YD/T 4002-2021 5G digital cellular mobile telecommunication network-test method of eMBB user equipment (Phase 1) English
5G digital cellular mobile telecommunication network - Test method of eMBB user equipment (Phase 1)
1 Scope
This standard specifies the test methods for the basic functions, RF performance, radio resource performance, protocol conformance and other aspects of 5G enhanced mobile broadband (eMBB) user equipment (UE) with a band below 6GHz.
This standard is applicable to 5G UEs with a band below 6GHz that support enhanced mobile broadband (eMBB) scenarios, and is aimed at both Non-StandAlone (NSA) and StandAlone (SA).
2 Normative references
The following referenced documents are indispensable for the application of this document. For dated reference, only the edition cited applies. For undated references, the latest edition of the referenced documents (including any amendments) applies.
YD/T 1763.1-2011 TD-SCDMA/WCDMA digital cellular mobile telecommunication network test methods for UICC-ME (Cu) interface - Part 1: Physical, electrical and logical characteristics of ME
YD/T 3230-2017 Common technical requirements and test methods for digital mobile telecommunication terminal
3GPP TS 36.521-1 (16.6.0) Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) conformance specification; Radio transmission and reception; Part 1: Conformance testing
3GPP TS 38.101-1 (15.6.0) NR; User Equipment (UE) radio transmission and reception; Part 1: Range 1 Standalone
3GPP TS 38.101-1 (15.11.0) NR; User Equipment (UE) radio transmission and reception; Part 1: Range 1 Standalone
3GPP TS 38.101-3 (15.6.0) NR; User Equipment (UE) radio transmission and reception; Part 3: Range 1 and Range 2 Interworking operation with other radios
3GPP TS 38.133 NR; Requirements for support of radio resource management
3GPP TS 38.213 (15.6.0) NR; Physical layer procedures for control
3GPP TS 38.214 (15.6.0) NR; Physical layer procedures for data
3GPP TS 38.508-1 (16.0.0) 5GS; User Equipment (UE) conformance specification; Part 1: Common test environment
3GPP TS 38.508-1 (16.5.0) 5GS; User Equipment (UE) conformance specification; Part 1: Common test environment
3GPP TS 38.521-1 (16.0.0) NR: User Equipment (UE) conformance specification; Radio transmission and reception; Part 1: Range 1 Standalone
3GPP TS 38.521-1 (16.5.0) NR: User Equipment (UE) conformance specification; Radio transmission and reception; Part 1: Range 1 Standalone
3GPP TS 38.521-3 (16.0.0) NR; User Equipment (UE) conformance specification; Radio transmission and reception; Part 3: Range 1 and Range 2 Interworking operation with other radios
3GPP TS 38.523-3 (16.0.0) 5GS; User Equipment (UE) conformance specification; Part 3: Protocol test suites
3GPP TS 38.533 (16.0.0) NR; User Equipment (UE) conformance specification; Radio Resource Management (RRM)
3 Abbreviations
For the purposes of this document, the following symbols and abbreviated terms apply.
5G-GUTI 5G globally unique temporary identity
ACK Acknowledgment
AM Acknowledgment Mode
AMC Adaptive Modulation and Coding
ARQ Automatic Repeat-reQuest
BCCH Broadcast Control CHannel
BCH Broadcast CHannel
BPSK Binary Phase Shift Keying
CCCH Common Control CHannel
CP Cyclic Prefix
CQI Channel Quality Indicator
CRC Cyclic Redundancy Check
CSI Channel State Information
DCCH Dedicated Control Channel
DCI Downlink Control Information
DFT-S-OFDM Discrete Fourier Transform-Spread OFDM
DL Downlink
DL-SCH Downlink Shared Channel
DRX Discontinuous Reception
DTX Discontinuous Transmission
eNodeB (eNB) Evolved NodeB
EPC Evolved Packet Core network
HARQ Hybrid Automatic Repeat-reQuest
IPv4 Internet Protocol Version 4
IPv6 Internet Protocol Version 6
LTE Long Term Evolution
MAC Media Access Control
MCS Modulation and Coding Scheme
MCG Master Cell group
MIB Master Information Block
MIMO Multiple Input Multiple Output
NACK Negative Acknowledgment
PBCH Physical Broadcast Channel
PCCH Paging Control Channel
PCH Paging Channel
PDCCH Physical Downlink Control Channel
PDCP Packet Data Convergence Protocol
PDSCH Physical Downlink Shared Channel
PDU Packet Data Unit
PDN Public Data Network
PRACH Physical Random Access Channel
PRB Physical Resource Block
PUCCH Physical Uplink Control Channel
PUSCH Physical Uplink Shared Channel
RB Radio Bearer
RLC Radio Link Control
RRC Radio Resource Control
RS Reference Signal
RSRP RS Received Power
RSRQ RS Received Quality
SCG Secondary Cell group
SCH Synchronization Channel
SDU Service Data Unit
SIB System Information Block
SRS Sounding Reference Signal
SSS Secondary Synchronization Signal
SUCI Subscription Concealed Identifier
SUPI Subscription Permanent Identifier
TA Timing Advance
TAI Tracking area indicator
TDD TimeDivision Duplex
TM Transparent Mode
TPC Transmit Power Control
TT Test Tolerance
UCI Uplink Control Information
UDP User Datagram Protocol
UE User Equipment
UICC Universal integrated circuit card
UL Uplink
UL-SCH Uplink Shared Channel
UM Un-acknowledgment Mode
USIM Universal subscriber identity module
4 Test environment
4.1 Test environment for services and functions
The network test environment for basic service and function tests is shown in Figure 1, which is a real 5G network or an analog network with the same structure, consisting of a full set of 5G radio access network subsystems and core network subsystems.
Temperature: 15℃~35℃.
Relative humidity: 20%~75%.
Voltage: Nominal value given by the manufacturer.
Vibration: Negligible.
Figure 1 Reference test environment for service and function tests
4.2 RF test environment and radio resource management test environment
The reference test environment is shown in Figure 2.
Normal temperature: 15℃~35℃.
Limit temperature: -10℃ for low temperature and 55℃ for high temperature.
Relative humidity: 25%~75%.
Voltage: Nominal value given by the manufacturer.
Instrument description: Mainly including radio integrated tester (or system simulator), fading channel simulator (or generate faded signals from both baseband IQ ways and send them to integrated tester or simulator, and then send the faded signals from the output). The radio integrated tester mainly simulates base station equipment, communicates with the UE, and measures the related indexes. The fading simulator mainly simulates various multi-path fading modes on the channel.
Figure 2 RF test environment and radio resource management test environment
4.3 Protocol test environment
Temperature: 15℃~35℃.
Relative humidity: 25%~75%.
Voltage: Nominal value given by the manufacturer.
4.4 Network compatibility test environment
The test environment for the network compatibility may be either a commercial network test environment or a laboratory test environment, either of which can be chosen if not specified.
When testing in the commercial network environment, the operational security of the commercial network and the compatibility and interworking between the UE and the devices from different manufacturers shall be considered. At the same time, test in a commercial environment shall not affect the normal use of other users' services in the existing commercial network. Unless otherwise specified, network compatibility test shall be conducted in areas with good wireless signal coverage.
The test items for network parameter adjustment and special configuration shall be carried out in a laboratory test environment. The requirements for the laboratory test environment are the same as those given in 4.3.
5 Basic functions and services
5.1 General
According to the basic attributes and provision methods, services may be classified into basic services and supplementary services as follows:
——Voice service: It is a service form that carries users' voice elements and meets users' real-time voice communication needs.
——Mobile message service: It is a service form that carries users' small text packets and meets users' needs for information exchange of small data volume.
——Mobile bearer service and mobile data service on it: It is a service form that carries users' data elements and meets users' needs for real-time and non-real-time data information exchange. It also includes rich high-level applications derived from diversified high-level control and organization based on mobile data bearer service.
——Mobile supplementary service: It is a service form based on basic services such as voice, adding user's service data and service features, and completing special call control for users through special control on the network side.
Basic functions include ON/OFF, lock screen protection, dual-tone multi-frequency (DTMF), operator network selection, and information display.
5.2 Basic services
5.2.1 Data service offload in NSA Mode
5.2.1.1 Test purpose for NSA uplink service offload
The NSA UEs supporting NSA uplink service offload shall have the capability of transmitting uplink data services through the MCG and SCG at the same time, and the supported transmission capability is normal and effective, and the data services of both MCG and SCG are normal.
5.2.1.2 Test method for NSA uplink service offload
The test method for NSA uplink service offload is as follows.
a) Test steps:
1) The UE is powered on and connected to the NSA network to establish a dual connection;
2) The UE carries out uplink UDP data service through the packet filling server;
3) The network side can receive fully scheduled uplink continuous data at the MAC layers of the MCG and SCG respectively, and only the PDCP layer of the SCG side has uplink continuous data, and the volume of SCGPDCP data is slightly less than the sum of that of MCGMAC data and SCGMAC data.
b) Intended results: The UE shall be able to support the uplink data service offload in the NSA mode, and shall have the capability to correctly transmit the uplink data services through the MCG and the SCG in parallel simultaneously.
5.2.1.3 Test purpose for NSA downlink service offload
The NSA UEs supporting NSA downlink service offload shall have the capability of transmitting downlink data services through the MCG and SCG at the same time, the supported transmission capability is normal and effective, and the data services of both MCG and SCG are normal.
5.2.1.4 Test method for NSA downlink service offload
The test method for NSA downlink service offload is as follows.
a) Test steps:
1) The UE is powered on and connected to the NSA network to establish a dual connection;
2) The UE carries out downlink UDP data service through the packet filling server;
3) The UE can receive fully scheduled downlink continuous data at the MAC layers of the MCG and SCG respectively, only the PDCP layer of the SCG side has downlink continuous data, and the volume of SCGPDCP data is slightly less than the sum of that of MCGMAC data and SCGMAC data.
b) Intended results: The UE shall be able to support the downlink data service offload in the NSA mode, and shall have the capability to correctly receive and demodulate downlink data services through the MCG and SCG in parallel simultaneously and merge them for processing.
5.2.2 5G identity display
5.2.2.1 Test purpose for 5G identity in SA/NSA mode
For the UEs supporting NSA, the 5G identity shall be displayed correctly in various scenarios.
5.2.2.2 Test method for 5G identity when the UE in NSA mode is in idle state
When an UE in NSA mode is in the idle state, if the UE displays 5G in the idle state, the test method for 5G identity is as follows.
a) Test steps:
1) The upperLayerIndication is configured in sib2 of the eNodeB to indicate that the eNodeB supports the addition of NSA NR link, the UE is in the idle state when being powered on and connected to the LTE network, at which time 5G is displayed;
2) The upperLayerIndication is configured in sib2 of the eNodeB to indicate that the eNodeB does not support the addition of NSA NR link, the UE is in the idle state when being powered on and connected to the LTE network, at which time 5G is not displayed;
b) Intended results: The UE in NSA mode in the idle state shall be able to correctly parse the configuration information of upperLayerIndication in sib2 of the eNodeB, and shall also be able to display 5G identity according to parsed content.
5.2.2.3 Test method for 5G identity when the UE in NSA mode is in connected state
The test method for 5G identity when the UE in NSA mode is in connected state is as follows:
a) Test steps:
1) The upperLayerIndication is configured in sib2 of the eNodeB to indicate that the eNodeB supports the addition of NSA NR link, the UE is in the connected state when being powered on and establishing dual connection of MCG and SCG in NSA mode, at which time 5G is displayed;
2) The upperLayerIndication is configured in sib2 of the eNodeB to indicate that the eNodeB supports the addition of NSA NR link, the UE is powered on and tries to establish dual connection of MCG and SCG in NSA mode, the SCGSSB signal strength is reduced so that the UE is unable to measure the SCG signal, the bearing is then reconfigured and dual connection released and the UE returns to the LTE in the LTE connected state, at which time 5G is not displayed.
b) Intended results: The UE shall be able to distinguish according to the actual establishment of dual connection in NSA mode and display 5G identity according to the actual situation.
5.2.3 Mobile data service
5.2.3.1 Test purpose for mobile data service
The UEs supporting mobile data services shall be able to provide data upload and download operations, and the cell phone type UEs supporting mobile data services shall be able to support the disabling and enabling of data services.
5.2.3.2 Test method for mobile data service
The test method for mobile data service is as follows:
a) Test steps:
1) The UE is powered on and the subscriber identity module is activated;
2) For UEs with data switch function, the data connection switch is turned on;
3) The UE is operated to establish a data connection. For UEs that do not support the human-machine interface, the data connection can be established by means of AT command;
4) Perform data upload and download;
5) For UEs with data switch function, the data connection switch is closed;
6) Try to upload and download data.
b) Intended results:
1) For step 4), the UE shall be able to upload and download data normally;
2) For step 6),the UE cannot upload and download data.
5.3 Basic functions
5.3.1 On/off function
5.3.1.1 Test purpose
The cell phone type UEs shall be equipped with a power switch and be able to normally carry out on and off operations. Other types of UEs may also have the on/off function.
5.3.1.2 Test method
The test method for on/off function is as follows:
a) Test steps:
1) The UE is powered on and the subscriber identity module is activated;
2) The power supply of the UE under test is turned off.
b) Intended results: The UE shall be able to turn on and off normally.
5.3.2 Operator network selection function
5.3.2.1 Test purpose
For the UEs, the selection and registration of operator network shall be completed by automatic network selection or manual network selection.
5.3.2.2 Test method
The test method for operator network selection function is as follows:
a) Test steps:
1) The UE is powered on and the subscriber identity module is activated;
2) If the UE supports the manual network selection mode, the manual network selection is carried out, and a network is selected from the searched network list through the menu.
b) Intended results:
1) For step 1), the user is successfully registered to the operator network;
2) For step 2), the UE shall display the identities of all operators covering its location.
5.3.3 Dual-tone multi-frequency function
5.3.3.1 Test purpose
The UEs supporting voice services and having keyboard function shall support the dual-tone multi-frequency (DTMF) function.
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5.3.3.2 Test method
The test method for the DTMF function is as follows:
a) Test steps:
1) The UE is powered on and the subscriber identity module is activated;
2) Use the UE under test to call a switchboard adopting two-stage dialing, and then enter the extension number according to the voice prompt after getting through.
b) Intended results: The voice service between the UE under test and the extension is normally connected.
5.3.4 Information display function
5.3.4.1 Display of calling/called information
5.3.4.1.1 Test purpose
The UEs supporting voice services and having screen display shall correctly display the identification information corresponding to the calling/called number.
5.3.4.1.2 Test method
The test method for the display of calling/called information is as follows:
a) Test steps:
1) The UE is powered on and the subscriber identity module is activated;
2) Store any valid telephone number in the phonebook of the UE under test, and enter the identification information corresponding to the number;
3) Enter the telephone number stored in step 2) and initiate a call.
4) Hang up the UE;
5) Enter a telephone number other than the one stored in step 2) and initiate a call;
6) Hang up the UE;
7) Initiate a call to the UE under test by a mobile UE with the telephone number stored in step 2);
8) Hang up the UE;
9) Initiate a call to the UE under test by a mobile UE with a telephone number other than the one stored in step 2);
10) Hang up the UE;
11) Send a piece of SMS to the UE under test using a non-local number.
b) Intended results:
1) For step 2), the telephone number and its corresponding identification information shall be stored correctly and effectively;
2) For steps 3) and 5), the UE under test shall correctly display the called number or corresponding identification information as well as the call time and call duration;
3) For steps 7) and 9), the UE under test shall correctly display the calling number or corresponding identification information as well as the call time and call duration;
4) For step 11), the UE under test shall display the received short message by icon or other means.
5.3.4.2 Data connection display
5.3.4.2.1 Test purpose
The UEs support mobile data services and screen display shall be able to give the corresponding data connection display, such as symbols or graphics, according to the data connection state. Users can know the current state of connection according to the corresponding data connection display.
5.3.4.2.2 Test method
The test method for data connection prompt is as follows:
a) Test steps:
1) The UE is powered on and the subscriber identity module is activated;
2) Establish a data connection using the UE;
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3) Check the information displayed on the human-machine interface of the UE while the data connection is in progress.
b) Intended results: The UE shall be able to display the corresponding data connection according to the connection state, such as a symbolic or graphical display.
5.3.4.3 Chinese display and input function
5.3.4.3.1 Test purpose
The UEs with screen display shall support simplified Chinese display, and the preset menu information shall support simplified Chinese. The UEs supporting both screen display and keyboard shall correctly provide input methods for simplified Chinese, letters, numbers and punctuations and be able to accept input correctly.
5.3.4.3.2 Test method
The test method for Chinese display and input function is as follows:
a) Test steps:
1) The UE is powered on and activates the subscriber identity module to enter the standby state;
2) Set the UE under test to the Chinese display/edit mode through the function menu;
3) Select simplified Chinese, letters, numbers and punctuations respectively, and input accordingly.
b) Intended results: The UE shall support simplified Chinese display and the preset menu information shall support simplified Chinese; the UE shall correctly provide input methods for simplified Chinese, letters, numbers and punctuations and be able to accept input correctly.
5.3.4.4 Display of signal strength, network information and operator
5.3.4.4.1 Test purpose
The mobile UEs with screen display shall display the information of received signal strength and the identification information of the operator and its network, and the operator information shall meet the requirements of the Regulation of the People's Republic of China on Telecommunications.
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5.3.4.4.2 Test method
The test method for the display of signal strength, network information and operator is as follows:
a) Test steps:
1) The UE is powered on and activates the subscriber identity module to enter the standby state;
2) Check whether there is signal strength indication on the standby interface;
3) Check the identification information of the operator and its network in the standby state of the mobile UE.
b) Intended results:
1) For step 2), the UE displays the received signal strength;
2) For step 3), the UE shall be able to correctly display the identification information of the operator and its network.
5.3.4.5 Display of battery and charging information
5.3.4.5.1 Test purpose
The UEs with rechargeable battery and screen display shall support the battery capacity and charging information display function, and shall give an alarm prompt when the battery capacity is insufficient. The battery capacity indication shall change with the trend of battery power. The battery shall be able to be charged in both on and off states of the UE, and the UE shall have the indication that the battery is being charged during the charging process.
5.3.4.5.2 Test method
The test method for the display of battery and charging information is as follows:
a) Test steps:
1) The UE is powered on and the subscriber identity module is activated;
2) Check the information on the human-machine interface;
3) Assemble the UE with a battery with insufficient power, check the screen and pay attention to whether the UE gives alarm prompt in the standby and call states;
4) Charge the battery with the special charger or power adapter in both off and standby states of the UE to check the information displayed on screen.
b) Intended results:
1) For step 2), the UE's screen displays the capacity of the battery it uses;
2) For step 3), the UE gives an alarm prompt in both the standby and call states;
3) For step 4), the UE's screen displays the prompt information that the battery is being charged.
5.3.5 Test for SRS Switching function
5.3.5.1 Test for SRS Switching function in NSA mode
5.3.5.1.1 Test purpose
Ensure that the SRS Switching function shall be available in NSA mode, but not applicable to band n28.
5.3.5.1.2 Test method
a) Test steps:
1) The UE is connected to the test instrument by means of direct RF connection, as shown in Figure 2;
2) The UE is powered on, and it completes the ENDC dual connection after the LTE is attached, and then resides in both LTE and NR cells.
b) Intended results:
1) Check the supportedSRS-TxPortSwitchIE of the MRDC capability reporting message of the UE on the instrument side, which will report 1T2R or 1T4R capability;
2) Check the NR cell configuration message sent by the network side, and there will be 2R or 4R capability resource configuration information reported by the corresponding UE under the SRS-ResourceSetIE, and the usage value under the resourceType is 3 (antenna switching), indicating antenna rounding;
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Foreword III
1 Scope
2 Normative references
3 Abbreviations
4 Test environment
4.1 Test environment for services and functions
4.2 RF test environment and radio resource management test environment
4.3 Protocol test environment
4.4 Network compatibility test environment
5 Basic functions and services
5.1 General
5.2 Basic services
5.3 Basic functions
5.4 Test for IPv4 and IPv
6 RF performance test
6.1 Characteristics of SA transmitter
6.2 Characteristics of SA Rx
6.4 EN-DC receiver characteristics
6.5 UL-MIMO transmitter characteristics
6.6 UL-MIMO receiver characteristics
7 Radio resource management conformance test
7.1 EN-DC
7.2 SA
8 Protocol conformance test
8.1 Idle mode operations
8.2 Layer
8.3 RRC layer
8.4 Mobility management
8.5 Session management
9 Network compatibility test
9.1 SA mode
9.2 NSA mode
10 Conformance test of machine-card interface
10.1 The UE uses an empty scheme to calculate SUCI
10.2 The UE uses profile B to calculate SUCI
10.3 SUCI identifies the UE - USIM uses profile B to calculate SUCI during initial registration
10.4 The UE uses SUCI to respond to "identity request" information
10.5 The UE uses SUCI to respond to the "IDENTITY REQUEST" message, and T3519 timer expires
10.6 The UE uses SUCI to respond to the "IDENTITY REQUEST" message, and the authentication is rejected
10.7 The UE uses an empty scheme for SUCI calculation - the parameters supported by the subscription identifier privacy in the SIM are missing
10.8 The UE uses 5G-GUTI for authentication - the last registered TAI exists on the USIM
10.9 The UE uses 5G-GUTI for authentication - the last registered TAI exists on the UE
10.10 UE identity authentication, with SUPI changes
10.11 The UE uses profile A to calculate SUCI
10.12 Electrical properties
10.13 Logical characteristics
5G數字蜂窩移動通信網增強移動寬帶 終端設備測試方法(第一階段)
1范圍
本標準規定了6GHz以下頻段5G增強移動寬帶終端設備的基本功能、射頻性能、無線資源性能、協 議一致性等方面的測試方法。
本標準適用于支持增強移動寬帶場景(eMBB)的6GHz以下頻段的5G終端,面向非獨立組網
(Non-StandAlone)和獨立組網(StandAlone)。
2規范性引用文件
下列文件對于本文件的應用是必不可少的。凡是注日期的引用文件,僅注日期的版本適用于本文件。 凡是不注日期的引用文件,其最新版本(包括所有的修改單)適用于本文件。
YD/T 1763.1-2011 TD-SCDMA/WCDMA數字蜂窩移動通信網通用集成電路卡(UICC)與終端間Cu 接口測試方法第1部分:物理、電氣和邏輯特性
YD/T 3230-2017數字移動通信終端通用技術要求和測試方法
3GPP TS 36.521-1 (16.6.0)演進型通用陸地無線接入終端一致性:發射和接收(Evolved Universal Terrestrial Radio Access (E-UTRA) ; User Equipment (UE) conformance specification; Radio transmission and reception; Part 1: Confbnnance testing)
3GPP TS 38.101-1 (15.6.0)終端無線發射和接收;部分1 :范圍1獨立組網(NR; User Equipment(UE) radio transmission and reception; Part 1: Range 1 Standalone)
3GPP TS 38.101-1 (15.11.0)終端無線發射和接收;部分1:范圍1獨立組網(NR; User Equipment (UE) radio transmission and reception; Part 1: Range 1 Standalone)
3GPP TS 38.101-3(15.6.0)終端無線發射和接收;部分3:范圍1和范圍2與其他無線電的互操作(NR; User Equipment CUE) radio transmission and reception; Part 3: Range 1 and Range 2 Interworking operation with other radios)
3GPP TS 38.133 NR無線資源管理(NR; Requirements for support of radio resource management)
3GPP TS 38.213 (15.6.0) NR物理層過程控制(NR; Physical layer procedures for control
3GPP TS 38.214 (15.6.0) NR數據的物理層過程(NR; Physical layer procedures for data)
3GPP TS 38.508-1 (16.0.0)5GS終端一致性;部分 1 :測試環境(5GS; User Equipment(UE)confonnance specification; Part 1: Common test environment)
3GPP TS 38.508-1( 16.5.0)5GS終端一致性;部分 1:測試環境(5GS; User Equipment(UE)conformance
specification; Part 1: Common test environment)
3GPP TS 38.521-1 (16.0.0)終端一致性;無線發射接收;范圍1獨立組網(NR:User Equipment (UE) conformance specification; Radio transmission and reception Part 1: Range 1 Standalone)
3GPP TS 38.521-1 (16.5.0)終端一致性;無線發射接收;范圍1獨立組網(NR:User Equipment (UE) conformance specification; Radio transmission and reception Part 1: Range 1 Standalone)
3GPP TS 38.521-3 (16.0.0)終端一致性;無線發射接收;部分3:范圍1和范圍2與其他無線電的互 操作(NR;User Equipment (UE) conformance specification;Radio transmission and reception;Part 3: Range 1 and Range 2 Interworking operation with other radios)
3GPP TS 38.523-3 (16.0.0) 5GS終端一致性;部分3:協議測試套(5GS; User Equipment (UE) confonnance specification; Part 3: Protocol Test Suites)
3GPP TS 38.533 (16.0.0) NR終端無線發射和接收;無線資源管理(NR; User Equipment (UE) confonnance specification; Radio Resource Management (RRM)")
3縮略語
下列符號和縮略語適用于本文件。
5G-GUTI 5G全球唯一臨時標識 5G globally unique temporary identity
ACK 肯定確認 Acknowledgement
AM 確認模式 Acknowledgement Mode
AMC 自適應調制和編碼 Adaptive Modulation and Coding
ARQ 自動重傳請求 Automatic Repeat-reQuest
BCCH 廣播控制信道 Broadcast Control CHannel
BCH 廣播信道 Broadcast CHannel
BPSK 二相相移鍵控 Binary Phase Shift Keying
CCCH 公共控制信道 Common Control CHannel
CP 循環前綴 Cyclic Prefix
CQI 信道質量指示 Channel Quality Indicator
CRC 循環冗余校驗 Cyclic Redundancy Check
CSI 信道狀態信息 Channel State Information
DCCH 專用控制信道 Dedicated Control Channel
DCI 下行控制信息 Downlink Control Information
DFT-S-OFDM DFT 擴展 OFDM Discrete Fourier Transform-Spread OFDM
DL 下行 Downlink
DL-SCH 下行共享信道 Downlink Shared Channel
DRX 不連續接收 Discontinuous Reception
DTX 不連續發送 Discontinuous Transmission
eNodeB (eNB) LTE基站 Evolved NodeB
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EPC 演進型分組核心網 Evolved Packet Core network
HARQ 混合自動重傳請求 Hybrid Automatic Repeat-reQuest
IPv4 互聯網協議第4版 Internet Protocol Version 4
IPv6 互聯網協議第6版 Internet Protocol Version 6
LTE 長期演進 Long Term Evolution
MAC 媒體接入控制 Media Access Control
MCS 調制編碼方式 Modulation and Coding Scheme
MCG 主小區組 Master Cell group
MIB 主信息塊 Master Infbnnation Block
MIMO 多入多出 Multiple Input Multiple Output
NACK 否定確認 Negative Acknowledgement
PBCH 物理廣播信道 Physical Broadcast Channel
PCCH 尋呼控制信道 Paging Control Channel
PCH 尋呼信道 Paging Channel
PDCCH 物理下行控制信道 Physical Downlink Control Channel
PDCP 分組數據匯聚協議 Packet Data Convergence Protocol
PDSCH 物理下行共享信道 Physical Downlink Shared Channel
PDU 分組數據單元 Packet Data Unit
PDN 公用數據網 Public Data Network
PRACH 物理隨機接入信道 Physical Random Access Channel
PRB 物理資源塊 Physical Resource Block
PUCCH 物理上行控制信道 Physical Uplink Control Channel
PUSCH 物理上行共享信道 Physical Uplink Shared Channel
RB 無線承載 Radio Bearer
RLC 無線鏈路控制 Radio Link Control
RRC 無線資源控制 Radio Resource Control
RS 參考信號 Reference Signal
RSRP RS接收功率 RS Received Power
RSRQ RS接收質量 RS Received Quality
SCG 輔小區組 Secondary Cell group
SCH 同步信道 Synchronization Channel
SDU 業務數據單元 Service Data Unit
SIB 系統信息塊 System Information Block
SRS 信道探測參考信號 Sounding Reference Signal
SSS 輔同步信號 Secondary Synchronization Signal
SUCI 用戶隱藏標識符 Subscription Concealed Identifier
?
SUPI 用戶永久標識符 Subscription Permanent Identifier
TA 時間提前量 Timing Advance
TAI 跟蹤區標識 Tracking area indicator
TDD 時分雙工 TimeDivision Duplex
TM 透明模式 Transparent Mode
TPC 發送功率控制 Transmit Power Control
TT 測試容限 Test Tolerance
UCI 上行控制信息 Uplink Control Information
UDP 用戶數據報協議 User Datagram Protocol
UE 用戶設備 User Equipment
UICC 通用集成電路卡 Universal integrated circuit card
UL 上行 Uplink
UL-SCH 上行共享信道 Uplink Shared Channel
UM 非確認模式 Un-acknowledgement Mode
USIM 通用用戶身份識別模塊 Universal subscriber identity module
4測試環境
4.1業務和功能測試環境
基本業務功能測試的網絡測試環境如圖1所示,它是一個真實的5G網絡或具有相同結構的模擬網,
包含一個全套的5G無線接入網絡子系統和核心網子系統。 溫度:15。。?35。(3。
相對濕度:20%?75%。
電壓:廠商給出的標稱值。
振動:可忽略。
5GC
(a) SA Option2
圖1業務和功能測試參考測試環境
4.2射頻測試環境和無線資源管理測試環境
參考測試環境如圖2所示。
正常溫度:15°C-35°Co
極限溫度:低溫是-10°C,高溫是55°Co
相對濕度:25%?75%。
電壓:廠商給出的標稱值。
儀表說明:主要測試儀表為無線綜合測試儀(或系統模擬器)、衰道模擬器(或從基帶IQ兩路產生 衰落信號送至綜合測試儀或模擬器,再從輸出端發送已經加衰落的信號)。上線綜合測試主要模擬基站 設備,與UE進行通信并測量相關指標。衰落模擬器主要模擬信道上各種多徑衰落模式。
無線綜合
測試儀或
系統模擬
器
圖2射頻測試環境和無線資源管理測試環境
4.3協議測試環境
溫度:15。(2 ?35。(3。
相對濕度:25%?75%。
電壓:廠商給出的標稱值。
4.4網絡兼容性測試環境
網絡兼容性部分的測試環境可為商用網絡測試環境或者實驗室測試環境,如無特殊說明,兩者 任選一種即可。
在商用網絡環境中進行測試時,應考慮商用網絡的運營安全以及終端與不同設備廠商設備的兼 容互通等情況。同時,商用環境中的測試不應當影響到現有商業網絡中其他用戶業務的正常使用。 如無特殊說明,網絡兼容性測試應善在無線信號覆蓋情況好的地區進行。
對于要進行網絡參數調整和特殊配置的測試項,應在實驗室測試環境進行。實驗室的測試環境 同4. 3的要求。
5基本功能和業務
5.1概述
按照業務基本屬性和提供方式,可以分為基本業務和補充業務,具體如下:
一 話音業務:是以承載用戶話音要素,滿足用戶實時語音交流需求的業務形式。
一移動消息業務:是以承載用戶文字類小數據包,滿足用戶小數據量信息交換需求的業務形式。
一 移動承載業務以及其上的移動數據業務:是以承載用戶數據要素,滿足用戶進行實時、非實時 數據信息交換需求的業務形式。同時也包括基于移動數據承載業務,通過多樣化的高層控制與
組織衍生出的豐富的高層應用。
一移動補充業務:是基于話音等基本業務,增加用戶業務數據和業務特征,通過網絡側的特殊控 制完成用戶特殊的呼叫控制類的業務形式。
基本功能包括如開關機、鎖屏保護、雙音多頻、運營商網絡選擇、信息顯示等。
5.2基本業務
5.2.1 NSA模式的數據業務分流
5.2.1.1 NSA上行業務分流測試目的
對于支持NSA上行業務分流的NSA終端應具備上行數據業務同時通過MCG和SCG進行傳輸的能力, 所支持的傳輸能力正常有效,MCG和SCG的數據業務均正常。
5.2.1.2 NSA上行業務分流測試方法
NSA上行業務分流測試方法如下=
a) 測試步驟:
1)終端開機并接入NSA網絡建立雙連接;
2 )終端通過灌包服務器進行上行UDP數據業務;
3)網絡側可以分別在MCG和SCG各自的MAC層收到滿調度的上行連續數據,且僅SCG 側的PDCP層有上行連續數據,SCGPDCP數據量略小于MCGMAC數據量SCGMAC數 據量。
b) 預期結果:終端應能在NSA模式支持上行數據業務分流,上行數據業務同時通過MCG和SCG 并行正確傳輸的能力。
5.2.1.3 NSA下行業務分流測試目的
對于支持NSA下行業務分流的NSA終端應具備下行數據業務同時通過MCG和SCG進行傳輸的能力, 所支持的傳輸能力正常有效,MCG和SCG的數據業務均正常。
5.2.1.4 NSA下行業務分流測試方法
NSA下行業務分流測試方法如下。
a) 測試步驟:
1)終端開機并接入NSA網絡建立雙連接;
2 )通過灌包服務器向終端進行下行UDP數據業務;
3)終端可以分別通過MCG和SCG各自的MAC層收到滿調度的下行連續數據,且僅SCG 側的PDCP層有下行連續數據,SCGPDCP數據量略小于MCGMAC數據量+SCGMAC數 據量。
b) 預期結果:終端應能在NSA模式支持下行數據業務分流,下行數據業務同時通過MCG和SCG 并行正確接收解調并合并處理的能力。
5.2.2 5G標識顯示
5.2.2.1 SA/NSA模式5G標識測試目的
對于支持NSA的終端在各種場景下的5G標識正確顯示。
5.2.2.2 NSA模式終端處于空閑態5G標識測試方法
NSA模式終端處于空閑態,如果終端在空閑態顯示5G,貝U5G標識測試方法如下。
a)測試步驟:
1) 將LTE基站sib2中配置upperLayerlndication表示LTE基站支持NSA NR鏈路的添加,終 端開機并接入LTE網絡處于idle態,此時顯示5G;
2) 將LTE基站sib2中配置upperLayerlndication表示LTE基站不支持NSA NR鏈路的添加, 終端開機并接入LTE網絡處于idle態,此時不顯示5G;
b)預期結果:終端應能在NSA模式空閑態時正確解析LTE基站sib2中upperLayerlndication 配置信息,并可以根據解析內容顯示5G標識的能力。
5.2.2.3 NSA模式終端處于連接態5G標識測試方法
NSA模式終端處于連接態5G標識測試方法如下:
a)測試步驟:
1) 將LTE基站sib2中配置upperLayerlndication表示LTE基站支持NSA NR鏈路的添加,終 端開機并在NSA模式下建立MCG和SCG的雙連接,處于連接態,此時顯示5G;
2) 將LTE基站sib2中配置upperLayerlndication表示LTE基站支持NSA NR鏈路的添加,終 端開機并在NSA模式下嘗試建立MCG和SCG的雙連接,降低SCGSSB信號強度,使終 端無法測量到SCG信號,承載重配,釋放雙連接,終端回到LTE,終端處于LTE連接態, 此時不顯示5Go
b)預期結果:終端應能在NSA模式根據實際雙連接建立情況進行區分并根據實際情況顯示 5G標識。
5.2.3移動數據業務
5.2.3.1移動數據業務測試目的
對于支持移動數據業務的終端應能提供數據上傳和數據下載操作,對于支持移動數據業務的手機類 型的終端應能支持數據業務的打開與關閉。
5.2.3.2移動數據業務測試方法
移動數據業務測試方法如下:
a)測試步驟:
1) 終端開機并激活用戶識別卡;
2) 對于具備數據開關功能的終端,打開數據連接開關;
3) 操作終端建立一個數據連接,對于不支持人機界面的終端,可通過AT命令的方式建立數 據連接;
4) 進行數據的上傳和下載;
5) 對于具備數據開關功能的終端,關閉數據連接開關;
6) 嘗試進行數據的上傳和下載。
b)預期結果:
1) 步驟4),終端應能正常實現數據的上傳和下載;
2) 步驟6),終端無法進行數據的上傳和下載。
5.3基本功能
5.3.1開、關機功能
5.3.1.1測試目的
對于手機類型的終端應具備電源開關,并且能夠正常進行開、關機操作。對于其他類型的終端,也 可具備開、關機功能。
5.3.1.2測試方法
開、關機功能測試方法如下:
a) 測試步驟:
1) 終端開機并激活用戶識別卡;
2) 關閉被測終端電源。
b) 預期結果:終端應能正常開、關機。
5.3.2運營商網絡選擇功能
5.3.2.1測試目的
對于終端,應通過自動選網或手動選網的方式完成對運營商網絡的選擇和注冊。
5.3.2.2測試方法
運營商網絡選擇功能測試方法如下:
a) 測試步驟:
1) 終端開機并激活用戶識別卡;
2) 如終端支持手動選網方式,則進行手動網絡選擇,嘗試通過菜單在搜索的網絡列表中選擇 一個網絡。
b) 預期結果:
1) 步驟1),用戶成功注冊到運營商網絡;
2) 步驟2),終端應顯示覆蓋其所處位置所有的運營者標識,終端應嘗試在用戶選擇的網絡 中進行注冊。
5.3.3雙音多頻功能
5.3.3.1測試目的
對于支持話音業務且具有鍵盤功能的終端,應支持雙音多頻(DTMF)功能。
5.3.3.2測試方法
雙音多頻功能測試方法如下:
a) 測試步驟:
1) 終端開機并激活用戶識別卡;
2) 使用被測終端撥叫一個采用二次撥號的總機,撥通后根據語音提示鍵入分機號碼。
b) 預期結果:被測終端與分機之間的話音業務正常接通。
5.3.4信息顯示功能
5.3.4.1主/被叫信息顯示
5.3.4.1.1測試目的
對于支持話音業務且具有屏幕顯示的終端應正確顯示主叫號碼和被叫號碼對應的標識信息。
5.3.4.1.2測試方法
主/被叫信息顯示測試方法如下:
a) 測試步驟:
1) 終端開機并激活用戶識別卡;
2) 在被測終端的電話簿中存儲任意有效電話號碼,并輸入該號碼對應的標識信息;
3) 輸入步驟2)中已存儲的電話號碼,并發起呼叫;
4) 終端掛機;
5) 輸入非步驟2)中已存儲的電話號碼,并發起呼叫;
6) 終端掛機;
7) 使用步驟2)中已存儲電話號碼的移動終端向被測終端發起呼叫;
8) 終端掛機;
9) 使用非步驟2)中已存儲電話號碼的移動終端向被測終端發起呼叫;
10) 終端掛機;
11) 使用非本機號碼向被測終端發送短消息。
b) 預期結果:
1) 步驟2),電話號碼及其對應標識信息的存儲正確有效;
2) 步驟3)和步驟5),被測終端均應正確顯示被叫號碼或對應的標識信息,且應顯示呼叫 時間及通話時長;
3) 步驟7)和步驟9),被測終端均應正確顯示主叫號碼或對應的標識信息,且應顯示呼叫 時間及通話時長。
4) 步驟11),被測終端應以圖標或其他方式顯示接收到短消息。
