Spaceable Modules Offer High Aggregate Data Rates to The Internet of Space And Radiation Resistant Transceivers
The explosion of worldwide communications over the past 25 years has led to the pervasive use of mobile and land communications equipment with an abundance of platforms, applications, and devices all driving the growth of many of the largest businesses in the world. There is no doubt that this trend will continue through the Internet of Things (IoT), and the arrival of the 5G technology along with improvements to the underlying network infrastructure. However, the next, ‘Small Step’ for man in terms of ubiquitous communications will be the ‘Giant Leap’ into the Internet of Space.
Internet of Space
The Internet of Space (IoS) is a long-term vision that leaders in some of the most technologically advanced companies in the world have begun to seriously consider. Both the European Space Agency and NASA have prepared plans that involve the deployment of networks of satellite around the Earth, Mars and the Sun. These networks are composed of complex communications networks for MIMO microwave antenna arrays and free-space line-of-sight laser links.
These technologies will be responsible for the communications of manned missions to Mars and will have to have the best in terms of redundancy, speed, and network management as most of what we send up, will never be fixed. Further to this however, will be the machine-learning A.I. systems on-board exploratory robots and landers for the moon and Mars including asteroid mining that will be tasked with resource extraction. For example, before the arrival of astronauts on Mars, dozens of intelligent, self-exploring robots and rovers will have to have found water on the planet for them. Basically, the self-driving cars of today will become the self-exploring robots of space.
New players in space exploration
The success of companies like SpaceX or Blue Origin have shown that many of the traditionally held ideas about space exploration are breaking down and commercial opportunities are staring to be explored.
A great deal of these new developments are directed at bringing broadband connectivity to the roughly 3 billion people who lack Internet access today: rural schools, clinics, markets and businesses, ships at sea, planes in the air, mobile-phone towers, high-speed stocks trading, cars, trains, buses, Internet of things sensors and appliances, governments, enterprises, military, etc.
For applications which benefit from low-latency communications (like broadband access) LEO satellite constellations provide an advantage over geostationary satellites, because latency from ground to satellite is dramatically reduced. A LEO satellite constellation can also provide more system capacity by frequency reuse across its coverage.
Furthermore, the lower orbits will help ensure the satellites re-enter the atmosphere in a shorter time in case of failure and will enable them to broadcast signals at reduced power levels, because they are closer to Earth, which allow the fleet to be compliant with limits to reduce radio interference with other satellite and terrestrial wireless networks.
Competing and complementary projects
OneWeb Satellites is planning the launch 648 satellites into low Earth orbit by the end of 2022, to deliver Internet access globally.
The company had launched 36 satellites on 17 December 2020 to add to the 104 already in operation. Furthermore, OneWeb announced plans to accelerate launches in 2021 to have 650 satellites in orbit by 2022 necessary for global coverage.
SpaceX’s backed Starlink satellite constellation aims "to provide low-latency broadband to unserved and underserved Americans that is on par with service previously only available in urban areas". The current phase of this project calls for the deployment of approximately 1600 satellites in LEO orbit on a 550 km orbital plane. Close to 1000 Starlink satellites are already deployed and a beta Starlink service is available to select customers in the northern US and southern Canada (as of February 2021).
Not to be outdone, Amazon has also announced its Kuiper project. They expect to take up to a decade to fully deploy all 3,236 satellites planned for the full constellation in order to provide internet to tens of millions of people who lack basic access to broadband internet.
Artist representation of a Telesat LEO satellite.
TeleSat, a Canadian company, has a plan to deploy almost over 1600 LEO satellites to serve as an interconnect for continual data networks for ship and aircraft connections over the oceans. In order to serve the entire globe they plan to have two sub-constellations, one with 351 satellites in polar orbits and another with 1320 in inclined orbits.
There are also plans for large satellite constellations within China’s "Digital Silk Road" (DSR) project. With over half the people in the world living in or near China and India, many of them with no connectivity, and some paying very high rates for geosynchronous satellite service, one can see the immense commercial potential.
Less publicized are defense-driven initiatives like the DARPA Blackjack program. Blackjack are small American surveillance satellites that would replace or compliment larger systems already deployed. These new orbiters will be cheaper and would have limited capabilities, but would operate as part of a constellation networked together. Open sources indicated the first two satellites would be launched in the third quarter of 2021.
Space environment
As more commercial-off-the-shelf (COTS) parts are targeted for space applications as a mean to take advantage of powerful technologies at lower costs, a more meaningful business-case for vendors can now be made to support the space-vendor-ecosystem.
However, there is a catch… The space environment itself is extremely severe; outside the protective cushion of the earth’s magnetosphere the exposure to radiation and extreme temperatures can destroy terrestrial electronics. Therefore, to really open these markets, the vendors will have to meet the space community half-way, and do what they can to “space-ify” their COTS products.
Smiths Interconnect has a plan to do just that – with the cost of sending even just 1 kg into space at over $50 k, the advantages of using the Reflex Photonics line of small, lightweight, high density SpaceABLE™ parallel optical transceiver modules inside the satellites will impact this enormously.
SpaceABLE SM (10.3125 Gbps) modules are available in different configurations: 40G (full-duplex: 4 TX plus 4 RX lane per device) and 120G (12 TX or 12 RX channel per device).
SpaceABLE SL (10.3125 Gbps) modules are available in different configurations: 40G (full-duplex: 4 TX plus 4 RX lane per device) and 120G (12 TX or 12 RX channel per device).
SpaceABLE28 modules
SpaceABLE28 SL (28 Gbps) modules are available in different configurations: 100G (full-duplex: 4 TX plus 4 RX lane per device) and 300G (12 TX or 12 RX channel per device).
The family of Reflex Photonics SpaceABLE modules offer extremely high aggregate data rates (over 300 Gbps), the modules are less than 3 cm2 and weigh less than 5 g. They can be placed anywhere on a motherboard or linecard linking powerful CPU’s, GPU’s and FPGA’s across multiple boards and racks.
Rigorous testing
In terms of reliability, the SpaceABLE product follows the rigorous environmental testing of MIL-STD-883 with a variety of thermal shock, vibration, humidity and cycling tests included. Furthermore, these modules are qualified under very stringent radiation exposure tests: Active Heavy-Ion testing for latch-up, SEE and SET failures, long-term irradiation from PIF and NIF cyclotrons, and long-term exposure (over several weeks) of gamma-rays using Cobalt-60 on active parts. These tests were all done with reference to the ECSS-Q-ST-60-15 Space product assurance standard - Radiation hardness assurance - EEE components.
The space community is slowly evolving from an era of mega-projects and unlimited budgets to a dynamic industry that envisions a commercial market with volumes that can support multiple business. Smiths Interconnect is part of this belief and this ultimate goal of Bringing space a little closer by offering optical transceivers and optical infrastructure that will enable the next generation of space exploration.
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本文由涂抹转载自Smiths Interconnect blogs,原文标题为:The Internet of Space and radiation resistant transceivers,本站所有转载文章系出于传递更多信息之目的,且明确注明来源,不希望被转载的媒体或个人可与我们联系,我们将立即进行删除处理。
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Reflex Photonics 光收发器选型指南
目录- New product highlights Rugged Transceivers for Defense Radiation-Resistant Optical Transceivers for Space VPX Applications for Defense and Space Rugged Transceivers for Commercial Aerospace and Industrial Optical Test Systems Product Ordering Information
型号- LIGHTABLE LL,LIGHTABLE LM,LMF10P418333101,SNT12C0100133,450-00042,LMX04P4182323AA,LCR12F418530301,LCR12C418530101,LCX04A418532101,LCR12C428530101,LLX04P918532101,LMR12P4184303AA,LMT12P4182330AA,SMR12P518430101,SPACEABLE SL,SPACEABLE SM,LIGHTABLE LH,LIGHTABLE LH-LM,SMR12P518230101,SNR12C0180133,LCR12B428530101,VMT12P618533001,LMX04P4183323AA,VMR12P618510101,SPACECONEX,SLR12P918530101,LIGHTCONEX28 LC,VMR12P618530101,SMX04P518232101,LCX04F418532101,450-00068,450-00069,450-00064,LMF12P418333301,450-00065,LMR12P4182303AA,450-00066,450-00067,SPACEABLE28,VMT12P618513001,LCK04P418500001,SMX04P518432101,LCT12C428533001,SLX04P918532101,SNT12C0050123,SPACEABLE SM BOARD V1,LMR12P4183303AA,450-00062,450-00063,LCR12A418530101,SNR12C0100123,LCX04B418532301,SMT12P518333001,LCR12B418530301,450-00054,SPACEABLE28 SL,SNAP12,LIGHTCONEX LC,LCX04C418532101,LHF120018330001,LLR12P918530101,SNT12C0180133,LCX12F418532101,SNT12C0050133,LLX12P418532301,LMT12P4183330AA,SNR12C0050123,SPACEABLE SL BOARD V2,SNT12C0180123,SMF10P518333101,LCR12C418530301,LCX04A418532301,LMX04P4182321AA,LCR12F418530101,LLX04P918532301,LIGHTCONEX28,LCT12B418533001,LCT12B428533001,LMR12P4184301AA,LHF120018310001,SMT12P518233001,LIGHTCONEX,VMX04P618532102,LIGHTABLE28,LMF10P418333301,SPACECONEX28 SC,LIGHTVISION VM,LMX04P4183321AA,VMX04P618512101,LCX12A-418532101,SNR12C0050133,LCX12C418532101,SLT12P918533001,LCX04C428532101,SPACECONEX28,LMR12P4182301AA,SMT12P518433001,SNR12C0100133,450-00070,SNR12C0180123,SMF12P518333101,LCK12P418500001,LHF100018330001,LMF12P418333101,SMX04P518332101,LCT12F418533001,LCX12B418532101,LCR12A418530301,LCT12C418533001,LIGHTABLE28 LL,LCX04B428532101,LCX04B418532101,LCR12B418530101,LLT12P918533001,LCT12A418533001,LMR12P4183301AA,SPACECONEX SC,SNT12C0100123,LCX04C418532301,LHF100018310001,LLX04P428532101,SLX12P518532101,SLX04P528532101,SMR12P518330101,LLX12P418532101,LLR12P918530301
【产品】承受辐射剂量大于100 krad(Si)的耐辐射收发器,具有10-9的超低误码率
SpaceABLE®28 SL耐辐射收发器是专为承受辐射剂量大于100 krad(Si)的而设计。该模块既可以作为(4 + 4)通道收发器(100G全双工)提供,也可以作为独立的12通道发送器和12通道接收器模块(成对的300G半双工)提供, 每个通道可在-40°C~85°C温度范围内以28 Gbps的速度运行,且具有10 -9的超低误码率。
SpaceABLE 10G LGA 12TX or 12RX Rugged optical transceiver
型号- SLR12P918530102,SPACEABLE 10G 12TX LGA,SPACEABLE 10G LGA 12RX,SLT12P9185330F4,SLT12P918533002,SLR12P9185301F4,SPACEABLE SL 12RX, 10G, LGA,SPACEABLE® 10G LGA 12RX,SPACEABLE 10G LGA 12TX,SPACEABLE 10G 12RX LGA,SPACEABLE SL 12TX, 10G, LGA,SPACEABLE® 10G LGA 12TX
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型号- LIGHTCONEX® 10G LC,LCX12A418532101,LIGHTABLE 10G LL,LIGHTABLE 10G LM,LIGHTCONEX 10G LC,LMX04P4182323AA,LCR12C428530502,LLX04P928532502,LCX04A418532101,LCX04D418532301,SPACEABLE 10G SL,LIGHTCONEX 10G LC SERIES,LMT12P4182330AA,LMR12P4184303AA,SPACEABLE 28G SL SERIES,LLR12P9185303AA,LMX04P4183323AA,LIGHTABLE 10G LL SERIES,LMT12P4184330AA,LLR12P618530101,LLX04P9185321AA,SLR12P918530102,LCT12C428532002,LLT12P628523003,415-00051,LIGHTCONEX® 10G LC SERIES,LMT12P4183310AA,LLX04P618532101,LCT12D428532002,450-00104,LIGHTABLE 28G,LMR12P4182303AA,450-00065,450-00066,450-00067,10G LL SERIES,LMT12P4182310AA,SLX04P918532102,SNT12C0050123,LMR12P4183303AA,SNR12C0100123,LCR12D428530502,LIGHTABLE 10G LM SERIES,SNAP12,LLR12P628530502,SLT12P928533002,LLX04P628532502,LCX04C418532101,LMX04P4182353AA,SPACEABLE 10G,LMT12P4183330AA,SNR12C0050123,SNT12C0180123,LMX04P4182321AA,LCX04A418532301,LCX04D418532101,LIGHTCONEX 28G LC,LIGHTABLE 10G,LCX04D428532502,LCX12D418532101,415-00019,415-00018,415-00025,LMR12P4184301AA,LIGHTCONEX 10G SERIES,LLR12P9185301AA,LIGHTABLE 28G LL,SPACEABLE 28G SL,LMX04P4183321AA,LIGHTCONEX 28G LC SERIES,LCX12C418532101,SLT12P918533002,LLX04P9185323AA,415-00005,LIGHTABLE 28G LL SERIES,SPACEABLE 28G,LCX04C428532502,LIGHTCONEX 10G,LMR12P4182301AA,LLR12P928530502,450-00070,SNR12C0180123,LLT12P9185330AA,10G LM SERIES,SPACEABLE 10G SL SERIES,LLT12P928523003,415-00041,LMR12P4183301AA,LMT12P4184310AA,LLT12P618533001,SNT12C0100123,LIGHTCONEX 28G,415-00032,SLR12P928530102,LCX04C418532302,SLX04P528532102,10G LL,LLX12P418532101,10G LM,LMX04P4184323AA
【应用】专用于航空卫星的抗辐射光学收发器,可承受>100 krad(Si)的辐射剂量
凭借其在国防和航空航天领域所用嵌入式光通信模块中的专业知识,Reflex Photonics推出SpaceABLE™和Space CONEX ™ “抗辐射”产品系列,提供针对航天市场的抗辐射光学收发器的应用。
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Smiths Interconnect’s Solutions Help the Optical Interconnect Design Challenges in Space
Aeronautical applications face many design challenges that are unique to their intended environment. The best practices for optical interconnect design for space applications include the use of radiation-resistant technology to defend against space radiation, the use of components and devices that are designed to operate in harsh environments, and meeting small SWaP and long-term reliability requirements. Finally, it is recommended to follow open standards like VPX and to look for solutions that comply with MIL and quality standards.
Reflex Photonics Company Profile
型号- LIGHTABLE LL,LIGHTABLE SM 12RX,LIGHTABLE LM,LIGHTABLE LM 12RX,LIGHTVISION VM 4TRX,LIGHTCONEX28,LIGHTCONEX® 12TX,SPACECONEX28 LC 12TX,SPACECONEX28 SC 12TX,LIGHTCONEX® 4+4 12G RX,LIGHTABLE28 SL 12RX,SPACECONEX28 LC 4TRX,SPACEABLE SL,SPACECONEX SC 12RX,SPACEABLE SM,LIGHTABLE SL 12RX,SPACECONEX28 SC 4TRX,SPACECONEX28 4TRX,SPACECONEX28 12TX,LIGHTABLE28,LIGHTABLE LL 12RX,SPACECONEX28,SPACECONEX 4TRX,LIGHTVISION VM 12TX,SPACECONEX 12TX,SPACECONEX LC 4TRX,LIGHTABLE28 LL 4TRX,SPACECONEX LC 12TX,SNAP12 TX SR12,LIGHTABLE LL 12TRX,LIGHTABLE28 LL 12TX,LIGHTABLE SM 4TRX,LIGHTCONEX® 12RX,LIGHTABLE LM 12TX,LIGHTABLE LM 4TRX,LIGHTABLE SM 12TX,SPACECONEX 12TRX,SPACEABLE28,SPACECONEX28 LC 12RX,SPACECONEX SC 4TRX,LIGHTABLE28 SL 4TRX,LIGHTABLE28 SL 12TX,LIGHTABLE SL 12TX,LIGHTABLE28 LL,SPACECONEX28 SC 12RX,LIGHTABLE SL 4TRX,SPACECONEX SC 12TX,SPACECONEX28 12RX,SPACEABLE28 SL,SNAP12,LIGHTABLE LL 4TRX,SNAP12 RX SR12,LIGHTABLE LL 12TX,LIGHTVISION VM 12RX,SPACECONEX LC 12RX,LIGHTABLE28 LL 12RX,SPACECONEX 12RX,LIGHTABLE SL 12TRX
SpaceABLE 28G LGA 4TRX Rugged optical transceiver
型号- SLX04P5285321F2,SPACEABLE 28G SL 4TRX,SLX04P528532102,SPACEABLE 28G LGA 4TRX,SPACEABLE 28G 4TRX
SpaceABLE Optical Transceivers Successfully Reach > 4000h of Accelerated Life Test
Smiths Interconnect is proud to announce that its SpaceABLE SM radiation-resistant transceivers have exceeded the minimal requirement of 2500 h of accelerated life test for GEO 20 years in-satellite operation with no performance degradation outside measurement uncertainty.
【应用】Smiths Interconnect抗辐射光收发器SpaceABLE应对太空中的光互连设计挑战
Smiths Interconnect用于空间应用的光互连设计的最佳实践包括使用抗辐射技术来抵御空间辐射,使用设计用于在恶劣环境中运行的组件和设备,以及满足小型SWaP和长期可靠性要求。
Understanding the Test Criteria of Optical Fiber Transceivers Used in Space
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