Arabsat 6A is a high-capacity communications satellite that represents one of the most advanced pieces of aerospace technology currently orbiting the Earth. Stationed at the 30.5° East orbital position, it serves as a critical hub for television, radio, internet, and secure communications across the Middle East, Africa, and parts of Europe.
For technicians, enthusiasts, and broadcasters, LyngSat provides the industry-standard live updates on its active frequencies, transponder multiplexes (muxes), and channel lists. Key Technical Specifications
Constructed by Lockheed Martin and operated by the Arab Satellite Communications Organization (Arabsat), the satellite is built on a modernized version of the A2100 bus. Orbital Position: 30.5° East NORAD ID: 44186 Launch Date: April 11, 2019, via a SpaceX Falcon Heavy Launch Mass: 6,465 kg Expected Lifetime: 15 to 20 years
Payload: Fixed and steerable Ku-band and Ka-band transponders Frequency and Channel Data on LyngSat
Tracking Arabsat 6A on LyngSat's Arabsat 5A/6A chart is essential for locating specific regional broadcasts. The satellite provides a variety of Free-to-Air (FTA) and encrypted channels. Polarization Symbol Rate / FEC Primary Channels DVB-S2 8PSK 2850 - 3/4 DVB-S2 QPSK 2500 - 3/4 Télé Liban DVB-S2 8PSK 4080 - 2/3 MTV Lebanon Horizontal 17000 - 3/4 Saudi TV, KSA Sport, Ekhbariya DVB-S2 8PSK 3200 - 5/6 Al Basrah TV Coverage and Footprints
The satellite features multiple beams designed to maximize signal strength in diverse geographic regions: Arabsathttps://www.arabsat.com ARABSAT-6A - The Fleet
Ku-band DOWNLINK FOOTPRINT * Ku-FSS. * Ku-BSS. * Ku APX-30B. LyngSathttps://www.lyngsat.com Arabsat 6A at 30.5°E - LyngSat
Arabsat 6A is a high-capacity geostationary communications satellite currently positioned at the 30.5° East orbital slot arabsat 6a lyngsat
. It is a critical hub for television, internet, and secure communications across the Middle East, Africa, and Europe. Technical Overview and Specifications Manufactured by Lockheed Martin , Arabsat 6A is based on the modernized
satellite bus. This advanced platform incorporates innovations in solar arrays, propulsion, and electronics to deliver higher power and flexibility. Launch Date: April 11, 2019. Launch Vehicle: SpaceX Falcon Heavy (the first commercial mission for this rocket). Operational Lifespan:
Designed for 15 years, though high-precision delivery by Falcon Heavy may extend this to 18–20 years Approximately 6,465 kg at launch. Frequency Bands:
Equipped with Ku-band (FSS, BSS) and Ka-band transponders, including advanced Ka-spot beams for high-throughput data services. Arabsat 6A at 30.5°E - LyngSat 9 Apr 2026 —
Arabsat-6A is a high-capacity geostationary communications satellite that represents a significant leap in telecommunications infrastructure for the Middle East, Africa, and Europe. Launched on April 11, 2019, it gained global attention as the first commercial mission of SpaceX's Falcon Heavy rocket. Positioned at the 30.5° East orbital slot, it works alongside and is intended to eventually replace the aging Arabsat-5A. Technical Foundation and Design
The satellite was manufactured by Lockheed Martin using a modernized version of the A2100 (LM 2100) bus. This platform incorporates advanced propulsion systems, solar arrays, and electronics, making it one of the most powerful commercial satellites produced by the company. Arabsat 6A Satellite launched | Aviation Week Network
I understand you're looking for information about Arabsat 6A on LyngSat. While I can't browse live websites, I can certainly guide you on what a useful article or LyngSat entry for Arabsat 6A typically contains, and how to find the most reliable information. Arabsat 6A is a high-capacity communications satellite that
Here’s what a "useful article" or the LyngSat reference page for Arabsat 6A would include:
Lyngsat often provides links to beam coverage maps. Arabsat 6A’s MENA beam reaches from Morocco to Oman, and parts of Southern Europe (Spain, Italy, Greece). If you are in Northern Europe, you will need a larger dish (120cm+). In the Middle East, a 60cm dish suffices.
When you visit the Lyngsat website and locate "30.5°E Arabsat 6A / 5A," you will see a complex table. Here is how to decode it:
LyngSat does not list Ka-band or C-band for consumer use.
| Item | Details | |------|---------| | Satellite | Arabsat 6A | | Orbit | 30.5° East | | Band (LyngSat listed) | Ku-band | | Typical SR | 27500 (most transponders) | | FTA channels | MBC, Rotana, SBC, Dubai, Kuwait, Oman, Jordan, Lebanon, Egypt, Sudan | | Pay-TV | beIN, OSN, ART | | Reception area | MENA, Europe (partial) |
For the most current transponder list, always check LyngSat live under 30.5°E Arabsat 6A, as frequencies, SR, and channel lineups change frequently.
Arabsat 6A is a high-capacity, geostationary communications satellite owned and operated by Common modulation standards: DVB-S and DVB-S2; DVB-S2X is
(Arab Satellite Communications Organization). It is stationed at the 30.5° East
orbital position, which it shares with Arabsat 5A. Launched on April 11, 2019 , it was the first commercial payload carried by SpaceX's Falcon Heavy Technical Specifications According to data from SatelliteMap.space , the satellite features: Manufacturer Lockheed Martin (modernized A2100 bus). : Approximately 6,465 kg at launch. Service Life
: Designed for 15 years, though the high-precision launch by Falcon Heavy may extend its operational life to 18–20 years Transponders
: Equipped with Ku-band and Ka-band transponders (fixed and steerable) to provide television, radio, internet, and mobile communications. Coverage and Footprints
Arabsat 6A provides extensive coverage across several regions: Middle East & North Africa (MENA) : Primary coverage for broadcast and data services. Sub-Saharan Africa : Targeted beams for high-speed connectivity. Europe & Central Asia : Extended reach for international broadcasting. LyngSat Frequency Highlights According to the latest LyngSat updates April 12, 2026
, Arabsat 6A hosts various digital services using DVB-S and DVB-S2 standards: Polarization Horizontal (H) Horizontal (H) Vertical (V) Horizontal (H) Vertical (V)