In the ever-evolving field of optical communication, efficient light path control is essential for seamless data transmission and optimal performance. The MEMS 1xN Optical Switch Module, based on Micro-Electro-Mechanical Systems (MEMS) technology, emerges as a game-changer in this domain. This compact and versatile module provides precise and reliable light path control, making it an ideal choice for various applications in Telecom, Test & Measurement, Remote Sensing, Biomedical, and beyond. Let's delve into the features, applications, and technical capabilities of the MEMS 1xN Optical Switch Module, a key player in advancing optical systems.
At the core of the MEMS 1xN Optical Switch Module lies the innovative MEMS technology. This cutting-edge technology is characterized by its long lifetime, high durability, and exceptional reliability, making it well-suited for demanding optical communication applications. MEMS technology operates on the principles of micro-electronics and micro-mechanics, enabling precise and rapid light path switching with minimal power consumption. The incorporation of MEMS technology in optical switches brings about a new era of efficiency and performance in optical systems.
The MEMS 1xN Optical Switch Module's compact size offers a significant advantage in optical system integration. Its small form factor allows seamless integration into various optical setups without compromising performance or consuming excessive space. Whether it's a complex optical network or a portable test and measurement system, the MEMS 1xN Optical Switch Module fits effortlessly, optimizing the overall system design and functionality. This easy integration facilitates the development of high-performance optical systems in diverse applications.
The MEMS 1xN Optical Switch Module is packed with advanced features that set it apart as a reliable light path control equipment. Some of its key features include:
Low Insertion Loss: The module exhibits minimal insertion loss, ensuring that optical signals experience minimal attenuation during transmission.
Wide Wavelength Range: Covering a broad wavelength range, the module supports diverse optical communication applications with different wavelength specifications.
Low Crosstalk: The MEMS technology employed in the module reduces crosstalk, minimizing interference between adjacent channels and enhancing signal purity.
High Stability, High Reliability: With MEMS technology at its core, the module delivers high stability and reliability, meeting the stringent requirements of critical optical systems.
Epoxy-Free on Optical Path: The module ensures epoxy-free optical paths, eliminating the risk of signal degradation due to epoxy aging or temperature-induced changes.
Latching and Non-Latching: Providing both latching and non-latching switching modes, the module caters to different application scenarios, enabling diverse control options.
The MEMS 1xN Optical Switch Module finds extensive applications in a wide range of industries, thanks to its adaptability and reliability. Some of the key applications include:
Optical Network: In optical communication networks, the module enables efficient signal routing, improving network performance and reliability.
Protection/Restoration: The module's rapid switching capability makes it suitable for optical signal protection and restoration, ensuring uninterrupted data transmission.
Optical Signal Routing: For diverse optical signal routing requirements, the module provides a flexible and precise solution.
Transmitter and Receiver Protection: Safeguarding transmitters and receivers from signal overload or failure, the module enhances the overall system robustness.
Network Test System: In test and measurement applications, the module facilitates accurate and repeatable optical tests, supporting various test scenarios.
The MEMS 1xN Optical Switch Module excels in its technical capabilities, catering to different system requirements. Some of the key technical specifications include:
| Parameters | Unit | MFSW-1×N (N≤16) |
|---|---|---|
| Operating Wavelength | nm | 1260~1650 for SM, 850/1310 for MM |
| Insertion Loss | dB | N≤8: ≤1.0 8<N≤16: ≤1.2 16<N≤32: ≤1.5 32<N≤64: ≤1.7 64<N≤144: ≤2.2 144<N≤256: ≤2.4 |
| WDL (Wavelength Dependent Loss) | dB | ≤ 0.3 |
| TDL (Temperature Dependent Loss) | dB | ≤ 0.3 |
| PDL (Polarization Dependent Loss) | dB | ≤ 0.15 |
| Return Loss | dB | SM ≥ 45, MM ≥ 30 |
| Crosstalk | dB | SM ≥ 45, MM ≥ 30 |
| Repeatability | dB | ≤ ±0.02 |
| Switching Time | ms | ≤ 8 |
| Durability | times | > 10 billion |
| Switching Mode | Non-latching | |
| Power Supply | V | DC 5V ± 10% |
| Operating Current | mA | N≤16: ≤ 50 16<N≤64: ≤ 250 64<N≤144: ≤ 350 144<N≤256: ≤ 500 |
| Optical Power | mW | ≤ 500 |
| Operating Temperature | °C | -20 ~ +85 |
| Storage Temperature | °C | -40 ~ +85 |
The MEMS 1xN Optical Switch Module represents a significant advancement in optical systems, providing efficient and reliable light path control based on MEMS technology. Its compact size, easy integration, and advanced features make it a preferred choice in various industries, including Telecom, Test & Measurement, and Biomedical applications. With wide wavelength support and exceptional technical capabilities, the MEMS 1xN Optical Switch Module sets new standards for optical communication, contributing to the seamless flow of data and the optimization of optical systems in diverse scenarios.
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Address : 5F,Zhongshunyiquan Industry Park, Fuqian Road,Longhua District, Shenzhen, China
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