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最大输出功率和有效辐射功率-FCC最大输出功率和ETSI EIRP有效辐射功率的区别是什么? ...

2023-10-17 09:34| 发布者: 曾工| 查看: 2755| 评论: 2|原作者: 曾工|来自: 电磁兼容网

摘要: UL - FCC ID - APPLE SMARTPHONE - MAXIMUM OUTPUT POWER FCC(美国联邦通信委员会)的最大输出功率和ETSI(欧洲电信标准化协会)的EIRP(等效等向辐射功率)有效辐射功率是两个不同的参数,用于管理和规范射频无 ...
UL - FCC ID - APPLE SMARTPHONE - MAXIMUM OUTPUT POWER


FCC(美国联邦通信委员会)的最大输出功率和ETSI(欧洲电信标准化协会)的EIRP(等效等向辐射功率)有效辐射功率是两个不同的参数,用于管理和规范射频无线通信设备。它们有一些区别,主要在于如何表示和计算功率以及它们的目的。

FCC 最大输出功率
FCC规定了射频无线通信设备在特定频段和通信技术下的最大输出功率限制。这个限制是设备的发射功率,通常以瓦特(W)或分贝瓦特(dBW)为单位表示。FCC的主要目标是确保设备在不造成有害干扰或危险的情况下工作,并维护频谱的有效管理。这意味着FCC关注的是设备本身的发射功率,而不考虑天线的增益。

ETSI EIRP 有效辐射功率
ETSI定义了EIRP(等效等向辐射功率)用于描述射频无线通信设备在所有方向上的辐射功率,相当于一个等向辐射器。 EIRP 考虑了设备本身的发射功率以及使用的天线的增益。 EIRP通常以分贝瓦特(dBW)为单位表示。 ETSI的主要目标是确保设备的辐射功率在特定的法规限制内,以避免对其他设备或服务造成干扰。

关键区别
  • FCC的关注点主要在设备的发射功率,而ETSI关注的是设备和天线的结合,即EIRP。
  • FCC的标准是以发射功率为基础的,而ETSI的标准考虑了设备和天线的整体性能。
  • EIRP更全面地描述了设备的辐射性能,包括设备本身的功率和天线的性能。
  • FCC和ETSI的规定可能在频段、通信技术和国家/地区法规方面存在差异。

无论是FCC还是ETSI,这些规范和标准旨在管理和监督射频无线通信设备的使用,以确保频谱的有效分配和通信系统的互操作性,同时防止干扰和确保通信设备的合规性。

FCC-Rules-and-Regulations-Maximum Power-EIRP
曾工,如果您要查看本帖隐藏内容请回复

FCC - EIRP = max. conducted output power + antenna gain
曾工,如果您要查看本帖隐藏内容请回复

Intertek - FCC ID - 5GHz WLAN (WiFi) - test report
曾工,如果您要查看本帖隐藏内容请回复

UL - FCC ID - APPLE SMARTPHONE - test report
曾工,如果您要查看本帖隐藏内容请回复

FCC-Rules-and-Regulations-Maximum Power-EIRP.pdf
FCC - EIRP = max. conducted output power antenna gain.pdf
Intertek - FCC ID - 5GHz WLAN (WiFi) - test report.pdf
UL - FCC ID - APPLE SMARTPHONE - test report.pdf

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引用  曾工    2023-10-17 09:41
Different radio bands require different regulatory power limits. Each device you can buy, must not exceed any power limits given by the regulatory domain you want to deploy it in. The values given here are taken from the ETSI standards and apply to european countries. Some of the terms related to regulatory demands or transmission power used in this post are explained in this post.

2.4 GHz
There exists two EIRP power limits for the 2.4 GHz band, one for 802.11b rates with CCK modulation (1, 2, 5.5 and 11 Mbps) and one for 802.11g/n rates with OFDM modulation. The limit is set to 20 dBm (100 mW) for OFDM and 18 dBm (63 mW) for CCK.
The spectral power limitation of 10 dBm/MHz (10 mW/MHz) causes the lower power limit for 802.11b. As the spectral mask of the CCK modulation looks more like a sombrero, we see a high spectral power per MHz at the center and a lower one at the edges. So if you don’t lower the Tx power generally to 18 dBm, you exceed the spectral power limitation at the center of a 802.11b 20 MHz channel. For OFDM, the spectral mask looks more like a rectangular, so the power is nearly distributed equally, with an idealistic 7 dBm/MHz (5 mW/MHz) over a 20 MHz channel for example, and the maximum power limit of 20 dBm can be used.

5 GHz
Since the 5 GHz band is divided into two different ETSI Radio Local Area Network (RLAN) bands of 5150 to 5350 MHz and 5470 to 5725 MHz, which can be compared to the FCC Unlicensed National Information Infrastructure (U-NII) bands in the US, each band can have different power limits. As 802.11 only uses OFDM modulation in this radio band, there are no modulation specific regulations, only frequency specific.
RLAN band 1 (5150 to 5350 MHz)Indoor only sub-band I (5150 – 5250 MHz)
The first RLAN sub-band includes the channels 36 to 48 and has an EIRP power limit to 23 dBm (200 mW). These channels are considered for indoor only usage and do not require any Dynamic Frquency Selection (DFS) or Transmit Power Control (TPC) features. It is comparable to FCC U-NII-1.

Indoor only sub-band II (5250 – 5350 MHz)
In the second sub-band of the RLAN band 1 with channels 52 to 64, the ETSI has set the EIRP power limit to 23 dBm (200 mW) for devices with TPC and 20 dBm (100 mW) for devices without TPC. For a device with TPC, the mean EIRP at the lowest power level of the TPC range must not exceed 17 dBm (50 mW). This band requires DFS support and is comparable to FCC U-NII-2.

RLAN band 2 (5470 to 5725 MHz)
Channels from 100 to 140 are part of the second RLAN band and have an EIRP power limit of 30 dBm (1000 mW) for TPC and 27 dBm (500 mW) for non-TPC devices or 20 dBm (100 mW) for devices without any TPC or DFS support. The mean EIRP power level for a slave device with TPC must not exceed 24 dBm at the the lowest TPC power level if the device is also capable of radar detection or 17 dBm otherwise. This band can be used for in- and outdoor deployments as well and is comparable to FCC U-NII-2e.

RLAN band 3 / Broadband Radio Access Networks (BRAN) (5725 – 5875 MHz)
Comparable to the FCC U-NII-3 (5725 – 5825 MHz) band with a higher upper frequency range, the ETSI has defined the channels 155 to 171 (155, 159, 163, 167, 172) for Broadband Wireless Access (BWA) use. The idea is to give internet access to locations without any wired access network available. The maximum EIRP output power has been set to 36 dBm (4000 mW) with the limitation of RF power into antenna of 30 dBm (1000 mW).


EN 300 328 v1.8.1 for 2.4 GHz

EN 301 893 v1.7.1 and EN 302 502 v1.2.1 for 5 GHz

Document 32005D0513 Article 4 on Indoor only usage of RLAN band 1.

ERC Recommendation 70-03 for short range devices in U-NII-3

Advice: The author hopes that the values given here are correct. If you can prove otherwise, feel free to comment or contact me directly.

*Update (2014-11-27): Use the term EIRP power instead of Tx power, I also added a clarification.*

*Update (2014-12-02): Substituted U-NII band definitions with ETSI RLAN bands.*

*Update (2014-12-09): Added link to post with term definitions, better definition of “lowest” power level with TPC*

*Update (2016-01-07): Correct indoor only use for frequency range 5250 – 5350 MHz, thanks to comment by Stefan Schneider.

*Update (2018-09-21): Added paragraph regarding usage of the U-NII-3 band with 25 mW EIRP.
引用  u3014    2023-10-18 10:31
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