Advantech Wireless Technologies Inc receives orders for its new 3.2kW Ku-Band Outdoor Modular Satell
Advantech Wireless Technologies Inc, a global leader in satellite broadband communications solutions, announced today the reception of orders for the New 3.2kW Ku-Band Outdoor Modular/SummitTM Solid State Power Amplifier (SSPA) System.
Designed to be used as direct replacement of older generation Klystrons or TWTs, these very high power, wide bandwidth, all outdoor ruggedized systems, allow operation over the entire Ku-band spectrum with multiple carriers, and outstanding linearity. The new modular SummitTM systems have built-in redundancy with soft failure mode and are able to operate simultaneously on both polarizations or on a single polarization with double amount of power.
“We are very happy to announce, that, after less than 3 weeks from this new product launch, we have already received initial orders. We believe this proves the market demand for more power, higher bandwidth, but also lower operating cost. The DTH teleports need to stay competitive, in a very complex and challenging environment, and that can only be done, by completely redesigning the way we make satellite teleports today. This powerful modular system, with built in redundancy, is an ideal choice for large DTH teleport uplinks. Without using expensive filter combiners, which make future frequency planning changes very complex and challenging the system is ready now, without extra investment, for new higher modulation and error correcting codes, as specified in DVB-S2X, or higher data rates. Combined with a high gain antenna, this system can completely saturate all transponders on any satellite. It is a change that most teleports could benefit from, in order to stay competitive in an aggressive market” stated Cristi Damian, VP Business Development at Advantech Wireless Technologies Inc.
The design of the 3.2kW Ku-Band Outdoor SSPA is based on Advantech Wireless’ industry-proven reliable Solid State Power Amplifiers and over 25 years of experience with high-reliability systems.