标准解读
《GB/T 29239-2024 移动通信设备节能参数和测试方法 基站》相比于《GB/T 29239-2020 移动通信设备节能参数和测试方法 基站》,主要在以下几个方面进行了更新与调整:
-
能效指标更新:新版标准根据近年来移动通信技术的快速发展,对基站设备的能效指标进行了重新定义和分类,以更准确地反映当前及未来一段时间内基站设备的节能性能要求。
-
测试方法优化:针对新的能效指标,修订了相应的测试方法,引入了更为精确和全面的测试流程,确保测试结果能够更加客观、真实地反映出基站设备在实际运行中的能耗状况和节能效果。
-
新增技术要求:考虑到5G及未来通信技术的应用,标准中加入了对新型基站架构(如云化基站、分布式基站)的节能参数要求及测试指导,以适应通信网络结构的变化。
-
环境适应性考量:新版标准加强了对不同环境条件下(如温度、湿度、海拔等)基站设备节能性能稳定性的评估要求,确保基站设备在各种环境下都能保持良好的节能效率。
-
数据处理与报告格式:对测试数据的处理方法和节能报告的编制格式进行了规范,提高了数据的可比性和报告的标准化程度,便于行业内外对基站设备节能性能的比较和评估。
-
绿色低碳导向:强调了基站设备在整个生命周期内的能效管理,包括设计、生产、使用到回收阶段的节能减碳要求,体现了向绿色、可持续发展方向的引导。
如需获取更多详尽信息,请直接参考下方经官方授权发布的权威标准文档。
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- 2024-08-23 颁布
- 2024-12-01 实施
文档简介
ICS33.060
CCSM34
中华人民共和国国家标准
GB/T29239—2024
代替GB/T29239—2020
移动通信设备节能参数和测试方法
基站
Energyefficiencymetricsandmeasurementmethodformobile
communicationequipment—Basestation
2024⁃08⁃23发布2024⁃12⁃01实施
国家市场监督管理总局
国家标准化管理委员会发布
GB/T29239—2024
目次
前言··························································································································Ⅲ
引言··························································································································Ⅳ
1范围·······················································································································1
2规范性引用文件········································································································1
3术语、定义和缩略语···································································································1
3.1术语和定义········································································································1
3.2缩略语··············································································································2
4节能参数·················································································································3
4.1参数·················································································································3
4.2基站的功耗········································································································3
4.3基站的输出功率··································································································5
4.4基站的输入输出功率比·························································································6
4.5分布式基站的射频拉远单元输入输出功率比······························································6
4.6分布式基站的主设备单位载扇功耗··········································································6
4.7电源的交流直流转换损耗······················································································7
5参考测试模型···········································································································7
5.1GSM基站··········································································································7
5.2TD⁃SCDMA基站································································································8
5.3WCDMA基站···································································································10
5.4CDMA基站······································································································11
5.5LTE基站·········································································································12
5.65G基站···········································································································15
6节能参数的测量······································································································19
6.1测试环境··········································································································19
6.2供电要求··········································································································20
6.3测试系统和参考点······························································································20
6.4输出功率误差····································································································22
6.5仪表要求··········································································································23
6.6测试方法··········································································································23
6.7测试数据记录····································································································24
附录A(资料性)节能参数计算示例················································································25
A.1基站节能参数计算示例·······················································································25
Ⅰ
GB/T29239—2024
A.2电源的交流直流转换损耗计算示例········································································25
附录B(资料性)节能技术····························································································26
B.1基带板智能节电技术··························································································26
B.2时隙智能关断技术·····························································································26
B.3频点智能关断技术·····························································································26
B.4通道智能关断技术·····························································································26
B.5积极功控和不连续发射·······················································································27
B.6下行功率共享···································································································27
B.7DPD技术········································································································27
B.8Doherty技术·····································································································27
B.9广播控制信道节电技术·······················································································27
参考文献····················································································································28
Ⅱ
GB/T29239—2024
前言
本文件按照GB/T1.1—2020《标准化工作导则第1部分:标准化文件的结构和起草规则》的规
定起草。
本文件代替GB/T29239—2020《移动通信设备节能参数和测试方法基站》,与GB/T29239—
2020相比,除结构调整和编辑性改动外,主要技术变化如下:
a)增加了范围中关于5G(5GTDD和5GFDD)制式适用的内容(见第1章);
b)更改了满负荷的定义(见3.1.9,2020年版的3.1.9);
c)增加了分布式三级架构基站的说明和功耗定义(见4.2);
d)更改了LTE满负荷模型(见5.5.2,2020年版的5.5.2);
e)增加了5G(5GTDD和5GFDD)基站的参考基站配置和参考业务负荷模型(见5.6);
f)更改了环境温度测试参数(见6.1,2020年版的6.1);
g)增加了5G节能参数测试系统和测试参考点说明(见6.3);
h)增加了5G基站机顶输出功率时输出功率误差范围(见6.4);
i)增加了5G基站类型的测试步骤(见6.6)。
请注意本文件的某些内容可能涉及专利。本文件的发布机构不承担识别专利的责任。
本文件由中华人民共和国工业和信息化部提出。
本文件由全国通信标准化技术委员会(SAC/TC485)归口。
本文件起草单位:上海诺基亚贝尔股份有限公司、中国信息通信研究院、中国电信集团有限公司、
中国联合网络通信集团有限公司、中国移动通信集团有限公司、中兴通讯股份有限公司、华为技术有限
公司、爱立信(中国)通信有限公司、中国信息通信科技集团有限公司、中电科普天科技股份有限公司、
江苏省电子信息产品质量监督检验研究院(江苏省信息安全测评中心)。
本文件主要起草人:贺敬、孙静原、张瑞艳、徐菲、许森、曹亘、唐春梅、马志锋、苏苓、全海洋、李星、
徐霞艳、王丽君、程敏、祝张睿、林英超、张晟、毕成、熊尚坤、林衡华、吴锦莲、李福昌、吕婷、范斌、
丁正虎、马子江、徐昊、肖如峰、卢杰。
本文件及其所代替文件的历次版本发布情况为:
——2012年首次发布为GB/T29239—2012,2020年第一次修订;
——本次为第二次修订。
Ⅲ
GB/T29239—2024
引言
随着中国通信产业的不断发展,通信已经成为国民经济发展的支柱产业,在国家大力开展节能减
排,走可持续发展循环经济道路的大背景下,为了更好地引导通信产品向节能降耗方向发展,指导相关
节能分级更加科学、合理,以切实达到节约能源、环境保护的目的,发布了GB/T26262—2010。
在GB/T26262—2010中规定节能参数是通信产品节能分级的依据,包括功耗、能效及辅助性参
数,其中功耗和能效是节能分级的主要依据。
本文件在考虑移动通信基站的自身特点基础上,选取了基站的功耗、基站的输出功率、基站的输入
输出功率比等作为移动通信基站的节能参数。本文件还提供了基站关键部件的节能参数,作为基站整
机节能情况的参考依据。
Ⅳ
GB/T29239—2024
移动通信设备节能参数和测试方法
基站
1范围
本文件描述了移动通信基站设备的节能参数、参考测试模型和测量方法。在测量方法中规定了测
试环境、供电、测试参考点、仪表、测量误差、测试数据记录等方面的要求。
本文件适用于GSM、TD⁃SCDMA、WCDMA、CDMA、LTE(TD⁃LTE和LTEFDD)和5G(5G
TDD和5GFDD)制式基站设备的节能测试。
2规范性引用文件
下列文件中的内容通过文中的规范性引用而构成本文件必不可少的条款。其中,注日期的引用文
件,仅该日期对应的版本适用于本文件;不注日期的引用文件,其最新版本(包括所有的修改单)适用于
本文件。
GB/T28519—2012通
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