Product Description:

Gezhi MEMS Optic Switches brings noted efficiency to optical systems due to its MEMS technology. Benefitting from its long lifetime, high durability, and reliability, it is widely applied in a variety of fields such as Telecom, Test & Measurement, Remote Sensing, Biomedical, etc.

The MEMS technology delivers excellent performance and can be easily integrated into a specific system.

Features:

We have optical switches with low insertion loss, wide wavelength range, low crosstalk, and high stability and reliability.

These switches are also a convenient tool for optical and electrical engineers. During engineering, the epoxy-free on the optical path is especially essential for easy debugging and instant engineering situation changes.

Therefore, we provided two choices of latching and non-latching for our customers, according to their applications.

Technical Parameters:

Applications:

Optical networks are increasingly associated with communication. With the increase in demand for faster speeds, higher security, and more efficient networks, optical networks are quickly becoming the go-to networking option. As their name implies, optical networks use lightwaves to transmit data over long distances with minimal interference.

Optical networks require protection and restoration to ensure proper functioning. In the event of a failure, such as an outage or natural disaster, data must be redirected or recovered to avoid data loss. Protection and restoration involve strategies such as failover routing, which reroutes data if a link becomes unavailable, and backup storage, which stores data offline.

Optical signal routing is a way to transmit data from one location to another using light. Optical signal routing is used in both wired and wireless networks, and comprises the sending, receiving, and routing of data along various paths. It is typically used to achieve higher speeds or greater distances than are achievable with wired networks.

To ensure proper transmission and reception of data, protection is necessary in both the transmitter and the receiver. Transmitters use various techniques such as adequate shielding and error-correction coding to reduce the chance of data corruption. Receivers typically require echo cancellation and automatic gain control to reduce interference and prevent data loss.

In order to troubleshoot and ensure optimal performance of optical networks, a network test system is required. A network test system can simulate diverse scenarios and track data traffic to understand how the network is functioning. It can also identify bottlenecks, pinpoint errors, and detect malicious activity.

Packing and Shipping:

Packaging and Shipping for MEMS Optical Switch:

• The product is packaged in a sturdy cardboard box or bubble wrap, with foam cushioning in the corners to protect against shock and vibration.
• Shipping is done via a reliable carrier, such as UPS or FedEx. Tracking information is provided for each shipment.
• The product is shipped with all necessary documentation, including installation instructions and safety warnings.

FAQ:

Q1: What is the brand name and model of the MEMS Optical Switch?
A1: The brand name is GEZHI and the model number is MEMS Optical Switch.

Q2: Where is the MEMS Optical Switch manufactured?
A2: The MEMS Optical Switch is manufactured in China.

Q3: What are the features of the MEMS Optical Switch?
A3: The MEMS Optical Switch is a high-performance optical switch with features including high accuracy, fast response, low power consumption, and excellent stability.

Q4: How much does the MEMS Optical Switch cost?
A4: The cost of the MEMS Optical Switch varies depending on the quantity and configuration.

Q5: What is the warranty period for the MEMS Optical Switch?
A5: The warranty period for the MEMS Optical Switch is one year from the date of purchase.