7.5.2 Test Case

3GPP51.021Base Station System (BSS) equipment specificationRadio aspectsRelease 17TS

Tools: ARFCN - Frequency Conversion for 5G NR/LTE/UMTS/GSM

If Slow Frequency Hopping (SFH) is supported by the BSS, it shall be disabled during this measurement, except when performing tests using propagation conditions with ideal SFH.

When SFH is used in the test, the BSS shall hop over the maximum range and number of ARFCNs possible for the test environment and which are available in the BSS configuration. If SFH is not supported, the test shall be performed on the specified number of ARFCNs. As a minimum, one time slot shall be tested on one TRX.

The tests shall be performed in a single-antenna configuration except in case of packet-switched channels with higher symbol rate and channels in VAMOS mode where two-antenna configuration with no correlation or gain difference between the branches is used. In case EC-channels are supported, the two-antenna configuration also applies to these channels using, for EC-PDTCH, MCS-1 for all Coverage Classes (CCs) and MCS-5 in CC1, if supported, as well as EC-PACCH and EC-RACH. For all EC-PDTCH channels using other supported MCSs than listed above, single-antenna configuration applies.

Two input signals shall be connected to the respective receiver connector via a combining network. When testing each signal shall be connected through a Multipath Fading Simulator (MFS) as described in annex B.1, except in the cases of frequency offsets of the interfering signal from the wanted signal of 400kHz or greater, where the interferer shall be static, unless otherwise stated in table 7.5-2 and 7.5-3. The multipath fading propagation conditions shall be uncorrelated. In the case of channels in VAMOS mode, two input wanted signals and two input interfering signals shall be connected to each receiver antenna connector via a Multipath Fading Simulator such that the multipath fading propagation conditions between all the input signals and all the receiver antennas are uncorrelated. The frequency offsets and the relative levels of the interfering signals are defined in table 7.5-1a for test scenarios VUTS-1, VUTS-2, VUTS-3 and VUTS-4. The wanted signals VAMOS sub-channel 1 and VAMOS sub-channel 2 shall be GMSK modulated and encoded according to the channel type in table 7.5-5a. The interfering signals shall be GMSK modulated with a pseudo random bitstream without midamble. Independent pseudo random bit streams shall be assumed between all input signals.

Table 7.5-1a: Test scenarios for reference interference level for channels in VAMOS mode.

Test Scenario

Interfering Signal

Interferer power level*

TSC

Interferer Delay range

VUTS-1

Co-channel 1

Co-channel 2

–

0 dB

none

no delay

VUTS-2

Adjacent channel 1**

Adjacent channel 2**

–

0 dB

none

no delay

VUTS-3

Co-channel 1***

Co-channel 2***

–

0 dB

none

74 symbols

VUTS-4

Co-channel 1

Adjacent channel 1

–

3 dB

none

no delay

NOTE 1: *Power level relative to Co-channel 1 (VUTS-1, VUTS-3 and VUTS-4) or Adjacent channel 1 (VUTS-2).

NOTE 2: **Both interferers are on the same adjacent channel frequency.

NOTE 3: ***In calculating I1 (see table 7.5-5a), the power of the delayed interferer shall be measured over the active part of the burst of VAMOS sub-channel 2. No signal shall be applied in the timeslots adjacent to the delayed interferers.

The referred power level for both signals shall be the average power into the BSS RX antenna connector. This shall be measured by taking the mean powers of the sum of the individual paths.

In the case of testing the interference performance of EC-channels, no Overlaid CDMA is used, and the wanted signal and the interfering signal shall be connected to the receiver input connector(s) via a combining network and Multipath Fading Simulators such that the multipath fading propagation conditions between the input signals and the receiver antenna(s) are uncorrelated. The interferer shall be subject to independent propagation in each burst with each burst generated with random, continuous, GMSK modulated interference. For the purpose of lowering testing complexity, the interfering signal may be chosen to be subject to propagation condition RA250 (no SFH) for testing of E-GSM900 or GSM850 requirements, and RA130 (no SFH) for testing of DCS 1800 or PCS 1900 requirements to model a sufficiently decorrelated signal between interfering bursts.

For GMSK modulated circuit switched channels except AMR-WB and channels in VAMOS mode, the wanted signal shall have the power level as defined in table 7.5-1. It shall have normal GSM modulation. In the case of a pico-BTS or Local Area multicarrier BTS, the power level defined in table 7.5-1 (*) shall be 4dB greater for measurements performed with interferer offsets of 400kHz or greater.

For packet switched channels, ECSD and for AMR-WB, and for 8-PSK modulated AMR and AMR-WB channels, the wanted signal level shall be (X-9dB+Ir), where "X" is the power level defined in table 7.5-1 and "Ir" is the co-channel interference ratio defined in table 7.5-4 and table 7.5-4a. As an exception, the wanted signal level shall be (X+9dB+Iar) for packet-switched channels with QPSK, 16-QAM and 32-QAM modulation in the case of 200 kHz adjacent channel interference, where "X" is the power level defined in table 7.5-1 and "Iar" the interference ratio in table 7.5-5. The same exception and calculation of wanted signal level also applies to EC-channels listed in table 7.5-5c in the case of 200 kHz adjacent channel interference, where "Iar" is the interference ratio in table 7.5-5c.

For channels in VAMOS mode, VAMOS sub-channel 2 shall be at input level (X-9dB+Ir) for test scenarios VUTS-1, VUTS-3 and VUTS-4 and input level (X+9dB+Ir) for test scenario VUTS-2, where "X" is the power level defined in table 7.5-1 and "Ir" is the carrier-to-interference ratio in table 7.5-5a. In the case of Local Area multicarrier BTS, table 7.5-5b applies. VAMOS sub-channel 1 shall be at an input level relative to VAMOS sub-channel 2 according to SCPIR_UL (see clause 3.1) in table 7.5-5a.

Table 7.5-1: Test signal average input level for Reference Interference Level measurements

BTS Type	Test signal average input level to receiver
GSM 400/GSM 850/GSM 900/ER-GSM 900/DCS 1800/PCS 1900/MXM 850/MXM 1900/GSM700 Normal BTS	‑84 dBm
GSM 900/ER-GSM 900/GSM 850/MXM 850/GSM700 micro‑BTS M1	‑77 dBm
GSM 900/ER-GSM 900/GSM 850/MXM 850/GSM700 micro‑BTS M2	‑72 dBm
GSM 900/ER-GSM 900/GSM 850/MXM 850/GSM700 micro‑BTS M3	‑67 dBm
GSM 900/ER-GSM 900/GSM 850/MXM 850/GSM700 pico-BTS P1	‑68 dBm *
DCS 1800/PCS 1900/ MXM 1900 micro‑BTS M1	‑82 dBm
DCS 1800/PCS 1900/ MXM 1900 micro‑BTS M2	‑77 dBm
DCS 1800/PCS 1900/ MXM 1900 micro‑BTS M3	‑72 dBm
DCS 1800/PCS 1900/ MXM 1900 pico-BTS P1	-75 dBm *
GSM 400/GSM 850/GSM 900/DCS 1800/PCS 1900/GSM 700 Wide Area multicarrier BTS	-84 dBm
GSM 400/GSM 850/GSM 900/DCS 1800/PCS 1900/ GSM 700 Medium Range multicarrier BTS	-78 dBm
GSM 400/GSM 850/GSM 900/DCS 1800/PCS 1900/GSM 700 Local Area multicarrier BTS	-70 dBm *

The interfering signal shall be continuous and have GSM modulation of a pseudo‑random bitstream without midamble. If the TRX supports 8-PSK, 16-QAM or 32-QAM at normal symbol rate it shall be tested with the interfering signal having GMSK modulation and with the interfering signal having 8-PSK modulation, unless it can be demonstrated that it is sufficient to test either with GMSK or 8-PSK modulated interfering signal.
If the wanted signal has higher symbol rate, the TRX shall be tested for adjacent (200 kHz) channel interference performance with an interfering signal at higher symbol rate, using the same modulation and pulse shaping filter as the wanted signal, while co-channel interference performance and adjacent (400 kHz) channel interference performance shall be tested with the interfering signal having GMSK modulation and with the interfering signal having 8-PSK modulation.
If the TRX does not support 8-PSK it shall be tested with the interfering signal having GMSK modulation. For SFH this interferer shall consist of either one signal which hops in synchronization with the time slot under test or a number of fixed frequency signal sources. In the latter case the number of interfering sources determines the number of frequencies over which the time slot under test can hop in the test environment irrespective of the upper limit of the BTS.

For packet-switched channels only BTTI without PAN need to be tested.

When testing 16-QAM, 32-QAM (both normal and higher symbol rate) and QPSK modulated channels TSC-6 shall be used for the wanted signal.

For GMSK modulated circuit switched channels except AMR-WB and channels in VAMOS mode, the test shall be performed with frequency offsets of the interfering signal from the wanted signal, for a relative level of interfering signal above the wanted signal as specified in table 7.5-2. In some cases a second requirement is specified, where the interference ratio in table 7.5-2 shall be increased or decreased by 3 dB. In these cases the Error measures are noted as FER@+3dB or FER@-3dB respectively.

For packet switched channels, ECSD and AMR-WB, and 8-PSK modulated AMR and AMR-WB channels except channels in VAMOS mode, the test shall be performed with frequency offsets of the interfering signal from the wanted signal and at a carrier to interferer ratio as specified in table 7.5-3. The minimum co-channel interference ratio (C/Ic) for all the combinations of logical channel type, coverage class and propagation condition are as specified in tables 7.5-4 and 7.5-4a.

For channels in VAMOS mode, the test shall be performed for the test scenarios in table 7.5-1 with a carrier to interferer ratio in table 7.5-5a. The minimum carrier to interference ratios are as specified in table 7.5-5a. In the case of Local Area multicarrier BTS table 7.5-5b applies instead.

In the case of Slow Frequency Hopping (SFH) the interfering signal shall be on the same ARFCN as the wanted signal over the useful part of the time slot burst. For offsets greater than 0 kHz only the multipath propagation condition TU50 (no SFH) need be tested for normal and micro-BTS systems, and only the multipath propagation condition TI5 (no SFH) need be tested for pico-BTS systems.

Table 7.5-2: Co-channel and adjacent channel interference rejections for circuit switched channels except ECSD and AMR-WB channels, and 8-PSK modulated AMR and AMR-WB channels

Interferers offset:	Carrier to Interferer Ratio:		Fading of interferer
	Normal, Micro-BTS, WA and MR multicarrier BTS	Pico-BTS and LA multicarrier BTS
0 kHz	9 dB	13 dB	yes
200 kHz	‑9 dB	‑5 dB	yes
400 kHz	‑41 dB	-37dB	no

Table 7.5-3: Co-channel and adjacent channel interference ratios for packet switched channels, for ECSD and for AMR-WB channels, and for 8-PSK modulated AMR and AMR-WB channels

Modulation of wanted signal	GMSK	8-PSK	16-QAM and 32-QAM with normal symbol rate	QPSK, 16-QAM and 32-QAM with higher symbol rate
Interferers offset:	Carrier to Interferer Ratio	Carrier to Interferer Ratio	Carrier to Interferer Ratio	Carrier to Interferer Ratio	Fading of interferer
0 kHz	C/Ic (table 7.5-4 and 7.5-4a)	C/Ic (table 7.5-4 and 7.5-4a)	C/Ic (table 7.5-4)	C/Ic (table 7.5-4)	yes
200 kHz	C/Ic – 18 dB³⁾	Table 7.5-5 and 7.5-5c	Table 7.5-5	Table 7.5-5	yes
400 kHz	C/Ic – 50 dB For EC-channels C/Ic – [tbd] dB ^1),2)	C/Ic – 50 dB For EC-channels C/Ic – [tbd] dB ¹⁾	C/Ic – 48 dB	C/Ic – 44.5 dB (QPSK) C/Ic – 43 dB (16QAM) C/Ic – 42.5 dB (32QAM)	yes
NOTE 1: This requirement does not need testing if other adjacent 400 kHz interference requirements for GMSK and 8-PSK modulation are tested. NOTE 2: Applies only to CC1 requirements. NOTE 3: This also applies to EC-PDTCH/MCS-2 to EC-PDTCH/MCS-4 but does not require testing if the corresponding MCS of EGPRS is tested, respectively. For other EC-channels see table 7.5-5c.

For QPSK, 16-QAM and 32-QAM modulated channels with higher symbol rate, the wanted signal shall be generated with wide pulse shaping filter when testing for co-channel and adjacent (400 kHz) channel performance. For tests of adjacent (200 kHz) channel performance the input signals shall be generated with pulse shaping filters according to table 7.5-5.

For channels in VAMOS mode, a time and frequency offset shall be applied to VAMOS sub-channel 1 relative to VAMOS sub-channel 2. The offsets shall be applied burst-wise and taken from a sample sequence that conforms to the probability distribution in Eq 7.5.2a for the time offset and Eq 7.5.2b for the frequency offset, where and are given in the table below:

Frequency Band	850/900	1800	1900
	45 Hz	90 Hz	95 Hz
	10 Hz	17 Hz	17 Hz

(Eq 7.5.2a)

(Eq 7.5.2b)

NOTE: The precise sample sequence for each offset has been left for test equipment manufacturers to specify.

Table 7.5-4: Co-channel interference ratios (C/Ic) for packet switched channels, for ECSD and for AMR-WB channels, and for 8-PSK modulated AMR and AMR-WB channels

Table 7.5-4
Channel Type	Unit	Carrier to Interferer Ratios for specified propagation conditions
		TU3 (no SFH)	TU50 (no SFH)	TU50 (ideal SFH)	RA250 (no SFH)	TI5 (no SFH)
PDTCH/CS-1	dB	13	10	9	9	14
PDTCH/CS-2	dB	15	14	13	13	18
PDTCH/CS-3	dB	16	16	15	16	20
PDTCH/CS-4	dB	21	24	24	*	27
PDTCH/MCS-1	dB	13	10.5	9.5	10	14.5
PDTCH/MCS-2	dB	15	12.5	12	12	16.5
PDTCH/MCS-3	dB	16.5	17	17	19	21
PDTCH/MCS-4	dB	19	22	22	*	26
PDTCH/MCS-5	dB	18	15.5	14.5	16	19.5
PDTCH/MCS-6	dB	20	18	17.5	21	22
PDTCH/MCS-7	dB	23.5	24	24.5	26.5**	28
PDTCH/MCS-8	dB	28.5	30	30	*	34
PDTCH/MCS-9	dB	30	33	35	*	37
EC-PDTCH/MCS-2	dB	15	12.5	–	–	–
EC-PDTCH/MCS-3	dB	16.5	17	–	–	–
EC-PDTCH/MCS-4	dB	19	22	–	–	–
EC-PDTCH/MCS-6	dB	20	18	–	–	–
EC-PDTCH/MCS-7	dB	23.5	24	–	–	–
EC-PDTCH/MCS-8	dB	28.5	30	–	–	–
EC-PDTCH/MCS-9	dB	30	33	–	–	–
PDTCH/UAS-7	dB	27	23.5	22.5	22	27.5
PDTCH/UAS-8	dB	28	25	24.5	25.5	29
PDTCH/UAS-9	dB	28.5	27	26.5	33	31
PDTCH/UAS-10	dB	29.5	29.5	29.5	34.5**	33.5
PDTCH/UAS-11	dB	30.5	33	33	*	37
PDTCH/UBS-5	dB	-4.5	-4.5	-6.0	-1.5	-0.5
PDTCH/UBS-6	dB	-2.0	-3.0	-3.5	1.5	1.0
PDTCH/UBS-7	dB	2.5	1.5	1.0	5.5	5.5
PDTCH/UBS-8	dB	4.5	4.0	3.5	9.5	8.0
PDTCH/UBS-9	dB	5.5	5.5	5.0	13.0	9.5
PDTCH/UBS-10	dB	11.0	12.5	12.0	26.0	16.5
PDTCH/UBS-11	dB	13.5	16.5	17.0	35.0	20.5
PDTCH/UBS-12	dB	15.0	19.5	19.5	28.0**	23.5
E-TCH/F43,2 NT	dB	24	19.5	19	21.5	23.5
E-TCH/F32,0 T	dB	25.5	17	15.5	15.5	21
E-TCH/F28,8 T	dB	27	17.5	15.5	16	21.5
E-TCH/F28,8 NT	dB	20	14.5	13.5	13.5	18.5
E-FACCH/F	dB	17.5	12.5	11.5	11.5	16.5
PACCH	dB	13	10	9	9	14
PRACH/11 bits	dB	8	8	8	10	12
PRACH/8 bits	dB	8	8	8	9	12
RACH/30 bits	dB	-11	-11	–	–	–
TCH/WFS12.65	dB	21,5	14,5	13	12,5	18,5
TCH/ WFS8.85	dB	20	11,5	10	9	15,5
TCH/ WFS6.60	dB	19	10,5	9	8	14,5
O-FACCH/F	dB	15,5	10	8	9	14
O-FACCH/H	dB	15,5	10	9	9,5	14
O-TCH/AHS12.2	dB	22,5	16,5	15,5	17	20,5
O-TCH/AHS10.2	dB	21,5	15,5	14,5	15,5	19,5
O-TCH/AHS7.95	dB	20,5	14,5	13,5	14,5	18,5
O-TCH/AHS7.4	dB	20	14	12,5	13,5	18
O-TCH/AHS6.7	dB	19,5	13,5	12	13	17,5
O-TCH/AHS5.9	dB	19	13	12	12,5	17
O-TCH/AHS5.15	dB	18,5	12,5	11	12	16,5
O-TCH/AHS4.75	dB	18	12	10,5	11,5	16
O-TCH/AHS-INB (FER)	dB	16,5	10,5	10,5	12,5	14,5
O-TCH/AHS (EVSIDUR)	dB	16	10,5	9,5	10,5	14,5
O-TCH/AHS (EVRFR)	dB	16	10,5	9,5	11	14,5
O-TCH/WFS23.85	dB	22,5	16	13,5	13,5	20
O-TCH/WFS15.85	dB	20	13,5	11	10,5	17,5
O-TCH/WFS12.65	dB	18,5	11,5	9,5	9,5	15,5
O-TCH/WFS8.85	dB	17	10,5	7,5	7,5	14,5
O-TCH/WFS6.60	dB	16	9,5	7	6,5	13,5
O-TCH/WFS-INB (FER)	dB	14,5	7	6	6	11
O-TCH/WFS (EVSIDUR)	dB	17,5	11,5	9,5	9,5	15,5
O-TCH/WFS (EVRFR)	dB	16,5	10	7,5	7,5	14
O-TCH/WHS12.65	dB	22,5	17	15,5	17	21
O-TCH/WHS8.85	dB	21	15	14	15	19
O-TCH/WHS6.60	dB	19,5	13,5	12	13	17,5
O-TCH/WHS-INB (FER)	dB	16,5	10,5	10,5	12,5	14,5
O-TCH/WHS (EVSIDUR)	dB	16	10,5	9,5	10,5	14,5
O-TCH/WHS (EVRFR)	dB	16	10,5	9,5	11	14,5

Table 7.5-4	DCS 1800, PCS 1900 and MXM1900***
Channel Type	Unit	Carrier to Interferer Ratios for specified propagation conditions
		TU1.5 (no SFH)	TU50 (no SFH)	TU50 (ideal SFH)	RA130 (no SFH)	TI5 (no SFH)
PDTCH/CS-1	dB	13	9	9	9	14
PDTCH/CS-2	dB	15	13	13	13	18
PDTCH/CS-3	dB	16	16	16	16	20
PDTCH/CS-4	dB	21	27	27	*	27
PDTCH/MCS-1	dB	13	10	9.5	10	14.5
PDTCH/MCS-2	dB	15	12	12	12	16.5
PDTCH/MCS-3	dB	16.5	17	18	19	21
PDTCH/MCS-4	dB	19	23	23	*	26
PDTCH/MCS-5	dB	18	15	15	16	19.5
PDTCH/MCS-6	dB	20	17.5	18	21	22
PDTCH/MCS-7	dB	23.5	26	26.5	27**	28
PDTCH/MCS-8	dB	28.5	25**	24.5**	*	34
PDTCH/MCS-9	dB	30	29**	29**	*	37
EC-PDTCH/MCS-2	dB	15	12	–	–	–
EC-PDTCH/MCS-3	dB	16.5	17	–	–	–
EC-PDTCH/MCS-4	dB	19	23	–	–	–
EC-PDTCH/MCS-6	dB	20	17.5	–	–	–
EC-PDTCH/MCS-7	dB	23.5	26	–	–	–
EC-PDTCH/MCS-8	dB	28.5	25**	–	–	–
EC-PDTCH/MCS-9	dB	30	29**	–	–	–
PDTCH/UAS-7	dB	27	23	23	22	27.5
PDTCH/UAS-8	dB	28	25	25	25.5	29
PDTCH/UAS-9	dB	28.5	26	26	33	31
PDTCH/UAS-10	dB	29.5	26.5**	26.5**	34.5**	33.5
PDTCH/UAS-11	dB	30.5	29.5**	29.5**	*	37
PDTCH/UBS-5	dB	-4.5	-4.5	-4.5	-1.5	-0.5
PDTCH/UBS-6	dB	-2.0	-2.5	-2.5	1.5	1.0
PDTCH/UBS-7	dB	2.5	2.5	2.5	5.5	5.5
PDTCH/UBS-8	dB	4.5	5.0	5.0	9.5	8.0
PDTCH/UBS-9	dB	5.5	6.5	6.5	13.0	9.5
PDTCH/UBS-10	dB	11.0	14.5	14.5	26.0	16.5
PDTCH/UBS-11	dB	13.5	22.5	22.5	35.0	20.5
PDTCH/UBS-12	dB	15.0	28.5	28.5	28.0**	23.5
E-TCH/F43,2 NT	dB	24	19.5	19.5	22	23.5
E-TCH/F32,0 T	dB	25.5	16	15.5	15.5	21
E-TCH/F28,8 T	dB	27	16	16	17	21.5
E-TCH/F28,8 NT	dB	20	14	14	14.5	18.5
E-FACCH/F	dB	17.5	11.5	11.5	11.5	16.5
PACCH	dB	13	9	9	9	14
PRACH/11 bits	dB	9	9	9	10	12
PRACH/8 bits	dB	8	8	8	9	12
RACH/30 bits	dB	-11	-11	–	–	–
TCH/WFS12.65	dB	21,5	13	13	12,5	18,5
TCH/ WFS8.85	dB	20	10	10	9	15,5
TCH/ WFS6.60	dB	19	9	9	8	14,5
O-FACCH/F	dB	15,5	9	9	9	14
O-FACCH/H	dB	15,5	9,5	9,5	9,5	14
O-TCH/AHS12.2	dB	22,5	16,5	16,5	17	20,5
O-TCH/AHS10.2	dB	21,5	15,5	15,5	15,5	19,5
O-TCH/AHS7.95	dB	20,5	14,5	14,5	14,5	18,5
O-TCH/AHS7.4	dB	20	14	14	13,5	18
O-TCH/AHS6.7	dB	19,5	13	13	13	17,5
O-TCH/AHS5.9	dB	19	12,5	12,5	12,5	17
O-TCH/AHS5.15	dB	18,5	12	12	12	16,5
O-TCH/AHS4.75	dB	18	11,5	11,5	11,5	16
O-TCH/AHS-INB (FER)	dB	16,5	11	11	12,5	14,5
O-TCH/AHS (EVSIDUR)	dB	16	10,5	10,5	10,5	14,5
O-TCH/AHS (EVRFR)	dB	16	10,5	10,5	11	14,5
O-TCH/WFS23.85	dB	22,5	14,5	14,5	13,5	20
O-TCH/WFS15.85	dB	20	12	12	10,5	17,5
O-TCH/WFS12.65	dB	18,5	10,5	10,5	9,5	15,5
O-TCH/WFS8.85	dB	17	9	9	7,5	14,5
O-TCH/WFS6.60	dB	16	8	8	6,5	13,5
O-TCH/WFS-INB (FER)	dB	14,5	6,5	6,5	6	11
O-TCH/WFS (EVSIDUR)	dB	17,5	11	11	9,5	15,5
O-TCH/WFS (EVRFR)	dB	16,5	9	9	7,5	14
O-TCH/WHS12.65	dB	22,5	16,5	16,5	17	21
O-TCH/WHS8.85	dB	21	14,5	14,5	15	19
O-TCH/WHS6.60	dB	19,5	13	13	13	17,5
O-TCH/WHS-INB (FER)	dB	16,5	11	11	12,5	14,5
O-TCH/WHS (EVSIDUR)	dB	16	10,5	10,5	10,5	14,5
O-TCH/WHS (EVRFR)	dB	16	10,5	10,5	11	14,5
NOTE 1: PDTCH/CS-4, MCS-x and UAS-x shall not be tested for the propagation conditions marked as (). NOTE 2: For GSM 400 the speeds shall be doubled (e.g. TU50 shall be TU100) and for GSM 700 the speeds shall be multiplied by 1,2 (e.g. TU50 shall be TU60). NOTE 3: Performance is specified at 30% BLER for those cases marked as (). **NOTE 4: PDTCH/CS-1 to 4 and ECSD are not applicable for MXM850 and MXM1900. NOTE 5: PDTCH/UBS-5 to 12 requirements assume two-antenna configuration. The wanted signal shall use higher symbol rate and be generated with wide pulse shaping filter. The interfering signal shall use GMSK and 8-PSK modulation. NOTE 6: EC-PDTCH channels in CC1 using MCS-2 to MCS-4 and EC-PDTCH channels in CC1 using MCS-6 to MCS-9 need not be tested if corresponding EGPRS channels with the same MCSs have been tested.

Table 7.5-4a: Co-channel interference ratios (C/Ic) for EC-channels

GSM 900 and GSM 850
Type of			Propagation conditions
Channel			TU1.2 (no SFH)	TU50 (no SFH)
EC-PACCH/U	CC1	dB	-1,0	0,0
EC-PACCH/U/4	CC2	dB	-8,0	-8,0
EC-PACCH/U/8	CC3	dB	-11,0	-11,5
EC-PACCH/U/16	CC4	dB	-13,5	-14,5
EC-PACCH/U/48	CC5	dB	-17,5	-19,0
EC-PACCH/U/2TS/4	CC2	dB	-7,0	-7,5
EC-PACCH/U/2TS/8	CC3	dB	-10,0	-10,5
EC-PACCH/U/2TS/16	CC4	dB	-11,5	-13,5
EC-PACCH/U/2TS/48	CC5	dB	-16,5	-18,0
EC-PDTCH/MCS-1¹⁾	CC1	dB	0,0	-0,5
EC-PDTCH/MCS-1/4	CC2	dB	-7,5	-7,5
EC-PDTCH/MCS-1/8	CC3	dB	-11,0	-10,5
EC-PDTCH/MCS-1/16	CC4	dB	-14,0	-13,0
EC-PDTCH/MCS-1’/48	CC5	dB	-18,0	-17,0
EC-PDTCH/2TS/MCS-1/4	CC2	dB	-7,5	-7,0
EC-PDTCH/2TS/MCS-1/8	CC3	dB	-11,0	-10,0
EC-PDTCH/2TS/MCS-1/16	CC4	dB	-13,5	-12,5
EC-PDTCH/2TS/MCS-1’/48	CC5	dB	-16,0	-17,0
EC-PDTCH/MCS-5²⁾	CC1	dB	6,5	6,5
1 TS EC-RACH³⁾	CC1	dB	2,0	2,0
1 TS EC-RACH/4	CC2	dB	-5,5	-4,5
1 TS EC-RACH/16	CC3	dB	-10,0	-10,0
1 TS EC-RACH/48	CC4	dB	-12,5	-12,5
2 TS EC-RACH/4	CC2	dB	-5,0	-4,5
2 TS EC-RACH/16	CC3	dB	-10,5	-10,5
2 TS EC-RACH/48	CC4	dB	-13,5	-13,5
1TS EC-RACH/30 bits⁵⁾	CC1	dB	3,0	3,5
2 TS EC-RACH/66⁶⁾	CC5	dB	-15,0	-16,5
2 TS EC-RACH/132⁷⁾	CC5	dB	-17,5	-17,5
DCS 1800 and PCS 1900
Type of			Propagation conditions
Channel			TU1.2 (no SFH)	TU50 (no SFH)
EC-PACCH/U	CC1	dB	-0,5	1,0
EC-PACCH/U/4	CC2	dB	-7,5	-7,5
EC-PACCH/U/8	CC3	dB	-10,5	-11,0
EC-PACCH/U/16	CC4	dB	-13,5	-14,0
EC-PACCH/U/48	CC5	dB	-17,0	-18,5
EC-PACCH/U/2TS/4	CC2	dB	-7,5	-7,0
EC-PACCH/U/2TS/8	CC3	dB	-9,5	-10,5
EC-PACCH/U/2TS/16	CC4	dB	-11,0	-13,0
EC-PACCH/U/2TS/48	CC5	dB	-16,0	-17,5
EC-PDTCH/MCS-1¹⁾	CC1	dB	-0,5	-0,5
EC-PDTCH/MCS-1/4	CC2	dB	-7,0	-7,0
EC-PDTCH/MCS-1/8	CC3	dB	-10,5	-10,0
EC-PDTCH/MCS-1/16	CC4	dB	-13,5	-13,0
EC-PDTCH/MCS-1’/48	CC5	dB	-17,5	-16,5
EC-PDTCH/2TS/MCS-1/4	CC2	dB	-7,5	-6,5
EC-PDTCH/2TS/MCS-1/8	CC3	dB	-11,0	-9,5
EC-PDTCH/2TS/MCS-1/16	CC4	dB	-13,0	-12,0
EC-PDTCH/2TS/MCS-1’/48	CC5	dB	-16,5	-16,0
EC-PDTCH/MCS-5²⁾	CC1	dB	6,5	6,5
1 TS EC-RACH³⁾	CC1	dB	2,0	2,0
1 TS EC-RACH/4	CC2	dB	-5,5	-4,0
1 TS EC-RACH/16	CC3	dB	-9,5	-10,0
1 TS EC-RACH/48	CC4	dB	-12,5	-13,0
2 TS EC-RACH/4	CC2	dB	-5,0	-4,5
2 TS EC-RACH/16	CC3	dB	-10,5	-10,0
2 TS EC-RACH/48	CC4	dB	-13,5	-13,5
1TS EC-RACH/30 bits⁵⁾	CC1	dB	3,0	3,5
2 TS EC-RACH/66⁶⁾	CC5	dB	-15,5	-17,0
2 TS EC-RACH/132⁷⁾	CC5	dB	-17,5	-18,5
NOTE 1: For MCS-2, MCS-3 and MCS-4 in CC1, see table 7.5-4. NOTE 2: For MCS-6, MCS-7, MCS-8 and MCS-9 in CC1, see table 7.5-4. NOTE 3: Identification of the correct Training sequence is required, see 3GPP TS 45.002. NOTE 4: For the notation of EC-channels, see 3GPP TS 45.003. NOTE 5: For the random access message carrying 30 information bits (see 3GPP TS 45.003) sent using the Extended AB burst format (see 3GPP TS 45.002). NOTE 6: For the random access on EC-RACH CC5 using ESAB (see 3GPP TS 45.002) and the coding scheme EC-RACH/66 (see 3GPP TS 45.003). NOTE 7: For the random access on EC-RACH CC5 using EDAB TS 7 (see 3GPP TS 45.002) and the coding scheme EC-RACH/132 (see 3GPP TS 45.003).

Table 7.5-5 Adjacent channel interference ratios (C/Ia) for EGPRS, EGPRS2, ECSD, 8-PSK modulated EC-channels and 8-PSK modulated AMR and AMR-WB channels

Table 7.5-5	GSM 400, GSM 700, GSM 900, ER-GSM 900, GSM850 and MXM 850***
Channel Type	Unit	Carrier to Interferer Ratios for specified propagation conditions
		TU3 (no SFH)	TU50 (no SFH)	TU50 (ideal SFH)	RA250 (no SFH)	TI5 (no SFH)	Comment
PDTCH/MCS-5	dB	2.5	-2	-2	1	2
PDTCH/MCS-6	dB	4.5	1	1	6.5	5
PDTCH/MCS-7	dB	8	8.5	8.5	13.5**	12.5
PDTCH/MCS-8	dB	10.5	9**	9.5**	*	13**
PDTCH/MCS-9	dB	12	13.5**	13.5**	*	17.5**
EC-PDTCH/MCS-6⁶⁾	dB	4.5	1	–	–	–
EC-PDTCH/MCS-7⁶⁾	dB	8	8.5	–	–	–
EC-PDTCH/MCS-8⁶⁾	dB	10.5	9**	–	–	–
EC-PDTCH/MCS-9⁶⁾	dB	12	13.5**	–	–	–
PDTCH/UAS-7	dB	13	9.5	8	10.5	13.5
PDTCH/UAS-8	dB	14.5	11	10	15	15
PDTCH/UAS-9	dB	15.5	13.5	12.5	22.5	17.5
PDTCH/UAS-10	dB	17.5	17	17	25**	21
PDTCH/UAS-11	dB	19	23.5	24	–	27.5
PDTCH/UBS-5	dB	-17.5	-16.5	-17.0	-9.0	-12.5	Input signals generated with wide pulse-shaping filter (Note 5)
PDTCH/UBS-6	dB	-15.0	-14.0	-14.5	-5.5	-10.0
PDTCH/UBS-7	dB	-11.5	-9.5	-9.5	-2.5	-5.5
PDTCH/UBS-8	dB	-8.0	-6.0	-6.0	1.5	-2.0
PDTCH/UBS-9	dB	-6.0	-3.5	-4.0	4.0	0.5
PDTCH/UBS-10	dB	0.0	1.0	1.0	12.5	5.0
PDTCH/UBS-11	dB	5.5	9.0	9.0	25.0	13.0
PDTCH/UBS-12	dB	8.0	13.5	12.5	16.5**	17.5
PDTCH/UBS-5	dB	-14.5	-14.0	-14.0	-2.5	-10.0	Input signals generated with narrow pulse-shaping filter (Note 5)
PDTCH/UBS-6	dB	-12.0	-11.0	-11.5	1.5	-7.0
PDTCH/UBS-7	dB	-1.5	-2.5	-3.0	7.0	1.5
PDTCH/UBS-8	dB	1.0	0.5	0.5	11.0	4.5
PDTCH/UBS-9	dB	2.5	2.0	2.0	12.5	6.0
PDTCH/UBS-10	dB	7.0	9.0	9.0	18.0	13.0
PDTCH/UBS-11	dB	8.5	13.0	13.5	18.5**	17.0
PDTCH/UBS-12	dB	9.0	14.5	15.0	22.5**	18.5
E-TCH/F43,2 NT	dB	8	3.5	2.5	12	7.5
E-TCH/F32,0 T	dB	7.5	-2.5	-4	-4	1.5
E-TCH/F28,8 T	dB	10	0.5	– 1	2.5	4.5
E-TCH/F28,8NT	dB	3.5	– 1.5	– 2.5	– 0.5	2.5
O-FACCH/F	dB	0	-7,5	-8	-8,5	-3,5
O-FACCH/H	dB	0,5	-5,5	-6,5	-6	-1,5
O-TCH/AHS12.2	dB	5	-1	-2	-0,5	3
O-TCH/AHS10.2	dB	4,5	-2	-3	-2	2
O-TCH/AHS7.95	dB	3	-3	-4	-3,5	1
O-TCH/AHS7.4	dB	2,5	-4	-5	-4,5	0
O-TCH/AHS6.7	dB	2	-4,5	-6	-5,5	-0,5
O-TCH/AHS5.9	dB	1,5	-5,5	-6,5	-6,5	-1,5
O-TCH/AHS5.15	dB	1	-6	-7	-7	-3
O-TCH/AHS4.75	dB	0,5	-7	-7,5	-7,5	-4
O-TCH/AHS-INB (FER)	dB	-1	-7	-7	-6,5	-3
O-TCH/AHS (EVSIDUR)	dB	-1,5	-8	-8	-7,5	-4
O-TCH/AHS (EVRFR)	dB	-1	-8	-8,5	-7,5	-4
O-TCH/WFS23.85	dB	5	-2	-4	-4	2
O-TCH/WFS15.85	dB	2	-5	-7	-7	-1

Table 7.5-5	GSM 400, GSM 700, GSM 900, ER-GSM 900, GSM850 and MXM 850***
Channel Type	Unit	Carrier to Interferer Ratios for specified propagation conditions
		TU3 (no SFH)	TU50 (no SFH)	TU50 (ideal SFH)	RA250 (no SFH)	TI5 (no SFH)	Comment
O-TCH/WFS12.65	dB	0,5	-7	-9	-9	-3
O-TCH/WFS8.85	dB	-0,5	-9	-11	-10,5	-5
O-TCH/WFS6.60	dB	-1,5	-10	-12	-11,5	-6
O-TCH/WFS-INB (FER)	dB	-4	-11,5	-13	-13	-7,5
O-TCH/WFS (EVSIDUR)	dB	-0,5	-7	-8,5	-8	-3
O-TCH/WFS (EVRFR)	dB	-1	-9,5	-11	-10,5	-5,5
O-TCH/WHS12.65	dB	5	-1	-2	0	3
O-TCH/WHS8.85	dB	3	-3	-3,5	-3	1
O-TCH/WHS6.60	dB	2	-5	-6	-5,5	-1
O-TCH/WHS-INB (FER)	dB	-1	-7	-7	-6,5	-3
O-TCH/WHS (EVSIDUR)	dB	-1,5	-8	-8	-7,5	-4
O-TCH/WHS (EVRFR)	dB	-1	-8	-8,5	-7,5	-4

Table 7.5-5	DCS 1800, PCS 1900 and MXM1900***
Channel Type	Unit	Carrier to Interferer Ratios for specified propagation conditions
		TU1.5 (no SFH)	TU50 (no SFH)	TU50 (ideal SFH)	RA130 (no SFH)	TI5 (no SFH)	Comment
PDTCH/MCS-5	dB	2.5	-2	-1.5	1	2
PDTCH/MCS-6	dB	4.5	1.5	1.5	6.5	5
PDTCH/MCS-7	dB	8	10.5	11	13.5**	12.5
PDTCH/MCS-8	dB	10.5	10**	9.5**	*	13**
PDTCH/MCS-9	dB	12	16**	16**	*	17.5**
EC-PDTCH/MCS-6⁶⁾	dB	4.5	1.5	–	–	–
EC-PDTCH/MCS-7⁶⁾	dB	8	10.5	–	–	–
EC-PDTCH/MCS-8⁶⁾	dB	10.5	10**	–	–	–
EC-PDTCH/MCS-9⁶⁾	dB	12	16**	–	–	–
PDTCH/UAS-7	dB	13	9.5	9.5	10.5	13.5
PDTCH/UAS-8	dB	14.5	12	12	15	15
PDTCH/UAS-9	dB	15.5	15.5	15.5	22.5	17.5
PDTCH/UAS-10	dB	17.5	24.5	24.5	25**	21
PDTCH/UAS-11	dB	19	20.5**	20.5**	–	27.5
PDTCH/UBS-5	dB	-17.5	-13.0	-13.0	-9.0	-12.5	Input signals generated with wide pulse-shaping filter (Note 5)
PDTCH/UBS-6	dB	-15.0	-10.0	-10.0	-5.5	-10.0
PDTCH/UBS-7	dB	-11.5	-5.5	-5.5	-2.5	-5.5
PDTCH/UBS-8	dB	-8.0	-2.0	-2.0	1.5	-2.0
PDTCH/UBS-9	dB	-6.0	1.5	1.5	4.0	0.5
PDTCH/UBS-10	dB	0.0	5.0	5.0	12.5	5.0
PDTCH/UBS-11	dB	5.5	14.5	14.5	25.0	13.5
PDTCH/UBS-12	dB	8.0	20.0	20.0	16.5**	17.5
PDTCH/UBS-5	dB	-14.5	-10.0	-10.0	-2.5	-10.0	Input signals generated with narrow pulse-shaping filter (Note 5)
PDTCH/UBS-6	dB	-12.0	-6.5	-6.5	1.5	-7.5
PDTCH/UBS-7	dB	-1.5	2.0	2.0	7.0	1.5
PDTCH/UBS-8	dB	1.0	5.0	5.0	11.0	4.5
PDTCH/UBS-9	dB	2.5	7.0	7.0	12.5	6.0
PDTCH/UBS-10	dB	7.0	14.0	14.0	18.0	13.0
PDTCH/UBS-11	dB	8.5	12.5**	12.5**	18.5**	17.0
PDTCH/UBS-12	dB	9.0	14.0**	14.0**	22.5**	18.5
E-TCH/F43,2 NT	dB	8	4	3.5	14	7.5
E-TCH/F32,0 T	dB	7	-3.5	-3.5	-4	1.5
E-TCH/F28,8 T	dB	10	– 0.5	– 0.5	5	4.5
E-TCH/F28,8NT	dB	3.5	– 2	– 2	0.5	2.5
O-FACCH/F	dB	0	-6,5	0	-8,5	-3,5
O-FACCH/H	dB	0,5	-5,5	0,5	-6	-1,5
O-TCH/AHS12.2	dB	5	-1	5	-0,5	3
O-TCH/AHS10.2	dB	4,5	-2	4,5	-2	2
O-TCH/AHS7.95	dB	3	-3	3	-3,5	1
O-TCH/AHS7.4	dB	2,5	-4	2,5	-4,5	0
O-TCH/AHS6.7	dB	2	-5	2	-5,5	-0,5
O-TCH/AHS5.9	dB	1,5	-5,5	1,5	-6,5	-1,5
O-TCH/AHS5.15	dB	1	-6,5	1	-7	-3
O-TCH/AHS4.75	dB	0,5	-7	0,5	-7,5	-4
O-TCH/AHS-INB (FER)	dB	-1	-6,5	-1	-6,5	-3
O-TCH/AHS (EVSIDUR)	dB	-1,5	-7,5	-1,5	-7,5	-4
O-TCH/AHS (EVRFR)	dB	-1	-8	-1	-7,5	-4
O-TCH/WFS23.85	dB	5	-2,5	5	-4	2
O-TCH/WFS15.85	dB	2	-5,5	2	-7	-1
O-TCH/WFS12.65	dB	0,5	-7,5	0,5	-9	-3

Table 7.5-5		DCS 1800, PCS 1900 and MXM1900***
Channel Type	Unit		Carrier to Interferer Ratios for specified propagation conditions
			TU1.5 (no SFH)	TU50 (no SFH)	TU50 (ideal SFH)	RA130 (no SFH)	TI5 (no SFH)	Comment

O-TCH/WFS8.85	dB		-0,5	-10	-0,5	-10,5	-5
O-TCH/WFS6.60	dB		-1,5	-11,5	-1,5	-11,5	-6
O-TCH/WFS-INB (FER)	dB		-4	-11	-4	-13	-7,5
O-TCH/WFS (EVSIDUR)	dB		-0,5	-8	-0,5	-8	-3
O-TCH/WFS (EVRFR)	dB		-1	-10,5	-1	-10,5	-5,5
O-TCH/WHS12.65	dB		5	-1	5	0	3
O-TCH/WHS8.85	dB		3	-3	3	-3	1
O-TCH/WHS6.60	dB		2	-5	2	-5,5	-1
O-TCH/WHS-INB (FER)	dB		-1	-6,5	-1	-6,5	-3
O-TCH/WHS (EVSIDUR)	dB		-1,5	-7,5	-1,5	-7,5	-4
O-TCH/WHS (EVRFR)	dB		-1	-8	-1	-7,5	-4
NOTE 1: PDTCH/MCS-x and UAS-x shall not be tested for the propagation conditions marked as (). NOTE 2: For GSM 400 the speeds shall be doubled (e.g. TU50 shall be TU100) and for GSM 700 the speeds shall be multiplied by 1,2 (e.g. TU50 shall be TU60). NOTE 3: Performance is specified at 30% BLER for those cases marked as (). **NOTE 4: ECSD is not applicable for MXM850 and MXM1900. NOTE 5: PDTCH/UBS-5 to 12 requirements assume two-antenna configuration. The Interfering signal shall use higher symbol rate and be generated with the same modulation and pulse shaping filter as the wanted signal. NOTE 6: EC-PDTCH channels in CC1 using MCS-6 to MCS-9 need not be tested if corresponding EGPRS channels with the same MCSs have been tested. For EC-PDTCH in CC1 using MCS-5, see table 7.5-5c.

Table 7.5-5a: carrier to interference ratios for channels in VAMOS mode.

Table 7.5-5a
Channel Type	Unit	SCPIR_UL (dB)	Carrier to Interferer Ratios (C/I1) for test scenarios for propagation condition TU50 (no SFH)
			VUTS-1	VUTS-2	VUTS-3	VUTS-4
TCH/HS	dB	0	11	-6.5	11.5	7
TCH/EFS	dB	0	13.5	-3.5	14	10
TCH/AFS 12.2	dB	0	13	-4.5	13.5	9.5
TCH/AFS 4.75	dB	0	7	-12.5	6	3.5
TCH/AHS 7.4	dB	0	15	-1	16.5	12
TCH/AHS 4.75	dB	0	10.5	-7.5	10.5	7.5
TCH/WFS 12.65	dB	0	13	-4	14	9.5
TCH/WFS 6.60	dB	0	9	-11	8.5	4.5
FACCH/F	dB	0	10	-8.5	11	6.5
FACCH/H	dB	0	10.5	-8.5	10.5	6
SACCH	dB	0	10	-7.5	11	6.5
Repeated SACCH	dB	0	6	-14.5	5	2.5
TCH/HS	dB	-10	11.5	-8	11	6
TCH/EFS	dB	-10	12.5	-7	13	7
TCH/AFS 12.2	dB	-10	12	-7.5	12.5	6.5
TCH/AHS 7.4	dB	-10	14.5	-3	15	10.5
TCH/WFS 12.65	dB	-10	12	-6.5	12.5	7

Table 7.5-5a
Channel Type	Unit	SCPIR_UL (dB)	Carrier to Interferer Ratios (C/I1) for test scenarios for propagation condition TU50 (no SFH)
			VUTS-1	VUTS-2	VUTS-3	VUTS-4
TCH/HS	dB	0	11	-5.5	11.5	7.5
TCH/EFS	dB	0	13.5	-3.5	14.5	10.5
TCH/AFS 12.2	dB	0	13	-4.5	14	10
TCH/AFS 4.75	dB	0	6	-14	5.5	1
TCH/AHS 7.4	dB	0	15.5	-1	17	12.5
TCH/AHS 4.75	dB	0	11.5	-7.5	10	8.5
TCH/WFS 12.65	dB	0	13.5	-4	14	10.5
TCH/WFS 6.60	dB	0	8.5	-11	8.5	4
FACCH/F	dB	0	10	-8.5	10.5	6.5
FACCH/H	dB	0	10.5	-8	10.5	6.5
SACCH	dB	0	12	-7	10.5	8.5
Repeated SACCH	dB	0	6	-15	5	2.5
TCH/HS	dB	-10	12	-6.5	12	7
TCH/EFS	dB	-10	13.5	-5	14	9
TCH/AFS 12.2	dB	-10	13.5	-6	14	8
TCH/AHS 7.4	dB	-10	17	0.5	17.5	14
TCH/WFS 12.65	dB	-10	13.5	-5	14	9
NOTE 1: I1 corresponds to the power of Co-channel 1 (VUTS-1, VUTS-3 and VUTS-4) or Adjacent channel 1 (VUTS-2) NOTE 2: For GSM 400 the speeds shall be doubled (e.g. TU50 shall be TU100) and for GSM 700 the speeds shall be multiplied by 1,2 (e.g. TU50 shall be TU60)

Table 7.5-5b: carrier to interference ratios for channels in VAMOS mode for propagation condition TI5 (no SFH).

Table 7.5-5b
Channel Type	Unit	SCPIR_UL (dB)	Carrier to Interferer Ratios (C/I1) for test scenarios for propagation condition TI5 (no SFH)
			VUTS-1	VUTS-2	VUTS-3	VUTS-4
TCH/HS	dB	0	17	-0.5	17.5	13
TCH/EFS	dB	0	19.5	2.5	20	16
TCH/AFS 12.2	dB	0	19	1.5	19.5	15.5
TCH/AFS 4.75	dB	0	13	-6.5	12	9.5
TCH/AHS 7.4	dB	0	21	5	22.5	18
TCH/AHS 4.75	dB	0	16.5	-1.5	16.5	13.5
TCH/WFS 12.65	dB	0	19	2	20	15.5
TCH/WFS 6.60	dB	0	15]	-5	14.5	10.5
FACCH/F	dB	0	16	-2.5	17	12.5
FACCH/H	dB	0	16.5	-2.5	16.5	12
SACCH	dB	0	16	-1.5	17	12.5
Repeated SACCH	dB	0	12	-8.5	11	8.5
TCH/HS	dB	-10	17.5	-2	17	12
TCH/EFS	dB	-10	18.5	-1	19	13
TCH/AFS 12.2	dB	-10	18	-1.5	18.5	12.5
TCH/AHS 7.4	dB	-10	20.5	3	21	16.5
TCH/WFS 12.65	dB	-10	18	-0.5	18.5	13

Table 7.5-5b
Channel Type	Unit	SCPIR_UL (dB)	Carrier to Interferer Ratios (C/I1) for test scenarios for propagation condition TI5 (no SFH)
			VUTS-1	VUTS-2	VUTS-3	VUTS-4
TCH/HS	dB	0	17	0.5	17.5	13.5
TCH/EFS	dB	0	19.5	2.5	20.5	16.5
TCH/AFS 12.2	dB	0	19	1.5	20	16
TCH/AFS 4.75	dB	0	12	-8	11.5	7
TCH/AHS 7.4	dB	0	21.5	5	23	18.5
TCH/AHS 4.75	dB	0	17.5	-1.5	16	14.5
TCH/WFS 12.65	dB	0	19.5	2	20	16.5
TCH/WFS 6.60	dB	0	14.5	-5	14.5	10
FACCH/F	dB	0	16	-2.5	16.5	12.5
FACCH/H	dB	0	16.5	-2	16.5	12.5
SACCH	dB	0	18	-1	16.5	14.5
Repeated SACCH	dB	0	12	-9	11	8.5
TCH/HS	dB	-10	18	-0.5	18	13
TCH/EFS	dB	-10	19.5	1	20	15
TCH/AFS 12.2	dB	-10	19.5	0	20	14
TCH/AHS 7.4	dB	-10	23	6.5	23.5	20
TCH/WFS 12.65	dB	-10	19.5	1	20	15
NOTE 1: I1 corresponds to the power of Co-channel 1 (VUTS-1, VUTS-3 and VUTS-4) or Adjacent channel 1 (VUTS-2) NOTE 2:For GSM 400 the speeds shall be doubled (e.g. TI5 shall be TI10) and for GSM 700 the speeds shall be multiplied by 1,2 (e.g. TI5 shall be TI6)

Table 7.5-5c: Adjacent channel interference ratios (C/Ia) for EC-channels

GSM 900 and GSM 850
Type of			Propagation conditions
Channel			TU1.2 (no SFH)	TU50 (no SFH)
EC-PACCH/U	CC1	dB	-19,5	-19,0
EC-PACCH/U/4	CC2	dB	-27,0	-27,0
EC-PACCH/U/8	CC3	dB	-28,0	-29,0
EC-PACCH/U/16	CC4	dB	-29,0	-30,5
EC-PACCH/U/48	CC5	dB	-30,0	-31,5
EC-PACCH/U/2TS/4	CC2	dB	-22,0	-24,5
EC-PACCH/U/2TS/8	CC3	dB	-23,0	-26,5
EC-PACCH/U/2TS/16	CC4	dB	-23,5	-28,0
EC-PACCH/U/2TS/48	CC5	dB	-28,5	-29,5
EC-PDTCH/MCS-1¹⁾	CC1	dB	-21,0	-20,5
EC-PDTCH/MCS-1/4	CC2	dB	-30,0	-29,5
EC-PDTCH/MCS-1/8	CC3	dB	-32,0	-32,0
EC-PDTCH/MCS-1/16	CC4	dB	-33,0	-33,0
EC-PDTCH/MCS-1’/48	CC5	dB	-34,5	-34,5
EC-PDTCH/2TS/MCS-1/4	CC2	dB	-28,5	-28,5
EC-PDTCH/2TS/MCS-1/8	CC3	dB	-29,5	-29,5
EC-PDTCH/2TS/MCS-1/16	CC4	dB	-30,5	-30,5
EC-PDTCH/2TS/MCS-1’/48	CC5	dB	-32,5	-32,5
EC-PDTCH/MCS-5²⁾	CC1	dB	-9,5	-11,5
1 TS EC-RACH³⁾	CC1	dB	-14,5	-14,5
1 TS EC-RACH/4	CC2	dB	-23,0	-23,0
1 TS EC-RACH/16	CC3	dB	-26,0	-26,0
1 TS EC-RACH/48	CC4	dB	-27,5	-27,5
2 TS EC-RACH/4	CC2	dB	-24,5	-24,5
2 TS EC-RACH/16	CC3	dB	-27,0	-27,5
2 TS EC-RACH/48	CC4	dB	-29,5	-29,5
1TS EC-RACH/30 bits⁵⁾	CC1	dB	-14	-13,5
2 TS EC-RACH/66⁶⁾	CC5	dB	-34,0	-34,5
2 TS EC-RACH/132⁷⁾	CC5	dB	-32,5	-33,5
DCS 1800 and PCS 1900
Type of			Propagation conditions
Channel			TU1.2 (no SFH)	TU50 (no SFH)
EC-PACCH/U	CC1	dB	-19,5	-19,5
EC-PACCH/U/4	CC2	dB	-25,0	-27,0
EC-PACCH/U/8	CC3	dB	-26,5	-28,5
EC-PACCH/U/16	CC4	dB	-28,0	-30,0
EC-PACCH/U/48	CC5	dB	-29,0	-30,5
EC-PACCH/U/2TS/4	CC2	dB	-22,0	-24,5
EC-PACCH/U/2TS/8	CC3	dB	-22,5	-26,0
EC-PACCH/U/2TS/16	CC4	dB	-23,0	-27,5
EC-PACCH/U/2TS/48	CC5	dB	-28,0	-29,0
EC-PDTCH/MCS-1¹⁾	CC1	dB	-21,0	-20,5
EC-PDTCH/MCS-1/4	CC2	dB	-30,0	-29,5
EC-PDTCH/MCS-1/8	CC3	dB	-31,5	-32,0
EC-PDTCH/MCS-1/16	CC4	dB	-32,5	-32,5
EC-PDTCH/MCS-1’/48	CC5	dB	-34,0	-34,0
EC-PDTCH/2TS/MCS-1/4	CC2	dB	-28,5	-28,0
EC-PDTCH/2TS/MCS-1/8	CC3	dB	-29,5	-29,5
EC-PDTCH/2TS/MCS-1/16	CC4	dB	-30,0	-30,0
EC-PDTCH/2TS/MCS-1’/48	CC5	dB	-31,5	-31,5
EC-PDTCH/MCS-5²⁾	CC1	dB	-9,5	-11,5
1 TS EC-RACH³⁾	CC1	dB	-14,5	-14,5
1 TS EC-RACH/4	CC2	dB	-23,0	-23,0
1 TS EC-RACH/16	CC3	dB	-26,0	-26,5
1 TS EC-RACH/48	CC4	dB	-27,5	-27,5
2 TS EC-RACH/4	CC2	dB	-24,5	-24,5
2 TS EC-RACH/16	CC3	dB	-27,5	-28,5
2 TS EC-RACH/48	CC4	dB	-30,0	-30,5
1TS EC-RACH/30 bits⁵⁾	CC1	dB	-14	-13,5
2 TS EC-RACH/66⁶⁾	CC5	dB	-34,0	-34,5
2 TS EC-RACH/132⁷⁾	CC5	dB	-32,0	-32,5
NOTE 1: For MCS-2, MCS-3 and MCS-4 in CC1, see table 7.5-3. NOTE 2: For MCS-6, MCS-7, MCS-8 and MCS-9 in CC1, see table 7.5-5. NOTE 3: Identification of the correct Training sequence is required, see 3GPP TS 45.002. NOTE 4: For the notation of EC-channels, see 3GPP TS 45.003. NOTE 5: For the random access message carrying 30 information bits (see 3GPP TS 45.003) sent using the Extended AB burst format (see 3GPP TS 45.002). NOTE 6: For the random access on EC-RACH CC5 using ESAB (see 3GPP TS 45.002) and the coding scheme EC-RACH/66 (see 3GPP TS 45.003). NOTE 7: For the random access on EC-RACH CC5 using EDAB TS 7 (see 3GPP TS 45.002) and the coding scheme EC-RACH/132 (see 3GPP TS 45.003).

All TRXs in the BSS configuration shall be on and transmitting full power in all time slots.

The input signal before channel encoding in the BSSTE shall be compared with the signal which is obtained from the BSS receiver after channel decoding.