14.18.5 Blocking and spurious response

3GPP51.010-1Mobile Station (MS) conformance specificationPart 1: Conformance specificationTS

14.18.5.1 Definition

Blocking is a measure of the ability of the receiver to receive a modulated wanted input signal in the presence of an unwanted input signal, on frequencies other than those of the spurious responses or the adjacent channels, without exceeding a given degradation. "Wanted signal" in this test is the signal generated by the transmitted RLC data blocks.

14.18.5.2 Conformance requirement

1. The blocking characteristics of the receiver are specified separately for in-band and out-of-band performance as identified in 3GPP TS 05.05 subclause 5.1.

2. The block error rate (BLER) performance for PDTCH/MCS1 to 4 shall not exceed 10 % and for PDTCH/MCS5 to 9 shall not exceed 10 % or 30 % depending on Coding Schemes and for USF/MCS1 to 9 shall not exceed 1 % when the following signals are simultaneously input to the receiver; 3GPP TS 05.05, subclause 6.2:

– a useful signal at frequency f0, 3 dB above the reference sensitivity level specified in table 14.18-3a for GMSK modulation and table 14.18-3b for 8-PSK modulation for PDTCH channels; and in tables 14.18-4a for GMSK modulation and 14.18-4b for 8-PSK modulation for USF channel with correction values as specified in 3GPP TS 05.05 subclause 6.2;

– a continuous, static sine wave unwanted signal at a level as in the table 14.18-9 below and at a frequency (f) which is an integer multiple of 200 kHz.

with the following exceptions, called spurious response frequencies:

a) GSM 400: in band, for a maximum of three occurrences. 3GPP TS 05.05, subclause 5.1.

GSM 700, GSM 850 or GSM 900: in band, for a maximum of six occurrences (which if grouped shall not exceed three contiguous occurrences per group). 3GPP TS 05.05, subclause 5.1.

DCS 1 800 and PCS 1 900: in band, for a maximum of twelve occurrences (which if grouped shall not exceed three contiguous occurrences per group). 3GPP TS 05.05, subclause 5.1.

b) out of band, for a maximum of 24 occurrences (which if below f0 and grouped shall not exceed three contiguous occurrences per group). 3GPP TS 05.05, subclause 5.1.

where the above performance shall be met when the continuous sine wave signal (f) is set to a level of 70 dBµV (emf) (i.e. -43 dBm). 3GPP TS 05.05, subclause 5.1.

14.18.5.3 Test purpose

1. To verify that the in band blocking performance is met without exceeding the total number of allowed in band spurious responses. An allowance is made for the statistical significance of the test.

2. To verify that at selected out of band frequencies, the out of band blocking performance is met without exceeding the total number of allowed out of band spurious responses. An allowance is made for the statistical significance of the test.

NOTE: Not all of the possible out of band frequencies are tested as this results in excessive test time. However, the total number of out of band spurious responses, specified in 3GPP TS 05.05, is allowed to ensure a fair test of the MS.

14.18.5.4 Method of test

Initial conditions

A call is set up according to the generic call set up procedure, except the BCCH frequency list shall be empty, on a TCH with an arbitrary ARFCN in the range supported by the MS. The power control level is set to maximum power. The ARFCN of the BCCH shall be the same – or at an offset of +/- 2 channels, than that of the ARFCN for the TCH.

The SS transmits EGPRS RLC data blocks containing random data.

In addition to the wanted Test Signal, the SS transmit a static unmodulated continuous interfering signal (Standard Test Signal I0).

Test procedure

For the ACK/NACK test steps the maximum number of supported time slots shall be used, and for the USF test steps the maximum supported symmetrical UL slot configuration shall be used.

For GMSK Modulation:

a) The SS is set to produce a static GMSK wanted signal and a static interfering signal at the same time. The SS sets the amplitude of the wanted signal to 4 dB above the reference sensitivity level specified in table 14.18-3a for PDTCH channel and in table 14.18-4a for USF channel with correction values as specified in 3GPP TS 05.05 subclause 6.2.

b) The SS transmits packets on PDTCH using MCS-4 coding to MS on all allocated timeslots.

c) The unwanted signal is of frequency FB. It is applied in turn on the subset of frequencies calculated at step d) in the overall range 100 kHz to 12,75 GHz, where FB is an integer multiple of 200 kHz.

However, frequencies in the range FR ± 600 kHz are excluded.

NOTE: Allowance must be made for possible spurious signals arising from the SS. These are particularly likely at sub harmonic frequencies nFB where n = 2, 3, 4, 5, etc.

d) The frequencies at which the test is performed (adjusted to an integer multiple of 200 kHz channels most closely approximating the absolute frequency of the calculated blocking signal frequency) are the combined frequencies from i), ii) and iii) which follow:

i) The total frequency range formed by:

GSM 400 the frequencies between Flo + (IF1 + IF2 + … + IFn + 3,6 MHz)

and Flo – (IF1 + IF2 + … + IFn + 3,6 MHz).

GSM 700 the frequencies between Flo + (IF1 + IF2 + … + IFn + 7,5 MHz)

and Flo – (IF1 + IF2 + … + IFn + 7,5 MHz).

GSM 850 the frequencies between Flo + (IF1 + IF2 + … + IFn + 12,5 MHz)

and Flo – (IF1 + IF2 + … + IFn + 12,5 MHz).

P-GSM 900: the frequencies between Flo + (IF1 + IF2 + … + IFn + 12,5 MHz)

and Flo – (IF1 + IF2 + … + IFn + 12,5 MHz).

E-GSM 900: the frequencies between Flo + (IF1 + IF2 + … + IFn + 17,5 MHz)

and Flo – (IF1 + IF2 + … + IFn + 17,5 MHz).

DCS 1 800: the frequencies between Flo + (IF1 + IF2 + … + IFn + 37,5 MHz)

and Flo – (IF1 + IF2 + … + IFn + 37,5 MHz).

PCS 1 900: the frequencies between Flo + (IF1 + IF2 + … + IFn + 30 MHz)

and Flo – (IF1 + IF2 + … + IFn + 30 MHz).

and

the frequencies +100 MHz and -100 MHz from the edge of the relevant receive band.

Measurements are made at 200 kHz intervals.

ii) The three frequencies IF1, IF1 + 200 kHz, IF1 – 200 kHz.

iii) The frequencies:

mFlo + IF1;

mFlo – IF1;

mFR;

where m is all positive integers greater than or equal to 2 such that either sum lies in the range 100 kHz to 12,75 GHz.

The frequencies in step ii) and iii) lying in the range of frequencies defined by step i) above need not be repeated.

Where:

Flo – local oscillator applied to first receiver mixer

IF1 … IFn – are the n intermediate frequencies

Flo, IF1, IF2 … IFn – shall be declared by the manufacturer in the PIXIT statement
3GPP TS 51.010-1 annex 3.

e) The level of the unwanted signal is set according to table 14.18-9.

Table 14.18-9a: Level of unwanted signals

GSM450

GSM480

GSM 900

DCS 1 800

PCS 1 900

Small MS

Other MS

Small MS

Other MS

Small MS

Other MS

FREQUENCY

LEVEL IN dBVemf(  )

FR ±600 kHz to FR ±800 kHz

70

75

70

75

70

75

70

70

FR ±800 kHz to FR ±1,6 MHz

70

80

70

80

70

80

70

70

FR ±1,6 MHz to FR ±3 MHz

80

90

80

90

80

90

80

80

457,6 MHz to FR – 3 MHz

90

90

FR + 3 MHz to 473,6 MHz

90

90

486 MHz to FR – 3MHz

90

90

FR + 3MHz to 502 MHz

90

90

915 MHz to FR – 3 MHz

90

90

FR + 3 MHz to 980 MHz

90

90

1 785 MHz to FR – 3 MHz

87

FR + 3 MHz to 1 920 MHz

87

1 910 MHz to FR – 3 MHz

87

FR + 3 MHz to 2 010 MHz

87

100 kHz to < 457,6 MHz

113

113

> 473,6MHz to 12,750 MHz

113

113

100 kHz to < 486 MHz

113

113

> 502 MHz to 12,750 MHz

113

113

835 MHz to < 915 MHz

113

113

> 980 MHz to 1 000 MHz

113

113

100 kHz to < 835 MHz

113

113

> 1 000 MHz to 12,750 MHz

113

113

100 kHz to 1 705 MHz

113

> 1 705 MHz to < 1 785 MHz

101

> 1 920 MHz to 1 980 MHz

101

> 1 980 MHz to 12,750 MHz

113

100 kHz to < 1 830 MHz

113

1 830 MHz to < 1 910 MHz

101

> 2 010 MHz to 2 070 MHz

101

> 2 070 MHz to 12,750 MHz

113

Table 14-18-9b: Level of unwanted signals

GSM 710

GSM 750

T-GSM 810

GSM 850

FREQUENCY

LEVEL IN dBVemf(  )

FR ±600 kHz to FR ±800 kHz

70

70

70

70

FR ±800 kHz to FR ±1,6 MHz

70

70

70

70

FR ±1,6 MHz to FR ±3 MHz

80

80

80

80

678 MHz to FR – 3 MHz

90

FR + 3 MHz to 728 MHz

90

727 MHz to FR – 3 MHz

90

FR + 3 MHz to 777 MHz

90

831 MHz to FR – 3 MHz

90

FR + 3 MHz to 886 MHz

90

849 MHz to FR – 3 MHz

90

FR + 3 MHz to 914 MHz

90

678 MHz to FR – 3 MHz

113

FR + 3 MHz to 728 MHz

113

100 kHz to < 727 MHz

113

> 777 MHz to 12,75 GHz

113

100 kHz to 831 MHz

113

> 886 MHz to 12,75 MHz

113

100 kHz to < 849 MHz

113

> 914 MHz to 12,75 GHz

113

NOTE 1: For E-GSM 900 MS the level of the unwanted signal in the band 905 MHz to 915 MHz is relaxed to 108 dBuVemf( ). 3GPP TS 05.05, subclause 5.1.

NOTE 2: a) For R-GSM 900 MS the level of the unwanted signal in the band 880 MHz to 915 MHz is relaxed to 108 dBuVemf( ). 3GPP TS 05.05, subclause 5.1.
For ER-GSM MS the level of the unwanted signal in the band 880 MHz to 912 MHz is relaxed to 108 dBuVemf( ). 3GPP TS 45.005, subclause 5.1.
For ER-GSM MS the level of the unwanted signal in the band 912 MHz to 915 MHz is relaxed to 101 dBuVemf( ). 3GPP TS 45.005, subclause 5.1.

b) For R-GSM 900 small MS the level of the unwanted signal in the band 876 MHz to 915 MHz is relaxed to 106 dBuVemf( ). 3GPP TS 05.05, subclause 5.1.
For ER-GSM small MS the level of the unwanted signal in the band 873 MHz to 912 MHz is relaxed to 106 dBuVemf( ). 3GPP TS 45.005, subclause 5.1.
For ER-GSM small MS the level of the unwanted signal in the band 912 MHz to 915 MHz is relaxed to 99 dBuVemf( ). 3GPP TS 45.005, subclause 5.1.

NOTE 3: a) For GSM 450 small MS the level of the unwanted signal in the band 450,4 MHz to 457,6 MHz is relaxed to 108 dBuVemf( ). 3GPP TS 05.05, subclause 5.1.

b) For GSM 480 small MS the level of the unwanted signal in the band 478,8 MHz to 486 MHz is relaxed to 108 dBuVemf( ). 3GPP TS 05.05, subclause 5.1.

f) The SS counts the number of blocks transmitted with current coding scheme and the number of these blocks not acknowledged based on the content of the Ack/Nack Description information element (see 3GPP TS 04.60, subclause 12.3) in the Packet Downlink Ack/Nack as sent from the MS to the SS on the PACCH.

NOTE 1: Due to the error rates related to the USF, the MS is likely to occasionally miss its USF for transmitting the Packet Downlink Ack/Nack. As this requirement is not verified in this part of the test, the SS then again assigns uplink resources so the MS can send this message.

g) Once the number of blocks transmitted with the current coding scheme as counted in step f) reaches or exceeds the minimum number of blocks as given in table 14.18-2, the SS calculates the Block error ratio. The SS resets both counters.

If a failure is indicated, it is noted and counted towards the allowed exemption total. In the case of failures discovered at the predicted frequencies at steps d i), ii) or iii) the test is repeated on the adjacent channels ±200 kHz away. If either of these two frequencies fail then the next channel 200 kHz beyond is also be tested. This process is repeated until all channels constituting the group of failures is known.

h) The SS sets the value of the USF/MCS-4 such as to allocate the uplink to the MS.

i) The unwanted signal is of frequency FB. It is applied in turn on the subset of frequencies calculated at step d) in the overall range 100 kHz to 12,75 GHz, where FB is an integer multiple of 200 kHz.

However, frequencies in the range FR ±600 kHz are excluded.

NOTE 2: Allowance must be made for possible spurious signals arising from the SS. These are particularly likely at sub harmonic frequencies nFB where n = 2, 3, 4, 5, etc.

j) The level of the unwanted signal is set according to table 14.18-9.

k) The SS counts the number of times the USF is allocated to the MS, and the number of times the MS does not transmit while being allocated the uplink.

l) Once the number of USF/MCS-4 allocating the uplink for the MS as counted in step k) reaches or exceeds the minimum number of blocks as given in table 14.18-2, the SS calculates the Block error ratio. The SS resets both counters. If a failure is indicated, it is noted and counted towards the allowed exemption total.

In the case of failures discovered at the predicted frequencies at steps d i), ii) or iii) the test is repeated on the adjacent channels ±200 kHz away. If either of these two frequencies fail then the next channel 200 kHz beyond is also be tested. This process is repeated until all channels constituting the group of failures is known.

For 8-PSK Modulation:

a) The SS is set to produce a static 8-PSK wanted signal and a static interfering signal at the same time. The SS sets the amplitude of the wanted signal to 4 dB above the reference sensitivity level specified in table 14.18-3b for PDTCH channel and in table 14.18-4b for USF channel with correction values as specified in 3GPP TS 05.05 subclause 6.2;

b) The SS transmits packets on PDTCH using MCS-9 coding to MS on all allocated timeslots.

c) The unwanted signal is of frequency FB. It is applied in turn on the subset of frequencies calculated at step d) in the overall range 100 kHz to 12,75 GHz, where FB is an integer multiple of 200 kHz.

However, frequencies in the range FR ±600 kHz are excluded.

NOTE 3: Allowance must be made for possible spurious signals arising from the SS. These are particularly likely at sub harmonic frequencies nFB where n = 2, 3, 4, 5, etc.

d) The frequencies at which the test is performed (adjusted to an integer multiple of 200 kHz channels most closely approximating the absolute frequency of the calculated blocking signal frequency) are the combined frequencies from i), ii) and iii) which follow:

i) The total frequency range formed by:

GSM 400 the frequencies between Flo + (IF1 + IF2 + … + IFn + 3,6 MHz)

and Flo – (IF1 + IF2 + … + IFn + 3,6 MHz).

GSM 700 the frequencies between Flo + (IF1 + IF2 + … + IFn + 7,5 MHz)

and Flo – (IF1 + IF2 + … + IFn + 7,5 MHz).

GSM 850 the frequencies between Flo + (IF1 + IF2 + … + IFn + 12,5 MHz)

and Flo – (IF1 + IF2 + … + IFn + 12,5 MHz).

P-GSM 900: the frequencies between Flo + (IF1 + IF2 + … + IFn + 12,5 MHz)

and Flo – (IF1 + IF2 + … + IFn + 12,5 MHz).

E-GSM 900: the frequencies between Flo + (IF1 + IF2 + … + IFn + 17,5 MHz)

and Flo – (IF1 + IF2 + … + IFn + 17,5 MHz).

DCS 1 800: the frequencies between Flo + (IF1 + IF2 + … + IFn + 37,5 MHz)

and Flo – (IF1 + IF2 + … + IFn + 37,5 MHz).

PCS 1 900: the frequencies between Flo + (IF1 + IF2 + … + IFn + 30 MHz)

and Flo – (IF1 + IF2 + … + IFn + 30 MHz).

and

the frequencies +100 MHz and -100 MHz from the edge of the relevant receive band.

Measurements are made at 200 kHz intervals.

ii) The three frequencies IF1, IF1 + 200 kHz, IF1 – 200 kHz.

iii) The frequencies:

mFlo + IF1;

mFlo – IF1;

mFR;

where m is all positive integers greater than or equal to 2 such that either sum lies in the range 100 kHz to 12,75 GHz.

The frequencies in step ii) and iii) lying in the range of frequencies defined by step i) above need not be repeated.

Where:

Flo – local oscillator applied to first receiver mixer

IF1 … IFn – are the n intermediate frequencies

Flo, IF1, IF2 … IFn – shall be declared by the manufacturer in the PIXIT statement
3GPP TS 51.010-1 annex 3.

e) The level of the unwanted signal is set according to table 14.18-9.

f) The SS counts the number of blocks transmitted with current coding scheme and the number of these blocks not acknowledged based on the content of the Ack/Nack Description information element (see 04.60, 12.3) in the Packet Downlink Ack/Nack as sent from the MS to the SS on the PACCH.

NOTE 4: Due to the error rates related to the USF, the MS is likely to occasionally miss its USF for transmitting the Packet Downlink Ack/Nack. As this requirement is not verified in this part of the test, the SS then again assigns uplink resources so the MS can send this message.

g) Once the number of blocks transmitted with the current coding scheme as counted in step f) reaches or exceeds the minimum number of blocks as given in table 14.18-2, the SS calculates the Block error ratio. The SS resets both counters. If a failure is indicated, it is noted and counted towards the allowed exemption total.

In the case of failures discovered at the predicted frequencies at steps d i), ii) or iii) the test is repeated on the adjacent channels ±200 kHz away. If either of these two frequencies fail then the next channel 200 kHz beyond is also be tested. This process is repeated until all channels constituting the group of failures is known.

h) The SS sets the value of the USF/MCS-9 such as to allocate the uplink to the MS.

j) The unwanted signal is of frequency FB. It is applied in turn on the subset of frequencies calculated at step d) in the overall range 100 kHz to 12,75 GHz, where FB is an integer multiple of 200 kHz.

However, frequencies in the range FR ±600 kHz are excluded.

NOTE 5: Allowance must be made for possible spurious signals arising from the SS. These are particularly likely at sub harmonic frequencies nFB where n = 2, 3, 4, 5, etc.

k) The level of the unwanted signal is set according to table 14.18-9.

l) The SS counts the number of times the USF is allocated to the MS, and the number of times the MS does not transmit while being allocated the uplink.

m) Once the number of USF/MCS-9 allocating the uplink for the MS as counted in step l) reaches or exceeds the minimum number of blocks as given in table 14.18-2, the SS calculates the Block error ratio. The SS resets both counters. If a failure is indicated, it is noted and counted towards the allowed exemption total.

In the case of failures discovered at the predicted frequencies at steps d i), ii) or iii) the test is repeated on the adjacent channels ±200 kHz away. If either of these two frequencies fail then the next channel 200 kHz beyond is also be tested. This process is repeated until all channels constituting the group of failures is known.

14.18.5.5 Test requirements

The block error ratio as calculated by the SS for different channels and coding schemes shall not exceed the conformance requirement. Testing the conformance requirement can be done either in the classical way with a fixed minimum number of samples (refer to section 14.18.5.5.2) or using statistical methods that lead to an early pass/fail decision with test time significantly reduced for MS with performance not on the limit (refer to section 14.18.5.5.1). Both methods are based on a bad DUT factor M = 1.5.

This shall apply under normal test voltage and ambient temperature, and with the interfering signal at any frequency in the range specified.

The following exceptions are allowed:

GSM 400: A maximum of three failures in the band 457,6 MHz to 473,6 MHz for GSM450 and in the band 486,0 MHz to 502,0 MHz for GSM480

A maximum of 24 in the combined bands 100 kHz to 457,6 MHz and 473,6 MHz to 12,75 GHz for GSM 450 and in the combined bands 100 kHz to 486,0 MHz and 502,0 MHz to 12,75 GHz for GSM 480 (which, if below FR and grouped, shall not exceed three 200 kHz channels per group).

GSM 710: A maximum of six failures in the frequency band 678 MHz to 728 MHz (which, if grouped, shall not exceed three 200 kHz channels per group).

A maximum of 24 failures in the combined bands 100 kHz to 678 MHz and 728 MHz to 12,75 GHz (which, if below FR and grouped, shall not exceed three 200 kHz channels per group).

GSM 750: A maximum of six failures in the frequency band 727 MHz to 782 MHz (which, if grouped, shall not exceed three 200 kHz channels per group).

A maximum of 24 failures in the combined bands 100 kHz to 727 MHz and 782 MHz to 12,75 GHz (which, if below FR and grouped, shall not exceed three 200 kHz channels per group).

GSM 810: A maximum of six failures in the frequency band 831 MHz to 886 MHz (which, if grouped, shall not exceed three 200 kHz channels per group).

A maximum of 24 failures in the combined bands 100 kHz to 831 MHz and 886 MHz to 12,75 GHz (which, if below FR and grouped, shall not exceed three 200 kHz channels per group).

GSM 850: A maximum of six failures in the frequency band 849 MHz to 914 MHz (which, if grouped, shall not exceed three 200 kHz channels per group).

A maximum of 24 failures in the combined bands 100 kHz to 849 MHz and 914 MHz to 12,75 GHz (which, if below FR and grouped, shall not exceed three 200 kHz channels per group).

GSM 900: A maximum of six failures in the band 915 MHz to 980 MHz (which, if grouped, shall not exceed three 200 kHz channels per group).

A maximum of 24 in the combined bands 100 kHz to 915 MHz and 980 MHz to 12,75 GHz (which, if below FR and grouped, shall not exceed three 200 kHz channels per group).

DCS 1 800: A maximum of twelve failures in the band 1 785 MHz to 1 920 MHz (which, if grouped, shall not exceed three 200 kHz channels per group).

A maximum of 24 in the combined bands 100 kHz to 1 785 MHz and 1 920 MHz to 12,75 GHz (which, if below FR and grouped, shall not exceed three 200 kHz channels per group).

PCS 1 900: A maximum of twelve failures in the band 1 910 MHz to 2 010 MHz (which, if grouped, shall not exceed three 200 kHz channels per group).

A maximum of 24 in the combined bands 100 kHz to 1 910 MHz and 2 010 MHz to 12,75 GHz (which, if below FR and grouped, shall not exceed three 200 kHz channels per group).

If the number of failures does not exceed the maximum allowed figures stated above, the test of 14.18.5.4 is repeated at the frequencies at which the failures occurred. The level of the unwanted signal is set to 70 dBuVemf(  ) and the performance requirement is once again that stated above.

The number of Error Events recorded in this test shall not exceed the test limit error rate values given above, when using either the accelerated BLER method or the maximum number of samples.

No failures are allowed at this lower unwanted signal level.

14.18.5.5.1 Statistical testing of blocking and spurious response performance with early decision

For more information on statistical testing of blocking and spurious response performance, especially the definition of limit lines, refer to Annex 7.

Wrong decision risk F for one single error rate test:

Fpass   ≠   Ffail As the blocking test case comprises of many BLER tests the wrong decision risk for a fail decision of one single error rate test must be smaller than the wrong decision risk for a pass decision to avoid an increased probability of an erroneous fail decision.

Fpass   =   0.2%

Ffail    =   0.02%

Wrong decision probability D per test step:

Dpass    ≠   Dfail

Dpass    =   0.008%

Dfail     =      0.0008%

Parameters for limit lines:

1. Dpass    = 0.008% wrong decision probability per test step for early pass decision.

Dfail     =  0.0008% wrong decision probability per test step for early fail decision.

2. M = 1.5 bad DUT factor

3. ne number of (error) events.

4. ns number of samples. The error rate is calculated from ne and ns.

Limit checking

For an early decision a minimum number of measured (error) events are necessary.

For an early pass decision ne   ≥   1

For an early fail decision ne   ≥   8

When the target test time has been reached the test is finished and a pass/fail decision can be made.

The statistical testing of the conformance requirement is done using table 14.18.5‑1.

Table 14.18.5‑1: Statistical test limits for blocking performance of EGPRS mobiles

Blocking and spurious response for EGPRS mobiles

 

 

Orig. BLER

Derived

Target number

Target test

Target test time

 

blocks per s

requirement

test limit

of samples

time (s)

(hh:mm:ss)

One time slot:

PDTCH/MCS-4

50

0,100000

0,125100

3221

64

00:01:04

USF/MCS-4

50

0,010000

0,012510

32214

644

00:10:44

PDTCH/MCS-9

50

0,100000

0,125100

3221

64

00:01:04

USF/MCS-9

50

0,010000

0,012510

32214

644

00:10:44

Two time slots:

PDTCH/MCS-4

100

0,100000

0,125100

3221

32

00:00:32

USF/MCS-4

100

0,010000

0,012510

32214

322

00:05:22

PDTCH/MCS-9

100

0,100000

0,125100

3221

32

00:00:32

USF/MCS-9

100

0,010000

0,012510

32214

322

00:05:22

Three time slots

PDTCH/MCS-4

150

0,100000

0,125100

3221

21

00:00:21

USF/MCS-4

150

0,010000

0,012510

32214

215

00:03:35

PDTCH/MCS-9

150

0,100000

0,125100

3221

21

00:00:21

USF/MCS-9

150

0,010000

0,012510

32214

215

00:03:35

Four time slots

PDTCH/MCS-4

200

0,100000

0,125100

3221

16

00:00:16

USF/MCS-4

200

0,010000

0,012510

32214

161

00:02:41

PDTCH/MCS-9

200

0,100000

0,125100

3221

16

00:00:16

USF/MCS-9

200

0,010000

0,012510

32214

161

00:02:41

14.18.5.5.2 Fixed testing of blocking and spurious response performance with minimum number of samples

The fixed testing of the conformance requirement is done using the minimum number of samples and the limit BLER given in table 14.18‑2.