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40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.5.3.2.2 1,28Mcps TDD Option | These requirements are only applicable for frequencies which are greater than 4 MHz away from the UE centre carrier frequency.
The normative reference for this requirement is TS 25.102 [1] clause 6.6.3.1.2.
Table 5.5.3.2.2a : General Spurious emissions requirements (1,28 Mcps TDD Option)
Frequency Bandwidth
Resolution Bandwidth
Minimum requirement
9 kHz f < 150 kHz
1 kHz
-36 dBm
150 kHz f < 30 MHz
10 kHz
-36 dBm
30 MHz f < 1000 MHz
100 kHz
-36 dBm
1 GHz f < 12.75 GHz
1 MHz
-30 dBm
Table 5.5.3.2.2b : Additional Spurious emissions requirements (1,28 Mcps TDD Option)
Operating Band
Frequency Bandwidth
Measurement Bandwidth
Minimum requirement
a
703 MHz f < 803 MHz
1 MHz
-50 dBm (note1)
921 MHz f < 925 MHz
100 kHz
-60 dBm (note1)
925 MHz f 935 MHz
100 kHz
-67 dBm (note1)
935 MHz < f 960 MHz
100 kHz
-79 dBm (note1)
1805 MHz f 1880 MHz
100 kHz
-71 dBm (note1)
2010 MHz f 2025 MHz
1MHz
-65 dBm (Note2)
1880 MHz f 1920 MHz
1MHz
-65 dBm (Note 3)
2300 MHz f 2400 MHz
1MHz
-65 dBm (Note 3)
2496 MHz f 2690 MHz
1MHz
-50dBm (Note 3)
b
1850 MHz f 1910 MHz
1 MHz
-65 dBm (Note 4)
1930 MHz f 1990 MHz
1 MHz
-65 dBm (Note 5)
2010 MHz f 2025 MHz
1MHz
-65 dBm
c
2010 MHz f 2025 MHz
1 MHz
-65 dBm
d
1900 MHz f 1920 MHz
1 MHz
-65 dBm
2010 MHz f 2025 MHz
1 MHz
-65 dBm
2620 MHz f 2690 MHz
3.84 MHz
-37 dBm
e
703 MHz f < 803 MHz
1 MHz
-50 dBm (note1)
921 MHz f < 925 MHz
100 kHz
-60 dBm (note1)
925 MHz f 935 MHz
100 kHz
-67 dBm (note1)
935 MHz < f 960 MHz
100 kHz
-79 dBm (note1)
1805 MHz f 1880 MHz
100 kHz
-71 dBm (note1)
1880 MHz f 1920 MHz
1 MHz
-65 dBm
2010 MHz f 2025 MHz
1 MHz
-65 dBm
2496 MHz f 2690 MHz
1MHz
-50dBm
f
703 MHz f < 803 MHz
1 MHz
-50 dBm (note1)
921 MHz f<925 MHz
100 kHz
-60 dBm (note1)
925 MHz< f <935 MHz
100 kHz
-67 dBm (note1)
935 MHz< f <960 MHz
100 kHz
-79 dBm (note1)
1805 MHz f 1850 MHz
100 kHz
-71 dBm (note1)
2010 MHz f 2025 MHz
1MHz
-65 dBm
2300 MHz f 2400 MHz
1MHz
-65 dBm
2496 MHz f 2690 MHz
1MHz
-50dBm
Note 1: The measurements are made on frequencies which are integer multiples of 200 kHz. As exceptions, up to five measurements with a level up to the applicable requirements defined in Table 6.7c are permitted for each UARFCN used in the measurement.
Note 2: This requirement is only applicable when UE operating in 1900-1920MHz of band a.
Note 3: This requirement is only applicable when UE operating in 2010-2025MHz of band a.
Note 4: This requirement is only applicable when UE operating in 1930-1990MHz of band b.
Note 5:This requirement is only applicable when UE operating in 1850-1910MHz of band b.
Note 6: The frequency bandwidth protection 703-803 MHz and 2496-2690 MHz test requirements for Bands a, e and f deviate from the requirement in TS 25.102 [1] Rel-10 and earlier releases. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.5.3.2.3 7,68 Mcps TDD Option | These requirements are only applicable for frequencies which are greater than 25 MHz away from the UE centre carrier frequency.
The normative reference for this requirement is TS 25.102 [1] clause 6.6.3.1.3.
Table 5.5.3.2.3a: General Spurious emissions requirements (7,68 Mcps TDD Option)
Frequency Bandwidth
Measurement Bandwidth
Minimum requirement
9 kHz f < 150 kHz
1 kHz
-36 dBm
150 kHz f < 30 MHz
10 kHz
-36 dBm
30 MHz f < 1000 MHz
100 kHz
-36 dBm
1 GHz f < 12.75 GHz
1 MHz
-30 dBm
Table 5.5.3.2.3b: Additional Spurious emissions requirements (7,68 Mcps TDD Option)
Frequency Bandwidth
Measurement Bandwidth
Minimum requirement
921 MHz f < 925 MHz
100 kHz
-60 dBm (note 1)
925 MHz f 935 MHz
100 kHz
-67 dBm (note 1)
935 MHz < f 960 MHz
100 kHz
-79 dBm (note 1)
1805 MHz f 1880 MHz
100 kHz
-71 dBm (note 1)
2620 MHz f 2690 MHz
3.84 MHz
-37 dBm (note 1)
1884.5 MHz f 1915.7 MHz
300 kHz
-41 dBm (note 2)
NOTE 1: The measurements are made on frequencies which are integer multiples of 200 kHz. As exceptions, up to five measurements with a level up to the applicable requirements defined in Table 6.7E are permitted for each UARFCN used in the measurement.
NOTE 2: Applicable for transmission in 2010-2025 MHz as defined in subclause 4.2 (a).
NOTE: The measurements are made on frequencies which are integer multiples of 200 kHz. As exceptions, up to five measurements with a level up to the applicable requirements defined in table 5.5.3.2.3a are permitted for each UARFCN used in the measurement. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.5.3.3 Test purpose | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.5.3.3.1 3,84 Mcps Option | The test purpose is to verify the ability of the UE to limit the interference caused by unwanted transmitter effects to other systems operating at frequencies which are more than 12,5 MHz away from of the UE's carrier frequency. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.5.3.3.2 1,28 Mcps Option | The test purpose is to verify the ability of the UE to limit the interference caused by unwanted transmitter effects to other systems operating at frequencies which are more than 4 MHz away from of the UE's carrier frequency. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.5.3.3.3 7,68 Mcps Option | The test purpose is to verify the ability of the UE to limit the interference caused by unwanted transmitter effects to other systems operating at frequencies which are more than 25 MHz away from of the UE's carrier frequency. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.5.3.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.5.3.4.1 Initial conditions | Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: low range, mid range, high range; see clause G.2.4.
1) Connect the SS to the UE antenna connector as shown in figure A.1.
2) A call is set up according to the generic call setup procedure using parameters as specified in table E.3.1.2.
3) Enter the UE into loopback test mode and start the loopback test. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.5.3.4.2 Procedure | Measure the power of the spurious emissions applying measurement filters with bandwidths as specified in the relevant tables of 5.5.3.2.1 for 3,84 Mcps TDD Option, tables 5.5.3.2.2 for 1,28 Mcps TDD Option and tables 5.5.3.2.3 for 7,68 Mcps TDD option, respectively. The characteristic of the filters shall be approximately Gaussian (typical spectrum analyzer filters). The centre frequency of the filter shall be swept over the frequency bands as given in the tables. The sweep time shall be sufficiently low to capture the active time slots. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.5.3.5 Test requirements | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.5.3.5.1 3,84 Mcps TDD Option | The spurious emissions measured according to clause 5.5.3.4.2 shall not exceed the limits specified in the relevant tables of 5.5.3.5.1a and 5.5.3.5.1b.
Table 5.5.3.5.1a: General Spurious emissions requirements
Frequency Bandwidth
Resolution Bandwidth
Test requirement
9 kHz £ f < 150 kHz
1 kHz
-36 dBm
150 kHz £ f < 30 MHz
10 kHz
-36 dBm
30 MHz £ f < 1000 MHz
100 kHz
-36 dBm
1GHz £ f < 12.75GHZ
1MHz
-30 dBm
Table 5.5.3.5.1b: Additional Spurious emissions requirements
Frequency Bandwidth
Resolution Bandwidth
Test requirement
925 MHz £ f £ 935 MHz
100 kHz
-67 dBm*
935 MHz < f £ 960 MHz
100 kHz
-79 dBm*
1805 MHz £ f £ 1880 MHz
100 kHz
-71 dBm*
1884.5 MHz f 1915.7 MHz
300kHz
-41 dBm**
NOTE 1: The measurements are made on frequencies which are integer multiples of 200 kHz. As exceptions, up to five measurements with a level up to the applicable requirements defined in table 5.5.3.5.1a for the 3,84 Mcps TDD Option are permitted for each UARFCN used in the measurement.
NOTE 2: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4.
** Applicable for transmission in 2010-2025 MHz as defined in subclause 4.2 (a). |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.5.3.5.2 1,28 Mcps TDD Option | The spurious emissions measured according to clause 5.5.3.4.2 shall not exceed the limits specified in the relevant tables of 5.5.3.5.2a and 5.5.3.5.2b.
Table 5.5.3.5.2a: General Spurious emissions requirements (1,28 Mcps TDD Option)
Frequency Bandwidth
Resolution Bandwidth
Test requirement
9 kHz f < 150 kHz
1 kHz
-36 dBm
150 kHz f < 30 MHz
10 kHz
-36 dBm
30 MHz f < 1000 MHz
100 kHz
-36 dBm
1 GHz f < 12.75 GHz
1 MHz
-30 dBm
Table 5.5.3.5.2b: Additional Spurious emissions requirements (1,28 Mcps TDD Option)
Operating Band
Frequency Bandwidth
Measurement Bandwidth
Minimum requirement
a
703 MHz f < 803 MHz
1 MHz
-50 dBm (note1)
921 MHz f < 925 MHz
100 kHz
-60 dBm (note1)
925 MHz f 935 MHz
100 kHz
-67 dBm (note1)
935 MHz < f 960 MHz
100 kHz
-79 dBm (note1)
1805 MHz f 1880 MHz
100 kHz
-71 dBm (note1)
2010 MHz f 2025 MHz
1MHz
-65 dBm (Note2)
1880 MHz f 1920 MHz
1MHz
-65 dBm (Note 3)
2300 MHz f 2400 MHz
1MHz
-65 dBm (Note 3)
2496 MHz f 2690 MHz
1MHz
-50dBm (Note 3)
b
1850 MHz f 1910 MHz
1 MHz
-65 dBm (Note 4)
1930 MHz f 1990 MHz
1 MHz
-65 dBm (Note 5)
2010 MHz f 2025 MHz
1MHz
-65 dBm
c
2010 MHz f 2025 MHz
1 MHz
-65 dBm
d
1900 MHz f 1920 MHz
1 MHz
-65 dBm
2010 MHz f 2025 MHz
1 MHz
-65 dBm
2620 MHz f 2690 MHz
3.84 MHz
-37 dBm
e
703 MHz f < 803 MHz
1 MHz
-50 dBm (note1)
921 MHz f < 925 MHz
100 kHz
-60 dBm (note1)
925 MHz f 935 MHz
100 kHz
-67 dBm (note1)
935 MHz < f 960 MHz
100 kHz
-79 dBm (note1)
1805 MHz f 1880 MHz
100 kHz
-71 dBm (note1)
1880 MHz f 1920 MHz
1 MHz
-65 dBm
2010 MHz f 2025 MHz
1 MHz
-65 dBm
2496 MHz f 2690 MHz
1MHz
-50dBm
f
703 MHz f < 803 MHz
1 MHz
-50 dBm (note1)
921 MHz f<925 MHz
100 kHz
-60 dBm (note1)
925 MHz< f <935 MHz
100 kHz
-67 dBm (note1)
935 MHz< f <960 MHz
100 kHz
-79 dBm (note1)
1805 MHz f 1850 MHz
100 kHz
-71 dBm (note1)
2010 MHz f 2025 MHz
1MHz
-65 dBm
2300 MHz f 2400 MHz
1MHz
-65 dBm
2496 MHz f 2690 MHz
1MHz
-50dBm
Note 1: The measurements are made on frequencies which are integer multiples of 200 kHz. As exceptions, up to five measurements with a level up to the applicable requirements defined in Table 6.7c are permitted for each UARFCN used in the measurement.
Note 2: This requirement is only applicable when UE operating in 1900-1920MHz of band a.
Note 3: This requirement is only applicable when UE operating in 2010-2025MHz of band a.
Note 4: This requirement is only applicable when UE operating in 1930-1990MHz of band b.
Note 5: This requirement is only applicable when UE operating in 1850-1910MHz of band b.
Note 6: The frequency bandwidth protection 703-803 MHz and 2496-2690 MHz test requirements for Bands a, e and f deviate from the requirement in TS 25.102 [1] Rel-10 and earlier releases.
NOTE 1: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.5.3.5.3 7,68 Mcps TDD Option | The spurious emissions measured according to clause 5.5.3.4.2 shall not exceed the limits specified in the relevant tables of 5.5.3.5.3a and 5.5.3.5.3b.
Table 5.5.3.5.3a: General Spurious emissions requirements
Frequency Bandwidth
Measurement Bandwidth
Minimum requirement
9 kHz f < 150 kHz
1 kHz
-36 dBm
150 kHz f < 30 MHz
10 kHz
-36 dBm
30 MHz f < 1000 MHz
100 kHz
-36 dBm
1 GHz f < 12.75 GHz
1 MHz
-30 dBm
Table 5.5.3.5.3b: Additional Spurious emissions requirements
Frequency Bandwidth
Measurement Bandwidth
Minimum requirement
921 MHz f < 925 MHz
100 kHz
-60 dBm (note 1)
925 MHz f 935 MHz
100 kHz
-67 dBm (note 1)
935 MHz < f 960 MHz
100 kHz
-79 dBm (note 1)
1805 MHz f 1880 MHz
100 kHz
-71 dBm (note 1)
2620 MHz f 2690 MHz
3.84 MHz
-37 dBm (note 1)
1884.5 MHz f 1915.7 MHz
300 kHz
-41 dBm (note 2)
NOTE 1: The measurements are made on frequencies which are integer multiples of 200 kHz. As exceptions, up to five measurements with a level up to the applicable requirements defined in Table 6.7E are permitted for each UARFCN used in the measurement.
NOTE 2: Applicable for transmission in 2010-2025 MHz as defined in subclause 4.2 (a).
NOTE: The measurements are made on frequencies which are integer multiples of 200 kHz. As exceptions, up to five measurements with a level up to the applicable requirements defined in table 5.5.3.5.3a are permitted for each UARFCN used in the measurement.
NOTE 2: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6 Transmit Intermodulation | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.1 Definition and applicability | The transmit intermodulation performance is a measure of the capability of the transmitter to inhibit the generation of signals in its non linear elements caused by the presence of the wanted signal and an interfering signal reaching the transmitter via the antenna.
User Equipment(s) transmitting in close vicinity of each other can produce intermodulation products, which can fall into the UE, or BS receive band as an unwanted interfering signal. The UE intermodulation attenuation is defined by the ratio of the RRC filtered mean power of the wanted signal to the RRC filtered mean power of the intermodulation product when an interfering CW signal is added at a level below the wanted signal.
The requirements of this test shall apply for all UTRA-UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.2 Minimum Requirements | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.2.1 3,84 Mcps TDD Option | The requirement of transmitting intermodulation for carrier spacing 5 MHz is prescribed in the table below.
The normative reference for this requirement is TS 25.102 [1] clause 6.7.1.1.
Table 5.6.2.1: Transmit Intermodulation (3,84 Mcps TDD Option)
Interference Signal Frequency Offset
5MHz
10MHz
Interference Signal Level
-40 dBc
Interferer Modulation
CW
Note: BS Test uses a CDMA modulated signal
Minimum Requirement
-31dBc
-41dBc |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.2.2 1,28 Mcps TDD Option | The requirement of transmitting intermodulation for carrier spacing 1,6 MHz is prescribed in table 5.6.2.2.
The normative reference for this requirement is TS 25.102 [1] clause 6.7.1.1.
Table 5.6.2.2: Transmit Intermodulation (1,28 Mcps TDD Option)
Interference Signal Frequency Offset
1.6 MHz
3.2 MHz
Interference Signal Level
-40 dBc
Interferer Modulation
CW
Note: BS Test uses a CDMA modulated signal
Minimum Requirement
-31dBc
-41dBc |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.2.3 7,68 Mcps TDD Option | The requirement of transmitting intermodulation for carrier spacing 10 MHz is prescribed in the table 5.6.2.3.
The normative reference for this requirement is TS 25.102 [1] clause 6.7.1.3.
Table 5.6.2.3: Transmit Intermodulation (7,68 Mcps TDD Option)
Interference Signal Frequency Offset
10MHz
20MHz
Interference Signal Level
-40 dBc
Interferer Modulation
CW
Note: BS Test uses a CDMA modulated signal
Minimum Requirement
-31dBc
-41dBc |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.3 Test purpose | User Equipment(s) transmitting in close vicinity of each other can produce intermodulation products, which can fall into other UE, or BS receive band as an unwanted interfering signal.
It is the purpose of this test to limit interferences to the own and other systems due to intermodulation products. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.4.1 Initial conditions | Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1) Connect the SS and the interferer to the UE antenna connector as shown in figure A.2.
2) A call is set up according to the generic call setup procedure using parameters as specified in table E.3.1.2.
3) Enter the UE into loopback test mode and start the loopback test.
Configure parameters of the interferer according to table 5.6.2.1 for 3,84 Mcps TDD Option, table 5.6.2.2 for 1,28 Mcps TDD Option and table 5.6.2.3 for 7,68 Mcps TDD Option, respectively. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.4.2 Procedure | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.4.2.1 3,84 Mcps TDD Option | 1) Measure the unwanted emissions according to 5.6.2. in a carrier offset spacing of 5 MHz using an interferer +5MHz offset.
The frequency occupied by the interferer is excluded from the measurement.
2) Repeat 1) with the other 3 interferer-configurations (-5Mz. +10 MHz, -10 MHz).
3) Measure the wanted power according to annex B.
4) Display 1) and 2) in dBc with respect to 3). |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.4.2.2 1,28 Mcps TDD Option | 1) Measure the unwanted emissions according to 5.6.2.2 in a carrier offset spacing of 1.6 MHz using an interferer +1.6MHz offset.
The frequency occupied by the interferer is excluded from the measurement.
2) Repeat 1) with the other 3 interferer-configurations (-1.6 MHz, +3.2 MHz, -3.2 MHz).
3) Measure the wanted power according to annex B.
4) Display 1) and 2) in dBc with respect to 3). |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.4.2.3 7,68 Mcps TDD Option | 1) Measure the unwanted emissions according to 5.6.2.3 in a carrier offset spacing of 10 MHz using an interferer +10MHz offset.
The frequency occupied by the interferer is excluded from the measurement.
2) Repeat 1) with the other 3 interferer-configurations (-10Mz. +20 MHz, -20 MHz).
3) Measure the wanted power according to annex B.
4) Display 1) and 2) in dBc with respect to 3). |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.5 Test requirements | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.5.1 3,84 Mcps TDD Option | The results in 4) from clause 5.6.4.2.1 shall not exceed the prescribed values in table 5.6.5.1.
Table 5.6.5.1: Transmit Intermodulation (3,84 Mcps TDD Option)
Interference Signal Frequency Offset
5MHz
10MHz
Interference Signal Level
-40 dBc
Interferer Modulation
CW
Note: BS Test uses a CDMA modulated signal
Minimum Requirement
[-31+TT] dBc
[-41+TT] dBc
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.5.2 1,28 Mcps TDD Option | The results in 4) from clause 5.6.4.2.2 shall not exceed the prescribed values in table 5.6.5.2.
Table 5.6.5.2 : Transmit Intermodulation (1,28Mcps TDD Option)
Interference signal frequency offset
1.6MHz
3.2MHz
Interference signal level
-40dBc
Minimum requirement of intermodulation products
-31dBc
-41 dBc
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.6.5.3 7,68 Mcps TDD Option | The results in 4) from clause 5.6.4.2.3 shall not exceed the prescribed values in table 5.6.5.3.
Table 5.6.5.3: Transmit Intermodulation (7,68 Mcps TDD Option)
Interference Signal Frequency Offset
10MHz
20MHz
Interference Signal Level
-40 dBc
Interferer Modulation
CW
Note: BS Test uses a CDMA modulated signal
Minimum Requirement
[-31+TT] dBc
[-41+TT] dBc
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7 Transmit Modulation | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.1 Error Vector Magnitude | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.1.1 Definition and applicability | The Error Vector Magnitude (EVM) is a measure of the difference between the measured waveform and the theoretical modulated waveform (the error vector). Both waveforms pass through a matched Root Raised Cosine filter with bandwidth corresponding to the considered chip rate and roll-off =0,22. Both waveforms are then further modified by selecting the frequency, absolute phase, absolute amplitude and chip clock timing so as to minimise the error vector. The EVM result is defined as the square root of the ratio of the mean error vector power to the mean reference signal power expressed as a %. The measurement interval is one timeslot excluding the guard period.
The requirement of this clause shall apply to all types of UTRA-UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.1.2 Minimum Requirements | The Error Vector Magnitude shall not exceed 17,5 % for the parameters specified in table 5.7.1.2.
Table 5.7.1.2.: Test parameters for Error Vector Magnitude/Peak Code Domain Error
Parameter
Level
Unit
UE Output Power
³-20
dBm
Operating conditions
Normal conditions
Power control step size
1
dB
The normative reference for this requirement is TS 25.102 [1] clause 6.8.2.1. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.1.3 Test purpose | The transmitter shall generate a sufficient precise waveform, to enable the receiver to achieve the specified receiver performances. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.1.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.1.4.1 Initial conditions | Test environment: normal, TL/VL, TL/VH, TH/VL, TH/VH, vibration; see clauses G.2.1, G.2.2 and G.2.3.
Frequencies to be tested: low range, mid range, high range; see clause G.2.4.
1) Connect the SS to the UE antenna connector as shown in figure A.1.
2) A call is set up according to the generic call setup procedure using parameters as specified in table E.3.1.2.
3) Enter the UE into loopback test mode and start the loopback test. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.1.4.2 Procedure | 1) Starting from the initial conditions, measure EVM (Error Vector Magnitude) of the UE according to annex B.
2) Set SS-level and signalling values such that the power level of the UE is between –20 and –19 dBm.
3) Measure EVM of the UE according to annex B. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.1.5 Test requirements | The results in step 1) and 2) shall not exceed 17.5 % for parameters specified in table 5.7.1.2.
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4.
5.7.1A Error Vector Magnitude with E-DCH16QAM
5.7.1A.1 Definition and applicability
The Error Vector Magnitude (EVM) is a measure of the difference between the measured waveform and the theoretical modulated waveform (the error vector). Both waveforms pass through a matched Root Raised Cosine filter with bandwidth corresponding to the considered chip rate and roll-off =0,22. Both waveforms are then further modified by selecting the frequency, absolute phase, absolute amplitude and chip clock timing so as to minimise the error vector. The EVM result is defined as the square root of the ratio of the mean error vector power to the mean reference signal power expressed as a %. The measurement interval is one timeslot excluding the guard period.
The requirement of this clause shall apply to UTRA-UE which supports E-DCH with 16QAM.
5.7.1A.2 Minimum Requirements
The Error Vector Magnitude shall not exceed 14 % for the parameters specified in table 5.7.1.2.
Table 5.7.1.2A.: Test parameters for Error Vector Magnitude/Peak Code Domain Error
Parameter
Level
Unit
UE Output Power
³-20
dBm
Operating conditions
Normal conditions
Power control step size
1
dB
The normative reference for this requirement is TS 25.102 [1] clause 6.8.2.1.
5.7.1A.3 Test purpose
The transmitter shall generate a sufficient precise waveform, to enable the receiver to achieve the specified receiver performances.
5.7.1A.4 Method of test
5.7.1A.4.1 Initial conditions
5.7.1A.4.1.1 3.84Mcps TDD option
Void
5.7.1A.4.1.2 1.28Mcps TDD option
Test environment: normal, TL/VL, TL/VH, TH/VL, TH/VH, vibration; see clauses G.2.1, G.2.2 and G.2.3.
Frequencies to be tested: low range, mid range, high range; see clause G.2.4.
1) Connect the SS to the UE antenna connector as shown in figure A.1.
2) The UL Reference Measurement Channel parameters are defined in Annex C.6.1.2 and DL Reference Measurement Channel parameters are defined in Annex C4.2.1.1
4) The value of TRRI shall be set to ‘11100’ and CRRI on E-AGCH shall be set to 1.
5) The value of PRRI is same. This ensures that the UL data rate remains constant.
6) The UE is switched on.
7) Enter the UE into loopback mode 1, looping back both the 12.2kbps RMC and HSDPA to E-DCH, and start the loopback test. See TS 34.108 [3] clause 7.3.9 and TS 34.109 [4] clauses 5.3.2.3 and 5.3.2.6. To fill the RLC transmit buffer, run the loopback for [3]s before starting the procedure.
5.7.1A.4.1.3 7.68Mcps TDD option
Void
5.7.1A.4.2 Procedure
5.7.1A.4.2.1 3.84Mcps TDD Option
Void
5.7.1A.4.2.2 1.28Mcps TDD Option
1) Starting from the initial conditions, measure EVM (Error Vector Magnitude) of the UE according to annex B.
2) Set SS level and signalling values such that the power level of the UE is between –20 and –19 dBm.
3) Measure EVM of the UE according to annex B.
5.7.1A.4.2.3 7.68Mcps TDD Option
Void
5.7.1A.5 Test requirements
The results in step 1) and 2) shall not exceed 14 % for parameters specified in table 5.7.1.2.
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4.
5.7.1B Error Vector Magnitude with HS-SICH and DPCH
5.7.1B.1 Definition and applicability
The Error Vector Magnitude (EVM) is a measure of the difference between the measured waveform and the theoretical modulated waveform (the error vector). Both waveforms pass through a matched Root Raised Cosine filter with bandwidth corresponding to the considered chip rate and roll-off =0,22. Both waveforms are then further modified by selecting the frequency, absolute phase, absolute amplitude and chip clock timing so as to minimise the error vector. The EVM result is defined as the square root of the ratio of the mean error vector power to the mean reference signal power expressed as a %. The measurement interval is one timeslot excluding the guard period.
The requirements and this test apply for Release 5 only to all types of UTRA for the TDD UE that support HSDPA.
5.7.1B.2 Minimum Requirements
The Error Vector Magnitude shall not exceed 17,5 % for the parameters specified in table 5.7.1B.2b.
Table 5.7.1B.2b.: Test parameters for Error Vector Magnitude/Peak Code Domain Error
Parameter
Level
Unit
UE Output Power
³-20
dBm
Operating conditions
Normal conditions
Power control step size
1
dB
The normative reference for this requirement is TS 25.102 [1] clause 6.8.2.1.
5.7.B1.3 Test purpose
The transmitter shall generate a sufficient precise waveform, to enable the receiver to achieve the specified receiver performances.
5.7.1B.4 Method of test
5.7.1B.4.1 Initial conditions
Test environment: normal, TL/VL, TL/VH, TH/VL, TH/VH, vibration; see clauses G.2.1, G.2.2 and G.2.3.
Frequencies to be tested: low range, mid range, high range; see clause G.2.4.
1) Connect the SS (node B emulator) to the UE antenna connector as shown in figure A.1.
2) The Reference Measurement Channels are specified C.2.2.2a.
3) An HSDPA call is set up according to TS 34.108 [3] 7.3.6
4) Enter the UE into loopback test mode in the presence of HSDPA and start the loopback test.
See TS 34.108 [3] and TS 34.109 [4] for details regarding loopback test mode for HSDPA
5.7.1B.4.2 Procedure
1) Starting from the initial conditions, measure EVM (Error Vector Magnitude) of the UE according to annex B.
2) Set SS-level and signalling values such that the power level of the UE is between –20 and –19 dBm.
3) Measure EVM of the UE according to annex B.
5.7.1B.5 Test requirements
The results in step 1) and 2) shall not exceed 17.5 % for parameters specified in table 5.7.1B.2b.
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.2 Peak code domain error | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.2.1 Definition and applicability | The code domain error is computed by projecting the error vector power onto the code domain at a specific spreading factor. The error power for each code is defined as the ratio to the mean power of the projection onto the code, to the mean power of the composite reference waveform expressed in dB. And the Peak Code Domain Error is defined as the maximum value for Code Domain Error. The measurement interval is one timeslot.
The present document is applicable for multi-code transmission only.
The requirement of this test applies to all UTRA-UE, applicable for multi-code transmission. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.2.2 Minimum Requirement | The peak code domain error shall not exceed -21dB at spreading factor 16 for 3,84 Mcps TDD Option, and 1,28 Mcps TDD Option . The peak code domain error shall not exceed -24dB at spreading factor 32 for 7,68 Mcps TDD Option.
The normative reference for this requirement is TS 25.102 [1] clause 6.8.3.1. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.2.3 Test purpose | It is the purpose of this test to limit crosstalk among codes. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.2.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.2.4.1 Initial conditions | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.2.4.1.1 3,84 Mcps TDD Option | Test environment: normal, TL/VL, TL/VH, TH/VL, TH/VH; see clauses G.2.1 and G.2.2.
Frequencies to be tested: low range, mid range, high range; see clause G.2.4.
1) Connect the SS to the UE antenna connector as shown in figure A.1.
2) A call is set up according to the generic call setup procedure using parameters as specified in table 5.7.2.4.1.1 for the 3,84 Mcps TDD Option.
3) Enter the UE into loopback test mode and start the loopback test.
Table 5.7.2.4.1.1: Test parameters for Peak code Domain Error (3,84 Mcps TDD Option)
Parameter
Value/description
Reference measurement channel
Multicode 12,2kbps, according to annex C.2.2.1
Uplink Power Control
SS level and signalling values such that UE transmits maximum power
Data content
real life
(sufficient irregular) |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.2.4.1.2 1,28 Mcps TDD Option | 1) Connect the SS to the UE antenna connector as shown in figure A.1.
2) A call is set up according to the generic call setup procedure using parameters as specified in table 5.7.2.4.1.2 for the 1,28 Mcps TDD Option.
3) Enter the UE into loopback test mode and start the loopback test.
Table 5.7.2.4.1.2: Test parameters for Peak code Domain Error (1,28 Mcps TDD Option)
Parameter
Value/description
Reference measurement channel
Multicode 12,2kbps, according to annex C.2.2.2
Uplink Power Control
SS level and signalling values such that UE transmits maximum power
Data content
real life
(sufficient irregular) |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.2.4.1.3 7,68 Mcps TDD Option | Test environment: normal, TL/VL, TL/VH, TH/VL, TH/VH; see clauses G.2.1 and G.2.2.
Frequencies to be tested: low range, mid range, high range; see clause G.2.4.
1) Connect the SS to the UE antenna connector as shown in figure A.1.
2) A call is set up according to the generic call setup procedure using parameters as specified in table 5.7.2.4.1.3 for the 7,68 Mcps TDD Option.
3) Enter the UE into loopback test mode and start the loopback test.
Table 5.7.2.4.1.3: Test parameters for Peak code Domain Error (7,68 Mcps TDD Option)
Parameter
Value/description
Reference measurement channel
Multicode 12,2kbps, according to annex C.2.2.3
Uplink Power Control
SS level and signalling values such that UE transmits maximum power
Data content
real life
(sufficient irregular) |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.2.4.2 Procedure | 1) Starting from the initial conditions, measure peak code error(PCDE)of the UE according to annex B.
2) Set SS-level and signalling values such that the power level of the UE is between –20 and –19 dBm.
3) Measure PCDE of the UE according to annex B. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 5.7.2.5 Test requirements | The results in step 1) and 2) shall nor exceed -20 dB. for parameters specified in table 5.7.1.2 for 3,84 Mcps TDD Option, and 1,28 Mcps TDD Option.
The results in step 1) and 2) shall nor exceed -23 dB. for parameters specified in table 5.7.1.2 for 7,68 Mcps TDD Option.
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6 Receiver Characteristics | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.1 General | Receiving performance test of the UE is implemented during communicating with the SS via air interface. The procedure uses normal call protocol until the UE is communicating on traffic channel basically. (Refer to TS 34.108 [3] Common Test Environments for User Equipment (UE) Conformance Testing.) On the traffic channel, the UE provides special function for testing that is described in Logical Test Interface and the UE is tested using this function. (Refer to TS 34.109 [3] Logical Test Interface (FDD/TDD) Special conformance testing functions.)
Unless otherwise stated the receiver characteristics are specified at the antenna connector of the UE. For UE(s) with an integral antenna only, a reference antenna with a gain of 0 dBi is assumed. UE with an integral antenna may be taken into account by converting these power levels into field strength requirements, assuming a 0 dBi gain antenna. Receiver characteristics for UE(s) with multiple antennas/antenna connectors are for further study.
The UE antenna performance has a significant impact on system performance, and minimum requirements on the antenna efficiency are therefore intended to be included in future versions of the present document. It is recognized that different requirements and test methods are likely to be required for the different types of UE.
All the parameters in clause 6 are defined using the DL reference measurement channel (12,2 kbps) specified in clause C.3.3. For 3.84 Mcps TDD IMB, the DL reference measurement channel (28 kbps) specified in clause C.3.8 is used..
All Bit Error ratio (BER) measurements in clause 6 shall be performed according to the general rules for statistical testing in Annex F.6. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.2 Reference sensitivity level | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.2.1 Definition and applicability | The reference sensitivity level is the minimum mean power received at the UE antenna connector at which the BER shall not exceed the specific value.
The requirements in this clause shall apply to all types of UTRA UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.2.2 Minimum Requirements | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.2.2.1 3,84 Mcps TDD Option | For the DL reference measurement channel 12,2 kBit/s specified in annex C, the BER shall not exceed 0.001 for the parameters specified in table 6.2.2.1.
Table 6.2.2.1: Test parameters for reference sensitivity (3,84 Mcps TDD Option)
Parameter
Level
Unit
0
dB
-105
dBm/3,84 MHz
The normative reference for this requirement is TS 25.102 [1] clause 7.3.1.1. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.2.2.2 1,28 Mcps TDD Option | The BER shall not exceed 0.001 for the parameters specified in table 6.2.2.2.
Table 6.2.2.2: Test parameters for reference sensitivity (1,28Mcps TDD Option)
Parameter
Level
Unit
0
dB
-108
dBm/1,28 MHz
The normative reference for this requirement is TS 25.102 [1] clause 7.3.1.2. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.2.2.3 7,68 Mcps TDD Option | For the DL reference measurement channel 12,2 kBit/s specified in annex C.3.1.3, the BER shall not exceed 0.001 for the parameters specified in table 6.2.2.3.
Table 6.2.2.3: Test parameters for reference sensitivity (7,68 Mcps TDD Option)
Parameter
Level
Unit
0
dB
-105
dBm/7.68 MHz
The normative reference for this requirement is TS 25.102 [1] clause 7.3.1.3. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.2.3 Test purpose | The test purpose is to verify the ability of the UE to receive a prescribed test signal at the lower end of the dynamic range under defined conditions (no interference, no multipath propagation) with a BER not exceeding a specified level. This test is also used as a reference case for other tests to allow the assessment of degradations due to various sources of interference. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.2.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.2.4.1 Initial conditions | Test environment: normal, TL/VL, TL/VH, TH/VL, TH/VH; see clauses G.2.1 and G.2.2.
Frequencies to be tested: low range, mid range, high range; see clause G.2.4.
1) Connect the SS to the UE antenna connector as shown in figure A.3.
2) A call is set up according to the Generic call setup procedure.
3) Enter the UE into loopback test mode and start the loopback test.
4) The level of SS output signal measured at the UE antenna connector shall be –105 dBm for the 3,84 Mcps TDD Option and 7,68 Mcps TDD option and –108 dBm for the 1,28 Mcps TDD Option, respectively. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.2.4.2 Procedure | 1) Measure the BER of DCH received from the UE at the SS. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.2.5 Test requirements | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.2.5.1 3,84 Mcps TDD Option | The measured BER, derived in step 1), shall not exceed 0.001 under conditions described in table 6.2.5.1 for the 3,84 Mcps TDD Option.
Table 6.2.5.1: Test parameters for reference sensitivity (3,84 Mcps TDD Option)
Parameter
Level
Unit
0
dB
-104.3
dBm/3,84 MHz
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.2.5.2 1,28 Mcps TDD Option | The measured BER, derived in step 1), shall not exceed 0.001 under conditions described in table 6.2.5.2 for the 1,28 Mcps TDD Option.
Table 6.2.5.2: Test parameters for reference sensitivity (1,28 Mcps TDD Option)
Parameter
Level
Unit
0
dB
-107.3
dBm/1,28 MHz
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.2.5.3 7,68 Mcps TDD Option | The measured BER, derived in step 1), shall not exceed 0.001 under conditions described in table 6.2.5.3 for the 7,68 Mcps TDD Option.
Table 6.2.5.3: Test parameters for reference sensitivity (7,68 Mcps TDD Option)
Parameter
Level
Unit
0
dB
-104.3
dBm/7,68 MHz
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4.
6.2A Reference sensitivity level (IMB)
6.2A.1 Definition and applicability
The reference sensitivity level is the minimum mean power received at the UE antenna connector at which the BLER shall not exceed the specific value.
The requirements in this clause shall apply to 3.84 Mcps TDD IMB UE.
6.2A.2 Minimum Requirements
The BLER shall not exceed 0.01 for the parameters specified in table 6.2A.2.1 for the DL reference measurement channel 28 kBit/s specified in annex C.
Table 6.2A.2.1: Test parameters for reference sensitivity (3.84 Mcps TDD IMB)
Parameter
Level
Unit
-0.77
dB
-105
dBm/3,84 MHz
NOTE: The term DPCH_Ec refers to the sum of the energy of the physical channels comprising the IMB DL reference measurement channel.
The normative reference for this requirement is TS 25.102 [1] clause 7.3.1.1.
6.2A.3 Test purpose
The test purpose is to verify the ability of the UE to receive a prescribed test signal at the lower end of the dynamic range under defined conditions (no interference, no multipath propagation) with a BLER not exceeding a specified level. This test is also used as a reference case for other tests to allow the assessment of degradations due to various sources of interference.
6.2A.4 Method of test
6.2A.4.1 Initial conditions
Test environment: normal, TL/VL, TL/VH, TH/VL, TH/VH; see clauses G.2.1 and G.2.2.
Frequencies to be tested: low range, mid range, high range; see clause G.2.4.
1) Connect the SS to the UE antenna connector as shown in figure A.3.
2) A call is set up according to the Generic call setup procedure.
3) Enter the UE into loopback mode 3 and start the loopback test. See TS 34.108 and TS 34.109 for details regarding loopback test mode 3 for MBMS.
4) The level of SS output signal measured at the UE antenna connector shall be –105 dBm.
6.2A.4.2 Procedure
1) SS shall start the test by sending data on the MTCH radio bearer and maintain the count of transmitted RLC SDU blocks on the MTCH.
2) SS shall send a “UE TEST LOOP MODE 3 RLC SDU COUNTER REQUEST” message and wait for the UE to response with a “UE TEST LOOP MODE 3 RLC SDU COUNTER RESPONSE” reporting the received RLC SDU counter value.
3) SS shall compute the RLC SDU error rate based on the transmitted RLC SDUs count and received RLC SDU count reported by the UE.
4) The test shall be run until the statistical significance according to Annex to F.6.1.8 is achieved.
6.2A.5 Test requirements
The computed BLER shall not exceed 0.01 under conditions described in table 6.2A.5.1.
Table 6.2A.5.1: Test parameters for reference sensitivity (3,84 Mcps TDD Option)
Parameter
Level
Unit
-0.77
dB
-104.3
dBm/3,84 MHz
NOTE: The term DPCH_Ec refers to the sum of the energy of the physical channels comprising the IMB DL reference measurement channel.
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.3 Maximum Input Level | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.3.1 Definition and applicability | The maximum input level is defined as the maximum mean power received at the UE antenna connector, which does not degrade the specified BER performance.
The requirements in this clause shall apply to all types of UTRA UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.3.2 Minimum requirements | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.3.2.1 3,84 Mcps TDD Option | The BER shall not exceed 0,001 for the parameters specified in table 6.3.2.1.
Table 6.3.2.1: Maximum input level (3,84 Mcps TDD Option)
Parameter
Level
Unit
-7
dB
-25
dBm/3,84 MHz
The reference for this requirement is TS 25.102 [1] clause 7.4.1.1. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.3.2.2 1,28 Mcps TDD Option | The BER shall not exceed 0.001 for the parameters specified in table 6.3.2.2.
Table 6.3.2.2: Maximum input level (1,28Mcps TDD Option)
Parameter
Level
Unit
-7
dB
-25
dBm/1,28 MHz
The reference for this requirement is TS 25.102 [1] clause 7.4.1.2. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.3.2.3 7,68 Mcps TDD Option | The BER shall not exceed 0,001 for the parameters specified in table 6.3.2.3.
Table 6.3.2.3: Maximum input level (7,68 Mcps TDD Option)
Parameter
Level
Unit
-10
dB
-25
dBm/7,68 MHz
The reference for this requirement is TS 25.102 [1] clause 7.4.1.3. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.3.3 Test purpose | The test purpose is to verify the ability of the UE to receive a prescribed test signal at the upper end of the dynamic range under defined conditions (no interference, no multipath propagation) with BER not exceeding a specified value. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.3.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.3.4.1 Initial conditions | Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1) Connect the SS to the UE antenna connector as shown in figure A.3.
2) A call is set up according to the Generic call setup procedure.
3) Enter the UE into loopback test mode and start the loopback test.
4) The level of SS output signal measured at the UE antenna connector shall be according to table 6.3.2.1 (3,84 Mcps TDD Option), table 6.3.2.2(1,28 Mcps TDD Option) and table 6.3.2.3 (7,68 Mcps TDD Option), respectively. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.3.4.2 Procedure | Measure the BER of DCH received from the UE at the SS. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.3.5 Test requirements | The measured BER, derived in step 1), shall not exceed 0,001.
6.3A Maximum Input Level for HS-PDSCH Reception (16QAM)
6.3A.1 Definition and applicability
Maximum input level for HS-PDSCH reception is defined as the maximum power received at the UE antenna port, which shall not degrade the specified HSDPA throughput performance. The requirements and this test apply to all types of 1.28Mcps TDD option UE that support HSDPA (16QAM).
6.3A.2 Minimum requirements
The throughput shall be ≥ 90% of the maximum throughput of the reference measurement channels as specified in Table 6.3A.2 for different UE categories with the parameters specified in Table 6.3A.1. Using this configuration the throughput shall meet or exceed 500kbps
The reference for this requirement is TS 25.102 [1] clause 7.4.2.
Table 6.3A.1 Minimum requirement parameters for 16QAM Maximum Input Level
Parameter
Unit
Value
dB
0
dBm/1.28 MHz
-25
Redundancy and constellation version
-
6
Maximum number of HARQ transmissions
-
1
Table 6.3A.2 Reference Measurement Channel for different UE Categories (16QAM)
UE Category
Reference Channel
Category 4-6
C.4.2.2.2
Category 7-9
C.4.2.3.2
Category 10-12
C.4.2.4.2
Category 13-15
C.4.2.5.2
6.3A.3 Test purpose
To verify that the UE HSDPA throughput meets the minimum requirements for the DL reference channel specified in Table 6.3A.2 with the addition of the parameters specified in table 6.3A.1.
An inadequate maximum input level causes loss of coverage near the Node B.
6.3A.4 Method of test
6.3A.4.1 Initial conditions
Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
6.3A.4.2 Procedure
Connect the SS to the UE antenna connector as shown in figure A.1.
1) The UE is switched on.
2) An RRC connection is set-up according to the generic HSDPA set-up procedure specified in TS 34.108 [3] and SS RF parameters are given in tables 6.3A.1.
3) Measure the HS-PDSCH throughput R received by the UE by counting the number of NACK, ACK and statDTX on the UL HS-SICH (Throughput = blocksize*number of blocks acknowledged/time).
4) The UE is switched off.
6.3A.5 Test requirements
The throughput shall be ≥ 90% of the maximum throughput of the reference measurement channels as specified in Table 6.3A.2 for different UE categories with the parameters specified in Table 6.3A.1. The minimum number of measurements required for a statistically significant result to this test is clarified in annex F.6.3, Table F.6.3.5.1.
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in clause F.4.
6.3B Maximum Input Level for HS-PDSCH Reception (64QAM)
6.3B.1 Definition and applicability
Maximum input level for HS-PDSCH reception is defined as the maximum power received at the UE antenna port, which shall not degrade the specified HSDPA throughput performance. The requirements and this test apply to all types of 1.28Mcps TDD option UE that support HSDPA (64QAM).
6.3B.2 Minimum requirements
The throughput shall be ≥ 90% of the maximum throughput of the reference measurement channels as specified in Table 6.3B.2 for different UE categories with the parameters specified in Table 6.3B.1. Using this configuration the throughput shall meet or exceed 1.1Mbps
The reference for this requirement is TS 25.102 [1] clause 7.4.2.
Table 6.3B.1 Minimum requirement parameters for 64QAM Maximum Input Level
Parameter
Unit
Value
dB
0
dBm/1.28 MHz
-25
Redundancy and constellation version
-
6
Maximum number of HARQ transmissions
-
1
Table 6.3B.2 Reference Measurement Channel for different UE Categories (64QAM)
UE Category
Reference Channel
Category 16-18
C.4.2.6.1
Category 19-21
C.4.2.6.2
Category 22-24
C.4.2.6.3
Category 25/26/27
Note1
Category 28 (Note2)
C.4.2.10.1
Category 29 (Note2)
C.4.2.11.1
Category 30 (Note2)
C.4.2.12.1
NOTE 1: Category 25/26/27 UEs are configured to non-MIMO mode and the requirements of Category 18/21/24 UEs are applied respectively.
NOTE 2: The FRCs for the first stream is used.
6.3B.3 Test purpose
To verify that the UE HSDPA throughput meets the minimum requirements for the DL reference channel specified in Table 6.3B.2 with the addition of the parameters specified in table 6.3B.1.
An inadequate maximum input level causes loss of coverage near the Node B.
6.3B.4 Method of test
6.3B.4.1 Initial conditions
Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
6.3B.4.2 Procedure
Connect the SS to the UE antenna connector as shown in figure A.1.
1) The UE is switched on.
2) An RRC connection is set-up according to the generic HSDPA set-up procedure specified in TS 34.108 [3] and SS RF parameters are given in tables 6.3B.1.
3) Measure the HS-PDSCH throughput R received by the UE by counting the number of NACK, ACK and statDTX on the UL HS-SICH (Throughput = blocksize*number of blocks acknowledged/time).
4) The UE is switched off.
6.3B.5 Test requirements
The throughput shall be ≥ 90% of the maximum throughput of the reference measurement channels as specified in Table 6.3B.2 for different UE categories with the parameters specified in Table 6.3B.1. The minimum number of measurements required for a statistically significant result to this test is clarified in annex F.6.3, Table F.6.3.5.1.
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in clause F.4.
6.3C Maximum Input Level (IMB)
6.3C.1 Definition and applicability
The maximum input level is defined as the maximum mean power received at the UE antenna connector, which does not degrade the specified BLER performance.
The requirements in this clause shall apply to 3.84 Mcps TDD IMB UE.
6.3C.2 Minimum requirements
The BLER shall not exceed 0.01 for the parameters specified in table 6.3C.2.1.
Table 6.3C.2.1: Maximum input level (3,84 Mcps TDD IMB)
Parameter
Level
Unit
-7.77
dB
-25
dBm/3,84 MHz
NOTE: The term DPCH_Ec refers to the sum of the energy of the physical channels comprising the IMB DL reference measurement channel.
The reference for this requirement is TS 25.102 [1] clause 7.4.1.1.
6.3C.3 Test purpose
The test purpose is to verify the ability of the UE to receive a prescribed test signal at the upper end of the dynamic range under defined conditions (no interference, no multipath propagation) with BLER not exceeding a specified value.
6.3C.4 Method of test
6.3C.4.1 Initial conditions
Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1) Connect the SS to the UE antenna connector as shown in figure A.3.
2) A call is set up according to the Generic call setup procedure.
3) Enter the UE into loopback mode 3 and start the loopback test. See TS 34.108 and TS 34.109 for details regarding loopback test mode 3 for MBMS.
4) The level of SS output signal measured at the UE antenna connector shall be according to table 6.3C.2.1
6.3C.4.2 Procedure
1) SS shall start the test by sending data on the MTCH radio bearer and maintain the count of transmitted RLC SDU blocks on the MTCH.
2) SS shall send a “UE TEST LOOP MODE 3 RLC SDU COUNTER REQUEST” message and wait for the UE to response with a “UE TEST LOOP MODE 3 RLC SDU COUNTER RESPONSE” reporting the received RLC SDU counter value.
3) SS shall compute the RLC SDU error rate based on the transmitted RLC SDUs count and received RLC SDU count reported by the UE.
4) The test shall be run until the statistical significance according to Annex to F.6.1.8 is achieved.
6.3C.5 Test requirements
For IMB operation, the computed BLER shall not exceed 0.01. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.4 Adjacent Channel Selectivity (ACS) | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.4.1 Definition and applicability | Adjacent Channel Selectivity is a measure of a receiver's ability to receive a wanted signal at its assigned channel frequency in the presence of an adjacent channel signal at a given frequency offset from the centre frequency of the assigned channel. ACS is the ratio of the receive filter attenuation on the assigned channel frequency to the receiver filter attenuation on the adjacent channel(s).
The requirements of this test apply to all UTRA UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.4.2 Minimum Requirements | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.4.2.1 3,84 Mcps TDD Option | For the UE of power class 2 and 3, the BER shall not exceed 0,001 for parameters specified in table 6.4.2.1. This test condition is equivalent to the ACS value 33 dB.
Table 6.4.2.1: Test parameters for Adjacent Channel Selectivity (3,84 Mcps TDD Option)
Parameter
Unit
Level
dB
0
Îor
dBm/3,84 MHz
-91
Ioac mean power (modulated)
dBm
-52
Fuw offset
MHz
+5 or -5
Explanatory NOTE:
- Within the reference sensitivity BER= 0.001 corresponds to a test signal = -105 dBm/3,84 MHz and a noise level ‑99 dBm /3,84 MHz BW (S/I -6 dB).
- Within ACS BER=0.001 is directly verified.
- Known from the reference sensitivity, this corresponds to S/I –6dB in the wanted BW.
- As a wanted signal of –91 dBm applied, an in-channel-interfering-signal of –85 dBm can be assumed.
- Verifying a filter suppression of 33 dB indirectly, an adjacent-channel-interferer of –52 dBm is needed
- The normative reference of this requirement is TS 25.102 [1] clause 7.5. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.4.2.2 1,28 Mcps TDD Option | For the UE of power class 2 and 3, the BER shall not exceed 0,001 for parameters specified in table 6.4.2.2. This test condition is equivalent to the ACS value 33 dB.
Table 6.4.2.2: Test parameters for Adjacent Channel Selectivity (1,28Mcps TDD Option)
Parameter
Unit
Case 1
Case 2
dB
0
0
Îor
dBm/1,28MHz
-91
-62
Ioac mean power (modulated)
dBm
-54
-25
Fuw offset
MHz
+1.6 or –1.6
+1.6 or -1.6
The normative reference of this requirement is TS 25.102 [1] clause 7.5.1.2. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.4.2.3 7,68 Mcps TDD Option | For the UE of power class 2 and 3, the BER shall not exceed 0,001 for parameters specified in table 6.4.2.3. This test condition is equivalent to the ACS value 33 dB.
Table 6.4.2.3: Test parameters for Adjacent Channel Selectivity (7,68 Mcps TDD Option)
Parameter
Unit
Level
dB
0
Îor
dBm/7.68 MHz
-91
Ioac mean power (modulated)
dBm
-52
Fuw offset (3.84 Mcps Modulated)
MHz
+7.5 or -7.5
Fuw offset (7.68 Mcps Modulated)
MHz
+10 or -10
Explanatory NOTE:
- Within the reference sensitivity BER= 0.001 corresponds to a test signal = -105 dBm/7,68 MHz and a noise level ‑99 dBm /7,68 MHz BW (S/I -6 dB).
- Within ACS BER=0.001 is directly verified.
- Known from the reference sensitivity, this corresponds to S/I –6dB in the wanted BW.
- As a wanted signal of –91 dBm applied, an in-channel-interfering-signal of –85 dBm can be assumed.
- Verifying a filter suppression of 33 dB indirectly, an adjacent-channel-interferer of –52 dBm is needed
- The normative reference of this requirement is TS 25.102 [1] clause 7.5.1.3. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.4.3 Test purpose | The test purpose is to verify the ability of the UE-receiver to sufficiently suppress the interfering signal in the channel adjacent to the wanted channel. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.4.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.4.4.1 Initial conditions | Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1) Connect the SS and the interferer to the UE antenna connector as shown in figure A.4.
2) A call is set up according to the Generic call setup procedure.
3) Enter the UE into loopback test mode and start the loopback test.
4) Set the signal generators to produce wanted and interference signals according table 6.4.2.1 for 3,84 Mcps TDD option, table 6.4.2.1.2 for 1,28 Mcps TDD option and table 6.4.2.1.3 for 7,68 Mcps TDD option. The interference signal shall be equivalent to a continuously running wideband CDMA signal with one code and chip frequency 3,84 Mchip/s for the 3,84 Mcps TDD Option, a 1,28 Mchp/s for the 1,28 Mcps TDD Option and 7,68 Mchip/s for the 7,68 Mcps TDD Option, respectively and rolloff 0.22. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.4.4.2 Procedure | 1) Set the interference signal 5 MHz for the 3,84 Mcps TDD Option,1.6 MHz for the 1,28 Mcps TDD Option and 10 MHz for the 7,68 Mcps TDD Option, respectively above the assigned channel frequency of the wanted signal.
2) Measure the BER of the wanted signal received from the UE at the SS.
3) Set the interference signal 5 MHz for the 3,84 Mcps TDD Option, 1.6 MHz for the 1,28 Mcps TDD Option and 10 MHz for the 7,68 Mcps TDD Option, respectively, below the assigned channel frequency of the wanted signal and repeat 2).
4) For the 7,68Mcps TDD option repeat steps 1 to 3 for an interfering 3.84Mcps signal with offsets 7.5MHz above and below the assigned channel frequency of the wanted signal. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.4.5 Test Requirements | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.4.5.1 3,84 Mcps TDD Option | The measured BER, derived in step 2), shall not exceed 0,001 under conditions described in table 6.4.5.1 for the 3,84 Mcps TDD Option.
Table 6.4.5.1: Test parameters for Adjacent Channel Selectivity (3,84 Mcps TDD Option)
Parameter
Unit
Level
dB
0
Îor
dBm/3,84 MHz
-91
Ioac mean power (modulated)
dBm
-52
Fuw offset
MHz
+5 or -5
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in Annex F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in Annex F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.4.5.2 1,28 Mcps TDD Option | The measured BER, derived in step 2), shall not exceed 0,001 under conditions described in table 6.4.5.2 for the 1,28 Mcps TDD Option.
Table 6.4.5.2: Test parameters for Adjacent Channel Selectivity (1,28Mcps TDD Option)
Parameter
Unit
Case 1
Case 2
dB
0
0
Îor
dBm/1,28MHz
-91
-62
Ioac mean power (modulated)
dBm
-54
-25
Fuw offset
MHz
+1.6 or –1.6
+1.6 or –1.6
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in annex F clause F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in annex F clause F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.4.5.3 7,68 Mcps TDD Option | The measured BER, derived in step 2), shall not exceed 0,001 under conditions described in table 6.4.5.3 for the 7,68 Mcps TDD Option.
Table 6.4.5.3: Test parameters for Adjacent Channel Selectivity (7,68 Mcps TDD Option)
Parameter
Unit
Level
dB
0
Îor
dBm/3,84 MHz
-91
Ioac mean power (modulated)
dBm
-52
Fuw offset (3.84 Mcps Modulated)
MHz
+7.5 or -7.5
Fuw offset (7.68 Mcps Modulated)
MHz
+10 or -10
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in Annex F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in Annex F.4.
6.4A Adjacent Channel Selectivity (ACS) (IMB)
6.4A.1 Definition and applicability
Adjacent Channel Selectivity is a measure of a receiver's ability to receive a wanted signal at its assigned channel frequency in the presence of an adjacent channel signal at a given frequency offset from the centre frequency of the assigned channel. ACS is the ratio of the receive filter attenuation on the assigned channel frequency to the receiver filter attenuation on the adjacent channel(s).
The requirements of this test apply to 3.84 Mcps TDD IMB UE.
6.4A.2 Minimum Requirements
The BLER shall not exceed [0.01 for the parameters specified in table 6.4A.2.1.
Table 6.4A.2.1: Test parameters for Adjacent Channel Selectivity (3,84 Mcps TDD IMB)
Parameter
Unit
Level
dB
-0.77
Îor
dBm/3,84 MHz
-91
Ioac mean power (modulated)
dBm
-52
Fuw offset
MHz
+5 or -5
NOTE: The term DPCH_Ec refers to the sum of the energy of the physical channels comprising the IMB DL reference measurement channel.
Explanatory note:
Within the reference sensitivity BLER=0.01 corresponds to a test signal = -105 dBm/3,84 MHz and a noise level ‑99 dBm /3,84 MHz BW (S/I -6 dB).
Within ACS BLER=0.01 is directly verified.
Known from the reference sensitivity, this corresponds to S/I –6dB in the wanted BW.
As a wanted signal of –91 dBm applied, an in-channel-interfering-signal of –85 dBm can be assumed.
Verifying a filter suppression of 33 dB indirectly, an adjacent-channel-interferer of –52 dBm is needed
The normative reference of this requirement is TS 25.102 [1] clause 7.5.
6.4A.3 Test purpose
The test purpose is to verify the ability of the UE-receiver to sufficiently suppress the interfering signal in the channel adjacent to the wanted channel.
6.4A.4 Method of test
6.4A.4.1 Initial conditions
Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
1) Connect the SS and the interferer to the UE antenna connector as shown in figure A.4.
2) A call is set up according to the Generic call setup procedure.
3) Enter the UE into loopback mode 3 and start the loopback test. See TS 34.108 and TS 34.109 for details regarding loopback test mode 3 for MBMS.
4) Set the signal generators to produce wanted and interference signals according table 6.4A.2.1. The interference signal shall be equivalent to a continuously running wideband CDMA signal with one code and chip frequency 3,84 Mchip/s and rolloff 0.22.
6.4A.4.2 Procedure
1) Set the interference signal 5 MHz for the 3,84 Mcps TDD Option above the assigned channel frequency of the wanted signal.
2) SS shall start the test by sending data on the MTCH radio bearer and maintain the count of transmitted RLC SDU blocks on the MTCH.
3) SS shall send a “UE TEST LOOP MODE 3 RLC SDU COUNTER REQUEST” message and wait for the UE to response with a “UE TEST LOOP MODE 3 RLC SDU COUNTER RESPONSE” reporting the received RLC SDU counter value.
4) SS shall compute the RLC SDU error rate based on the transmitted RLC SDUs count and received RLC SDU count reported by the UE.
5) Set the interference signal 5 MHz for the 3,84 Mcps TDD Option below the assigned channel frequency of the wanted signal and repeat steps 2 to 5.
6.4A.5 Test Requirements
The computed BLER shall not exceed 0.01 under conditions described in table 6.4A.5.1.
Table 6.4A.5.1: Test parameters for Adjacent Channel Selectivity (3,84 Mcps TDD IMB)
Parameter
Unit
Level
dB
-0.77
Îor
dBm/3,84 MHz
-91
Ioac mean power (modulated)
dBm
-52
Fuw offset
MHz
+5 or -5
NOTE: The term DPCH_Ec refers to the sum of the energy of the physical channels comprising the IMB DL reference measurement channel.
NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in Annex F.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in Annex F.4. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.5 Blocking Characteristics | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.5.1 Definition and applicability | The blocking characteristics is a measure of the receiver ability to receive a wanted signal at its assigned channel frequency in the presence of an unwanted interferer on frequencies other than those of the spurious response or the adjacent channels without this unwanted input signal causing a degradation of the performance of the receiver beyond a specified limit.. The blocking performance shall apply at all frequencies except those at which a spurious response occur.
The requirements of this test apply to all UTRA UE. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.5.2 Minimum Requirements | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.5.2.1 3,84 Mcps TDD Option | The BER shall not exceed 0,001 for the parameters specified in table 6.5.2.1a and table 6.5.2.1b. For table 6.5.2.1b up to 24 exceptions are allowed for spurious response frequencies in each assigned frequency channel when measured using a 1MHz step size for the interference signal.
The normative reference for this requirement is TS 25.102 clause 7.6.1.1.
Table 6.5.2.1a: In-band blocking (3,84 Mcps TDD Option)
Parameter
Level
Unit
0
dB
Îor
-102
dBm/3,84 MHz
mean power (modulated)
-56
(for Fuw offset 10 MHz)
-44
(for Fuw offset 15 MHz)
dBm
Table 6.5.2.1b: Out of band blocking (3,84 Mcps TDD Option)
Parameter
Band 1
Band 2
Band 3
Unit
0
0
0
dB
Îor
-102
-102
-102
dBm/3,84 MHz
Iouw
-44
-30
-15
dBm
Fuw
For operation in frequency bands as defined in clause 4.2(a)
1840 <f <1885
1935 <f <1995
2040 <f <2085
1815 <f <1840
2085 <f <2110
1< f <1815
2110< f <12750
MHz
Fuw
For operation in frequency bands as defined in clause 4.2(b)
1790 < f < 1835
2005 < f < 2050
1765 < f < 1790
2050 < f < 2075
1 < f < 1765
2075 < f < 12750
MHz
Fuw
For operation in frequency bands as defined in clause 4.2(c)
1850 < f < 1895
1945 < f < 1990
1825 < f < 1850
1990 < f < 2015
1 < f < 1825
2015 < f < 12750
MHz
NOTE 1: For operation referenced in 4.2(a), from 1885 <f< 1900 MHz, 1920 <f< 1935 MHz, 1995 <f< 2010 MHz and 2025<f< 2040 MHz , the appropriate in-band blocking or adjacent channel selectivity in clause 6.4.2.1 shall be applied.
NOTE 2: For operation referenced in 4.2(b), from 1835 < f < 1850 MHz and 1990< f < 2005 MHz, the appropriate in-band blocking or adjacent channel selectivity in clause 6.4.2.1 shall be applied.
NOTE 3: For operation referenced in 4.2(c), from 1895 < f < 1910 MHz and 1930< f < 1945 MHz, the appropriate in-band blocking or adjacent channel selectivity in clause 6.4.2.1 shall be applied. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.5.2.2 1,28 Mcps TDD Option | The BER shall not exceed 0.001 for the parameters specified in table 6.5.2.2a and table 6.5.2.2b. For table 6.5.2.2b up to 24 exceptions are allowed for spurious response frequencies in each assigned frequency channel when measured using a 1MHz step size.
The normative reference for this requirement is 3G TS 25.102 [1] clause 7.6.1.2.
Table 6.5.2.2a: In-band blocking (1,28Mcps TDD Option)
Parameter
Level
Unit
0
dB
-105
dBm/1,28 MHz
mean power (modulated)
-61
(for Fuw offset ±3.2 MHz)
-49
(for Fuw offset ±4.8 MHz)
dBm
Table 6.5.2.2b: Out of band blocking (1,28Mcps TDD Option)
Parameter
Band 1
Band 2
Band 3
Unit
0
0
0
dB
-105
-105
-105
dBm/1,28 MHz
(CW)
-44
-30
-15
dBm
Fuw
For operation in frequency bands as defined in clause 4.2(a)
1840 <f <1895.2
1924.8 <f <2005.2
2029.8 <f <2085
1815 <f <1840
2085 <f <2110
1< f <1815
2110< f <12750
MHz
Fuw
For operation in frequency bands as defined in clause 4.2(b)
1790 < f < 1845.2
1994.8 < f < 2050
1765 < f < 1790
2050 < f < 2075
1 < f < 1765
2075 < f < 12750
MHz
Fuw
For operation in frequency bands as defined in clause 4.2(c)
1850 < f < 1905.2
1934.8 < f < 1990
1825 < f < 1850
1990 < f < 2015
1 < f < 1825
2015 < f < 12750
MHz
Fuw
For operation in frequency bands as defined in subclause 5.2(e)
2240 < f < 2295.2
2404.8 < f < 2460
2215 < f 2240
2460 f < 2485
1< f 2215
2485 f < 12750
MHz
Fuw
For operation in frequency bands as defined in subclause 5.2(f)
1820 < f <1875.2
1924.8 < f <1980
1795 < f 1820
1980 f < 2005
1 < f 1795
2005 < f <12750
MHz
NOTE 1: For operation referenced in 4.2(a), from 1895.2 <f< 1900 MHz, 1920 <f< 1924.8 MHz, 2005.2 <f< 2010 MHz and 2025<f< 2029.8 MHz , the appropriate in-band blocking or adjacent channel selectivity in clause 6.4.2.2shall be applied.
NOTE 2: For operation referenced in 4.2(b), from 1845.2 < f < 1850 MHz and 1990< f < 1994.8 MHz, the appropriate in-band blocking or adjacent channel selectivity in clause 6.4.2.2 shall be applied.
NOTE 3: For operation referenced in 4.2(c), from 1905.2 < f < 1910 MHz and 1930< f < 1934.8 MHz, the appropriate in-band blocking or adjacent channel selectivity in clause 6.4.2.2 shall be applied.
NOTE 4: For operation referenced in 4.2(d), from 2565.2 f 2624.8 MHz, the appropriate in-band blocking or adjacent channel selectivity in clause 6.4.2.2 shall be applied.
NOTE 5: For operation referenced in 4.2(e), from 2295.2 f 2404.8 MHz, the appropriate in-band blocking or adjacent channel selectivity in clause 6.4.2.2 shall be applied.
NOTE 6: For operation referenced in 4.2(f), from 1875.2 f 1924.8 MHz, the appropriate in-band blocking or adjacent channel selectivity in clause 6.4.2.2 shall be applied. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.5.2.3 7,68 Mcps TDD Option | The BER shall not exceed 0,001 for the parameters specified in table 6.5.2.3a and table 6.5.2.3b. For table 6.5.2.3b up to 24 exceptions are allowed for spurious response frequencies in each assigned frequency channel when measured using a 1MHz step size for the interference signal.
The normative reference for this requirement is TS 25.102 clause 7.6.1.3.
Table 6.5.2.3a: In-band blocking (7,68 Mcps TDD Option)
Parameter
Level
Unit
0
dB
-102
dBm/7.68 MHz
mean power (modulated)
-53
(for Fuw offset ±20 MHz)
-41
(for Fuw offset ±30 MHz)
dBm
Table 6.5.2.3b: Out of band blocking (7,68 Mcps TDD Option)
Parameter
Band 1
Band 2
Band 3
Unit
0
0
0
dB
-102
-102
-102
dBm/7.68 MHz
(CW)
-44
-30
-15
dBm
Fuw
For operation in frequency bands as defined in subclause 4.2(a)
1840 <f <1870
1950 <f <1980
2055 <f <2085
1815 <f <1840
2085 <f <2110
1< f <1815
2110< f <12750
MHz
Fuw
For operation in frequency bands as defined in subclause 4.2(b)
1790 < f < 1820
2020 < f < 2050
1765 < f < 1790
2050 < f < 2075
1 < f < 1765
2075 < f < 12750
MHz
Fuw
For operation in frequency bands as defined in subclause 4.2(c)
1850 < f < 1880
1960 < f < 1990
1825 < f < 1850
1990 < f < 2015
1 < f < 1825
2015 < f < 12750
MHz
Fuw
For operation in frequency bands as defined in subclause 4.2(d)
2510 <f< 2540
2650 <f< 2680
2485 <f< 2510
2680 <f< 2705
1 <f< 2485
2705 <f< 12750
MHz
1. For operation referenced in 4.2(a), from 1870 <f< 1900 MHz, 1920 <f< 1950 MHz, 1980 <f< 2010 MHz and 2025<f< 2055 MHz , the appropriate in-band blocking or adjacent channel selectivity in section 6.4.2.3 shall be applied.
2. For operation referenced in 4.2(b), from 1820 < f < 1850 MHz and 1990< f < 2020 MHz, the appropriate in-band blocking or adjacent channel selectivity in section 6.4.2.3 shall be applied.
3. For operation referenced in 4.2(c), from 1880 < f < 1910 MHz and 1930< f < 1960 MHz, the appropriate in-band blocking or adjacent channel selectivity in section 6.4.2.3 shall be applied.
4. For operation referenced in 4.2(d), from 2540 < f < 2570 MHz and 2620< f < 2650 MHz, the appropriate in-band blocking or adjacent channel selectivity in section 6.4.2.3 shall be applied.
Table 6.5.2.3c: Additional Out of band blocking (7,68 Mcps TDD Option)
Parameter
Band 1
Band 2
Band 3
Unit
0
0
0
dB
-102
-102
-102
dBm/7.68 MHz
Iouw (CW)
-44
-30
-15
dBm
Fuw
For operation in frequency bands in 2010-2025 MHz as defined in subclause 5.2(a)
1840 <f <1995
2040 <f <2085
1815 <f <1840
2085 <f <2110
1< f <1815
2110< f <12750
MHz
NOTE 1: Additional requirement is applied for Band a) UE operating on 2010-2025MHz. |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.5.3 Test purpose | "The test stresses the ability of the UE receiver to withstand high-level interference from unwanted signals at frequency offsets of 10 MHz or more, without undue degradation of its sensitivity." |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.5.4 Method of test | |
40bd05ebf1e9d686c3dc55dd3e817398 | 34.122 | 6.5.4.1 Initial conditions | For in-band case:
Test environment: normal; see clauses G.2.1 and G.2.2.
Frequencies to be tested: mid range; see clause G.2.4.
For out-of-band case:
Test environment: normal; see clauses G.2.1 and G.2.2.
Frequency to be tested: 1 arbitrary frequency chosen from the low, mid or high range; see clause G.2.4.
1) Connect the SS and the interfering Signal generator to the UE antenna connector as shown in figure A.5.
2) A call is set up according to the Generic call setup procedure.
3) Enter the UE into loopback test mode and start the loopback test. |
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