Please install Flash and turn on Javascript.
Please install Flash and turn on Javascript.
Athens, Greece - 24 September 2013 - Intracom Telecom, a global telecommunication systems vendor, today announced its capability to offer the feature of 4096 QAM modulation on its OmniBAS packet microwave radios. This feature is a pioneering innovation enabling true Gigabit capacity on a single microwave carrier, allowing telecom operators to increase the capacity of their radio backhaul as they are planning and rolling out LTE networks. The company presents this feature at the Packet Microwave & Mobile Backhaul event, 23-25 September, in Dusseldorf Germany.
Mr. Dimitrios Pantelopoulos, R&D Head of Wireless Solutions of Intracom Telecom said: "The implementation of this feature is a great achievement of our R&D team. It proves Intracom Telecom's vast experience in digital signal processing and modem technology, a unique capability among the leaders of the wireless transmission vendors. This feature will further enhances our wireless transmission offering to our customers, enabling the highest radio backhaul capacity in the industry today. We are proud to offer this solution to our customers, swiftly responding to their requirements and enabling them to build and upgrade their infrastructure".
Intracom Telecom is a global telecommunication systems vendor operating for over 35 years in the market. The company innovates in the wireless access and transmission field, offers a competitive telco software solutions portfolio and combines its offerings with a complete range of professional services. Intracom Telecom invests significantly in developing cutting-edge products and solutions while exploiting its advanced in-house R&D center. Over 100 customers in more than 70 countries choose Intracom Telecom for its state-of-the-art offerings. The company's clientele consists of fixed & mobile telecom operators, public authorities and large enterprises. Intracom Telecom's major shareholders are Intracom Holdings and SITRONICS.
Start of page