Since its establishment, Amazelink has been at the forefront of providing optical MEMS solutions to the fiber optic industry. As a reliable manufacturer of MEMS components for optical test and measurement and network monitoring, Amazelink provides a wide range of products including optical switches, attenuators, and more.

In recent years, we have introduced new designs featuring MEMS micro mirrors for beam control and scanning. These MEMS mirrors find applications in optical scanning sensors such as optical coherence tomography (OCT), LiDAR for autonomous driving, and satellite communication.

MEMS Optical Switches for Measurement Resource Sharing

MEMS optical switches serve as a means of measurement resource sharing in various applications. By utilizing the output signals of measurement systems as inputs, our switches efficiently route signals to the appropriate devices or fibers, effectively acting as resource-sharing devices.

The versatility of MEMS switches allows for seamless adaptation to different domains simply by modifying the measurement system. In the telecommunications sector, our switches find applications in OTDR systems, while temperature testing benefits from DTS systems, and pressure testing utilizes FBG systems. In the near future, our switches will expand their capabilities to work with visible light, enabling applications in spectroscopy.

One of the key advantages of MEMS switches is their high repeatability and no need for recalibration, eliminating the wear and tear. This reliability ensures consistent and accurate performance, making our switches ideal for automated testing and research equipment operating under varying conditions.

MEMS Optical Switches for Optical Line Protection

Amazelink provides MEMS optical switches designed for optical line protection. Whether it's backup environments, network failures, or fiber optic cable breaks, our MEMS optical switches offer both reliability and rapid response time.

In the event of a failure, information is seamlessly transferred through backup lines, ensuring uninterrupted data transmission. Our advanced MEMS optical switches enable swift and efficient problem resolution in all scenarios, keeping your network running smoothly.

MEMS Optical Switches for Remote Network Monitoring

We offer MEMS optical switches tailored for remote network monitoring. Our optical switches enable effortless sampling and transmission of optical signals to measurement equipment such as power meters or bit error rate testers. This results in automated and remote monitoring of your network, promptly detecting network faults.

MEMS Optical Switches for Bypass Switching

In scenarios where network protection is vital, sending data through backup lines is a common solution. However, what happens if a secondary failure occurs in the backup line?

To address this challenge, our optical switches serve as reliable bypass switch solutions. By utilizing our 2x2 switches, information can be efficiently conveyed, ensuring uninterrupted transmission. Our switches boast reliability, providing peace of mind in critical applications.

MEMS Optical Switches for Measurement Setup

Our optical switches facilitate seamless switching between different wavelengths for testing purposes, followed by a thorough analysis stage.

Leveraging the advantages of MEMS technology, our switches offer high repeatability, eliminating the need for frequent recalibration and preventing wear and tear.

MEMS Optical Switches for General Applications

MEMS technology has revolutionized numerous industries, ranging from everyday applications to space, instruments, and RF applications. One of the most prevalent uses is in sensor technology, where MEMS sensors measure vibration, temperature, light, motion, linear and rotational acceleration. They are integrated into inkjet printers, video games, smartphones, alarms, automobiles, and more.

• In the medical field, MEMS components serve as biometric sensors, pressure sensors, aids in drug delivery research, and various other physical sensing applications.
• In the automotive industry, they are integrated into smart airbags for enhanced safety and vibration detection, among other applications.
• In telecommunications, MEMS technology finds its use along transmission lines, enabling tunable lasers, tunable filters, optical switches, dynamic gain equalizers, and attenuators.
• MEMS VOAs are utilized in electronic power management or remote attenuation control. They also find application in gain control of optical amplifiers in WDM systems.

• Data Centers Single mode optical switches are a crucial component in data centers, which store and manage large volumes of data. They provide fast switching speeds, high port density, and low power consumption, ensuring that data is transferred quickly and reliably.
• Telecommunications Telecommunications networks require fast and reliable data transfer over long distances. Single mode optical switch can provide low signal loss and high port density, ensuring smooth data transfer and connectivity.
• Fiber-Optic Sensing Systems Single mode optical switches are also used in fiber-optic sensing systems, which are widely used in the monitoring of structural health and safety. They help to measure the deformation of structures such as bridges, dams, and buildings by detecting minute changes in optical signals.

Single mode optical switch are revolutionizing data center networks by providing fast and reliable data transfer, reducing downtime, and enhancing network performance. They are a crucial component in data center architecture, taking up less physical space and consuming less power than traditional switches. Single mode optical switch ensure that data is transferred quickly and reliably, maintaining the integrity of the network and reducing the risk of data loss.

In today’s world, data centers are essential for the storage and management of large volumes of data. MEMS optical switches can provide high port density, low insertion loss, and low power consumption, making them the perfect solution for data centers. Their high-speed switching capabilities and low power consumption mean that data centers can operate at maximum efficiency, ensuring data is transferred quickly and reliably.