What is project Starlink? How Can RF Components Applicated in it?
Starlink is a project launched by SpaceX to utilize a communication network established by a constellation of satellites in near-Earth orbit. By setting up a large number of satellite clusters covering the earth in the low earth orbit, it is a high-speed Internet connection method that directly connects to the ground base station or end-users. This can provide a stable and high-speed communication Internet for users in remote areas or far away from major urban areas.
Principles Operating Architecture of Starlink:
There are three main types of satellites operating above the earth. According to the distance from the earth, they can be divided into GEO, MEO, and LEO, as follows. Because the three kinds of satellites are at different distances from the earth, their operations are affected by the earth differently, and thus have different utilization restrictions.
(1) Geostationary Orbit Satellite (GEO):
Located at a position where the gravity of the earth and space are balanced, and the satellite moves in the same direction and speed as the earth's rotation. The GEO satellite is far away from the earth, and the speed and delay of the broadband connection will be affected. The delay is about 700 milliseconds.
(2)Medium Earth Orbit (MEO):
The orbit of a satellite located between GEO and LEO. Compared with GEO satellites, the delay of MEO is significantly better than about 150 milliseconds.
(3)Low Earth orbit satellite (LEO):
The one is at the closest orbit to the ground among the three satellites, generally below 2000 kilometers in height. Since LEO satellites are close to the ground, they are suitable for setting up earth observation satellites, geodesic satellites, space stations, and some new communication satellite systems, with fast transmission speed and low delay, and are suitable for communication pipelines directly connected to the ground.
Therefore, Project Starlink chose to use a large number of LEO satellites to be deployed in low-orbit positions. It is estimated that more than 30,000 satellites will be installed above the earth, and the entire earth will be covered in a comprehensive and large-scale area, thereby establishing a cross-regional, unaffected A comprehensive international communication network restricted by the country.
How Does Starlink Works?
The basic communication structure is that the ground base station (web server) connects the signal to the LEO satellite in the earth's orbit. The LEO satellite is directly connected to the user’s satellite receiver to obtain network communication data, as long as the user is located at the point that the communication host can directly face the unobstructed sky, receive satellite signals, and then obtain network connections. The main disadvantage at present is that if the LEO satellite cannot obtain an effective ground base station (web server) signal first, it cannot effectively connect with the host on the user side so that the entire communication architecture must constantly switch lines until it is workable.
The future goal is to be able to increase the internal signal conversion between satellites. In this case, as long as one LEO satellite above the earth can connect to the ground base station (web server), it can obtain the signal source for network communication. As long as the client is able to connect to the LEO satellite, it can theoretically get the network connection directly, without waiting to find a valid signal source. Such a Starlink architecture is truly complete and has full commercial efficiency.
What Can Starlink Bring to US? What is the Advantage of Starlink?
The biggest advantage of Starlink is that it enables to provide a large-area-covered based with high-speed network communication network on the entire earth. Except for the calling connections service, it can also meet the needs of network data transmission, which can truly effectively connect the world together.
What Starlink Means to 5G?
The installing of a 5G new-generation network usually requires the establishment of dedicated base stations to provide services, or the use of physical lines for deployment, but the Starlink plan uses satellites above the earth as an alternative. LEO satellites are set up to operate only about 1,000 kilometers above the earth. By deploying a large number of LEO satellites to cover the entire outer surface of the earth, it can support high-speed network traffic and low-latency performance and can work as a network communication solution for the coming 5G generation.
The communication network can provide complete and comprehensive communication services to all corners of the earth, in addition to cross-regional and more complete delivery of network communication services to all corners of the earth.
High-standard network communication is no longer just the exclusive product of major cities or highly developed towns in the world. Through a cross-regional, non-national, comprehensive international communication network, every member in the part of the world can really connect to the Internet to conduct phone calls, message exchanges, and data exchanges.
Current statement of Starlink
The Starlink project currently expects to build 11,943 satellite constellations in the next 6 to 7 years (that is, to be completed in 2026 or 2027) through SpaceX. Among them, 1,500 are on the 550 KM orbit, 2800 are on the 1150 KM orbit, and 7,500 are on the 340 KM orbit. After completing this stage, another 30,000 satellites will be arranged, eventually reaching 42,000 satellites to form a satellite network with global coverage.
Starlink plans to launch once a week on average, and there will be 1,320 satellites in earth orbit by 2021. Every single satellite can effectively cover the surface area of 2 latitudes * 2 latitudes, and the current effective coverage is mainly concentrated in the high latitudes of the United States and the low latitudes of Canada. At present, users in some European countries in this latitude area have begun to do actual communication and connection using tests.
The Starlink satellite plan will mainly use the Ka, Ku, and V frequency bands to operate the entire communication and transmission network at an altitude of 550 kilometers (340 miles) above the earth. The purpose is to provide high-speed, low-latency broadband connections worldwide. The current network traffic can reach the planned speed, which will stabilize at 300 Mbps, and the delay will be controlled at about 20 ms. In the future, after 40,000 satellites are in orbit, the target speed will increase from 1 Gbps to 10 Gbps.
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