Digital Mobile Radio (DMR) is a standard adopted by the association of Manufacturers. It is the most common type among two-way radio.
Digital Mobile Radio (DMR) is a standard adopted by the association of Manufacturers. It is a standard for Digital Radios that not only ensures clear voice reception but also provides a migration path for Analog Radios to work alongside Digital Radios. It also ensures interoperability between the radios of members of association thereby allowing Customer to purchase radios as per their suitability and requirement.
As the name suggests, Repeaters are meant for repeating a signal further. Normally, a signal is received from a subscriber (Handheld or Base Station), it is amplified and re-transmitted for the receiving device to receive clearly. A handheld is transmitting only at maximum 5W and that to from a very low height. However, when the same signal is transmitted by a Repeater it is at 50 Watt (normally) and from a significantly higher height (normally, height of a tower is decided keeping in mind that plant wide coverage can be achieved.) It can even double the distance otherwise achieved from a subscriber-to-subscriber communication. Moreover, using advanced software and technologies of Motorola, it is possible to combine channels of multiple repeaters and use repeaters at multiple sites as it is being used at a single site thereby increasing the availability, effectiveness, and efficiency of the network.
» Designed for the Future: Compared to first generation repeaters, it has 10x more processing power, 15x more memory and 125x more data storage. The architecture even has provision for expansion modules, should more functionality be required in the future
» High Performance: Designed for round-the-clock reliable operation, even at its continuous full transmit power of 50W (i.e. 100% Duty Cycle at 50W.) The high-quality design meets Motorola's stringent quality criteria.
» User Safety: Features such as Location Tracking, hands free calling, Lone Worker etc. available for enhanced safety of users.