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27.10.4.1 Initial conditions
The SS transmits on the BCCH, with the following network parameters: Attach/detach: disabled. LAI (MCC/MNC/LAC): see table 27‑1. Access control: see table 27‑1. RACH: see table 27‑1. A SIM is installed in the ME containing IMSI and access control values as given in table 27‑1 and the MS is powered on. NOTE: Depending on the initial value of the EFLOCI, the MS may perform a location update. This will be accepted by the SS. Coding details SIM IMSI: Data Field 6F 07 Value 246813579 Value 2468135x9 byte 1 05H 05H byte 2 29H 29H byte 3 64H 64H byte 4 18H 18H byte 5 53H 53H byte 6 97H 9xH byte 7 FFH FFH byte 8 FFH FFH byte 9 FFH FFH Access class: Data field 6F 78 See 3GPP TS 11.11. NETWORK (SS) RACH: As defined in 3GPP TS 04.08 / 3GPP TS 44.018 subclause 10.5.2.29. octet 1 01111000 octet 2 00001000 octet 3 } octet 4 } as table 27‑1 Specific PICS Statements Speech supported for Full rate version 1 (TSPC_AddInfo_Full_rate_version_1)
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27.10.4.2 Procedure
a) Using the MMI or EMMI a normal call set-up is attempted. b) Using the MMI or EMMI an emergency call set-up is attempted. (Step ‘b’) is applicable if MS supports speech (TSPC_AddInfo_Full_rate_version_1) c) The test is repeated for each set of values in table 27‑1.
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27.10.5 Test requirement
After steps a) and b) the MS shall access the network, or shall make no access attempt, in accordance with table 27‑1. NOTE: For type approval, to limit testing, in tests (c, (d) and (e) it is only necessary that one of the access classes is tested. Table 27-1 IMSI Access class RACH BCCH/LAI Normal calls Emergency calls octet 3 MCC octet 4 MNC (see Note 0) TEST (a) No SIM in ME 00000100 234 No No 00000000 01 or 012 TEST (b) No SIM in ME 00000000 234 No Yes 00000000 01 or 012 TEST (c) 246813579 0 00000100 246 No No 00000001 81 or 813 246813579 1 00000100 246 No No 00000010 81 or 813 246813579 2 00000100 246 No No 00000100 81 or 813 246813579 3 00000100 246 No No 00001000 81 or 813 246813579 4 00000100 246 No No 00010000 81 or 813 246813579 5 00000100 246 No No 00100000 81 or 813 246813579 6 00000100 246 No No 01000000 81 or 813 246813579 7 00000100 246 No No 10000000 81 or 813 246813579 8 00000101 246 No No 00000000 81 or 813 246813579 9 00000110 246 No No 00000000 81 or 813 TEST (d) 246813579 0 00000000 246 No Yes 00000001 81 or 813 246813579 1 00000000 246 No Yes 00000010 81 or 813 246813579 2 00000000 246 No Yes 00000100 81 or 813 246813579 3 00000000 246 No Yes 00001000 81 or 813 246813579 4 00000000 246 No Yes 00010000 81 or 813 246813579 5 00000000 246 No Yes 00100000 81 or 813 246813579 6 00000000 246 No Yes 01000000 81 or 813 246813579 7 00000000 246 No Yes 10000000 81 or 813 246813579 8 00000001 246 No Yes 00000000 81 or 813 246813579 9 00000010 246 No Yes 00000000 81 or 813 TEST (e) 246813579 0 11111011 246 Yes Yes 11111110 81 or 813 246813579 1 11111011 246 Yes Yes 11111101 81 or 813 246813579 2 11111011 246 Yes Yes 11111011 81 or 813 246813579 3 11111011 246 Yes Yes 11110111 81 or 813 246813579 4 11111011 246 Yes Yes 11101111 81 or 813 246813579 5 11111011 246 Yes Yes 11011111 81 or 813 246813579 6 11111011 246 Yes Yes 10111111 81 or 813 246813579 7 11111011 246 Yes Yes 01111111 81 or 813 246813579 8 11111010 246 Yes Yes 11111111 81 or 813 246813579 9 11111001 246 Yes Yes 11111111 81 or 813 TEST (f) 2468135 x 9 11 & x 00000111 246 No No 11111111 82 or 824 2468135 x 9 11 & x 00000011 246 No Yes 11111111 82 or 824 2468135 x 9 11 & x 00000000 246 Yes Yes 00000000 82 or 824 Set "x" to an arbitrary value in the range 0 to 9 2468135 x 9 12 & x 00000111 234 No No 11111111 01 or 012 2468135 x 9 12 & x 00000011 234 No Yes 11111111 01 or 012 2468135 x 9 12 & x 00000000 234 Yes Yes 00000000 01 or 012 Set "x" to an arbitrary value in the range0 to 9 2468135 x 9 13 & x 00000111 234 No No 11111111 01 or 012 2468135 x 9 13 & x 00000011 234 No Yes 11111111 01 or 012 2468135 x 9 13 & x 00000000 234 Yes Yes 00000000 01 or 012 Set "x" to an arbitrary value in the range0 to 9 2468135 x 9 14 & x 00000111 234 No No 11111111 01 or 012 2468135 x 9 14 & x 00000011 234 No Yes 11111111 01 or 012 2468135 x 9 14 & x 00000000 234 Yes Yes 00000000 01 or 012 Set "x" to an arbitrary value in the range0 to 9 2468135 x 9 15 & x 00000111 246 No No 11111111 82 or 824 2468135 x 9 15 & x 00000011 246 No Yes 11111111 82 or 824 2468135 x 9 15 & x 00000000 246 Yes Yes 00000000 82 or 824 Set "x" to an arbitrary value in the range0 to 9 TEST (g) 246813579 11 & x 00001111 246 No No 11111111 81 or 813 246813579 11 & x 00001011 246 No Yes 11111111 81 or 813 246813579 12 & x 00010111 246 No No 11111111 82 or 824 246813579 12 & x 00010011 246 No Yes 11111111 82 or 824 246813579 13 & x 00100111 246 No No 11111111 82 or 824 246813579 13 & x 00100011 246 No Yes 11111111 82 or 824 246813579 14 & x 01000111 246 No No 11111111 82 or 824 246813579 14 & x 01000011 246 No Yes 11111111 82 or 824 246813579 15 & x 10000111 246 No No 11111111 81 or 813 246813579 15 & x 10000011 246 No Yes 11111111 81 or 813 Set "x" to an arbitrary value in the range 0 to 9 TEST (h) 246813579 11 & x 11110011 246 Yes Yes 11111111 81 or 813 246813579 12 & x 11101011 246 Yes Yes 11111111 82 or 824 246813579 13 & x 11011011 246 Yes Yes 11111111 82 or 824 246813579 14 & x 10111011 246 Yes Yes 11111111 82 or 824 246813579 15 & x 01111011 246 Yes Yes 11111111 81 or 813 246813579 11 & x 11110111 246 Yes Yes 11111111 81 or 813 246813579 12 & x 11101111 246 Yes Yes 11111111 82 or 824 246813579 13 & x 11011111 246 Yes Yes 11111111 82 or 824 246813579 14 & x 10111111 246 Yes Yes 11111111 82 or 824 246813579 15 & x 01111111 246 Yes Yes 11111111 81 or 813 Set "x" to an arbitrary value in the range 0 to 9 27.10a MS access control management for GPRS 27.10a.1 Definition Access Control allows restriction of access attempts. All mobile stations are assigned to a "low order class", and optionally (for priority uses) also to one or more "high order classes". A "high order class" is only valid in the Home PLMN or Home PLMN country. Otherwise, the "low order class" is used. The classes are programmed on the SIM. The network controls which classes at any time may be barred. 27.10a.2 Conformance requirement 1. The ME shall read the access control value as part of the SIM/ME initialization procedure, and subsequently adopt this value. 3GPP TS 11.11 / 3GPP TS 51.011, subclause 11.2.1. 2. If the MS is a member of at least one access class which corresponds to the permitted classes as signalled over the air interface, and the access class is applicable in the serving network, the MS may make access attempts. Otherwise access attempts are not allowed. All options are shown in the figure below table 27-1a and are referenced to the tests. 3GPP TS 02.11 / 3GPP TS 22.011, subclause 4.3. 27.10a.3 Test purpose 1) To verify that the ME reads the access control value as part of the SIM/ME initialization procedure, and subsequently adopts this value. 2) To verify that the MS controls its network access in accordance with its access control class and the conditions imposed by the serving network. The tests verify ME performance for the following: Tests (a) and (b) MS with access class 0 to 9. Test (c) MS with access class 11 and 15 not in HPLMN; and MS with access class 12,13 and 14 not in HPLMN country. Test (d) and (e) MS with access class 11 and 15 in HPLMN; and MS with access class 12,13 and 14 in HPLMN country. Each of the above are tested against all relevant combinations of access control and emergency call bits signalled by the network, as shown in table 27-1a. 27.10a.4 Method of test 27.10a.4.1 Initial conditions The SS transmits default message contents of Cell A, subclauses 40.1.1 and 40.2.1.1 on the BCCH, with the following exceptions: RAI (MCC/MNC): see table 27-1a. RACH Control Parameters: see table 27-1a. Network Mode of Operation is set to NMO II. The GPRS SIM is installed in the ME containing IMSI and access control values as given in table 27-1a and the MS is powered off. Coding details SIM IMSI: Data Field 6F 07 Value 246813579 Value 2468135x9 byte 1 05H 05H byte 2 29H 29H byte 3 64H 64H byte 4 18H 18H byte 5 53H 53H byte 6 97H 9xH byte 7 FFH FFH byte 8 FFH FFH byte 9 FFH FFH Access class: Data field 6F 78 See 3GPP TS 11.11 / 3GPP TS 51.011. 27.10a.4.2 Procedure a) The MS is powered on. b) The MS may perform a GPRS attach procedure. This will be accepted by the SS. c) The test is repeated for each set of values in table 27-1a. 27.10a.5 Test requirement After step a) the MS shall access the network, or shall make no access attempt, in accordance with table 27-1a. NOTE: For type approval, to limit testing, in tests (a) and (b) it is only necessary that one of the access classes is tested. Table 27-1a IMSI Access class RACH BCCH/RAI Access allowed octet 3 MCC octet 4 MNC (see Note 0) TEST (a) 246813579 0 00000000 246 No 00000001 81 or 813 246813579 1 00000000 246 No 00000010 81 or 813 246813579 2 00000000 246 No 00000100 81 or 813 246813579 3 00000000 246 No 00001000 81 or 813 246813579 4 00000000 246 No 00010000 81 or 813 246813579 5 00000000 246 No 00100000 81 or 813 246813579 6 00000000 246 No 01000000 81 or 813 246813579 7 00000000 246 No 10000000 81 or 813 246813579 8 00000001 246 No 00000000 81 or 813 246813579 9 00000010 246 No 00000000 81 or 813 TEST (b) 246813579 0 11111011 246 Yes 11111110 81 or 813 246813579 1 11111011 246 Yes 11111101 81 or 813 246813579 2 11111011 246 Yes 11111011 81 or 813 246813579 3 11111011 246 Yes 11110111 81 or 813 246813579 4 11111011 246 Yes 11101111 81 or 813 246813579 5 11111011 246 Yes 11011111 81 or 813 246813579 6 11111011 246 Yes 10111111 81 or 813 246813579 7 11111011 246 Yes 01111111 81 or 813 246813579 8 11111010 246 Yes 11111111 81 or 813 246813579 9 11111001 246 Yes 11111111 81 or 813 TEST (c) 2468135 x 9 11 & x 00000011 246 No 11111111 82 or 824 2468135 x 9 11 & x 00000000 246 Yes 00000000 82 or 824 2468135 x 9 12 & x 00000011 234 No 11111111 01 or 012 2468135 x 9 12 & x 00000000 234 Yes 00000000 01 or 012 2468135 x 9 13 & x 00000011 234 No 11111111 01 or 012 2468135 x 9 13 & x 00000000 234 Yes 00000000 01 or 012 2468135 x 9 14 & x 00000011 234 No 11111111 01 or 012 2468135 x 9 14 & x 00000000 234 Yes 00000000 01 or 012 2468135 x 9 15 & x 00000011 246 No 11111111 82 or 824 2468135 x 9 15 & x 00000000 246 Yes 00000000 82 or 824 Set "x" to an arbitrary value in the range0 to 9 TEST (d) 246813579 11 & x 00001011 246 No 11111111 81 or 813 246813579 12 & x 00010011 246 No 11111111 82 or 824 246813579 13 & x 00100011 246 No 11111111 82 or 824 246813579 14 & x 01000011 246 No 11111111 82 or 824 246813579 15 & x 10000011 246 No 11111111 81 or 813 Set "x" to an arbitrary value in the range 0 to 9 TEST (e) 246813579 11 & x 11110011 246 Yes 11111111 81 or 813 246813579 12 & x 11101011 246 Yes 11111111 82 or 824 246813579 13 & x 11011011 246 Yes 11111111 82 or 824 246813579 14 & x 10111011 246 Yes 11111111 82 or 824 246813579 15 & x 01111011 246 Yes 11111111 81 or 813 Set "x" to an arbitrary value in the range 0 to 9
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27.11 Exchange protocol tests
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27.11.1 Character transmission
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27.11.1.1 Bit/character duration during the transmission from the ME to the SIM
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27.11.1.1.1 Definition
Data is transmitted serially across the SIM/ME interface. A character comprises: - the start bit; - eight data bits; - the parity bit.
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27.11.1.1.2 Conformance requirement
The bit/character duration and the delay between two consecutive characters (between start leading edges) sent by the ME shall be in the range specified. 3GPP TS 11.11, subclause 5.9.
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27.11.1.1.3 Test purpose
To verify the timing during the transmission from the ME to the SIM.
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27.11.1.1.4 Method of test
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27.11.1.1.4.1 Initial conditions
The ME is connected to the SIM simulator, and powered on.
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27.11.1.1.4.2 Procedure
A number of characters are transmitted from the ME to the SIM simulator. The SIM simulator shall measure the bit/character duration and the delay between two consecutive characters for all characters transmitted by the ME.
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27.11.1.1.5 Test requirement
The timing shall be in the range specified.
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27.11.1.2 Bit/character duration during the transmission from the SIM simulator to the ME
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27.11.1.2.1 Definition
Data is transmitted serially across the SIM/ME interface. A character comprises: - the start bit; - eight data bits; - the parity bit.
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27.11.1.2.2 Conformance requirement
Responses with maximum and minimum bit/character duration times shall be accepted by the ME. 3GPP TS 11.11, subclause 5.9.
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27.11.1.2.3 Test purpose
To verify the acceptance of maximum and minimum bit/character duration during the transmission from the SIM to the ME.
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27.11.1.2.4 Method of test
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27.11.1.2.4.1 Initial conditions
The ME is connected to the SIM simulator, and powered on.
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27.11.1.2.4.2 Procedure
The SIM simulator shall send responses with the maximum and minimum bit/character durations specified in 3GPP TS 11.11.
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27.11.1.2.5 Test requirement
The ME shall accept the response and act accordingly.
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27.11.1.3 Inter-character delay
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27.11.1.3.1 Definition
The inter-character delay is defined as the time between the start edge of a character and the start edge of the previous character. It is given by: - the length of a character plus an extra guard time of N etu during transmission from the ME to the SIM. N is indicated in ATR character TC1; - the work waiting time during transmission from the SIM to the ME.
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27.11.1.3.2 Conformance requirement
1) If TC1 is 0 or 255 the ME shall work with the SIM. 2) If TC1 is not 0 or 255 the ME shall repeat the reset at least 2 times before it rejects the SIM. 3) The ME shall accept characters sent by the SIM with the work waiting time within the specified range. 3GPP TS 11.11, clause 5.9.
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27.11.1.3.3 Test purpose
1) To verify the correct evaluation of the character TC1 indicated in the ATR. 2) To verify that the ME accepts the minimum and maximum work waiting time during the transmission from the SIM to the ME.
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27.11.1.3.4 Method of test
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27.11.1.3.4.1 Initial conditions
The ME is connected to the SIM simulator, and powered on.
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27.11.1.3.4.2 Procedure
a) Upon reception of a reset the SIM simulator transmits the ATR as follows: a.1) N = 0. character name content meaning TS 3B direct convention T0 40 TA1, TB1, TD1 not transmitted, TC1 transmitted, no historical characters TC1 00 N = 0 a.2) N = 255. character name content meaning TS 3B direct convention T0 40 TA1, TB1, TD1 not transmitted, TC1 transmitted, no historical characters TC1 FF N = 255 a.3) N = Value other than 0 and 255. character name content meaning TS 3B direct convention T0 40 TA1, TB1, TD1 not transmitted, TC1 transmitted, no historical characters TC1 00 < XX < FF 0 < N < 255 b) The SIM simulator transmits with a work-waiting-time of 12 etu. c) The SIM simulator transmits with a work-waiting-time of 9 600 etu.
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27.11.1.3.5 Test requirement
In steps a.1) and a.2) the ME shall work with the SIM simulator. In step a.3) the ME shall repeat the reset at least 2 times and then reject the SIM simulator. In steps b) and c) the ME shall work with the SIM simulator.
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27.11.1.4 Error handling during the transmission from the ME to the SIM
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27.11.1.4.1 Definition
Error checking is done for each character transmitted by making use of the parity bit. If the SIM detects a parity error, an error signal is sent to the ME, and the ME retransmits that character.
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27.11.1.4.2 Conformance requirement
Subsequent to Answer to Reset and the protocol type selection, the error detection and character repetition procedure specified in GSM 11.11 is mandatory for transmission on the basis of T = 0. On receipt of an error signal, the ME shall repeat the previously transmitted character. 3GPP TS 11.11, subclause 5.10.
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27.11.1.4.3 Test purpose
To verify the error handling during the transmission from the ME to the SIM.
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27.11.1.4.4 Method of test
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27.11.1.4.4.1 Initial conditions
The ME is connected to the SIM simulator, and powered on.
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27.11.1.4.4.2 Procedure
The SIM simulator shall transmit an error signal in response to a received character in accordance with ISO 7816‑3, subclause 6.3.3.
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27.11.1.4.5 Test requirement
The ME shall repeat the character in accordance with ISO 7816‑3, subclause 6.3.3.
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27.11.1.5 Error handling during transmission from the SIM to the ME
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27.11.1.5.1 Definition
Error checking is done for each character transmitted by making use of the parity bit. If the ME detects a parity error, an error signal is sent to the SIM, and the SIM retransmits that character.
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27.11.1.5.2 Conformance requirement
Subsequent to Answer to Reset and the protocol type selection, the error detection and character repetition procedure specified in GSM 11.11 is mandatory for transmission on the basis of T = 0. On receipt of a response with a parity error, the ME shall send an error signal and expect the previously transmitted character to be repeated. 3GPP TS 11.11, subclause 5.10.
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27.11.1.5.3 Test purpose
To verify the error handling during the transmission from the SIM to the ME.
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27.11.1.5.4 Method of test
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27.11.1.5.4.1 Initial conditions
The ME is connected to the SIM simulator, and powered on.
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27.11.1.5.4.2 Procedure
The SIM simulator shall send a response with a parity error and check that the ME performs error handling in accordance with ISO/IEC 7816‑3, subclause 6.3.3.
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27.11.1.5.5 Test requirement
The ME shall send an error signal in accordance with ISO/IEC 7816‑3, subclause 6.3.3, and expect a repetition of the character. The ME shall correctly evaluate the character when repeated by the SIM simulator.
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27.11.2 Answer to reset (RST)
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27.11.2.1 Void
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27.11.2.2 Acceptance of SIMs with active low RST
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27.11.2.2.1 Definition
Active low RST is one possible implementation of reset, and MEs must be able to accept SIMs with active low reset.
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27.11.2.2.2 Conformance requirement
The ME shall accept a SIM with active low reset by putting the RST contact to state H. The signal timing shall be in accordance with the specification. 3GPP TS 11.11, clause 5. ISO/IEC 7816‑3, subclause 5.3.2.
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27.11.2.2.3 Test purpose
To verify that the ME accepts a SIM with active low reset. The timing of the RST signal shall be in accordance with the specification.
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27.11.2.2.4 Method of test
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27.11.2.2.4.1 Initial conditions
The SIM simulator is configured for active low reset. The ME is connected to the SIM simulator and powered on.
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27.11.2.2.4.2 Procedure
The SIM simulator measures the timing of the RST signal.
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27.11.2.2.5 Test requirement
The ME shall accept the SIM simulator with active low reset. The RST signal shall be put to state H after a minimum of (400/fi)s.
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27.11.2.3 Characters of the answer to reset
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27.11.2.3.1 Definition
When the SIM is reset, it sends up to 33 characters to the ME, containing information which must be interpreted by the ME to ascertain the transmission protocol to be used.
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51.010-1
27.11.2.3.2 Conformance requirement
1. The ME shall adopt the data encoding convention and initial etu time defined in the initial character TS of the ATR. 3GPP TS 11.11, subclause 5.8. 2. The ME shall be able to receive interface characters for other transmission protocols than T = 0, historical characters and a check byte, even if only T = 0 is used by the ME. 3GPP TS 11.11, subclause 5.8.1.
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27.11.2.3.3 Test purpose
1. To verify that the ME adopts the appropriate data encoding convention and initial elementary time unit (etu) defined in the initial character TS of the Answer to Reset. 2. To verify that the ME accepts interface characters for transmission protocols other than T=0, historical characters and the check byte.
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27.11.2.3.4 Method of test
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27.11.2.3.4.1 Initial conditions
The ME is connected to the SIM (or SIM simulator).
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27.11.2.3.4.2 Procedure
a) The ME is powered on b) The SIM (or SIM simulator) sends an ATR as follows: character name content meaning TS 3B direct convention T0 9F TB1, TC1 not transmitted, TA1, TD1 transmitted, 15 historical characters TA1 11 default values F = 372, D = 1 TD1 80 TA2, TB2, TC2 not transmitted, TD2 transmitted, protocol T=0 offered TD2 01 TA2, TB2, TC2, TD2 not transmitted, protocol T=1 offered Ti 53 49 4D 20 53 55 42 47 52 4F 55 50 20 39 35 historical characters TCK 4F check byte c) The ME is made to send further commands to the SIM (or SIM simulator) (e.g. by entering the PIN). d) The ME is switched off and on. This time the SIM (or SIM simulator) sends an ATR as follows: character name content meaning TS 3F inverse convention T0 9F TB1, TC1 not transmitted, TA1, TD1 transmitted, 15 historical characters TA1 11 default values F = 372, D = 1 TD1 80 TA2, TB2, TC2 not transmitted, TD2 transmitted, protocol T=0 offered TD2 01 TA2, TB2, TC2, TD2 not transmitted, protocol T=1 offered Ti 53 49 4D 20 53 55 42 47 52 4F 55 50 20 39 35 historical characters TCK 4F check byte e) The ME is made to send further commands to the SIM (e.g. by entering the PIN).
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27.11.2.3.5 Test requirement
1. After step b), the ME shall work with the SIM (or SIM simulator). 2. After step d), the ME shall work with the SIM (or SIM simulator).
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27.11.2.4 PPS procedure
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27.11.2.4.1 Definition
The PPS procedure is required to select the standard transmission protocol if the SIM does not use this as a default.
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27.11.2.4.2 Conformance requirement
If the ME receives an Answer to Reset where TA1 is not equal to "11", it shall initiate the PPS procedure as defined in 3GPP TS 11.11. 3GPP TS 11.11, subclause 5.8.2.
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27.11.2.4.3 Test purpose
To verify that ME uses the PPS procedure as specified in 3GPP TS 11.11.
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27.11.2.4.4 Method of test
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27.11.2.4.4.1 Initial conditions
The ME is connected to the SIM (or SIM simulator).
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27.11.2.4.4.2 Procedure
a) The ME is powered on. b) The SIM (or the SIM simulator) sends an ATR as follows: character name content meaning TS 3B direct convention T0 10 TB1, TC1, TD1 not transmitted, TA1 transmitted, no historical characters TA1 77 invalid values for F and D
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27.11.2.4.5 Test requirement
After step b), the ME shall send to the SIM (or the SIM simulator) "FF00FF".
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27.11.2.5 Reset repetition
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27.11.2.5.1 Definition
If transmission errors result in the ATR being unintelligible to the ME, the ME performs the reset again. The minimum number of reset attempts is three.
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27.11.2.5.2 Conformance requirement
Following receipt of a wrong ATR, the ME shall perform a reset. The ME shall not reject the SIM until at least three consecutive wrong ATRs are received. 3GPP TS 11.11, subclause 5.10.
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27.11.2.5.3 Test purpose
To verify that the ME repeats the reset procedure on receipt of a wrong ATR, and does not reject the SIM unless at least three consecutive wrong ATRs are received.
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27.11.2.5.4 Method of test
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27.11.2.5.4.1 Initial conditions
The ME is connected to the SIM simulator.
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27.11.2.5.4.2 Procedure
a) The ME is powered on. b) The SIM simulator sends a non understandable answer to reset to the ME. (e.g. a wrong TS byte), at each reset initiated by the ME.
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27.11.2.5.5 Test requirement
After step b), the ME shall repeat the reset at least two times.
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27.11.2.6 Speed Enhancement
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27.11.2.6.1 Definition
MEs that support speed enhancement use a specific PPS sequence to indicate the use of different transmission parameters F and D. If this PPS fails, the ME retries with standard parameters.
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27.11.2.6.2 Conformance requirement
1. If speed enhancement is implemented in the ME, it is mandatory to support F=512 and D=8 (in addition to the default values F=372 and D=1). 2. If the SIM does not answer the PPS request within the initial waiting time the ME shall reset the SIM. After two failed PPS attempts using F=512 and D=8 or values indicated in TA1, (no PPS response from the SIM) the ME shall initiate PPS procedure using default values. 3. If this also fails (no PPS response from the SIM) the ME may proceed using default values without requesting PPS. 3GPP TS 11.11, subclause 5.8.3.
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27.11.2.6.3 Test purpose
1. To verify that the ME supports the transmission parameters F=512 and D=8. 2. To verify that the ME resets the SIM if the SIM does not answer the PPS request within the initial waiting time and initiates a PPS procedure using default values F=372 and D=1 after the second failed PPS attempt. 3. To verify that if the ME proceeds it uses the default values without requesting PPS.
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27.11.2.6.4 Method of test
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27.11.2.6.4.1 Initial conditions
The ME is connected to the SIM simulator.
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27.11.2.6.4.2 Procedure
Part 1: a) The ME is powered on. b) The SIM simulator sends an ATR as follows: character name content meaning TS 3B direct convention T0 10 TB1, TC1, TD1 not transmitted, TA1 transmitted, no historical characters TA1 94 F=512, D=8 c) After receipt of the PTS Request, the SIM simulator answers with the PTS Response "FF 10 94 7B" using a work waiting time of 9600 etu (initial waiting time). d) The ME and SIM simulator transmits with enhanced speed (F=512, D=8). Part 2: e) The ME is switched off and on. The SIM simulator sends an ATR as in step b). f) After receipt of the PPS Request, the SIM simulator does not answer within the initial waiting time. g) After being reset by the ME the SIM simulator sends an ATR as in step b) h) After receipt of the PPS Request, the SIM simulator does not answer within the initial waiting time i) After being reset by the ME the SIM simulator sends an ATR as in step b) j) After receipt of the PPS Request using default values "FF 00 FF", the SIM simulator answers with the PPS Response "FF 00 FF" using a work waiting time of 9600 etu (initial waiting time). k) The SIM simulator sends with normal speed (F=372, D=1), Part 3: l) The ME is switched off and on. The SIM simulator sends an ATR as in step b). m) After receipt of the PPS Request, the SIM simulator does not answer within the initial waiting time. n) After being reset by the ME the SIM simulator sends an ATR as in step b) o) After receipt of the PPS Request, the SIM simulator does not answer within the initial waiting time p) After being reset by the ME the SIM simulator sends an ATR as in step b) q) After receipt of the PPS Request using default values "FF 00 FF", the SIM simulator does not answer within the initial waiting time r) The ME may reset the SIM s) After being reset by the ME the SIM simulator sends an ATR as in step b) t) If the ME reset the SIM in step p) it shall not send a PPS request u) The SIM simulator sends with normal speed (F=372, D=1), Note: Part 3 is optional for ME27.11.2.6.5 Test requirement After step b) the ME shall send to the SIM simulator the PPS Request "FF 10 94 7B". After step c) the ME shall work with the SIM simulator. After step e) the ME shall send to the SIM simulator the PPS Request "FF 10 94 7B" . After step f) the ME shall reset the SIM after the initial waiting time has expired. After step g) the ME shall send to the SIM simulator the PPS Request "FF 10 94 7B". After step h) the ME shall reset the SIM after the initial waiting time has expired. After step i) the ME shall send to the SIM simulator the PPS Request "FF 00 FF". After step m) the ME may reset the SIM after the initial waiting time has expired. After step t) the ME shall not send a PPS request to the SIM simulator but continue to work with the SIM using default values (F=372, D=1).
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27.11.3 Command processing, procedure bytes
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27.11.3.1 Definition
The procedure bytes ACK, NULL, and SW1 are sent from the SIM to the ME, and give the ME an acknowledgement for the previous instruction, information concerning transfer of data and the card status at the end of the command.
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27.11.3.2 Conformance requirement
On the basis of protocol T = 0, the ME shall correctly use the different modes of data transmission defined in ISO/IEC 7816‑3, subclause 8.2.2. 3GPP TS 11.11, clause 5 ISO/IEC 7816: 1990, subclause 8.2.2.
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27.11.3.3 Test purpose
To verify that the ME uses correctly the different modes of data transmission.
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27.11.3.4 Method of test
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27.11.3.4.1 Initial conditions
The ME is connected to the SIM simulator and powered on.
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27.11.3.4.2 Procedure
a) The ME is made to initiate a VERIFY CHV command. b) The SIM simulator answers the first 3 bytes with ACK=INS complemented. c) The SIM simulator answers the next data byte with NULL (NULL="60"). d) The SIM simulator then sends ACK=INS. This byte is sent when the elapsed time since step b) is greater than the work waiting time. e) The SIM simulator answers the transmission of the rest of the data with NULL. f) The SIM simulator then sends SW1 and SW2, indicating correct execution of the command ("90" and "00" for SW1 and SW2 respectively). These bytes are sent when the elapsed time since step d) is greater than the work waiting time.
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27.11.3.5 Test requirement
The command shall be executed correctly.
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27.12 Evaluation of directory characteristics
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27.12.1 Operating speed in authentication procedure
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27.12.1.1 Definition
Authentication is performed by a GSM network on the SIM, by sending a random number to the SIM. The SIM then performs a calculation on the random number, and sends the result to the network for verification.
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27.12.1.2 Conformance requirement
If bit b2 of the file characteristics is set to 1, then the ME shall provide a clock frequency of at least 13/4 MHz to enable the SIM to run the authentication process in the required time. 3GPP TS 11.11, subclause 5.4.
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27.12.1.3 Test purpose
To verify that the authentication procedure is done with a frequency of at least 13/4 MHz if the bit b2 of the file characteristics (byte 1 of the directory characteristics) is set to 1.
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27.12.1.4 Method of test