Striking a Balance for Spectrum Needs: 5G Communications vs. Aircraft Altimeter Operations

2022-02-24 Knowles

At this point, you've likely seen a slew of mainstream news articles about 5G causing safety concerns around air travel. In fact, ahead of the rollout of new 5G services from major US telecom companies including Verizon and AT&T on Jan. 19, 2022, many international airlines canceled or delayed flights to major US airports where they believed 5G signals could possibly interfere with the radar signals required to properly operate landing equipment on their planes.


To understand why these airlines took these actions, let's first look at the root of their concerns. In late 2020 into early 2021, the United States Federal Communications Committee (FCC) held Auction 107 to re-allocate bandwidth from 3.7GHz to 3.98GHz for mobile telecommunication operations. This portion of the spectrum is known as the C band by the FCC and the telecom industry, which can be confusing because the IEEE radar band known as the C band covers 4GHz to 8GHz. The 5G NR FR1 bands that fall in this range are n77 and n78.


Since airplane radio altimeters, and the systems that rely on them, operate from 4.2GHz to 4.4GHz, organizations ranging from the United States Federal Aviation Administration (FAA) to pilots' unions to individual airlines voiced concerns to the FCC that 5G telecom operations in the C band may cause interference with these devices. Prior to this auction, this was not a concern because the frequencies from 3.7GHz to 3.98GHz were dedicated to low-power satellite communications (SATCOM).


With this auction, only 220MHz of guard band was left between these new 5G operations and the bandwidth used by pilots to determine an aircraft’s height above the ground, which is extremely critical functionality for low-visibility landings. When evaluating this risk, the FAA determined that even with this guard band in place, there was still the potential for interference that could prevent engine and braking systems from transitioning to landing mode, making it difficult or impossible for an aircraft to stop on a runway. 


But just how likely is it that 5G signals in the C band will interfere with airplane altimeters? The answer to this question is proving to be complicated for the telecommunications and avionics industries as well as their respective regulatory bodies to determine. For starters, the spectrum emitted by an interferer, in this case the 5G base stations, is regulated in terms of emission spectrum. This means that a radio that passes certification for use in the US meets standards based on the 3GPP specifications, but further clarification would be required to determine if a base station within these emissions limits would interfere with radio altimeter functionality.


The power of that spectrum at a receiver is dependent on the distance from the transmitter to the receiver. In this instance, KNOWLES receiver is a radar-based altimeter on a quickly moving airplane, making it challenging to measure the sensitivity of the receiver to the spectrum in question. Another challenge with determining the potential for interference is that there are a variety of radar altimeters currently used in planes that have been built over the last three decades by various manufacturers. Since this portion of the C band was previously used for low-power SATCOM applications, altimeter manufacturers did not necessarily need to use high-performance filters. Therefore, depending on the level of filtering included in these devices, the altimeter may or may not pick up signals below 4.2GHz that would confuse the system.


Can 5G Communications and Avionics Coexist?

While these concerns were made known prior to the FCC auctions, as the deployment dates for these 5G networks neared, the aviation industry put pressure on the FCC to take action. The rollout of 5G at these frequencies was initially scheduled for December 2021, but the FCC worked with carriers to delay deployment to give altimeter equipment manufacturers more time to evaluate data from wireless companies regarding their signals. Having this data gave manufacturers time to determine if they believed each of their altimeter models could continue to receive signals safely without interference from signals emitted by the new 5G base stations. While this is still a work in progress, as of Jan. 26, 2022, 90% of US commercial aircrafts are using one of the 20 cleared altimeters and are approved for operation at airports near new 5G deployments.


Additionally, as mentioned above, the power level of the signals seen by a receiver depend on how close the receiver is to the transmitter. Therefore, wireless carriers also agreed to create temporary buffer zones for the next six months that limit the proximity of their broadcasts relative to specific airports that were identified as commonly having low-visibility approaches.


Working through this potential interference issue is critical because 5G is not going anywhere. In fact, the demand for 5G communications, and future generations of wireless communications, is only going continue to expand globally. So, what can be done to prevent these issues? The short answer is that altimeter manufacturers need to implement high-quality filtering in these devices. This will be a design change for many manufacturers because when this portion of the C band was used for satcom operations, the 200 MHz of guard band allocated by the FCC was sufficient. But, with ground operations of 5G signals now occurring in this portion of the spectrum, altimeter manufacturers should consider adding quality high-performance filters to their devices to ensure signals below 4GHz will not be detected. In this guide, the International Telecommunication Union (ITU) does include recommendations for protection levels for radio altimeters that can help prevent receiver front end overload, degradation of sensitivity, and false altitude readings.


授权代理商:世强先进(深圳)科技股份有限公司
技术资料,数据手册,3D模型库,原理图,PCB封装文件,选型指南来源平台:世强硬创平台www.sekorm.com
现货商城,价格查询,交期查询,订货,现货采购,在线购买,样品申请渠道:世强硬创平台电子商城www.sekorm.com/supply/
概念,方案,设计,选型,BOM优化,FAE技术支持,样品,加工定制,测试,量产供应服务提供:世强硬创平台www.sekorm.com
集成电路,电子元件,电子材料,电气自动化,电机,仪器全品类供应:世强硬创平台www.sekorm.com
  • +1 赞 0
  • 收藏
  • 评论 0

本文由海底沉心转载自Knowles,原文标题为:Striking a Balance for Spectrum Needs: 5G Communications vs. Aircraft Altimeter Operations,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。

相关研发服务和供应服务

评论

   |   

提交评论

全部评论(0

暂无评论

相关推荐

SR-32453-000接收器

型号- SR-32453-000

12-26-14  - KNOWLES  - 商品功能框图  - REVISION C 代理服务 技术支持 采购服务

CI-22764-000接收器

型号- CI-22764-000

12-27-10  - KNOWLES  - 商品功能框图  - REVISION D 代理服务 技术支持 采购服务

Switch Filter Banks for Agile RF Receiver Design in Radar

This is the third installment in our RF Components for Radar series. In the first installment, we provided an overview of the key functional units in radar, including duplexing, filtering, power amplification, waveform generation, low-noise amplification (LNA), receiving and analog-to-digital conversion (ADC). Here, we’ll focus on a particular form of filtering technology: switch filter banks.

2024-06-14 -  设计经验 代理服务 技术支持 采购服务

TWFK-30017-00接收机

型号- TWFK-30017-00

12-18-08  - KNOWLES  - 商品功能框图  - REVISION F 代理服务 技术支持 采购服务

BK-21610-000接收器

型号- BK-21610-000

8-23-07  - KNOWLES  - 商品功能框图  - REVISION B 代理服务 技术支持 采购服务

RAU-34832-B148接收器

描述- 本资料介绍了型号为RAU-34832-B148的无阻尼磁平衡振膜接收器,适用于高频驱动。该产品具有恒定电压驱动功能,灵敏度在1000Hz时为105dB(相对于20µPa)。资料中还包含了电声学特性、阻抗、隔离度、谐波失真率等详细信息。

型号- RAU-34832-B148

4/4/2022  - KNOWLES  - 数据手册  - REVISION 1 代理服务 技术支持 采购服务

CI-28267-000接收器

型号- CI-28267-000

12-12-12  - KNOWLES  - 商品功能框图  - REVISION E 代理服务 技术支持 采购服务

FED-27423-106接收器

型号- FED-27423-106

11-13-08  - KNOWLES  - 商品功能框图  - REVISION B 代理服务 技术支持 采购服务

BK-21618-000接收器

型号- BK-21618-000

8-23-07  - KNOWLES  - 数据手册  - REVISION B 代理服务 技术支持 采购服务

EC-27054-A33接收器

型号- EC-27054-A33

9-3-07  - KNOWLES  - 商品功能框图  - REVISION B 代理服务 技术支持 采购服务

CI-28268-028接收器

型号- CI-28268-028

12-31-10  - KNOWLES  - 商品功能框图  - REVISION D 代理服务 技术支持 采购服务

FJ-26758-000接收器图纸

型号- FJ-26758-000

1-10-08  - KNOWLES  - 商品功能框图  - REVISION D 代理服务 技术支持 采购服务

CI-28597-000接收器

型号- CI-28597-000

12-31-10  - KNOWLES  - 商品功能框图  - REVISION B 代理服务 技术支持 采购服务

FK-23466-000接收器

型号- FK-23466-000

11-7-12  - KNOWLES  - 商品功能框图  - REVISION D 代理服务 技术支持 采购服务

FH-23373-000接收器图纸

型号- FH-23373-000

9-15-05  - KNOWLES  - 商品功能框图  - REVISION A 代理服务 技术支持 采购服务
展开更多

电子商城

查看更多

品牌:SILICON LABS

品类:Receiver

价格:¥20.4401

现货: 6,947

品牌:SILICON LABS

品类:Receiver

价格:¥20.3473

现货: 5,000

品牌:SILICON LABS

品类:Receiver

价格:¥12.0781

现货: 3,689

品牌:思瑞浦

品类:接口产品

价格:¥9.0000

现货: 2,225

品牌:FIRECOMMS

品类:光纤接收器

价格:¥45.0000

现货: 1,855

品牌:KODENSHI

品类:发光二极管

价格:¥1.0314

现货: 1,835

品牌:KODENSHI

品类:编码器

价格:¥4.5000

现货: 1,000

品牌:MELEXIS

品类:FSK/FM/ASK Receiver

价格:¥17.9928

现货: 825

品牌:FIRECOMMS

品类:Transceiver

价格:¥45.0000

现货: 500

品牌:SILICON LABS

品类:Receiver

价格:¥20.4401

现货: 490

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

现货市场

查看更多

品牌:SKYWORKS

品类:AM/FM Broadcast Radio Receiver with RDS/RBDS

价格:¥11.4838

现货:15,990

品牌:SKYWORKS

品类:Radio Receiver

价格:¥18.0764

现货:9,600

品牌:RENESAS

品类:收发器

价格:¥5.5190

现货:3,840

品牌:RENESAS

品类:收发器

价格:¥5.0172

现货:3,765

品牌:RENESAS

品类:收发器

价格:¥5.0172

现货:2,200

品牌:SKYWORKS

品类:AM/FM Broadcast Radio Receiver

价格:¥8.2451

现货:2,120

品牌:SKYWORKS

品类:Toolstick Programming Platform

价格:¥4.8688

现货:2,098

品牌:RENESAS

品类:收发器

价格:¥5.8534

现货:1,770

品牌:RENESAS

品类:接口IC

价格:¥4.6828

现货:1,303

品牌:SKYWORKS

品类:Radio Receiver

价格:¥17.2554

现货:762

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

查看更多

授权代理品牌:接插件及结构件

查看更多

授权代理品牌:部件、组件及配件

查看更多

授权代理品牌:电源及模块

查看更多

授权代理品牌:电子材料

查看更多

授权代理品牌:仪器仪表及测试配组件

查看更多

授权代理品牌:电工工具及材料

查看更多

授权代理品牌:机械电子元件

查看更多

授权代理品牌:加工与定制

世强和原厂的技术专家将在一个工作日内解答,帮助您快速完成研发及采购。
我要提问

954668/400-830-1766(工作日 9:00-18:00)

service@sekorm.com

研发客服
商务客服
服务热线

联系我们

954668/400-830-1766(工作日 9:00-18:00)

service@sekorm.com

投诉与建议

E-mail:claim@sekorm.com

商务合作

E-mail:contact@sekorm.com

收藏
收藏当前页面