Through hole LED is a common type of LED, whose pins are connected to the circuit board through drilled holes. Through hole LEDs have a wide range of applications. Let’s take a look at the functions and advantages of Through hole LEDs. The Function of Through hole LEDs Indicator light: Through hole LED can be used as an indicator light in various electronic devices, such as televisions, audio devices, computer motherboards, etc. In electronic devices, it can indicate the working status of the device, improving its reliability and stability. Back light source: Through hole LED can be used as a back light source, such as electronic watches, calculators, mobile phone screens, tablets, etc. High brightness and low power consumption make it an ideal choice for backlight sources. Lighting: Through hole LEDs can also be used for lighting, such as LED bulbs, LED light strips, etc. High efficiency and long lifespan make it a green and environmentally friendly lighting choice. Advantages of Through hole LEDs Easy to install: The pins of the through hole LED are connected to the circuit board through drilled holes, making it easy to install and disassemble. High stability: The through-hole LED adopts a metal shell, which makes it have good durability and stability. High brightness: The brightness of Through hole LEDs is relatively high, which can meet the needs of different application scenarios. Colorful: Through hole LEDs can achieve various color emitting effects, such as red, green, blue, etc., which can meet the needs of different application scenarios. From the above understanding, it can be seen that Through hole LEDs have advantages such as easy installation, high stability, high brightness, and rich colors, and are widely used in fields such as indicator lights, backlights, and lighting. With the continuous progress and development of technology, the application prospects of Through hole LEDs will be even broader.
01
Jun
Jun
SMD LED is a new type of LED, which has smaller size, higher brightness, and lower power consumption compared to traditional LEDs. In SMD, different colored LEDs have different characteristics and applications. Let’s take a look together. Red chip LED Red chip LED is a common type of LED with high brightness and low power consumption. It can emit bright and bright red light. Widely used in fields such as indicator lights, digital displays, and electronic clocks. Green SMD LED Green chip LED can emit bright and clear green light. Compared with red SMD, green SMD has lower brightness, but it has higher energy conversion efficiency and longer service life. Widely used in fields such as display screens, backlights, and decorative lights. Blue SMD LED Blue chip LED is a type of LED that can emit bright and clear blue light. It has high brightness and low power consumption. Widely used in electronic games, lighting, display screens, and other fields. White SMD LED White chip LED is a type of LED that can emit bright and soft white light. It can achieve different white light effects through different material combinations. Widely used in fields such as backlighting, lighting, and flashlights. Overall, SMD LEDs have advantages such as small size, high brightness, low power consumption, and long lifespan. Different colored LEDs have wide applications in different fields. With the continuous development and progress of technology, the application fields of SMD LEDs will continue to expand and deepen.
01
Jun
Jun
What is a UV light used for?After the epidemic, people’s attention to disinfection has become increasingly high. UV light disinfection is a common method in disinfection methods. So how long does it take for a UV light to disinfect? Let’s take a look together.
30
May
May
With the continuous development and progress of technology, high power LEDs are increasingly widely used in our daily lives. Where are high power LEDs used in our daily lives? Let’s take a look together. Lighting field In indoor and outdoor lighting, high power LEDs can replace traditional incandescent and fluorescent lamps. Compared with traditional incandescent and fluorescent lamps, high power LEDs have higher luminous efficiency and longer service life. In addition, high power LEDs can also achieve various color transformations, making the lighting effect more beautiful and rich. Automotive manufacturing sector high power LEDs can also serve as light sources for car lights and logos, making the appearance of the car more beautiful and improving driving safety performance. During nighttime driving, the high brightness and long range of high power LEDs can provide drivers with a better view and help them better grasp the driving situation of the vehicle. Outdoor and large stage Finally, high power LEDs have been widely used in outdoor billboards and large-scale stage performances. High power LED can achieve high brightness and contrast display effects, making billboard and stage effects more outstanding and eye-catching. At the same time, it can also achieve various color transformations and dynamic effects, bringing more diverse and rich visual experiences to billboards and stage performances. From this perspective, high power LEDs have a wide range of applications in our lives, from lighting to automotive manufacturing, to billboards and stage performances, all of which cannot do without the help of high power LEDs. I believe that with the continuous progress and development of technology, high power LEDs will play an increasingly important role in our lives.
25
May
May
With the continuous development and application of technology, various electronic devices have begun to take on different appearances and characteristics, providing more convenient and efficient solutions for people’s lives and work. When learning electronic technology, it is necessary to learn various common electronic devices, and the following are common optical devices. Common optical instruments Diodes are one of the most common electronic devices. It only allows current to flow in a specific direction at its two ends. Diodes have two states: forward conduction and reverse cutoff, and are widely used in power control, rectifier power supply, and voltage regulation circuits. Transistors are also an important type of electronic device. It is usually used for amplification and switching circuits, characterized by power amplification, high-frequency amplification, and control power circuits. There are various types of transistors, such as field-effect transistors, bipolar transistors, high-voltage transistors, etc., which can be used for various circuit applications. Modular circuits are components composed of multiple electronic devices, typically larger in shape and size than a single device. Common modules include: power amplifier module, frequency converter module, power module, and so on. These modules are mostly based on already designed circuit boards and have specific functions that can meet different application requirements. Finally, there is the sensor. Sensors are electronic devices that can detect physical and chemical quantities and convert this information into electrical signals. Common sensors include temperature sensors, pressure sensors, humidity sensors, photosensitive sensors, etc. Due to their diversity and sensitivity, they are widely used in many fields such as industrial automation, environmental monitoring, medical diagnosis, and so on. There are many kinds of electron optical instruments, with various functions and a wide range of applications. These devices have become an important foundation of modern electronic technology, providing great convenience and efficiency for people’s lives and work.
24
May
May
Round LED is a new type of energy-saving and environmentally friendly lighting fixture that uses LED lighting technology and has characteristics such as high brightness, low energy consumption, and long lifespan. In the field of modern lighting, Round LED has become a widely used lighting method, and has been widely used in various fields such as indoor and outdoor. The characteristics of high brightness of Round LED Because it uses LED emitting technology, it can achieve a high level of brightness. Moreover, it also adopts a condenser design, making the light more focused and bright, which can achieve better lighting effects. In various indoor and outdoor lighting environments, Round LED can provide sufficient brightness, allowing people to achieve comfortable lighting effects. Round LED has the characteristic of low energy consumption Compared to traditional incandescent lamps, fluorescent lamps, etc., the energy consumption of Round LED is much lower, generally only about one tenth of that of other lamps. Moreover, Round LED is not easy to generate heat after long-term use, so it is also very energy-saving and helps to protect the environment. Round LED has a long lifespan It can be used for tens of thousands of hours or more, and the lamp quality is also very good, not easily damaged, and no harmful substances will be generated during use. Compared to traditional lighting fixtures, Round LED can greatly reduce the frequency of light bulb replacement, reduce unnecessary costs and waste, and also reduce the consumption of Earth’s resources. As a new type of energy-saving and environmentally friendly lighting fixture, Round LED has a wide range of applications in various fields. Its high brightness, low energy consumption, long lifespan, and design feel make it the first choice for people’s lighting needs, and also in line with people’s environmental and low-carbon living philosophy.
23
May
May
With the continuous progress and development of technology, LED Displays have become an indispensable part of many technological fields. The main characteristics of LED Displays are high brightness, high definition, high brightness adjustment range, low power consumption, long service life, etc. Next, let’s have a detailed understanding of the main characteristics of LED Displays and the precautions to be taken when using them. The main characteristics of LED Displays High brightness: LED Displayshave very high brightness, and due to their high brightness, they can maintain good visibility in strong outdoor sunlight without blurring or other issues. High definition: LED Displayshave excellent resolution and display effects, which can clearly display the content of the screen and are an important part of modern digital media advertising. Low power consumption: LED Displayshave very low power consumption, and compared to traditional LED displays, they can reduce electricity consumption and significantly reduce electricity costs under the same display effect. Long lifespan: The LED display screen uses LED beads, which have a lifespan of tens of thousands of hours, making it very long and reducing replacement costs. Precautions for using LED Displays Protecting the display screen: When disassembling and moving the display screen, great care and caution must be taken to avoid damage to the display screen and increase its service life. Control display screen: To achieve good display results, it is necessary to strictly control the output of displayed data to avoid display problems caused by unstable and fluctuating data input. Good heat dissipation: LED Displaysgenerate a lot of heat, so it is necessary to maintain good heat dissipation to avoid equipment failures caused by high temperatures. Regular cleaning: As the usage time increases, some dirt will accumulate on the surface of the LED display screen, which needs to be cleaned regularly to improve the display effect. LED Displays have the characteristics of high brightness, high definition, high brightness adjustment range, low power consumption, and long lifespan, making them an indispensable part of modern digital media advertising.
23
May
May
A photodiode LED is a type of photoelectric conversion device that is a semiconductor device based on the working principle of internal photoelectric effects. It can convert light radiation into electrical signals, and its main purpose is to detect and transmit light signals. Photodiode LEDs have a wide range of applications in modern technology. Below are several aspects to introduce the role of Photodiode LEDs. Optical sensor As a detection device, electric diodes are widely used in optical sensor equipment, mainly for processing light in objects and the environment. For example, in the prevention and safety control of automatic doors, detectors, driving lights, and television projection lights, it is necessary to use Photodiode LEDs to detect the light source and achieve the normal operation of the corresponding equipment. Optical communication As a receiving device, photodiode LED is used for signal reception in optical communication. By using optical fiber transmission, data signals are converted into optical signals, which are received by the photodiode LED receiving end and converted into electrical signals, achieving high-speed, stable, and reliable signal transmission and data transmission. video camera Photodiode LEDs also play an important role in cameras, their function is to convert light into electrical signals and map them to a display or video recorder through pixels. At the same time, filtering technology and signal-to-noise ratio processing can also be used to improve camera quality. The working principle of Photodiode LED is to convert light sources into electrical signals, which have the advantages of high sensitivity, fast conversion speed, and high response speed. Therefore, they have a wide range of applications in modern technology and driving. They play an important role in optical sensors, optical communication, cameras, and medical equipment. Their application in related fields has greatly improved the efficiency and security of modern science and technology.
19
May
May
A photodiode LED is a type of photoelectric conversion device that is a semiconductor device based on the working principle of internal photoelectric effects. It can convert light radiation into electrical signals, and its main purpose is to detect and transmit light signals. Photodiode LEDs have a wide range of applications in modern technology. Below are several aspects to introduce the role of Photodiode LEDs. Optical sensor As a detection device, electric diodes are widely used in optical sensor equipment, mainly for processing light in objects and the environment. For example, in the prevention and safety control of automatic doors, detectors, driving lights, and television projection lights, it is necessary to use Photodiode LEDs to detect the light source and achieve the normal operation of the corresponding equipment. Optical communication As a receiving device, photodiode LED is used for signal reception in optical communication. By using optical fiber transmission, data signals are converted into optical signals, which are received by the photodiode LED receiving end and converted into electrical signals, achieving high-speed, stable, and reliable signal transmission and data transmission. video camera Photodiode LEDs also play an important role in cameras, their function is to convert light into electrical signals and map them to a display or video recorder through pixels. At the same time, filtering technology and signal-to-noise ratio processing can also be used to improve camera quality. The working principle of Photodiode LEDs is to convert light sources into electrical signals, which have the advantages of high sensitivity, fast conversion speed, and high response speed. Therefore, they have a wide range of applications in modern technology and driving. They play an important role in optical sensors, optical communication, cameras, and medical equipment. Their application in related fields has greatly improved the efficiency and security of modern science and technology.
18
May
May
Infrared LEDs play an important role in applications, from remote controls to security systems, without these components. However, how to judge the quality of infrared LEDs during use? What are the reception methods for infrared LEDs? This article will introduce this. How to judge the quality of infrared LEDs Appearance inspection: First, check the appearance of the diode for obvious defects, such as defects, cracks, etc. Electrical parameter inspection: By calculating and measuring the equivalent values of resistance, current, and voltage, check whether the electrical parameters of the component strictly comply with the specified values. Optical parameter inspection: Detect whether the infrared emitted from the infrared receiver is normal, and test whether its output power meets the requirements. Other tests: Special testing instruments can be used to test parameters such as infrared wavelength and emission angle. Receiving method of infrared LEDs There are two main reception methods for infrared LEDs Direct reception: Install the infrared LEDdirectly on the module or device that needs to be detected or received, such as an infrared signal receiver. Indirect reception: The emitted infrared signal is transmitted to a designated location through phenomena such as reflection, refraction, and scattering, and is received and processed by an infrared receiver. A common example is an infrared remote control. It should be noted that regardless of the receiving method, it is necessary to ensure stable light quality of the infrared LED, and to correctly calculate the emission angle and wavelength of the infrared to ensure its performance and effectiveness. Infrared LEDs, as an important electronic component, have a wide range of applications in modern society, but how to judge their quality is very important for users.
18
May
May
Through hole LEDs are one of the important components used in electronic products. As one of the earliest LED light-emitting devices, it constitutes two mainstream technologies in the LED industry along with chip mounted LEDs. Through hole LEDs have a wide range of applications and important significance in the field of electronics. Below, we will introduce the characteristics and application fields of Through hole LEDs. The Basic Principles of Through Hole LEDs The basic structure of Through hole LEDs consists of three parts: positive and negative electrode leads and light-emitting diode chips. Compared with SMD LED, through hole LED chips have an air layer inside the glass bottle, which can better isolate external environmental interference, making it more stable and long-lasting to work. Through different semiconductor materials, through hole LEDs can emit different colors of light, such as red, blue, green, etc. Application Fields of Through Hole LEDs Through hole LEDs are widely used in electronic products and lighting fields, such as electronic watches, televisions, stage lighting, signal lights, car lights, and so on. It is also often used as an indicator light or switch light to remind users of certain important information or operational status. Due to the convenience and stability of through-hole LEDs in use, they have been widely used and accepted. In summary, the basic principle and application range of Through hole LEDs are more suitable for small and medium-sized electronic products, with good stability and brightness. Installation and disassembly are more convenient than SMD LEDs. With the continuous development and upgrading of electronic technology, through hole LEDs will continue to play an irreplaceable role in the field of electronic products.
17
May
May
With the rapid development of modern electronic technology, SMD LEDs are a mainstream component used for display and lighting in the current electronic field. They are small in size, low in power consumption, uniform in emission, and have a wide range of applications. They can be used in electronic products, lighting products, traffic signal lights, car lights, and other fields. Next, let’s delve deeper into SMD LEDs. The Basic Principles of SMD LEDs The basic structure of SMD is a substrate sandwiched between a p-type semiconductor and an n-type semiconductor. By applying voltage to these two semiconductors, electron hole pairs can be formed within the inclusion layer to emit light. SMD LEDs have high luminous efficiency, and in fact, they have become one of the mainstream products in LED lighting applications. Application characteristics of SMD LEDs Small size: SMD LEDsare small in size and light in weight, generally 20% to 30% smaller than conventional LED lights, making them easy to carry and install. Low power consumption: SMD LEDsnot only have small size, but also have low power consumption, greatly saving electricity and bills. Sharp and Vulnerable: The surface of the SMD is encapsulated in plastic, which has a short service life and durability. Therefore, pay attention to the usage environment and conditions to avoid causing losses. Uniform luminescence: The light output angle of the SMD LED point light source is relatively small, and the radiation direction is relatively concentrated, so the lighting effect will be better when the light is more concentrated. In summary, SMD LEDs are widely used in the electronic field. Their compact size, significant energy-saving effects, and long service life make them an indispensable part of modern electronic technology. But at the same time, we also need to pay attention to protecting the environment, regulating costs, and optimizing design, so that SMD LEDs can play a greater role in the application process.
16
May
May
What is UV LED germicidal lamp? UV LED germicidal lamp is a device used to clean the environment and kill bacteria UV LED lighting, which is highly favored by people due to its high efficiency in sterilization and air purification. Many people believe that UV lights have magical sterilization functions。
15
May
May
High power LED is a type of LED that can generate higher lumen luminous flux than regular LEDs. This makes it more commonly used in lighting devices with high brightness requirements. So, where are High Power LEDs typically used? Home lighting In home lighting, High Power LEDs can be applied to interior and exterior decorative lamps such as chandeliers, spotlights, and floor lamps. These lighting fixtures need to generate colorful and bright light to achieve good visual effects and a comfortable atmosphere. The use of High Power LEDs can better achieve these effects and have higher light wave efficiency and lifespan. Indoor and outdoor commercial lighting High Power LEDs are gradually being used in various indoor and outdoor commercial lighting applications. Many shopping malls and public places use this type of lighting fixture to enhance the brightness and effectiveness of the space, in order to strengthen the brand image. In indoor lighting, high power LEDs can also be used for lighting on display shelves, product guide lights, billboards, landscapes, and more. Plant cultivation lighting With the advancement of technology, plant cultivation also requires lighting. Compared to traditional problems such as long natural light consumption and unstable effects, High Power LEDs can be applied to efficient plant cultivation. By selecting appropriate wavelengths and chromatography, plant growth can be stimulated and crop growth can be promoted. These High Power LEDs also have characteristics such as power saving, energy saving, and environmental protection. In summary, High Power LEDs are suitable for various applications, which can improve efficiency, reduce energy loss, and better meet market demand. For efficient lighting and innovative fields, High Power LEDs have broad prospects and great application potential.
13
May
May
panel light,led ceiling panel are a high-quality lighting product widely used in modern homes. Its appearance is simple and beautiful, with gentle and soft lighting, and is considered a high-end lighting device. So, where can LED panel lights be installed? Let’s introduce them one by one.
13
May
May
LED Strip,LED Strip Lights,strip led lights,led strip light supply,Since LED technology entered the field of home lighting, LED Strip Light strips have become increasingly popular in home decoration. It is a multifunctional lighting fixture that is often used to enhance the atmosphere and aesthetics of a room. Below, we will have a clearer understanding of the classification and service life of LED Strip Lights.
11
May
May
flood lights,LED Flood Light,|Flood lighting is a type of spotlight that can illuminate a large area, also known as projection light, sprinkler light, neon light, etc. Floodlights are suitable for building lighting, landscape lighting, advertising lighting, stage lighting, and sports venues.
11
May
May
solar street lights,Solar street light factory,All in one Solar street lightSolar street lights are a type of road lighting equipment that utilizes solar energy charging and uses LED lights as the light source. This technology has been widely used in urban road lighting, nighttime lighting of roads and bridges, and lighting of parks and green spaces.
09
May
May
High bay lights are efficient and energy-saving lighting equipment, often used for lighting in industrial and mining enterprises, such as industrial factories, coal mines, oil fields, ships, etc. It not only has the characteristics of high strength and durability, but also can work normally in extreme environments. Characteristics of High bay lights Strong explosion-proof performance: High bay lights are a type of lighting equipment specifically designed for hazardous locations, with excellent explosion-proof performance and protection level. They can work normally in environments such as extreme humidity, heat, cold, and dust, and can meet strict industrial safety standards. Long life: High bay lights use high-quality LED light sources, with a lifespan of over 50000 hours, which can effectively reduce the cost of maintenance and replacement of light sources. Energy conservation and environmental protection: The main light source of High bay lights is LED lamps, which have lower energy consumption and less energy waste, effectively reducing the impact of energy use on the environment. The following points should be noted when installing high bay lights Before installation, carefully check the product manual to ensure compliance with electrical safety requirements; When installing, appropriate installation positions should be selected, taking into account the lighting coverage area and illuminance requirements; During installation, appropriate installation methods should be selected based on the characteristics ofHigh bay lights, such as lifting, wall installation, ground installation, etc. During installation, it is necessary to check whether the wiring of the lighting fixtures is correct and firm, to avoid affecting the lighting effect or even dangerous situations due to looseness. It should be noted that high bay lights should be installed, operated, and maintained by professional electricians. Non professional personnel should avoid installing and replacing circuits to avoid endangering their own and others’ safety. In short, High bay lights not only have the characteristics of explosion-proof and strong protective performance, but also have a long lifespan, energy conservation and environmental protection, playing an irreplaceable role in mines and industrial fields. Pay attention to following safety requirements and relevant regulations during installation and maintenance.
06
May
May
Optical imaging is the process of converting optical information on an object into an image through an optical system. An optical system is composed of multiple optical devices, such as lenses, prisms, reflectors, etc., the most basic of which is a lens. The imaging principle of LED Optical Systems is based on the basic laws of light propagation, refraction, and reflection, and the imaging of objects is achieved through the combination of lenses and optical devices. The imaging principle of LED Optical Systems can be divided into two situations: convex lens imaging principle and concave lens imaging principle. The principle of concave convex lens imaging The principle of convex lens imaging mainly involves the direction of the image. When the object is located on the left side of the lens focus, the image formed by the refraction of light through the lens is located on the right side of the lens; When the object is located on the right side of the lens focus, the image formed by the refraction of light through the lens is located on the left side of the lens. If the object is located at the focal point of the lens, the light rays after imaging will be parallel and there will be no deviation in the light path. The principle of concave lens imaging is also similar. However, due to the spherical aberration of concave lenses, they are rarely used in practical applications. Propagation of light path The basis of imaging principle is the propagation of incident light along a traceable optical path. The factors that affect the optical path in LED Optical Systems include the refractive index of imaging optical devices, the possible scattering of light when passing through optical devices, and so on. We can predict the propagation and imaging of light in optical devices through classical geometrical optics or radiation metrology. The imaging principle of LED Optical Systems is based on the basic laws of light propagation, refraction, and reflection, and the combination of optical devices such as lenses is used to achieve the imaging of objects. Understanding and mastering the imaging principles of LED Optical Systems is of great significance for the design and application of LED Optical Systems.
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