In the ever-evolving world of optoelectronics, infrared (IR) emitters have become a crucial component in various applications ranging from remote controls to security systems. Among the many brands and models available, the SunLED XTNI30BF T-1 (3mm) Infrared Emitting Diode stands out as a reliable and efficient solution for IR-based applications. This article delves into the specifications, features, and potential applications of this GaAs-based IR emitter.
Introduction to the SunLED XTNI30BF
The SunLED XTNI30BF is a GaAs (Gallium Arsenide) infrared emitting diode designed for applications that require high reliability and consistent performance. It boasts a radiant intensity of 8mW/sr at 50mA, making it an excellent choice for applications that require a strong and focused IR signal. The emitter operates at a wavelength of 940nm, which is commonly used in IR-based systems due to its low absorption by air and other materials.
Key Specifications and Features
The XTNI30BF is a through-hole component, making it easy to integrate into various circuits and systems. It has a forward voltage (Vf) of 1.2V, ensuring compatibility with a wide range of power sources. The maximum DC forward current (If) is rated at 50mA, ensuring stable and reliable operation within the specified range.
The viewing angle of the XTNI30BF is 50°, which provides a focused IR beam suitable for applications such as remote controls and sensors. The operating temperature range of -40°C to 85°C ensures stable performance in a variety of environmental conditions.
The radial package of the XTNI30BF allows for easy mounting and integration into existing systems. The top-view orientation further simplifies the installation process, reducing the chances of incorrect installation or misalignment.
Applications of the SunLED XTNI30BF
The SunLED XTNI30BF finds applications in a wide range of fields. One of the most common uses is in remote controls, where its focused IR beam and high radiant intensity ensure reliable communication with receivers. The emitter’s compact size and through-hole design make it easy to integrate into remote control circuits.
Security systems also benefit from the use of the XTNI30BF. IR sensors used in surveillance cameras and motion detectors often rely on IR emitters to illuminate areas of interest. The focused beam and high radiant intensity of the XTNI30BF provide clear and reliable IR images, enhancing the performance of these systems.
Other applications include automation systems, where IR emitters are used for position sensing, obstacle detection, and other functions. The XTNI30BF’s reliable performance and easy integration make it a valuable component in these systems.
Why Choose SunLED?
SunLED is a trusted brand in the optoelectronics industry, known for its high-quality products and commitment to innovation. The XTNI30BF is just one example of SunLED’s dedication to providing customers with reliable and efficient solutions.
The company’s focus on quality assurance ensures that each XTNI30BF emitter meets stringent standards for performance and durability. SunLED’s commitment to innovation also means that customers can expect new and improved products in the future, addressing evolving needs and challenges in the optoelectronics industry.
Conclusion
The SunLED XTNI30BF T-1 (3mm) Infrared Emitting Diode is a versatile and reliable component for IR-based applications. Its high radiant intensity, focused beam, and wide operating temperature range make it suitable for a variety of uses, including remote controls, security systems, and automation. SunLED’s commitment to quality and innovation further solidify the XTNI30BF as a premier choice for optoelectronics applications.
As the demand for IR-based solutions continues to grow, the SunLED XTNI30BF will likely play an increasingly important role in various fields. Its ease of integration and reliable performance make it a valuable addition to any system that relies on IR technology. With SunLED’s ongoing commitment to innovation and quality, customers can expect the XTNI30BF to remain a leader in the field of infrared emitters for the foreseeable future.
Post time: May-29-2024
