Our MEMS 1xN Polarization Maintaining (PM) optical switches offer precision and reliability for industries such as optical communication and fiber optic sensing that require strict control over the polarization state of light signals. Designed to switch optical signals from multiple sources to a single output port while retaining the signal's polarization state, these switches are robust and versatile, ideal for fast-paced communication systems.

Features

• High switching speed allowing rapid change between input ports within microseconds.
• Low insertion loss and high repeatability, ensuring minimal signal loss and reliable signal transmission.
• Designed to withstand environmental conditions such as temperature fluctuations and vibrations, offering reliable effectiveness even in challenging work conditions.

Crafted for high-speed communication networks, telecommunication systems, and data centers, our MEMS 1xN optical switches for single mode fibers provide precise switching of optical signals with high precision and reliability. They ensure minimal signal loss or attenuation for long distance light signal transmission, switching input optical signals from multiple sources to a single point.

Features

• High switching speed, enabling fast data transmission within microseconds.
• Low insertion loss, meaning signal switching without significant reduction in total signal strength.
• Superior repeatability and reliability, with resilience against adverse environmental conditions like dust, temperature changes, and humidity, perfect for maintaining stable network performance even in harsh environments.

Designed with Micro-Electro-Mechanical Systems (MEMS) technology for guiding optical signals between multiple input ports and a single output port in a network, our MEMS 1xN multimode optical switches are an embodiment of precision and accuracy. They are well-suited for short-distance data transmission within data centers, managing network traffic, and enhancing network efficiency by offering a more efficient method of data flow management.

Features

• Able to handle multiple incident light signals and guide them to a single destination or channel.
• Compatible with multimode fibers, allowing multiple data streams to be sent simultaneously through the network.
• Increasingly popular in data center environments for their ability to reduce network congestion and improve network reliability.

Our MxN MEMS optical cross-connects for multimode fiber, where 'M' denotes the number of input ports and 'N' stands for the number of output ports, are designed to offer a vast range of routing options by connecting multiple input fibers to multiple output fibers. These products are pivotal for high-speed fiber optic communication networks, especially for long-distance signal transmission with minimal loss.

Features

• High-speed switching design to facilitate seamless switching between paths for optimal signal transmission
• Low insertion loss and high repeatability to guarantee minimal signal attenuation and consistent signal transmission
• Scalability to cater to larger networks and custom configurations to meet various application requirements
• Enabling real-time signal routing and handling of large data sets in a matter of microseconds
• Proven reliability and industry experience, offering indispensable technology for modern high-speed communication networks.

Amazelink introduces our MxN MEMS optical cross-connects in polarization maintaining (PM) mode, where 'M' and 'N' represent the number of input and output ports respectively. These devices are a critical part of high-speed fiber optic communication networks, aiding long-distance signal transmission with minimal loss.

Features

• High-speed switching design allowing rapid signal transitions between different paths
• Low insertion loss and high repeatability to guarantee minimal signal attenuation and consistent signal transmission
• Scalability that accommodates larger networks and flexibility for custom configurations for specific applications
• Swift signal routing and processing of large data sets within microseconds
• Essential for contemporary high-speed communication networks.

Amazelink offers the MxN MEMS optical cross-connects with single mode, where 'M' and 'N' correspond to the number of input and output ports. These are integral components of high-speed fiber optic communication networks, enabling long-distance signal transmission with minimal loss.

Features

• High-speed switching design facilitating efficient signal switching between various paths
• Low insertion loss and high repeatability, ensuring minimal signal loss and uniform signal transmission
• Scalability to meet the demands of larger networks and customizability to suit diverse application needs
• Quick signal routing and processing of substantial data sets within microseconds
• Reliable with proven industry experience, providing crucial technology for modern high-speed communication networks.

Amazelink offers Polarization-Maintaining (PM) Variable Optical Attenuators (VOA) designed to work with PM fibers, keeping polarization even under external vibrations or stress. Our MEMS PM VOAs are crucial for any system that needs precise light signal attenuation while maintaining polarization, such as sensing or optical instrument applications. With their compact size, high precision, stability, and high-speed operation, they are a reliable choice for various applications requiring polarization maintenance. They come with a set of key features and superior benefits compared to conventional devices:

Features

• Compact and precise, designed for high-speed operation and real-time power signal adjustments.
• High levels of stability to maintain polarization, even in dynamic environments.
• Ideal for a wide range of applications including telecommunications, aerospace, and scientific research.

Our Single Mode Variable Optical Attenuators (VOA), manufactured using MEMS technology, have been designed for single-mode fibers, enabling real-time and accurate power attenuation. Our single-mode VOA's compact size, precision, stability, and high-speed operation make it an indispensable component for any fiber optic system that requires accurate power attenuation. It ensures optimal performance and signal quality in your fiber optic system. These devices offer a variety of advantages over traditional attenuators:

Features

• Compact and efficient with high-speed operation.
• Integral to a range of applications including fiber optic sensing, telecommunication systems, and optical instruments.
• Precision control over light signal power to ensure optimal performance and signal quality.

Our multimode variable optical attenuators are particularly beneficial for short-distance, high-bandwidth connections such as data centers or Local Area Networks (LANs). Our multimode VOAs play a key role in multimode fiber systems by precisely attenuating light signals in real-time. Their compact size, high-speed operation, and stability make them the preferred choice for applications needing high-bandwidth connections over short distances.

Features

• Compact design with high-speed operation, allowing real-time control of signal power.
• High levels of stability ensuring stable signal power in dynamic environments.
• Real-time attenuation of light signals for optimal signal quality and error minimization.