RadioMobile for Microwave Planning

RadioMobile: Popular software for Microwave Link planning

RadioMobile is a widely-available software package which can be used for Microwave Link planning, including path profiling and clearance criteria, power budgets, choosing antenna sizes and tower heights.

CableFree RadioMobile Microwave Link Planning example
CableFree RadioMobile Microwave Link Planning example

For website for RadioMobile, please see this the relevant website.

RadioMobile functions

For Microwave Link Planning, the software package can be configured with the characteristics of your required radio links.

  • Transmit Power
  • Frequency
  • Antenna Gain
  • Receiver Sensitivity
  • Antenna heights
  • System losses
CableFree RadioMobile Microwave Link Planning 60GHz example
CableFree RadioMobile Microwave Link Planning 60GHz example

Link Budget & Fade Margins

The software enables quick and rapid calculation of link budget and fade margins for any frequency band.

Terrain Database

The software uses the freely available SRTM terrain data which can download “on demand” for calculation of terrain heights.  Combined with LandCover, this enables estimation of trees/forests also.

Line of Sight

The software uses the terrain database to allows quick establishment of available Line of Sight and “what if” adjustment of antenna/tower heights in a microwave radio network design

Radio Fresnel Zone

RadioMobile automatically calculates the Fresnel Zone for any required link, with graphical display enabling quick feasibility and identification of any obstacles to be noted.

Radio Parameters & Network Properties

Any new user to Radio Mobile will have to enter link parameters for the chosen equipment.  This includes transmit power, receive sensitivity and antenna gains.  Some vendors such as CableFree include this data as a planning service with their products

Unit Properties

Radio Mobile: Free to Use

The Radio Mobile software is free to use including for commercial use.  Radio Mobile software is a copyright of Roger Coudé.  The author notes:

Although commercial use is not prohibited, the author cannot be held responsible for its usage. The outputs resulting from the program are under the entire responsibility of the user, and the user should conform to restrictions from external data sources.

For Further information

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Microwave ODU

Microwave ODU (Outdoor Unit)

The term ODU is used in Split-Mount Microwave systems where an Indoor Unit (IDU) is typically mounted in an indoor location (or weatherproof shelter) connected via a coaxial cable to the ODU which is mounted on a rooftop or tower top location.

CableFree Microwave ODU
CableFree Microwave ODU

Often the ODU is direct mounted to a microwave antenna using “Slip fit” waveguide connection.  In some cases, a Flexible Waveguide jumper is used to connect from the ODU to the antenna.

ODU functions

The ODU converts data from the IDU into an RF signal for transmission. It also converts the RF signal from the far end to suitable data to transmit to the IDU. ODUs are weatherproofed units that are mounted on top of a tower either directly connected to a microwave antenna or connected to it through a wave guide.

Generally, Microwave ODUs designed for full duplex operation, with separate signals for transmit and receive.  On the airside interface this corresponds to a “pair” of frequencies, one for transmit, the other for receive.  This is known as “FDD” (Frequency Division Duplexing)

ODU Power and data signals

The ODU receives its power and the data signals from the IDU through a single coaxial cable. ODU parameters are configured and monitored through the IDU.  The DC power, transmit signal, receive signal and some command/control telemetry signals are all combined onto the single coaxial cable.  This use of a single cable is designed to reduce cost and time of installation.

ODu Frequency bands and sub-bands

Each ODU is designed to operate over a predefined frequency sub-band. For example 21.2 – 23.6GHz for a 23GHz system, 17.7 – 19.7GHz for a 18GHz system and 24.5 – 26.5GHz for a 26GHz system as for ODUs.    The sub-band is set in hardware (filters, diplexer) at time of manufacture and cannot be changed in the field.

1+0, 1+1, 2+0 Deployments

Microwave ODUs can be deployed in various configurations.

Microwave ODU in 1+0 Configuration with Antenna
Microwave ODU in 1+0 Configuration with Antenna

The most common is 1+0 which has a single ODU, generally connected directly to the microwave antenna.  1+0 means “unprotected” in that there is no resilience or backup equipment or path.

 

 

 

Two Microwave ODUs in 1+1 HSB or 2+0 configuration with Coupler and Antenna
Two Microwave ODUs in 1+1 HSB or 2+0 configuration with Coupler and Antenna

For resilient networks there are several different configurations.  1+1 in “Hot Standby” is common and typically has a pair of ODUs (one active, one standby) connected via a Microwave Coupler to the antenna.  There is typically a 3dB or 6dB loss in the coupler which splits the power either equally or unequally between the main and standby path.

Other resilient configurations are 1+1 SD (Space Diversity, using separate antennas, one ODU on each) and 1+1 FD (Frequency Diversity)

The other non-resilient configuration is 2+0 which has two ODUs connected to a single antenna via a coupler.  The hardware configuration is identical to 1+1 FD, but the ODUs carry separate signals to increase the overall capacity.

Grounding & Surge Protection

Suitable ground wire should be connected to the ODU ground lug to an appropriate ground point on the antenna mounting or tower for lightning protection.  This grounding is essential to avoid damage due to electrical storms.

In-line Surge Suppressors are used to protect the ODU and IDU from surges that could travel down the cable in the case of extreme surges caused by lightning

The specification of a typical Microwave ODU is shown below.

Typical ODU Features and Specifications:

  • 4-42GHz frequency bands available
  • Fully synthesized design
  • 3.5-56MHz RF channel bandwidths
  • Supports QPSK and 16 to 1024 QAM.  Some ODUs may support 2048QAM
  • Standard and high power options
  • High MTBF, greater than 92.000 hours
  • Software controlled ODU functions
  • Designed to meet FCC, ETSI and CE safety and emission standards
  • Supports popular ITU-R standards and frequency recommendations
  • Software configurable microcontroller for ODU monitor and control settings
  • Low noise figure, low phase noise and high linearity
  • Compact and lightweight design
  • Very high frequency stability +/-2.5 ppm
  • Wide operating temperature range: -40°C to +65°C

For Further information

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