HOME   Cart(0)   Quotation   About-Us Tax PDFs Standard-List Powered by Google www.ChineseStandard.net Database: 189759 (12 Jan 2025)

YD/T 1484.6-2021 English PDF (YDT1484.6-2013)

YD/T 1484.6-2021_English: PDF (YD/T1484.6-2021)
Standard IDContents [version]USDSTEP2[PDF] delivered inStandard Title (Description)StatusPDF
YD/T 1484.6-2021English459 Add to Cart 4 days [Need to translate] (Wireless terminal space radio frequency radiation power and performance measurement method. Part 6: LTE wireless terminal) Valid YD/T 1484.6-2021
YD/T 1484.6-2013English140 Add to Cart 0--9 seconds. Auto-delivery Measurement method for radiated RF power and receiver performance of wireless device. Part 6: LTE wireless device Obsolete YD/T 1484.6-2013


BASIC DATA
Standard ID YD/T 1484.6-2021 (YD/T1484.6-2021)
Description (Translated English) (Wireless terminal space radio frequency radiation power and performance measurement method. Part 6: LTE wireless terminal)
Sector / Industry Telecommunication Industry Standard (Recommended)
Classification of Chinese Standard M04
Classification of International Standard 33.100
Word Count Estimation 20,287
Date of Issue 2021-08-21
Date of Implementation 2021-11-01
Summary This standard specifies the method for measuring the radio frequency radiation power and receiver performance in space of LTE wireless terminals, including the frequency ranges and limits of FDD LTE and TD-LTE. This standard applies to portable and vehicle-mounted wireless terminals, as well as those used in fixed locations and data devices connected to portable computers through USB, Express, and PCMCIA interfaces.

BASIC DATA
Standard ID YD/T 1484.6-2013 (YD/T1484.6-2013)
Description (Translated English) Measurement method for radiated RF power and receiver performance of wireless device. Part 6: LTE wireless device
Sector / Industry Telecommunication Industry Standard (Recommended)
Classification of Chinese Standard M04
Classification of International Standard 33.100
Word Count Estimation 14,16
Quoted Standard YD/T 1484.1; 3GPP TS 34.114; 3GPP TS 36.521-1; 3GPP TS 36.523-1; 3GPP TS 36.508; 3GPP TS 36.509; 3GPP TS 37.902
Adopted Standard 3GPP TR25.914, NEQ; TS 25.144, NEQ; TS 34.114, NEQ; TR 37.902, NEQ
Drafting Organization MIIT Telecommunications Research Institute
Administrative Organization China Communication Standardization Association
Regulation (derived from) Ministry of Industry and Information Technology Bulletin No. 38 of 2013


YD/T 1484.6-2013 YD COMMUNICATION INDUSTRY STANDARD OF THE PEOPLE’S REPUBLIC OF CHINA ICS 33.100 M 04 Measurement Method for Radiated RF Power and Receiver Performance of Wireless Device - Part 6. LTE Wireless Device ISSUED ON. JULY 22, 2013 IMPLEMENTED ON. JULY 22, 2013 Issued by. Ministry of Industry and Information Technology of the People’s Republic of China Table of Contents Foreword ... 3 1 Scope ... 4 2 Normative References ... 4 3 Terms, Definitions and Abbreviations ... 5 4 Test Conditions ... 5 5 Radiated RF Power Measurement ... 5 5.1 FDD LTE radiated RF power measurement ... 5 5.2 TD-LTE radiated RF power measurement ... 8 6 Receiver Performance Measurement ... 12 6.1 FDD LTE receiver performance measurement ... 12 6.2 TD-LTE receiver performance measurement ... 14 6.3 Test procedure ... 14 Foreword YD/T 1484, Measurement Method for Radiated RF Power and Receiver Performance of Wireless Device, includes the following parts. -- Part 1. General Requirements; -- Part 2. GSM Wireless Device; -- Part 3. 800MHz/2GHz CDMA2000 Wireless Device; -- Part 4. 2GHz WCDMA Wireless Device; -- Part 5. 2GHz TD-SCDMA Wireless Device; -- Part 6. LTE Wireless Device. This Part is part 6 of YD/T 1484. This Part was drafted in accordance with the rules given in GB/T 1.1-2009. This Part was drafted mainly by reference to 3GPP TR 25.914, TS 25.144, TS 34.114, TR37.902 etc. This Part was proposed by and shall be under the jurisdiction of China Communication Standard Association. The drafting organizations of this Part. China Academy of Telecommunication Research of MIIT, China Telecommunication Corporation, China Mobile Communication Corporation, ZTE Communication Co., Ltd., Huawei Technologies Co., Ltd., Tianjin Samsung Communication Technologies Co., Ltd., Motorola (Beijing) Mobile Technologies Co., Ltd., China Potevio Information Industry Co., Ltd. The main drafters of this Part. An Xudong, Guo Lin, Xiao Li, Liu Qifei, Ma Shuai, Xing Jinqiang, Dai Guohua, Zhao Zibin, Xie Yuming, Zhang Xinghai, Yu Zhong, Chen Jinyue, Sun Chengjun, Zhou Xutao, Lv Bo, Wang Na, Sun Can, Zhang Xiao, Liu Zheng. Measurement Method for Radiated RF Power and Receiver Performance of Wireless Device - Part 6. LTE Wireless Device 1 Scope This Part specifies the measurement method for radiated RF power and receiver performance of LTE wireless device, including the frequency range and limiting values of two systems, namely FDD LTE and TD-LTE. This Standard applies to portable and vehicular wireless device, wireless device used at fixed positions and data device connected with portable computers through USB interface, Express interface, PCMCIA interface and other interfaces. 2 Normative References The following referenced documents are indispensable for the application of this document. For dated references, only the edition dated applies to this document. For undated references, the latest edition of the referenced documents (including all amendments) applies to this Standard. YD/T 1484.1, Measurement Method for Radiated RF Power and Receiver Performance of Wireless Device – Part 1. General Requirements 3GPP TS 34.114, User Equipment (UE)/Mobile Station (MS) Over The Air (OTA) Antenna Performance Conformance Testing 3GPP TS 36.521-1, User Equipment (UE) Conformance Specification – Part 1. Conformance Testing 3GPP TS 36.523-1, User Equipment (UE) Conformance Specification – Part 1. Protocol Conformance Specification 3GPP TS 36.508, Common Test Environments for User Equipment (UE) – Conformance Testing 3GPP TS 36.509, User Equipment (UE) Logical Test Interface – Special Conformance Testing 3GPP TR 37.902, Measurements of User Equipment (UE) Radio Performance for LTE/UMTS Terminal; Total Radiated Power (TRP) and Total Radiated Sensitivity (TRS) Test Methodology 3 Terms, Definitions and Abbreviations Unless specified otherwise, the terms, definitions and abbreviations specified in YD/T 1484.1 apply to this document. 4 Test Conditions Unless specified otherwise, the test conditions specified in YD/T 1484.1 applies to this Part. 5 Radiated RF Power Measurement Unless specified otherwise, the radiated RF power measurement specified in YD/T 1484.1 applies to this Part. 5.1 FDD LTE radiated RF power measurement 5.1.1 Test procedure Adjust the settings of LTE base station simulator in accordance with the parameters defined in 3GPP TS 36.521-1, Section 6.2.2 (maximum output power measurement); use the wireless device defined in 3GPP TS 36.509, Section 5.4 to build a loopback test mode with base station simulator. During the measurement, system simulator launches power-control commands to EUT as defined in 3GPP TS 36.521-1, Section 6.2.2.4.2 to ensure EUT is launched with maximum power during the whole measurement process, irrespective of the effects of the configurations of MPR and A- MPR. Select high, middle and low channels within the frequency bands supported by EUT for testing. Table 1 gives the details of selection of three channels -- high, middle and low, on part of FDD LTE frequency bands; other permissible frequency bands can be selected in accordance with the same principles. antenna pullout state of retractable antenna EUT). See Table 4 for specific requirements, including the types of equipment as specified in YD/T 1484.1. Table 4 – TD-LTE Radiated Power Requirements Frequency band 38 TIRP (dBm) Power level Free space Only human head model Human head and hand model Only human hand model AVG MIN AVG MIN AVG MIN AVG MIN Max power Categories A, B, C, E (tablet PCs5) 16.5 15.5 Pending Pending Pending Pending Pending Pending Max Power Categories D, E (except tablet PCs) 18 17 NA NA NA NA NA NA Frequency band 39 TIRP (dBm) Power level Free space Only human head model Human head and hand model Only human hand model AVG MIN AVG MIN AVG MIN AVG MIN Max power Categories A, B, C, E (tablet PCs) 16.5 15.5 Pending Pending Pending Pending Pending Pending Max Power Categories D, E (except tablet PCs) 18 17 NA NA NA NA NA NA Frequency band 40 TIRP (dBm) Power level Free space Only human head model Human head and hand model Only human hand model AVG MIN AVG MIN AVG MIN AVG MIN Max power Categories A, B, C, E (tablet PCs) 16.5 15.5 Pending Pending Pending Pending Pending Pending Max Power Categories D, E (except tablet PCs) 18 17 NA NA NA NA NA NA   Frequency band 41 TIRP (dBm) Power level Free space Only human head model Human head and hand model Only human hand model AVG MIN AVG MIN AVG MIN AVG MIN 5 A type of personal computers which are convenient for carrying and have touch screen as the input device. 1575 19575 10 1842.5 1747.5 50 0 50 0 1900 19900 10 1875 1780 50 0 50 0 Adjust the settings of LTE base station simulator in accordance with 3GPP TS 36.521- 1, Section 7.3 (reference sensitivity measurement) and the default parameters in TS 36.508; establish a lookback test mode between wireless device and base station simulator. Attention shall be paid to that the initial value of forward link power shall ensure that the BLER of EUT is zero when initial test is carried out at all points of 3-D space; meanwhile, it shall also ensure that each RB has equal power. If connection is not established at some test point, the forward link power can be increased to establish or maintain connection. Establish connection on specified test channels; base station simulator sends power-control commands to wireless device to make wireless device launched with maximum power all through the test; start the BLER for measurement on at least 20,000 transmission blocks; when the forward link power approaches FDD LTE sensitivity level, the power decline step of base station simulator shall not be greater than 0.5 dB; reduce the output power of base station simulator until the throughput capacity declines to 95% of maximum throughput; record the minimum forward link power value at that time (cell power) as the EIS value of that point; after all test points of the 3-D space are measured for sensitivity test, integrate into total isotropic radiated sensitivity (TIRS) as defined in YD/T 1484.1. 6.1.2 Limiting value – FDD LTE receiving sensitivity Complete radiated RF power measurement shall include the measurement of all channels in all possible actual application scenarios of EUT (such as free space and human head model) and in the main mechanical mode supported by EUT (such as the flipping open state of flip-type-EUT, the sliding open state of slide-type-EUT and the antenna pullout state of retractable antenna EUT). See Table 6 for specific requirements, including the types of equipment as specified in YD/T 1484.1. Table 6 – FDD LTE Receiving Sensitivity Requirements7 Frequency band 1 TIRP (dBm) Power level Free space Only human he... ......

Similar standards: YD/T 1484.1-2023  YD/T 1484.9-2023  YD/T 1484.4-2017  
Similar PDFs (Auto-delivered in 9 seconds): YD/T 1484.6-2013  GB 6830-1986  YD/T 1592.1-2012