Freedom to Reach Your Audience with Maximum Clarity
At Advantech Wireless, we have over 20 years of experience working with broadcasters to deliver audio and visual content clearly and reliably, using cutting edge technologies. We understand the challenges broadcasters face and our solutions enable content owners, broadcasters and service providers with the freedom to deliver their messages while maximizing efficiency and retaining content value. Whether it’s receiving content from distant locations, or forwarding your programming to the broadest possible audience, Advantech Wireless has the advanced capabilities to meet your needs and deliver results.
Proven Reliability and Performance
Years of success have demonstrated the reliability of Advantech Wireless’ broadcast technologies. Even in harsh and hostile conditions, reliable transmission over satellite is available at all times. We offer robust and flexible solutions that allow integrators to build high performance DSNG trucks and flyaways.
Regardless of the choice of physical interface, our terrestrial microwave solutions can carry your broadcasting signal via DVB-ASI, STM-1, DS/3 or plain IP. In the ASI interface, our radios can carry two ASI streams in both directions at up to 210 Mbps. Each ASI stream carries an independent Multiple Program Transport Stream (MPTS), along with the ability to support your Single Frequency Network (SFN) infrastructure.
For distribution over wider areas, our satellite communications equipment can provide services Direct-to-Home (DTH) or to serve a terrestrial transmission system. Our multi-stream capabilities provide a very efficient solution for carrying several television multiplexes (MUX’s or bouquets) whilst retaining the timing to enable both Multi- and Single Frequency Network (MFN and SFN) infrastructure.
Advantech Wireless Broadcast Innovations Include:
Point to Point Microwaves
High-capacity microwave radio – the Transcend 800
GaN Based SSPAs and Converters
SNG and TV distribution. Up to 70% less power consumption, up to 30% less heat generation with a high reliability and low OPEX