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683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.1.1.5 Test requirement | The voltage on contact C1 of the SIM/ME interface shall be within the ranges specified in the conformance requirements. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.1.2 Test 2 | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.1.2.1 Definition | When the mobile station is activated, the supply voltage on the SIM/ME interface shall be able to counteract spikes in the current consumption of the SIM up to the limits given in the conformance requirement, ensuring that the supply voltage stays in the specified range. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.1.2.2 Conformance requirement | a) The voltage on contact C1 of the SIM/ME interface shall be 5V ± 10 % for spikes in the current consumption with a maximum charge of 40 nAs with no more than 400 ns duration and an amplitude of at most 200 mA.
b) The voltage on contact C1 of the SIM/ME interface shall be 3V ± 10 % for spikes in the current consumption with a maximum charge of 12 nAs with no more than 400 ns duration and an amplitude of at most 60 mA.
c.1) The voltage on contact C1 of the SIM/ME interface shall be 5V ± 10 % for spikes in the current consumption with a maximum charge of 40 nAs with no more than 400 ns duration and an amplitude of at most 200 mA when the interface is in 5V operation mode.
c.2) The voltage on contact C1 of the SIM/ME interface shall be 3V ± 10 % for spikes in the current consumption with a maximum charge of 12 nAs with no more than 400 ns duration and an amplitude of at most 60 mA when the interface is in 3V operation mode.
d) The voltage on contact C1 of the SIM/ME interface shall be 1,8V ± 10 % for spikes in the current consumption with a maximum charge of 12 nAs with no more than 400 ns duration and an amplitude of at most 60 mA.
e.1) The voltage on contact C1 of the SIM/ME interface shall be 3V ± 10 % for spikes in the current consumption with a maximum charge of 12 nAs with no more than 400 ns duration and an amplitude of at most 60 mA when the interface is in 3V operation mode.
e.2) The voltage on contact C1 of the SIM/ME interface shall be 1,8V ± 10 % for spikes in the current consumption with a maximum charge of 12 nAs with no more than 400 ns duration and an amplitude of at most 60 mA when the interface is in 1,8V operation mode.
Reference:
a), c.1): 3GPP TS 11.11, subclause 5.2.
b), c.2), e.1): 3GPP TS 11.12, clause 5.
d), e.2): 3GPP TS 11.18, clause 5. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.1.2.3 Test purpose | To verify that the ME keeps the voltage on contact C1 of the SIM/ME interface within the specified range for the conditions given in the conformance requirement. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.1.2.4 Method of test | Initial condition
The ME is connected to a SIM Simulator.
The MS is activated.
The remaining contacts of the SIM/ME interface are held in nominal test condition (see 3GPP TS 11.10 subclause 27.17.2).
Procedure
To test the requirements a) and c-1), the voltage on contact C1 of the SIM/ME interface is monitored and the following current spikes are applied:
1) continuous spikes:
current amplitude 20 mA
current offset 0 mA
Duration 100 ns
Pause 100 ns
2) continuous spikes:
current 20 mA
current offset 0 mA
Duration 400 ns
Pause 400 ns
3) continuous spikes:
current amplitude 15 mA
current offset 5 mA
(i.e. maximum amplitude = 5 mA + 15 mA = 20 mA
Duration 150 ns
Pause 300 ns
4) random spikes:
current amplitude 200 mA
current offset 0 mA
Duration 200 ns
Pause between 0,1 ms and 500 ms, randomly varied
5) random spikes:
current amplitude 100 mA
current offset 0 mA
Duration 400 ns
Pause between 0,1 ms and 500 ms, randomly varied
6) random spikes
current amplitude 195 mA
current offset 5mA
(i.e. maximum amplitude = 5 mA + 195 mA = 200 mA
Duration 200 ns
Pause between 0,1 ms and 500 ms, randomly varied
To test the requirements b), c.2), d), e.1) and e.2) the voltage on contact C1 of the SIM/ME interface is monitored and the following current spikes are applied:
1) continuous spikes:
current amplitude 12 mA
current offset 0 mA
Duration 100 ns
Pause 100 ns
2) continuous spikes:
current 12 mA
current offset 0 mA
Duration 400 ns
Pause 400 ns
3) continuous spikes:
current amplitude 9 mA
current offset 3 mA
(i.e. maximum amplitude = 3 mA + 9 mA = 12 mA
Duration 150 ns
Pause 300 ns
4) random spikes:
current amplitude 60 mA
current offset 0 mA
Duration 200 ns
Pause between 0,1 ms and 500 ms, randomly varied
5) random spikes:
current amplitude 30 mA
current offset 0 mA
Duration 400 ns
Pause between 0,1 ms and 500 ms, randomly varied
6) random spikes
current amplitude 57 mA
current offset 3 mA
(i.e. maximum amplitude = 3 mA + 57 mA = 60 mA
Duration 200 ns
Pause between 0,1 ms and 500 ms, randomly varied
NOTE: The specified spike durations are measured at 50 % of the spike amplitude. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.1.2.5 Test requirement | The voltage on contact C1 of the SIM/ME interface shall be within the ranges specified in the conformance requirements. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.2 Electrical tests on contact C2 | C2 = Reset (RST). |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.2.1 Definition | When the mobile station is activated, the voltage on contact C2 of the SIM/ME interface shall remain in the specified range in order to ensure correct operation and to prevent any damage to the SIM. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.2.2 Conformance requirement | a) The voltage on contact C2 (RST) of the SIM/ME interface shall be between ‑0,3V and +0,6V for a current of ‑200 A in low state and between 3,8V and Vcc + 0,3V for a current of +20 A in high state.
b) The voltage on contact C2 (RST) of the SIM/ME interface shall be between ‑0,3V and +0,7V for a current of ‑200 A in low state and between 2,15 V and Vcc + 0,3V for a current of +200 A in high state.
c.1) The voltage on contact C2 (RST) of the SIM/ME interface shall be between ‑0,3V and +0,6V for a current of ‑200 A in low state and between 3,8V and Vcc + 0,3V for a current of +20 A in high state when the interface is in 5V operation mode.
c.2) The voltage on contact C2 (RST) of the SIM/ME interface shall be between ‑0,3V and +0,7V for a current of ‑200 A in low state and between 2,15 V and Vcc + 0,3V for a current of +200 A in high state when the interface is in 3V operation mode.
d) The voltage on contact C2 (RST) of the SIM/ME interface shall be between ‑0,3V and +0,47V for a current of ‑200 A in low state and between 1,3 V and Vcc + 0,3V for a current of +200 A in high state.
e.1) The voltage on contact C2 (RST) of the SIM/ME interface shall be between ‑0,3V and +0,7V for a current of ‑200 A in low state and between 2,15 V and Vcc + 0,3V for a current of +200 A in high state when the interface is in 3V operation mode.
e.2) The voltage on contact C2 (RST) of the SIM/ME interface shall be between ‑0,3V and +0,47V for a current of ‑200 A in low state and between 1,3 V and Vcc + 0,3V for a current of +200 A in high state when the interface is in 1,8V operation mode.
Reference:
a), c.1): 3GPP TS 11.11, clause 5.
b), c.2), e.1): 3GPP TS 11.12, clause 5.
d), e.2): 3GPP TS 11.18, clause 5. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.2.3 Test purpose | To verify that the ME keeps the voltage on contact C2 (RST) of the SIM/ME interface within the specified range, as given in the conformance requirement. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.2.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.2.4.1 Initial condition | The ME is connected to a SIM Simulator.
The MS is activated.
The remaining contacts of the SIM/ME interface are held in nominal test conditions (see 3GPP TS 11.10 subclause 27.17.2). |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.2.4.2 Procedure | The voltage on contact C2 (RST) of the SIM/ME interface is measured. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.2.5 Test requirement | The voltage on contact C2 (RST) of the SIM/ME interface shall be within the range specified in the conformance requirement. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.3 Electrical tests on contact C3 | C3 = Clock (CLK). |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.3.1 Definition | When the mobile station is activated, the voltage, the rise/fall time of the signal, the clock cycle ratio and the frequency on contact C3 of the SIM/ME interface shall remain in the specified range in order to ensure correct operation and to prevent any damage to the SIM.
. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.3.2 Conformance requirement | a.1) The voltage on contact C3 (CLK) of the SIM/ME interface shall be between ‑0,3V and +0,5V for a current of ‑200 A in low state and between 3,15V and Vcc +0,3V for a current of +20 A in high state.
a.2) The rise and the fall time of the clock signal shall not exceed 9 % of the clock period .
a.3) The cycle ratio of the clock signal shall be between 40 % and 60 % of the period, in steady state.
a.4) The frequency of the clock signal shall be between 1 MHz and 5 MHz.
b.1) The voltage on contact C3 (CLK) of the SIM/ME interface shall be between ‑0,3V and +0,6V for a current of ‑20 A in low state and between 1,9V and Vcc +0,3V for a current of +20 A in high state.
b.2) The rise and the fall time of the clock signal shall not exceed 50 ns.
b.3) The cycle ratio of the clock signal shall be between 40 % and 60 % of the period, in steady state.
b.4) The frequency of the clock signal shall be between 1 MHz and 4 MHz.
c.1) The voltage on contact C3 (CLK) of the SIM/ME interface shall be between ‑0,3V and +0,5V for a current of ‑200 A in low state and between 3,15V and Vcc +0,3V for a current of +20 A in high state when the interface is in 5V operation mode.
c.2) The rise and the fall time of the clock signal shall not exceed 9 % of the clock period when the interface is in 5V operation mode.
c.3) The cycle ratio of the clock signal shall be between 40 % and 60 % of the period, in steady state when the interface is in 5V operation mode.
c.4) The frequency of the clock signal shall be between 1 MHz and 5 MHz when the interface is in 5V operation mode.
c.5) The voltage on contact C3 (CLK) of the SIM/ME interface shall be between ‑0,3V and +0,6V for a current of ‑20 A in low state and between 1,9V and Vcc +0,3V for a current of +20 A in high state when the interface is in 3V operation mode.
c.6) The rise and the fall time of the clock signal shall not exceed 50 ns when the interface is in 3V operation mode.
c.7) The cycle ratio of the clock signal shall be between 40 % and 60 % of the period, in steady state when the interface is in 3V operation mode.
c.8) The frequency of the clock signal shall be between 1 MHz and 4 MHz when the interface is in 3V operation mode.
d.1) The voltage on contact C3 (CLK) of the SIM/ME interface shall be between ‑0,3V and +0,47V for a current of ‑20 A in low state and between 1,21V and Vcc +0,3V for a current of +20 A in high state.
d.2) The rise and the fall time of the clock signal shall not exceed 50 ns.
d.3) The cycle ratio of the clock signal shall be between 40 % and 60 % of the period, in steady state.
d.4) The frequency of the clock signal shall be between 1 MHz and 4 MHz.
e.1) The voltage on contact C3 (CLK) of the SIM/ME interface shall be between ‑0,3V and +0,47V for a current of ‑20 A in low state and between 1,21V and Vcc +0,3V for a current of +20 A in high state when the interface is in 1,8V operation mode.
e.2) The rise and the fall time of the clock signal shall not exceed 50 ns when the interface is in 1,8V operation mode.
e.3) The cycle ratio of the clock signal shall be between 40 % and 60 % of the period, in steady state when the interface is in 1,8V operation mode.
e.4) The frequency of the clock signal shall be between 1 MHz and 4 MHz when the interface is in 1,8V operation mode.
e.5) The voltage on contact C3 (CLK) of the SIM/ME interface shall be between ‑0,3V and +0,6V for a current of ‑20 A in low state and between 1,9V and Vcc +0,3V for a current of +20 A in high state when the interface is in 3V operation mode.
e.6) The rise and the fall time of the clock signal shall not exceed 50 ns when the interface is in 3V operation mode.
e.7) The cycle ratio of the clock signal shall be between 40 % and 60 % of the period, in steady state when the interface is in 3V operation mode.
e.8) The frequency of the clock signal shall be between 1 MHz and 4 MHz when the interface is in 3V operation mode.
Reference:
a), c.1,2,3,4) 3GPP TS 11.11, clause 5 and subclause 5.4.
b), c.5,6,7,8), e.1,2,3,4) 3GPP TS 11.12, subclause 4.2 and clause 5.
d), e.5,6,7,8) 3GPP TS 11.18, subclause 4.2 and clause 5. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.3.3 Test purpose | To verify that the ME keeps the voltage, the rise and fall time, the cycle ratio and the frequency on contact C3 (CLK) of the SIM/ME interface within the ranges specified in the conformance requirements. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.3.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.3.4.1 Initial condition | The ME is connected to a SIM Simulator.
The MS is activated.
The remaining contacts of the SIM/ME interface are held in nominal test conditions (see 3GPP TS 11.10 subclause 27.17.2). |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.3.4.2 Procedure | The voltage, the rise/fall time, the clock cycle ratio and the frequency on contact C3 (CLK) of the SIM/ME interface are measured. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.3.5 Test requirement | The voltage, the rise and fall time, the cycle ratio and the frequency on contact C3 (CLK) of the SIM/ME interface shall be within the ranges specified in the conformance requirements.
27.17.2.4 [Not used] |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.5 Electrical tests on contact C7 | C7 = Input - output (I/O). |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.5.1 Definition | When the mobile station is activated, the ME shall keep the voltage, the current and the rise/fall time of the signal on contact C7 of the SIM/ME interface within the specified range in order to ensure correct operation and to prevent any damage to the SIM.. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.5.2 Conformance requirement | a.1) ME receiving state A (low state):
With an imposed voltage of 0V the current flowing out of the ME shall not exceed 1 mA.
a.2) ME transmitting state A (low state):
The voltage shall be between ‑0,3V and 0,4V when a current of 1 mA flowing into the ME is applied.
a.3) ME transmitting or receiving state Z (high state):
The voltage shall be between +3,8V and Vcc + 0,3V when a current of 20 A flowing out of the ME is applied.
a.4) The rise time and the fall time of the I/O signal shall not exceed 1 s.
b.1) ME receiving state A (low state):
With an imposed voltage of 0V the current flowing out of the ME shall not exceed 1 mA.
b.2) ME transmitting state A (low state):
The voltage shall be between ‑0,3V and 0,4V when a current of 1 mA flowing into the ME is applied.
b.3) ME transmitting or receiving state Z (high state):
The voltage shall be between 0,7*Vcc and Vcc + 0,3V when a current of 20 A flowing out of the ME is applied.
b.4) The rise time and the fall time of the I/O signal shall not exceed 1 s.
c.1) ME receiving state A (low state):
With an imposed voltage of 0V the current flowing out of the ME shall not exceed 1 mA when the ME is in 5V operation mode.
c.2) ME transmitting state A (low state):
The voltage shall be between ‑0,3V and 0,4V when a current of 1 mA flowing into the ME is applied when the ME is in 5V operation mode.
c.3) ME transmitting or receiving state Z (high state):
The voltage shall be between +3,8V and Vcc + 0,3V when a current of 20 A flowing out of the ME is applied when the ME is in 5V operation mode.
c.4) The rise time and the fall time of the I/O signal shall not exceed 1 s when the ME is in 5V operation mode.
c.5) ME receiving state A (low state):
With an imposed voltage of 0V the current flowing out of the ME shall not exceed 1 mA when the ME is in 3V operation mode.
c.6) ME transmitting state A (low state):
The voltage shall be between ‑0,3V and 0,4V when a current of 1 mA flowing into the ME is applied when the ME is in 3V operation mode.
c.7) ME transmitting or receiving state Z (high state):
The voltage shall be between 0,7*Vcc and Vcc + 0,3V when a current of 20 A flowing out of the ME is applied when the ME is in 3V operation mode.
c.8) The rise time and the fall time of the I/O signal shall not exceed 1 s when the ME is in 3V operation mode.
d.1) ME receiving state A (low state):
With an imposed voltage of 0V the current flowing out of the ME shall not exceed 1 mA.
d.2) ME transmitting state A (low state):
The voltage shall be between ‑0,3V and 0,3V when a current of 1 mA flowing into the ME is applied.
d.3) ME transmitting or receiving state Z (high state):
The voltage shall be between 0,7*Vcc and Vcc + 0,3V when a current of 20 A flowing out of the ME is applied.
d.4) The rise time and the fall time of the I/O signal shall not exceed 1 s.
e.1) ME receiving state A (low state):
With an imposed voltage of 0V the current flowing out of the ME shall not exceed 1 mA when the ME is in 3V operation mode.
e.2) ME transmitting state A (low state):
The voltage shall be between ‑0,3V and 0,4V when a current of 1 mA flowing into the ME is applied when the ME is in 3V operation mode.
e.3) ME transmitting or receiving state Z (high state):
The voltage shall be between 0,7*Vcc and Vcc + 0,3V when a current of 20 A flowing out of the ME is applied when the ME is in 3V operation mode.
e.4) The rise time and the fall time of the I/O signal shall not exceed 1 s when the ME is in 3V operation mode.
e.5) ME receiving state A (low state):
With an imposed voltage of 0V the current flowing out of the ME shall not exceed 1 mA when the ME is in 1,8V operation mode.
e.6) ME transmitting state A (low state):
The voltage shall be between ‑0,3V and 0,3V when a current of 1 mA flowing into the ME is applied when the ME is in 1,8V operation mode.
e.7) ME transmitting or receiving state Z (high state):
The voltage shall be between 0,7*Vcc and Vcc + 0,3V when a current of 20 A flowing out of the ME is applied when the ME is in 1,8V operation mode.
e.8) The rise time and the fall time of the I/O signal shall not exceed 1 s when the ME is in 3V operation mode.
Reference:
a), c.1,2,3,4) 3GPP TS 11.11, clause 5.
b), c-5,6,7,8), e.1,2,3,4) 3GPP TS 11.12, clause 5.
d), e-5,6,7,8) 3GPP TS 11.18, clause 5. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.5.3 Test purpose | To verify that the ME keeps the voltage, the current and the rise and fall times of the signal on contact C7 (I/O) of the SIM/ME interface within the ranges specified in the conformance requirements. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.5.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.5.4.1 Initial condition | The ME is connected to a SIM Simulator.
The MS is activated.
The remaining contacts of the SIM/ME interface are held in nominal test conditions (see 3GPP TS 11.10 subclause 27.17.2). |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.5.4.2 Procedure | The voltage, the current and the rise/fall time on contact C7 (I/O) of the SIM/ME interface are measured. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.17.2.5.5 Test requirement | The voltage, the current and the rise and fall times of the signal on contact C7 (I/O) of the SIM/ME interface shall be within the ranges specified in the conformance requirements. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18 Fixed Dialling Number (FDN) | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1 ME and SIM with FDN activated | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.1 EFADN invalidated and not readable or updatable | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.1.1 Definition | Fixed Dialling Number (FDN) is a service defined for the SIM. An activated FDN service results in call restrictions for the MS. The call restrictions are controlled by the ME. To ascertain the type of SIM and state of FDN the MS runs the FDN capability request procedure during SIM/ME initialization. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.1.2 Conformance requirement | 1. Recognizing the state of the SIM (FDN enabled) the MS shall perform the SIM initialization procedure as specified.
2. The MS allows call set-up to a directory number as stored in EFFDN.
3. The MS allows call set-up to a directory number as stored in EFFDN and extended by digits in the end.
4. The MS does not allow call set-up to a directory number stored in EFFDN but with missing digits at the end.
5. The MS does not allow call set-up to a directory number having no reference in EFFDN.
6. The MS allows call set-up of an emergency call.
7. For PCS 1 900: To verify the requirement 6 above by using the emergency call number 911.
Reference:
3GPP TS 11.11, subclauses 9.3, 10.2.7, 10.3.2, 11.2.1 and 11.5.1, 3GPP TS 02.07, subclause 3.2. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.1.3 Test purpose | 1. To verify that the ME as a result of the state of the SIM rehabilitates EFIMSI and EFLOCI during SIM/ME initialization procedure.
2. To verify that the ME allows call set-up to a FDN number.
3. To verify that the ME allows call set-up to a FDN number extended by some digits in the end.
4. To verify that the ME rejects call set-up to a FDN number not completely corresponding to an entry in EFFDN .
5. To verify that the ME rejects call set-up to number having no reference in EFFDN.
6. To verify that the ME allows emergency call set-up.
7. For PCS 1 900: To verify the requirement 6 above by using the emergency call number 911.
Note: Test purpose 6 is not applicable for a MS not supporting speech (See Specific PICS Statements) |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.1.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.1.4.1 Initial conditions | The SS transmits on the BCCH, with the following network parameters
Attach/detach: disabled.
LAI-MCC: 246
LAI-MNC 81 or 813 (see Note 0)
LAI-LAC: 0001
LAI (MCC/MNC/LAC): 246/81/0001 or 246/813/0001 (see Note 0).
Access control: unrestricted.
The default FDN-SIM with FDN service enabled and EFADN invalidated and neither readable nor updatable is installed into the ME.
Specific PICS Statements
Speech supported for Full rate version 1 (TSPC_AddInfo_Full_rate_version_1)
Speech supported for Half rate version 1 (TSPC_AddInfo_Half_rate_version_1)
Speech supported for Full rate version 2 (TSPC_AddInfo_Full_rate_version_2)
Speech supported for Full rate version 3 (TSPC_AddInfo_Full_rate_version_3)
Speech supported for Half rate version 3 (TSPC_AddInfo_Half_rate_version_3) |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.1.4.2 Procedure | a) The MS is powered on and PIN1 is entered.
b) Using the MMI a call set-up to the fixed dialling number 1 is attempted.
c) Using the MMI a call set-up to the fixed dialling number 2 extended by "123" in the end is attempted.
d) Using the MMI a call set-up to a number which is equal to the fixed dialling number 3 without the last digit is attempted, e.g. by recalling the fixed dialling number 3 and deleting the last digit (only in display).
e) Using the MMI a call set-up to the number "1234567" is attempted.
f) Using the MMI an emergency call set-up is attempted. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.1.5 Test requirement | 1) After step a) the MS is registered and in idle state.
2) After steps b) and c) the MS shall allow call set-up and send the requested number across the air interface.
3) After steps d) and e) the MS shall prevent call set-up.
4) After step f) the MS shall allow emergency call set-up and send the requested number across the air interface. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.2 EFADN invalidated but readable and updatable | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.2.1 Definition | Fixed Dialling Number (FDN) is a service defined for the SIM. An activated FDN service results in call restrictions for the MS. The call restrictions are controlled by the ME. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.2.2 Conformance requirement | The MS allows call set-up to a directory number as stored in EFFDN and extended by digits added from an EFADN.
Reference:
3GPP TS 11.11, subclauses 9.3, 10.2.7, 10.3.2, 11.2.1 and 11.5.1, 3GPP TS 02.07, subclause 3.2. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.2.3 Test purpose | To verify that the ME allows call set-up to a FDN number extended by digits from an EFADN. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.2.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.2.4.1 Initial conditions | The SS transmits on the BCCH, with the following network parameters
Attach/detach: disabled.
LAI-MCC: 246
LAI-MNC 81 or 813 (see Note 0)
LAI-LAC: 0001
LAI (MCC/MNC/LAC): 246/81/0001 or 246/813/0001 (see Note 0).
Access control: unrestricted.
The default FDN-SIM with FDN service enabled and EFADN invalidated but readable and updatable is installed into the ME. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.2.4.2 Procedure | a) The MS is powered on and PIN1 is entered.
b) Using the MMI a call set-up to the fixed dialling number 1 extended by the abbreviated dialling number 1 in the end is attempted. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.1.2.5 Test requirement | 1) After step a) the MS is registered and in idle state.
2) After steps b) the MS shall allow call set-up and send the requested number across the air interface. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.2 ME and SIM with FDN deactivated | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.2.1 Definition | Fixed Dialling Number (FDN) is a service defined for the SIM. An activated FDN service results in call restrictions for the MS. Only directory numbers which are stored in the EFFDN may be dialled by the MS. The call restrictions are controlled by the ME. To ascertain the type of SIM and state of FDN the MS runs the FDN capability request procedure during SIM/ME initialization. Deactivation of the service by the subscriber is possible under the control of PIN2 and switches the SIM into a "normal", non restrictive SIM. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.2.2 Conformance requirement | 1. Recognizing the state of the SIM (FDN disabled) the MS correctly performs the SIM initialization procedure.
2. The MS allows call set-up to a directory number as stored in EFFDN.
3. The MS allows call set-up to a directory number as stored in EFADN.
4. The MS allows call set-up to a directory number given in manually.
Reference:
3GPP TS 11.11, subclauses 10.2.7, 10.3.2, 11.2.1 and 11.5.1, 3GPP TS 02.07,subclause 3.2. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.2.3 Test purpose | 1. To verify that the ME as a result of the state of the SIM correctly performs the SIM/ME initialization procedure.
2. To verify that the ME allows call set-up to a FDN number.
3. To verify that the ME allows call set-up to a ADN number.
4. To verify that the ME allows call set-up to manually given number. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.2.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.2.4.1 Initial conditions | The SS transmits on the BCCH, with the following network parameters
Attach/detach: disabled.
LAI-MCC: 246
LAI-MNC 81 or 813 (see Note 0)
LAI-LAC: 0001
LAI (MCC/MNC/LAC): 246/81/0001 or 246/813/0001 (see Note 0).
Access control: unrestricted.
The default FDN SIM with FDN service disabled is installed into the ME and the MS is powered on. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.2.4.2 Procedure | a) Using the MMI a call set-up to the fixed dialling number 1 is attempted.
b) Using the MMI a call set-up to the abbreviated dialling number 1 is attempted.
c) Using the MMI a call set-up to the number "1234567" is attempted. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.2.5 Test requirement | After steps a), b) and c) the MS shall allow call set-up and send the requested number across the air interface. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.3 Enabling, disabling and updating of FDN | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.3.1 Definition | FDN may be enabled and disabled by the subscriber under control of PIN2. Fixed dialling numbers are read with PIN and updated under control of PIN2. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.3.2 Conformance requirement | 1. Recognizing the state of the SIM (FDN enabled) the MS shall perform the SIM initialization procedure as specified.
2. The MS shall allow updating of EFFDN by the use of PIN2.
3. The MS provides means to disable the FDN service by the use of PIN2.
4. The MS shall allow the use of EFADN after disabling of FDN.
Reference:
3GPP TS 11.11, subclauses 10.2.7, 10.3.2, 11.2.1 and 11.5.1, 3GPP TS 02.07, subclause 3.2. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.3.3 Test purpose | 1. To verify that the ME as a result of the state of the SIM rehabilitates EFIMSI and EFLOCI during SIM/ME initialization procedure.
2. To verify that the ME correctly performs the update of a number in EFFDN.
3. To verify that the ME correctly disables FDN service.
4. To verify that the ME recognizes disabling of FDN and allows access to EFADN. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.3.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.3.4.1 Initial conditions | The SS transmits on the BCCH, with the following network parameters
Attach/detach: disabled.
LAI-MCC: 246
LAI-MNC 81 or 813 (see Note 0)
LAI-LAC: 0001
LAI (MCC/MNC/LAC): 246/81/0001 or 246/813/0001 (see Note 0).
Access control: unrestricted.
The default FDN SIM with FDN service enabled is installed into the ME and the MS is powered on. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.3.4.2 Procedure | a) The MS is powered on and PIN 1 is entered.
b) Using the MMI the directory number "+876543210" is stored in EFFDN as fixed dialling number 1 (The alpha identifier is not changed).
c) Using the MMI the FDN disabling procedure is performed. On request of the MS PIN2 is entered.
d) Using the MMI a call set-up to the abbreviated dialling number 1 is attempted.
e) The MS is soft-powered down. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.18.3.5 Test requirement | 1) After step a) the MS is registered and in idle state.
2) After step c) the MS shall indicate that the FDN disabling procedure has been successful.
3) After step d) the MS shall allow call set-up and send the requested number across the air interface.
4) After step e) the value of bit 1 of byte 12 in the response data of EFADN in the SIM shall be "1" and record 1 in EFFDN, shall contain the following values:
B1
B2
B3
B4
B5
B6
B7
B8
B9
B10
46
44
4E
31
31
31
06
91
78
56
B11
B12
B13
B14
B15
B16
B17
B18
B19
B20
34
12
F0
FF
FF
FF
FF
FF
FF
FF |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.19 Phase identification | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.19.1 Definition | The phase of the SIM is indicated in the Elementary File EFPHASE. This allows the ME to identify the phase of the SIM and adapt its functionality accordingly. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.19.2 Conformance requirement | The phase of the card shall be determined as part of the initialization procedure.
Reference:
3GPP TS 11.11, subclauses 10.2.16 and 11.2.1. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.19.3 Test purpose | To verify that the ME requests the SIM phase as part of the initialization procedure. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.19.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.19.4.1 Initial conditions | The ME is connected to the SIM simulator, and powered off.
The default values are used. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.19.4.2 Procedure | a) The mobile is powered on.
b) The SIM simulator monitors the SIM initialization procedure. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.19.5 Test requirement | The ME shall request the phase of the SIM as part of the initialization procedure. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.20 SIM presence detection | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.20.1 Definition | The presence of the SIM is an essential requirement for setting up and maintaining a call. The ME detects the presence of the SIM electronically. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.20.2 Conformance requirement | To ensure that the SIM has not been removed during a card session, the ME shall send STATUS commands within all 30 second periods of inactivity on the SIM‑ME interface during a call. Inactivity in this case is defined as starting at the end of the last communication or the last issued STATUS command. If the ME detects that the SIM has been removed, a possibly ongoing call shall be terminated by the ME within 5 s at the latest after having detected the SIM removal.
Reference:
3GPP TS 11.11, subclause 11.2.8 and TS 102.221, subclause 14.5.2. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.20.3 Test purpose | 1. To verify that there are no periods of inactivity on the SIM‑ME interface greater than 30 seconds during a call.
2. To verify that the ME terminates a call within 5 s at the latest after having received a wrong response to the STATUS command. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.20.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.20.4.1 Initial conditions | The ME is connected to the SIM-simulator.
All elementary files are coded as default. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.20.4.2 Procedure | a) A call is set up using the generic call setup.
b) The SIM simulator monitors the periods of inactivity on the SIM-ME interface.
c) After 3 minutes, the call is cleared.
d) A call is set up using the generic call setup.
e) After one minute after the call was successfully set up, the SIM simulator responds to a STATUS command with the response data indicating a DF different from the current DF. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.20.5 Test requirements | 1. During step b), the time periods of inactivity shall not be longer than 30 s.
2. After step e), the ME shall terminate the call within 5 s at the latest after having received the wrong response to the STATUS command. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21 Advice of Charge (AoC) | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.1 AoC not supported by SIM | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.1.1 Definition | If the ME under test supports Advice of Charge Charging, it shall still look at the capability of the SIM, before responding to any AoCC information from the network. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.1.2 Conformance requirement | 1. An MS not supporting AoCC and in the outgoing call / U4 call delivered state, on receipt of a CONNECT message containing AoCC information shall acknowledge the CONNECT message but ignore and not acknowledge the AoCC information sent within the CONNECT.
2. An MS not supporting AoCC and in the outgoing call / U4 call delivered state, on receipt of a FACILITY message containing AoCC information shall ignore and not acknowledge the AoCC information sent within the FACILITY.
3. An MS not supporting AoCC and in the incoming call / U9 call confirmed state, on receipt of a FACILITY message containing AoCC information shall ignore and not acknowledge the AoCC information sent within the FACILITY.
4. An MS not supporting AoCC and in the U10 call active state, on receipt of a FACILITY message containing AoCC information, shall ignore and not acknowledge the AoCC information sent within the FACILITY.
References:
3GPP TS 03.86, subclauses 1.2, 1.3, 2.2, 2.3; 3GPP TS 04.86, clause 2. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.1.3 Test purpose | 1. To verify that an MS not supporting AoCC (where the ME does support AoCC but the SIM does not) and in the outgoing call / U4 call delivered state, on receipt of a CONNECT message containing AoCC information shall acknowledge the CONNECT message but ignore and not acknowledge the AoCC information sent within the CONNECT.
2. To verify that an MS not supporting AoCC (where the ME does support AoCC but the SIM does not) and in the outgoing call / U4 call delivered state, on receipt of a FACILITY message containing AoCC information shall ignore and not acknowledge the AoCC information sent within the FACILITY.
3. To verify that an MS not supporting AoCC (where the ME does support AoCC but the SIM does not) and in the incoming call / U9 call confirmed state, on receipt of a FACILITY message containing AoCC information shall ignore and not acknowledge the AoCC information sent within the FACILITY.
4. To verify that an MS not supporting AoCC (where the ME does support AoCC but the SIM does not) and in the U10 call active state, on receipt of a FACILITY message containing AoCC information, shall ignore and not acknowledge the AoCC information sent within the FACILITY. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.1.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.1.4.1 Initial conditions | The ME shall be installed with a SIM or SIM simulator, with all elementary files coded as for the default SIM, with the exception of:
EFSST (SIM Service Table)
Logically: CHV1 disable function allocated and activated.
Abbreviated dialling numbers allocated and activated.
PLMN selector allocated and activated.
Fixed dialling numbers not activated.
AoC not activated.
Coding:
B1
B2
B3
B4
Value (binary)
xx0x1111
0011xx0x
xxxxxxxx
0000xxxx
The coding of EFSST shall conform with the capabilities of the SIM used.
The generic call set up procedures are followed up to and including the reception, or transmission of the ALERTING message by the MS. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.1.4.2 Procedure | a) For an MO call in the U4 state the SS transmits CONNECT containing AoCC information.
b) For an MO call in the U4 state the SS transmits FACILITY containing AoCC information.
c) For an MTcall in the U9 state the SS transmits FACILITY containing AoCC information.
d) For an MO call in the U10 state the SS transmits FACILITY containing AoCC information. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.1.5 Test requirement | In all cases, the MS shall ignore the AoCC information sent to it in the Facility information elements as part of the CONNECT/FACILITY messages and not send any AoCC information acknowledgement. It shall be checked for 15 s that the MS does not transmit any AoCC information acknowledgement after the receipt of AoCC information. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.2 Maximum frequency of ACM updating | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.2.1 Definition | During a call, the ACM shall be updated at the end of every interval. The interval length is the greater of either 5 s or the value given by parameter e2. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.2.2 Conformance requirement | The ACM shall be incremented when the CCM is incremented or once every 5 s, whichever is the longer period.
Reference:
3GPP TS 02.24, subclause 4.3, part h. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.2.3 Test purpose | To verify that the terminal, during a call, increments the ACM every 5 s when e2 is less or equal to 5 s. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.2.4 Method of test | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.2.4.1 Initial conditions | The ME shall be connected to the SIM simulator, with all elementary files coded as default with the exception of:
EFSST (SIM Service Table)
Logically: CHV1 disable function allocated and activated.
Abbreviated dialling numbers allocated and activated.
PLMN selector allocated and activated.
Fixed dialling numbers not activated.
AoC allocated and activated.
Coding:
B1
B2
B3
B4
Value (binary)
xx0x1111
0011xx11
xxxxxxxx
0000xxxx
The coding of EFSST shall conform with the capabilities of the SIM used.
EFACM (Accumulated call meter)
Logically: 50 units
EFACMmax (Accumulated call meter maximum)
Logically: 150 units
System Simulator:
1 cell, default parameters, IMSI attach/detach disabled.
Mobile Station:
The MS is in MM-state "idle, updated". |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.2.4.2 Procedure | a) The MS is made to initiate a call. The call is established with AoCC e-parameters sent in a Facility IE in the CONNECT message, as given below. The MS returns the AoCC acknowledgement within 1 second of the CONNECT message. It is an implementation option whether the AoCC acknowledge is sent by the MS before or after the CONNECT ACKNOWLEDGE.
b) The call is maintained for 90 s, then terminated by the SS. During the call, the SIM-simulator monitors the time intervals between successive INCREMENT commands. As the final INCREMENT command will have occurred as a result of call termination, the time interval calculated since the prior INCREMENT command shall be ignored.
Maximum Duration of Test:
2 minutes.
Expected Sequence:
Step
Direction
Message
Comments
1
MS
The MS is made to initiate a call
2
MS -> SS
CHANNEL REQUEST
3
SS -> MS
IMMEDIATE ASSIGNMENT
4
MS -> SS
CM SERVICE REQUEST
5
SS -> MS
CM SERVICE ACCEPT
6
MS -> SS
SETUP
7
SS -> MS
CALL PROCEEDING
8
SS -> MS
ASSIGNMENT COMMAND
to a supported channel type
9
MS -> SS
ASSIGNMENT COMPLETE
10
SS -> MS
ALERTING
11
SS -> MS
CONNECT
As default message except contains Facility IE with contents as indicated in i below
Either A or B branch is taken
A12
MS -> SS
CONNECT ACKNOWLEDGE
A13
MS -> SS
FACILITY
As default message except contains Facility IE with contents as indicated in ii below
B12
MS -> SS
FACILITY
As default message except contains Facility IE with contents as indicated in ii below
B13
MS -> SS
CONNECT ACKNOWLEDGE
14
call duration 90 s after CAI information sent by SS,
15
SS -> MS
DISCONNECT
16
MS -> SS
RELEASE
17
SS -> MS
RELEASE COMPLETE
18
SS -> MS
CHANNEL RELEASE
The main signalling link is released.
Specific Message Contents:
i) FACILITY Information Element with Invoke = ForwardChargeInformation component type as defined in 3GPP TS 04.80 subclause 3.6.1 table 3.3.
For ASN.1 description see default message contents in subclause 31.6.1.3.
The values of the e-parameters within the parameter part of the Facility Information Element shall be set as below:
e-parameters
parameter
1
2
3
4
5
6
7
value
1
1
1
0
0
0
0
Values shown in table are in the format and have units as in 3GPP TS 02.24 subclause 3.
ii) FACILITY Information Element with Return Result component type as defined in 3GPP TS 04.80 subclause 3.6.1 table 3.4.
For ASN.1 description see default message contents in subclause 31.6.1.3. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.2.5 Test requirement | The MS shall, during a call, send INCREMENT commands to the SIM every 5 s. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.3 Call terminated when ACM greater than ACMmax | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 27.21.3.1 Definition | ACMmax gives the maximum value of ACM, at which the current calls shall be terminated and no further outgoing calls and charged incoming calls may be made (except emergency calls). |
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