OrganizedProgrammers/3GPPSpecContent · Datasets at Hugging Face

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683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17 Electrical tests	General test purpose Testing of electrical characteristics of the SIM/ME interface. Whilst non-conformance in this area would be unlikely to cause difficulties to other users or the network (type approval criteria), significant deviations from the specifications (3GPP TS 11.11 and ISO 7816) may damage the SIM. If an attempt is then made to use the SIM in a different ME, then its failure may reflect badly on both that ME and the network. This subclause lists the electrical tests to be performed. They include: i) tests during activation and deactivation phases; and ii) tests to be performed on each contact in both static and dynamic states: e.g. voltages, currents and signal characteristics. However, due to the likely difficulty of accessing the terminals of the SIM/ME interface for the purposes of measurements, the ME manufacturer shall provide a test interface in accordance with subclause 36.5 for the purpose of conformance testing. General measurement conventions For the 5V interface operation mode, the measurement conventions are specified in ISO/IEC 7816‑3 subclause 4.2.1. For the 3Vand 1,8V interface operation mode these conditions apply in an analogous way.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1 Test of the power transition phases
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.1 Phase preceding ME power on
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.1.1 Definition	When the mobile equipment is switched off, the contacts of the SIM/ME interface remain in an inactive state in order to prevent any damage to the SIM.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.1.2 Conformance requirement	The residual voltage across the contacts of the SIM/ME interface (C1, C2, C3, C6, C7) shall not exceed ± 0,4 Volts referenced to GND. Reference: 3GPP TS 11.11, subclause 4.3.3.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.1.3 Test purpose	To verify that the residual voltage across the contacts of the SIM/ME interface (C1, C2, C3, C6, C7) is not greater than ± 0,4 Volts referenced to GND.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.1.4 Method of test
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.1.4.1 Initial condition	The ME is connected to a SIM Simulator. The contact C1 (Vcc) of the SIM/ME interface is loaded with an impedance of 10 kOhm. The other contacts (C2, C3, C6, C7) are loaded with an impedance of 50 kOhm.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.1.4.2 Procedure	The residual voltage on each contact is measured.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.1.5 Test requirement	The residual voltage on each contact shall not exceed ±0,4 Volts referenced to GND.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.2 Phase during SIM power on
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.2.1 Definition	When the mobile station is switched on or when the SIM/ME interface is being activated after 3V/5V or 1,8V/3V switching, the contacts shall be activated in a defined sequence in order to prevent any damage to the SIM. The timing of this sequence is not defined, a measurement resolution better than or equivalent to 100 ns is assumed. An ME supporting both 5V and 3V interface operation mode may switch from 3V to 5V after it has read the SIM type identification in the SIM status information by deactivating the SIM and activating it at the new supply voltage. An ME supporting both 3V and 1,8V interface operation mode may switch from 1,8V to 3V after it has read the SIM type identification in the SIM status information by deactivating the SIM and activating it at the new supply voltage.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.2.2 Conformance requirement	a) When the MS is soft powered on, the contacts of the SIM/ME interface shall be activated in the following order: 1. VCC at state H and stable; 2. CLK stable; 3. RST at state L for at least 400 clock cycles after the clock signal is applied to CLK; 4. I/O at state Z within 200 clock cycles after the clock signal is applied to CLK. When Vpp is connected to Vcc, as allowed by 3GPP TS 11.11 (subclauses 4.3.2 and 5.3), then Vpp is activated together with Vcc, at the time of Vcc (step 1 in the sequence above). b) When the MS is soft powered on, the contacts of the SIM/ME interface shall be activated in the following order: 1. VCC at state H and stable; 2. CLK stable; 3. RST at state L for at least 400 clock cycles after the clock signal is applied to CLK; 4. I/O at state Z within 200 clock cycles after the clock signal is applied to CLK. c.1) When the MS is soft powered on, the contacts of the SIM/ME interface shall be activated to 3V mode in the following order: 1. VCC at state H and stable; 2. CLK stable; 3. RST at state L for at least 400 clock cycles after the clock signal is applied to CLK; 4. I/O at state Z within 200 clock cycles after the clock signal is applied to CLK. c.2) When the SIM/ME interface is being activated after the 3V/5V switching the contacts shall be activated to 5V mode in the order given in c.1). d) When the MS is soft powered on, the contacts of the SIM/ME interface shall be activated in the following order: 1. VCC at state H and stable; 2. CLK stable; 3. RST at state L for at least 400 clock cycles after the clock signal is applied to CLK;4. I/O at state Z within 200 clock cycles after the clock signal is applied to CLK. e.1) When the MS is soft powered on, the contacts of the SIM/ME interface shall be activated to 1.81,8V mode in the following order: 1. VCC at state H and stable; 2. CLK stable; 3. RST at state L for at least 400 clock cycles after the clock signal is applied to CLK;4. I/O at state Z within 200 clock cycles after the clock signal is applied to CLK. e.2) When the SIM/ME interface is being activated after the 1.81,8V/3V switching the contacts shall be activated to 3V mode in the order given in ce.1). Reference: a): 3GPP TS 11.11, subclause 4.3.2. b), c.1), c.2): 3GPP TS 11.12, subclause 4.4 and subclause 4.5. d), e.1), e.2): 3GPP TS 11.18, subclause 4.4 and subclause 4.5.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.2.3 Test purpose	To verify that the contacts of the SIM/ME interface are activated in the correct order, as described in the conformance requirement.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.2.4 Method of test
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.2.4.1 Initial condition	The ME is connected to a SIM Simulator.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.2.4.2 Procedure	To test the requirements a), b), c.1), d) and e.1) the MS is soft powered on. To test the requirement c.2) and e.2), the ME is caused to switch the voltage on the SIM/ME interface. The verification of each activation procedure starts with the first contact leaving the inactive state. The SIM/ME interface is monitored until it is fully activated.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.2.5 Test requirement	The contacts of the SIM/ME interface shall be activated in the correct order, as described in the conformance requirement.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.3 Phase during ME power off with clock stop forbidden
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.3.1 Definition	When the mobile station is soft powered off, the contacts shall be deactivated in a defined sequence in order to prevent any damage to the SIM. The timing of this sequence is not defined, a measurement resolution better than or equivalent to 100 ns is assumed. NOTE 1: If during MS operation the SIM is physically removed it is impractical to ensure correct sequencing of deactivation and the possible damage to the SIM cannot be safeguarded by a type approval test. Furthermore, in this situation the integrity of SIM data is not guaranteed (see 3GPP TS 02.17). NOTE 2: Since 3V technology SIMs and 1,8V technology SIMs shall not indicate that clock stop is forbidden, this test applies only to MEs with a 5V interface and MEs with a 3V/5V interface when powered down from 5V mode.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.3.2 Conformance requirement	a) When the ME is soft powered down, the contacts of the SIM/ME interface shall be deactivated in the following order: 1. RST at low state; 2. Clock stopped at low state; 3. Vpp inactive (only if Vpp is provided independent of Vcc, see 3GPP TS 11.11 subclause 5.3); 4. I/O at state A; 5. Vcc inactive. b) When Vpp is connected to Vcc, as allowed by 3GPP TS 11.11 (subclause 5.3), then Vpp is deactivated together with Vcc, at the time of Vcc (step 5 in the sequence above). c) When the ME is soft powered down from 5V mode, the contacts of the SIM/ME interface shall be deactivated in the following order: 1. RST at low state; 2. Clock stopped at low state; 3. I/O at status A; 4. Vcc inactive. Reference: a) 3GPP TS 11.11, subclause 4.3.2. c) 3GPP TS 11.12, subclause 4.5.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.3.3 Test purpose	To verify that the contacts of the SIM/ME interface become deactivated in the correct order, as given in the conformance requirement.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.3.4 Method of test
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.3.4.1 Initial condition	The ME is connected to a SIM Simulator. The file characteristics of the directories (byte 14 of STATUS information) shall indicate a 5V SIM with clock stop forbidden.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.3.4.2 Procedure	The MS is soft powered off. The SIM/ME interface is monitored until it is fully deactivated.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.3.5 Test requirement	The contacts of the SIM/ME interface shall be deactivated in the correct order, as given in the conformance requirement.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.4 Phase during ME power off with clock stop allowed
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.4.1 Definition	When the mobile station is soft powered off or when the SIM/ME interface is being deactivated for 3V/5V or 1,8V/3V switching, the contacts shall be deactivated in a defined sequence in order to prevent any damage to the SIM. The timing of this sequence is not defined, a measurement resolution better than or equivalent to 100 ns is assumed. NOTE: If during MS operation the SIM is physically removed it is impractical to ensure correct sequencing of deactivation and the possible damage to the SIM cannot be safeguarded by a type approval test. Furthermore, in this situation the integrity of the SIM data is not guaranteed (see 3GPP TS 02.17).
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.4.2 Conformance requirement	a) Depending on the state of the clock at the time of deactivation, the contacts of the SIM/ME shall be deactivated in one of two ways. If the clock is running, the contacts of the SIM/ME interface shall be deactivated in the following order: 1. RST at low level; 2. Clock stopped at low level; 3. Vpp inactive (only if Vpp is provided independent of Vcc, see 3GPP TS 11.11 subclause 5.3); 4. I/O at status A; 5. Vcc inactive. When Vpp is connected to Vcc, as allowed by 3GPP TS 11.11 (subclause 5.3), then Vpp is deactivated together with Vcc, at the time of Vcc (step 5 in the sequence above). If the clock is stopped and is not restarted, the ME is allowed to deactivate all the contacts in any order, provided that all signals reach low level before Vcc leaves high level. b) Depending on the state of the clock at the time of deactivation, the contacts of the SIM/ME shall be deactivated in one of two ways. If the clock is running, the contacts of the SIM/ME interface shall be deactivated in the following order: 1. RST at low level; 2. Clock stopped at low level; 3. I/O at status A; 4. Vcc inactive. If the clock is stopped and is not restarted, the ME is allowed to deactivate all the contacts in any order, provided that all signals reach low level before Vcc leaves high level. c.1) Depending on the state of the clock at the time of deactivation, the contacts of the SIM/ME interface shall be deactivated in one of two ways. If the clock is running, the contacts of the SIM/ME interface shall be deactivated in the following order: 1. RST at low level; 2. Clock stopped at low level; 3. I/O at status A; 4. Vcc inactive. If the clock is stopped and is not restarted, the ME is allowed to deactivate all the contacts in any order, provided that all signals reach low level before Vcc leaves high level. c.2) When the SIM/ME interface is deactivated for 3V/5V switching, the contacts shall be deactivated as given in c.1). d) Depending on the state of the clock at the time of deactivation, the contacts of the SIM/ME shall be deactivated in one of two ways. If the clock is running, the contacts of the SIM/ME interface shall be deactivated in the following order: 1. RST at low level; 2. Clock stopped at low level; 3. I/O at status A; 4. Vcc inactive. If the clock is stopped and is not restarted, the ME is allowed to deactivate all the contacts in any order, provided that all signals reach low level before Vcc leaves high level. e.1) Depending on the state of the clock at the time of deactivation, the contacts of the SIM/ME interface shall be deactivated in one of two ways. If the clock is running, the contacts of the SIM/ME interface shall be deactivated in the following order: 1. RST at low level; 2. Clock stopped at low level; 3. I/O at status A; 4. Vcc inactive. If the clock is stopped and is not restarted, the ME is allowed to deactivate all the contacts in any order, provided that all signals reach low level before Vcc leaves high level. e.2) When the SIM/ME interface is deactivated for 1,8V/3V switching, the contacts shall be deactivated as given in e.1). Reference: a): 3GPP TS 11.11, subclause 4.3.2. b), c.1), c.2): 3GPP TS 11.12, subclause 4.5. d), e.1), e.2): 3GPP TS 11.18, subclause 4.5.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.4.3 Test purpose	To verify that, depending on the state of the clock (running or stopped), the contacts of the SIM/ME interface become deactivated in the correct order, as given in the conformance requirement.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.4.4 Method of test
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.4.4.1 Initial condition	The ME is connected to a SIM Simulator. The file characteristics of the directories (byte 14 of STATUS information) shall indicate that clock stop is allowed.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.4.4.2 Procedure	To test the requirements a), b), c.1), d) and e.1), the MS is soft powered off. To test the requirement c.2) and e.2), the ME is caused to switch the voltage on the SIM/ME interface. The SIM/ME interface is monitored until it is fully deactivated.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.4.5 Test requirement	The contacts of the SIM/ME interface shall be deactivated in the correct order, as given in the conformance requirements.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5 SIM Type Recognition and Voltage Switching
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.1 Reaction of 3V only MEs on SIM type recognition failure
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.1.1 Definition	When a 3V only ME detects a failure during the SIM type recognition procedure, the ME shall reject the SIM in order to prevent any damage to the SIM.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.1.2 Conformance requirement	1) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR and before issuing any other command. The procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE". 2) If a 3V only ME cannot complete the SIM type recognition procedure the ME shall deactivate the SIM/ME interface and reject the SIM immediately without issuing any further command. This procedure shall be finished within 5 s after the "STATUS/GET RESPONSE" command. Reference: 3GPP TS 11.12 subclauses 4.3 and 4.5.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.1.3 Test purpose	1) To verify that a 3V only ME correctly performs the SIM type recognition procedure. 2) To verify that a 3V only ME deactivates the SIM/ME interface and rejects the SIM in case that the SIM does not respond to the "STATUS/GET RESPONSE" command.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.1.4 Method of test
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.1.4.1 Initial condition	The ME is connected to a SIM Simulator simulating a 3V technology SIM with nominal test conditions according to table 27.2‑2. All elementary files are coded as default. The ME is powered on.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.1.4.2 Procedure	After sending the ATR the SIM simulator checks the presence of the commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator does not respond to the "STATUS/GET RESPONSE" command. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.1.5 Test requirement	1) Immediately after the ATR only the two commands "SELECT GSM" and "STATUS/GET RESPONSE" shall be sent by the ME. 2) The 3V only ME shall deactivate the SIM/ME interface within 5 s and reject the SIM (i.e. not activate the SIM/ME interface within the test procedure).
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.2 Reaction of 3V only MEs on type recognition of 5V only SIMs
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.2.1 Definition	When a 3V only ME detects a 5V only SIM during the SIM type recognition procedure, the ME shall reject the SIM in order to prevent any damage to the SIM.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.2.2 Conformance requirement	1) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR and before issuing any other command. The procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE" 2) If a 3V only ME identifies a 5V only SIM during the SIM type recognition procedure the ME shall deactivate the SIM/ME interface and reject the SIM immediately without issuing any further command. Reference: 3GPP TS 11.12 subclauses 4.3 and 4.5.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.2.3 Test purpose	1) To verify that a 3V only ME correctly performs the SIM type recognition procedure. 2) To verify that a 3V only ME deactivates the SIM/ME interface and rejects the SIM if a 5V only SIM is applied.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.2.4 Method of test
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.2.4.1 Initial condition	The ME is connected to a SIM Simulator simulating a 3V technology SIM (to ensure that the ME can perform the SIM type recognition procedure) with nominal test conditions according to table 27.2‑2. All elementary files are coded as default. Bit 5 in byte 14 of the status information is set to "0" (i.e. 5V only SIM). The ME is powered on.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.2.4.2 Procedure	After sending the ATR the SIM simulator checks the presence of the commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator responds to the "STATUS/GET RESPONSE" command with a status information indicating a 5V only SIM. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.2.5 Test requirement	1) Immediately after the ATR only the two command "SELECT GSM" and "STATUS/GET RESPONSE" shall be sent by the ME. 2) The 3V only ME shall deactivate the SIM/ME interface immediately after receipt of the status information from the SIM (but not later than 5 s after the "STATUS/GET RESPONSE command) and reject the SIM (i.e. not activate the SIM/ME interface again within the test procedure).
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.3 Reaction of 3V technology MEs on type recognition of 5V only SIMs
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.3.1 Definition	When a 3V technology ME detects a 5V only SIM during the SIM type recognition procedure, the ME shall switch to 5V operation.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.3.2 Conformance requirement	1) A 3V technology ME shall initially activate the SIM at 3V (i.e. the first activation of a GSM card session. 2) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR procedure and before issuing any other command. The procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE". 3) If a 3V technology ME identifies a 5V only SIM during the SIM type recognition procedure, the ME shall switch to 5V operation mode. Switching from 3V to 5V shall only be performed by deactivating the SIM and activating it with 5V supply voltage immediately after the SIM type recognition procedure without issuing any further command. Reference: 3GPP TS 11.12 subclauses 4.3 and 4.4.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.3.3 Test purpose	1) To verify that a 3V technology ME initially activates the SIM with 3V. 2) To verify that a 3V technology ME correctly performs the SIM type recognition procedure. 3) To verify that a 3V technology ME deactivates the SIM/ME interface immediately after the SIM type recognition procedure (in order to switch the supply voltage) without issuing any further command.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.3.4 Method of test
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.3.4.1 Initial condition	The ME is connected to a SIM Simulator simulating a 5V only SIM with nominal test conditions according to table 27.2‑1. All elementary files are coded as default. Bit 5 in byte 14 of the status information is set to "0" (i.e. 5V only SIM). The ME is powered on.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.3.4.2 Procedure	After sending the ATR the SIM simulator checks the presence of the commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator responds to the "STATUS/GET RESPONSE" command with a status information indicating a 5V only SIM. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.3.5 Test requirement	1) The initial activation of the SIM/ME interface shall be performed with 3V supply voltage. 2) Immediately after the ATR the two commands "SELECT GSM" and "STATUS/GET RESPONSE" shall be sent by the ME before issuing further commands. 3) The 3V technology ME shall deactivate the SIM/ME interface immediately after receipt of the status information from the SIM.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.4 Reaction of 3V technology MEs on type recognition of 3V technology SIMs
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.4.1 Definition	When a 3V technology ME detects a 3V technology SIM during the SIM type recognition procedure the ME may either switch to 5V operation or stay in 3V operation.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.4.2 Conformance requirement	1) A 3V technology ME shall initially activate the SIM with a 3V (i.e. the first activation of a GSM card session). 2) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR and before issuing any other command. the procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE". 3) If a 3V technology ME identifies a 3V technology SIM during the SIM type recognition the ME may switch to 5V operation. Switching from 3V to 5V shall only be performed by deactivating the SIM and activating it with 5V supply voltage immediately after the SIM type recognition procedure without issuing any further commands. Reference: 3GPP TS 11.12, subclauses 4.3, 4.4 and 4.7.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.4.3 Test purpose	1) To verify that a 3V technology ME initially activates the SIM with 3V. 2) To verify that a 3V technology ME correctly performs the SIM type recognition procedure. 3) To verify that a 3V technology ME deactivates the SIM/ME interface immediately after the recognition of a 3V technology SIM (in order to switch the supply voltage) or proceeds with the 3V operation during the whole GSM card session without switching to 5V supply voltage.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.4.4 Method of test
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.4.4.1 Initial condition	The ME is connected to a SIM Simulator simulating a 3V technology SIM with nominal test conditions according to table 27.2‑2. All elementary files are coded as default. Bit 5 in byte 14 of the status information is set to "1" (i.e. 3V technology SIM.) The ME is powered on.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.4.4.2 Procedure	After sending the ATR the SIM simulator checks the presence of commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator responds to the "STATUS/GET RESPONSE" command with a status information indicating a 3V technology SIM. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.27.1.5.4.5 Test requirement	1) The initial activation of the SIM/ME interface shall be performed with 3V supply voltage. 2) Immediately after the ATR the two commands "SELECT GSM" and "STATUS/GET RESPONSE: shall be sent by the ME. 3) The ME shall react in one of the following ways: a) The ME deactivates the SIM/ME interface immediately after the receipt of the status information from the SIM. b) the ME proceeds with the GSM card session without switching to another supply voltage.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.5 Reaction of 1,8V only MEs on SIM type recognition failure
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.5.1 Definition	When a 1,8V only ME detects a failure during the SIM type recognition procedure, the ME shall reject the SIM in order to prevent any damage to the SIM.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.5.2 Conformance requirement	1) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR and before issuing any other command. The procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE". 2) If a 1,8V only ME cannot complete the SIM type recognition procedure the ME shall deactivate the SIM/ME interface and reject the SIM immediately without issuing any further command. This procedure shall be finished within 5 s after the "STATUS/GET RESPONSE" command. Reference: 3GPP TS 11.18 subclauses 4.3 and 4.5.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.5.3 Test purpose	1) To verify that a 1,8V only ME correctly performs the SIM type recognition procedure. 2) To verify that a 1,8V only ME deactivates the SIM/ME interface and rejects the SIM in case that the SIM does not respond to the "STATUS/GET RESPONSE" command.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.5.4 Method of test
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.5.4.1 Initial condition	The ME is connected to a SIM Simulator simulating a 1,8V technology SIM with nominal test conditions according to table 27.2‑3. All elementary files are coded as default. The ME is powered on.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.5.4.2 Procedure	After sending the ATR the SIM simulator checks the presence of the commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator does not respond to the "STATUS/GET RESPONSE" command. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.5.5 Test requirement	1) Immediately after the ATR only the two commands "SELECT GSM" and "STATUS/GET RESPONSE" shall be sent by the ME. 2) The 1,8V only ME shall deactivate the SIM/ME interface within 5 s and reject the SIM (i.e. not activate the SIM/ME interface within the test procedure).
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.6 Reaction of 1,8V only MEs on type recognition of 3V SIMs
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.6.1 Definition	When a 1,8V only ME detects a 3V technology SIM during the SIM type recognition procedure, the ME shall reject the SIM in order to prevent any damage to the SIM. .
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.6.2 Conformance requirement	1) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR and before issuing any other command. The procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE" 2) If a 1,8V only ME identifies a 3V technology SIM during the SIM type recognition procedure the ME shall deactivate the SIM/ME interface and reject the SIM immediately without issuing any further command. Reference: 3GPP TS 11.18 subclauses 4.3 and 4.5.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.6.3 Test purpose	1) To verify that a 1,8V only ME correctly performs the SIM type recognition procedure. 2) To verify that a 1,8V only ME deactivates the SIM/ME interface and rejects the SIM if a 3V technology SIM is applied.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.6.4 Method of test
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.6.4.1 Initial condition	The ME is connected to a SIM Simulator simulating a 1,8V technology SIM (to ensure that the ME can perform the SIM type recognition procedure) with nominal test conditions according to table 27.2‑3. All elementary files are coded as default. Bits 6 and 5 in byte 14 of the status information are set to "01" (i.e. 3V technology SIM). The ME is powered on.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.6.4.2 Procedure	After sending the ATR the SIM simulator checks the presence of the commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator responds to the "STATUS/GET RESPONSE" command with a status information indicating a 3V technology SIM. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.6.5 Test requirement	1) Immediately after the ATR only the two command "SELECT GSM" and "STATUS/GET RESPONSE" shall be sent by the ME. 2) The 1,8V only ME shall deactivate the SIM/ME interface immediately after receipt of the status information from the SIM (but not later than 5 s after the "STATUS/GET RESPONSE command) and reject the SIM (i.e. not activate the SIM/ME interface again within the test procedure).
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.7 Reaction of 1,8V technology MEs on type recognition of 3V technology SIMs
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.7.1 Definition	When a 1,8V technology ME detects a 3V technology SIM during the SIM type recognition procedure, the ME shall switch to 3V operation.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.7.2 Conformance requirement	1) A 1,8V technology ME shall initially activate the SIM at 1,8V (i.e. the first activation of a GSM card session. 2) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR procedure and before issuing any other command. The procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE". 3) If a 1,8V technology ME identifies a 3V technology SIM during the SIM type recognition procedure, the ME shall switch to 3V operation mode. Switching from 1,8V to 3V shall only be performed by deactivating the SIM and activating it with 3V supply voltage immediately after the SIM type recognition procedure without issuing any further command. Reference: 3GPP TS 11.18 subclauses 4.3 and 4.4.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.7.3 Test purpose	1) To verify that a 1,8V technology ME initially activates the SIM with 1,8V. 2) To verify that a 1,8V technology ME correctly performs the SIM type recognition procedure. 3) To verify that a 1,8V technology ME deactivates the SIM/ME interface immediately after the SIM type recognition procedure (in order to switch the supply voltage) without issuing any further command.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.7.4 Method of test
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.7.4.1 Initial condition	The ME is connected to a SIM Simulator simulating a 3V technology SIM with nominal test conditions according to table 27.2‑2. All elementary files are coded as default. Bits 6 and 5 in byte 14 of the status information are set to "01" (i.e. 3V technology SIM). The ME is powered on.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.7.4.2 Procedure	After sending the ATR the SIM simulator checks the presence of the commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator responds to the "STATUS/GET RESPONSE" command with a status information indicating a 3V technology SIM. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.7.5 Test requirement	1) The initial activation of the SIM/ME interface shall be performed with 1,8V supply voltage. 2) Immediately after the ATR the two commands "SELECT GSM" and "STATUS/GET RESPONSE" shall be sent by the ME before issuing further commands. 3) The 1,8V technology ME shall deactivate the SIM/ME interface immediately after receipt of the status information from the SIM.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.8 Reaction of 1,8V technology MEs on type recognition of 1,8V technology SIMs
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.8.1 Definition	When a 1,8V technology ME detects a 1,8V technology SIM during the SIM type recognition procedure the ME may either switch to 3V operation or stay in 1,8V operation.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.8.2 Conformance requirement	1) A 1,8V technology ME shall initially activate the SIM with a 1,8V (i.e. the first activation of a GSM card session). 2) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR and before issuing any other command. the procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE". 3) If a 1,8V technology ME identifies a 1,8V technology SIM during the SIM type recognition the ME may switch to 3V operation. Switching from 1,8V to 3V shall only be performed by deactivating the SIM and activating it with 3V supply voltage immediately after the SIM type recognition procedure without issuing any further commands. Reference: 3GPP TS 11.18, subclauses 4.3, 4.4 and 4.7.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.8.3 Test purpose	1) To verify that a 1,8V technology ME initially activates the SIM with 1,8V. 2) To verify that a 1,8V technology ME correctly performs the SIM type recognition procedure. 3) To verify that a 1,8V technology ME deactivates the SIM/ME interface immediately after the recognition of a 1,8V technology SIM (in order to switch the supply voltage) or proceeds with the 1,8V operation during the whole GSM card session without switching to 3V supply voltage.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.8.4 Method of test
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.8.4.1 Initial condition	The ME is connected to a SIM Simulator simulating a 1,8V technology SIM with nominal test conditions according to table 27.2‑3. All elementary files are coded as default. Bits 6 and 5 in byte 14 of the status information are set to "11" (i.e. 1,8V technology SIM.) The ME is powered on.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.8.4.2 Procedure	After sending the ATR the SIM simulator checks the presence of commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator responds to the "STATUS/GET RESPONSE" command with a status information indicating a 1,8V technology SIM. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.1.5.8.5 Test requirement	1) The initial activation of the SIM/ME interface shall be performed with 1,8V supply voltage. 2) Immediately after the ATR the two commands "SELECT GSM" and "STATUS/GET RESPONSE: shall be sent by the ME. 3) The ME shall react in one of the following ways: a) The ME deactivates the SIM/ME interface immediately after the receipt of the status information from the SIM. b) the ME proceeds with the GSM card session without switching to another supply voltage.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	27.17.2 Electrical tests on each ME contact	The following tables give the electrical conditions that must be applied by the SIM simulator to all contacts during a test if not stated otherwise. Table 27.2-1: Nominal test conditions on 5V SIM/ME interface Contacts Low level High level Max. capacitive load C1 (Vcc) --- I = 10 mA C2 (RST) I = ‑200 A I = +20 A 30 pF C3 (CLK) I = ‑200 A I = +20 A 30 pF C5 (GND) --- --- C6 ((Vpp) --- I = 0 mA C7 (I/O) ME input ME output V = 0 V I = ‑1 mA I = +20 A I = +20 A 30 pF Table 27.2-2: Nominal test conditions on 3V SIM/ME interface Contacts Low level High level Max. capacitive load C1 (Vcc) --- I = 6 mA C2 (RST) I = ‑200 A I = +200 A 30 pF C3 (CLK) I = ‑20 A I = +20 A 30 pF C5 (GND) --- --- C6 ((Vpp) --- --- C7 (I/O) ME input ME output V = 0 V I = ‑1 mA I = +20 A I = +20 A 30 pF Table 27.2-3: Nominal test conditions on 1,8V SIM/ME interface Contacts Low level High level Max. capacitive load C1 (Vcc) --- I = 4 mA C2 (RST) I = ‑200 A I = +200 A 30 pF C3 (CLK) I = ‑20 A I = +20 A 30 pF C5 (GND) --- --- C6 ((Vpp) --- --- C7 (I/O) ME input ME output V = 0 V I = ‑1 mA I = +20 A I = +20 A 30 pF NOTE 1: Measurements of contacts voltage levels can be done at any time since the beginning of activation of the SIM and the end of deactivation of the SIM (ISO/IEC 7816‑3 subclause 5.1). NOTE 2: The reference point of all measurements is the contact C5 (Ground). NOTE 3: Currents flowing into the SIM are considered positive.

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27.17 Electrical tests

General test purpose Testing of electrical characteristics of the SIM/ME interface. Whilst non-conformance in this area would be unlikely to cause difficulties to other users or the network (type approval criteria), significant deviations from the specifications (3GPP TS 11.11 and ISO 7816) may damage the SIM. If an attempt is then made to use the SIM in a different ME, then its failure may reflect badly on both that ME and the network. This subclause lists the electrical tests to be performed. They include: i) tests during activation and deactivation phases; and ii) tests to be performed on each contact in both static and dynamic states: e.g. voltages, currents and signal characteristics. However, due to the likely difficulty of accessing the terminals of the SIM/ME interface for the purposes of measurements, the ME manufacturer shall provide a test interface in accordance with subclause 36.5 for the purpose of conformance testing. General measurement conventions For the 5V interface operation mode, the measurement conventions are specified in ISO/IEC 7816‑3 subclause 4.2.1. For the 3Vand 1,8V interface operation mode these conditions apply in an analogous way.

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27.17.1 Test of the power transition phases

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27.17.1.1 Phase preceding ME power on

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27.17.1.1.1 Definition

When the mobile equipment is switched off, the contacts of the SIM/ME interface remain in an inactive state in order to prevent any damage to the SIM.

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27.17.1.1.2 Conformance requirement

The residual voltage across the contacts of the SIM/ME interface (C1, C2, C3, C6, C7) shall not exceed ± 0,4 Volts referenced to GND. Reference: 3GPP TS 11.11, subclause 4.3.3.

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27.17.1.1.3 Test purpose

To verify that the residual voltage across the contacts of the SIM/ME interface (C1, C2, C3, C6, C7) is not greater than ± 0,4 Volts referenced to GND.

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27.17.1.1.4 Method of test

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27.17.1.1.4.1 Initial condition

The ME is connected to a SIM Simulator. The contact C1 (Vcc) of the SIM/ME interface is loaded with an impedance of 10 kOhm. The other contacts (C2, C3, C6, C7) are loaded with an impedance of 50 kOhm.

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27.17.1.1.4.2 Procedure

The residual voltage on each contact is measured.

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27.17.1.1.5 Test requirement

The residual voltage on each contact shall not exceed ±0,4 Volts referenced to GND.

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27.17.1.2 Phase during SIM power on

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27.17.1.2.1 Definition

When the mobile station is switched on or when the SIM/ME interface is being activated after 3V/5V or 1,8V/3V switching, the contacts shall be activated in a defined sequence in order to prevent any damage to the SIM. The timing of this sequence is not defined, a measurement resolution better than or equivalent to 100 ns is assumed. An ME supporting both 5V and 3V interface operation mode may switch from 3V to 5V after it has read the SIM type identification in the SIM status information by deactivating the SIM and activating it at the new supply voltage. An ME supporting both 3V and 1,8V interface operation mode may switch from 1,8V to 3V after it has read the SIM type identification in the SIM status information by deactivating the SIM and activating it at the new supply voltage.

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27.17.1.2.2 Conformance requirement

a) When the MS is soft powered on, the contacts of the SIM/ME interface shall be activated in the following order: 1. VCC at state H and stable; 2. CLK stable; 3. RST at state L for at least 400 clock cycles after the clock signal is applied to CLK; 4. I/O at state Z within 200 clock cycles after the clock signal is applied to CLK. When Vpp is connected to Vcc, as allowed by 3GPP TS 11.11 (subclauses 4.3.2 and 5.3), then Vpp is activated together with Vcc, at the time of Vcc (step 1 in the sequence above). b) When the MS is soft powered on, the contacts of the SIM/ME interface shall be activated in the following order: 1. VCC at state H and stable; 2. CLK stable; 3. RST at state L for at least 400 clock cycles after the clock signal is applied to CLK; 4. I/O at state Z within 200 clock cycles after the clock signal is applied to CLK. c.1) When the MS is soft powered on, the contacts of the SIM/ME interface shall be activated to 3V mode in the following order: 1. VCC at state H and stable; 2. CLK stable; 3. RST at state L for at least 400 clock cycles after the clock signal is applied to CLK; 4. I/O at state Z within 200 clock cycles after the clock signal is applied to CLK. c.2) When the SIM/ME interface is being activated after the 3V/5V switching the contacts shall be activated to 5V mode in the order given in c.1). d) When the MS is soft powered on, the contacts of the SIM/ME interface shall be activated in the following order: 1. VCC at state H and stable; 2. CLK stable; 3. RST at state L for at least 400 clock cycles after the clock signal is applied to CLK;4. I/O at state Z within 200 clock cycles after the clock signal is applied to CLK. e.1) When the MS is soft powered on, the contacts of the SIM/ME interface shall be activated to 1.81,8V mode in the following order: 1. VCC at state H and stable; 2. CLK stable; 3. RST at state L for at least 400 clock cycles after the clock signal is applied to CLK;4. I/O at state Z within 200 clock cycles after the clock signal is applied to CLK. e.2) When the SIM/ME interface is being activated after the 1.81,8V/3V switching the contacts shall be activated to 3V mode in the order given in ce.1). Reference: a): 3GPP TS 11.11, subclause 4.3.2. b), c.1), c.2): 3GPP TS 11.12, subclause 4.4 and subclause 4.5. d), e.1), e.2): 3GPP TS 11.18, subclause 4.4 and subclause 4.5.

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27.17.1.2.3 Test purpose

To verify that the contacts of the SIM/ME interface are activated in the correct order, as described in the conformance requirement.

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27.17.1.2.4 Method of test

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27.17.1.2.4.1 Initial condition

The ME is connected to a SIM Simulator.

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27.17.1.2.4.2 Procedure

To test the requirements a), b), c.1), d) and e.1) the MS is soft powered on. To test the requirement c.2) and e.2), the ME is caused to switch the voltage on the SIM/ME interface. The verification of each activation procedure starts with the first contact leaving the inactive state. The SIM/ME interface is monitored until it is fully activated.

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27.17.1.2.5 Test requirement

The contacts of the SIM/ME interface shall be activated in the correct order, as described in the conformance requirement.

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27.17.1.3 Phase during ME power off with clock stop forbidden

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27.17.1.3.1 Definition

When the mobile station is soft powered off, the contacts shall be deactivated in a defined sequence in order to prevent any damage to the SIM. The timing of this sequence is not defined, a measurement resolution better than or equivalent to 100 ns is assumed. NOTE 1: If during MS operation the SIM is physically removed it is impractical to ensure correct sequencing of deactivation and the possible damage to the SIM cannot be safeguarded by a type approval test. Furthermore, in this situation the integrity of SIM data is not guaranteed (see 3GPP TS 02.17). NOTE 2: Since 3V technology SIMs and 1,8V technology SIMs shall not indicate that clock stop is forbidden, this test applies only to MEs with a 5V interface and MEs with a 3V/5V interface when powered down from 5V mode.

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27.17.1.3.2 Conformance requirement

a) When the ME is soft powered down, the contacts of the SIM/ME interface shall be deactivated in the following order: 1. RST at low state; 2. Clock stopped at low state; 3. Vpp inactive (only if Vpp is provided independent of Vcc, see 3GPP TS 11.11 subclause 5.3); 4. I/O at state A; 5. Vcc inactive. b) When Vpp is connected to Vcc, as allowed by 3GPP TS 11.11 (subclause 5.3), then Vpp is deactivated together with Vcc, at the time of Vcc (step 5 in the sequence above). c) When the ME is soft powered down from 5V mode, the contacts of the SIM/ME interface shall be deactivated in the following order: 1. RST at low state; 2. Clock stopped at low state; 3. I/O at status A; 4. Vcc inactive. Reference: a) 3GPP TS 11.11, subclause 4.3.2. c) 3GPP TS 11.12, subclause 4.5.

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27.17.1.3.3 Test purpose

To verify that the contacts of the SIM/ME interface become deactivated in the correct order, as given in the conformance requirement.

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27.17.1.3.4 Method of test

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27.17.1.3.4.1 Initial condition

The ME is connected to a SIM Simulator. The file characteristics of the directories (byte 14 of STATUS information) shall indicate a 5V SIM with clock stop forbidden.

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27.17.1.3.4.2 Procedure

The MS is soft powered off. The SIM/ME interface is monitored until it is fully deactivated.

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27.17.1.3.5 Test requirement

The contacts of the SIM/ME interface shall be deactivated in the correct order, as given in the conformance requirement.

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27.17.1.4 Phase during ME power off with clock stop allowed

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27.17.1.4.1 Definition

When the mobile station is soft powered off or when the SIM/ME interface is being deactivated for 3V/5V or 1,8V/3V switching, the contacts shall be deactivated in a defined sequence in order to prevent any damage to the SIM. The timing of this sequence is not defined, a measurement resolution better than or equivalent to 100 ns is assumed. NOTE: If during MS operation the SIM is physically removed it is impractical to ensure correct sequencing of deactivation and the possible damage to the SIM cannot be safeguarded by a type approval test. Furthermore, in this situation the integrity of the SIM data is not guaranteed (see 3GPP TS 02.17).

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27.17.1.4.2 Conformance requirement

a) Depending on the state of the clock at the time of deactivation, the contacts of the SIM/ME shall be deactivated in one of two ways. If the clock is running, the contacts of the SIM/ME interface shall be deactivated in the following order: 1. RST at low level; 2. Clock stopped at low level; 3. Vpp inactive (only if Vpp is provided independent of Vcc, see 3GPP TS 11.11 subclause 5.3); 4. I/O at status A; 5. Vcc inactive. When Vpp is connected to Vcc, as allowed by 3GPP TS 11.11 (subclause 5.3), then Vpp is deactivated together with Vcc, at the time of Vcc (step 5 in the sequence above). If the clock is stopped and is not restarted, the ME is allowed to deactivate all the contacts in any order, provided that all signals reach low level before Vcc leaves high level. b) Depending on the state of the clock at the time of deactivation, the contacts of the SIM/ME shall be deactivated in one of two ways. If the clock is running, the contacts of the SIM/ME interface shall be deactivated in the following order: 1. RST at low level; 2. Clock stopped at low level; 3. I/O at status A; 4. Vcc inactive. If the clock is stopped and is not restarted, the ME is allowed to deactivate all the contacts in any order, provided that all signals reach low level before Vcc leaves high level. c.1) Depending on the state of the clock at the time of deactivation, the contacts of the SIM/ME interface shall be deactivated in one of two ways. If the clock is running, the contacts of the SIM/ME interface shall be deactivated in the following order: 1. RST at low level; 2. Clock stopped at low level; 3. I/O at status A; 4. Vcc inactive. If the clock is stopped and is not restarted, the ME is allowed to deactivate all the contacts in any order, provided that all signals reach low level before Vcc leaves high level. c.2) When the SIM/ME interface is deactivated for 3V/5V switching, the contacts shall be deactivated as given in c.1). d) Depending on the state of the clock at the time of deactivation, the contacts of the SIM/ME shall be deactivated in one of two ways. If the clock is running, the contacts of the SIM/ME interface shall be deactivated in the following order: 1. RST at low level; 2. Clock stopped at low level; 3. I/O at status A; 4. Vcc inactive. If the clock is stopped and is not restarted, the ME is allowed to deactivate all the contacts in any order, provided that all signals reach low level before Vcc leaves high level. e.1) Depending on the state of the clock at the time of deactivation, the contacts of the SIM/ME interface shall be deactivated in one of two ways. If the clock is running, the contacts of the SIM/ME interface shall be deactivated in the following order: 1. RST at low level; 2. Clock stopped at low level; 3. I/O at status A; 4. Vcc inactive. If the clock is stopped and is not restarted, the ME is allowed to deactivate all the contacts in any order, provided that all signals reach low level before Vcc leaves high level. e.2) When the SIM/ME interface is deactivated for 1,8V/3V switching, the contacts shall be deactivated as given in e.1). Reference: a): 3GPP TS 11.11, subclause 4.3.2. b), c.1), c.2): 3GPP TS 11.12, subclause 4.5. d), e.1), e.2): 3GPP TS 11.18, subclause 4.5.

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27.17.1.4.3 Test purpose

To verify that, depending on the state of the clock (running or stopped), the contacts of the SIM/ME interface become deactivated in the correct order, as given in the conformance requirement.

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27.17.1.4.4 Method of test

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27.17.1.4.4.1 Initial condition

The ME is connected to a SIM Simulator. The file characteristics of the directories (byte 14 of STATUS information) shall indicate that clock stop is allowed.

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27.17.1.4.4.2 Procedure

To test the requirements a), b), c.1), d) and e.1), the MS is soft powered off. To test the requirement c.2) and e.2), the ME is caused to switch the voltage on the SIM/ME interface. The SIM/ME interface is monitored until it is fully deactivated.

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27.17.1.4.5 Test requirement

The contacts of the SIM/ME interface shall be deactivated in the correct order, as given in the conformance requirements.

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27.17.1.5 SIM Type Recognition and Voltage Switching

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27.17.1.5.1 Reaction of 3V only MEs on SIM type recognition failure

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27.17.1.5.1.1 Definition

When a 3V only ME detects a failure during the SIM type recognition procedure, the ME shall reject the SIM in order to prevent any damage to the SIM.

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27.17.1.5.1.2 Conformance requirement

1) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR and before issuing any other command. The procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE". 2) If a 3V only ME cannot complete the SIM type recognition procedure the ME shall deactivate the SIM/ME interface and reject the SIM immediately without issuing any further command. This procedure shall be finished within 5 s after the "STATUS/GET RESPONSE" command. Reference: 3GPP TS 11.12 subclauses 4.3 and 4.5.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.1.3 Test purpose

1) To verify that a 3V only ME correctly performs the SIM type recognition procedure. 2) To verify that a 3V only ME deactivates the SIM/ME interface and rejects the SIM in case that the SIM does not respond to the "STATUS/GET RESPONSE" command.

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27.17.1.5.1.4 Method of test

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27.17.1.5.1.4.1 Initial condition

The ME is connected to a SIM Simulator simulating a 3V technology SIM with nominal test conditions according to table 27.2‑2. All elementary files are coded as default. The ME is powered on.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.1.4.2 Procedure

After sending the ATR the SIM simulator checks the presence of the commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator does not respond to the "STATUS/GET RESPONSE" command. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.

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27.17.1.5.1.5 Test requirement

1) Immediately after the ATR only the two commands "SELECT GSM" and "STATUS/GET RESPONSE" shall be sent by the ME. 2) The 3V only ME shall deactivate the SIM/ME interface within 5 s and reject the SIM (i.e. not activate the SIM/ME interface within the test procedure).

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27.17.1.5.2 Reaction of 3V only MEs on type recognition of 5V only SIMs

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27.17.1.5.2.1 Definition

When a 3V only ME detects a 5V only SIM during the SIM type recognition procedure, the ME shall reject the SIM in order to prevent any damage to the SIM.

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27.17.1.5.2.2 Conformance requirement

1) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR and before issuing any other command. The procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE" 2) If a 3V only ME identifies a 5V only SIM during the SIM type recognition procedure the ME shall deactivate the SIM/ME interface and reject the SIM immediately without issuing any further command. Reference: 3GPP TS 11.12 subclauses 4.3 and 4.5.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.2.3 Test purpose

1) To verify that a 3V only ME correctly performs the SIM type recognition procedure. 2) To verify that a 3V only ME deactivates the SIM/ME interface and rejects the SIM if a 5V only SIM is applied.

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27.17.1.5.2.4 Method of test

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51.010-1

27.17.1.5.2.4.1 Initial condition

The ME is connected to a SIM Simulator simulating a 3V technology SIM (to ensure that the ME can perform the SIM type recognition procedure) with nominal test conditions according to table 27.2‑2. All elementary files are coded as default. Bit 5 in byte 14 of the status information is set to "0" (i.e. 5V only SIM). The ME is powered on.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.2.4.2 Procedure

After sending the ATR the SIM simulator checks the presence of the commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator responds to the "STATUS/GET RESPONSE" command with a status information indicating a 5V only SIM. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.2.5 Test requirement

1) Immediately after the ATR only the two command "SELECT GSM" and "STATUS/GET RESPONSE" shall be sent by the ME. 2) The 3V only ME shall deactivate the SIM/ME interface immediately after receipt of the status information from the SIM (but not later than 5 s after the "STATUS/GET RESPONSE command) and reject the SIM (i.e. not activate the SIM/ME interface again within the test procedure).

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27.17.1.5.3 Reaction of 3V technology MEs on type recognition of 5V only SIMs

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27.17.1.5.3.1 Definition

When a 3V technology ME detects a 5V only SIM during the SIM type recognition procedure, the ME shall switch to 5V operation.

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27.17.1.5.3.2 Conformance requirement

1) A 3V technology ME shall initially activate the SIM at 3V (i.e. the first activation of a GSM card session. 2) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR procedure and before issuing any other command. The procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE". 3) If a 3V technology ME identifies a 5V only SIM during the SIM type recognition procedure, the ME shall switch to 5V operation mode. Switching from 3V to 5V shall only be performed by deactivating the SIM and activating it with 5V supply voltage immediately after the SIM type recognition procedure without issuing any further command. Reference: 3GPP TS 11.12 subclauses 4.3 and 4.4.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.3.3 Test purpose

1) To verify that a 3V technology ME initially activates the SIM with 3V. 2) To verify that a 3V technology ME correctly performs the SIM type recognition procedure. 3) To verify that a 3V technology ME deactivates the SIM/ME interface immediately after the SIM type recognition procedure (in order to switch the supply voltage) without issuing any further command.

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27.17.1.5.3.4 Method of test

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51.010-1

27.17.1.5.3.4.1 Initial condition

The ME is connected to a SIM Simulator simulating a 5V only SIM with nominal test conditions according to table 27.2‑1. All elementary files are coded as default. Bit 5 in byte 14 of the status information is set to "0" (i.e. 5V only SIM). The ME is powered on.

683b5b8a98f7b1390ddd5516ea9247a2

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27.17.1.5.3.4.2 Procedure

After sending the ATR the SIM simulator checks the presence of the commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator responds to the "STATUS/GET RESPONSE" command with a status information indicating a 5V only SIM. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.

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27.17.1.5.3.5 Test requirement

1) The initial activation of the SIM/ME interface shall be performed with 3V supply voltage. 2) Immediately after the ATR the two commands "SELECT GSM" and "STATUS/GET RESPONSE" shall be sent by the ME before issuing further commands. 3) The 3V technology ME shall deactivate the SIM/ME interface immediately after receipt of the status information from the SIM.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.4 Reaction of 3V technology MEs on type recognition of 3V technology SIMs

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27.17.1.5.4.1 Definition

When a 3V technology ME detects a 3V technology SIM during the SIM type recognition procedure the ME may either switch to 5V operation or stay in 3V operation.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.4.2 Conformance requirement

1) A 3V technology ME shall initially activate the SIM with a 3V (i.e. the first activation of a GSM card session). 2) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR and before issuing any other command. the procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE". 3) If a 3V technology ME identifies a 3V technology SIM during the SIM type recognition the ME may switch to 5V operation. Switching from 3V to 5V shall only be performed by deactivating the SIM and activating it with 5V supply voltage immediately after the SIM type recognition procedure without issuing any further commands. Reference: 3GPP TS 11.12, subclauses 4.3, 4.4 and 4.7.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.4.3 Test purpose

1) To verify that a 3V technology ME initially activates the SIM with 3V. 2) To verify that a 3V technology ME correctly performs the SIM type recognition procedure. 3) To verify that a 3V technology ME deactivates the SIM/ME interface immediately after the recognition of a 3V technology SIM (in order to switch the supply voltage) or proceeds with the 3V operation during the whole GSM card session without switching to 5V supply voltage.

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27.17.1.5.4.4 Method of test

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51.010-1

27.17.1.5.4.4.1 Initial condition

The ME is connected to a SIM Simulator simulating a 3V technology SIM with nominal test conditions according to table 27.2‑2. All elementary files are coded as default. Bit 5 in byte 14 of the status information is set to "1" (i.e. 3V technology SIM.) The ME is powered on.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.4.4.2 Procedure

After sending the ATR the SIM simulator checks the presence of commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator responds to the "STATUS/GET RESPONSE" command with a status information indicating a 3V technology SIM. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.

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27.27.1.5.4.5 Test requirement

1) The initial activation of the SIM/ME interface shall be performed with 3V supply voltage. 2) Immediately after the ATR the two commands "SELECT GSM" and "STATUS/GET RESPONSE: shall be sent by the ME. 3) The ME shall react in one of the following ways: a) The ME deactivates the SIM/ME interface immediately after the receipt of the status information from the SIM. b) the ME proceeds with the GSM card session without switching to another supply voltage.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.5 Reaction of 1,8V only MEs on SIM type recognition failure

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27.17.1.5.5.1 Definition

When a 1,8V only ME detects a failure during the SIM type recognition procedure, the ME shall reject the SIM in order to prevent any damage to the SIM.

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27.17.1.5.5.2 Conformance requirement

1) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR and before issuing any other command. The procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE". 2) If a 1,8V only ME cannot complete the SIM type recognition procedure the ME shall deactivate the SIM/ME interface and reject the SIM immediately without issuing any further command. This procedure shall be finished within 5 s after the "STATUS/GET RESPONSE" command. Reference: 3GPP TS 11.18 subclauses 4.3 and 4.5.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.5.3 Test purpose

1) To verify that a 1,8V only ME correctly performs the SIM type recognition procedure. 2) To verify that a 1,8V only ME deactivates the SIM/ME interface and rejects the SIM in case that the SIM does not respond to the "STATUS/GET RESPONSE" command.

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27.17.1.5.5.4 Method of test

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27.17.1.5.5.4.1 Initial condition

The ME is connected to a SIM Simulator simulating a 1,8V technology SIM with nominal test conditions according to table 27.2‑3. All elementary files are coded as default. The ME is powered on.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.5.4.2 Procedure

After sending the ATR the SIM simulator checks the presence of the commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator does not respond to the "STATUS/GET RESPONSE" command. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.5.5 Test requirement

1) Immediately after the ATR only the two commands "SELECT GSM" and "STATUS/GET RESPONSE" shall be sent by the ME. 2) The 1,8V only ME shall deactivate the SIM/ME interface within 5 s and reject the SIM (i.e. not activate the SIM/ME interface within the test procedure).

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27.17.1.5.6 Reaction of 1,8V only MEs on type recognition of 3V SIMs

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27.17.1.5.6.1 Definition

When a 1,8V only ME detects a 3V technology SIM during the SIM type recognition procedure, the ME shall reject the SIM in order to prevent any damage to the SIM. .

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27.17.1.5.6.2 Conformance requirement

1) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR and before issuing any other command. The procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE" 2) If a 1,8V only ME identifies a 3V technology SIM during the SIM type recognition procedure the ME shall deactivate the SIM/ME interface and reject the SIM immediately without issuing any further command. Reference: 3GPP TS 11.18 subclauses 4.3 and 4.5.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.6.3 Test purpose

1) To verify that a 1,8V only ME correctly performs the SIM type recognition procedure. 2) To verify that a 1,8V only ME deactivates the SIM/ME interface and rejects the SIM if a 3V technology SIM is applied.

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27.17.1.5.6.4 Method of test

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27.17.1.5.6.4.1 Initial condition

The ME is connected to a SIM Simulator simulating a 1,8V technology SIM (to ensure that the ME can perform the SIM type recognition procedure) with nominal test conditions according to table 27.2‑3. All elementary files are coded as default. Bits 6 and 5 in byte 14 of the status information are set to "01" (i.e. 3V technology SIM). The ME is powered on.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.6.4.2 Procedure

After sending the ATR the SIM simulator checks the presence of the commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator responds to the "STATUS/GET RESPONSE" command with a status information indicating a 3V technology SIM. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.6.5 Test requirement

1) Immediately after the ATR only the two command "SELECT GSM" and "STATUS/GET RESPONSE" shall be sent by the ME. 2) The 1,8V only ME shall deactivate the SIM/ME interface immediately after receipt of the status information from the SIM (but not later than 5 s after the "STATUS/GET RESPONSE command) and reject the SIM (i.e. not activate the SIM/ME interface again within the test procedure).

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27.17.1.5.7 Reaction of 1,8V technology MEs on type recognition of 3V technology SIMs

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27.17.1.5.7.1 Definition

When a 1,8V technology ME detects a 3V technology SIM during the SIM type recognition procedure, the ME shall switch to 3V operation.

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27.17.1.5.7.2 Conformance requirement

1) A 1,8V technology ME shall initially activate the SIM at 1,8V (i.e. the first activation of a GSM card session. 2) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR procedure and before issuing any other command. The procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE". 3) If a 1,8V technology ME identifies a 3V technology SIM during the SIM type recognition procedure, the ME shall switch to 3V operation mode. Switching from 1,8V to 3V shall only be performed by deactivating the SIM and activating it with 3V supply voltage immediately after the SIM type recognition procedure without issuing any further command. Reference: 3GPP TS 11.18 subclauses 4.3 and 4.4.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.7.3 Test purpose

1) To verify that a 1,8V technology ME initially activates the SIM with 1,8V. 2) To verify that a 1,8V technology ME correctly performs the SIM type recognition procedure. 3) To verify that a 1,8V technology ME deactivates the SIM/ME interface immediately after the SIM type recognition procedure (in order to switch the supply voltage) without issuing any further command.

683b5b8a98f7b1390ddd5516ea9247a2

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27.17.1.5.7.4 Method of test

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27.17.1.5.7.4.1 Initial condition

The ME is connected to a SIM Simulator simulating a 3V technology SIM with nominal test conditions according to table 27.2‑2. All elementary files are coded as default. Bits 6 and 5 in byte 14 of the status information are set to "01" (i.e. 3V technology SIM). The ME is powered on.

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27.17.1.5.7.4.2 Procedure

After sending the ATR the SIM simulator checks the presence of the commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator responds to the "STATUS/GET RESPONSE" command with a status information indicating a 3V technology SIM. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.

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27.17.1.5.7.5 Test requirement

1) The initial activation of the SIM/ME interface shall be performed with 1,8V supply voltage. 2) Immediately after the ATR the two commands "SELECT GSM" and "STATUS/GET RESPONSE" shall be sent by the ME before issuing further commands. 3) The 1,8V technology ME shall deactivate the SIM/ME interface immediately after receipt of the status information from the SIM.

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27.17.1.5.8 Reaction of 1,8V technology MEs on type recognition of 1,8V technology SIMs

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27.17.1.5.8.1 Definition

When a 1,8V technology ME detects a 1,8V technology SIM during the SIM type recognition procedure the ME may either switch to 3V operation or stay in 1,8V operation.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.8.2 Conformance requirement

1) A 1,8V technology ME shall initially activate the SIM with a 1,8V (i.e. the first activation of a GSM card session). 2) The procedure for deriving the identification bit (SIM type recognition procedure) shall be performed by the ME immediately after the ATR and before issuing any other command. the procedure shall consist of the two commands "SELECT GSM" and "STATUS/GET RESPONSE". 3) If a 1,8V technology ME identifies a 1,8V technology SIM during the SIM type recognition the ME may switch to 3V operation. Switching from 1,8V to 3V shall only be performed by deactivating the SIM and activating it with 3V supply voltage immediately after the SIM type recognition procedure without issuing any further commands. Reference: 3GPP TS 11.18, subclauses 4.3, 4.4 and 4.7.

683b5b8a98f7b1390ddd5516ea9247a2

51.010-1

27.17.1.5.8.3 Test purpose

1) To verify that a 1,8V technology ME initially activates the SIM with 1,8V. 2) To verify that a 1,8V technology ME correctly performs the SIM type recognition procedure. 3) To verify that a 1,8V technology ME deactivates the SIM/ME interface immediately after the recognition of a 1,8V technology SIM (in order to switch the supply voltage) or proceeds with the 1,8V operation during the whole GSM card session without switching to 3V supply voltage.

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27.17.1.5.8.4 Method of test

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27.17.1.5.8.4.1 Initial condition

The ME is connected to a SIM Simulator simulating a 1,8V technology SIM with nominal test conditions according to table 27.2‑3. All elementary files are coded as default. Bits 6 and 5 in byte 14 of the status information are set to "11" (i.e. 1,8V technology SIM.) The ME is powered on.

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27.17.1.5.8.4.2 Procedure

After sending the ATR the SIM simulator checks the presence of commands "SELECT GSM" and "STATUS/GET RESPONSE" as the first and only commands of the GSM card session. The SIM simulator responds to the "STATUS/GET RESPONSE" command with a status information indicating a 1,8V technology SIM. The SIM/ME interface is monitored for at least 1 minute until the MS is switched off.

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27.17.1.5.8.5 Test requirement

1) The initial activation of the SIM/ME interface shall be performed with 1,8V supply voltage. 2) Immediately after the ATR the two commands "SELECT GSM" and "STATUS/GET RESPONSE: shall be sent by the ME. 3) The ME shall react in one of the following ways: a) The ME deactivates the SIM/ME interface immediately after the receipt of the status information from the SIM. b) the ME proceeds with the GSM card session without switching to another supply voltage.

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27.17.2 Electrical tests on each ME contact

The following tables give the electrical conditions that must be applied by the SIM simulator to all contacts during a test if not stated otherwise. Table 27.2-1: Nominal test conditions on 5V SIM/ME interface Contacts Low level High level Max. capacitive load C1 (Vcc) --- I = 10 mA C2 (RST) I = ‑200 A I = +20 A 30 pF C3 (CLK) I = ‑200 A I = +20 A 30 pF C5 (GND) --- --- C6 ((Vpp) --- I = 0 mA C7 (I/O) ME input ME output V = 0 V I = ‑1 mA I = +20 A I = +20 A 30 pF Table 27.2-2: Nominal test conditions on 3V SIM/ME interface Contacts Low level High level Max. capacitive load C1 (Vcc) --- I = 6 mA C2 (RST) I = ‑200 A I = +200 A 30 pF C3 (CLK) I = ‑20 A I = +20 A 30 pF C5 (GND) --- --- C6 ((Vpp) --- --- C7 (I/O) ME input ME output V = 0 V I = ‑1 mA I = +20 A I = +20 A 30 pF Table 27.2-3: Nominal test conditions on 1,8V SIM/ME interface Contacts Low level High level Max. capacitive load C1 (Vcc) --- I = 4 mA C2 (RST) I = ‑200 A I = +200 A 30 pF C3 (CLK) I = ‑20 A I = +20 A 30 pF C5 (GND) --- --- C6 ((Vpp) --- --- C7 (I/O) ME input ME output V = 0 V I = ‑1 mA I = +20 A I = +20 A 30 pF NOTE 1: Measurements of contacts voltage levels can be done at any time since the beginning of activation of the SIM and the end of deactivation of the SIM (ISO/IEC 7816‑3 subclause 5.1). NOTE 2: The reference point of all measurements is the contact C5 (Ground). NOTE 3: Currents flowing into the SIM are considered positive.