DMR interop is a guided module for teams that need radio coverage, internet reach-back, and Secure Radio coordination in the same operation.
Push-to-talk over cellular is powerful when mobile data or Wi-Fi reaches the people who need to coordinate. But some operations still depend on radio coverage: remote sites, temporary deployments, utility work, rural estates, event perimeters, disaster recovery, and areas where field users already carry DMR radios.
DMR interoperability gives those teams a practical bridge. A configured gateway can listen to a DMR talkgroup and publish that audio into Secure Radio. In the other direction, authorised Secure Radio users can transmit back through the gateway to the configured DMR route.
A useful mental model is a DMR gateway at the edge of the operation. The local DMR radio network covers the immediate area. The gateway has an internet path, which could be fixed broadband, LTE, Wi-Fi, or satellite. Secure Radio then carries the operation back to dispatch, supervisors, remote specialists, or PoC users outside the RF footprint.
That can matter when a team is operating beyond normal infrastructure, when a local incident needs support from people elsewhere, or when an organisation wants the familiarity of radio at the edge without isolating that radio net from the wider command workflow.
DMR interop touches more than software activation. It needs the right gateway hardware, AMBE handling, DMR source and destination IDs, timeslot selection, RF coverage planning, audio level tuning, licensing checks, and an operating procedure that tells users when to wait and when to speak.
That is why Secure Radio offers DMR Interop as a guided module rather than a standard self-service trial feature. We work with your team to define the route, prepare the gateway, confirm the test radios and talkgroups, and agree how success will be measured before treating the bridge as operational.
A useful first evaluation should stay deliberately narrow. Choose one gateway, one DMR talkgroup or route, one Secure Radio talkgroup, and a small number of authorised operators. Then test both paths: RF to Secure Radio, and Secure Radio to RF. The evaluation should measure audio quality, latency, first-word clipping, user cues, fallback process, and who is allowed to key the RF side.
The goal is practical proof, not a generic claim that every radio system can be bridged instantly. A good evaluation shows whether your specific use case can be connected safely and clearly.
DMR Interop is scoped separately from standard field-user and dispatch software access because every RF environment is different. The core Secure Radio platform can still be evaluated quickly with one dispatch console and one Android radio. The DMR module is added when your organisation needs a radio gateway route as part of the operating model, and Guided Evaluation is required before live use.
Commercially, the module is priced per configured gateway. A useful starting point is from £250 per DMR gateway per month, ex VAT, on annual terms. Two gateways for two different sites or radio routes would normally mean two gateway module fees.
That recurring module fee includes Secure Radio provisioning and route configuration for the gateway. Radios, antennas, RF licensing, site radio work, gateway hardware, SIMs, satellite or broadband backhaul, and ongoing connectivity costs are separate unless agreed.
These notes are customer-facing guides grounded in current Secure Radio public pages and documentation.
A good trial should test activation, voice workflow, dispatch visibility, operator authentication, and one real operational scenario.
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Software pricing starts from £10 per named field user and £50 per dispatch seat, with Guided Evaluation, DMR gateway modules, and hardware handled separately.
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The device choice should support the workflow, not distract from it. Compact Android PoC radios are often a better fit than traditional long-antenna radios.
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