![<?echo $_SERVER['SERVER_NAME'];?>](/template/twentyseventeen/skin/images/header.jpg)
The emergency lighting system used in China is mainly controlled by its own power supply. The normal power supply is connected to the ordinary lighting power supply circuit. The emergency light battery is charged normally. When the normal power supply is cut off, the backup power supply (battery) is automatically powered. This type of emergency light has a large number of electronic components such as transformer, voltage regulator, charging, inverter, battery, etc. inside the lamp. The battery needs to be charged and discharged during use, maintenance and failure. The other is centralized power supply centralized control type. There is no independent power supply in the emergency light. When the normal lighting power supply fails, the centralized power supply system supplies power. In this form of emergency lighting system, the complicated electronic circuits inside all the lamps are omitted. The emergency lighting fixtures are the same as the ordinary lamps, and the centralized power supply system is set in a dedicated room.
Compared with the self-contained power supply independent control type emergency luminaire, the centralized power supply centralized control emergency light has the advantages of convenient centralized management, user self-examination, fire supervision and inspection, extending lamp life and improving emergency evacuation efficiency. The system has good reliability and service life. Long, easy to maintain and manage, and low system price. However, centralized power supply centralized control type emergency luminaires have no backup power supply (battery) in each emergency luminaire. If the power supply line fails, it will directly affect the normal operation of the emergency lighting system, so special fire protection requirements are applied to the power supply line. . The self-contained power supply independent control type emergency luminaire has no backup power supply (battery) in each emergency luminaire, so there is no special requirement for the power supply line, and the power supply line failure does not affect the standby power supply. When the emergency light fails, it generally affects only the light itself, and has little effect on the whole system.
When selecting emergency lighting, the emergency lighting system should be selected according to the specific circumstances. Generally speaking, new construction projects or projects with fire control room should be unified in the construction process as much as possible, and centralized power supply centralized control type emergency lighting should be selected; for small sites, later rectification or secondary decoration renovation projects should be selected Power supply independent control type emergency lighting.
Optoelectronic chips are semiconductor devices that convert electrical signals into optical signals and vice versa. They play a crucial role in various applications such as communication, sensing, imaging, and lighting. Based on their functions and applications, optoelectronic chips can be classified into the following categories:
1. Light Emitting Diodes (LEDs)
LEDs are widely used for lighting and display purposes. They convert electrical energy into light and come in various colors, including infrared, visible, and ultraviolet. LEDs are characterized by their high efficiency, long lifespan, and low energy consumption, making them suitable for applications ranging from general illumination to digital displays and indicator lights.
2. Laser Diodes (LDs)
Laser diodes are essential for applications requiring coherent light with high intensity and narrow beam divergence. They are commonly used in optical communication, laser printing, barcode scanning, and medical equipment. Laser diodes operate at various wavelengths, including infrared, visible, and ultraviolet, and are known for their precision and high-speed performance.
3. Photodiodes
Photodiodes are optoelectronic devices that convert light into electrical signals. They are widely used in optical communication, light detection, and imaging systems. Photodiodes are characterized by their high sensitivity and fast response time. They come in various types, such as PIN photodiodes, avalanche photodiodes (APDs), and Schottky photodiodes, each suitable for different applications based on sensitivity and speed requirements.
4. Solar Cells
Solar cells, also known as photovoltaic cells, convert sunlight into electrical energy. They are used in solar panels for renewable energy generation. Solar cells are made from various materials, including silicon, gallium arsenide, and organic compounds, each offering different efficiency levels and cost benefits. Their primary applications include residential, commercial, and industrial solar power systems.
5. Optocouplers
Optocouplers, also known as optoisolators, transfer electrical signals between two isolated circuits using light. They are used to prevent high voltages from affecting the system receiving the signal. Optocouplers are commonly found in power supply units, signal isolation, and communication interfaces, providing safe and reliable signal transmission across different parts of a system.
6. Image Sensors
Image sensors convert optical images into electronic signals. They are essential components in cameras, smartphones, medical imaging devices, and industrial vision systems. Image sensors come in two main types: charge-coupled devices (CCDs) and complementary metal-oxide-semiconductor (CMOS) sensors. CCDs are known for their high image quality and low noise, while CMOS sensors are favored for their low power consumption and high-speed performance.
7. Phototransistors
Phototransistors are similar to photodiodes but with higher sensitivity and gain. They are used in applications requiring light detection and amplification, such as remote controls, light meters, and optical switches. Phototransistors provide a stronger electrical signal in response to light, making them suitable for low-light detection and amplification tasks.
8. Quantum Dots
Quantum dots are nanoscale semiconductor particles that exhibit unique optical properties, such as size-tunable emission wavelengths and high brightness. They are used in displays, lighting, and biomedical imaging. Quantum dots offer advantages in color purity and energy efficiency, making them suitable for next-generation display technologies and high-performance imaging applications.
In summary, optoelectronic chips encompass a wide range of devices with diverse applications. Their classification based on functions and performance characteristics allows users to select the most suitable type for specific requirements, driving innovation and efficiency in various technological fields.
Optoelectronic Chips
CHENGDU MESKERNEL INTEGRATED TECHNOLOGY CO.,LTD , https://www.meskernel.com