Staying connected is a priority. It’s at the heart of your social identity and self-expression. It’s how you reach out to your family and closest friends, to share with them your experiences and news. We at Thuraya understand this fundamental need, and that’s why we have been evolving and advancing our data products throughout the years to meet this ever-growing global demand for wireless data connectivity. Thuraya WE was developed to converge satellite with terrestrial communications. It is the world’s first dual mode Satellite & LTE hotspot that keeps you in contact with your family and friends all the time, no matter where you are.
Thuraya WE allows you to automatically switch between Satellite and GSM networks with a click of a button using the Thuraya WE mobile app and web interface. With Thuraya WE, you can transform any area into a Wi-Fi hotspot, and allow up to 10 smart devices to connect and share internet within a range of 30m or more.
When you need superior mobility with zero compromise on connectivity, there can only be one choice: Thuraya IP+. The lightest, fastest satellite broadband terminal in its class, Thuraya IP+ can be deployed from backpack to broadband in a matter of seconds, providing reliable broadband access within locations covered by Thuraya’s congestion-free satellite network.
Mobile Satellite Internet Modem – Light, Speed. Everywhere.
The most compact, lightest satellite broadband terminal of it’s class. Delivering the fastest IP speeds from a terminal of its size. Thuraya IP+ is engineered to support a broad range of mission-critical applications. Highly portable, Thuraya IP+ can be easily deployed from backpack to broadband in a matter of seconds. Take advantage of Thuraya’s extensive satellite network, providing reliable access from locations.
Thuraya IP Voyager
Thuraya IP Voyager
For Communications-On-the-Move with zero compromise on connectivity, there can only be one choice: Thuraya IP Voyager. Simple, quick and easy to install on any vehicle, connectivity to the internet can be achieved within minutes, providing reliable broadband access within locations covered by Thuraya’s congestion-free satellite network.
Work. Email. Surf. Skype. Facebook. Anywhere. On-the-Move.
Thuraya IP Voyager is a reliable, high-quality and affordable vehicular satellite terminal designed for a wide range of mission-critical on-the-move operations such as border patrol, defense and disaster response in areas inadequately served by terrestrial networks. The terminal enables users to collaborate reliably and efficiently with colleagues using video, data and VoIP to achieve mission-critical tasks, where failure is not an option.
Designed to operate at IP broadband speeds of up to 444kbps, Thuraya IP Voyager is the only vehicular terminal in the market capable of achieving streaming IP speeds of up to 384kbps as well as user definable asymmetric streaming.
Ka-band high-throughput satellite router with advanced adaptive LDPC coding.
The Hughes HN9800 is a new-generation, Ka-band broadband satellite router designed for high-throughput satellite applications. The HN9800 incorporates advanced LDPC coding and other new features, making it the ideal platform to deliver even the most bandwidth demanding services on today’s Ka-band satellites, while being future-proof for the next-generation, high-throughput systems. The HN9800 features a single intra-facility link (IFL) interface to the outdoor unit.
High Throughput, High Efficiency, and Future Proof
Fully compliant with the industry-leading IPoS standard, the HN9800 is a powerful satellite router featuring high performance on both the DVB-S2/ACM forward channel, as well as the adaptive LDPC coding return channel. The adaptive coding on the return channel enables the unit to dynamically change FEC rates, burst-to-
burst, based on link conditions, to achieve the highest throughput while maintaining high link availability. Through the combination of adaptive LDPC coding and a powerful processor, the HN9800 supports upstream burst rates of 3.6 Mbps, making the HN9800 an ideal platform for next-generation, high-throughput satellite systems. To enable superior end-user performance, the HN9800 includes a full set of integrated Wide Area Network (WAN) optimization features. Accelerated TCP and HTTP performance features, including HTTP pre-fetch (objects are locally cached on the HN9800) along with DNS caching, enable fast Web browsing. Integrated header and packet payload compression both conserves bandwidth and contributes to high performance. A full-featured IP router, the HN9800 supports a switching capacity up to 5,000 packets per second eliminating the need for an external router. IP routing and addressing features implemented in the HN9800 include the RIPV2 and BGP routing protocols, virtual router redundancy protocol (VRRP) with policy-based routing, DHCP server or relay, as well as network address translation (NAT) and port address translation (PAT). The HN9800 also handles end-to-end
VLAN tags complying with the 802.1P and standards and each VLAN may be configured with its own quality of service (QOS). Government and enterprise users can be confident of the security of information running over the HN9800, as it uses a hardware-based conditional access system and optionally AES 256 encryption for user traffic. Network operations are easy to perform as the HN9800 features an integrated Web server supporting a Web browser interface for commissioning and troubleshooting. Full-
featured, built-in diagnostics provide historical information about network performance or error conditions. An integrated LAN sniffer eliminates the need for onsite presence during trouble-shooting. The HN9800 is centrally managed for software configurations and downloads.
Adaptive LDPC Coding
The HN9800 incorporates an innovative adaptive LDPC coding scheme on the return channel, developed by Hughes, enabling superior modem performance. The adaptive LDPC’s ability to run with minimal link margin results in maximum bandwidth efficiency. Additionally, the HN9800’s use of variable burst LDPC code block lengths sized to the amount of IP data to be transmitted further increases the return channel efficiency. Overall, the adaptive LDPC coding on the return channel typically yields more than 20 percent bandwidth efficiency improvement over competing systems.
Ka-band high-performance broadband satellite router with single IFL cable
HN9600 Satellite Router IPv6/IPv4 Ready The Hughes HN9600 is a high-performance, Ka-band broadband satellite router designed to cost-effectively satisfy a wide range of high-speed connectivity requirements for consumer, small office/ home office, enterprise, and government markets. The HN9600 incorporates advanced modulation and coding among other performance and efficiency-enhancing features to deliver even the most demanding bandwidth-intensive applications affordably. Compliant with IPoS/DVB-S2 including Adaptive Coding and Modulation (ACM), the world’s leading industry standard, the HN9600 supports forward channel data rates up to 121 Mbps. The inbound or return channel is configurable up to 3.2 Mbps, and features adaptive MF/TDMA coding which results in superior return channel efficiency. The HN9600 features a single intra-facility link (IFL) interface to the outdoor unit. To enable superior end-user performance, the HN9600 includes a full set of integrated Wide Area Network (WAN) optimization features. Accelerated TCP and HTTP performance, including HTTP pre-fetch (objects are locally cached on the HN9600) along with DNS caching, enable fast Web browsing. Integrated header and packet payload compression both conserves bandwidth and further contributes to high performance. IP routing and addressing features implemented in the HN9600 include the RIPV2 and BGP routing protocols, virtual router redundancy protocol (VRRP) with policy-based routing, DHCP server or relay, as well as network address translation (NAT) and port address translation (PAT). The HN9600 also handles end-to-end VLAN tags complying with the 802.1P and Q standards, and each VLAN may be configured with its own Quality of Service (QoS). Government and enterprise users can be confident that the information running over the HN9600 is secure, as the HN9600 uses a hardware-based conditional access system and, optionally, AES 256 encryption for user traffic. Operations are made easy as the HN9600 features an integrated Web server supporting a Web browser interface for commissioning and troubleshooting. Full-featured, built-in diagnostics provide