Cookie Policy

This page informs users about the technologies that help this website achieve the above-mentioned objectives. This cookie policy is valid for the website, as well as for all its sub-domains.

These technologies enable the owner of this site to access and store information (for example, by using a cookie) or use resources (for example, by executing a script) on a user's device when the user interacts with this website.

For the sake of simplicity, all these technologies are defined as “cookies” in this document - unless there is a reason to differentiate.

This website uses both cookies managed directly by the owner and tracers that relate to the operation of services provided by a third party. As a matter of principle, third-party suppliers have access to the cookies they manage.

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Some or all of the cookies described below may be stored in your browser. To manage how cookies are used, you can refuse the use of certain cookies via your Google personalization settings at any time by accessing You can also manage cookies in your browser (although some browsers for mobile devices may not offer this option). For example, if you use the Google Chrome browser, you can visit chrome://settings/cookies.


Cookies used for analysis purposes help to collect data that will enable us to better understand how web users interact with a particular service. This information enables services to offer better-quality content and features that enhance the user experience.

Some cookies enable site managers to better understand how users interact with their properties. For example, Google Analytics is a Google product that enables site and application owners to understand the behavior of Internet users using a service. Google Analytics uses cookies to collect information and generate reports on site traffic statistics, without however transmitting the identity of visitors to Google.

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Services used on this site

Google Analytics

The services contained in this section enable the owner to monitor and analyze web traffic and may be used to track user behavior.

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This type of service helps the Owner to manage the tags or scripts required on this website centrally.

As a result, user data passes through these services, potentially resulting in data retention.This website uses trackers to provide a personalized user experience by improving the quality of preference management options and enabling interaction with external networks and platforms.

Google Maps

Google Maps can be used on our website. This service is designed to make it easier for you to find your way around our premises.

Google Maps uses the following information:

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Google Search Console is used to monitor and adjust our website's ranking, as well as to detect any errors. This tool also enables us to remove content from our site as quickly as possible, should we receive a request to do so.


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When using this site, the Google Services Privacy Policy applies.

Data processing

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The product you are looking for is not on this list? Do you have a special requirement for any of our optical MEMS components? Do not hesitate, get in touch with us !

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Sercalo's fiber optic 1xN switches are bidirectional opto-mechanical switches based on a coaxial design where a single MEMS mirror redirects light from a common fiber to one of N ports. The MEMS technology results in low insertion loss and low cross-talk between channels while keeping a constant switching performance over life.

The switch is available in different variants to simplify integration in existing systems and reduce development cost. The miniature packages withstand rugged environments and is well suited for direct mounting on printed circuit boards.

The hermetically sealed MEMS and the laser welded fiber collimator guarantee broad temperature range and superior long-term stability. No epoxy is present in the optical path.

The component is compliant to Telcordia 1221 reliability standards and RoHS requirements 2015/863/EU.

Sercalo’s COAXIAL TYPE 1xN switch is non-latching: at power-off it breaks the optical connection and routing of the common port is not defined. The component is bidirectional, the common port can be used as input or output. The PM Panda version is offered up to 1x4 ports.

The switch is available in four different variants:

SC: standard size – ribbon fibers
mSC: miniature size – small driver board: 7x40 mm
rSC: compatible with industry pin-out
bcSC: bare optical component