Intelligent Optical System 600
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Scales from: 32x32 to 192x192
Overview: The Intelligent Optical System 600 is designed for locations where vertical rack space is more constrained than depth. The System 600 allows up to 192x192 fibers with MTP connectors. Our advanced graphical user interface makes it easy to share integrated devices such as Photonic Multicast Units for the broadcasting of signals.
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Capabilities
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Photonic, Purely Optical Cross-Connect
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• Handles all traffic data rates: 10GE up to OC-768 and 100GE
• Transparently accepts all signal formats: SONET/SDH, Ethernet, DWDM, digital, or analog
• Single-mode, wideband (1270 nm - 1630 nm)
• 20 Millisecond switching
• Compact, low-power, high-density
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Fast Installation, Easy to Program and Use
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• ClickFlow™ - built-in user-friendly web interface
• Topology templates to instantly reconfigure connections
• TL1 command-line interface
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Available Features
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• Optical power monitoring on all fibers in real-time
• Alarm triggers and configurable optical power thresholds
• Automatic protection switching
• Connect point to multipoint via photonic multicasting
• Control optical power with Variable Optical Attenuation (VOA)
• Enhanced user management with Virtual Private Switch
• Multi-switch management from single station
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Outstanding Reliability and Performance
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• Fast reliable switching: billions of switched connections tested
• Insertion loss below 2dB
• Power consumption: 85W
• Choice of redundant, hot-swappable AC power or Dual -48V DC power
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Applications
Optical Amplification
For applications requiring amplification of large numbers of optical fibers, the IPS 3000 supports 12 dual optical amplifier modules for a total of 24 amplifiers in 6RU of rack space.
Case Study
Problem
A federal integrator with a government customer needed to connect geographically dispersed antenna sites to a central pool of monitoring equipment.
Our Solution
With Glimmerglass managing the reconfiguration of optical signals, the integrator was able to create an RF-over-fiber solution that performed better and cost less than traditional implementations.
