Optical circuit switches, also known as all-optical switches, are optical-to-optical-to-optical (OOO) switches and are highly efficient for rapidly switching large volumes of high-bit-rate traffic between fibers and for low-latency applications. By complementing optical-to-electrical-to-optical (OEO) switching in your network with OOO switching, you will create a strong and cost-efficient set-up that enables you to “switch when you can and route when you must”.

OOO switches have a unique value proposition over traditional OEO switches, since they transmit the original input light signal through a transparent all-optical switch core – without converting it into an electrical signal and with minimal insertion loss. The transparent nature of OOO switches makes them protocol, format and data rate-agnostic.

Since they do not buffer or regenerate the optical signals, OOO switches have extremely low data latency compared to OEO switches.

An optical circuit switch enables your system to rapidly provision, protect, test and monitor vast quantities of cross-connections. This leads to maximised network uptime and increased efficiency. It also makes remote operations possible, which both reduces manpower costs and eliminates human error.

Lower total cost of ownership (TCO)

Optical circuit switching technology is future-proof, since it does not need to be upgraded or replaced as signal formats change and bit rates increase over time.

Software-defined networking (SDN)

Optical circuit switches make managing cross-connects in software-defined networks highly efficient. The switch provides the flexibility to adjust traffic flow, to accommodate increased demand while maintaining network security.

Low power consumption

With the environmental impact of data centers and IT infrastructure coming under increasing scrutiny, there are significant benefits to adopting a lower-power switching technology such as optical circuit switching wherever possible.

The POLATIS optical switching core does not rely on moving parts such as robotic arms or MEMS-mounted mirrors to create and maintain optical connections.

Instead, the HUBER+SUHNER-patented DirectLight™ beam-steering technology makes connections using compact piezo-electric actuators to align collimated beams of light from opposing arrays of input and output fibers with minimal loss, distortion or interference between paths. Alignment is maintained using feedback from integrated position sensors to ensure connection stability over time, temperature and external disturbances.

This means that, in contrast to other OOO switches, the POLATIS switching occurs completely independently of the power level, colour or direction of light on the path. This enables the switch to hold optical connections on unlit paths, which permits the pre-provisioning of dark fibers, and allows bidirectional transmission.

With its DirectLight™ optical switch technology, the POLATIS enables transparent, robust connections, even on dark fiber.

The DirectLight™ beam-steering technology sets the industry standard for highest performance and lowest optical loss.

The POLATIS 576 represents a major advance in the size and performance of POLATIS all-optical circuit switches. The largest non-blocking optical circuit switch now available on the market is 576x576. It features an all-new internal architecture designed to enhance in-field reliability, availability and serviceability and a new optical core design, enabling a higher port density, reducing energy consumption and saving valuable rack space. 

The control system is distributed and closely integrated at the level of the optical ports. Coupled with built in control redundancy, this greatly enhances the resilience and reliability of the switch for operations in mission-critical applications.

To further protect mission-critical services, the POLATIS 576 can be equipped with field-addressable spare ports so that an interruption on any port can be bypassed rapidly by moving the fiber to a spare and reassigning the port in software.

The core of the POLATIS 576 is built on patented DirectLight™ optical switching platform that has been proven in the most challenging data center, telecom, defense and test applications for over two decades.

The POLATIS 576 enables applications to scale with no additional impact on optical budgets. It reduces the time to revenue by enabling the automation of testing in network test laboratories and the automaton of cross connects in data centers. It helps to reduce the risk to networks and national security by allowing network monitoring and cybersecurity applications to survey more lines more cost-effectively. The POLATIS 576 is the ultimate in reliable all-optical switching solutions.

FEATURES

• 576x576 switch matrix in compact form for increased port density
• Optional field-addressable 16x16 spare ports for increased availability
• New resilient, redundant architecture with integrated control for increased reliability
• All firmware upgradeable in the field for ease of service
• Dual redundant power supplies and network interface card hot-swappable in the field
• Low insertion loss, low latency and fast switching speeds underpin the superior optical performance 
• Fiber break simulation feature as standard
• Optional optical power meters on all ports
• Dark fiber switching 
• Bi-directional optics
• SDN-enabled with integrated RESTCONF/NETCONF interfaces
• New, updated web UI
• Protocol and bit rate agnostic to accommodate future network upgrades

The POLATIS® Series 6000 Optical Switch is a high-performance, fully non-blocking all-optical matrix switch available in sizes from 4x4 up to 192x192. It is designed to meet the highest performance and reliability needs of the most demanding applications with exceptionally low optical loss, compact size, low power requirements and fast switching speeds. With support of Software-Defined Networks (SDNs) via an embedded OpenFlow and NETCONF control interfaces, the Series 6000 enables extremely low latency for time-critical traffic required for new virtual cloud services in hybrid packet-optical data centers. The Series 6000 is based on POLATIS patented DirectLight™ optical switching technology that has been proven in the most challenging data center, telecom and defense applications and is also used by major network equipment manufacturers to automate testing of optical components and subsystems.

FEATURES

• Carrier-class reliability and interfaces from the worldwide leader in optical switches
• SDN enabled via an embedded OpenFlow control interface allows reconfiguration of the network on demand
• Polatis' patented DirectLight® Beam-Steering technology sets the industry standard
• Flexible configuration options allow you to choose from 4x4 to 192x192 ports
• Optional fully integrated power monitors, variable optical attenuation and optical taps
• Advanced dynamic web GUI and network management tools reduce costs and improve management
• Lowest loss and highest performing switches help you solve your toughest optical networking challenges

The POLATIS® Series 7000n 384x384 all-optical circuit switch is designed to meet the most demanding applications with exceptionally low optical loss, compact size, and fast switching speeds. With support for Software-Defined Networks (SDNs) via embedded OpenFlow and NETCONF control interfaces, the Series 7000n can route time-critical traffic with very low-latency to enable new virtual cloud services in hybrid packet-optical data centers. The Series 7000n is the latest addition to the POLATIS product line of optical switches and modules, creating the broadest portfolio available of dynamic fiber cross-connect solutions (from 4x4 to 384x384), all built on the POLATIS patented DirectLight™ optical switching platform that has been proven in the most challenging data center, telecom and defense and test applications for over a decade.

FEATURES

• Large switch capacity and high density with up to 384x384 
• Ultra-low optical loss and superior performance
• True dark fiber switch
• Signal bit-rate and format independent up to 100G, 400G and beyond
• Proven Polatis reliability
• SDN-enabled with RESTCONF and NETCONF command interfaces
• Supports a rich set of configurable value-added functions including optical power monitoring, variable attenuation and autonomous optical layer protection switching

The POLATIS® Series 6000 family of multimode optical switches utilises the patented DirectLight™ beam-steering technology to deliver high performance in a compact, fully non-blocking, multimode product, in matrix sizes from 8 x 8 to 16 x 16.

The Series 6000 multimode switch is designed to meet the needs of the most demanding component, subsystem and system test applications. All-optical switching allows test equipment connections to be fully automated and controlled remotely 24/7 via software from virtually anywhere in the world. 

POLATIS patented DirectLight beam-steering technology holds dark fiber connections so test pathways can be pre-provisioned; it is transparent to signal format and transmission speeds so there is no need to upgrade as standards evolve

Its exceptionally low optical loss, high connection repeatability and fast switching times make it ideal for optical test applications. There is no need repeatedly to make and break fiber optic connections so more accurate measurement results can be achieved. 

It is now available with POLATIS full network interface capability including SDN with NETCONF and RESTCONF control interfaces and an advanced dynamic web GUI, and features dual hot-swap power supplies for added reliability. 

FEATURES

• Exceptionally low optical loss, high connection repeatability and fast switching times ideal for optical test applications 
• No need repeatedly to make and break fibre optic connections so more accurate measurement results can be achieved
• Uses Polatis’ full network interface capability - SDN-enabled with NETCONF and RESTCONF control interfaces; advanced dynamic web GUI
• Polatis' patented DirectLight® Beam-Steering technology sets the industry standard – holds dark fibre connections so test pathways can be pre-provisioned; transparent to signal format and transmission speeds so no need to upgrade as standards evolve
• Flexible configuration options allow you to choose from 8x8 to 16x16 ports
• Now with dual redundant hot-swap power supplies for added reliability