Customization: | Available |
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LED Light Source: | Osram |
Emitting Color: | 2700-10000K |
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Parameter | Symbol | Rating | Unit |
||
Min. | Typ. | Max. | |||
Input Voltage | Vin | 12 | 12 | 13 | V |
Input Current | I(rms) | A |
|||
Operating Tem. | Ta | - | 45 | 65 | ºC |
Operating Hum. | Ha | 5%-95%(No Water) | - | ||
Storage Tem. | Ts | -30~60 | ºC |
Model | Power | Luminous Flux (lm) Luminous Intensity(MCD) |
Color Temperature | Waterproof level | Degree | ||
W | Min | Typical | Max | k | 2θ1/2 | ||
TK-010O-050 | 5 | 450 | 480 | 2700~7000 | IP65 | 56*12 |
High power LED modules are an increasingly popular choice for lighting applications due to their numerous advantages over traditional lighting technologies. Here, we will provide an in-depth introduction to high power LED modules for light boxes, including their benefits, construction, and applications.
Advantages of High Power LED Modules for Light Boxes
High power LED modules offer a range of benefits that make them an ideal lighting solution for light boxes and other display applications. One of the primary advantages of LED modules is their energy efficiency. Compared to traditional lighting technologies such as fluorescent and incandescent bulbs, LED modules consume significantly less energy, resulting in lower operating costs and reduced environmental impact.
Optical Data Distribution Map
Another advantage of LED modules is their long lifespan.
LED modules can last for tens of thousands of hours, which is significantly longer than traditional lighting technologies. This reduces maintenance costs and downtime associated with replacing bulbs and other components.
LED modules also generate less heat than traditional lighting technologies. This is due to their efficient conversion of electrical energy into light, which minimizes wasted energy in the form of heat. This feature makes LED modules safer and more environmentally friendly than traditional lighting technologies.
Finally, LED modules offer greater flexibility and customization than traditional lighting technologies. LED modules can be designed to emit a specific color temperature or hue, allowing for precise control over the color and brightness of the light output. This makes LED modules ideal for use in light boxes and other display applications that require specific lighting characteristics.
Construction of High Power LED Modules for Light Boxes
High power LED modules are typically constructed using an array of LED chips mounted on a substrate, along with a driver circuit and other components to control the light output. The substrate is typically made of a material with good thermal conductivity, such as aluminum or copper, which helps to dissipate heat generated by the LED chips.
The LED chips themselves are typically mounted on the substrate using a process called surface-mount technology (SMT). This involves placing the LED chips on the substrate and then soldering them in place using a reflow oven or other specialized equipment.
The driver circuit is responsible for controlling the electrical current supplied to the LED chips, which in turn controls the brightness of the light output. This circuit may include components such as resistors, capacitors, and inductors to regulate the current and voltage supplied to the LED chips.
Other components may also be included in the LED module to improve its performance or functionality. For example, a heat sink may be added to the module to further dissipate heat generated by the LED chips, or a diffuser may be added to the module to provide a more even distribution of light output.
Applications of High Power LED Modules for Light Boxes
High power LED modules are used in a wide range of applications, including light boxes and other display applications. Light boxes are typically used to display advertising or informational content in a variety of settings, such as retail stores, airports, and public transit stations.
LED modules offer several advantages for use in light boxes, including their energy efficiency, long lifespan, and bright, even illumination. Additionally, LED modules can be customized to emit a specific color temperature or hue, which allows for precise control over the color and brightness of the light output.
LED modules can also be used in other display applications, such as digital signage and video walls. In these applications, LED modules provide bright, high-quality illumination that is ideal for displaying high-resolution images and video content.
Conclusion
High power LED modules offer a range of benefits that make them an ideal lighting solution for light boxes and other display applications. Their energy efficiency, long lifespan, and bright, even illumination make them a popular choice for a wide range of settings, from retail stores to public transit stations.
When designing a lighting solution for a light box or other display application, it is important to consider the specific requirements of the application in order to choose the best LED module for the job.