Koreasat 6 at 116.0°E Satellite data now

Koreasat 6 at 116.0°E Satellite General Data, Spot Beams of the satellite with EIRP Beams corresponding to Antenna diameters, and description of the satellite.

General data

Satellite Name: Koreasat 6 (Olleh 1)
Status: Active
Position: 116° E (116° E)
NORAD: 37265
Cospar number: 2010-070B
Official Website: Click on the Spot Beam Images to visit the official website
Launch date: 29-Dec-2010
About: Scroll to the bottom of the page for more satellite insights
Launch vehicle: Ariane 5 ECA
Launch mass (kg): 2850
Dry mass (kg): 1150
Manufacturer: Northrop Grumman
Model of the satellite (bus): GEOStar-2
Orbit: GEO
Expected lifetime: 15 yrs.

Spot Beams

Koreasat 6 at 116.0°E Satellite data now
FSS Ku-band
C Band
42 dBW41 dBW40 dBW39 dBW38 dBW37 dBW36 dBW35 dBW34 dBW33 dBW32 dBW31 dBW30 dBW
80-100 cm90-115 cm100-125 cm115-145 cm125-160 cm145-180 cm160-200 cm180-225 cm200-255 cm225-285 cm255-320 cm285-360 cm320-400 cm
Ku Band
50 dBW49 dBW48 dBW47 dBW46 dBW45 dBW44 dBW43 dBW42 dBW41 dBW40 dBW39 dBW38 dBW
50-60 cm55-65 cm60-75 cm65-85 cm75-95 cm85-105 cm95-120 cm105-135 cm120-150 cm135-170 cm150-190 cm170-215 cm190-240 cm
-Watch all sports video news and highlights
-More content on social media

About

Koreasat 6 was launched on December 29, 2010. This satellite is a product of KTSAT, a subsidiary of KT Corporation, one of South Korea’s leading telecommunications companies. Positioned in a geostationary orbit at 116.0°E, Koreasat 6 plays an essential role in providing a broad range of communication services across the Asia-Pacific region.

The primary mission of Koreasat 6 is to enhance telecommunications infrastructure, enabling robust and reliable broadcasting and communication services. This includes television broadcasting, satellite internet connectivity, and data transmission services. By leveraging advanced technology, Koreasat 6 ensures high-quality communication links that cater to both urban and remote areas.

Technically, Koreasat 6 is a marvel of engineering. Thales Alenia Space has constructed the satellite, utilizing the Spacebus-4000B2 platform. The satellite has multiple transponders operating in the Ku-band, which are essential for high-frequency data transmission. Its payload capacity includes 24 Ku-band transponders, facilitating extensive coverage and high bandwidth communication.

The satellite withstands the harsh conditions of space, with a lifespan of approximately 15 years. Koreasat 6 is powered by solar arrays that generate the necessary electrical power to operate its systems. Also, they maintain its position in orbit. The satellite’s advanced thermal control systems ensure that it remains operational within the optimal temperature range.

In summary, Koreasat 6 stands as a testament to technological innovation and strategic foresight in the field of satellite communications. Its deployment has significantly bolstered the telecommunications capabilities in the region. It provides essential services that drive connectivity and support the growing demands for digital communication.

Coverage and Services

Koreasat 6, positioned at 116.0°E, offers extensive geographical coverage, benefiting a diverse array of regions and countries. This satellite primarily serves areas in East Asia, including South Korea, Japan, the eastern parts of China, and the northern regions of the Philippines. Additionally, its footprint extends to parts of Southeast Asia, ensuring a broad spectrum of connectivity options for numerous communities. The satellite’s strategic positioning allows it to effectively meet the communication needs of these densely populated and technologically advanced regions.

One of the key services provided by Koreasat 6 is broadcasting. The satellite supports a wide range of television and radio channels, enabling high-quality content delivery to millions of viewers. This capability is particularly crucial for South Korea, where broadcasting services are integral to daily life, offering news, entertainment, and educational programming. Moreover, Koreasat 6 plays a significant role in enhancing internet connectivity. By providing reliable and high-speed internet services, it bridges the digital divide, particularly in remote and underserved areas, ensuring that more people have access to essential online resources.

In addition to broadcasting and internet services, Koreasat 6 facilitates robust data communications. The satellite supports various data transmission applications, including corporate data networks, government communications, and secure military communications. This versatility in data services is critical for maintaining efficient and secure information exchange across these sectors.

Koreasat 6 also significantly contributes to improving telecommunications infrastructure in regions that lack traditional connectivity solutions. By providing satellite-based services, it offers a dependable alternative to terrestrial networks, particularly in areas where building such infrastructure is challenging due to geographical or economic constraints. Furthermore, the satellite supports emergency communications and disaster recovery efforts. In times of natural disasters or crises, Koreasat 6 ensures that vital communication lines remain open, enabling effective coordination and response efforts.

Capabilities of the Koreasat 6

Koreasat 6, with the position at 116.0°E, is a communications satellite that offers robust broadcasting and telecommunication services. The satellite is equipped with a suite of transponders that operate across various frequency bands, including C-band and Ku-band, ensuring wide coverage and reliable signal strength. Specifically, Koreasat 6 is outfitted with 24 transponders, which include 12 C-band and 12 Ku-band transponders, each designed to handle high-bandwidth data transmission with minimal interference.

The power output of Koreasat 6 is notable, providing a total of 6.8 kilowatts of power at the end of its life. This power is generated by the satellite’s dual solar arrays, which are capable of providing ample energy to support its extensive communication payload. The satellite’s antenna configurations further enhance its capabilities. It features deployable antennas that maximize signal coverage and strength, accommodating diverse broadcasting needs across the Asia-Pacific region.

Koreasat 6 boasts a robust operational lifespan, designed to function efficiently for at least 15 years. This longevity is supported by its resilient design and advanced onboard systems. The satellite was launched aboard an Ariane 5 launch vehicle, which is renowned for its reliability and precision in placing satellites into their designated orbits. The successful deployment of Koreasat 6 was a testament to the collaboration between international aerospace entities.

Ground Contol Systems

Ground control systems play a crucial role in the management of Koreasat 6’s operations. These systems have state-of-the-art technology to monitor and control the satellite’s functions, ensuring optimal performance. The ground stations are responsible for the satellite’s health checks, telemetry, command, and ranging operations. They are strategically located to maintain constant communication with Koreasat 6, allowing for real-time adjustments and troubleshooting.

Diagrams and technical schematics of Koreasat 6 reveal a complex yet efficient architecture, designed to meet the stringent demands of modern telecommunications. These visual aids provide a clearer understanding of the satellite’s internal configurations and external structural components, highlighting the advanced engineering that underpins Koreasat 6’s capabilities.

Impact and Future Prospects

Koreasat 6 has significantly impacted the telecommunications landscape, both on a regional and global scale. Launched to enhance broadcasting services, it has transformed markets by providing reliable and high-quality signal coverage across Asia. This satellite has been instrumental in bridging the digital divide, particularly in remote areas where terrestrial infrastructure is either inadequate or non-existent. By offering extensive internet accessibility, Koreasat 6 has enabled better connectivity, promoting socio-economic development and digital inclusivity.

In the broadcasting sector, Koreasat 6 has facilitated the dissemination of diverse content, bolstering media industries and allowing for a richer viewing experience for consumers. Its robust transponder capabilities have supported high-definition television, radio broadcasts, and data transmissions, contributing to the growth of regional broadcasters and content providers. This has also positively impacted the advertising sector, creating more opportunities for targeted advertising and audience engagement.

The Connectivity of the Future

From a business communications perspective, Koreasat 6 has enhanced corporate networks and enterprise communications, offering seamless connectivity solutions for various industries. This has been particularly beneficial for multinational corporations requiring reliable communication channels between their regional offices. Furthermore, Koreasat 6’s role in disaster recovery operations is important, as it provides crucial communication links during natural calamities, ensuring continuous information flow and coordination.

Looking ahead, the future prospects for Koreasat 6 are promising. Potential upgrades and replacement plans are an option. The satellite’s role will evolve, particularly with the advent of 5G, 6G and the Internet of Things (IoT). These emerging trends necessitate robust satellite support to handle the exponential growth in connected devices and data traffic. Expert opinions suggest that Koreasat 6, or its successors, will continue to play a pivotal role in the telecommunications ecosystem, ensuring resilient and expansive coverage.

Forecasts point to an integrated network approach, where satellite technology complements terrestrial networks to provide ubiquitous connectivity. This hybrid model is anticipated to drive innovation and enhance service delivery, making Koreasat 6 a cornerstone in the future of global communications.