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YD/T 1763.1-2011 (YD/T1763.1-2011)

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YD/T 1763.1-2011English370 Add to Cart 0--3 minutes. Auto-delivery. TD-SCDMA/WCDMA digital cellular mobile telecommunication network test methods for UICC-ME(Cu)interface. Part 1: physical, electrical and logical characteristics of ME Valid


YD/T 1763.1-2011: PDF in English (YDT 1763.1-2011)
YD/T 1763.1-2011
YD
COMMUNICATION INDUSTRY STANDARD
OF THE PEOPLE’S REPUBLIC OF CHINA
ICS 33.060
M 36
Replacing YD/T 1763.1-2008
TD-SCDMA / WCDMA digital cellular mobile
telecommunication network test methods for UICC-ME (Cu)
interface - Part 1. Physical, electrical and logical
characteristics of ME
ISSUED ON. DECEMBER 20, 2011
IMPLEMENTED ON. FEBRUARY 1, 2012
Issued by. Ministry of Industry and Information Technology of the
People’s Republic of China.
3. No action is required - Full-copy of this standard will be automatically &
immediately delivered to your EMAIL address in 0~60 minutes.
Table of Contents
Foreword ... 3 
1 Scope ... 5 
2 Normative references ... 5 
3 Terms, definitions, symbols, abbreviations and protocols ... 6 
4 Physical property test ... 9 
5 Electrical characteristics test for the UICC-ME interface ... 11 
6 Initial communication test ... 28 
7 Transmission protocol test ... 43 
Annex A (Normative) Functional requirements for the UICC simulator ... 74 
Foreword
YD/T 1763 TD-SCDMA / WCDMA digital cellular mobile telecommunication
network test methods for UICC-ME (Cu) interface is divided into 4 parts.
a) Part 1. Physical, electrical and logical characteristics of ME;
b) Part 2. Application characteristics of USIM;
c) Part 3. USAT characteristics; and
d) Part 4. UICC supporting USIM application.
This Part is Part 1.
This Part shall be used in conjunction with the TD-SCDMA / WCDMA digital
cellular mobile telecommunication network technical requirements for UICC-
ME (Cu) interface - Part 1. Physical, electrical and logical characteristics.
This Part refers to ETSI TS 102 230 Smart cards; UICC-Terminal Interface;
Physical, electrical and logical test specification (V7.0.0).
This Part replaces YD/T 1763.1-2008 TD-SCDMA / WCDMA digital cellular
mobile telecommunication network test methods for USIM-ME (Cu) interface -
Part 1. Physical, electrical and logical characteristics. The major technical
changes are as follows.
— ADD the CDMA terminal using UICC in the Scope of Application (SEE 1);
— CHANGE USIM into UICC;
— DELETE the test requirements for Class A operating conditions (SEE
Sections 5.1.2, 5.1.3, 5.1.5.1, 5.1.5.2, 5.1.5.5 and 5.2 in 2008 edition);
— ADD the test carried out when the terminal supports the maximum current
consumption applied to the UICC (SEE Section 5.2.2.3);
— ADD the rate enhancement test during F = 512 and D = 32 (SEE Section
6.4); and
— DELETE the test independent of application (SEE Chapter 8 in 2008
edition).
This Part was proposed by and shall be under the jurisdiction of the China
Communications Standards Association.
Drafting organizations of this Part. China Academy of Telecommunication
Research of MIIT, China Mobile Communications Corporation, Datang Telecom
Technology & Industry Group, and ZTE Corporation.
TD-SCDMA / WCDMA digital cellular mobile
telecommunication network test methods for UICC-ME
(Cu) interface - Part 1. Physical, electrical and logical
characteristics of ME
1 Scope
This Part specifies the test methods and expected results for the physical,
electrical and logical characteristics of the UICC-ME (Cu) interface of TD-
SCDMA / WCDMA digital cellular mobile telecommunication network. The
specific test contents include the physical property test for Cu interface,
electrical property test for Cu interface, test for initial communication
establishment, transmission protocol test, and test for the program independent
of the application, etc.
This Part is applicable to the test for the UICC-ME (Cu) interface of TD-
SCDMA mobile telecommunication network, and is also applicable to the test
for the UICC-ME (Cu) interface of WCDMA digital cellular mobile
telecommunication network. The CDMA mobile telecommunication terminal
using UICC can also use this Part for reference.
2 Normative references
The following documents are essential to the application of this document. For
dated references, only the editions with the dates indicated are applicable to
this document. For undated references, only the latest editions (including all the
amendments) are applicable to this document.
YD/T 1762.1-2011 TD-SCDMA / WCDMA digital cellular mobile
telecommunication network technical requirements for UICC-ME (Cu)
interface - Part 1. Physical, electrical and logical characteristics
ISO / IEC 7816-3 (1997). Identification cards - Integrated circuit(s) cards with
contacts - Part 3. Electronic signals and transmission protocols
3 Terms, definitions, symbols, abbreviations and
protocols
3.1 Terms and definitions
The following terms and definitions are applicable to this document.
3.1.1 3V technology smart card
It refers to the smart card operating at voltages of 3V ± 10% and 5V ± 10%.
3.1.2 1.8V technology smart card
It refers to the smart card operating at voltages of 1.8V ± 10% and 3V ± 10%.
3.1.3 3V technology terminal
It refers to the smart card operating at voltages of 3V ± 10% and 5V ± 10%.
3.1.4 1.8V technology terminal
It refers to the terminal operating the smart card - terminal Cu interface at
voltages of 1.8V ± 10% and 3V ± 10%.
3.1.5 Elementary file (EF)
It refers to the file containing access conditions and data only.
3.1.6 File
It refers to a set of ordered bytes or records in UICC.
3.1.7 Command data length (Lc)
It refers to the length of the command data sent by the application layer, when
processing the command in cases 3 and 4 using the T = 0 protocol.
3.1.8 Maximum length of response data (Le)
It refers to the maximum length of the response data expected by the
application layer, when processing the command in cases 2 and 4 using the T
= 0 protocol.
3.1.9 Length of the data sent from UICC to the terminal (Lr)
SFI Short (elementary) File Identifier
TE Terminal Equipment
TLV Tag Length Value
UE User Equipment
UICC Universal Integrated Circuit Card
USIM Universal Subscriber Identity Module
VCC power supply input
VPP programming power input, optional use by the card
WI Waiting time Integer
WTX Waiting Time eXtension
WWT Work Waiting Time
3.4 Protocols
The following coding protocols are applicable to this document.
Unless otherwise stated, all lengths are expressed in bytes. Each byte is
represented by bits b8 to b1, among which b8 is the MSB while b1 is the LSB.
The leftmost bit is the MSB in each representation.
In the UICC, all bytes designated as RFU shall be set to ‘00’, and all bits
designated as RFU shall be set to ‘0’. If there are GSM and / or USIM
applications in the UICC, or GSM and / or USIM applications on an ordinary
telecom card, other values may be used to apply for non-GSM or non-USIM
application. These values shall be defined in the corresponding specifications
for such cards and applications. In a GSM or 3G session, the terminal shall not
interpret these bytes and bits.
The data objects in this Part are coded in accordance with the provisions of
YD/T 1762.1-2011.
4 Physical property test
4.1 Contact pressure
4.1.1 Definition and scope of application
Test steps.
MEASURE the residual voltage of each contact.
5.1.1.5 Expected results
The relative GND for the residual voltage on each contact shall not exceed
±0.4V.
5.1.2 UICC state during power-up
5.1.2.1 Definition and scope of application
Each contact shall be activated in the prescribed order, so as to prevent
damage to the UICC during the activation of the user terminal or in the process
of UICC-ME interface activation after supply voltage conversion.
After the terminal analyzes the ATR and determines the voltage category of the
UICC, the terminal activates the UICC by deactivating the UICC and activating
the UICC with a new supply voltage. The 1.8V technology terminal converts
from 1.8V to 3V.
This test is applicable to. 1.8V technology terminals supporting Class B and
Class C operating conditions.
5.1.2.2 Conformity requirements
a) When the UE is soft-booted, the contacts of the UICC-ME interface shall be
activated to 1.8V mode in the following order.
1) VCC stabilizes at State H;
2) CLK is stable;
3) after the clock signal is applied to the CLK, RST is in State L for at least
400 clock cycles; and
4) after the clock signal is applied to the CLK, I/O is in State Z within 200
clock cycles.
b) After 1.8V / 3V conversion, the contacts of the UICC-ME interface shall be
activated to 3V mode in the order given in b-1).
SEE Section 4.4.2 of YD/T 1762.1-2011 for specific requirements.
5.1.2.3 Test purpose
VERIFY that the contacts at the UICC-ME interface meet the requirements of
Section 5.1.2.2 and are activated in a correct order.
5.1.2.4 Test method
4) VCC is deactivated.
If the clock stops and is not restarted, it is only necessary to ensure that all
signals reach the end level before VCC leaves the high level, and the
terminal is allowed to activate all contacts in any order.
b) When the UICC-ME interface is deac...
......
 
(Above excerpt was released on 2017-08-02, modified on 2021-06-07, translated/reviewed by: Wayne Zheng et al.)
Source: https://www.chinesestandard.net/PDF.aspx/YDT1763.1-2011