reviews of real buyers.
Check the spotlight when purchasing. It should not blink (protection against overheating or overcurrent of the matrix should not be activated).
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