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RFI MiniSystem Combiner Deployed To Provide Rapid Radio Coverage For A High-Profile Expedition Race TV Series

RFI MiniSystem Combiner Deployed To Provide Rapid Radio Coverage For A High-Profile Expedition Race TV Series

For the high profile expedition race TV series filmed in Fiji, RFI worked with partner COMS Ltd to supply and deploy MiniSystem Combiners and antennas to provide rapid radio coverage.

The Challenge:

Our partner had won the contract to provide rapid radio communications for a high-profile expedition race TV series in Fiji. The event organisers required coverage for four concurrent VHF radio channels, in three geographical coverage zones.

Implementation timelines and logistics were quite challenging with the sporting series running across multiple days. All the equipment, including the radio repeaters, multicoupling system and antennas had to be transported long distances into remote areas with no proper road access.

In some areas, the equipment had to be moved to sites by helicopters. The equipment also had to be compact and lightweight enough so it could be easily disassembled and carried by hand if required.

To cover zone 2, the whole equipment had to be fitted into and moved between aircrafts. Our partner also needed the ability to remove, redeploy and reconfigure the equipment, at short notice, to meet the event’s timelines quickly and easily.

Importantly, providing a reliable radio communication system was critical as the health and safety of the competitors and the crew depended on it.

The Solution:

After thorough consideration, our partner selected RFI’s MiniSystem Combiners and antennas to support the radio coverage for this event. Delivered pre-configured, our partner only needed to plug the radio repeaters and antennas for rapid coverage deployment.

The simplicity of installation and the compact physical size made the MiniSystem Combiner the ideal combining solution for this application. MiniSystems provided the customer with everything they needed for their multicoupling. Signal filtering, combining, amplification and distribution were all included in a compact enclosure. This enabled the customer to easily combine four radio repeaters into a single antenna using a small footprint.

The compact size and light weight of the MiniSystem also helped the customer to move the equipment easily across zones in pre-made portable hard cases, along with the radio repeaters. This would not be possible with a traditional multicoupling system with bulky and heavy filters, combiners and multicouplers.

The Results:

The MiniSystems were delivered to the customer on time and our partner managed to deploy and transport the equipment within the expected timeframes. Once the equipment was at its designated location, it was setup and commissioned quickly and smoothly.

The whole system was also de-commissioned, moved and redeployed in a different location, 200 kms away in two days.

The compact size of MiniSystems also allowed the whole system to be fitted inside the repeater aircrafts. The aircrafts had antennas on the under belly and were providing radio coverage for one of the geographical zones.

RFI Equipment Used:

To download a copy of the full case study, please click the link below.

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RFI’s Solar Connectivity Solution Provides Connectivity For System Monitoring In A Commercial Enphase Solar Installation

RFI's Solar Connectivity Solution Provides Connectivity For System Monitoring In A Commercial Enphase Solar Installation

RFI worked with Harvey Norman Commercial Division to supply and install communication solutions to provide connectivity to allow for essential solar monitoring on the Enphase Enlighten portal.

The Challenge:

Monitoring is an essential part of set up and maintenance of a commercial solar system. For access restriction reasons the connectivity available on-site could not be utilised by the installation team for monitoring purposes. Therefore, an independent connectivity solution was needed to be sourced and installed by the installation team.

As a commercial site, it was important to ensure that any solution for providing connectivity was enterprise level with reliability and security a priority for both the hardware and the SIM connection components. Any solution would also need to be appropriate for long term deployment and future proof against known technology changes. As an additional challenge on the site, one of the modems was to be located within a concrete room, creating a challenge for receiving reception with the site.

The Solution:

Our partner, Harvey Norman Commercial, had consulted and installed the solar system and hardware. As experienced providers of solar communication hardware, RFI was consulted for a solution that would be able to provide long term connectivity with high reliability.

The requirement for a connectivity system which was highly reliable, secure and easy to install made RFI’s Solar Connectivity Solution an ideal solution. The MA-2055 modem in the bundle is an industrial grade modem, bundled with Vodafone’s IoT SIM, it ensured that an enterprise-level solution was installed. With multicarrier redundancy and superior security with the IoT SIM’s Access Control list ensuring that only desired websites can be accessed, the need for a secure and reliable system was also ensured. The bundle is also 4G ready and so no changes will need to be made when 3G connectivity is lost at the site.

To assist with the challenge of receiving reception into the concrete room RFI was able to supply the CSM500 with a custom length cable to mount the antenna exterior to the building. The low-profile bracket mountable antenna made for perfect integration into the install as it was able to provide adequate reception without compromising building aesthetic.

The Results:

Utilising RFI’s Solar Connectivity Solution and the CSM500 antenna connectivity was able to be organised for the system. This allowed for the quick, easy and reliable deployment of connectivity which meant monitoring in the Enpase Enlighten Portal was able to be accessed and set up rapidly and efficiently.

Watch the video here to see how connection was established in minutes.

To download a copy of the full case study, please click the link below.

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VHF. UHF. Delivered in a Single Antenna.

RFI is excited to announce our innovative new CD30 Multi-band Antenna. This future-proof solution supports multi-band radio technology currently being rolled out in the latest Emergency Services radio systems.

The CD30 series has been designed and manufactured in Australia by our Advanced R&D and manufacturing teams.

Introducing the CD30

The CD30 Series dual band VHF/UHF antennas support multi-band radio technology to provide interoperability among emergency management and response personnel, regardless of the frequency band used. It provides outstanding coverage of VHF and UHF in an easy-to-install, no tune design.

Vehicle roof space savings

Modern emergency vehicles are also running out of space to install more antennas. The CD30 covers both VHF and UHF bands in one antenna.

Why Multi-band Technology?

Many emergency services utilize both VHF for regional coverage and UHF for urban coverage.
Previously they would have installed two radios (& hence two antennas), however today’s radio manufacturers now provide VHF and UHF capabilities in one radio.

A single radio also allows emergency services a way to exchange critical voice and data communications seamlessly with multiple agencies and jurisdictions operating on different radio bands.

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Introducing Next Generation DAS Antennas

Introducing Next Generation DAS Antennas

RFI is excited to introduce our Next Generation DAS and In-building Antennas. These are perfect for use in in-building or DAS networks including office-buildings, hospitals, shopping centres and stadiums.

RFI’s Low PIM DAS antennas offer a full feature set of low -153dBc PIM rating, excellent coverage and wide band functionality, covering all your 4G/LTE needs now, and into the future.

Low PIM

One of the underlying keys to best performing DAS and IBC networks is ensuring low PIM components are used, thereby guaranteeing lower noise and improved ratios. Our range utilise 4.3-10 connections required by telecommunications carriers to deliver the Low PIM rating of -153dBc.

By safeguarding your installation with Low PIM passive devices, your network is guaranteed to meet the ever-increasing demand for higher data rates and the ability to provide high quality streaming on mobile devices today and into the future.

Blends into Building Aesthetics

Our low profile designs offer up a pleasant aesthetic by blending into almost any environment,
with a minimal trade-off in performance.

The Complete Range

RFI offers a complete range of Panel and Omni-directional antennas, covering both Indoor & Outdoor applications. These can even be used as the donor site antenna for an In-building coverage system.

These antennas can be used in indoor or outdoor applications with IP67 rated SISO and MIMO options available (in both panel and omni-directional versions). View the complete range at our links below.

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Sydney Harbour Tunnel rebroadcast major system upgrade

Overview

When Trantek MST needed a reliable rebroadcast system for the Sydney Harbour Tunnel intelligent transport system upgrade project, they chose RFI.

Project:

Upgrade AM/FM radio rebroadcast system, providing audio break-in capabilities, competiablity for the future DAB+ digital radio upgrade, and performance monitoring capability in the Sydney Harbour Tunnel, NSW.

Customer:

Trantek MST and the Sydney Harbour Tunnel.

RFI Role:

Design and installation of the upgrade to the intelligent transport system.

Job  Overview:

Trantek MST selected RFI to provide the rebroadcast system, based on RFI’s experience and expertise with this technology. RFI delivered a flexible and feature-rich rebroadcast system, utilising a comprehensive suite of their products and services.

“We chose RFI because of their proven technical, manufacturing, installation and integration capabilities. RFI has proven extremely easy to work with, quickly understanding the technical requirements of Trantek MST’s fault resilient architecture and integrating and where necessary manufacturing custom components to achieve a truly satisfying solution.” said Trantek MST Managing Director, Mr Lionel Ascone.

“They have provided the Sydney Harbour Tunnel with an upgraded rebroadcast system that has met the customer’s operational requirements, whilst also providing a feature-rich capability that allowed us to incorporate it into our fault-resilient intelligent transport control system.”

“RFI performed well within the often challenging multi-disciplined environment that exists in a major project, and has delivered their system to the project on-budget – assisting Trantek MST to deliver another successful project to its customers.”

Key Components

  • Rebroadcast AM Repeaters
  • Rebroadcast FM Repeaters
  • Broadband multi-carrier power amplifiers
  • AM/FM Cross band Couplers
  • The rebroadcast system provides compatibility for the future addition of the rebroadcast of DAB+ digital radio.
  • A custom manufactured RF Change-Over Unit was incorporated within the design, enabling switching between the redundant subsystems, either manually or automatically controlled by Trantek MST’s fault-resilient ITS system.
  • Performance monitoring of the radiating cables at both ends of both tunnels -implemented to continuously monitor the performance of the system and contribute to the switching control of the system redundancy in the event of a system fault condition.
  • Fibre optic cable is used to link the equipment items between the various installation locations.

Trantek MST was tasked with the design and installation of an upgrade to the Sydney Harbour Tunnel intelligent transport system in NSW, Australia. The Sydney Harbour Tunnel is one of Sydney’s primary transport routes, with busy vehicular traffic using the tunnel 24 hours a day, 7 days a week.

The AM/FM radio rebroadcast system is a relatively minor, but vital, component of the overall total intelligent transport system not only to maintain the rebroadcast of AM and FM radio stations within the Tunnel, but also to ensure that vital incident management capabilities can be maintained In the event off a sub-system failure.

An audio break-in capability allows pre-recorded or live audio announcements to be inserted into the AM and FM rebroadcasts to notify drivers of incident information via their car radios.

Trantek MST sought a partner who could design, install and commission the rebroadcast system upgrade as a turnkey sub-contractor.

As well as meeting the stringent operational requirements, Trantek MST needed a partner with the experience to handle the challenges of working on one of Sydney’s busiest roadways.
Trantek MST selected RFI to provide the rebroadcast system, based on RFI’s experience and expertise with this technology. RFI delivered a flexible and feature-rich rebroadcast system, utilising a comprehensive suite of their products and services, including:

  • RF surveys
  • System design
  • Equipment manufacture
  • Integration
  • Factory acceptance testing (FAT)
  • Installation
  • Commissioning
  • Site acceptance testing (SAT)
  • Coverage testing

Project Management

RFI believes in flexible, responsive and transparent relationships with clients. So during this project, RFI’s project manager actively liaised with Trantek MST and Sydney Harbour Tunnel personnel. Working closely with Trantek MST and their customer allowed several unexpected issues that arose during the project to be addressed and resolved with minimal impact to the customer’s operations and tunnel motorists.

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Sydney Hills M2 tunnel upgrade

Overview

RFI provided a communications solution to deliver Break-In Emergency Services radio coverage and AM/FM rebroadcast (RRB) system as part of the $550 million Sydney Hills M2 tunnel upgrade.

An audio break-in capability allows pre-recorded or live audio announcements to be inserted into the AM and FM rebroadcasts so drivers can hear them on their car radios.

To reduce traffic congestion and improve travel time, Transurban undertook a significant upgrade of Sydney’s M2 Motorway, which included widening the 360m roadway tunnel from two to three lanes in both directions. During this process, Transurban recognised the need to upgrade the public address system and audio break-in of the AM/FM Radio Rebroadcast System (RRB) via the Intelligent Transport System (ITS).

Transurban required RFI to fully manage the project and provide a full turnkey solution of Break-in radio rebroadcast including design, installation, commission, training and documentation.

Design

RFI designed the system which comprised:

  • 12 Channels of AM and 12 Channels of FM Off-Air Channelised Uni-Directional Amplifiers
  • UHF O&M Two-Way Radio Rebroadcast
  • UHF/Police/RMS Rebroadcast
  • Future compatibility for inclusion of DAB+ Rebroadcast
  • Coaxial and Radiating Cable AM/FM RF distribution system
  • Audio Break-In Interface to the AM/FM
  • Rebroadcast System
  • Fully Integrated DYNAC OMCS Radio
  • Rebroadcast interface
  • Audio Server / Logger/ Replayer
  • PMCS System Alarm Monitoring interface
  • And associated combining, antennas and related equipment

Requirements

Specific requirements for the project included:

Tyco selected RFI to design and install the rebroadcast system, based on RFI’s experience and expertise with this technology. RFI delivered a flexible and feature-rich rebroadcast system, utilising a comprehensive suite of their products and services, including:

  • The retransmission of the AM and FM radio station broadcasts to maintain the quality equivalent to that outside of the tunnel
  • The Retransmission of existing Hills
  • M2 operations and maintenance UHF radio system needed to improve hand-held radio reception
  • The system needed to interface to existing PA system
  • The RRB needed to provide an interface to both the primary and secondary
  • OMCS system servers Of particular challenge was the extensive software development RFI had to undertake to enable the interface from radio rebroadcast public address (RRBPA) Audio Server, to communicate with the existing Transurban OMCS system via the Ripple protocol.
  • Also challenging was signal reception and rebroadcast of the clients preferred AM/FM commercial radio stations, this was due to the geographical location and various output power of targeted AM/FM commercial broadcasters. RFI exercised thorough site surveys for optimal antenna placement to ensure strong signal reception and quality tunnel rebroadcasting to resolve these issues.
  • RFI supplied all RRB hardware, software, cabinets, cables and antennas for both East and West Bound Tunnels, the MTP (Main Toll Plaza) and the EPCR (East Portal Control Room).
  • The DSPbR and AM/FM repeater equipment is manufactured at our high spec Adelaide facility. RFI also supplied AM/FM antennas and RFI UHF yagi antennas, lightning protection, and in-tunnel off-air monitoring system.
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