Installation Instructions
Table Of Contents
- Cisco Ultra-Reliable Wireless Backhaul FM4200 Mobi
- Table of Contents
- 1. HAZARDOUS CONDITION WARNINGS
- 2. Reporting mistakes and recommending improvements
- 3. Getting Started
- 4. Installing the radio
- 5. Hardware installation
- 5.1. Fluidmesh Hardware Installation
- 5.2. Connecting the Fluidmesh Cisco FM4200 Mobi to a network and antennas
- 6. Using the Fluidmesh Partner Portal
- 7. Device configuration using the configurator interface
- 7.1. Software and hardware prerequisites
- 7.2. Accessing the Cisco FM4200 Mobi for device configuration
- 7.3. Switching between offline and online modes
- 7.4. General settings
- 7.5. Network control
- 7.5.1. Ping softdog
- 7.5.2. FM-QUADRO
- FM-QUADRO for mesh network-capable devices
- Plotting and interpreting the wireless links
- Viewing live data for a radio or wireless link
- Viewing live RSSI data for a wireless link
- Manipulating the FM-QUADRO view
- Changing the relative position of device icons
- Showing KPI values for wireless links
- Adding an aerial map to the FM-QUADRO view
- Adjusting the transparency of the aerial map view
- Exporting a network representation file
- 7.5.3. Advanced tools
- 7.6. Advanced settings
- 7.6.1. Advanced radio settings
- 7.6.2.
- 7.6.3. Static routes
- 7.6.4. Pass lists and Block lists
- 7.6.5. Multicast
- 7.6.6. SNMP configuration
- 7.6.7. Wireless access point configuration
- 7.6.8. RADIUS configuration
- 7.6.9. NTP Configuration
- 7.6.10. L2TP configuration
- 7.6.11. VLAN settings
- 7.6.12. Fluidity settings
- 7.6.13. Miscellaneous settings
- 7.7. Management settings
- 7.7.1. View Mode settings
- 7.7.2. Changing the Administrator username and password
- 7.7.3. Overwriting and upgrading the unit firmware
- 7.7.4. Plug-In management
- 7.7.5. The device status view
- 7.7.6. Saving and restoring the unit settings
- 7.7.7. Resetting the unit to factory defaults
- 7.7.8. Logging out
- 7.7.9. Viewing the end-user license agreement
- 8. Software Plug-Ins
- 9. Troubleshooting
- 10. Electrical power requirements
- 11. Heat radiation data
- 12. Federal Communications Commission (FCC) radio interference statement
- 13. Notices and copyright
- 14. Fluidmesh end-user license agreement
- 14.1. Preamble
- 14.2. Notice
- 14.3. Definitions
- 14.4. License grant
- 14.5. Uses and restrictions on use
- 14.6. Open-source software
- 14.7. Termination
- 14.8. Feedback
- 14.9. Consent to use of data
- 14.10. Warranty disclaimer
- 14.11. Limitation of liability
- 14.12. Exclusion of liability for emergency services
- 14.13. Export control
- 14.14. General
- 15. Contact us
Figure 3. Typical point-to-multipoint networking architecture
FluidMAX is based on a centralized Media Access Control (MAC)
protocol. It allows point-to-multipoint networks to be created by facilitating
quick, reliable communications between Fluidmesh radio transceiver units
that are part of the same network. Using FluidMAX technology, a
Fluidmesh unit can be used as the center point of a star topology in a
point-to-multipoint network arrangement using sector antennas, or using
antenna splitters connected to more than one directional antenna. The
Fluidmesh unit at the center of the star topology is assigned a principal
role, co-ordinating communications to and from all other units (which are
assigned Subordinate roles). Assuming a default communication channel
width of 40 MHz, the MAC protocol used by FluidMAX is capable of
supporting data throughput of up to 150 Mb/s.
Provided that the sum of the data throughput requirements of all
subordinate units in the star topology is less than or equal to 150 Mb/s,
FluidMAX technology allows an increased data throughput rate per
subordinate unit. This allows the number of installed subordinate units to
be reduced.
FluidMAX operates automatically and is fully integrated within the mesh
network architecture. By continuously monitoring the network topology,
installed Fluidmesh units are able to automatically use the FluidMAX MAC
protocol, or remain in the initial mesh operating mode. No additional
configuration is needed to enable the FluidMAX features, as the
communication protocol is automatically chosen by FluidMAX, based on
the detected network topology.
Cisco Ultra-Reliable Wireless
Backhaul FM4200 Mobi
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