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จันทร์ 09:00 - 18:00 อังคาร 09:00 - 17:00 พุธ 09:00 - 18:00 พฤหัสบดี 09:00 - 18:00 ศุกร์ 09:00 - 18:00

XENOptics

Name: XENOptics
Address: 195 หมู่ 3, Chiang Mai, 50000, TH
Telephone: +66 052-081400
Price range: $$

The company has multi-disciplinary expertise in developing systems that integrate electro-optics, lasers, material sciences, and micro-mechanics.

Founded in 2016 XENOptics, part of the XENON Technology Group, is led by a team of talented executives with extensive experience in establishing and managing international communications companies. The company’s world-class engineering team has multi-disciplinary expertise in developing systems that integrate electro-optics, lasers, material sciences, and micro-mechanics. Building on its breakthro

ugh technology and products, XENOptics is poised to become a leading player in the growing fiber management marketplace.

21/05/2026

Last chance to meet us at ANGA COM 2026 — we're here until 4PM today!

If you haven't stopped by yet, now's the time. XENOptics and DELTA Electronics are at Hall 8, Booth C22 for the final hours of the show.

Come see the CSOS-72SLC live and talk to our team about:
✅ Robotic fiber switching for telecom & ISP networks
✅ Remote provisioning in under a minute
✅ OSP-ready design for outdoor deployments
✅ Zero truck rolls — full NOC control

Hall 8, Booth C22 — DELTA Electronics Stand
Open until 16:00 today

See you there!

Learn more: xenoptics.com/products/csos

24/04/2026

Think about how tower networks work today.

When something breaks, someone has to go out, find the right fiber, and patch it.

Now imagine doing that at 6G scale — with more sites, more connections, and higher expectations.

That approach won’t hold.

The next step is simple in concept: make the fiber layer as flexible as the network above it.

Remote switching. Faster recovery. Fewer site visits.

20/03/2026

5G network slicing is only as agile as the physical layer beneath it.

If fiber changes still require manual repatching, service agility hits a wall.

This article explores how telecom teams can:

* Automate Layer 0 switching
* Streamline CO-to-edge operations
* Integrate fiber changes via REST API workflows

18/03/2026

Perimeter security isn’t just about cameras and sensors—it’s about keeping the fiber layer alive under any condition.

Airport environments are tough: long distances, high exposure, and limited access mean that a single fiber break can impact multiple surveillance zones.

This article explores how to build a more resilient PIDS transport layer using:

* Redundant fiber rings for path diversity
* Automated reroute without manual patching
* Remote health checks and visibility
* Layer 0 control for faster recovery and auditability

The goal is simple: no blind spots, no delays, no guesswork.

13/03/2026

Disaster recovery between data halls often looks redundant on paper.

But when fiber rerouting still requires manual patching, recovery becomes slower and more error-prone.

Automated fiber switching changes that by turning the physical layer into a programmable system.

Instead of sending technicians to patch panels during an outage, operators can execute controlled fiber reroutes through software workflows.

Our latest article explores how automated fiber orchestration helps data centers achieve:

• dual-path fiber reroute
• cross-site optical failover
• meet-me room automation
• faster, controlled DR operations

10/03/2026

Hospital networks rely on secure applications, identity systems, and segmented networks to protect critical services.

But what about the fiber infrastructure connecting everything together?

Inside many hospital MEP rooms, fiber changes still depend on manual patching. That can create physical access risks and make it harder to track infrastructure changes.

A zero-trust approach to Layer 0 replaces manual patch panels with software-controlled robotic cross-connects. Network teams can provision and modify fiber paths through authenticated workflows while maintaining full visibility and logging.

For healthcare environments where uptime matters, extending security down to the fiber layer can make a major difference.

06/03/2026

Municipal broadband networks are becoming smarter and more automated.

Instead of manual patching at fiber distribution frames, robotic optical switching allows municipalities to remotely activate services, reroute fiber connections, and manage multi-ISP infrastructure from the network operations center.

This approach supports faster service activation, automated provisioning, and resilient disaster-recovery routing for open-access fiber networks.

05/03/2026

In many photonics labs, experiments are delayed by something surprisingly simple: manual fiber patching.

Every configuration change can require cleaning connectors, verifying loss, repatching fibers, and updating documentation. That setup time often exceeds the time spent collecting actual measurement data.

A programmable optical switching layer allows labs to automate fiber paths instead of patching them manually.

Researchers can switch optical paths in under a minute, run scripted experiments through APIs, and automatically log topology data with each dataset.

The result: faster experiments, fewer contamination issues, and fully traceable measurements.

03/03/2026

AI racks are now pushing 100kW.

That density changes everything — especially at the fiber layer.

Manual patching can’t keep up with synchronized GPU clusters, rapid reconfiguration, and high-temperature halls. One wrong cross-connect can idle an entire training job.

AI data center automation delivers:

• 36–60 second switching
• High-density fiber management at rack scale
• Passive latching for traffic continuity
• Sub-12-month ROI

At AI scale, Layer 0 must be programmable.

25/02/2026

Offshore platforms can’t afford fiber failures.

Every connection supports drilling systems, safety monitoring, and communications back to shore. Manual patching in hazardous zones increases risk and delays recovery.

Robotic fiber switching enables:

✔ Remote reconfiguration in 36–60 seconds
✔ Traffic continuity during generator fluctuations
✔ Ruggedized operation in marine conditions
✔ Reduced need for offshore dispatch

20/02/2026

City-owned fiber shouldn’t depend on manual patching for every activation or provider change.

Municipal open-access fiber switching enables remote, software-controlled cross-connects in 36–60 seconds—ideal for building basements, MDUs, and street cabinets.

Reduce truck rolls. Speed up turn-ups. Keep full audit visibility across multiple ISPs.

ที่อยู่

195 หมู่ 3
Chiang Mai
50000

เวลาทำการ

จันทร์	09:00 - 18:00
อังคาร	09:00 - 17:00
พุธ	09:00 - 18:00
พฤหัสบดี	09:00 - 18:00
ศุกร์	09:00 - 18:00

เบอร์โทรศัพท์

+66 052-081400

เว็บไซต์

http://www.xenoptics.com/

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