Installation Instructions
Table Of Contents
- Fluidmesh 4200 FIBER
- Table of Contents
- 1. HAZARDOUS CONDITION WARNINGS
- 2. Reporting mistakes and recommending improvements
- 3. Getting Started
- 4. Hardware installation
- 4.1. Fluidmesh Hardware Installation
- 4.2. Connecting the Fluidmesh Fluidmesh 4200 FIBER to a network and antennas
- 5. Using the Fluidmesh Partner Portal
- 6. Device configuration using the configurator interface
- 6.1. Software and hardware prerequisites
- 6.2. Accessing the Fluidmesh 4200 FIBER for device configuration
- 6.3. Switching between offline and online modes
- 6.4. General settings
- 6.5. Network control
- 6.6. Advanced settings
- 6.6.1. Advanced radio settings
- 6.6.2. SFP settings
- 6.6.3. Static routes
- 6.6.4. Whitelists and Blacklists
- 6.6.5. Multicast
- 6.6.6. SNMP configuration
- 6.6.7. Wireless access point configuration
- 6.6.8. RADIUS configuration
- 6.6.9. NTP Configuration
- 6.6.10. L2TP configuration
- 6.6.11. VLAN settings
- 6.6.12. Fluidity settings
- 6.6.13. Miscellaneous settings
- 6.7. Management settings
- 6.7.1. View Mode settings
- 6.7.2. Changing the Administrator username and password
- 6.7.3. Overwriting and upgrading the unit firmware
- 6.7.4. Plug-In management
- 6.7.5. The device status view
- 6.7.6. Saving and restoring the unit settings
- 6.7.7. Resetting the unit to factory defaults
- 6.7.8. Logging out
- 6.7.9. Viewing the end-user license agreement
- 7. Software Plug-Ins
- 8. Troubleshooting
- 9. Electrical power requirements
- 10. Heat radiation data
- 11. Federal Communications Commission (FCC) radio interference statement
- 12. Notices and copyright
- 13. Fluidmesh end-user license agreement
- 13.1. Preamble
- 13.2. Notice
- 13.3. Definitions
- 13.4. License grant
- 13.5. Uses and restrictions on use
- 13.6. Open-source software
- 13.7. Termination
- 13.8. Feedback
- 13.9. Consent to use of data
- 13.10. Warranty disclaimer
- 13.11. Limitation of liability
- 13.12. Exclusion of liability for emergency services
- 13.13. Export control
- 13.14. General
- 14. Contact us
IMPORTANT
XCO-standard transceiver modules and XCO-type duplex
fiber-optic connectors can easily be sourced as off-the-shelf
parts.
If you experience difficulty in sourcing or ordering fiber-optic
parts or accessories, please contact your local Fluidmesh
Networks representative for assistance.
Unit function and throughput speed
The unit is designed to handle mission-critical video, voice, and data with
extremely high reliability. It can be fitted with a single XCO-type SFP fiber-
optic transceiver module to create fiber-optic connected point-to-point,
point-to-multipoint or mesh network links, with real throughput of up to 100
Mbps under optimal wireless link conditions.
Data throttling
The unit's FluidThrottle functionality allows you to specify the maximum
amount of data throughput the unit will be required to handle at any time.
The unit's throughput capacity can be upgraded to different levels using
software plug-ins.
MPLS protocol
Two different Multi-Protocol Label Switching (MPLS)-based protocol
versions can be chosen. If a newer network is being built or upgraded, the
advanced Prodigy 2.0 protocol can be selected to boost performance. If
an older network incorporating Fluidmesh components is being upgraded,
the Prodigy 1.0 protocol with limited functionality can be selected to
guarantee compatibility. Prodigy uses a traffic optimization algorithm that
allows every Fluidmesh radio to assign a specific priority level to every
forwarded data packet.
Unit configuration
The unit is compatible with Fluidmesh RACER™. This is a centralized,
web-based interface that allows you to configure, monitor, and
troubleshoot the unit (and in certain cases, the entire wireless network) in
real time, without the need for any offline software. In cases where an
initial connection cannot be made to the internet, the unit can be
configured using a built-in offline Configurator interface.
Role adaptability
The unit is equipped with FluidMAX. This is a software technology that
allows you to easily change the role of the unit, so that it is able to function
as part of a Point-to-Point, Point-to-Multipoint, or Mesh network
architecture without having to replace physical hardware. The unit can use
Fluidmesh 4200 FIBER
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