华为ascend p1 产品介绍(中文版)

了解您的手机给手机充电开机和关机使用触摸屏通知面板主屏幕锁定和解锁屏幕通话功能安装联系人您可以按照下图所示进行安装，安装前请先关闭您的手机。

• 长按此键开启手机。

• 开机状态下，长按此键打开选项菜单。

• 开机状态下，按此键开启或关闭屏幕。

• 开机状态下，长按此键10 秒以上，强制关机。

• 按此键返回到上级界面。

如果您的手机在开机状态下充电，当状态提示栏电池状态图标变为 时，表示充电已经完成。

电池状态指示灯PP[ PP[ PP• 开机：长按 开启手机。

如果您的USIM 卡预先设定了个人识别码（PIN 码），则需要输入PIN 码以后才可以开机使用。

• 关机：长按 打开选项菜单。

选择关机，关闭手机。

点击：选择菜单、选项或启动应用程序。

长按对应的操作选项。

滑动：在屏幕上水平或垂直滑动手指。

拖动：用手指长按想要的项目，然后将项目拖动到屏幕的任何位置。

例如，您可以利用拖动方式移动或删除主屏幕界面上的图标。

打开通知面板从状态栏处向下滑动，可以打开通知面板。

您可以在通知面板处执行下列操作：• 快速打开相关应用程序。

•左右滑动关闭相应通知。

• 点击 X 清除所有通知。

• 点击进入设置界面。

关闭通知面板从面板底部轻轻向上滑动，关闭通知面板。

⮄〘⫓㋋䇇䇤⧭㿓㑱⢎䓕㲍䐙㬟㎙㻵㬟㵉䐋⼮䓕㲍㵝⢋ 㼓㻣⿍Ⱀ⫓㋋㵉䐋㘇⟆㻵㬟㤙䈓㬷〛⭥䑘䄋㻵㬟㤙䈓㌍ㅾ⤺䔘㎙长按一个窗口小部件或应用程序图标，可以将其拖到垃圾桶或是任何您想要的位置。

查看扩展屏幕界面您可以通过左右滑动来切换屏幕。

自定义主屏幕在主屏幕界面，点击可以执行下列操作：• 更换主屏幕壁纸• 更换主题• 切换使用3D 桌面 • 管理应用程序• 进入手机设置• 长按主屏幕空白区域可以快速更换主屏幕壁纸。

• 长按一个应用程序图标，将其叠加至另一个应用程序图标之上，可以创建文件夹。

锁定屏幕• 手机打开时，按锁定屏幕。

• 开机状态下，手机在闲置一段时间后会自动锁定屏幕。

解锁屏幕按唤醒屏幕。

怎么使用华为的例子写作文由于已经拿到了入网许可证，所以华为的超薄手机Ascend P1 S何时开卖，具体手机是多少都受到了用户的广泛关注，今天有媒体带来消息称，这款手机已经正式接受消费者的预定。

华为Ascend P1 S机身厚度为7.69mm，配备了一款4.3寸960*540触摸屏（Super AMOLED材质），同时屏幕外城还有附有大猩猩玻璃，同时搭载的是1.5GHz主频德州仪器TI的OMAP4460处理器（内置的GPU为SGX 540）。

华为Ascend P1 SHuaweiAscend P1 S基本参数网络制式 GSM/GPRS/WCDMA/EDGE/HSPA待机模式单卡单待手机尺寸127.4 *64.8 * 6.68 （单位mm）重量 110克主屏幕540x960 , 1600万色， Super AMOLED屏，4.3寸，电容屏，支持多点触控系统界面安卓 4.0 Android 4.0主摄像头800万像素， CMOS , LED闪光灯，支持？动对焦手机铃声MP3铃声， MID铃声， WAV铃声，AAC铃声， AMR铃声， OGG铃声蓝牙3版，支持HS+A2DPWLanWIFI,IEEE 802.11n/b/gGPS支持GPS导航，支持A-GPSCPU1.5G 德州仪器 OMAP4460GPUImagination PowerVR SGX540RAM1GBROM4GB存储空间数据线接口USB v2.0耳机插口3.5mm存储卡MicroSD (TransFlash) ，最大支持32GB电池1800毫安时锂电池相关下载网游游戏软件主题壁纸铃声手机报价此外，该机还内置了1GB RAM和4GB容量空间，提供800万像素摄像头和一块1800mAh容量电池，运行的系统版本为Android 4.0。

目前，这款手机的预订价为3099元，并有黑色、白色和粉色供用户选择。

华为Ascend P1 S 华为手机网络制式GSM & WCDMA待机模式单卡单待系统界面安卓 4.0 主屏参数4.3寸1600万色主屏分辨率540x960主摄像头800万像素。

华为云产品清单更新日期：2023年2月28日计算1.1裸金属服务器BMS裸金属服务器（Bare Metal Server）为您和您的企业提供专属的云上物理服务器，具备传统物理服务器高性能的同时，兼具云上高安全可靠、灵活快速发放等特点，助力企业在数据库、大数据、容器、高性能计算、AI等场景关键业务云上创新1.2GPU加速云服务器GACSGPU加速云服务器（GPU Accelerated Cloud Server, GACS）能够提供优秀的浮点计算能力，从容应对高实时、高并发的海量计算场景。

P系列适合于深度学习，科学计算，CAE等；G系列适合于3D动画渲染，CAD等1.3FPGA加速云服务器FACSFPGA加速云服务器（FPGA Accelerated Cloud Server, FACS）提供FPGA开发和使用的工具及环境，让用户方便地开发FPGA加速器和部署基于FPGA加速的业务，为您提供易用、经济、敏捷和安全的FPGA云服务1.4云耀云服务器HECS云耀云服务器（Hyper Elastic Cloud Server）是一种可以快速搭建且易于管理的新一代云服务器，提供从1核1G到8核32G的套餐并匹以相对的磁盘空间和公有云带宽，助力中小企业便捷高效的在云端构建电商网站、Web应用、小程序、APP和各类开发测试、学习环境，相比普通云服务器更加简单易用（3步即可完成购买），提供极简上云体验。

1.5弹性云服务器ECS弹性云服务器（Elastic Cloud Server, ECS）是一种云上可随时自助获取、可弹性伸缩的计算服务，可帮助您打造安全、可靠、灵活、高效的应用环境。

1.6弹性伸缩AS弹性伸缩（Auto Scaling, AS）可根据用户的业务需求和预设策略，自动调整计算资源的管理服务。

灵活的使用弹性伸缩可计算资源供应量随业务负载而变化，经济、便捷的保证业务平稳、健康运行。

1.7镜像服务IMS镜像是用于创建服务器或磁盘的模板。

华为材料写作文为什么在有些人眼中，华为是最好的国产手机品牌？国产手机市场竞争十分激烈，华为依靠自主研发处理器赢得了许多普通人的关注，并觉得华为做的手机非常好，而且华为是国产中坚力量，高价低配的手机产品华为也是相当多。

小米等互联网厂商专注性价比，可许多人依旧只选择华为而小米根本不会入他们的眼，这究竟是为什么？另补足，我不是去OPhone的，可能将我抒发的不是太准确。

我就是说道手机市场存有很多杰出的产品，但他们的一些产品并没被获得足够多的注重，即使媒体十分拥护它但销量依旧不好。

很多人只女性主义于自己介绍的一小部分而不回去尝试和崇尚那些明明很杰出的产品，即使就是小米这样的人尽皆知的品牌很多人也敬而远之，甚至有人提出诉讼国产就晓得说道华为不好，我期望每个人能客观对待所有的品牌。

我想要晓得人们买手机的思维究竟就是什么样，我期望真正优质的作品能为每个人增添更好的体验。

1987年，徘徊在深圳街头的任正非没有想到，好运气即将降临到自己和这个国家身上。

一改革开放已近10年，全国的经济状况明显好转。

就在那一年，中国政府的经济建设目标显得十分明确，明确提出了中国经济建设分后三步走的总体战略部署：第一步目标，同时实现国民生产总值比1980年翻一番，化解人民的温饱问题；第二步目标，至二十世纪末国民生产总值比1980年翻两番；第三步目标，至二十一世纪中叶基本同时实现现代化，人均国民生产总值达至中等发达国家水平，人民过上比较富足的生活。

这是一个很振奋人心的计划，但是似乎和任正非还没有太大的关系。

那一年他43岁，从部队以团副的身份转业，来到成为改革试验田的深圳。

在这里，先他而来的妻子沦为南油集团的高管，却最终完结了两人的婚姻关系。

任正非自己还只是南油集团直属的一个电子公司的经理，对于已过不惑之年的任正非而言，接下来的人生似乎只有可以记起的平静并无波。

然而和所有始于那个年代的创业故事一样，机会从天而降，任正非的人生道路从此走上了一个完全不同的方向，而他也以自己的方式给1987这个本来相对平淡的年份，加上了一点重量。

华为产品介绍华为是全球领先的信息与通信解决方案供应商。

我们围绕客户的需求持续创新，与合作伙伴开放合作，在电信网络、终端和云计算等领域构筑了端到端的解决方案优势。

我们致力于为电信运营商、企业和消费者等提供有竞争力的综合解决方案和服务，持续提升客户体验，为客户创造最大价值。

目前，华为的产品和解决方案已经应用于140多个国家，服务全球1/3的人口。

我们以丰富人们的沟通和生活为愿景，运用信息与通信领域专业经验，消除数字鸿沟，让人人享有宽带。

为应对全球气候变化挑战，华为通过领先的绿色解决方案，帮助客户及其他行业降低能源消耗和二氧化碳排放，创造最佳的社会、经济和环境效益。

Quidway S9300系列T比特核心路由交换机Quidway® S9300系列是华为公司面向融合多业务的网络架构而推出的新一代高端智能T 比特核心路由交换机。

该产品基于华为公司智能多层交换的技术理念，在提供稳定、可靠、安全的高性能L2/L3层交换服务基础上，实现高清视频流承载、大容量无线网络、弹性云计算、硬件IPv6、一体化安全等业务应用，同时具备强大扩展性和可靠性。

Quidway® S9300系列交换机广泛适用于广域网、城域网、园区网络和数据中心，帮助企业构建面向应用的网络平台，提供交换路由一体化的端到端融合网络。

Quidway® S9300系列提供S9303、S9306、S9312三种产品形态，支持不断扩展的交换能力和端口密度。

整个系列秉承模块通用化、部件归一化的设计理念，最小化备件成本，在保证设备扩展性的同时最大限度地保护用户投资。

此外，S9300作为新一代智能交换机采用了多种绿色节能创新技术，在不断提升性能及稳定性的同时，大幅降低设备能源消耗，减小噪声污染，为网络绿色可持续发展提供领先的解决方案。

S9300系列交换机产品彩页产品特点先进交换架构提升网络扩展性•背板具备良好的扩展性，可平滑扩展至更高带宽，支持单端口速率40G、100G平滑升级，同时完美兼容现网板卡，保护初始投资。

Copyright © Huawei Technologies Co., Ltd. 2016.All rights reserved.No part of this manual may be reproduced or transmitted in any form or by any means without prior written consent of Huawei Technologies Co., Ltd. And its affiliates (“Huawei”).The product described in this manual may include copyrighted software of Huawei and possible licensors. Customers shall not in any manner reproduce, distribute, modify, decompile, disassemble, decrypt, extract, reverse engineer, lease, assign, or sublicense the said software, unless such restrictions are prohibited by applicable laws or such actions are approved by respective copyright holders.Trademarks and Permissions, , and are trademarks or registered trademarks of Huawei Technologies Co., Ltd.Other trademarks, product, service and company names mentioned are the property of their respective owners.NoticeSome features of the product and its accessories described herein rely on the software installed, capacities and settings of local network, and therefore may not be activated or may be limited by local network operators or network service providers.Thus, the descriptions herein may not exactly match the product or its accessories which you purchase. Huawei reserves the right to change or modify any information or specifications contained in this manual without prior notice and without any liability.DISCLAIMERALL CONTENTS OF THIS MANUAL ARE PROVIDED “AS IS”. EXCEPT AS REQUIRED BY APPLICABLE LAWS, NO WARRANTIES OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE MADE IN RELATION TO THE ACCURACY, RELIABILITY OR CONTENTS OF THIS MANUAL.TO THE MAXIMUM EXTENT PERMITTED BY APPLICABLE LAW, IN NO EVENT SHALL HUAWEI BE LIABLE FOR ANY SPECIAL, INCIDENTAL, INDIRECT, OR CONSEQUENTIAL DAMAGES, OR LOSS OF PROFITS, BUSINESS, REVENUE, DATA, GOODWILL SAVINGS OR ANTICIPATED SAVINGS REGARDLESS OF WHETHER SUCH LOSSES ARE FORSEEABLE OR NOT.THE MAXIMUM LIABILITY (THIS LIMITATION SHALL NOT APPL Y TO LIABILITY FOR PERSONAL INJURY TO THE EXTENT APPLICABLE LAW PROHIBITS SUCH A LIMITATION) OF HUAWEI ARISING FROM THE USE OF THE PRODUCT DESCRIBED IN THIS MANUAL SHALL BE LIMITED TO THE AMOUNT PAID BY CUSTOMERS FOR THE PURCHASE OF THIS PRODUCT.Import and Export RegulationsCustomers shall comply with all applicable export or import laws and regulations and will obtain all necessary governmental permits and licenses in order to export, re-export or import the product mentioned in this manual including the software and technical data therein.Privacy PolicyTo better understand how we protect your personal information, please see the privacy policy at /privacy-policy.ContentsGetting to Know the ME919Bs-567a (1)HUAWEI ME919B L TE LGA Module Development Kit Guide ....................... 错误！未定义书签。

华为手机购机指南一、华为手机型号命名规律（一）一般情况下，华为的手机有以下几种命名规则：U开头的：中国联通制式手机，即WCDMAC开头的：中国电信制式手机，即CDMA2000T开头的：中国移动制式手机，即TD-SCDMA但这三种字母开头的手机，有可能是双模的，也就是说一般情况下是支持GSM 网络，但有部分手机只支持一种网络，也有可能不支持GPRS上网。

一般来说，在型号数字相同的情况下U是最好的，其次是C，最次是T。

（二）按照手机定位低端、中端和高端来命名Ascend系列手机：自今年Ascend P1发布开始，华为的Ascend战略正式出台。

D（钻石）系列是旗舰，P（铂金）系列是高端，G（黄金）系列是中端，Y（年轻）系列是低端。

以目前售价来看，D系列在2300-2800之间，P系列在1800-2300之间，G系列基本是1000+，Y系列则是1000-。

二、几款热门手机特别说明1、华为荣耀四核爱享版：即U9508，1888元。

2、荣耀+G600，3G智能手机，双核，官方标价1699元，网络售价从1200-1699元不等。

该手机根据中国手机三大运行商分别有定制，其功能机配置大同小异： 联通版U8950D：联通定制机，其CPU为双核1.2GHz，RAM为768M，双模双卡不双通；电信版C8950D：电信定制机，其CPU为双核1.2GHz，RAM为768M，双模双卡双通；移动版T8950：移动定制机，其CPU为双核1.0GHz，RAM为1024M，双模双卡不双通；3、荣耀Honor，单核1.4GHz，3G智能手机，官方标价1399元。

联通版U8860：联通定制机，也有非定制机。

电信版C8860E：电信定制机4、华为高端机：市场价均为2000以上。

Ascend P1/P1 XL：D1四核XL：Ascend D1/D1 XL：这些机型一个主要特点在于使用了华为Emotion UI。

✧Emotion UI介绍Emotion UI是华为基于Android进行开发的，以“简单易用、功能强大、情感喜爱”为核心设计理念，以易发现、易享受、易分享为目标的智能终端人机交互系统。

RRU3953&RRU3953w DescriptionIssue 10Date 2018-01-10Copyright © Huawei Technologies Co., Ltd. 2018. All rights reserved.No part of this document may be reproduced or transmitted in any form or by any means without prior written consent of Huawei Technologies Co., Ltd.Trademarks and Permissionsand other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.All other trademarks and trade names mentioned in this document are the property of their respective holders.NoticeThe purchased products, services and features are stipulated by the contract made between Huawei and the customer. All or part of the products, services and features described in this document may not be within the purchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information, and recommendations in this document are provided "AS IS" without warranties, guarantees or representations of any kind, either express or implied.The information in this document is subject to change without notice. Every effort has been made in the preparation of this document to ensure accuracy of the contents, but all statements, information, and recommendations in this document do not constitute a warranty of any kind, express or implied.Huawei Technologies Co., Ltd.Address: Huawei Industrial BaseBantian, LonggangShenzhen 518129People's Republic of ChinaWebsite: Email: ******************RRU3953&RRU3953w Description ContentsContents1 Overview (1)1.1 Appearance (1)1.2 Physical Ports (2)2 Technical Specifications (4)2.1 Frequency Band (4)2.2 Capacity (4)2.3 Receiver Sensitivity (5)2.4 Output Power (7)2.5 Power Consumption (20)2.6 Input Power (23)2.7 Equipment Specifications (23)2.8 CPRI Port Specifications (23)2.9 Environment Specifications (24)3 Acronyms and Abbreviations (26)1 OverviewThe RRU3953/RRU3953w is the outdoor remote radio unit which is powered by a powercabinet. It is the RF module of the distributed base station and is installed close to the antenna.The RRU3953/RRU3953w performs modulation, demodulation, data processing, andcombination and division of baseband signals and RF signals. By using the software-definedradio (SDR) technology, the RRU3953 can work in GU, GL, UL, GUL, GM, UM, or GUMmulti-mode through software configurations, the RRU3953w can work in GL dual-modethrough software configurations.The RRU3953/RRU3953w adopts a dual-transmitter and four-receiver design, which furtherimproves the output power and the carrier capacity.The software version of the RRU3953(1800 MHz/1900 MHz) is SRAN10.1, which iscompatible with the N-1 and N-2 versions of MBTS, MBSC, and OSS NEs. Therefore, theRRU3953can be used with products of SRAN8.0, SRAN9.0 and SRAN10.1 versions. Allthese three versions include the RRU3953 software components.The RRU3953 used inSRAN9.0, SRAN10.0 and SRAN11.0 has no impact on the KPI of products.The software version of the RRU3953(900 MHz, not including LTE (NB-IoT)) is SRAN11.0,which is compatible with the N-1 and N-2 versions of MBTS, MBSC, and OSS NEs.Therefore, the RRU3953 can be used with products of SRAN9.0, SRAN10.1 and SRAN11.0versions. All these three versions include the RRU3953 software components.The RRU3953used in SRAN9.0, SRAN10.1 and SRAN11.0 has no impact on the KPI of products.The software version of the RRU3953(900 MHz, including LTE (NB-IoT)) is SRAN12.0The software version of the RRU3953(2100 MHz) is SRAN12.0, which is compatible withthe N-1 and N-2 versions of MBTS, MBSC, and OSS NEs. Therefore, the RRU3953 can beused with products of SRAN10.1, SRAN11.1 and SRAN12.0 versions. All these threeversions include the RRU3953 software components.The RRU3953 used in SRAN10.1,SRAN11.1 and SRAN12.0 has no impact on the KPI of products.The software version of the RRU3953w is SRAN10.1, which is compatible with the N-1versions of MBTS, MBSC, and OSS NEs. Therefore, the RRU3953w can be used withproducts of SRAN9.0 and SRAN10.1 versions. All these two versions include the RRU3953wsoftware components.The RRU3953w used in SRAN9.0 and SRAN10.1 has no impact on theKPI of products.1.1 AppearanceFigure 1-1 shows the appearance of the RRU3953/RRU3953w.Figure 1-1Appearance of the RRU3953/RRU3953w1.2 Physical PortsRRUs have a modular design. Its external ports are located in the cabling cavity or at thebottom of the module.Figure 1-2 shows the physical ports on the RRU3953/RRU3953w and Table 1-1 describesthese ports.Figure 1-2Physical ports on the RRU3953/RRU3953wTable 1-1Physical ports on the RRU3953/RRU3953wPort Connector QuantityDescriptionRF port DIN 4 Connects to the antennasystem.CPRI port DLC 2 Connects to the basebandunit (BBU).Power supply port Tool-less femaleconnector (pressfittype) 1 Supplies –48 V DC powerinput.RET port DB9 1 Connects to the remotecontrol unit (RCU).Alarm port DB15 1 Receives alarm signals fromthe external devices.2 Technical Specifications 2.1 Frequency BandTable 2-1RRU3953/RRU3953w frequency bandType FrequencyBand (MHz) RX FrequencyBand (MHz)TX FrequencyBand (MHz)IBW (MHz)RRU3953 900 EGSM 880 to 915 925 to 960 35900 PGSM 890 to 915 935 to 960 251800 1710 to 1785 1805 to 1880 451900 1850 to 1910 1930 to 1990 402100 1920 to 1980 2110 to 2170 60RRU3953w 1800 1710 to 1785 1805 to 1880 752.2 CapacityTable 2-2Single-mode capacityMode CapacityGSM Each RRU3953/RRU3953w supports eight TRXs.UMTS (Only 900MHz/1900 MHz/2100MHz frequency band supported) EachRRU3953 supports:●Six carriers without MIMO●Four carriers with MIMOLTE (FDD) Each RRU3953(1800MHz/1900MHz/2100MHz) supports two carriers.The LTE (FDD) bandwidth is 1.4, 3, 5, 10, 15, or 20 MHz.Each RRU3953w supports two carriers. The LTE (FDD) bandwidth is 5,10, 15, or 20 MHz.LTE (NB-IoT) (Only 900MHz frequency band supported)Each RRU3953 supports 1 carrier.Table 2-3Multi-mode capacityMode CapacityGSM+UMTS (Only 900MHz/1900MHz frequency band supported) For detailed specifications, see Table 2-8 and Table 2-9.GSM+LTE (FDD) (Only 1800MHz/1900MHz frequency band supported) For detailed specifications, see Table 2-10.UMTS+LTE (FDD) (Only 1900MHz/2100MHz frequency band supported)For detailed specifications, see Table 2-11 and Table 2-12.GSM+UMTS +LTE (FDD) (Only 1900MHz frequency band supported) For detailed specifications, see Table 2-13.GSM+LTE (NB-IoT) (Only 900MHz frequency band supported) For detailed specifications, see Table 2-15.UMTS+ LTE (NB-IoT) (Only 900MHz frequency band supported) For detailed specifications, see Table 2-16.GSM+UMTS + LTE (NB-IoT) (Only 900MHz frequency band supported) For detailed specifications, see Table 2-17.2.3 Receiver SensitivityTable 2-4RRU3953/RRU3953w receiver sensitivityMode FrequencyBand (MHz) 1-Way ReceiverSensitivity(dBm)2-Way ReceiverSensitivity (dBm)4-Way ReceiverSensitivity(dBm)GSM 900 EGSM -113.8 -116.6 -119.3 (theoreticalvalue) 900 PGSM -113.6 -116.4 -119.1 (theoreticalvalue) 1800 -114.0 -116.8 –119.5 (theoreticalvalue) 1900 -113.7 -116.5 –119.2 (theoreticalvalue)UTMS 900 EGSM -125.9 -128.7 -131.4900 PGSM -125.7 -128.5-131.21900 -125.8 -128.6 -131.3 2100 -125.8 -128.6 -131.3LTE (FDD) 1800 -106.6 -109.4 –112.1 1900 -106.3 -109.1 -111.8 2100 -106.5 -109.3 -112.0LTE (NB-Io T) 900 EGSM -127.3 -130.1 -132.8 900 PGSM -127.3 -130.1 -132.8NOTE●The receiver sensitivity of GSM, as recommended in 3GPP TS 51.021, is measured in the centralband at the antenna connector on condition that the channel rate is 13 kbit/s and the bit error rate (BER) is not higher than 2%.●The receiver sensitivity of UMTS, as recommended in 3GPP TS 25.104, is measured in the entireoperating band at the antenna connector on condition that the channel rate reaches 12.2 kbit/s and the bit error rate (BER) is not higher than 0.001.●The receiver sensitivity of LTE (FDD), as recommended in 3GPP TS 36.104, is measured under a 5MHz channel bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs) standard.●LTE (NB-IoT) receiver sensitivity is measured, as recommended in 3GPP TS 36.104, under a 200KHz channel bandwidth and a 15 KHz subcarrier spacing based on the FRC A14-1 in Annex A.14 (π/2 BPSK, R = 1/3, 1 RB) standard.2.4 Output PowerNOTE●In Table 2-5, the RRU3953 supports a maximum power of 2 x 80 W, and supports a maximumpower of 2 x 60 W when working in GO mode. (1) indicates that the RRU3953 also supports theconfiguration of 40 W+80 W when working in the 1900 MHz frequency band and in GO mode.●In Table 2-6, Table 2-7, Table 2-8, Table 2-9 and Table 2-10, (2) indicates that the configuration issupported only when the RRU3953 works in the 1900 MHz frequency band.●In Table 2-7, Table 2-8, and Table 2-9, (3) indicates that the configuration is supported only whenthe RRU3953 works in the 900 MHz frequency band.●RRU3953/RRU3953w modules working in GSM mode and in the 900 MHz/1800 MHz/1900 MHzfrequency band comply with the standard EN 301 502 V9.2.1.RRU3953 modules working in LTE(FDD) or multi-standard radio (MSR) mode and in the 900 MHz/1800 MHz/1900 MHz frequencyband comply with the standards ETSI EN 301 908 V5.2.1 and 3GPP TS 37.104.●For the RRU3953/RRU3953w working in GSM mode: When the S1 or S2 configuration is used andthe maximum output power is 60 W per carrier, the corresponding 60 W power license must beobtained.●The output power is 1 dB less than the standard power when the RRU3953/RRU3953w is located ata height of 3500 m to 4500 m; and is 2 dB less than the standard power when theRRU3953/RRU3953w is located at a height of 4500 m to 6000 m.●Factors such as the inter-site distance, frequency reuse factor, power control algorithm, and trafficmodel affect the gain achieved by dynamic power allocation. Therefore, in most cases, the networkplanning can be based on the power specification achieved by dynamic power allocation.●In the power sharing mode, the power control and DTX functions must be enabled.In GBSS8.1, thedynamic power sharing feature is mutually exclusive with the GBFD-113201 Concentric Cell,GBFD-114501 Co-BCCH Cell, GBFD-118001 BCCH Dense Frequency Multiplexing, andGBFD-117501 Enhanced Measurement Report (EMR) features. In GBSS9.0 and later versions, thedynamic power sharing feature can be used together with these features.However, the dynamicpower sharing feature currently cannot be used together with the GBFD-117002 IBCA (InterferenceBased Channel Allocation), GBFD-117001 Flex MAIO, GBFD-118701 RAN Sharing, andGBFD-114001 Extended Cell features in GBSS8.1, GBSS9.0, and later versions.●Power sharing assumes a random distribution of UEs in the cell.●The output power per carrier in the output power tables indicates the maximum output powersupported by the network performance.●When two LTE (FDD) carriers are configured, it is recommended that the power spectrum density(PSD) of the two carriers be set to the same value.Power spectrum density = Carrier output power/Carrier bandwidth (1.4 MHz and 3 MHz bandwidthsare considered as 5 MHz bandwidth in this formula.)●For RRU3953w, the scenario where the third-order intermodulated signal falls in the receivefrequency range of a configured carrier is not supported.Table 2-5Typical output power for the RRU3953 (900 MHz, single-mode)Numbe r of GSM Carriers Number ofUMTSCarriersNumber ofLTE(FDD)CarriersOutputPowerperGSMCarrier(W)OutputPowerperGSMCarrier(W) intheDynamicPowerSharingModeOutputPowerperUMTSCarrier(W)OutputPowerper LTE(FDD)Carrier(W)BandwidthSupported bythe LTE(FDD)(MHz)1 0 0 60 60 0 0 /2 0 0 60 60 0 0 /3 0 0 30 30 0 0 /4 0 0 30 30 0 0 /5 0 0 20 25 0 0 /6 0 0 20 25 0 0 /7 0 0 15 20 0 0 /8 0 0 15 20 0 0 / 0 1 0 0 0 80 0 / 0 2 0 0 0 80 0 / 0 3 0 0 0 40 0 / 0 4 0 0 0 40 0 / 0 5 0 0 0 26 0 / 0 6 0 0 0 26 0 / 0 1(MIMO)0 0 0 2x60 0 /0 2(MIMO)0 0 0 2x 40 0 /0 3(MIMO)0 0 0 2x 26 0 /0 4(MIMO)0 0 0 2x 20 0 /Table 2-6Typical output power for the RRU3953/RRU3953w (1800 MHz/1900 MHz, single-mode)Numbe r of GSM Carriers Number ofUMTSCarriersNumber ofLTE(FDD)CarriersOutputPowerperGSMCarrier(W)OutputPowerperGSMCarrier(W) intheDynamicPowerSharingModeOutputPowerperUMTSCarrier(W)OutputPowerper LTE(FDD)Carrier(W)BandwidthSupported bythe LTE(FDD)(MHz)1 0 0 60 60 0 0 /2 0 0 60 60 0 0 /3 0 0 30 30 0 0 /4 0 0 30 30 0 0 /5 0 0 20 25 0 0 /6 0 0 20 25 0 0 /7 0 0 15 20 0 0 /8 0 0 15 20 0 0 /1 (1)0 (1)0 (1)80 (1)80 (1)0 (1)0 (1)/ (1)2 (1)0 (1)0 (1)40 (1)40 (1)0 (1)0 (1)/ (1)3 (1)0 (1)0 (1)40 (1)40 (1)0 (1)0 (1)/ (1)4 (1)0 (1)0 (1)27 (1)27 (1)0 (1)0 (1)/ (1)5 (1)0 (1)0 (1)20 (1)20 (1)0 (1)0 (1)/ (1)6 (1)0 (1)0 (1)20 (1)20 (1)0 (1)0 (1)/ (1)7 (1)0 (1)0 (1)16 (1)20 (1)0 (1)0 (1)/ (1) 0 (2) 1 (2)0 (2)0 (2)0 (2)80 (2)0 (2)/ (2) 0 (2) 2 (2)0 (2)0 (2)0 (2)80 (2)0 (2)/ (2) 0 (2) 3 (2)0 (2)0 (2)0 (2)40 (2)0 (2)/ (2) 0 (2) 4 (2)0 (2)0 (2)0 (2)40 (2)0 (2)/ (2) 0 (2) 5 (2)0 (2)0 (2)0 (2)25 (2)0 (2)/ (2) 0 (2) 6 (2)0 (2)0 (2)0 (2)25 (2)0 (2)/ (2) 0 (2) 1(MIMO)(2)0 (2)0 (2)0 (2)2x40 (2)0 (2)/ (2)0 (2) 2(MIMO)(2)0 (2)0 (2)0 (2)2x40 (2)0 (2)/ (2)0 (2) 3(MIMO)(2)0 (2)0 (2)0 (2)2x20 (2)0 (2)/ (2)0 (2) 4(MIMO)(2)0 (2)0 (2)0 (2)2x20 (2)0 (2)/ (2)0 0 1(MIMO)0 0 0 2x40 1.4, 30 0 1(MIMO) 0 0 0 2x60 5, 10,15, 200 0 2(MIMO) 0 0 0 2x40 1.4, 3, 5,10, 15,20Table 2-7Typical output power for the RRU3953 (2100 MHz, single-mode)Number of UMTS Carriers Number ofLTE (FDD)CarriersOutputPower perUMTSCarrier (W)OutputPower perLTE (FDD)Carrier (W)Bandwidth Supportedby the LTE (FDD)(MHz)1 0 80 0 /2 0 80 0 /3 0 40 0 /4 0 40 0 /5 0 26 0 /6 0 26 0 /1 (MIMO) 0 2x80 0 /2 (MIMO) 0 2x40 0 /3 (MIMO) 0 2x26 0 /4 (MIMO) 0 2x20 0 /2 + 1 (MIMO) 0 Non-MIMOCarrier: 40MIMOCarrier: 2x400 /2 + 2 (MIMO) 0 Non-MIMOCarrier: 26MIMOCarrier: 2x260 /2 +3 (MIMO) 0 Non-MIMOCarrier: 20MIMOCarrier: 2x200 /4 + 1 (MIMO) 0 Non-MIMOCarrier: 26MIMOCarrier: 2x260 /4 + 2 (MIMO) 0 Non-MIMOCarrier: 20MIMOCarrier: 2x200 /6 + 1 (MIMO) 0 Non-MIMOCarrier: 20MIMOCarrier: 2x200 /0 1 (MIMO) 0 2x80 5, 10, 15, 200 1 (MIMO) 0 2x40 5, 10, 15, 20 Table 2-8Typical output power for the RRU3953 (900 MHz/1900 MHz, GU non-MSR)Number of GSM Carriers Number of UMTSCarriersOutput Power perGSM Carrier (W)Output Power perUMTS Carrier(W)1 (2) 1 (2)80 (2)80 (2) 1 (2)2 (2)80 (2)40 (2) 1 (2)3 (2)80 (2)27 (2)1 (2) 4 (2)80 (2)20 (2)2 1 40 80 2 2 40 40 23 40 272 4 40 203 1 27 80 3 2 27 40 3 3 27 273 4 27 204 1 20 80Number of GSM Carriers Number of UMTSCarriersOutput Power perGSM Carrier (W)Output Power perUMTS Carrier(W)4 2 20 404 3 20 274 4 20 205 1 16 805 2 16 405 3 16 276 1 12 806 2 12 406 (2) 3 (2)10 (2)27 (2)7 (2) 1 (2) 6 (2)80 (2) Table 2-9Typical output power for the RRU3953 (900 MHz/1900 MHz, GU MSR)Number of GSM Carriers Number of UMTSCarriersOutput Power perGSM Carrier (W)Output Power perUMTS Carrier(W)1 (3) 1 (3)30 (3)50 (3) 1 1 40 40 1 (3)2 (3)30 (3)50 (3) 1 2 40 40 13 40 40 1 (3)4 (3)40 (3)20 (3)1 (2) 4 (2)40 (2)26 (2)2 (3) 1 (3)30 (3)50 (3) 2 1 40 40 2 (3) 2 (3)30 (3)50 (3) 2 2 40 40 2 (3)3 (3)20 (3)40 (3) 2 3 40 202 (3) 4 (3)40 (3)20 (3)3 1 40 40Number of GSM Carriers Number of UMTSCarriersOutput Power perGSM Carrier (W)Output Power perUMTS Carrier(W)3 2 20 403 (3) 2 (3)25 (3)30 (3) 3 (3) 2 (3)30 (3)20 (3) 3 (3) 3 (3)25 (3)25 (3) 3 (3) 3 (3)20 (3)30 (3)3 (3)4 (3)20 (3)20 (3)4 1 20 404 (3) 1 (3)27 (3)40 (3) 4 2 20 404 (3) 2 (3)25 (3)30 (3) 4 (3) 2 (3)30 (3)20 (3) 4 (3) 3 (3)15 (3)20 (3)4 (3) 4 (3)15 (3)25 (3)5 1 20 405 (3) 1 (3)27 (3)27 (3) 5 2 20 205 2 15 305 (3) 2 (3)20 (3)30 (3)6 1 20 406 2 20 206 (2) 2 (2)15 (2)30 (2)7 (2) 1 (2)15 (2)30 (2) 7 (3) 1 (3)16 (3)30 (3) 7 (3) 1 (3)20 (3)20 (3) 1 (3) 1 (MIMO) (3)30 (3)2x50 (3)1 1 (MIMO) 40 2x402 (3) 1 (MIMO) (3)30 (3)2x50 (3)2 1 (MIMO) 40 2x403 1 (MIMO) 20 2x40Number of GSM Carriers Number of UMTSCarriersOutput Power perGSM Carrier (W)Output Power perUMTS Carrier(W)3 (3) 1 (MIMO) (3)25 (3)2x30 (3)4 1 (MIMO) 20 2x404 (3) 1 (MIMO) (3)25 (3)2x30 (3)4 (3) 1 (MIMO) (3)30 (3)2x20 (3)1 (3)2 (MIMO) (3)20 (3)2x30 (3)1 2 (MIMO) 40 2x202 (3) 2 (MIMO) (3)20 (3)2x30 (3)2 2 (MIMO) 40 2x203 (3) 2 (MIMO) (3)15 (3)2x20 (3)3 (2) 2 (MIMO) (2)20 (2)2x20 (2)4 (3) 2 (MIMO) (3)15 (3)2x20 (3)4 (2) 2 (MIMO) (2)20 (2)2x20 (2)1 (3) 3 (MIMO) (3)20 (3)2x20 (3)2 (3)3 (MIMO) (3)15 (3)2x20 (3)Table 2-10Typical output power for the RRU3953/RRU3953w (1800 MHz/1900 MHz, GL MSR)Number of GSM Carriers Number ofLTE (FDD)CarriersOutputPower perGSMCarrier (W)OutputPower perLTE (FDD)Carrier (W)BandwidthSupported by theLTE (FDD) (MHz)1 1 (MIMO) 40 2x40 1.4, 3, 5, 10, 15, 201 1 (MIMO) 30 2x50 1.4, 3, 5, 10, 15, 202 1 (MIMO) 40 2x40 1.4, 3, 5, 10, 15, 202 1 (MIMO) 30 2x50 1.4, 3, 5, 10, 15, 203 1 (MIMO) 20 2x40 1.4, 3, 5, 10, 15, 20 3 1 (MIMO) 25 2x30 1.4, 3, 5, 10, 15, 203 1 (MIMO) 30 2x20 1.4, 3, 5, 10, 15, 204 1 (MIMO) 20 2x40 1.4, 3, 5, 10, 15, 20 4 1 (MIMO) 25 2x30 1.4, 3, 5, 10, 15, 20Number of GSM Carriers Number ofLTE (FDD)CarriersOutputPower perGSMCarrier (W)OutputPower perLTE (FDD)Carrier (W)BandwidthSupported by theLTE (FDD) (MHz)4 1 (MIMO) 30 2x20 1.4, 3, 5, 10, 15, 205 1 (MIMO) 20 2x20 1.4, 3, 5, 10, 15, 205 1 (MIMO) 16 2x30 1.4, 3, 5, 10, 15, 206 1 (MIMO) 20 2x20 1.4, 3, 5, 10, 15, 20 7(2) 1 (MIMO) (2)15(2)2x20(2) 1.4, 3, 5, 10, 15, 20(2) 1 2 (MIMO) 20 2x30 1.4, 3, 5, 10, 15, 20 1 2 (MIMO) 20 Carrier1:2x40Carrier2:2x201.4, 3, 5, 10, 15, 201(2) 2 (MIMO) (2)30(2)Carrier1:2x20(2)Carrier2:2x30(2)1.4, 3, 5, 10, 15, 20(2)1(2) 2 (MIMO) (2)40(2)2x20(2) 1.4, 3, 5, 10, 15, 20(2) 2 2 (MIMO) 20 2x30 1.4, 3, 5, 10, 15, 20 2 2 (MIMO) 20 Carrier1:2x40Carrier2:2x201.4, 3, 5, 10, 15, 202(2) 2 (MIMO) (2)30(2)Carrier1:2x20(2)Carrier2:2x30(2)1.4, 3, 5, 10, 15, 20(2)2(2) 2 (MIMO) (2)40(2)2x20(2) 1.4, 3, 5, 10, 15, 20(2) 3 2 (MIMO) 20 2x20 1.4, 3, 5, 10, 15, 20 3 2 (MIMO) 20 Carrier1:2x25Carrier2:2x151.4, 3, 5, 10, 15, 204 2 (MIMO) 20 2x20 1.4, 3, 5, 10, 15, 20 4 2 (MIMO) 20 Carrier1:2x25Carrier2:2x151.4, 3, 5, 10, 15, 20Number of GSM Carriers Number ofLTE (FDD)CarriersOutputPower perGSMCarrier (W)OutputPower perLTE (FDD)Carrier (W)BandwidthSupported by theLTE (FDD) (MHz)4 2 (MIMO) 10 Carrier1:2x40Carrier2:2x20 Carrier1: 10, 15, 20 Carrier2: 1.4, 3, 5, 10, 15, 20Table 2-11Typical output power for the RRU3953 (1900 MHz, UL MSR)Number of UMTS Carriers Number ofLTE (FDD)CarriersOutput Powerper UMTSCarrier (W)Output Powerper LTE(FDD) Carrier(W)BandwidthSupported bythe LTE(FDD) (MHz)1 1 (MIMO) 40 2x40 1.4, 3, 5, 10, 15,201 (MIMO) 1 (MIMO) 2x40 2x40 1.4, 3, 5, 10, 15,202 1 (MIMO) 40 2x40 1.4, 3, 5, 10, 15,202 (MIMO) 1 (MIMO) 2x20 2x40 1.4, 3, 5, 10, 15,203 1 (MIMO) 20 2x40 1.4, 3, 5, 10, 15,203 (MIMO) 1 (MIMO) 2x15 2x30 1.4, 3, 5, 10, 15,204 1 (MIMO) 20 2x20 1.4, 3, 5, 10, 15,204 (MIMO) 1 (MIMO) 2x15 2x20 1.4, 3, 5, 10, 15,201 2 (MIMO) 40 2x20 1.4, 3, 5, 10, 15,201 2 (MIMO) 20 Carrier1: 2x20Carrier2: 2x40 1.4, 3, 5, 10, 15, 201 2 (MIMO) 20 2x30 1.4, 3, 5, 10, 15,202 2 (MIMO) 40 2x20 1.4, 3, 5, 10, 15,202 2 (MIMO) 20 Carrier1: 2x20Carrier2: 2x40 1.4, 3, 5, 10, 15, 20Number of UMTS Carriers Number ofLTE (FDD)CarriersOutput Powerper UMTSCarrier (W)Output Powerper LTE(FDD) Carrier(W)BandwidthSupported bythe LTE(FDD) (MHz)2 2 (MIMO) 20 2x30 1.4, 3, 5, 10, 15,203 2 (MIMO) 20 2x20 1.4, 3, 5, 10, 15,204 2 (MIMO) 20 2x20 1.4, 3, 5, 10, 15,202+1(MIMO) 1 (MIMO) Non-MIMOcarrier: 20MIMO carrier:2x10 2x20 1.4, 3, 5, 10, 15,20Table 2-12Typical output power for the RRU3953 (2100 MHz, UL MSR)Number of UMTS Carriers Number ofLTE (FDD)CarriersOutput Powerper UMTSCarrier (W)Output Powerper LTE(FDD) Carrier(W)BandwidthSupported bythe LTE(FDD) (MHz)1 1 (MIMO) 40 2x40 5, 10, 15, 201 (MIMO) 1 (MIMO) 2x40 2x40 5, 10, 15, 202 1 (MIMO) 40 2x40 5, 10, 15, 202 (MIMO) 1 (MIMO) 2x20 2x40 5, 10, 15, 203 1 (MIMO) 20 2x40 5, 10, 15, 203 (MIMO) 1 (MIMO) 2x20 2x20 5, 10, 15, 204 1 (MIMO) 26 2x26 5, 10, 15, 20 6 1 (MIMO) 20 2x20 5, 10, 15, 20 2 2 (MIMO) 20 2x30 5, 10, 15, 20 4 2 (MIMO) 20 2x20 5, 10, 15, 20Table 2-13Typical output power for the RRU3953 (1900 MHz, GUL MSR)Numbe r of GSM Carriers Number ofUMTSCarriersNumber ofLTE(FDD)CarriersOutputPowerperGSMCarrier(W)OutputPowerperUMTSCarrier(W)OutputPowerper LTE(FDD)Carrier(W)BandwidthSupported by theLTE (FDD) (MHz)1 1 1(MIMO)40 40 2x40 5, 102 1 1(MIMO)20 40 2x40 5, 103 1 1(MIMO)20 40 2x20 5, 104 1 1(MIMO)10 40 2x20 5, 101 2 1(MIMO)40 20 2x40 5, 102 2 1(MIMO)20 20 2x40 5, 103 2 1(MIMO)20 20 2x20 5, 104 2 1(MIMO)10 20 2x20 5, 10Table 2-14Typical output power of the RRU3953 (900 MHz, LTE (NB-IoT)) Number of LTE (NB-IoT) Carriers Output Power per LTE (NB-IoT)Carrier (W)1 201 (SFB) 2x20Table 2-15Typical output power of the RRU3953 (900 MHz, GM MSR)Number of GSM Carriers Number of LTE(NB-IoT) CarriersOutput Power perGSM Carrier (W)Output Power perLTE (NB-IoT)Carrier (W)1 1 40 102 1 40 103 1 20 5Number of GSM Carriers Number of LTE(NB-IoT) CarriersOutput Power perGSM Carrier (W)Output Power perLTE (NB-IoT)Carrier (W)4 1 20 55 1 15 56 1 15 51 1 (SFB) 40 2x102 1 (SFB) 40 2x103 1 (SFB) 20 2x54 1 (SFB) 20 2x55 1 (SFB) 15 2x56 1 (SFB) 15 2x5 Table 2-16Typical output power of the RRU3953 (900 MHz, UM MSR)Number of UMTS Carriers Number of LTE(NB-IoT) CarriersOutput Power perUMTS Carrier(W)Output Power perLTE (NB-IoT)Carrier (W)1 1 60 202 1 60 203 1 30 101 1 (SFB) 60 2x202 1 (SFB) 60 2x203 1 (SFB) 30 2x10 Table 2-17Typical output power of the RRU3953 (900 MHz, GUM MSR)Number of GSM Carriers Number ofUMTSCarriersNumber ofLTE(NB-IoT)CarriersOutputPower perGSMCarrier (W)OutputPower perUMTSCarrier (W)OutputPower perLTE(NB-IoT)Carrier (W)1 1 1 60 60 102 1 1 30 60 103 1 1 20 60 10Number of GSM Carriers Number ofUMTS CarriersNumber of LTE(NB-IoT) Carriers Output Power per GSMCarrier (W) Output Power per UMTSCarrier (W) Output Power per LTE(NB-IoT) Carrier (W) 1 1 1 (SFB) 60 60 2x10 2 1 1 (SFB) 30 60 2x10 3 11 (SFB)20602x102.5 Power ConsumptionNOTE●The typical power consumption and the maximum power consumption are measured when the base station works at a temperature of 25°C.●The typical power consumption for GSM is reached when the base station works with 30% load. The maximum power consumption for GSM is reached when the base station works with 100% load.●The typical power consumption for UMTS is reached when the base station works with 40% load. The maximum power consumption for UMTS is reached when the base station works with 100% load .●The typical power consumption for LTE (FDD) is reached when the base station works with 50% load. The maximum power consumption for LTE (FDD) is reached when the base station works with 100% load .●This section describes the power consumption of an entire base station. Board configurations in a BBU are as follows:- GSM: one GTMU- UMTS: one UMPTb1 and one WBBPf3 in 3x1 and 3x2 scenarios, one UMPTb1 and twoWBBPf3s in 3 x 3 and 3 x 4 scenarios.- LTE (FDD): one UMPTb1 and one LBBPd1 when one carrier is configuredTable 2-18 Power consumption of the DBS3900 (V er.D) (–48 V) (configured with the RRU3953, 900MHz) ModeConfigurationOutput Power per Carrier (W)Typical Power Consumpti on (W) Maximum Power Consumpt ion (W) GSM S4/4/4 30 930 1390 UMTS 3x440 1250 1775 GSM+UMTSGSM S2/2/2 + UMTS 3x2GSM: 40 UMTS: 4013101785Table 2-19Power consumption of the DBS3900 (V er.D) (–48 V) (configured with the RRU3953/RRU3953w, 1800 MHz)Mode Configuration Output Powerper Carrier (W) TypicalPowerConsumption (W)MaximumPowerConsumption (W)GSM S4/4/4 20 835 1185 S5/5/5 20 905 1335S6/6/6 20 965 1490 LTE (FDD) 3x10 MHz, 1 carrier 2x20 690 850 3x10 MHz, 2 carrier 2x20 930 1230GSM+LTE (FDD) GSM S2/2/2 + LTE(FDD) 3x10MHz, 1carrierGSM: 20LTE (FDD):2x20 970 1230 GSM S3/3/3 + LTE(FDD) 3x10 MHz, 1carrierGSM: 20LTE (FDD):2x20 1025 1390 GSM S4/4/4 + LTE(FDD) 3x10 MHz, 1carrierGSM: 20LTE (FDD):2x20 1120 1590Table 2-20Power consumption of the DBS3900 (V er.D) (–48 V) (configured with the RRU3953, 1900 MHz)Mode Configuration OutputPower perCarrier (W) TypicalPowerConsumption (W)Maximum PowerConsumption (W)GSM S2/2/2 20 610 710S4/4/4 20 750 1070S6/6/6 20 1090 1625 UMTS 3x1 20 535 620 3x2 20 655 790 LTE (FDD) 3x10MHz 2x20 745 890GSM+UMTS GSM S2/2/2 + UMTS 3x1 GSM: 20UMTS: 20 820 1000GSM S3/3/3 + UMTS 3x1 GSM: 20UMTS: 20 1035 1315GSM S4/4/4 + UMTS 3x1 GSM: 20UMTS: 20 1095 1475GSM+LTE (FDD) GSM S2/2/2 + LTE (FDD)3x10MHzGSM: 20LTE(FDD):2x20 1040 1290 GSM S3/3/3 + LTE (FDD)3x10MHzGSM: 20LTE (FDD):2x20 1105 1465 GSM S4/4/4 + LTE (FDD)3x10MHzGSM: 20LTE (FDD):2x20 1200 1650UMTS+LTE (FDD) UMTS 3x2 + LTE (FDD)3x10MHzUMTS: 20LTE (FDD):2x20 1070 1340 UMTS 3x3 + LTE (FDD)3x10MHzUMTS: 20LTE (FDD):2x20 1250 1600 UMTS 3x4 + LTE (FDD)3x10MHzUMTS: 20LTE (FDD):2x20 1355 1780GSM+UMTS+ LTE (FDD) GSM S2/2/2 + UMTS 3x1+ LTE (FDD) 3x10MHzGSM: 20UMTS: 20LTE (FDD):2x20 1240 1550 GSM S2/2/2 + UMTS 3x2+ LTE (FDD) 3x10MHzGSM: 20UMTS: 20LTE (FDD):2x20 1345 1735Table 2-21Power consumption of the DBS3900 (V er.D) (–48 V) (configured with the RRU3953, 2100 MHz)Mode Configuration OutputPower perCarrier (W) TypicalPowerConsumption (W)Maximum PowerConsumption (W)UMTS 3×2 40 840 1090 LTE (FDD) 3x10MHz 2x40 840 1240。