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APSTAR-6D launch declared successful. It's a new DFH-4E based commercial telecommunication satellite, with mass of 5,550 kg.

刚刚,亚太6D从西昌出征太空,献礼深圳经济特区建立40周年!

This launch just now from Xichang, China, is quite a sight. Flowers, hills and rain just after sunset.

Rocket launch video clip (clearer version):
https://www.weibo.com/3279752321/Jar6VdLZR

2020.07.09:

See the related article in another column at PDF.
 
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22:17, 09-Jul-2020
China launches most advanced commercial communication satellite
By Wu Lei

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China launches the most advanced commercial communication satellite from Xichang Satellite Launch Center in southwest China's Sichuan Province. /CCTV

China successfully launched its APSTAR-6D telecommunication satellite via a Long March 3B carrier rocket from Xichang Satellite Launch Center in southwest China's Sichuan Province at 8:11 p.m. on July 9.

The APSTAR-6D satellite is designed and manufactured by the China Academy of Space Technology (CAST), a subsidiary of the China Aerospace Science and Technology Corporation (CASC).

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The APSTAR-6D satellite has a launch mass of about 5,550 kg, with a lifespan of 15 years and will be positioned at 134°E. /CAST

Wei Qiang, chief commander of the APSTAR 6D mission, said the whole team had to overcome many difficulties in key technologies such as Ku-band ultra-wideband multi-port power amplifier (MPA) and flexible switching of gateways. These core technologies have reached international advanced level.

The APSTAR 6D communication satellite mainly provides high-quality, efficient and economical all-region and all-weather satellite broadband communication services for users in the Asia-Pacific region, according to CAST.

It can be used for maritime communications, aviation airborne communications, land vehicle communications and fixed satellite broadband Internet access.

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Testing the satellite in a factory. /CAST

The APSTAR-6D, a geostationary satellite procured by APT Mobile SatCom Limited (APSATCOM), is part of China's first global high-throughput broadband satellite communication system.

The satellite is expected to provide high-quality broadband network and data communication services, with its footprint focusing on China and stretching from the Eastern Indian Ocean to the Western Pacific Ocean for users across the Asia-Pacific region.

Its development commenced in August 2016. Based on a DFH-4E platform, the satellite is designed to perform north-south station-keeping by electrical propulsion during its entire life cycle.

With a communication capacity of about 50 gigabits per second and single beam capacity of up to 1 gigabit per second, APSTAR-6D will serve its users with high-quality voice and data transmission.

Featuring with 90 user beams, the satellite is able to achieve global coverage within its field of view and reach a new height in payload mass, communication capacity and complexity, etc. The technical specifications and capabilities are up to worldwide advanced level.

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The APstart 6D satellite is equipped with a new generation solar panel system. /CAST

The APstar 6D communication satellite is China's 11th whole star export commercial communication satellite and China's first Ku-band global high-throughput broadband satellite communication system.

It is also China's most complicated civil and commercial satellite with the largest communication capacity, most beam, maximum output power, representing the high level of China's high-throughput communication satellites' research and development capabilities.

CAST, the leading and primary entity responsible for the research and development of telecommunications satellite in China, developed the DFH series platform for communications, navigation and other purposes.

Evolving from the mainstream DFH-4 series platform, the DFH-5 high-capacity platform and the DFH-3 enhanced small satellite platform have come to fruition in response to different users' needs.

To date, CAST has successfully launched 11 commercial telecommunications satellites to international clients and the "intelligent manufacturing in China" has earned the recognition of more and more international satellite operators.
 
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Breaking !!
At 12:17 today, maiden flight of KZ-11 lift off.

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Update:
Talks from weibo indicate that there is problem with this maiden flight, awaiting official confirmation.
 
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Breaking !!

2 minutes ago

【success! 】At 20:11:04 on the evening of July 9, the APStar-6D satellite was launched on top of the CZ-3B F69 carrier rocket at the Xichang Satellite Launch Center. After nearly half an hour of flight, the Asia-Pacific 6D satellite was accurately insert into the geosynchronous transfer Orbit (GTO), the payload separation is normal, and the solar panel first time deployment is normal. In the next few days, the satellite will also complete multiple orbit maneuvers, the second deployment of solar panel and deployment of antenna. After completing the in-orbit test, the satellite will eventually be fixed at the service orbit of 134°E. Source: Shenzhen Satellite Television Deep View News. For more details, please refer to Aerospace enthusiasts' website

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我们的太空
7月17日 22:42 来自 HUAWEI P20 Pro
【太空快讯:亚太6D卫星成功定点】刚刚,西安卫星测控中心传来喜讯:#亚太6D卫星成功定点#
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#我们的太空# 祝贺
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Our space
22:42, July 17, from HUAWEI P20 Pro

[Space News: APStar-6D Satellite Successfully Positioned] Just now, the Xi’an Satellite Telemetry, Tracking, and Control Center announced the good news: #APStar-6D Satellite Successfully maneuver to its designated fixed position # [威武][威武][威武]#我们的空间# Congratulations [中国赞][中国赞] [China Like]

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China successfully launched its first Mars mission Tianwen-1 on Thursday, 23 July 2020 at 12:41 p.m. BJT, the China National Space Administration announced. The Mars probe was sent into the Earth-Mars transfer orbit about 36 minutes after launch, embarking on an almost seven-month journey to the red planet.


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Watch: Animation shows China's first Mars probe #Tianwen1's journey to the red planet. Tianwen-1 spacecraft is scheduled for launch in late July or early August. on 23 July 2020!

 
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Tianwen-1 launches for Mars, marking dawn of Chinese interplanetary exploration

By Andrew Jones — SpaceNews (2020.07.23)

China’s Tianwen-1 Mars mission launched successfully on Thursday, 23 July 2020, initiating a phase of deep space and interplanetary exploration.

A Long March 5 rocket launched the Tianwen-1 orbiter and rover from Wenchang Satellite Launch Center, Hainan Island at 12:41 p.m. Beijing time.

Successful Trans-Mars injection was confirmed around 40 minutes later by the China Aerospace Science and Technology Corporation (CASC).

The flight path took the Long March 5 over the Philippines, China’s Yuanwang-class tracking ships assisted launch operations.

The roughly five metric ton wet mass spacecraft is now on a seven-month journey to the Red Planet.

“The Tianwen-1 mission is a major landmark project in the process of building China’s aerospace power, and a milestone project for China’s aerospace to go further and deeper into space,” mission deputy commander Wu Yansheng said in a CASC statement.

Tianwen-1 is due to arrive at Mars in February 2021, entering a highly elliptical orbit. The spacecraft will then move to a near-polar orbit with a periapsis of 265 kilometers for 2-3 months before the rover landing attempt.

The orbiter and rover together carry 13 science payloads for a range of detections of the Martian atmosphere, magnetosphere, surface, subsurface and climate.

Tianwen-1 is China’s first independent interplanetary mission. Missions to near-Earth objects, a Mars sample return, possible Voyager-like probes and a Jupiter system orbiter are planned for the decade ahead.

The delay will allow the orbiter to survey the candidate landing sites with its cameras and provide the lander with the data required to make its landing attempt.

China has selected a portion of Utopia Planitia, south of Viking 2, as the landing area for the 240-kilogram rover.

The selection was made based on science goals and engineering constraints, which include low elevation to provide more atmosphere and time to slow the lander’s descent as well as the solar power needs of the rover. The landing ellipsis will be 100 by 20 kilometres.

The early part of the lander’s entry and descent will be aided by aeroshell and parachute know-how from the Shenzhou human spaceflight missions. A blunt-body aeroshell will help slow the speed of the entry vehicle from around 4.8 kilometers per second to 460 meters per second over the course of 290 seconds. A disk-band-gap supersonic parachute will then further slow the craft to a speed of 95 meters per second over the next 90 seconds.

Retropropulsion systems from China’s lunar landers will then do the rest of the work. Technologies proven on the Chang’e-3 and -4 missions China sent to the moon in 2013 and 2019, respectively, will provide altimetry and hazard avoidance.

The orbiter carries seven science payloads including medium- and high-resolution cameras. It also carries a magnetometer, a sounding radar and instruments for atmospheric and ionosphere detections. The orbiter, which will also perform a relay function, is designed to operate for one Mars year, or 687 Earth days.

The rover, designed to last 90 Mars days, carries six instruments, including a laser-induced breakdown spectroscopy experiment for detecting surface elements, minerals and rock types. As well as topography and multispectral imagers, the vehicle has payloads related to climate and magnetic field detections. The rover also carries a ground-penetrating radar.

Tianwen-1 is designated as the first in a new series of interplanetary and deep space exploration. The missions build upon on China’s Chang’e lunar exploration exploits and plans.

Next is the tentatively named ZhengHe mission, which aims to collect samples from near-Earth asteroid 2016HO3/469219 Kamo’oalewa and return these to Earth before heading to main belt comet 133P/Elst-Pizarro. The mission profile requires launch to take place in 2022.

A mission featuring two “Interstellar Heliosphere Probes” is also being pushed. Two launches would use a Jupiter assist to set on the courses of probe journeys. In addition, concepts for missions to Jupiter are being studied for launch in 2030.

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A cool launch footage of CZ-5 carrying the Tianwen-1 orbiter and probe:



 
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China successfully launched its first Mars mission Tianwen-1 on Thursday, 23 July 2020 at 12:41 p.m. BJT, the China National Space Administration announced. The Mars probe was sent into the Earth-Mars transfer orbit about 36 minutes after launch, embarking on an almost seven-month journey to the red planet.


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Watch: Animation shows China's first Mars probe #Tianwen1's journey to the red planet. Tianwen-1 spacecraft is scheduled for launch in late July or early August. on 23 July 2020!


Spectacular! Good luck, Tianwen-1! :china:
 
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China’s successful launch of Mars mission heralds new era of deep-space probes beyond the Moon

By Deng Xiaoci — Global Times (2020-07-23)

Mission marks nation's official start of interplanetary probe era
{Launch video at the GT website}

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China successfully launched its first Mars probe, named Tianwen-1 “天问一号”, via a Long March-5 Y4 carrier rocket from Wenchang Space Launch Center in South China’s Hainan Province into planned orbit on Thursday (23 July). The move heralds a new era in China’s deep-space exploration, which has steadily progressed beyond moon probes to interplanetary missions, mission commanders and developers said.

After a flight of around 2,000 seconds, the probe entered the planned Earth-Mars transfer orbit, officially embarking on its journey to the Red Planet, according to the China National Space Administration (CNSA) on Thursday.

China’s Tianwen-1 Mars probe is expected to reach Mars’ gravity field in February 2021, about seven months after the launch. Rover of the probe is scheduled to soft land on a suitable location in the southern part of Mars' Utopia Planitia around May 2021, Liu Tongjie, spokesperson for China’s Mars probe mission said during a Thursday press conference following the launch.

If it succeeds, Tianwen-1 will be the first Mars expedition to complete orbiting, landing and roving in a single mission in humanity’s history.

According to the CNSA, the project is set to achieve a series of technological advances, including Mars orbit insertion, long-term automatic probe management, long distance communication and Mars surface roving capabilities.

The interplanetary mission will also mark China’s establishment of a complete deep-space exploration project system, covering design, production, flight mission and scientific research.

Global Times reporters found on Thursday that the body of the Long March-5 Y4 is decorated with multiple international space agencies’ logos, such as those of the European Space Agency, French space agency CNES and the Austrian Research Promotion Agency (FFG), which strongly indicates that the mission also involves international cooperation.

CNSA told the Global Times that the European Space Agency and Argentina will participate by taking part in spacecraft monitoring and controlling. Moreover, China is also working with countries including France and Austria on payload scaling and data analysis for the mission.

Interestingly, according to the Xi’an Satellite Control Center on Thursday, China’s first overseas deep-space ground station located in Argentina’s Patagonian region would capture the flying Tianwen-1 probe for the first time for monitoring work during the spacecraft’s first lap on transfer orbit. And ground stations in Jiamusi in Northeast China’s Heilongjiang Province and Kashi prefecture in Northwest China’s Xinjiang Uygur Autonomous Region will join the monitoring work.

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Infographic: Global Times

The Thursday launch mission was the fifth flight of the Long March-5 carrier rocket series, the strongest member of China’s launch vehicle family. The last launch mission of the Long March-5B, a smaller variant of the Long March 5, took place on May 5, also from the Wenchang Space Launch Center in Hainan.

The Thursday launch also marked the first time the Long March-5 was put into practical mission use, the rocket developer China Academy of Launch Vehicle Technology (CALT) under the state-owned space giant China Aerospace Science and Technology Corporation (CASC) told the Global Times on Thursday.

“The completion of the first practical mission would indicate that the Long March-5 series has officially joined service,” Wang Jue, chief commander of the Long March-5 rocket model, told the Global Times.

Long March-5 has a 5-meter diameter core stage and four 3.35-meter diameter boosters, and is 57 meters long with a take-off weight of around 870 tons and thrust of 1,000 tons. It has raised the country’s Geostationary Transfer Orbit (GTO) launch capability from 5.5 tons to 14 tons.

The Long March-5 Y4 carrier rocket has reached an escape velocity of over 11.2 kilometers per second, managing to send the probe into planned orbit, and according to Li Dong, chief designer of the Long March-5, “this speed set a new fastest flight speed record for China’s launch vehicles.”

The Tianwen-1 Mars probe, which weighs about five tons, is also the heaviest deep space probe that China has ever sent into space, and is one ton heavier than the Chang’e-4 lunar probe, which China successfully sent to the dark side of the moon in January 2019, the CALT noted.

The powerful launch capability of the Long March-5 rocket has advanced the country’s deep-space exploration to a new starting point in interplanetary expeditions, and a new era of planet probes beyond the moon has officially been ushered in as the first Mars probe begins, Li Minghua, CALT’s Party chief, announced upon the successful launch on Thursday.

The Long March-5 carrier rocket is expected to launch another Chang’e-5, weighing about eight tons, which aims to undertake the country’s first moon sample return mission, set to take place before the end of this year. The Long March-5B will launch the core module of the country’s first space station around March 2021, Lou Luliang, the rocket series vice chief designer, revealed to the Global Times.

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Infographic: Global Times

Challenges ahead

Mars, one of Earth’s closest neighbor planets in the solar system, has the most similar environment to Earth's. As of June 2020, human beings have made 44 Mars mission attempts, and only 24 of them succeeded.

The minimum distance between Mars and Earth is about 55 million kilometers, and the two planets only come that close every 26 months. The Mars exploration window is open between July and August.

No country other than China has ever set the goals of orbiting, landing and roving the Red Planet in its first mission attempt, and the successful launch will only mark the beginning of a long expedition full of challenges, and uncertainties also remain, observers noted.

According to the CASC on Tuesday, only a handful of Mars missions have been able to land on the planet and conduct roving explorations.

China's Mars orbiter will carry seven scientific payloads, while the rover will have six, according to the CASC. Safely landing the Mars rover after the probe enters the planet's orbit, which will take around seven minutes, will be one of the most decisive stages of the whole mission. During those seven minutes, the probe needs to slow down from more than 20,000 kilometers per hour to zero, which poses a grave challenge to its surface heat-resistance capability.

To overcome that, CALT has developed a new material structure, which is more advanced than that of the US Apollo flight, to ensure the safety of the probe in the deceleration process.

Apart from China, the US and the UAE are also launching their Mars missions this summer.

The first Arab space mission to Mars, an unmanned probe dubbed Hope, blasted off from Japan on Monday, in a bid to reveal more about the atmosphere of the Red Planet.

NASA moved its first launch attempt of its Mars 2020 mission to no earlier than July 30, according to the US space agency's official website. If successful, Perseverance will be the seventh probe NASA has landed on Mars, and the fourth rover.

ExoMars, a cooperation program between Europe and Russia, earlier announced that it will be delayed to 2022.

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China’s open heart vs US anxiety

Thursday’s successful launch of China’s Tianwen 1 came ahead of this year’s NASA Perseverance rover, which has clearly sparked anxious sentiment from the US, although the two probes are expected to land on the Red Planet about the same time next year.

A CNN report published hours after China’s launch claimed that “Mars is the latest arena in the US-China rivalry.” And it noted that “the space race is inescapably political,” while recalling NASA's early missions, particularly its historic landing of humans on the Moon in 1969, which was fueled by the Cold War rivalry between Washington and Moscow.

It added that “NASA sent multiple orbiters to Mars before ever attempting a landing. Pulling off the landing is a far more difficult task,” expressing pressure when compared to China’s goals of achieving orbiting, landing and roving in its very first try.

Space experts including Song Zhongping, a Beijing-based TV commentator, had anticipated such anxiety from the US that would emerge in regards to Thursday’s event.

“The US can promote the ‘China threat’ theory for a new interplanetary chapter now,” Song told the Global Times.

However, Chinese space observers have repeatedly admitted the huge gap of space technology advancement in terms of deep space exploration between the China and the US.

Out of the 24 successful Mars missions worldwide, the US took up 21. And such a number speaks louder than words, they said.

In the meantime, China shows an open heart.

Liu, the Tianwen 1 mission spokesperson, remarked that China expressed the wish that the US and UAE also accomplish their goals in their 2020 Mars missions. And we share the joint path to our dreams.

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Reuters also reported earlier in May that the US' Trump administration is drafting a legal blueprint for mining on the moon, proposing "safety zones" surrounding future moon bases in a bid to prevent damage or interference from rival countries and companies.

The report stated that US officials planned to formally negotiate the accords with "like-minded" space partners in the coming weeks such as Canada, Japan, European countries as well as the United Arab Emirates while excluding China and Russia.

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Few more cool pics from Chinese media resources

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@NamusLake - a famous China's Aerospace blogger had his Twitter account killed off abruptly on 24 July 2020 by Twitter ruler after the successful launch of China's first Mars mission Tianwen-1.
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@zhang_heqing 昨天NASA前总署博尔登先生发射前在我们的朋友航空航天博主@NamusLake的推文评论区送上了祝福,然而今天他却被推特暴力杀号了,@NamusLake是中推圈优质的航空航天博主,甚至已经进入了Next Space Flight 的Live Tracker 时间线,如果失去他,对大家来说将会是一个难以挽回的损失。

@zhang_heqing Yesterday (23 July), Mr. Bolden, former NASA General Administration, sent his blessing to our friend @NamusLake's tweet comment area before launching. However, today (24 July), the Twitter account of @NamusLake was brutally killed by Twitter. @NamusLake is a high-quality Aerospace blogger in China's Weibo circle, and has even entered the Next Space Flight Live Tracker timeline, if lose him, it will be an irreparable loss for everyone.

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Note: the abovementioned Mr. Bolden refers to Maj. Gen. Charles Frank Bolden, Jr., (USMC-Ret.), who was appointed as the 12th Administrator of the NASA during Obama administration in July 2009. He resigned in January 2017.
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China launches new high-resolution mapping satellite
Source: Xinhua| 2020-07-25 12:12:30|Editor: huaxia

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The Ziyuan III 03 satellite is launched by a Long March-4B rocket from the Taiyuan Satellite Launch Center, July 25, 2020. China sent a new high-resolution mapping satellite into space on Saturday from the Taiyuan Satellite Launch Center in the northern province of Shanxi. The Ziyuan III 03 satellite was launched by a Long March-4B rocket at 11:13 a.m. Beijing time, according to the center. It was the 341st flight mission by the Long March rocket series. Also on board the rocket were two satellites used for dark matter detection and commercial data acquisition respectively. They were developed by the Shanghai ASES Spaceflight Technology Co. Ltd. All three satellites have entered preset orbits, sources with the Taiyuan center said. (Photo by Zheng Taotao/Xinhua)

TAIYUAN, July 25 (Xinhua) -- China sent a new high-resolution mapping satellite into space on Saturday from the Taiyuan Satellite Launch Center in the northern province of Shanxi.

The Ziyuan III 03 satellite was launched by a Long March-4B rocket at 11:13 a.m. Beijing time, according to the center. It was the 341st flight mission by the Long March rocket series.

Also on board the rocket were two satellites used for dark matter detection and commercial data acquisition respectively. They were developed by the Shanghai ASES Spaceflight Technology Co. Ltd.

All three satellites have entered preset orbits, sources with the Taiyuan center said.

 
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