6.7 Incremental Redundancy Performance for EGPRS and EGPRS2 MS

3GPP45.005GSM/EDGE Radio transmission and receptionTS

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

Support for Incremental Redundancy reception is mandatory for all EGPRS capable MSs. In Incremental Redundancy RLC mode soft information from multiple, differently punctured, versions of an RLC data block may be used when decoding the RLC data block. This significantly increases the link performance.

An EGPRS capable MS shall under the conditions stated in the below table 6.7-1 achieve a long-term throughput of 20 kbps per time slot (see note), measured between LLC and RLC/MAC layer.

An EGPRS2 capable MS shall under the conditions stated in the below table 6.7-1 achieve a long-term throughput of 33 kbps per time slot, measured between LLC and RLC/MAC layer.

An EC-GSM-IoT MS shall under the conditions stated in table 6.7-1 achieve the long-term throughput per time slot over the accumulated time of allocated radio blocks, measured between LLC and RLC/MAC layer as shown in table 6.7-1.

The throughput requirements are dependent on the MS support level:

– In case the MS supports only GMSK, i.e. MCS 1-4, the requirements for ‘EC-GSM-IoT Only GMSK supported’ and ‘EC-GSM-IoT, MCS-1/16’ apply.

– In case the MS supports GMSK and 8-PSK, i.e. MCS 1-9, the requirements for ‘EC-GSM-IoT 8-PSK supported’ and ‘EC-GSM-IoT, MCS-1/16’ apply.

Table 6.7-1 Incremental Redundancy performance

MS support level	EGPRS	EGPRS2	EC-GSM-IoT, 8-PSK supported	EC-GSM-IoT, Only GMSK supported
Required throughput [kbps / timeslot]	20,0	33,0	20,0	6,0
Propagation conditions	Static	Static	Static	Static
Input level [dBm]	-97,0	-94,0	-97,0	-111,0
Modulation and Coding Scheme	MCS-9	DAS-12	MCS-9	MCS-4
Acknowledgements polling period [RLC data blocks]	32	32	8	8
Roundtrip time [ms]	120	120	120	120
Number of timeslots	Maximum capability of the MS	Maximum capability of the MS	Maximum capability of the MS	Maximum capability of the MS
Transmit window size	Maximum for the MS timeslot capability	Maximum for the MS timeslot capability	16	16

NOTE 1: The requirement for EGPRS corresponds to an equivalent block error rate of approximately 0.66 using the prescribed MCS-9.

Table 1: Reference sensitivity performance for GMSK modulated channels

GSM 850 and GSM 900 and ER-GSM 900
Type of			Propagation conditions
channel			static	TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)	HT100 (no FH)
FACCH/H		(FER)	0,1 %	6,9 %	6,9 %	5,7 %	10,0 %
FACCH/F		(FER)	0,1 %	8,0 %	3,8 %	3,4 %	6,3 %
SDCCH		(FER)	0,1 %	13 %	8 %	8 %	12 %
RACH		(FER)	0,5 %	13 %	13 %	12 %	13 %
SCH		(FER)	1 %	16 %	16 %	15 %	16 %
TCH/F14,4		(BER)	10‑5	2,5 %	2 %	2 %	5 %
TCH/F9,6 & H4,8		(BER)	10‑5	0,5 %	0,4 %	0,1 %	0,7 %
TCH/F4,8		(BER)	‑	10‑4	10‑4	10‑4	10‑4
TCH/F2,4		(BER)	‑	2 10‑4	10‑5	10‑5	10‑5
TCH/H2,4		(BER)	‑	10‑4	10‑4	10‑4	10‑4
TCH/FS		(FER)	0,1 %	6 %	3 %	2 %	7 %
class Ib (RBER)			0,4/ %	0,4/ %	0,3/ %	0,2/ %	0,5/ %
class II (RBER)			2 %	8 %	8 %	7 %	9 %
TCH/EFS		(FER)	< 0,1 %	8 %	3 %	3 %	7 %
		(RBER Ib)	< 0,1 %	0,21 %	0,11 %	0,10 %	0,20 %
		(RBER II)	2,0 %	7 %	8 %	7 %	9 %
TCH/HS		(FER)	0,025 %	4,1 %	4,1 %	4,1 %	4,5 %
class Ib (RBER, BFI=0)			0,001 %	0,36 %	0,36 %	0,28 %	0,56 %
class II (RBER, BFI=0)			0,72 %	6,9 %	6,9 %	6,8 %	7,6 %
		(UFR)	0,048 %	5,6 %	5,6 %	5,0 %	7,5 %
class Ib (RBER,(BFI or UFI)=0)			0,001 %	0,24 %	0,24 %	0,21 %	0,32 %
		(EVSIDR)	0,06 %	6,8 %	6,8 %	6,0 %	9,2 %
(RBER, SID=2 and (BFI or UFI)=0)			0,001 %	0,01 %	0,01 %	0,01 %	0,02 %
		(ESIDR)	0,01 %	3,0 %	3,0 %	3,2 %	3,4 %
(RBER, SID=1 or SID=2)			0,003 %	0,3 %	0,3 %	0,21 %	0,42 %
TCH/AFS12.2		(FER)	–	4,9 %	2,4 %	1,4 %	4,5 %
	Class Ib (RBER)		< 0,001 %	1,5 %	1,5 %	1,2 %	2,1 %
TCH/AFS10.2		(FER)	–	2,1 %	0,85 %	0,45 %	1,6 %
	Class Ib (RBER)		< 0,001 %	0,23 %	0,15 %	0,092 %	0,26 %
TCH/AFS7.95	(FER)		–	0,36 %	0,045 %	0,024 %	0,096 %
	Class Ib (RBER)		–	0,11 %	0,032 %	0,02 %	0,06 %
TCH/AFS7.4	(FER)		–	0,41 %	0,069 %	0,028 %	0,13 %
	Class Ib (RBER)		–	0,054 %	0,016 %	0,009 %	0,033 %
TCH/AFS6.7	(FER)		–	0,16 %	0,017 %	< 0,01 %^(*)	0,026 %
	Class Ib (RBER)		–	0,082 %	0,022 %	0,013 %	0,044 %
TCH/AFS5.9	(FER)		–	0,094 %	< 0,01 %^(*)	< 0,01 %^(*)	0,011 %
	Class Ib (RBER)		–	0,014 %	0,001 %	0,001 %	0,003 %
TCH/AFS5.15	(FER)		–	0,07 %	< 0,01 %^(*)	< 0,01 %^(*)	< 0,01 %^(*)
	Class Ib (RBER)		–	0,014 %	< 0,001 %	< 0,001 %	0,002 %
TCH/AFS4.75	(FER)		–	0,029 %	< 0,01 %^(*)	–	< 0,01 %^(*)
	Class Ib (RBER)		–	0,005 %	< 0,001 %	< 0,001 %	< 0,001 %
TCH/AFS-INB	(FER)		–	0,034 %	0,013 %	0,006 %	0,019 %
TCH/AFS	(EVSIDUR)		–	0,82 %	0,17 %	0,17 %	0,17 %
TCH/AFS	(EVRFR)		–	0.095 %	0.007 %	0.007 %	0.011 %
TCH/AHS7.95	(FER)		< 0,01 %*^()**	20 %	20 %	17 %	28 %
	Class Ib (RBER)		0,004 %	2,3 %	2,3 %	2 %	2,9 %
	Class II (RBER)		0,66 %	5 %	5 %	4,7 %	5,7 %

Continued

Table 1 (continued): Reference sensitivity performance for GMSK modulated channels

GSM 850 and GSM 900 and ER-GSM 900
Type of			Propagation conditions
Channel			Static	TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)	HT100 (no FH)
TCH/AHS7.4		(FER)	< 0,01 %*^()**	16 %	16 %	14 %	22 %
	Class Ib (RBER)		< 0,001 %*^()**	1,4 %	1,4 %	1,1 %	1,8 %
		Class II (RBER)	0,66 %	5,3 %	5,3 %	5 %	6 %
TCH/AHS6.7		(FER)	< 0,01 %*^()**	9,2 %	9,2 %	8 %	13 %
	Class Ib (RBER)		< 0,001 %	1,1 %	1,1 %	0,93 %	1,5 %
		Class II (RBER)	0,66 %	5,8 %	5,8 %	5,5 %	6,6 %
TCH/AHS5.9		(FER)	–	5,7 %	5.7 %	4,9 %	8,6 %
	Class Ib (RBER)		–	0,51 %	0,51 %	0,42 %	0,73 %
		Class II (RBER)	0,66 %	6 %	6 %	5,7 %	6,8 %
TCH/AHS5.15		(FER)	–	2,5 %	2,5 %	2,2 %	4 %
	Class Ib (RBER)		–	0,51 %	0,51 %	0,43 %	0,78 %
		Class II (RBER)	0,66 %	6,3 %	6,3 %	6 %	7,2 %
TCH/AHS4.75		(FER)	–	1,2 %	1,2 %	1,2 %	1,8 %
	Class Ib (RBER)		–	0,17 %	0,17 %	0,14 %	0,26 %
		Class II (RBER)	0,66 %	6,4 %	6,4 %	6,2 %	7,4 %
TCH/AHS-INB		(FER)	0,013 %	0,72 %	0,64 %	0,53 %	0,94 %
TCH/AHS		(EVSIDUR)	–	1,5 %	1,5 %	2,1 %	1,5 %
TCH/AHS		(EVRFR)	–	0,25 %	0,24 %	0,33 %	0,28 %

DCS 1 800 & PCS 1 900
Type of			Propagation conditions
channel			static	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)	HT100 (no FH)
FACCH/H		(FER)	0,1 %	7,2 %	7,2 %	5,7 %	10,4 %
FACCH/F		(FER)	0,1 %	3,9 %	3,9 %	3,4 %	7,4 %
SDCCH		(FER)	0,1 %	9 %	9 %	8 %	13 %
RACH		(FER)	0,5 %	13 %	13 %	12 %	13 %
SCH		(FER)	1 %	19 %	19 %	15 %	25 %
TCH/F14,4		(BER)	10‑5	2,1 %	2 %	2 %	6,5 %
TCH/F9,6 & H4,8		(BER)	10‑5	0,4 %	0,4 %	0,1 %	0,7 %
TCH/F4,8		(BER)	‑	10‑4	10‑4	10‑4	10‑4
TCH/F2,4		(BER)	‑	10‑5	10‑5	10‑5	10‑5
TCH/H2,4		(BER)	‑	10‑4	10‑4	10‑4	10‑4
TCH/FS		(FER)	0,1 %	3 %	3 %	2 %	7 %
class Ib (RBER)			0,4/ %	0,3/ %	0,3/ %	0,2/ %	0,5/ %
class II (RBER)			2 %	8 %	8 %	7 %	9 %
TCH/EFS		(FER)	< 0,1 %	4 %	4 %	3 %	7 %
		(RBER Ib)	< 0,1 %	0,12 %	0,12 %	0,10 %	0,24 %
		(RBER II)	2,0 %	8 %	8 %	7 %	9 %
TCH/HS		(FER)	0,025 %	4,2 %	4,2 %	4,1 %	5,0 %
class Ib (RBER, BFI=0)			0,001 %	0,38 %	0,38 %	0,28 %	0,63 %
class II (RBER, BFI=0)			0,72 %	6,9 %	6,9 %	6,8 %	7,8 %
(UFR)			0,048 %	5,7 %	5,7 %	5,0 %	8,1 %
class Ib (RBER, (BFI or UFI)=0)			0,001 %	0,26 %	0,26 %	0,21 %	0,35 %
(EVSIDR)			0,06 %	7,0 %	7,0 %	6,0 %	9,9 %
(RBER, SID=2 and (BFI or UFI)=0)			0,001 %	0,01 %	0,01 %	0,01 %	0,02 %
(ESIDR)			0,01 %	3,0 %	3,0 %	3,2 %	3,9 %
(RBER, SID=1 or SID=2)			0,003 %	0,33 %	0,33 %	0,21 %	0,45 %
TCH/AFS12.2	(FER)		–	2 %	2,0 %	1,3 %	4,6 %
	Class Ib (RBER)		< 0,001 %	1,4 %	1,4 %	1,2 %	2,1 %
TCH/AFS10.2	(FER)		–	0,65 %	0,65 %	0,41 %	1,6 %
	Class Ib (RBER)		< 0,001 %	0,12 %	0,12 %	0,084 %	0,26 %
TCH/AFS7.95		(FER)	–	0,025 %	0,025 %	0,018 %	0,089 %
	Class Ib (RBER)		–	0,023 %	0,023 %	0,016 %	0,061 %
TCH/AFS7.4		(FER)	–	0,036 %	0,036 %	0,023 %	0,13 %
	Class Ib (RBER)		–	0,013 %	0,013 %	0,007 %	0,031 %
TCH/AFS6.7		(FER)	–	< 0,01 %*^()**	< 0,01 %*^()**	< 0,01 %*^()**	0,031 %
	Class Ib (RBER)		–	0,017 %	0,017 %	0,01 %	0,041 %
TCH/AFS5.9		(FER)	–	< 0,01 %*^()**	< 0,01 %*^()**	< 0,01 %*^()**	< 0,01 %*^()**
	Class Ib (RBER)		–	< 0,001 %	< 0,001 %	< 0,001 %	0,002 %
TCH/AFS5.15		(FER)	–	< 0,01 %*^()**	< 0,01 %*^()**	–	< 0,01 %*^()**
	Class Ib (RBER)		–	< 0,001 %	< 0,001 %	< 0,001 %	0,003 %
TCH/AFS4.75		(FER)	–	< 0,01 %*^()**	–	–	< 0,01 %*^()**
	Class Ib (RBER)		–	< 0,001 %	< 0,001 %	< 0,001 %	< 0,001 %
TCH/AFS-INB		(FER)	–	0,011 %	0,011 %	0,006 %	0,021 %
TCH/AFS		(EVSIDUR)	–	0,19 %	0,19 %	0,17 %	0,25 %
TCH/AFS	(EVRFR)		–	0.007 %	0.007 %	0.002 %	0.01 %

Continued

Table 1 (concluded): Reference sensitivity performance for GMSK modulated channels

DCS 1 800 & PCS 1 900
Type of			Propagation conditions
Channel			Static	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)	HT100 (no FH)
TCH/AHS7.95		(FER)	< 0,01 %*^()**	20 %	20 %	17 %	27 %
	Class Ib (RBER)		0,004 %	2,3 %	2,3 %	2 %	2,9 %
		Class II (RBER)	0,66 %	5 %	5 %	4,8 %	5,7 %
TCH/AHS7.4		(FER)	< 0,01 %*^()**	16 %	16 %	13 %	22 %
	Class Ib (RBER)		<0,001 %*^()**	1,4 %	1,4 %	1,1 %	1,9 %
		Class II (RBER)	0,66 %	5,3 %	5,3 %	5,1 %	6 %
TCH/AHS6.7		(FER)	< 0,01 %*^()**	9,4 %	9,4 %	7,5 %	13 %
	Class Ib (RBER)		< 0,001 %	1,1 %	1,1 %	0,92 %	1,5 %
		Class II (RBER)	0,66 %	5,8 %	5,8 %	5,5 %	6,6 %
TCH/AHS5.9		(FER)	–	5,9 %	5,9 %	4,6 %	8,5 %
	Class Ib (RBER)		–	0,52 %	0,52 %	0,39 %	0,72 %
		Class II (RBER)	0,66 %	6,1 %	6,1 %	5,8 %	6,8 %
TCH/AHS5.15		(FER)	–	2,6 %	2,6 %	2 %	3,7 %
	Class Ib (RBER)		–	0,53 %	0,53 %	0,4 %	0,76 %
		Class II (RBER)	0,66 %	6,3 %	6,3 %	6,1 %	7,2 %
TCH/AHS4.75		(FER)	–	1,2 %	1,2 %	1,1 %	1,7 %
	Class Ib (RBER)		–	0,18 %	0,18 %	0,13 %	0,25 %
		Class II (RBER)	0,66 %	6,5 %	6,5 %	6,2 %	7,3 %
TCH/AHS-INB		(FER)	0,013 %	0,64 %	0,64 %	0,53 %	0,94 %
TCH/AHS		(EVSIDUR)	–	1,3 %	1,3 %	2,1 %	1,5 %
TCH/AHS		(EVRFR)	–	0,24 %	0,24 %	0,25 %	0,24 %
NOTE 1: The specification for SDCCH applies also for BCCH, AGCH, PCH, SACCH. The actual performance of SACCH, should be better. NOTE 2: Definitions: FER: Frame erasure rate (frames marked with BFI=1) UFR: Unreliable frame rate (frames marked with (BFI or UFI)=1) EVSIDR: Erased Valid SID frame rate (frames marked with (SID=0) or (SID=1) or ((BFI or UFI)=1) if a valid SID frame was transmitted) EVSIDUR: Erased Valid SID_UPDATE frame rate associated to an adaptive speech traffic channel ESIDR: Erased SID frame rate (frames marked with SID=0 if a valid SID frame was transmitted) EVRFR: Erased Valid RATSCCH frame rate associated to an adaptive speech traffic channel. This relates to the erasure of the RATSCCH message due to the failure to detect the RATSCCH identifier or due to a CRC failure. BER: Bit error rate RBER, BFI=0: Residual bit error rate (defined as the ratio of the number of errors detected over the frames defined as "good" to the number of transmitted bits in the "good" frames). RBER, (BFI or UFI)=0: Residual bit error rate (defined as the ratio of the number of errors detected over the frames defined as "reliable" to the number of transmitted bits in the "reliable" frames). RBER, SID=2 and (BFI or UFI)=0: Residual bit error rate of those bits in class I which do not belong to the SID codeword (defined as the ratio of the number of errors detected over the frames that are defined as "valid SID frames" to the number of transmitted bits in these frames, under the condition that a valid SID frame was sent). RBER, SID=1 or SID=2: Residual bit error rate of those bits in class I which do not belong to the SID codeword (defined as the ratio of the number of errors detected over the frames that are defined as "valid SID frames" or as "invalid SID frames" to the number of transmitted bits in these frames, under the condition that a valid SID frame was sent). TCH/AxS-INB FER: The frame error rate for the in-band channel. Valid for both Mode Indication and Mode Command/Mode Request. When testing all four code words shall be used an equal amount of time and the mode of both in-band channels (Mode Indication and Mode Command/Mode Request) shall be changed to a neighbouring mode not more often than every 22 speech frames (440 ms). NOTE 3: 1    1.6. The value of  can be different for each channel condition but must remain the same for FER and class Ib RBER measurements for the same channel condition. NOTE 4: FER for CCHs takes into account frames which are signalled as being erroneous (by the FIRE code, parity bits, or other means) or where the stealing flags are wrongly interpreted. NOTE 5: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 6: For AMR, the complete conformance should not be restricted to the channels identified with (*).

Table 1a: Input signal level (for normal BTS) at reference performance for GMSK modulated signals

GSM 900, ER-GSM 900 and GSM 850
Type of		Propagation conditions
channel		static		TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)	HT100 (no FH)
PDTCH/CS-1	dBm	-104^(x)		-104	-104^(x)	-104^(x)	-103
PDTCH/CS-2	dBm	-104^(x)		-100	-101	-101	-99
PDTCH/CS-3	dBm	-104^(x)		-98	-99	-98	-96
PDTCH/CS-4	dBm	-101		-90	-90	*	*
USF/CS-1	dBm	-104^(x)		-101	-103	-103	-101
USF/CS-2 to 4	dBm	-104^(x)		-103	-104^(x)	-104^(x)	-104
PRACH/11 bits¹⁾	dBm	-104^(x)		-104	-104	-103	-103
PRACH/8 bits¹⁾	dBm	-104^(x)		-104	-104	-103	-103
GSM 900, ER-GSM 900, GSM 850 and MXM 850
Type of		Propagation conditions
Channel		static		TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)	HT100 (no FH)
PDTCH/MCS-0⁶⁾dBm PDTCH/MCS-1dBm PDTCH/MCS-2dBm PDTCH/MCS-3dBm PDTCH/MCS-4dBm UFS/MCS-1 to 4dBm		-104 -104^(x) -104^(x) -104^(x) -101,5 -104^(x)		-103 -102,5 -100,5 -96,5 -91 -102,5	-103,5 -103 -101 -96,5 -91 -104	-103 -103 -100,5 -92,5 * -104^(x)	-102,5 -102 -100 -95,5 * -102,5
PRACH/11 bits^{2), 3)}	dBm	-104^(x)		-104	-104	-103	-103
PRACH/8 bits¹⁾	dBm	-104^(x)		-104	-104	-103	-103
RACH/30 bits⁸⁾	dBm	-103,0		-103,0	–	–	-100
DCS 1 800 & PCS 1 900
Type of			Propagation conditions
channel			static	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)	HT100 (no FH)
PDTCH/CS-1	dBm		-104^(x)	-104	-104	-104^(x)	-103
PDTCH/CS-2	dBm		-104^(x)	-100	-100	-101	-99
PDTCH/CS-3	dBm		-104^(x)	-98	-98	-98	-94
PDTCH/CS-4	dBm		-101	-88	-88	*	*
USF/CS-1	dBm		-104^(x)	-103	-103	-103	-101
USF/CS-2 to 4	dBm		-104^(x)	-104^(x)	-104^(x)	-104^(x)	-103
PRACH/11 bits¹⁾	dBm		-104^(x)	-104	-104	-103	-103
PRACH/8 bits¹⁾	dBm		-104^(x)	-104	-104	-103	-103
DCS 1800, PCS 1900 and MXM 1900
Type of			Propagation conditions
channel			static	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)	HT100 (no FH)
PDTCH/MCS-0⁶⁾	dBm		-104	-103	-103,5	-103	-102,5
PDTCH/MCS-1	dBm		-104^(x)	-102,5	-103	-103	-101,5
PDTCH/MCS-2	dBm		-104^(x)	-100,5	-101	-100,5	-99,5
PDTCH/MCS-3	dBm		-104^(x)	-96,5	-96,5	-92,5	-94,5
PDTCH/MCS-4	dBm		-101,5	-90,5	-90,5	*	*
USF/MCS-1 to 4	dBm		-104^(x)	-104	-104	-104^(x)	-102,5
PRACH/11 bits^{2), 3)}	dBm		-104^(x)	-104	-104	-103	-103
PRACH/8 bits¹⁾	dBm		-104^(x)	-104	-104	-103	-103
RACH/30 bits⁸⁾	dBm		-104,0	-104	–	–	-98
NOTE 1: The specification for PDTCH/CS-1 applies also for PACCH, PBCCH, PAGCH, PPCH, PTCCH/D. NOTE 2: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 3: PDTCH/CS-4 and PDTCH/MCS-x can not meet the reference performance for some propagation conditions (*). NOTE 4 : The complete conformance should not be restricted to the logical channels and channel models identified with (x) NOTE 5: Identification of the correct Training sequence is required. Cases identified by ¹⁾include one training sequence and cases identified by ²⁾ include 3 training sequences according to 3GPP TS 45.002. The specification marked by ³⁾ also applies to CPRACH. NOTE 6: The specification of MCS-0 only applies in DL RTTI configuration. NOTE 7: The specification for PDTCH/CS-3 applies also when used for PACCH in DLMC configuration (see 3GPP TS 44.060). NOTE 8: The performance requirement applies 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) as part of the Multilateration Timing Advance procedure using the Extended Access Burst method.

Table 1b: Input signal level (for normal BTS) at reference performance for 8-PSK modulated signals (convolutional coding)

GSM 900, ER-GSM 900, GSM 850 and MXM 850
Type of			Propagation conditions
channel			static		TU50 (no FH)		TU50 (ideal FH)	RA250 (no FH)	HT100 (no FH)
PDTCH/MCS-5	dBm		-101		-96,5		-97	-96	-95
PDTCH/MCS-6	dBm		-99,5		-94		-94.5	-91	-91
PDTCH/MCS-7	dBm		-96		-89		-88.5	–87**	–86**
PDTCH/MCS-8	dBm		-93		-84		-84	*	-81,5**
PDTCH/MCS-9	dBm		-91,5		-80		-80	*	*
DCS 1 800, PCS 1900 and MXM 1900
Type of			Propagation conditions
channel			static		TU50 (no FH)		TU50 (ideal FH)	RA130 (no FH)	HT100 (no FH)
PDTCH/MCS-5	dBm	-101		-95,5		-97		-96	-93
PDTCH/MCS-6	dBm	-99,5		-94		-94		-91	–85,5
PDTCH/MCS-7	dBm	-96		-87		-86,5		-87**	*
PDTCH/MCS-8	dBm	-93		–86,5**		–86,5**		*	*
PDTCH/MCS-9	dBm	-91,5		-83**		-83**		*	*
Performance is specified at 30% BLER for those cases identified with mark *. NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: PDTCH for MCS-x can not meet the reference performance for some propagation conditions ().

Table 1c: Input signal level (for MS) at reference performance for 8-PSK modulated signals (convolutional coding)

GSM 900, ER-GSM 900 and GSM 850
Type of			Propagation conditions
channel			static		TU50 (no FH)		TU50 (ideal FH)	RA250 (no FH)	HT100 (no FH)
PDTCH/MCS-5	dBm		-98		-93		-94	-93	-92
PDTCH/MCS-6	dBm		-96		-91		-91,5	-88	-89
PDTCH/MCS-7	dBm		-93		-84		-84	*	-83**
PDTCH/MCS-8	dBm		-90,5		-83**		-83**	*	*
PDTCH/MCS-9	dBm		-86		-78,5**		-78,5**	*	*
USF/MCS-5 to 9	dBm		-102^(x)		-97,5		-99	-100	-99
DCS 1 800 and PCS 1900
Type of			Propagation conditions
channel			static		TU50 (no FH)		TU50 (ideal FH)	RA130 (no FH)	HT100 (no FH)
PDTCH/MCS-5	dBm	-98		-93,5		-93,5		-93	-89,5
PDTCH/MCS-6	dBm	-96		-91		-91		-88	-83,5
PDTCH/MCS-7	dBm	-93		-81,5		-80,5		*	*
PDTCH/MCS-8	dBm	-90,5		-80**		-80**		*	*
PDTCH/MCS-9	dBm	-86		*		*		*	*
USF/MCS-5 to 9	dBm	-102^(x)		-99		-99		-100	-99
Performance is specified at 30% BLER for those cases identified with mark *. NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: PDTCH for MCS-x can not meet the reference performance for some propagation conditions (). NOTE 3: The complete conformance should not be restricted to the logical channels and channel models identified with (x).

Table 1d: Input signal level (for normal BTS) at reference performance for ECSD
(GMSK and 8-PSK modulated signals)

GSM 900 and GSM 850
Type of				Propagation conditions
Channel				Static		TU50 (no FH)		TU50 (ideal FH)		RA250 (no FH)		HT100 (no FH)
E-FACCH/F		dBm		-104^(x)		-101		-102		-102		-98
E-TCH/F28.8 T		dBm		-99,5		-93,5		-95		-93,5		-94,5
E-TCH/F 32 T		dBm		-104		-97,5		-100		-100		-96,5

E-TCH/F28.8 NT	dBm		-100		-95,5		-96,5		-96,5		-96
E-TCH/F43.2 NT	dBm		-97		-91		-92		-89		-89,5
DCS 1 800 & PCS 1900
Type of				Propagation conditions
Channel				Static		TU50 (no FH)		TU50 (ideal FH)		RA130 (no FH)		HT100 (no FH)
E-FACCH/F		dBm		-104^(x)		-102		-102		-102		-98
E-TCH/F28.8 T		dBm		-99,5		-94,5		-95		-92,5		-93
E-TCH/F 32 T		dBm		-104		-98,5		-100		-100		-97

E-TCH/F28.8 NT	dBm		-100		-96		-96,5		-96		-95
E-TCH/F43.2 NT	dBm		-97		-91,5		-91,5		-88,5		-86
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: The complete conformance should not be restricted to the logical channels and channel models identified with (x).

Table 1e: Input signal level (for MS) at reference performance for ECSD
(GMSK and 8-PSK modulated signals)

GSM 850 and GSM 900
Type of				Propagation conditions
Channel				Static		TU50 (no FH)		TU50 (ideal FH)		RA250 (no FH)		HT100 (no FH)
E-FACCH/F		dBm		-102^(x)		-99		-100		-100		-96
E-TCH/F28.8 T		dBm		-97.5		-91.5		-93		-91.5		-90
E-TCH/F 32 T		dBm		-98.5		-93		-94		-94		-91.5

E-TCH/F28.8 NT	dBm		-98		-93.5		-94.5		-94.5		-92.5
E-TCH/F43.2 NT	dBm		-95		-89		-90		-87		-84.5
DCS 1 800 & PCS 1900
Type of				Propagation conditions
Channel				Static		TU50 (no FH)		TU50 (ideal FH)		RA130 (no FH)		HT100 (no FH)
E-FACCH/F		dBm		-102^(x)		-100		-100		-100		-96
E-TCH/F28.8 T		dBm		-97.5		-92.5		-93		-90		-87.5
E-TCH/F 32 T		dBm		-98.5		-94		-94		-94		-87.5

E-TCH/F28.8 NT	dBm		-98		-94		-94.5		-93.5		-90.5
E-TCH/F43.2 NT	dBm		-95		-89.5		-89.5		-86.5		*
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: E-TCH/F for 43.2 NT can not meet the reference performance for some propagation conditions (*). NOTE 3: The complete conformance should not be restricted to the logical channels and channel models identified with (x).

Table 1f: Reference sensitivity performance for GMSK modulated signals

GSM 850, ER-GSM900 and GSM 900
Type of			Propagation conditions
Channel				Static	TU50 (no FH)	RA250 (no FH)	HT100 (no FH)
TCH/WFS12.65		(dBm)		-104	-99,5	-101	-99
	Class Ib (RBER)			0,50	0,35	0,72	0,62
TCH/ WFS8.85		(dBm)		-104	-102	-104	-102
	Class Ib (RBER)			0,50	0,38	0,72	0,62
TCH/ WFS6.60		(dBm)		-104	-103	-104	-103,5
	Class Ib (RBER)			0,24	0,15	0,19	0,24

DCS 1 800 & PCS 1 900
Type of			Propagation conditions
Channel				TU50 (no FH)	HT100 (no FH)
TCH/WFS12.65		(dBm)		-100,5	-99
	Class Ib (RBER)			0,62	0,66
TCH/ WFS8.85		(dBm)		-103,5	-102
	Class Ib (RBER)			0,59	0,58
TCH/ WFS6.60		(dBm)		-104	-103,5
	Class Ib (RBER)			0,17	0,25

NOTE 1: Definitions:

FER: Frame erasure rate (frames marked with BFI=1)

UFR: Unreliable frame rate (frames marked with (BFI or UFI)=1)

EVSIDR: Erased Valid SID frame rate (frames marked with (SID=0) or (SID=1) or ((BFI or UFI)=1) if a valid SID frame was transmitted)

EVSIDUR: Erased Valid SID_UPDATE frame rate associated to an adaptive speech traffic channel

ESIDR: Erased SID frame rate (frames marked with SID=0 if a valid SID frame was transmitted)

EVRFR: Erased Valid RATSCCH frame rate associated to an adaptive speech traffic channel This relates to the erasure of the RATSCCH message due to the failure to detect the RATSCCH identifier or due to a CRC failure.

BER: Bit error rate

RBER, BFI=0: Residual bit error rate (defined as the ratio of the number of errors detected over the frames defined as "good" to the number of transmitted bits in the "good" frames).

RBER, (BFI or UFI)=0: Residual bit error rate (defined as the ratio of the number of errors detected over the frames defined as "reliable" to the number of transmitted bits in the "reliable" frames).

RBER, SID=2 and (BFI or UFI)=0: Residual bit error rate of those bits in class I which do not belong to the SID codeword (defined as the ratio of the number of errors detected over the frames that are defined as "valid SID frames" to the number of transmitted bits in these frames, under the condition that a valid SID frame was sent).

RBER, SID=1 or SID=2: Residual bit error rate of those bits in class I which do not belong to the SID codeword (defined as the ratio of the number of errors detected over the frames that are defined as "valid SID frames" or as "invalid SID frames" to the number of transmitted bits in these frames, under the condition that a valid SID frame was sent).

TCH/WxS-INB FER: The frame error rate for the in-band channel. Valid for both Mode Indication and Mode Command/Mode Request. When testing all four code words shall be used an equal amount of time and the mode of both in-band channels (Mode Indication and Mode Command/Mode Request) shall be changed to a neighbouring mode not more often than every 22 speech frames (440 ms).

NOTE 2: The requirements for the DCS 1800 & PCS 1900 Static propagation condition are the same as for the GSM 850 & GSM 900 Static propagation condition, the requirements for the GSM 850 & GSM 900 & ER-GSM 900 TU50 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

NOTE 3: Ideal FH performance is already tested for the TCH/FS channel, therefore, these requirements are given for information purposes and need not be tested.

NOTE 4: As a minimum the test of performance shall include all propagation conditions for maximum implemented codec rate and the remaining implemented codec rates for one propagation condition only, e.g. TU50 (no FH).

NOTE 5: The performance requirements for inband signalling, SID_UPDATE and RATSCCH are the same as those given for TCH/AFS in Table 1. It is sufficient to test inband signalling, SID_UPDATE and RATSCCH requirements for only one of the channel types TCH/AFS and TCH/WFS.

Table 1g: Reference sensitivity performance for 8-PSK modulated signals

GSM 850, ER-GSM 900 and GSM 900
Type of						Propagation conditions
channel						static	TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)	HT100 (no FH)
O-FACCH/F				(dBm)		-104	-100,5	-101,5	-101,5	-100
O-FACCH/H				(dBm)		-104	-100,5	-100,5	-101	-99
O-TCH/AHS12.2		(dBm)				-100,5	-94,5	-95	-94	-92,5
		Class Ib (RBER)				0,71	0,30	0,35	0,29	0,40
O-TCH/AHS10.2		(dBm)				-101	-95,5	-96	-95	-93,5
		Class Ib (RBER)				0,35	0,15	0,15	0,13	0,19
O-TCH/AHS7.95		(dBm)				-102,5	-96,5	-97	-96,5	-94,5
		Class Ib (RBER)				0,10	0,08	0,08	0,05	0,10
O-TCH/AHS7.4				(dBm)		-102,5	-97,5	-97,5	-97	-95
		Class Ib (RBER)				0,16	0,15	0,15	0,12	0,17
O-TCH/AHS6.7				(dBm)		-103	-98	-98,5	-97,5	-95,5
		Class Ib (RBER)				0,22	0,14	0,15	0,12	0,16
O-TCH/AHS5.9				(dBm)		-103,5	-98	-98,5	-98,5	-96,5
		Class Ib (RBER)				0,57	0,20	0,19	0,15	0,25
O-TCH/AHS5.15				(dBm)		-104	-98,5	-99	-98,5	-97
		Class Ib (RBER)				0,15	0,10	0,08	0,07	0,11
O-TCH/AHS4.75				(dBm)		-104	-99,5	-99,5	-99,5	-97,5
		Class Ib (RBER)				0,18	0,15	0,11	0,11	0,10
O-TCH/AHS-INB				(FER)		-103,5	-99	-99,5	-98,5	-98
O-TCH/AHS				(EVSIDUR)		-104	-100,5	-101,5	-101,5	-99
O-TCH/AHS				(EVRFR)		-104	-101	-101,5	-101,5	-99
O-TCH/WFS23.85				(dBm)		-100,5	-95	-96,5	-97	-94,5
	Class 1b (RBER)					1,00	0,16	0,28	0,24	0,28
O-TCH/WFS15.85				(dBm)		-102,5	-97,5	-99	-100,5	-97
	Class 1b (RBER)					0,50	0,44	0,33	0,64	0,50
O-TCH/WFS12.65				(dBm)		-104	-99	-100	-101	-98,5
	Class Ib (RBER)					0,89	0,37	0,21	0,51	0,59
O-TCH/WFS8.85				(dBm)		-104	-100,5	-102	-102,5	-100,5
	Class Ib (RBER)					0,77	0,31	0,22	0,42	0,48
O-TCH/WFS6.60				(dBm)		-104	-101,5	-103	-103,5	-101,5
	Class Ib (RBER)					0,05	0,18	0,12	0,23	0,27
O-TCH/WFS-INB				(dBm)		-104	-103,5	-103,5	-104	-103
O-TCH/WFS				(EVSIDUR)		-104	-100	-102	-101	-99,5
O-TCH/WFS				(EVRFR)		-104	-101	-103	-103	-101
O-TCH/WHS12.65					(dBm)	-100,5	-94,5	-95	-93,5	-92,5
			Class Ib (RBER)			0,57	0,30	0,38	0,30	0,40
O-TCH/ WHS8.85					(dBm)	-102,5	-96	-96,5	-96	-94
			Class Ib (RBER)			0,19	0,10	0,11	0,10	0,13
O-TCH/ WHS6.60					(dBm)	-103	-98	-98,5	-97,5	-96
			Class Ib (RBER)			0,23	0,15	0,15	0,13	0,19

DCS 1 800 & PCS 1 900
Type of					Propagation conditions
channel					TU50 (no FH)	HT100 (no FH)
O-FACCH/F			(dBm)		-100,5	-100
O-FACCH/H			(dBm)		-100	-99
O-TCH/AHS12.2		(dBm)			-94,5	-92
		Class Ib (RBER)			0,30	0,42
O-TCH/AHS10.2		(dBm)			-95,5	-93
		Class Ib (RBER)			0,17	0,20
O-TCH/AHS7.95		(dBm)			-96,5	-94
		Class Ib (RBER)			0,08	0,08
O-TCH/AHS7.4			(dBm)		-97	-94,5
		Class Ib (RBER)			0,15	0,17
O-TCH/AHS6.7			(dBm)		-98	-95,5
		Class Ib (RBER)			0,16	0,19
O-TCH/AHS5.9			(dBm)		-98,5	-96
		Class Ib (RBER)			0,22	0,24
O-TCH/AHS5.15			(dBm)		-99	-97
		Class Ib (RBER)			0,11	0,12
O-TCH/AHS4.75			(dBm)		-99,5	-97,5
		Class Ib (RBER)			0,15	0,17
O-TCH/AHS-INB			(FER)		-99	-97,5
O-TCH/AHS			(EVSIDUR)		-97,5	-99
O-TCH/AHS			(EVRFR)		-101	-99
O-TCH/WFS23.85			(dBm)		-96	-94
	Class 1b (RBER)				0,17	0,26
O-TCH/WFS15.85			(dBm)		-98,5	-97
	Class 1b (RBER)				0,50	0,60
O-TCH/WFS12.65			(dBm)		-100	-98,5
	Class Ib (RBER)				0,45	0,63
O-TCH/WFS8.85			(dBm)		-102	-100,5
	Class Ib (RBER)				0,38	0,57
O-TCH/WFS6.60			(dBm)		-102,5	-101,5
	Class Ib (RBER)				0,20	0,30
O-TCH/WFS-INB			(dBm)		-103	-102,5
O-TCH/WFS			(EVSIDUR)		-101	-99
O-TCH/WFS			(EVRFR)		-102,5	-101
O-TCH/WHS12.65				(dBm)	-94,5	-92
	Class Ib (RBER)				0,34	0,44
O-TCH/ WHS8.85			(dBm)		-96	-94
	Class Ib (RBER)				0,12	0,15
O-TCH/ WHS6.60			(dBm)		-98	-95,5
	Class Ib (RBER)				0,16	0,19

NOTE 1: Definitions:

FER: Frame erasure rate (frames marked with BFI=1)

EVSIDUR: Erased Valid SID_UPDATE frame rate associated to an adaptive speech traffic channel

EVRFR: Erased Valid RATSCCH frame rate associated to an adaptive speech traffic channel. This relates to the erasure of the RATSCCH message due to the failure to detect the RATSCCH identifier or due to a CRC failure.

BER: Bit error rate.

RBER: Residual bit error rate.

O-TCH/AxS-INB and O-TCH/WxS-INB FER: The frame error rate for the in-band channel. Valid for both Mode Indication and Mode Command/Mode Request. When testing all four code words shall be used an equal amount of time and the mode of both in-band channels (Mode Indication and Mode Command/Mode Request) shall be changed to a neighbouring mode not more often than every 22 speech frames (440 ms).

NOTE 2: FER for CCHs takes into account frames which are signalled as being erroneous (by the FIRE code, parity bits, or other means) or where the stealing flags are wrongly interpreted.

NOTE 3: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz.

NOTE 4: The requirements for DCS 1800 & PCS 1900 on TU50 (ideal FH) propagation conditions are the same as for TU50 (no FH).

The requirements for the DCS 1800 & PCS 1900 Static propagation condition are the same as for the GSM 850 & GSM 900 Static propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

NOTE 5: As a minimum the test of performance shall include all propagation conditions for maximum implemented codec rate and the remaining implemented codec rates for one propagation condition only, e.g. TU50 (no FH).

NOTE 6: For O-TCH/WHS, the performance requirements for inband signalling, SID_UPDATE and RATSCCH are the same as those of O-TCH/AHS. It is sufficient to test inband signalling, SID_UPDATE and RATSCCH requirements for only one of the channel types O-TCH/AHS and O-TCH/WHS.

Table 1h: Input signal level at reference performance for FLO

GSM 900 and GSM 850
FLO Configuration			Propagation conditions
			Static		TU50 (no FH)		TU50 (ideal FH)		RA250 (no FH)		HT100 (no FH)
Reference TFC 1	(dBm)		-104,0		-102,0		⁽²⁾		-103,0		-101,5
Reference TFC 2	(dBm)		-104,0		-100,5		⁽²⁾		-100,5		-99,5
Reference TFC 3	(dBm)		-104,0		-100,5		⁽²⁾		-102,0		-101,0
Reference TFC 4		(dBm)		-102,0	-96,0	-96,0		-97,0		-94,0
Reference TFC 5		(dBm)		-101,5	-96,0	-97,5		-98,0		-95,5
Reference TFC 6		(dBm)		-100,0	-94,0	-94,0		-91,5		-91,5
Reference TFC 7		(dBm)		-96,0	-88,5	-88,5		–		–
DCS 1 800 & PCS 1900
FLO Configuration			Propagation conditions
			Static		TU50 (no FH)		TU50 (ideal FH)		RA130 (no FH)		HT100 (no FH)
Reference TFC 1	(dBm)		⁽³⁾		-101,5		⁽³⁾		⁽³⁾		-101,5
Reference TFC 2	(dBm)		⁽³⁾		-100,0		⁽³⁾		⁽³⁾		-99,5
Reference TFC 3	(dBm)		⁽³⁾		-101,5		⁽³⁾		⁽³⁾		-101,0
Reference TFC 4		(dBm)		⁽³⁾	-95,5	⁽³⁾		⁽³⁾		-93,0
Reference TFC 5		(dBm)		⁽³⁾	-97,0	⁽³⁾		⁽³⁾		-95,0
Reference TFC 6		(dBm)		⁽³⁾	-94,0	⁽³⁾		⁽³⁾		-88,5
Reference TFC 7		(dBm)		⁽³⁾	-88,0	⁽³⁾		⁽³⁾		–
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: The requirements for GSM 900 & GSM 850 on TU50 (ideal FH) propagation conditions are the same as for TU50 (no FH) for Reference TFCs 1, 2 and 3. NOTE 3: The requirements for the DCS 1800 & PCS 1900 Static propagation condition are the same as for the GSM 850 & GSM 900 Static propagation condition, the requirements for the DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

Table 1i: Input signal level at reference performance for Repeated Downlink FACCH and Repeated SACCH

GSM 900, ER-GSM 900 and GSM 850
		Propagation conditions
		Static	TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)	HT100 (no FH)
FACCH/F	(dBm)	-104	-104	⁽²⁾	-104	-104
FACCH/H		[tbd]	[tbd]	⁽²⁾	[tbd]	[tbd]
SACCH		-104	-104	⁽²⁾	-104	-104
DCS 1 800 & PCS 1900
		Propagation conditions
		Static	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)	HT100 (no FH)
FACCH/F	(dBm)	⁽³⁾	-104	⁽³⁾	⁽³⁾	-104
FACCH/H		⁽³⁾	[tbd]	⁽³⁾	⁽³⁾	[tbd]
SACCH		⁽³⁾	-104	⁽³⁾	⁽³⁾	-104
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: The requirements for GSM 900 & ER-GSM 900 & GSM 850 on TU50 (ideal FH) propagation conditions are the same as for TU50 (no FH). NOTE 3: The requirements for the DCS 1800 & PCS 1900 Static propagation condition are the same as for the GSM 850 & GSM 900 Static propagation condition, the requirements for the DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

Table 1j: Input signal level at reference performance for Downlink Advanced Receiver Performance – phase II

GSM 900 and GSM 850
			Propagation conditions
			TU50 (noFH)		HT100 (noFH)
			Corr. = 0; AGI = 0	Corr.=0,7; AGI=-6dB	Corr. = 0; AGI = 0	Corr.=0,7; AGI=-6dB
TCH/FS	FER (dbm)		-105,0	-102,5	-105,0	-102,5
	Rber1b		0,07%	0,08%	0,08%	0,08%
	Rber2		4,79%	4,79%	6,10%	6,09%
TCH/AFS12.2	FER (dBm)		-105,0	-102,0	-105,0	-102,0
	Rber1b		0,66%	0,64%	0,98%	0,95%
TCH/AFS7.4	FER (dBm)		-105,0	-104,5	-105,0	-105,0
	Rber1b		0,18%	0,18%	0,22%	0,18%
TCH/AFS5.9	FER (dBm)		-105,0	-105,0	-105,0	-105,0
	Rber1b		0,15%	0,17%	0,19%	0,20%
TCH/AHS7.4	FER (dBm)		-104,0	-100,5	-103,0	-98,5
	Rber1b		0,56%	0,54%	0,57%	0,56%
	Rber2		2,50%	2,43%	2,44%	2,31%
TCH/AHS5.9	FER (dBm)		-105,0	-102,0	-104,0	-99,0
	Rber1b		0,39%	0,69%	0,72%	0,75%
	Rber2		4,22%	3,94%	3,99%	3,88%

PDTCH CS-1	BLER (dBm)		-105,0	-103,5	-105,0	-102,5
PDTCH CS-2	BLER (dBm)		-105,0	-101,5	-104,0	-100,0
PDTCH CS-3	BLER (dBm)		-103,5	-100,0	-102,0	-97,5
PDTCH CS-4	BLER (dBm)		-97,0	-93,0	-92,0	-88,0
PDTCH MCS-1	BLER (dBm)		-105,0	-103,0	-105,0	-101,0
PDTCH MCS-2	BLER (dBm)		-105,0	-102,0	-104,5	-100,0
PDTCH MCS-3	BLER (dBm)		-102,5	-99,0	-101,0	-95,5
PDTCH MCS-4	BLER (dBm)		-98,5	-95,0	-93,0	-89,0
PDTCH MCS-5	BLER (dBm)		-100,0	-97,0	-98,5	-94,0
PDTCH MCS-6	BLER (dBm)		-98,0	-94,5	-96,5	-91,5
PDTCH MCS-7	BLER (dBm)		-94,0	-90,5	-90,0	-86,0
PDTCH MCS-8	BLER (dBm) (30%)		-92,0**	-88,5**	-87,0**	-82,5**
PDTCH MCS-9	BLER (dBm) (30%)		-89,0**	– 85,5**	-81,0**	–
PDTCH DAS-5		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DAS-6		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DAS-7		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DAS-8		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DAS-9		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DAS-10		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DAS-11		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DAS-12		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-5		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-6		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-7		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-8		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-9		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-10		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-11		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-12		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
NOTE 1: Performance is specified at 30% BLER for those cases identified with mark ‘**’ NOTE 2: Performance is not specified for those cases identified with mark ‘-‘

Table 1j (Continued) :Input signal level at reference performance for Downlink Advanced Receiver Performance – phase II

DCS 1800 & PCS 1900
			Propagation conditions
			TU50 (noFH)		HT100 (noFH)
			Corr. = 0; AGI = 0	Corr.=0,7; AGI=-6dB	Corr. = 0; AGI = 0	Corr.=0,7; AGI=-6dB
TCH/FS	FER (dbm)		-105,0	-103,0	-105,0	-102,5
	Rber1b		0,08%	0,08%	0,08%	0,09%
	Rber2		6,01%	5,99%	5,95%	6,06%
TCH/AFS12.2	FER (dBm)		-105,0	-103,0	-105,0	-102,0
	Rber1b		0,92%	0,95%	0,93%	1,07%
TCH/AFS7.4	FER (dBm)		-105,0	-105,0	-105,0	-104,5
	Rber1b		0,18%	0,19%	0,25%	0,17%
TCH/AFS5.9	FER (dBm)		-105,0	-105,0	-105,0	-105,0
	Rber1b		0,21%	0,20%	0,20%	0,22%
TCH/AHS7.4	FER (dBm)		-104,0	-100,0	-102,5	-98,2
	Rber1b		0,57%	0,54%	0,64%	0,66%
	Rber2		2,50%	2,40%	2,46%	2,43%
TCH/AHS5.9	FER (dBm)		-105,0	-102,0	-104,5	-100,5
	Rber1b		0,41%	0,70%	0,77%	0,76%
	Rber2		4,22%	4,01%	3,93%	3,91%

PDTCH CS-1	BLER (dBm)		-105,0	-104,0	-105,0	-103,0
PDTCH CS-2	BLER (dBm)		-105,0	-101,5	-104,0	-100,0
PDTCH CS-3	BLER (dBm)		-103,5	-100,0	-102,0	-97,5
PDTCH CS-4	BLER (dBm)		-96,5	-92,5	-92,5	-85,5
PDTCH MCS-1	BLER (dBm)		-105,0	-103,5	-105,0	-101,0
PDTCH MCS-2	BLER (dBm)		-105,0	-102,0	-104,0	-100,0
PDTCH MCS-3	BLER (dBm)		-102,5	-99,0	-101,0	-96,0
PDTCH MCS-4	BLER (dBm)		-98,5	-94,5	-93,5	-87,0
PDTCH MCS-5	BLER (dBm)		-100,5	-97,5	-98,0	-93,5
PDTCH MCS-6	BLER (dBm)		-98,5	-95,0	-96,5	-90,5
PDTCH MCS-7	BLER (dBm)		-94,0	-90,5	-84,0	-79,0
PDTCH MCS-8	BLER (dBm) (30%)		-91,5**	-88,0**	-83,0**	-78,0**
PDTCH MCS-9	BLER (dBm) (30%)		-88,0**	-83,0**	–	–
PDTCH DAS-5		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DAS-6		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DAS-7		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DAS-8		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DAS-9		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DAS-10		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DAS-11		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DAS-12		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-5		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-6		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-7		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-8		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-9		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-10		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-11		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
PDTCH DBS-12		BLER (dBm)	[tbd]	[tbd]	[tbd]	[tbd]
NOTE 1: Performance is specified at 30% BLER for those cases identified with mark ‘**’ NOTE 2: Performance is not specified for those cases identified with mark ‘-‘

Table 1k: Input signal level (for normal BTS) at reference performance for 16-QAM modulated signals (Normal symbol rate and BTTI) (EGPRS2-A UL)

GSM 900 and GSM 850
Type of		Propagation conditions
channel		static	TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)	HT100 (no FH)
PDTCH/UAS-7	dBm	-97,5	-92	-93	-93,5	-91
PDTCH/UAS-8	dBm	-96,5	-91	-91,5	-90,5	-89
PDTCH/UAS-9	dBm	-96	-89	-89,5	-85,5	-86,5
PDTCH/UAS-10	dBm	-95	-87	-87	-84,5**	-86,5**
PDTCH/UAS-11	dBm	-93	-82,5	-82	*	-80,5**
DCS 1 800 and PCS 1900
Type of		Propagation conditions
channel		static	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)	HT100 (no FH)
PDTCH/UAS-7	dBm	⁽³⁾	-92,5	⁽³⁾	⁽³⁾	-85
PDTCH/UAS-8	dBm	⁽³⁾	-91	⁽³⁾	⁽³⁾	-87,5**
PDTCH/UAS-9	dBm	⁽³⁾	-89	⁽³⁾	⁽³⁾	-81,5**
PDTCH/UAS-10	dBm	⁽³⁾	-85	⁽³⁾	⁽³⁾	*
PDTCH/UAS-11	dBm	⁽³⁾	-86**	⁽³⁾	⁽³⁾	*
Performance is specified at 30% BLER for those cases identified with mark *. NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: PDTCH for UAS-x can not meet the reference performance for some propagation conditions (). NOTE 3: The requirements for the DCS 1800 & PCS 1900 Static propagation condition are the same as for the GSM 850 & GSM 900 Static propagation condition, the requirements for DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

Table 1l: Input signal level (for MS) at reference performance for 8-PSK, 16-QAM and 32-QAM modulated signals (Normal symbol rate, BTTI and turbo-coding) (EGPRS2-A DL)

GSM 900 and GSM 850
Type of		Propagation conditions
channel			static	TU50 (no FH)		TU50 (ideal FH)	RA250 (no FH)	HT100 (no FH)
PDTCH/DAS-5	dBm		-100	-94	-94,5		-95,5	-92
PDTCH/DAS-6	dBm		-98,5	-93	-94		-94	-90,5
PDTCH/DAS-7	dBm		-97,5	-92	-92,5		-91,5	-88
PDTCH/DAS-8	dBm		-95	-89,5	-90		-88,5	-82,5
PDTCH/DAS-9	dBm		-94	-87	-87,5		-82,5	-84,5**
PDTCH/DAS-10	dBm		-90	-83,5	-84		-82**	*
PDTCH/DAS-11	dBm		-88	-78,5	-79		*	*
PDTCH/DAS-12	dBm		-84	-76**	-76**		*	*
USF/DAS-5 to 7	dBm		⁽⁴⁾	⁽⁴⁾	⁽⁴⁾		⁽⁴⁾	⁽⁴⁾
USF/DAS-8 to 9	dBm		-104,0	-98,5	-101,0		-102,5	-100,0
USF/DAS-10 to 12	dBm		-104,0	-98,0	-99,0		-101,5	-99,0
(To be continued)

Table 1l: Input signal level (for MS) at reference performance for 8-PSK, 16-QAM and 32-QAM modulated signals (Normal symbol rate, BTTI and turbo-coding) (EGPRS2-A DL) (continued)

DCS 1800 and PCS 1900
Type of		Propagation conditions
channel		static	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)	HT100 (no FH)
PDTCH/DAS-5	dBm	⁽³⁾	-94	⁽³⁾	⁽³⁾	-92
PDTCH/DAS-6	dBm	⁽³⁾	-93,5	⁽³⁾	⁽³⁾	-90
PDTCH/DAS-7	dBm	⁽³⁾	-92	⁽³⁾	⁽³⁾	-84
PDTCH/DAS-8	dBm	⁽³⁾	-89	⁽³⁾	⁽³⁾	-88**
PDTCH/DAS-9	dBm	⁽³⁾	-86	⁽³⁾	⁽³⁾	-80,5**
PDTCH/DAS-10	dBm	⁽³⁾	-82,5	⁽³⁾	⁽³⁾	*
PDTCH/DAS-11	dBm	⁽³⁾	-78,5**	⁽³⁾	⁽³⁾	*
PDTCH/DAS-12	dBm	⁽³⁾	*	⁽³⁾	⁽³⁾	*
USF/DAS-5 to 7	dBm	⁽³⁾	⁽⁴⁾	⁽³⁾	⁽³⁾	⁽⁴⁾
USF/DAS-8 to 9	dBm	⁽³⁾	-100,0	⁽³⁾	⁽³⁾	-100,0
USF/DAS-10 to 12	dBm	⁽³⁾	-99,0	⁽³⁾	⁽³⁾	-99,0
Performance is specified at 30% BLER for those cases identified with mark *. NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: PDTCH for DAS-x can not meet the reference performance for some propagation conditions (). NOTE 3: The requirements for the DCS 1800 & PCS 1900 Static propagation condition are the same as for the GSM 850 & GSM 900 Static propagation condition, the requirements for DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition. NOTE 4: The requirements for USF/DAS-5 to 7 are the same as for USF/MCS-5 to 9.

Table 1m: Input signal level (for normal BTS) at reference performance for QPSK, 16-QAM and 32-QAM modulated signals (Higher symbol rate and BTTI) (EGPRS2-B UL)

GSM 900 and GSM 850
Type of				Propagation conditions
channel				static	TU50 (no FH)	TU50 (ideal FH)		RA250 (no FH)	HT100 (no FH)
Wanted signal Wide	PDTCH/UBS-5	dBm		-104,0	-104,0 / [tbd]	-104,0 / [tbd]	-104,0 / [tbd]		-104,0 / [tbd]
	PDTCH/UBS-6	dBm		-104,0	-104,0 / [tbd]	-104,0 / [tbd]	-104,0 / [tbd]		-103,5 / [tbd]
	PDTCH/UBS-7	dBm		-101,0	-99,5 / [tbd]	-100,5 / [tbd]	-101,5 / [tbd]		-98,5 / [tbd]
	PDTCH/UBS-8	dBm		-99,5	-97,5 / [tbd]	-98,5 / [tbd]	-99,5 / [tbd]		-95,5 / [tbd]
	PDTCH/UBS-9	dBm		-98,5	-96,5 / [tbd]	-97,0 / [tbd]	-97,5 / [tbd]		-93,0 / [tbd]
	PDTCH/UBS-10	dBm		-95,0	-92,5 / [tbd]	-93,0 / [tbd]	-93,0 / [tbd]		-93,5** / [tbd]
	PDTCH/UBS-11	dBm		-93,0	-90,0 / [tbd]	-90,0 / [tbd]	-92.5** / [tbd]		-89,5** / [tbd]
	PDTCH/UBS-12	dBm		-91,5	-88,5 / [tbd]	-88,5 / [tbd]	-90,0** / [tbd]		* / [tbd]
Wanted signal Narrow	PDTCH/UBS-5	dBm		-103,5	–	-103,5 / [tbd]	–		-103,5 / [tbd]
	PDTCH/UBS-6	dBm		-101,5	–	-101,5 / [tbd]	–		-101,0 / [tbd]
	PDTCH/UBS-7	dBm		-95,0	–	-95,0 / [tbd]	–		-92,5 / [tbd]
	PDTCH/UBS-8	dBm		-93,0	–	-92,5 / [tbd]	–		-88,0 / [tbd]
	PDTCH/UBS-9	dBm		-91,5	–	-91,5 / [tbd]	–		-85,0 / [tbd]
	PDTCH/UBS-10	dBm		-88,0	–	-87,0 / [tbd]	–		* / [tbd]
	PDTCH/UBS-11	dBm		-85,5	–	-82,0 / [tbd]	–		* / [tbd]
	PDTCH/UBS-12	dBm		-84,5	–	-80,0 / [tbd]	–		* / [tbd]
			(To be continued)

Table 1m: Input signal level (for normal BTS) at reference performance for QPSK, 16-QAM and 32-QAM modulated signals (Higher symbol rate and BTTI) (EGPRS2-B UL) (continued)

DCS 1 800 and PCS 1900

Type of

Propagation conditions

channel

static

TU50

(no FH)

TU50

(ideal FH)

RA130

(no FH)

HT100

(no FH)

Wanted signal
Wide

PDTCH/UBS-5

dBm

⁽³⁾

-104,0 / [tbd]

⁽³⁾

-104,0 / [tbd]

PDTCH/UBS-6

dBm

⁽³⁾

-104,0 / [tbd]

⁽³⁾

-104,0 / [tbd]

PDTCH/UBS-7

dBm

⁽³⁾

-100,5 / [tbd]

⁽³⁾

-97,5 / [tbd]

PDTCH/UBS-8

dBm

⁽³⁾

-98,5 / [tbd]

⁽³⁾

-97,0 / [tbd]

PDTCH/UBS-9

dBm

⁽³⁾

-97,0 / [tbd]

⁽³⁾

-94,5 / [tbd]

PDTCH/UBS-10

dBm

⁽³⁾

-92,5 / [tbd]

⁽³⁾

-91,5** / [tbd]

PDTCH/UBS-11

dBm

⁽³⁾

-88,5 / [tbd]

⁽³⁾

* / [tbd]

PDTCH/UBS-12

dBm

⁽³⁾

-86,5 / [tbd]

⁽³⁾

* / [tbd]

Wanted signal Narrow

PDTCH/UBS-5

dBm

⁽³⁾

–

⁽⁴⁾

–

-103,5 / [tbd]

PDTCH/UBS-6

dBm

⁽³⁾

–

⁽⁴⁾

–

-101,0 / [tbd]

PDTCH/UBS-7

dBm

⁽³⁾

–

⁽⁴⁾

–

-89,5 / [tbd]

PDTCH/UBS-8

dBm

⁽³⁾

–

⁽⁴⁾

–

-92,0** / [tbd]

PDTCH/UBS-9

dBm

⁽³⁾

–

⁽⁴⁾

–

-88,5** / [tbd]

PDTCH/UBS-10

dBm

⁽³⁾

–

⁽⁴⁾

–

* / [tbd]

PDTCH/UBS-11

dBm

⁽³⁾

–

⁽⁴⁾

–

* / [tbd]

PDTCH/UBS-12

dBm

⁽³⁾

–

⁽⁴⁾

–

* / [tbd]

Performance is specified at 30% BLER for those cases identified with mark **.

NOTE 2: PDTCH for UBS-x can not meet the reference performance for some propagation conditions (*).

NOTE 3: The requirements for the DCS 1800 & PCS 1900 Static propagation condition are the same as for the GSM 850 & GSM 900 Static propagation condition, the requirements for DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

NOTE 4: The requirements for the DCS 1800 & PCS 1900 TU50 (ideal FH) propagation condition are the same as for the GSM 850 & GSM 900 TU50 (ideal FH) propagation condition.

NOTE 5: For non-static conditions RX diversity requirements are given by the left numbers. Requirements without RX diversity are given by the right numbers.

Table 1n: Input signal level (for MS) at reference performance for QPSK, 16-QAM and 32-QAM modulated signals (Higher symbol rate, BTTI and turbo coding) (EGPRS2-B DL)

GSM 900 and GSM 850
Type of		Propagation conditions
channel		static	TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)	HT100 (no FH)
PDTCH/DBS-5	dBm	-100.5	-94,5	.-95,0	-98,0	-95,0
PDTCH/DBS-6	dBm	-100,0	-92,5	-92,5	-94,5	-90,0
PDTCH/DBS-7	dBm	-93,5	-88,0	-89,0	-90,0	*
PDTCH/DBS-8	dBm	-92,0	-85,5	-86,0	-85,0	*
PDTCH/DBS-9	dBm	-90,5	-83,0	-83,5	-80,0	*
PDTCH/DBS-10	dBm	-86,5	-77,5	-78,0	*	*
PDTCH/DBS-11	dBm	-84,5	-78,0**	-79,5**	*	*
PDTCH/DBS-12	dBm	-80,5	-75,0**	-76,0**	*	*
USF/DBS-5 to 6	dBm	[-104,0]	[-102,0]	[-102,5]	[-103,5]	[-102,5]
USF/DBS-7 to 9	dBm	[-104,0]	[-104,0]	[-104,0]	[-104,0]	[-104,0]
USF/DBS-10 to 12	dBm	[-104,0]	[-104,0]	[-104,0]	[-104,0]	[-104,0]
(To be continued)

Table 1n: Input signal level (for MS) at reference performance for QPSK, 16-QAM and 32-QAM modulated signals (Higher symbol rate, BTTI and turbo coding) (EGPRS2-B DL) (continued)

DCS 1 800 and PCS 1900
Type of		Propagation conditions
channel		static	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)	HT100 (no FH)
PDTCH/DBS-5	dBm	⁽³⁾	-94,5	⁽³⁾	⁽³⁾	-94,0
PDTCH/DBS-6	dBm	⁽³⁾	-92,0	⁽³⁾	⁽³⁾	-87,5
PDTCH/DBS-7	dBm	⁽³⁾	-88,0	⁽³⁾	⁽³⁾	*
PDTCH/DBS-8	dBm	⁽³⁾	-84,5	⁽³⁾	⁽³⁾	*
PDTCH/DBS-9	dBm	⁽³⁾	-83,0	⁽³⁾	⁽³⁾	*
PDTCH/DBS-10	dBm	⁽³⁾	-75,0	⁽³⁾	⁽³⁾	*
PDTCH/DBS-11	dBm	⁽³⁾	-75,0	⁽³⁾	⁽³⁾	*
PDTCH/DBS-12	dBm	⁽³⁾	*	⁽³⁾	⁽³⁾	*
USF/DBS-5 to 6	dBm	⁽³⁾	[-103,0]	⁽³⁾	⁽³⁾	[-103,0]
USF/DBS-7 to 9	dBm	⁽³⁾	[-104,0]	⁽³⁾	⁽³⁾	[-104,0]
USF/DBS-10 to 12	dBm	⁽³⁾	[-104,0]	⁽³⁾	⁽³⁾	[-104,0]
Performance is specified at 30% BLER for those cases identified with mark *. NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: PDTCH for DBS-x can not meet the reference performance for some propagation conditions (). NOTE 3: The requirements for the DCS 1800 & PCS 1900 Static propagation condition are the same as for the GSM 850 & GSM 900 Static propagation condition, the requirements for DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

Table 1o: Input signal level (for MS) at reference performance for GMSK, QPSK, 8-PSK, 16-QAM and 32-QAM modulated signals with PAN included;
BTTI and RTTI
(EGPRS2 DL and EGPRS DL)

All GSM bands
Type of			Propagation conditions
channel		Static
PDTCH/MCS-1	dBm	-104,0
PDTCH/MCS-2	dBm	-104,0
PDTCH/MCS-3	dBm	-101,5
PDTCH/MCS-5	dBm	-99,0
PDTCH/MCS-6	dBm	-97,0
PDTCH/MCS-7	dBm	-94,0
PDTCH/MCS-8	dBm	-90,5
PDTCH/DAS-5	dBm	-100,0
PDTCH/DAS-6	dBm	-99,0
PDTCH/DAS-7	dBm	-97,5
PDTCH/DAS-8	dBm	-95,5
PDTCH/DAS-9	dBm	-94,0
PDTCH/DAS-10	dBm	-91,0
PDTCH/DAS-11	dBm	-89,0
PDTCH/DAS-12	dBm	-84,5
PDTCH/DBS-5	dBm	[-102,5]
PDTCH/DBS-6	dBm	[-100,5]
PDTCH/DBS-7	dBm	[-97,0]
PDTCH/DBS-8	dBm	[-94,5]
PDTCH/DBS-9	dBm	[-92,5]
PDTCH/DBS-10	dBm	[-88,5]
PDTCH/DBS-11	dBm	[-84,0]
PDTCH/DBS-12	dBm	[-77,5]

Table 1p: Input signal level (for normal BTS) at reference performance for GMSK, QPSK, 8-PSK, 16-QAM and 32-QAM modulated signals with PAN included;
BTTI and RTTI
(EGPRS2 UL and EGPRS UL)

All GSM bands
Type of		Propagation condition
channel		Static
PDTCH/MCS-1	dBm	-104
PDTCH/MCS-2	dBm	-104
PDTCH/MCS-3	dBm	-104
PDTCH/MCS-5	dBm	-101
PDTCH/MCS-6	dBm	-99,5
PDTCH/MCS-7	dBm	-96
PDTCH/MCS-8	dBm	-93
PDTCH/UAS-7	dBm	-97
PDTCH/UAS-8	dBm	-96,5
PDTCH/UAS-9	dBm	-95,5
PDTCH/UAS-10	dBm	-94,5
PDTCH/UAS-11	dBm	-92,5
PDTCH/UBS-5	dBm	-104
PDTCH/UBS-6	dBm	-104
PDTCH/UBS-7	dBm	-101
PDTCH/UBS-8	dBm	-99,5
PDTCH/UBS-9	dBm	-98,5
PDTCH/UBS-10	dBm	-95
PDTCH/UBS-11	dBm	-92
PDTCH/UBS-12	dBm	-89,5

Table 1q: Input signal level (for normal BTS) at reference performance of PAN for GMSK, QPSK, 8-PSK, 16-QAM and 32-QAM modulated signals (EGPRS2 UL and EGPRS UL);
BTTI and RTTI

All GSM bands
Type of		Propagation conditions
channel		Static
PDTCH/MCS-1 to 3	dBm	-104
PDTCH/MCS-5 to 6	dBm	-104
PDTCH/MCS-7	dBm	-104
PDTCH/MCS-8	dBm	-104
PDTCH/UAS-7 to 9	dBm	-104
PDTCH/UAS-10	dBm	-104
PDTCH/UAS-11	dBm	-104
PDTCH/UBS-5 to 6	dBm	-104
PDTCH/UBS-7 to 8	dBm	-104
PDTCH/UBS-9	dBm	-104
PDTCH/UBS-10	dBm	-104
PDTCH/UBS-11 to 12	dBm	-104

Table 1r: Input signal level (for MS) at reference performance of PAN for GMSK, QPSK, 8-PSK, 16-QAM and 32-QAM modulated signals (EGPRS2 DL and EGPRS DL) ;
BTTI and RTTI

All GSM bands
Type of		Propagation conditions
channel		Static
PDTCH/MCS-1 to 3	dBm	-104,0
PDTCH/MCS-5 to 6	dBm	-101,5
PDTCH/MCS-7	dBm	-101,0
PDTCH/MCS-8	dBm	-100,5
PDTCH/DAS-5 to 7	dBm	(note 1)
PDTCH/DAS-8 to 9	dBm	-101,0
PDTCH/DAS-10	dBm	-99,0
PDTCH/DAS-11	dBm	-98,0
PDTCH/DAS-12	dBm	-98,0
PDTCH/DBS-5 to 6	dBm	[-104,0]
PDTCH/DBS-7 to 8	dBm	[-101,0]
PDTCH/DBS-9	dBm	[-101,0]
PDTCH/DBS-10	dBm	[-97,5]
PDTCH/DBS-11 to 12	dBm	[-95,0]
NOTE 1: The requirement for PDTCH/DAS-5 to 7 is the same as PDTCH/MCS-5 to 6.

Table 1s: Input signal level for VAMOS I MS at reference performance for speech channels in VAMOS mode

Type of channel		Propagation conditions: TU50 no FH
Type of channel		GSM 900 and GSM 850			DCS 1800 & PCS 1900
SCPIR_DL		+4 dB	0 dB	-4 dB	+4 dB	0 dB	-4 dB
TCH/HS	FER (dBm)	-99	-96,5	-92,5	-98,5	-96	-92,5
	RBER1b	0,31 %	0,2 %	0,2%	0,27 %	0,27 %	0,2 %
	RBER2	5,7 %	6,1 %	5,6 %	5,4 %	5,3 %	5.5 %
TCH/EFS	FER (dBm)	-97,5	-95	-92	-98,5	-96	-92,5
	RBER1b	0,04 %	0,05 %	0,05 %	0,05 %	0,05 %	0,1 %
	RBER2	3,6 %	4,2 %	4,01 %	4,5 %	5,3 %	5 %
TCH/AFS12.2	FER (dBm)	-97,5	-94,5	-91,5	-98,5	-96	-92,5
	RBER1b	0,6 %	0,5 %	0,6 %	0,7 %	0,9 %	0,7 %
TCH/AFS4.75	FER (dBm)	-103	-101	-98	-104	-101,5	-98,5
	RBER1b	0,1 %	0,15 %	0,17 %	0,17 %	0,15 %	0,2 %
TCH/AHS7.4	FER (dBm)	-95	-92,5	-89	-95	-92	-88,5
	RBER1b	0,15 %	0,2 %	0,17 %	0,15 %	0,2 %	0,2 %
	RBER2	1,8 %	2,3 %	2 %	1,7 %	2,3 %	2 %
TCH/AHS4.75	FER (dBm)	-99,5	-97	-94	-100	-96,5	-93,5
	RBER1b	0,2 %	0,2 %	0,2 %	0,16 %	0,15 %	0,2 %
	RBER2	5,88 %	6,6 %	6,74 %	5,9 %	5,9 %	6 %
TCH/WFS12.65	FER (dBm)	-97,5	-94,5	-91,5	-98,5	-96	-92,5
	RBER1b	0,4 %	0,4 %	0,3 %	0,6 %	0,7 %	0,5 %
TCH/WFS6.60	FER (dBm)	-101	-98,5	-94	-102	-99,5	-96,5
	RBER1b	0,2 %	0,26 %	0,23 %	0,25 %	0,36 %	0,32 %
FACCH/F	FER	-100	-97	-93,5	-100,5	-98	-94,5
FACCH/H	FER	-100	-97	-94	-100	-97	-94
SACCH	FER	-100	-97	-93,5	-100	-97	-93,5
Repeated FACCH/F	FER	–	-98,5	–	–	-99	–
Repeated SACCH	FER	–	-100,5	–	–	-100,5	–

Table 1t: Input signal level for VAMOS II MS at reference performance for speech channels in VAMOS mode

GSM 900 and GSM 850
Type of channel			Propagation conditions
Type of channel			TU50 no FH
SCPIR_DL		+4 dB		0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dBm)	-100		-97,5	-96,5	-93,5	-91,5
	RBER1b	0,12 %		0,12 %	0,11 %	0,15 %	0,15 %
	RBER2	5,27 %		4,94 %	4,84 %	5,65 %	5,98 %
TCH/EFS	FER (dBm)	-99		-97	-96	-92,5	-90,5
	RBER1b	0,03 %		0,03 %	0,06 %	0,04 %	0,03 %
	RBER2	4,31 %		3,93 %	4,21 %	4,52 %	4,81 %
TCH/AFS12.2	FER (dBm)	-99,5		-97	-95,5	-92,5	-91
	RBER1b	0,74 %		0,62 %	0,46 %	0,51 %	0,93 %
TCH/AFS4.75	FER (dBm)	-104,5		-103	-101,5	-98,5	-96,5
	RBER1b	0,11 %		0,17 %	0,15 %	0,15 %	0,11 %
TCH/AHS7.4	FER (dBm)	-97		-94,5	-93	-90,5	-88
	RBER1b	0,26 %		0,22 %	0,12 %	0,23 %	0,25 %
	RBER2	2,67 %		2,41 %	1,91 %	2,77 %	2,95 %
TCH/AHS4.75	FER (dBm)	-101		-99	-97,5	-94,5	-92,5
	RBER1b	0,12 %		0,19 %	0,14 %	0,16 %	0,13 %
	RBER2	6,1 %		6,63 %	6,01 %	6,2 %	6,9 %
TCH/WFS12.65	FER (dBm)	-99		-97	-95,5	-92,5	-91
	RBER1b	0,35 %		0,51 %	0,36 %	0,38 %	0,66 %
TCH/WFS6.60	FER (dBm)	-102		-99,5	-99	-96,5	-94,5
	RBER1b	0,25 %		0,24 %	0,17 %	0,27 %	0,17 %
FACCH/F	FER	-100		-97,5	-96	-93,5	-91,5
FACCH/H	FER	-100		-98	-96,5	-93,5	-91,5
SACCH	FER	-100		-97,5	-96	-93	-91
Repeated FACCH/F	FER	–		-101	–	–	–
Repeated SACCH	FER	–		-102,5	–	–	–

DCS 1800 & PCS 1900
Type of channel		Propagation conditions
Type of channel		TU50 no FH
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dBm)	-99	-97	-95,5	-91,5	-90
	RBER1b	0,23 %	0,17 %	0,2 %	0,21 %	0,23 %
	RBER2	6,01 %	5,57 %	5,5 %	5,68 %	5,98 %
TCH/EFS	FER (dBm)	-99,5	-98	-96	-92,5	-90,5
	RBER1b	0,07 %	0,06 %	0,06 %	0,06 %	0,06 %
	RBER2	5,18 %	5,13 %	5,09 %	5,66 %	6,14 %
TCH/AFS12.2	FER (dBm)	-99,5	-98	-96	-92,5	-90,5
	RBER1b	0,94 %	1,06 %	0,77 %	0,92 %	0,94 %
TCH/AFS4.75	FER (dBm)	-105,5	-103,5	-101,5	-98	-96,5
	RBER1b	0,2 %	0,17 %	0,18 %	0,16 %	0,2 %
TCH/AHS7.4	FER (dBm)	-96	-94,5	-92	-88,5	-86
	RBER1b	0,17 %	0,24 %	0,16 %	0,18 %	0,22 %
	RBER2	1,9 %	2,35 %	1,79 %	2,46 %	2,85 %
TCH/AHS4.75	FER (dBm)	-100,5	-98,5	-96,5	-93	-91
	RBER1b	0,17 %	0,15 %	0,12 %	0,15 %	0,15 %
	RBER2	6,12 %	5,79 %	5,76 %	6,55 %	6,6 %
TCH/WFS12.65	FER (dBm)	-99,5	-98	-96	-92,5	-90,5
	RBER1b	0,53 %	0,82 %	0,59 %	0,64 %	0,72 %
TCH/WFS6.60	FER (dBm)	-103,5	-100	-99,5	-96,5	-94,5
	RBER1b	0,33 %	0,31 %	0,18 %	0,24 %	0,26 %
FACCH/F	FER	-100,5	-98,5	-97	-94	-92
FACCH/H	FER	-100	-98	-96,5	-93	-91
SACCH	FER	-100	-97,5	-96	-92,5	-90,5
Repeated FACCH/F	FER	–	-101,5	–	–	–
Repeated SACCH	FER	–	-102,5	–	–	–

Table 1u: Performance requirement for VAMOS II MS for downlink DTX scenario according to subclause Q.6

SCPIR_DL = -10 dB, TU 50 noFH
Type of channel		GSM 900 and GSM 850	DCS 1800 & PCS 1900
TCH/AHS 7.4	FER (dBm)	-88	-87
	RBER1b (%)	0,25	0,28
	RBER2 (%)	2,28	2,7

Table 1v: Input signal level for normal BTS at reference performance for speech and associated control channels in VAMOS mode

Type of channel		Propagation conditions: TU 50 no FH
Type of channel		GSM 900 and GSM 850			DCS 1800 & PCS 1900
SCPIR_UL		0 dB	-10 dB	0 dB		-10 dB
TCH/HS	FER (dBm)	-108	-108.5	-107.5		-108
	Rber1b	0.21%	0.16%	0.19%		0.15%
	Rber2	5.48%	5.00%	5.10%		5.00%
TCH/EFS	FER (dBm)	-106.5	-107	-106.5		-106.5
	Rber1b	0.04%	0.04%	0.04%		0.04%
	Rber2	3.52%	3.60%	3.95%		4.20%
TCH/AFS 12.2	FER (dBm)	-106.5	-107.5	-106.5		-107
	Rber1b	0.45%	0.52%	0.60%		0.67%
TCH/AFS 4.75	FER (dBm)	-112	–	-113		–
	Rber1b	0.14%	–	0.17%		–
TCH/AHS 7.4	FER (dBm)	-104	-105	-103.5		-103.5
	Rber1b	0.16%	0.18%	0.16%		0.29%
	Rber2	1.54%	2.10%	1.55%		2.12%
TCH/AHS 4.75	FER (dBm)	-108.5	–	-108.5		–
	Rber1b	0.18%	–	0.18%		–
	Rber2	6.30%	–	6.59%		–
TCH/WFS 12.65	FER (dBm)	-106.5	-107.5	-106.5		-107
	Rber1b	0.40%	0.40%	0.41%		0.48%
TCH/WFS 6.60	FER (dBm)	-110.5	–	-111		–
	Rber1b	0.20%	–	0.21%		–
FACCH/F	FER	-108.5	–	-109		–
FACCH/H	FER	-108.5	–	-108.5		–
SACCH	FER	-108.5	–	-108.5		–
Repeated SACCH	FER	-113.5	–	-113		–

Table 1w: Input signal level (for MS) at reference performance for TIGHTER

GSM 900 and GSM 850
Type of			Propagation conditions
Channel				Static			TU50 (no FH)			TU50 (ideal FH)			RA250 (no FH)			HT100 (no FH)
FACCH/H		dBm	-110			-106			-106			-106,5			-105
FACCH/F		dBm	-110			-105,5			-106,5			-106,5			-105,5
SDCCH		dBm	-110			-104,5			-105,5			-105,5			-104,5
SCH		dBm	-110			-101			-101			-98			-100,5
TCH/FS		dBm	-109,5			-103			-105			-105			-103
	RBER1b (%)				0,07			0,06			0,07			0,07			0,06
	RBER2 (%)				6,58			4,1			6,13			6,55			5,49
TCH/EFS	dBm				-109			-103			-105			-105			-103,5
	RBER1b (%)				0,03			0,03			0,09			0,06			0,04
	RBER2 (%)				6,22			3,29			5,87			6,19			5,34
TCH/HS	dBm				-109,5			-104			-104			-104			-102,5
	RBER1b (%)				0,2			0,24			0,22			0,15			0,22
	RBER2 (%)				5,48			5,09			5,76			5,83			5,12
TCH/AFS12.2	dBm				-109,5			⁽⁴⁾			-105			-105,5			-104
	RBER1b (%)				2,12			⁽⁴⁾			0,88			1,38			1,12
TCH/AFS10.2	dBm				-110			⁽⁴⁾			-106			-106,5			-105
	RBER1b (%)				0,5			⁽⁴⁾			0,15			0,31			0,18
TCH/AFS7.95	dBm				–			⁽⁴⁾			-108			-108,5			-107
	RBER1b (%)				–			⁽⁴⁾			0,37			0,57			0,41
TCH/AFS7.4	dBm				–			⁽⁴⁾			-108			-108,5			-107
	RBER1b (%)				–			⁽⁴⁾			0,17			0,18			0,17
TCH/AFS6.7	dBm				–			⁽⁴⁾			-108,5			-109			-108
	RBER1b (%)				–			⁽⁴⁾			0,63			0,79			0,58
TCH/AFS5.9	dBm				–			⁽⁴⁾			-109			-109,5			-108,5
	RBER1b (%)				–			⁽⁴⁾			0,156			0,19			0,19
TCH/AFS5.15	dBm				–			⁽⁴⁾			-109,5			-110			-109
	RBER1b (%)				–			⁽⁴⁾			0,23			0,32			0,33
TCH/AFS4.75	dBm				–			⁽⁴⁾			-110			-110			-108,5
	RBER1b (%)				–			⁽⁴⁾			0,19			0,16			0,15
TCH/AHS7.95	dBm				-107,5			⁽⁴⁾			-101			-98,5			-99
	RBER1b (%)				0,79			⁽⁴⁾			0,44			0,44			0,43
	RBER2 (%)				3,58			⁽⁴⁾			2,06			1,91			2
TCH/AHS7.4	dBm				-108			⁽⁴⁾			-101,5			-99,5			-100
	RBER1b (%)				0,44			⁽⁴⁾			0,23			0,19			0,23
	RBER2 (%)				4,14			⁽⁴⁾			2,49			2,35			2,37
TCH/AHS6.7	dBm				-109			⁽⁴⁾			-102,5			-101,5			-101,5
	RBER1b (%)				0,58			⁽⁴⁾			0,3			0,29			0,28
	RBER2 (%)				5,51			⁽⁴⁾			3,44			3,42			3,35
TCH/AHS5.9	dBm				-109,5			⁽⁴⁾			-103,5			-103			-102,5
	RBER1b (%)				0,33			⁽⁴⁾			0,17			0,17			0,17
	RBER2 (%)				6,59			⁽⁴⁾			4,27			4,24			4,08
TCH/AHS5.15	dBm				-110			⁽⁴⁾			-104,5			-104,5			-104
	RBER1b (%)				0,78			⁽⁴⁾			0,25			0,33			0,32
	RBER2 (%)				8,36			⁽⁴⁾			5,16			5,82			5,41
TCH/AHS4.75	dBm				-111			⁽⁴⁾			-105			-104,5			-103,5
	RBER1b (%)				0,38			⁽⁴⁾			0,14			0,13			0,13
	RBER2 (%)				10,33			⁽⁴⁾			6,32			5,99			5,91
TCH/WFS12.65	dBm				-109			-103,5			⁽³⁾			-105			-102
	RBER1b (%)				0,5			0,35			⁽³⁾			0,72			0,62
TCH/ WFS8.85	dBm				-109			-102			⁽³⁾			-108			-105
	RBER1b (%)				0,5			0,38			⁽³⁾			0,72			0,62
TCH/ WFS6.60	dBm				-109			-103			⁽³⁾			-108			-106,5
	RBER1b (%)				0,24			0,15			⁽³⁾			0,19			0,24
PDTCH/CS-1	dBm				-105			-106			-106			-105,5			-104,5
PDTCH/CS-2	dBm				-105			-102			-103			-102,5			-100,5
PDTCH/CS-3	dBm				-105			-100			-101			-99,5			-97,5
PDTCH/CS-4	dBm				-102			-92			-92			–			–
PDTCH/MCS-1	dBm				-105,5			-105			-105,5			-105,5			-103
PDTCH/MCS-2	dBm				-105,5			-103			-103,5			-103			-101
PDTCH/MCS-3	dBm				-105,5			-99			-99			-95			-96,5
PDTCH/MCS-4	dBm				-103			-93,5			-93,5			–			–
PDTCH/MCS-5	dBm				-101,5			-97,5			-98,5			-99			-97,5
PDTCH/MCS-6	dBm				-99,5			-95,5			-96			-94			-94,5
PDTCH/MCS-7	dBm				-96,5			-88,5			-88,5			–			-88,5**
PDTCH/MCS-8	dBm				-94			-87,5**			-87,5**			–			–
PDTCH/MCS-9	dBm				-89,5			-83**			-83**			–			–
PDTCH/DAS-5	dBm				[-103,5]			[-97,5]			[-98]			[-98,5]			[-98]
PDTCH/DAS-6	dBm				[-102]			[-96,5]			[-97,5]			[-97]			[-96,5]
PDTCH/DAS-7	dBm				[-101]			[-95,5]			[-96]			[-94,5]			[-94]
PDTCH/DAS-8	dBm				[-98]			[-93]			[-93,5]			[-91,5]			[-88,5]
PDTCH/DAS-9	dBm				[-97]			[-90,5]			[-91]			[-85,5]			[-90,5**]
PDTCH/DAS-10	dBm				[-93,5]			[-87,5]			[-88]			[-87**]			–
PDTCH/DAS-11	dBm				[-91,5]			[-82,5]			[-83]			–			–
PDTCH/DAS-12	dBm				[-87,5]			[-80**]			[-80**]			–			–
PDTCH/DBS-5	dBm				[-103,5]			[-99]			[-100]			[-98]			[-98,5]
PDTCH/DBS-6	dBm				[-103]			[-97]			[-97,5]			[-94,5]			[-93,5]
PDTCH/DBS-7	dBm				[-96]			[-91,5]			[-92]			[-90] ⁽⁵⁾			–
PDTCH/DBS-8	dBm				[-94,5]			[-89]			[-89]			[-85] ⁽⁵⁾			–
PDTCH/DBS-9	dBm				[-93]			[-86,5]			[-86,5]			[-80] ⁽⁵⁾			–
PDTCH/DBS-10	dBm				[-89]			[-80,5]			[-78] ⁽⁵⁾			–			–
PDTCH/DBS-11	dBm				[-87]			[-81**]			[-79,5**] ⁽⁵⁾			–			–
PDTCH/DBS-12	dBm				[-83]			[-78**]			[-76**] ⁽⁵⁾			–			–
(Continued)

Table 1w (continued): Input signal level (for MS) at reference performance for TIGHTER

DCS 1 800 and PCS 1900

Type of

Propagation conditions

channel

Static

TU50

(no FH)

TU50

(ideal FH)

RA130

(no FH)

HT100

(no FH)

FACCH/H

dBm

⁽³⁾

-106

-106,5

-105

FACCH/F

dBm

⁽³⁾

-106

-106,5

-105,5

SDCCH

dBm

⁽³⁾

-105

-105,5

-104,5

SCH

dBm

⁽³⁾

-100,5

-98

-100

TCH/FS

dBm

⁽³⁾

-104

-102,5

RBER1b (%)

⁽³⁾

0,06

0,04

0,06

RBER2 (%)

⁽³⁾

5,44

5,72

5,75

5,64

TCH/EFS

dBm

⁽³⁾

-104

-104,5

-103

RBER1b (%)

⁽³⁾

0,04

0,11

0,06

0,18

RBER2 (%)

⁽³⁾

4,92

6,17

6,07

6,85

TCH/HS

dBm

⁽³⁾

-104

-103,5

-102,5

RBER1b (%)

⁽³⁾

0,21

0,22

0,15

0,22

RBER2 (%)

⁽³⁾

5,95

5,87

4,87

5,26

TCH/AFS12.2

dBm

⁽³⁾

⁽⁴⁾

-105

-105,5

-103,5

RBER1b (%)

⁽³⁾

⁽⁴⁾

1,23

1,38

0,9

TCH/AFS10.2

dBm

⁽³⁾

⁽⁴⁾

-106

-106,5

-105

RBER1b (%)

⁽³⁾

⁽⁴⁾

0,17

0,3

0,27

TCH/AFS7.95

dBm

⁽³⁾

⁽⁴⁾

-108

-108,5

-107

RBER1b (%)

⁽³⁾

⁽⁴⁾

0,36

0,57

0,42

TCH/AFS7.4

dBm

⁽³⁾

⁽⁴⁾

-108

-108,5

-107

RBER1b (%)

⁽³⁾

⁽⁴⁾

0,17

0,27

0,15

TCH/AFS6.7

dBm

⁽³⁾

⁽⁴⁾

-108,5

-109

-108

RBER1b (%)

⁽³⁾

⁽⁴⁾

0,62

0,79

0,62

TCH/AFS5.9

dBm

⁽³⁾

⁽⁴⁾

-109

-109,5

-108,5

RBER1b (%)

⁽³⁾

⁽⁴⁾

0,15

0,19

0,23

TCH/AFS5.15

dBm

⁽³⁾

⁽⁴⁾

-109,5

-110

-109

RBER1b (%)

⁽³⁾

⁽⁴⁾

0,23

0,32

0,33

TCH/AFS4.75

dBm

⁽³⁾

⁽⁴⁾

-110

-108,5

RBER1b (%)

⁽³⁾

⁽⁴⁾

0,2

0,19

TCH/AHS7.95

dBm

⁽³⁾

⁽⁴⁾

-100,5

-98,5

RBER1b (%)

⁽³⁾

⁽⁴⁾

0,44

0,4

0,47

RBER2 (%)

⁽³⁾

⁽⁴⁾

2,08

1,8

2,11

TCH/AHS7.4

dBm

⁽³⁾

⁽⁴⁾

-101,5

-99,5

RBER1b (%)

⁽³⁾

⁽⁴⁾

0,22

0,14

0,23

RBER2 (%)

⁽³⁾

⁽⁴⁾

2,51

2,08

2,58

TCH/AHS6.7

dBm

⁽³⁾

⁽⁴⁾

-102,5

-101,5

-101

RBER1b (%)

⁽³⁾

⁽⁴⁾

0,31

0,3

0,29

RBER2 (%)

⁽³⁾

⁽⁴⁾

3,51

3,0

3,54

TCH/AHS5.9

dBm

⁽³⁾

⁽⁴⁾

-103,5

-103

-102,5

RBER1b (%)

⁽³⁾

⁽⁴⁾

0,17

0,19

RBER2 (%)

⁽³⁾

⁽⁴⁾

4,31

4,22

4,26

TCH/AHS5.15

dBm

⁽³⁾

⁽⁴⁾

-104,5

-103,5

RBER1b (%)

⁽³⁾

⁽⁴⁾

0,25

0,23

0,34

RBER2 (%)

⁽³⁾

⁽⁴⁾

5,18

5,32

5,56

TCH/AHS4.75

dBm

⁽³⁾

⁽⁴⁾

-105

-104,5

-103,5

RBER1b (%)

⁽³⁾

⁽⁴⁾

0,14

0,15

RBER2 (%)

⁽³⁾

⁽⁴⁾

6,35

5,95

5,98

TCH/WFS12.65

dBm

⁽³⁾

-104,5

⁽³⁾

-102

RBER1b (%)

⁽³⁾

0,62

⁽³⁾

0,66

TCH/ WFS8.85

dBm

⁽³⁾

-107,5

⁽³⁾

-105

RBER1b (%)

⁽³⁾

0,59

⁽³⁾

0,58

TCH/ WFS6.60

dBm

⁽³⁾

-108

⁽³⁾

-106,5

RBER1b (%)

⁽³⁾

0,17

⁽³⁾

0,25

PDTCH/CS-1

dBm

⁽³⁾

-106

-105,5

-104,5

PDTCH/CS-2

dBm

⁽³⁾

-102

-102,5

-100,5

PDTCH/CS-3

dBm

⁽³⁾

-100

-99,5

-95,5

PDTCH/CS-4

dBm

⁽³⁾

-90

–

PDTCH/MCS-1

dBm

⁽³⁾

-104,5

-105,5

-102,5

PDTCH/MCS-2

dBm

⁽³⁾

-102,5

-103,5

-103

-100,5

PDTCH/MCS-3

dBm

⁽³⁾

-98,5

-99

-95

-95,5

PDTCH/MCS-4

dBm

⁽³⁾

-92,5

-93

–

PDTCH/MCS-5

dBm

⁽³⁾

-98,5

-99

-95

PDTCH/MCS-6

dBm

⁽³⁾

-96

-94

-89

PDTCH/MCS-7

dBm

⁽³⁾

-86,5

-85,5

–

PDTCH/MCS-8

dBm

⁽³⁾

-85**

–

PDTCH/MCS-9

dBm

⁽³⁾

–

PDTCH/DAS-5

dBm

⁽³⁾

[-97,5]

⁽³⁾

[-97,5]

PDTCH/DAS-6

dBm

⁽³⁾

[-97]

⁽³⁾

[-95,5]

PDTCH/DAS-7

dBm

⁽³⁾

[-95,5]

⁽³⁾

[-89,5]

PDTCH/DAS-8

dBm

⁽³⁾

[-93]

⁽³⁾

[-92**]

PDTCH/DAS-9

dBm

⁽³⁾

[-90]

⁽³⁾

[-84,5**]

PDTCH/DAS-10

dBm

⁽³⁾

[-86]

⁽³⁾

–

PDTCH/DAS-11

dBm

⁽³⁾

[-82**]

⁽³⁾

–

PDTCH/DAS-12

dBm

⁽³⁾

–

⁽³⁾

–

PDTCH/DBS-5

dBm

⁽³⁾

[-99,5]

⁽³⁾

[-98]

PDTCH/DBS-6

dBm

⁽³⁾

[-97]

⁽³⁾

[-91,5]

PDTCH/DBS-7

dBm

⁽³⁾

[-91]

⁽³⁾

–

PDTCH/DBS-8

dBm

⁽³⁾

[-87,5]

⁽³⁾

–

PDTCH/DBS-9

dBm

⁽³⁾

[-86]

⁽³⁾

–

PDTCH/DBS-10

dBm

⁽³⁾

[-78]

⁽³⁾

–

PDTCH/DBS-11

dBm

⁽³⁾

[-78**]

⁽³⁾

–

PDTCH/DBS-12

dBm

⁽³⁾

–

⁽³⁾

–

Performance is specified at 30% BLER for those cases identified with mark **.

NOTE 2: PDTCH for MCS-x, DAS-x, and DBS-x can not meet the reference performance for some propagation conditions (-).

NOTE 3: The requirements for the DCS 1800 & PCS 1900 Static propagation condition are the same as for the GSM 850 & GSM 900 Static propagation condition, the requirements for the GSM 850 & GSM 900 TU50 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

NOTE 4: The TU50 no FH TIGHTER requirement for these TCH are specified as a fixed tightening of the reference sensitivity performance listed in Table 1, which shall be met at an input level less than -105 dBm for GSM 850 & 900 and -105 dBm for DCS 1800 and PCS 1900.

NOTE 5: The requirement is identical to the EGPRS2-B requirement in Table 1n.

Table 1x: Input signal level for VAMOS III MS at reference performance for speech channels in VAMOS mode

GSM 900 and GSM 850
Type of channel		Propagation conditions
Type of channel		TU50 no FH
Antenna correlation and gain imbalance (see Annex Q.7)		Corr.=0; AGI=0dB					Corr.=0.7; AGI=-6dB
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB	+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dBm)	-104.5	-102.5	-100.5	-98	-96.5	-101	-99	-97.5	-94.5	-93
	RBER1b (%)	0.12	0.12	0.11	0.15	0.15	0.12	0.12	0.11	0.15	0.15
	RBER2 (%)	5.27	4.94	4.84	5.65	5.98	5.27	4.94	4.84	5.65	5.98
TCH/EFS	FER (dBm)	-103	-101.5	-99.5	-97	-95	-100	-98	-97	-93.5	-91.5
	RBER1b (%)	0.03	0.03	0.06	0.04	0.03	0.03	0.03	0.06	0.04	0.03
	RBER2 (%)	4.31	3.93	4.21	4.52	4.81	4.31	3.93	4.21	4.52	4.81
TCH/AFS12.2	FER (dBm)	-103.5	-101.5	-99.5	-97	-95.5	-100.5	-98	-96.5	-93.5	-92
	RBER1b (%)	0.74	0.62	0.46	0.51	0.93	0.74	0.62	0.46	0.51	0.93
TCH/AFS4.75	FER (dBm)	-108	-106	-104.5	-102	-100	-105.5	-103.5	-102	-99	-97.5
	RBER1b (%)	0.11	0.17	0.15	0.15	0.11	0.11	0.17	0.15	0.15	0.11
TCH/AHS7.4	FER (dBm)	-101.5	-100	-98	-95	-93	-98	-96	-94.5	-91.5	-89.5
	RBER1b (%)	0.26	0.22	0.12	0.23	0.25	0.26	0.22	0.12	0.23	0.25
	RBER2 (%)	2.67	2.41	1.91	2.77	2.95	2.67	2.41	1.91	2.77	2.95
TCH/AHS4.75	FER (dBm)	-105	-103	-101	-99	-97	-102	-100	-98.5	-95.5	-93.5
	RBER1b (%)	0.12	0.19	0.14	0.16	0.13	0.12	0.19	0.14	0.16	0.13
	RBER2 (%)	6.1	6.63	6.01	6.2	6.9	6.1	6.63	6.01	6.2	6.9
TCH/WFS12.65	FER (dBm)	-103	-101.5	-100	-97	-95	-100	-98	-96.5	-93.5	-92
	RBER1b (%)	0.35	0.51	0.36	0.38	0.66	0.35	0.51	0.36	0.38	0.66
TCH/WFS6.60	FER (dBm)	-106	-104.5	-102.5	-100	-98.5	-103	-101	-100	-97.5	-95.5
	RBER1b (%)	0.25	0.24	0.17	0.27	0.17	0.25	0.24	0.17	0.27	0.17
FACCH/F	FER (dBm)	-104.5	-103	-101	-98.5	-96.5	-101.5	-99.5	-98	-95.5	-93.5
FACCH/H	FER (dBm)	-105	-103	-101.5	-98.5	-97	-101.5	-100	-98	-95.5	-94
SACCH	FER (dBm)	-104.5	-103	-101	-98.5	-96.5	-101	-99.5	-98	-95	-93.5
Repeated FACCH/F	FER (dBm)	–	-104	–	–	–	–	-101.5	–	–	–
Repeated SACCH	FER (dBm)	–	-105.5	–	–	–	–	-103	–	–	–

DCS 1800 and PCS 1900
Type of channel		Propagation conditions
Type of channel		TU50 no FH
Antenna correlation and gain imbalance (see Annex Q.7)		Corr.=0; AGI=0dB					Corr.=0.7; AGI=-6dB
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB	+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dBm)	-104	-102	-100.5	-97.5	-96	-100.5	-98.5	-97	-94	-92
	RBER1b (%)	0.23	0.17	0.2	0.21	0.23	0.23	0.17	0.2	0.21	0.23
	RBER2 (%)	6.01	5.57	5.5	5.68	5.98	6.01	5.57	5.5	5.68	5.98
TCH/EFS	FER (dBm)	-103.5	-102	-100	-97	-95	-100.5	-99	-97	-94	-92
	RBER1b (%)	0.07	0.06	0.06	0.06	0.06	0.07	0.06	0.06	0.06	0.06
	RBER2 (%)	5.18	5.13	5.09	5.66	6.14	5.18	5.13	5.09	5.66	6.14
TCH/AFS12.2	FER (dBm)	-103.5	-102	-100	-97	-95	-100.5	-99	-97	-94	-92
	RBER1b (%)	0.94	1.06	0.77	0.92	0.94	0.94	1.06	0.77	0.92	0.94
TCH/AFS4.75	FER (dBm)	-109	-106.5	-105	-101.5	-100	-106.5	-104	-102.5	-99	-97.5
	RBER1b (%)	0.2	0.17	0.18	0.16	0.2	0.2	0.17	0.18	0.16	0.2
TCH/AHS7.4	FER (dBm)	-101	-99.5	-97.5	-94.5	-92	-97.5	-95.5	-93.5	-90.5	-88
	RBER1b (%)	0.17	0.24	0.16	0.18	0.22	0.17	0.24	0.16	0.18	0.22
	RBER2 (%)	1.9	2.35	1.79	2.46	2.85	1.9	2.35	1.79	2.46	2.85
TCH/AHS4.75	FER (dBm)	-104.5	-102.5	-100.5	-98	-96.5	-101.5	-99.5	-97.5	-94.5	-92.5
	RBER1b (%)	0.17	0.15	0.12	0.15	0.15	0.17	0.15	0.12	0.15	0.15
	RBER2 (%)	6.12	5.79	5.76	6.55	6.6	6.12	5.79	5.76	6.55	6.6
TCH/WFS12.65	FER (dBm)	-103.5	-101.5	-100	-97	-95	-100.5	-99	-97	-93.5	-91.5
	RBER1b (%)	0.53	0.82	0.59	0.64	0.72	0.53	0.82	0.59	0.64	0.72
TCH/WFS6.60	FER (dBm)	-107	-104.5	-103	-100.5	-98.5	-104.5	-101.5	-100.5	-97.5	-95.5
	RBER1b (%)	0.33	0.31	0.18	0.24	0.26	0.33	0.31	0.18	0.24	0.26
FACCH/F	FER (dBm)	-105	-103	-101	-99	-97	-101.5	-99.5	-98	-95.5	-93.5
FACCH/H	FER (dBm)	-104.5	-102.5	-101	-98.5	-96.5	-101.5	-99.5	-97.5	-95	-93
SACCH	FER (dBm)	-104	-102.5	-100.5	-98	-96	-101	-99	-97	-94.5	-92.5
Repeated FACCH/F	FER (dBm)	–	-104.5	–	–	–	–	-102	–	–	–
Repeated SACCH	FER (dBm)	–	-105.5	–	–	–	–	-103	–	–	–

Table 1y: Performance requirement for VAMOS III MS for downlink DTX scenario according to Annex Q.6

SCPIR_DL = -10 dB, TU 50 noFH, Corr.=0.0, AGI=0 dB
Type of channel		GSM 900 and GSM 850	DCS 1800 & PCS 1900
TCH/AHS 7.4	FER (dBm)	-91	-90
	RBER1b (%)	0.25	0.28
	RBER2 (%)	2.28	2.7

Table 1z: Input signal level (for normal BTS) at reference performance for GMSK modulated signals for different Coverage Classes (CC)

E-GSM 900 and GSM 850
Type of			Propagation conditions
Channel			Static	TU1.2 (no FH)	TU1.2¹⁾ (ideal FH)	TU50 (no FH)
EC-PACCH/U	CC1	dBm	-120,5	-115,5	-117,5	-115,5
EC-PACCH/U/4	CC2	dBm	-126,5	-122,0	-123,5	-122,0
EC-PACCH/U/8	CC3	dBm	-129,5	-124,5	-126,0	-125,0
EC-PACCH/U/16	CC4	dBm	-132,0	-128,0	-128,0	-127,5
EC-PACCH/U/48	CC5	dBm	-135,0	-131,5	-132,0	-133,0
EC-PACCH/U/2TS/4	CC2	dBm	-126,5	-121,5	-123,0	-122,0
EC-PACCH/U/2TS/8	CC3	dBm	-129,0	-124,0	-125,0	-125,0
EC-PACCH/U/2TS/16	CC4	dBm	-131,0	-127,0	-126,5	-127,0
EC-PACCH/U/2TS/48	CC5	dBm	-134,0	-130,5	-129,5	-132,5
EC-PDTCH/MCS-1⁴⁾	CC1	dBm	-117,0	-115,5	-115,5	-115,5
EC-PDTCH/MCS-1/4	CC2	dBm	-123,0	-121,5	-121,5	-121,5
EC-PDTCH/MCS-1/8	CC3	dBm	-126,0	-124,5	-124,0	-123,5
EC-PDTCH/MCS-1/16	CC4	dBm	-128,5	-128,0	-126,5	-126,0
EC-PDTCH/MCS-1’/48	CC5	dBm	-133,0	-132,0	-130,5	-131,5
EC-PDTCH/2TS/MCS-1/4	CC2	dBm	-123,0	-121,5	-121,0	-121,0
EC-PDTCH/2TS/MCS-1/8	CC3	dBm	-126,0	-124,5	-123,0	-123,0
EC-PDTCH/2TS/MCS-1/16	CC4	dBm	-128,0	-127,5	-125,5	-125,5
EC-PDTCH/2TS/MCS-1’/48	CC5	dBm	-132,0	-131,0	-128,5	-130,5
1 TS EC-RACH²⁾	CC1	dBm	-116,0	-113,5	–	-113,0
1 TS EC-RACH/4	CC2	dBm	-122,0	-119,0	–	-118,5
1 TS EC-RACH/16	CC3	dBm	-126,0	-123,0	–	-123,0
1 TS EC-RACH/48	CC4	dBm	-128,0	-126,0	–	-125,0
2 TS EC-RACH/4	CC2	dBm	-122,5	-119,5	–	-119,0
2 TS EC-RACH/16	CC3	dBm	-127,0	-124,5	–	-124,0
2 TS EC-RACH/48	CC4	dBm	-129,5	-128,0	–	-127,0
2 TS EC-RACH/66⁶⁾	CC5	dBm	-131,0	-129,5	–	-129,5
2 TS EC-RACH/132⁷⁾	CC5	dBm	-132.0	-132,0	–	-132,0
1 TS EC-RACH/30 bits⁵⁾	CC1	dBm	-111,5	-111,5	–	-111,5
DCS 1800 and PCS 1900
Type of			Propagation conditions
channel			Static	TU1.2 (no FH)	TU1.2¹⁾ (ideal FH)	TU50 (no FH)
EC-PACCH/U	CC1	dBm	-120,5	-115,5	-117,5	-115,0
EC-PACCH/U/4	CC2	dBm	-126,5	-122,0	-123,5	-122,0
EC-PACCH/U/8	CC3	dBm	-129,5	-124,5	-126,0	-124,5
EC-PACCH/U/16	CC4	dBm	-132,0	-128,0	-128,0	-127,5
EC-PACCH/U/48	CC5	dBm	-136,5	-133,0	-132,5	-134,5
EC-PACCH/U/2TS/4	CC2	dBm	-126,5	-123,0	-123,5	-124,0
EC-PACCH/U/2TS/8	CC3	dBm	-129,0	-125,0	-126,0	-126,0
EC-PACCH/U/2TS/16	CC4	dBm	-131,0	-127,5	-129,0	-127,5
EC-PACCH/U/2TS/48	CC5	dBm	-135,0	-132,0	-132,0	-133,5
EC-PDTCH/MCS-1⁴⁾	CC1	dBm	-117,0	-115,5	-115,5	-115,5
EC-PDTCH/MCS-1/4	CC2	dBm	-123,0	-121,5	-121,5	-121,0
EC-PDTCH/MCS-1/8	CC3	dBm	-126,0	-124,5	-124,0	-123,5
EC-PDTCH/MCS-1/16	CC4	dBm	-129,0	-128,0	-126,5	-125,5
EC-PDTCH/MCS-1’/48	CC5	dBm	-134,0	-133,0	-131,0	-132,5
EC-PDTCH/2TS/MCS-1/4	CC2	dBm	-124,5	-123,5	-123,0	-123,0
EC-PDTCH/2TS/MCS-1/8	CC3	dBm	-127,0	-125,5	-125,0	-125,5
EC-PDTCH/2TS/MCS-1/16	CC4	dBm	-129,5	-128,5	-127,0	-128,0
EC-PDTCH/2TS/MCS-1’/48	CC5	dBm	-133,0	-132,5	-130,0	-131,5
1 TS EC-RACH²⁾	CC1	dBm	-116,5	-113,5	–	-113,5
1 TS EC-RACH/4	CC2	dBm	-122,0	-119,0	–	-118,5
1 TS EC-RACH/16	CC3	dBm	-126,0	-123,0	–	-122,5
1 TS EC-RACH/48	CC4	dBm	-128,0	-126,5	–	-125,0
2 TS EC-RACH/4	CC2	dBm	-122,5	-119,5	–	-119,0
2 TS EC-RACH/16	CC3	dBm	-127,5	-124,5	–	-124,0
2 TS EC-RACH/48	CC4	dBm	-129,5	-128,0	–	-126,5
2 TS EC-RACH/66⁶⁾	CC5	dBm	-132,0	-130,0	–	-130.5
2 TS EC-RACH/132⁷⁾	CC5	dBm	-133,0	-132,0	–	-132,0
1 TS EC-RACH/30 bits⁵⁾	CC1	dBm	-112,5	-112,5	–	-112,5
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. NOTE 2: Identification of the correct Training sequence is required, see 3GPP TS 45.002. NOTE 3: For the notation of EC-channels, see 3GPP TS 45.003. NOTE 4: For MCS-2, MCS-3 and MCS-4 in CC1 the requirements in table 1a apply for Static and TU50 (no FH) and TU50 (ideal FH) propagation conditions. NOTE 5: The performance requirement applies 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) as part of the Multilateration Timing Advance procedure using the Extended Access Burst method in EC operation. NOTE 6: The performance requirement applies 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: The performance requirement applies for the random access on EC-RACH CC5 using EDAB TS 7 (see 3GPP TS45.002) and the coding scheme EC-RACH/132 (see 3GPP TS 45.003).

Table 1aa: Input signal level (for EC-GSM-IoT MS) at reference performance for GMSK modulated signals for different Coverage Classes (CC)

E-GSM 900 and GSM 850
Type of			Propagation conditions
Channel			Static		TU1.2 (no FH)		TU1.2¹⁾ (ideal FH)		TU50 (no FH)
EC-SCH	–	dBm		-124.5		-121.5		–		-123.0
EC-BCCH	–	dBm		-123.5		-119.5		–		-121.5
EC-PACCH/D	CC1	dBm		-114.5		-106.5		-110.0		-109.0
EC-PACCH/D/4	CC2	dBm		-120.5		-112.5		-116.0		-115.0
EC-PACCH/D/8	CC3	dBm		-123.5		-115.0		-120.5		-119.5
EC-PACCH/D/16	CC4	dBm		-126.0		-118.0		-124.0		-123.0
EC-PACCH/D/2TS/4	CC2	dBm		[TBD]		[TBD]		[TBD]		[TBD]
EC-PACCH/D/2TS/8	CC3	dBm		[TBD]		[TBD]		[TBD]		[TBD]
EC-PACCH/D/2TS/16	CC4	dBm		[TBD]		[TBD]		[TBD]		[TBD]
EC-CCCH/D²⁾	CC1	dBm		-111.0		-103.0		–		-103.5
EC-CCCH/D/8	CC2	dBm		-119.5		-114.5		–		-116.5
EC-CCCH/D/16	CC3	dBm		-122.0		-117.0		–		-120.0
EC-CCCH/D/32	CC4	dBm		-124.0		-120.5		–		-122.5
EC-PDTCH/MCS-1⁴⁾	CC1	dBm		-112.0		-106.5		-108.5		-108.0
EC-PDTCH/MCS-1/4	CC2	dBm		-118.0		-112.5		-114.5		-114.0
EC-PDTCH/MCS-1/8	CC3	dBm		-121.0		-115.5		-118.0		-117.5
EC-PDTCH/MCS-1/16	CC4	dBm		-124.0		-118.5		-122.0		-121.5
EC-PDTCH/2TS/MCS-1/4	CC2	dBm		[TBD]		[TBD]		[TBD]		[TBD]
EC-PDTCH/2TS/MCS-1/8	CC3	dBm		[TBD]		[TBD]		[TBD]		[TBD]
EC-PDTCH/2TS/MCS-1/16	CC4	dBm		[TBD]		[TBD]		[TBD]		[TBD]
DCS 1800 and PCS 1900
Type of			Propagation conditions
channel			Static		TU1.2 (no FH)		TU1.2¹⁾ (ideal FH)		TU50 (no FH)
EC-SCH	–	dBm		-124.5		-122.0		–		-123.0
EC-BCCH	–	dBm		-123.5		-120.0		–		-121.5
EC-PACCH/D	CC1	dBm		-114.5		-106.5		-109.5		-109.5
EC-PACCH/D/4	CC2	dBm		-120.5		-112.0		-116.0		-115.5
EC-PACCH/D/8	CC3	dBm		-123.5		-115.5		-120.5		-120.0
EC-PACCH/D/16	CC4	dBm		-126.0		-118.5		-124.0		-123.5
EC-PACCH/D/2TS/4	CC2	dBm		[TBD]		[TBD]		[TBD]		[TBD]
EC-PACCH/D/2TS/8	CC3	dBm		[TBD]		[TBD]		[TBD]		[TBD]
EC-PACCH/D/2TS/16	CC4	dBm		[TBD]		[TBD]		[TBD]		[TBD]
EC-CCCH/D²⁾	CC1	dBm		-111.0		-103.5		–		-104.0
EC-CCCH/D/8	CC2	dBm		-119.5		-114.5		–		-117.0
EC-CCCH/D/16	CC3	dBm		-122.0		-117.5		–		-120.0
EC-CCCH/D/32	CC4	dBm		-124.0		-121.0		–		-122.5
EC-PDTCH/MCS-1⁴⁾	CC1	dBm		-112.0		-106.5		-108.5		-108.5
EC-PDTCH/MCS-1/4	CC2	dBm		-118.0		-112.5		-114.5		-114.0
EC-PDTCH/MCS-1/8	CC3	dBm		-121.0		-115.5		-118.0		-118.0
EC-PDTCH/MCS-1/16	CC4	dBm		-124.0		-118.5		-122.0		-121.5
EC-PDTCH/2TS/MCS-1/4	CC2	dBm		[TBD]		[TBD]		[TBD]		[TBD]
EC-PDTCH/2TS/MCS-1/8	CC3	dBm		[TBD]		[TBD]		[TBD]		[TBD]
EC-PDTCH/2TS/MCS-1/16	CC4	dBm		[TBD]		[TBD]		[TBD]		[TBD]
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test NOTE 2: The performance requirements for EC-CCCH apply for EC-PCH and EC‑AGCH. NOTE 3: For the notation of EC-channels, see 3GPP TS 45.003. NOTE 4: For MCS-2, MCS-3 and MCS-4 in CC1 the requirements in table 1a apply for Static and TU50 (no FH) and TU50 (ideal FH) propagation conditions

Table 1ab: Input signal level (for normal BTS) at reference performance for 8-PSK modulated signals for Coverage Class 1 (CC1)

E-GSM 900 and GSM 850
Type of			Propagation conditions
Channel			Static	TU1.2 (no FH)	TU1.2¹⁾ (ideal FH)	TU50 (no FH)
EC-PDTCH/MCS-5²⁾	CC1	dBm	-109	-105,5	-104,5	-105,5
DCS 1800 and PCS 1900
Type of			Propagation conditions
channel			Static	TU1.2 (no FH)	TU1.2¹⁾ (ideal FH)	TU50 (no FH)
EC-PDTCH/MCS-5²⁾	CC1	dBm	-109	-105,5	-104,5	-105,5
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. NOTE 2: For MCS-6, MCS-7, MCS-8 and MCS-9 in CC1 the requirements in table 1b apply for Static and TU50 (no FH) and TU50 (ideal FH) propagation conditions

Table 1ac: Input signal level (for EC-GSM-IoT MS) at reference performance for 8‑PSK modulated signals for Coverage Class 1 (CC1)

E-GSM 900 and GSM 850
Type of			Propagation conditions
Channel			Static	TU50 (no FH)	TU50¹⁾ (ideal FH)
EC-PDTCH/MCS-5²⁾	CC1	dBm	-98	-93	-94
EC-PDTCH/MCS-6²⁾	CC1	dBm	-96	-91	-91,5
EC-PDTCH/MCS-7²⁾	CC1	dBm	-93	-84	-84
EC-PDTCH/MCS-8	CC1	dBm	-90,5²⁾	-83³⁾	-83³⁾
EC-PDTCH/MCS-9	CC1	dBm	-86²⁾	-78,5³⁾	-78,5³⁾
DCS 1800 and PCS 1900
Type of			Propagation conditions
channel			Static	TU50 (no FH)	TU50¹⁾ (ideal FH)
EC-PDTCH/MCS-5²⁾	CC1	dBm	-98	-93,5	-93,5
EC-PDTCH/MCS-6²⁾	CC1	dBm	-96	-91	-91
EC-PDTCH/MCS-7²⁾	CC1	dBm	-93	-81,5	-80,5
EC-PDTCH/MCS-8	CC1	dBm	-90,5²⁾	-80³⁾	-80³⁾
EC-PDTCH/MCS-9	CC1	dBm	-86²⁾	–	–
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: For MCS-5, MCS-6, MCS-7, MCS-8 and MCS-9 in CC1 these requirements are identical to PDTCH in table 1c and are specified at 10% BLER. NOTE 3: For MCS-8 and MCS-9 in CC1 these requirements are identical to PDTCH in table 1c and are specified at 30% BLER.

Table 1ad: Input signal level (for normal BTS) at reference performance for GMSK modulated signals in Coverage Classes Coverage Classes 2, 3, 4 and 5 (CC2-CC5) using Overlaid CDMA

E-GSM 900 and GSM 850
Type of channel					Propagation conditions: TU1.2 no FH
					2 users per time slot				4 users per time slot
SCPIR_UL					0 dB		9 dB²⁾		0 dB¹⁾		3, 6, 9 dB³⁾
EC-PACCH/U/4	CC2		dBm	-116,0		-115,5		-115,5		-114,5
EC-PACCH/U/8	CC3		dBm	-119,0		-118,5		-118,5		-118,0
EC-PACCH/U/16	CC4		dBm	-121,5		-121,5		-121,5		-121,5
EC-PACCH/U/48	CC5		dBm	-125,5		-125,0		-125,5		-125,0
EC-PACCH/U/2TS/4	CC2		dBm	-115,5		-115,0		–		–
EC-PACCH/U/2TS/8	CC3		dBm	-118,5		-118,0		–		–
EC-PACCH/U/2TS/16	CC4		dBm	-121,0		-120,5		–		–
EC-PACCH/U/2TS/48	CC5		dBm	-125,0		-124,5		–		–
EC-PDTCH/MCS-1/4	CC2		dBm	-118,5		-118,0		-118,0		-117,5
EC-PDTCH/MCS-1/8	CC3		dBm	-121,5		-121,0		-121,5		-121,0
EC-PDTCH/MCS-1/16	CC4		dBm	-124,5		-124,0		-124,5		-124,0
EC-PDTCH/MCS-1’/48	CC5		dBm	-128,5		-128,0		-128,5		-128,0
EC-PDTCH/2TS/MCS-1/4	CC2		dBm	-118,0		-118,0		–		–
EC-PDTCH/2TS/MCS-1/8	CC3		dBm	-121,0		-120,5		–		–
EC-PDTCH/2TS/MCS-1/16	CC4		dBm	-124,0		-123,5		–		–
EC-PDTCH/2TS/MCS-1’/48	CC5		dBm	-128,0		-127,5		–		–
DCS 1800 & PCS 1900
Type of channel					Propagation conditions: TU1.2 no FH
					2 users per time slot				4 users per time slot
SCPIR_UL					0 dB		9 dB²⁾		0 dB¹⁾		3, 6, 9 dB³⁾
EC-PACCH/U/4	CC2	dBm			-116,0		-115,5		-115,5		-114,5
EC-PACCH/U/8	CC3	dBm			-119,0		-118,5		-118,5		-118,0
EC-PACCH/U/16	CC4	dBm			-122,0		-121,5		-122,0		-121,5
EC-PACCH/U/48	CC5	dBm			-126,0		-125,5		-126,0		-125,5
EC-PACCH/U/2TS/4	CC2	dBm			-116,0		-115,5		–		–
EC-PACCH/U/2TS/8	CC3	dBm			-118,5		-118,0		–		–
EC-PACCH/U/2TS/16	CC4	dBm			-121,5		-121,0		–		–
EC-PACCH/U/2TS/48	CC5	dBm			-125,5		-125,0		–		–
EC-PDTCH/MCS-1/4	CC2	dBm			-118,5		-118,0		-118,0		-117,5
EC-PDTCH/MCS-1/8	CC3	dBm			-121,5		-121,0		-121,5		-121,0
EC-PDTCH/MCS-1/16	CC4	dBm			-124,5		-124,0		-124,0		-124,0
EC-PDTCH/MCS-1’/48	CC5	dBm			-128,0		-127,5		-128,0		-127,5
EC-PDTCH/2TS/MCS-1/4	CC2	dBm			-118,5		-118,0		–		–
EC-PDTCH/2TS/MCS-1/8	CC3	dBm			-121,0		-120,5		–		–
EC-PDTCH/2TS/MCS-1/16	CC4	dBm			-124,0		-123,5		–		–
EC-PDTCH/2TS/MCS-1’/48	CC5	dBm			-127,5		-127,0		–		–
NOTE 1: All subchannels have the same signal level, i.e. all SCPIR_UL are 0 dB. NOTE 2: The input level applies to subchannel 1. NOTE 3: The input level applies to subchannel 1. Each of the SCPIR_UL values applies to a different one of subchannel 2, subchannel 3 or subchannel 4, see clause 6.1b.

Table 2: Reference interference performance for GMSK modulated signals

GSM 850, ER-GSM 900 and GSM 900
Type of				Propagation conditions
channel				TU3 (no FH)		TU3 (ideal FH)		TU50 (no FH)		TU50 (ideal FH)		RA250 (no FH)
FACCH/H		(FER)		22 %		6,7 %		6,7 %		6,7 %		5,7 %
FACCH/F		(FER)		22 %		3,4 %		9,5 %		3,4 %		3,5 %
SDCCH		(FER)		22 %		9 %		13 %		9 %		8 %
RACH		(FER)		15 %		15 %		16 %		16 %		13 %
SCH		(FER)		17 %		17 %		17 %		17 %		18 %
TCH/F14,4		(BER)		10 %		3 %		4,5 %		3 %		3 %
TCH/F9,6 & H4,8		(BER)		8 %		0,3 %		0,8 %		0,3 %		0,2 %
TCH/F4,8		(BER)		3 %		10‑4		10‑4		10‑4		10‑4
TCH/F2,4		(BER)		3 %		10‑5		10^‑4		10‑5		10‑5
TCH/H2,4		(BER)		4 %		10‑4		2 10‑4		10‑4		10‑4
TCH/FS		(FER)		21 %		3 %		6 %		3 %		3 %
class Ib (RBER)				2/ %		0,2/ %		0,4/ %		0,2/ %		0,2/ %
class II (RBER)				4 %		8 %		8 %		8 %		8 %
TCH/EFS		(FER)		23 %		3 %		9 %		3 %		4 %
		(RBER Ib)		0,20 %		0,10 %		0,20 %		0,10 %		0,13 %
		(RBER II)		3 %		8 %		7 %		8 %		8 %
TCH/HS		(FER)		19,1 %		5,0 %		5,0 %		5,0 %		4,7 %
class Ib (RBER, BFI=0)				0,52 %		0,27 %		0,29 %		0,29 %		0,21 %
class II (RBER, BFI=0)				2,8 %		7,1 %		7,1 %		7,1 %		7,0 %
		(UFR)		20,7 %		6,2 %		6,1 %		6,1 %		5,6 %
class Ib (RBER,(BFI or UFI)=0)				0,29 %		0,20 %		0,21 %		0,21 %		0,17 %
		(EVSIDR)		21,9 %		7,1 %		7,0 %		7,0 %		6,3 %
(RBER, SID=2 and (BFI or UFI)=0)				0,02 %		0,01 %		0,01 %		0,01 %		0,01 %
		(ESIDR)		17,1 %		3,6 %		3,6 %		3,6 %		3,4 %
(RBER, SID=1 or SID=2)				0,5 %		0,27 %		0,26 %		0,26 %		0,20 %
TCH/AFS12.2			(FER)		22 %		3,5 %	6 %	3,5 %		2,5 %
	Class Ib (RBER)				0,9 %		1,7 %	1,7 %	1,7 %		1,5 %
TCH/AFS10.2			(FER)		18 %		1,4 %	2,7 %	1,4 %		0,92 %
	Class Ib (RBER)				0,53 %		0,22 %	0,3 %	0,21 %		0,16 %
TCH/AFS7.95			(FER)		13 %		0,13 %	0,51 %	0,12 %		0,073 %
	Class Ib (RBER)				0,66 %		0,071 %	0,15 %	0,065 %		0,044 %
			(FER@-3dB)		26 %		2,7 %	5,3 %	2,7 %		1,8 %
	Class Ib (RBER@-3dB)				1,2 %		0,79 %	1 %	0,78 %		0,6 %
TCH/AFS7.4			(FER)		14 %		0,16 %	0,56 %	0,16 %		0,09 %
	Class Ib (RBER)				0,43 %		0,032 %	0,072 %	0,032 %		0,018 %
			(FER@-3dB)		26 %		3 %	5,4 %	3,1 %		2 %
	Class Ib (RBER@-3dB)				0,79 %		0,38 %	0,52 %	0,38 %		0,28 %
TCH/AFS6.7			(FER)		11 %		0,045 %	0,21 %	0,041 %		0,021 %
	Class Ib (RBER)				0,75 %		0,044 %	0,11 %	0,042 %		0,028 %
			(FER@-3dB)		23 %		1,2 %	2,9 %	1,2 %		0,75 %
	Class Ib (RBER@-3dB)				1,4 %		0,6 %	0,86 %	0,6 %		0,44 %
TCH/AFS5.9			(FER)		10 %		0,018 %	0,12 %	0,018 %		< 0,01 %*^()**
	Class Ib (RBER)				0,38 %		0,005 %	0,022 %	0,005 %		0,003 %
			(FER@-3dB)		21 %		0,71 %	2 %	0,7 %		0,4 %
	Class Ib (RBER@-3dB)				0,74 %		0,11 %	0,23 %	0,12 %		0,079 %
(continued)

Table 2 (continued): Reference interference performance for GMSK modulated signals

GSM 850, ER-GSM 900 and GSM 900
Type of				Propagation conditions
Channel				TU3 (no FH)		TU3 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)
TCH/AFS5.15			(FER)	9,2 %		0,011 %	0,081 %	0,011 %	< 0,01 %*^()**
		Class Ib (RBER)		0,44 %		0,004 %	0,019 %	0,003 %	0,002 %
			(FER@-3dB)	19 %		0,45 %	1,4 %	0,47 %	0,25 %
		Class Ib (RBER@-3dB)		0,85 %		0,1 %	0,22 %	0,11 %	0,069 %
TCH/AFS4.75			(FER)	7,9 %		< 0,01 %*^()**	0,036 %	< 0,01 %*^()**	< 0,01 %*^()**
		Class Ib (RBER)		0,32 %		0,001 %	0,006 %	0,001 %	< 0,001 %
			(FER@-3dB)	17 %		0,21 %	0,82 %	0,23 %	0,11 %
		Class Ib (RBER@-3dB)		0,62 %		0,036 %	0,11 %	0,033 %	0,019 %
TCH/AFS-INB			(FER)	1,5 %		0,019 %	0,025 %	0,018 %	0,009 %
			(FER@-3dB)	3,5 %		0,15 %	0,22 %	0,16 %	0,1 %
TCH/AFS			(EVSIDUR)	11 %		0,37 %	1,4 %	0,39 %	0,46 %
(EVSIDUR@-3dB)				21 %		3,4 %	6,3 %	3,4 %	3,1 %
TCH/AFS	(EVRFR)			10 %		0.026 %	0.15 %	0.024 %	0.01 %
	(EVRFR @ -3dB)			21 %		0.77 %	2.08 %	0.77 %	0.48 %
TCH/AHS7.95			(FER)	27 %		23 %	22 %	22 %	21 %
		Class Ib (RBER)		0,84 %		2,2 %	2,3 %	2,3 %	2,1 %
			Class II (RBER)	1,7 %		5,1 %	5,3 %	5,3 %	5 %
			(FER@+3dB)	14 %		7 %	6,7 %	6.7 %	7 %
		Class Ib (RBER@+3dB)		0,48 %		1 %	1 %	1 %	1 %
		Class II (RBER@+3dB)		1 %		3,2 %	3,2 %	3,2 %	3,2 %
TCH/AHS7.4			(FER)	25 %		19 %	18 %	18 %	17 %
		Class Ib (RBER)		0,68 %		1,4 %	1,4 %	1,4 %	1,3 %
			Class II (RBER)	1,9 %		5,4 %	5,6 %	5,6 %	5,4 %
			(FER@+3dB)	13 %		5,2 %	4,8 %	4,8 %	5,3 %
		Class Ib (RBER@+3dB)		0,38 %		0,52 %	0,51 %	0,51 %	0,5 %
		Class II (RBER@+3dB)		1,2 %		3,3 %	3,3 %	3,3 %	3,4 %
TCH/AHS6.7			(FER)	23 %		12 %	11 %	11 %	11 %
		Class Ib (RBER)		0,71 %		1,2 %	1,2 %	1,2 %	1,1 %
			Class II (RBER)	2,3 %		6 %	6,2 %	6,2 %	6 %
			(FER@+3dB)	11 %		2,6 %	2,3 %	2,3 %	2,9 %
		Class Ib (RBER@+3dB)		0,39 %		0,39 %	0,39 %	0,39 %	0,4 %
		Class II (RBER@+3dB)		1,4 %		3,5 %	3,6 %	3,6 %	3,6 %
TCH/AHS5.9			(FER)	21 %		7,9 %	7,1 %	7,1 %	7 %
		Class Ib (RBER)		0,55 %		0,58 %	0,57 %	0,57 %	0,51 %
			Class II (RBER)	2,6 %		6,4 %	6,5 %	6,5 %	6,3 %
TCH/AHS5.15			(FER)	17 %		3,9 %	3,3 %	3,3 %	3,5 %
		Class Ib (RBER)		0,8 %		0,65 %	0,6 %	0,6 %	0,57 %
			Class II (RBER)	3,1 %		6,8 %	6,9 %	6,9 %	6,7 %
TCH/AHS4.75			(FER)	15 %	2,2 %		1,8 %	1,8 %	2,1 %
		Class Ib (RBER)		0,6 %	0,25 %		0,22 %	0,22 %	0,22 %
			Class II (RBER)	3,6 %	6,9 %		7 %	7 %	6,9 %
TCH/AHS-INB			(FER)	2,7 %		0,76 %	0,7 %	0,7 %	0,63 %
			(FER@-3dB)	6 %		2,2 %	2,2 %	2,2 %	2 %
TCH/AHS			(EVSIDUR)	15 %		3,2 %	2,5 %	2,5 %	3,8 %
(EVSIDUR@-3dB)				28 %		15 %	15 %	15 %	15 %
(continued)

Table 2 (continued): Reference interference performance for GMSK modulated signals

DCS 1 800 & PCS 1 900
Type of				Propagation conditions
channel				TU1,5 (no FH)		TU1,5 (ideal FH)		TU50 (no FH)		TU50 (ideal FH)		RA130 (no FH)
FACCH/H		(FER)		22 %		6,7 %		6,9 %		6,9 %		5,7 %
FACCH/F		(FER)		22 %		3,4 %		3,4 %		3,4 %		3,5 %
SDCCH		(FER)		22 %		9 %		9 %		9 %		8 %
RACH		(FER)		15 %		15 %		16 %		16 %		13 %
SCH		(FER)		17 %		17 %		19 %		19 %		18 %
TCH/F14,4		(BER)		10 %		3 %		4 %		3,1 %		3 %
TCH/F9,6 & H4,8		(BER)		8 %		0,3 %		0,8 %		0,3 %		0,2 %
TCH/F4,8		(BER)		3 %		10‑4		10‑4		10‑4		10‑4
TCH/F2,4		(BER)		3 %		10‑5		10‑5		10‑5		10‑5
TCH/H2,4		(BER)		4 %		10‑4		10‑4		10‑4		10‑4
TCH/FS		(FER)		21 %		3 %		3 %		3 %		3 %
class Ib (RBER)				2/ %		0,2/ %		0,25/ %		0,25/ %		0,2/ %
class II (RBER)				4 %		8 %		8,1 %		8,1 %		8 %
TCH/EFS		(FER)		23 %		3 %		3 %		3 %		4 %
		(RBER Ib)		0,20 %		0,10 %		0,10 %		0,10 %		0,13 %
		(RBER II)		3 %		8 %		8 %		8 %		8 %
TCH/HS		(FER)		19,1 %		5,0 %		5,0 %		5,0 %		4,7 %
class Ib (RBER, BFI=0)				0,52 %		0,27 %		0,29 %		0,29 %		0,21 %
class II (RBER, BFI=0)				2,8 %		7,1 %		7,2 %		7,2 %		7,0 %
(UFR)				20,7 %		6,2 %		6,1 %		6,1 %		5,6 %
class Ib (RBER, (BFI or UFI)=0)				0,29 %		0,20 %		0,21 %		0,21 %		0,17 %
(EVSIDR)				21,9 %		7,1 %		7,0 %		7,0 %		6,3 %
(RBER, SID=2 and (BFI or UFI)=0)				0,02 %		0,01 %		0,01 %		0,01 %		0,01 %
(ESIDR)				17,1 %		3,6 %		3,6 %		3,6 %		3,4 %
(RBER, SID=1 or SID=2)				0,5 %		0,27 %		0,26 %		0,26 %		0,20 %
TCH/AFS12.2			(FER)		22 %		3,5 %	2,7 %	2,7 %		1,8 %
	Class Ib (RBER)				0,92 %		1,7 %	1,6 %	1,6 %		1,4 %
TCH/AFS10.2			(FER)		18 %		1,4 %	0,98 %	0,98 %		0,56 %
	Class Ib (RBER)				0,54 %		0,21 %	0,17 %	0,17 %		0,12 %
TCH/AFS7.95			(FER)		13 %		0,13 %	0,07 %	0,07 %		0,029 %
	Class Ib (RBER)				0,67 %		0,068 %	0,042 %	0,042 %		0,03 %
			(FER@-3dB)		25 %		2,7 %	2 %	2 %		1,2 %
	Class Ib (RBER@-3dB)				1,2 %		0,8 %	0,68 %	0,68 %		0,48 %
TCH/AFS7.4			(FER)		14 %		0,17 %	0,083 %	0,083 %		0,047 %
	Class Ib (RBER)				0,43 %		0,032 %	0,02 %	0,02 %		0,012 %
			(FER@-3dB)		26 %		3 %	2,3 %	2,3 %		1,4 %
	Class Ib (RBER@-3dB)				0,8 %		0,38 %	0,32 %	0,32 %		0,22 %
TCH/AFS6.7			(FER)		11 %		0,051 %	0,025 %	0,025 %		< 0,01 %*^()**
	Class Ib (RBER)				0,76 %		0,047 %	0,028 %	0,028 %		0,016 %
			(FER@-3dB)		22 %		1,2 %	0,82 %	0,82 %		0,41 %
	Class Ib (RBER@-3dB)				1,4 %		0,61 %	0,51 %	0,51 %		0,34 %
TCH/AFS5.9			(FER)		10 %		0,018 %	< 0,01 %*^()**	< 0,01 %*^()**		< 0,01 %*^()**
	Class Ib (RBER)				0,38 %		0,005 %	0,002 %	0,002 %		0,001 %
			(FER@-3dB)		21 %		0,68 %	0,41 %	0,41 %		0,2 %
	Class Ib (RBER@-3dB)				0,72 %		0,12 %	0,079 %	0,079 %		0,046 %
(continued)

Table 2 (continued): Reference interference performance for GMSK modulated signals

DCS 1 800 & PCS 1 900
Type of				Propagation conditions
channel				TU1,5 (no FH)		TU1,5 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)
TCH/AFS5.15			(FER)	9,2 %		0,013 %	< 0,01 %*^()**	< 0,01 %*^()**	< 0,01 %*^()**
		Class Ib (RBER)		0,45 %		0,004 %	0,001 %	0,001 %	< 0,001 %
			(FER@-3dB)	19 %		0,45 %	0,26 %	0,26 %	0,13 %
		Class Ib (RBER@-3dB)		0,84 %		0,11 %	0,072 %	0,072 %	0,038 %
TCH/AFS4.75			(FER)	7,9 %		< 0,01 %*^()**	< 0,01 %*^()**	< 0,01 %*^()**	–
		Class Ib (RBER)		0,31 %		< 0,001 %	< 0,001 %	< 0,001 %	< 0,001 %
			(FER@-3dB)	17 %		0,2 %	0,1 %	0,1 %	0,051 %
		Class Ib (RBER@-3dB)		0,61 %		0,033 %	0,021 %	0,021 %	0,009 %
TCH/AFS-INB			(FER)	1,5 %		0,016 %	0,013 %	0,013 %	0,008 %
			(FER@-3dB)	3,5 %		0,16 %	0,12 %	0,12 %	0,1 %
TCH/AFS			(EVSIDUR)	11 %		0,41 %	0,3 %	0,3 %	0,36 %
(EVSIDUR@-3dB)				21 %		3,5 %	2,8 %	2,8 %	2,8 %
TCH/AFS	(EVRFR)			10 %		0.028 %	0.022 %	0.022 %	0.005 %
	(EVRFR @ -3dB)			21		0.73 %	0.78 %	0.78 %	0.28 %
TCH/AHS7.95			(FER)	27 %		23 %	23 %	23 %	20 %
		Class Ib (RBER)		0,85 %		2,2 %	2,3 %	2,3 %	2,1 %
			Class II (RBER)	1,7 %		5,1 %	5,1 %	5,1 %	5,1 %
			(FER@+3dB)	14 %		7 %	6,7 %	6,7 %	6,5 %
		Class Ib (RBER@+3dB)		0,49 %		1 %	1 %	1 %	0,98 %
		Class II (RBER@+3dB)		1 %		3,1 %	3,1 %	3,1 %	3,1 %
TCH/AHS7.4			(FER)	26 %		18 %	18 %	18 %	16 %
		Class Ib (RBER)		0,69 %		1,4 %	1,4 %	1,4 %	1,3 %
			Class II (RBER)	1,9 %		5,4 %	5,5 %	5,5 %	5,4 %
			(FER@+3dB)	13 %		5,2 %	4,9 %	4,9 %	4,8 %
		Class Ib (RBER@+3dB)		0,39 %		0,51 %	0,51 %	0,51 %	0,47 %
		Class II (RBER@+3dB)		1,2 %		3,3 %	3,3 %	3,3 %	3,3 %
TCH/AHS6.7			(FER)	23 %		12 %	12 %	12 %	9,9 %
		Class Ib (RBER)		0,71 %		1,2 %	1,2 %	1,2 %	1 %
			Class II (RBER)	2,3 %		6 %	6 %	6 %	6 %
			(FER@+3dB)	11 %		2,7 %	2,5 %	2,5 %	2,5 %
		Class Ib (RBER@+3dB)		0,39 %		0,39 %	0,38 %	0,38 %	0,37 %
		Class II (RBER@+3dB)		1,4 %		3,5 %	3,5 %	3,5 %	3,5 %
TCH/AHS5.9			(FER)	21 %		7,8 %	7,7 %	7,7 %	6,4 %
		Class Ib (RBER)		0,55 %		0,59 %	0,6 %	0,6 %	0,48 %
			Class II (RBER)	2,6 %		6,3 %	6,4 %	6,4 %	6,3 %
TCH/AHS5.15			(FER)	17 %		3,8 %	3,8 %	3,8 %	3,1 %
		Class Ib (RBER)		0,8 %		0,65 %	0,66 %	0,66 %	0,53 %
			Class II (RBER)	3,1 %		6,7 %	6,8 %	6,8 %	6,6 %
TCH/AHS4.75			(FER)	15 %	2,2 %		2,1 %	2,1 %	1,8 %
		Class Ib (RBER)		0,6 %	0,25 %		0,25 %	0,25 %	0,19 %
			Class II (RBER)	3,6 %	6,9 %		7 %	7 %	6,8 %
TCH/AHS-INB			(FER)	2,8 %		0,76 %	0,71 %	0,71 %	0,6 %
			(FER@-3dB)	5,9 %		2,2 %	2,2 %	2,2 %	1,8 %
TCH/AHS			(EVSIDUR)	15 %		3,1 %	3,1 %	3,1 %	3,5 %
(EVSIDUR@-3dB)				28 %		15 %	15 %	15 %	14 %
TCH/AHS		(EVRFR)		11 %		0.55 %	0.53 %	0.53 %	0.52 %
(EVRFR @ -3dB)				22 %		4.3 %	4.5 %	4.5 %	3.8 %

NOTE 1: The specification for SDCCH applies also for BCCH, AGCH, PCH, SACCH. The actual performance of SACCH, particularly for the C/I TU3 (no FH) and TU 1.5 (no FH) cases should be better.

NOTE 2: Definitions:

FER: Frame erasure rate (frames marked with BFI=1)

FER@-3dB: Frame erasure rate for an interference ratio 3 dB below the reference interference ratio

FER@+3dB: Frame erasure rate for an interference ratio 3 dB above the reference interference ratio

UFR: Unreliable frame rate (frames marked with (BFI or UFI)=1)

EVSIDR: Erased Valid SID frame rate (frames marked with (SID=0) or (SID=1) or ((BFI or UFI)=1) if a valid SID frame was transmitted)

EVSIDUR: Erased Valid SID_UPDATE frame rate associated to an adaptive speech traffic channel

EVSIDUR@-3dB: Erased Valid SID_UPDATE frame rate associated to an adaptive speech traffic channel for an interference ratio 3 dB below the reference interference ratio

ESIDR: Erased SID frame rate (frames marked with SID=0 if a valid SID frame was transmitted)

EVRFR@-3dB: Erased Valid RATSCCH frame rate associated to an adaptive speech traffic channel for an interference ratio 3 dB below the reference interference ratio.

BER: Bit error rate

RBER, BFI=0: Residual bit error rate (defined as the ratio of the number of errors detected over the frames defined as "good" to the number of transmitted bits in the "good" frames).

RBER@-3dB: Residual bit error rate for an interference ratio 3 dB below the reference interference ratio

RBER@+3dB: Residual bit error rate for an interference ratio 3 dB above the reference interference ratio

RBER, (BFI or UFI)=0: Residual bit error rate (defined as the ratio of the number of errors detected over the frames defined as "reliable" to the number of transmitted bits in the "reliable" frames).

TCH/AxS-INB FER: The frame error rate for the in-band channel. Valid for both Mode Indication and Mode Command/Mode Request. When testing all four code words shall be used an equal amount of time and the mode of both in-band channels (Mode Indication and Mode Command/Mode Request) shall be changed to a neighbouring mode not more often than every 22 speech frames (440 ms).

NOTE 3: 1    1.6. The value of  can be different for each channel condition but must remain the same for FER and class Ib RBER measurements for the same channel condition.

NOTE 4: FER for CCHs takes into account frames which are signalled as being erroneous (by the FIRE code, parity bits, or other means) or where the stealing flags are wrongly interpreted.

NOTE 5: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. The TU3 (ideal FH) and TU1.5 (ideal FH), sufficient decorrelation cannot easily be achieved. These performance requirements are given for information purposes and need not be tested.

NOTE 6: For AMR, the complete conformance should not be restricted to the channels identified with (*).

Table 2a: Interference ratio at reference performance for GMSK modulated signals

GSM 900, ER-GSM 900 and GSM 850
Type of		Propagation conditions
channel		TU3 (no FH)	TU3 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)
PDTCH/CS-1	dB	13	9	10	9	9
PDTCH/CS-2	dB	15	13	14	13	13
PDTCH/CS-3	dB	16	15	16	15	16
PDTCH/CS-4	dB	21	23	24	24	*
USF/CS-1	dB	19	10	12	10	10
USF/CS-2 to 4	dB	18	9	10	9	8
PRACH/11 bits¹⁾	dB	8	8	8	8	10
PRACH/8 bits¹⁾	dB	8	8	8	8	9
GSM 850, MXM 850, ER-GSM 900 and GSM 900
Type of		Propagation conditions
channel		TU3 (no FH)	TU3 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)
PDTCH/MCS-0⁵⁾	dB	10	8.5	9	8.5	9
PDTCH/MCS-1	dB	13	9.5	10.5	9.5	10
PDTCH/MCS-2	dB	15	12	12.5	12	12
PDTCH/MCS-3	dB	16.5	16.5	17	17	19
PDTCH/MCS-4	dB	19	21.5	22	22	*
USF/MCS-1 to 4	dB	18	10	11	9.5	9.5
PRACH/11 bits^{2), 3)}	dB	8	8	8	8	10
PRACH/8 bits¹⁾	dB	8	8	8	8	9
RACH/30 bits⁷⁾	dB	11	–	11	–	–
DCS 1 800 & PCS 1 900
Type of		Propagation conditions
channel		TU1,5 (no FH)	TU1,5 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)
PDTCH/CS-1	dB	13	9	9	9	9
PDTCH/CS-2	dB	15	13	13	13	13
PDTCH/CS-3	dB	16	15	16	16	16
PDTCH/CS-4	dB	21	23	27	27	*
USF/CS-1	dB	19	10	10	10	10
USF/CS-2 to 4	dB	18	9	9	9	7
PRACH/11 bits¹⁾	dB	9	9	9	9	10
PRACH/8 bits¹⁾	dB	8	8	8	8	9
DCS 1800, PCS 1 900 and MXM 1900
Type of		Propagation conditions
channel		TU1,5 (no FH)	TU1,5 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)
PDTCH/MCS-0⁵⁾	dB	10	8.5	9	8.5	9
PDTCH/MCS-1	dB	13	9.5	10	9.5	10
PDTCH/MCS-2	dB	15	12	12	12	12
PDTCH/MCS-3	dB	16.5	16.5	17	18	19
PDTCH/MCS-4	dB	19	21.5	23	23	*
USF/MCS-1 to 4	dB	18	10	9.5	9.5	9.5
PRACH/11 bits^{2), 3)}	dB	9	9	9	9	10
PRACH/8 bits¹⁾	dB	8	8	8	8	9
RACH/30 bits⁷⁾	dB	11	–	11	–	–
NOTE 1: The specification for PDTCH/CS-1 applies also for PACCH, PBCCH, PAGCH, PPCH, PTCCH/D. NOTE 2: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. The TU3 (ideal FH) and TU1.5 (ideal FH), sufficient decorrelation cannot easily be achieved. These performance requirements are given for information purposes and need not be tested. NOTE 3: PDTCH/CS-4 and PDTCH/MCS-x cannot meet the reference performance for some propagation conditions (*). NOTE 4: Identification of the correct Training sequence is required. Cases identified by ¹⁾include one training sequence and cases identified by ²⁾ include 3 training sequences according to 3GPP TS 45.002. The specification identified by ³⁾ also applies to CPRACH. NOTE 5: The specification of MCS-0 only applies in DL RTTI configuration. NOTE 6: The specification for PDTCH/CS-3 applies also when used for PACCH in DLMC configuration (see 3GPP TS 44.060). NOTE 7: The performance requirement applies 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) as part of the Multilateration Timing Advance procedure using the Extended Access Burst method.

Table 2b: Cochannel interference ratio (for normal BTS) at reference performance for 8-PSK modulated signals (convolutional coding)

GSM 900, ER-GSM 900, GSM 850 and MXM 850
Type of		Propagation conditions
channel		TU3 (no FH)	TU3 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)
PDTCH/MCS-5	dB	18	14.5	15.5	14.5	16
PDTCH/MCS-6	dB	20	17	18	17.5	21
PDTCH/MCS-7	dB	23.5	23.5	24	24.5	26.5**
PDTCH/MCS-8	dB	28.5	29	30	30	*
PDTCH/MCS-9	dB	30	32	33	35	*
DCS 1 800. PCS 1900 and MXM 1900
Type of		Propagation conditions
channel		TU1,5 (no FH)	TU1,5 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)
PDTCH/MCS-5	dB	18	14.5	15	15	16
PDTCH/MCS-6	dB	20	17	17.5	18	21
PDTCH/MCS-7	dB	23.5	23.5	26	26.5	27**
PDTCH/MCS-8	dB	28.5	29	25**	24.5**	*
PDTCH/MCS-9	dB	30	32	29**	29**	*
Performance is specified at 30% BLER for those cases identified with mark *. NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. The TU3 (ideal FH) and TU1.5 (ideal FH), sufficient decorrelation cannot easily be achieved. These performance requirements are given for information purposes and need not be tested. NOTE 2: PDTCH for MCS-x can not meet the reference performance for some propagation conditions ().

Table 2c: Cochannel interference ratio (for MS) at reference performance for 8-PSK modulated signals (convolutional coding)

GSM 850, ER-GSM 900 and GSM 900
Type of			Propagation conditions
channel			TU3 (no FH)	TU3 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)
PDTCH/MCS-5	dB		19,5	14,5	15,5	14,5	16,5
PDTCH/MCS-6	dB		21,5	17	18	17,5	21
PDTCH/MCS-7	dB		26,5	23,5	25	24,5	*
PDTCH/MCS-8	dB		30,5	23,5**	25,5**	25,5**	*
PDTCH/MCS-9	dB		25,5**	28**	30,5**	30,5**	*
USF/MCS-5 to 9		dB	17	10,5	11,5	9	9
DCS 1 800 and PCS 1900
Type of			Propagation conditions
channel			TU1,5 (no FH)	TU1,5 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)
PDTCH/MCS-5	dB		19,5	14,5	15	15,5	16,5
PDTCH/MCS-6	dB		21,5	17	18	18,5	21
PDTCH/MCS-7	dB		26,5	23,5	27,5	28	*
PDTCH/MCS-8	dB		30,5	23,5**	29,5**	29**	*
PDTCH/MCS-9	dB		25,5**	28**	*	*	*
USF/MCS-5 to 9		dB	17	10,5	10	9	9
Performance is specified at 30% BLER for those cases identified with mark *. NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: PDTCH for MCS-x can not meet the reference performance for some propagation conditions ().

Table 2d: Cochannel interference ratio (for normal BTS) at reference performance for ECSD (GMSK and 8-PSK modulated signals)

GSM 900 and GSM 850
Type of				Propagation conditions
Channel				TU3 (no FH)		TU3 (ideal FH)		TU50 (no FH)		TU50 (ideal FH)		RA250 (no FH)
E-FACCH/F		dB		17.5		11.5		12.5		11.5		11.5
E-TCH/F28.8 T		dB		27		15		17.5		15.5		16
E-TCH/F 32 T		dB		25.5		15.5		17		15.5		15.5

E-TCH/F28.8 NT	dB		20		13.5		14.5		13.5		13.5
E-TCH/F43.2 NT	dB		24		18.5		19.5		19		21.5
DCS 1 800 & PCS 1900
Type of				Propagation conditions
Channel				TU1,5 (no FH)		TU1,5 (ideal FH)		TU50 (no FH)		TU50 ideal FH)		RA130 (no FH)
E-FACCH/F		dB		17.5		11.5		11.5		11.5		11.5
E-TCH/F28.8 T		dB		27		15.5		16		16		17
E-TCH/F 32 T		dB		25.5		15.5		16		15.5		15.5

E-TCH/F28.8 NT	dB		20		13.5		14		14		14.5
E-TCH/F43.2 NT	dB		24		18.5		19.5		19.5		22
NOTE: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. The TU3 (ideal FH) and TU1.5 (ideal FH), sufficient decorrelation cannot easily be achieved. These performance requirements are given for information purposes and need not be tested.

Table 2e: Cochannel interference ratio (for MS) at reference performance for ECSD
(GMSK and 8-PSK modulated signals)

GSM 850 and GSM 900
Type of				Propagation conditions
Channel				TU3 (no FH)		TU3 (ideal FH)		TU50 (no FH)		TU50 (ideal FH)		RA250 (no FH)
E-FACCH/F		dB		17.5		11.5		12.5		11.5		11.5
E-TCH/F28.8 T		dB		28		15.5		18		16		16
E-TCH/F 32 T		dB		27.5		16		18		16		17.5

E-TCH/F28.8 NT	dB		20.5		14		15		14		14
E-TCH/F43.2 NT	dB		25		19		20		19.5		22
DCS 1 800 & PCS 1900
Type of				Propagation conditions
Channel				TU1,5 (no FH)		TU1,5 (ideal FH)		TU50 (no FH)		TU50 ideal FH)		RA130 (no FH)
E-FACCH/F		dB		17.5		11.5		11.5		11.5		11.5
E-TCH/F28.8 T		dB		28		15.5		16		16		17
E-TCH/F 32 T		dB		27.5		16		16.5		16.5		17.5

E-TCH/F28.8 NT	dB		20		13.5		14		14		14.5
E-TCH/F43.2 NT	dB		25		18.5		19.5		19.5		22
NOTE: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. The TU3 (ideal FH) and TU1.5 (ideal FH), sufficient decorrelation cannot easily be achieved. These performance requirements are given for information purposes and need not be tested.

Table 2f: Adjacent channel interference ratio (for normal BTS) at reference performance for 8-PSK modulated signals (convolutional coding)

GSM 900, ER-GSM 900, GSM 850 and MXM 850
Type of		Propagation conditions
channel		TU3 (no FH)	TU3 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)
PDTCH/MCS-5	dB	2.5	-2	-2	-2	1
PDTCH/MCS-6	dB	4.5	0.5	1	1	6.5
PDTCH/MCS-7	dB	8	8	8.5	8.5	13.5**
PDTCH/MCS-8	dB	10.5	12	9**	9.5**	*
PDTCH/MCS-9	dB	12	14	13.5**	13.5**	*
DCS 1 800, PCS 1900 and MXM 1900
Type of		Propagation conditions
channel		TU1,5 (no FH)	TU1,5 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)
PDTCH/MCS-5	dB	2.5	-2	-2	-1.5	1
PDTCH/MCS-6	dB	4.5	0.5	1.5	1.5	6.5
PDTCH/MCS-7	dB	8	8	10.5	11	13.5**
PDTCH/MCS-8	dB	10.5	12	10**	9.5**	*
PDTCH/MCS-9	dB	12	14	16**	16**	*
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. The TU3 (ideal FH) and TU1.5 (ideal FH), sufficient decorrelation cannot easily be achieved. These performance requirements are given for information purposes and need not be tested. NOTE 2: PDTCH for MCS-x can not meet the reference performance for some propagation conditions (). NOTE 3: Performance is specified at 30% BLER for those cases identified with mark *.

Table 2g: Adjacent channel interference ratio (for MS) at reference performance
for 8-PSK modulated signals (convolutional coding)

GSM 850, ER-GSM 900 and GSM 900
Type of			Propagation conditions
channel			TU3 (no FH)	TU3 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)
PDTCH/MCS-5	dB		2.5	-2	-1	-2	1
PDTCH/MCS-6	dB		5.5	0.5	2	1	6.5
PDTCH/MCS-7	dB		10.5	8	10	9	*
PDTCH/MCS-8	dB		15.5	9**	11**	10.5**	*
PDTCH/MCS-9	dB		10**	12.5**	17**	15.5**	*
USF/MCS-5 to 9		dB	-1	-8.5	-8	-9.5	-9
DCS 1 800 and PCS 1900
Type of			Propagation conditions
channel			TU1,5 (no FH)	TU1,5 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA130 (no FH)
PDTCH/MCS-5	dB		2.5	-2	-2	-1.5	1
PDTCH/MCS-6	dB		5.5	0.5	1.5	1.5	6.5
PDTCH/MCS-7	dB		10.5	8	12.5	12	*
PDTCH/MCS-8	dB		15.5	9**	16**	15.5**	*
PDTCH/MCS-9	dB		10**	12.5**	*	*	*
USF/MCS-5 to 9		dB	-1	-8.5	-9	-9.5	-9
Performance is specified at 30% BLER for those cases identified with mark *. NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: PDTCH for MCS-x can not meet the reference performance for some propagation conditions ().

Table 2h: Adjacent channel interference (for normal BTS) ratio at reference performance
for ECSD (8-PSK modulated signals)

GSM 900 and GSM 850
Type of				Propagation conditions
Channel				TU3 (no FH)		TU3 (ideal FH)		TU50 (no FH)		TU50 (ideal FH)		RA250 (no FH)

E-TCH/F28.8 T		dB		10		-1		0.5		-1		2.5
E-TCH/F 32 T		dB		7.5		-4		-2.5		-4		-4

E-TCH/F28.8 NT	dB		3.5		-2.5		-1.5		-2.5		-0.5
E-TCH/F43.2 NT	dB		8		2.5		3.5		2.5		12
DCS 1 800 & PCS 1900
Type of				Propagation conditions
Channel				TU1,5 (no FH)		TU1,5 (ideal FH)		TU50 (no FH)		TU50 ideal FH)		RA130 (no FH)

E-TCH/F28.8 T		dB		10		-1		-0.5		-0.5		5
E-TCH/F 32 T		dB		7		-4		-3.5		-3.5		-4

E-TCH/F28.8 NT	dB		3.5		-2.5		-2		-2		0.5
E-TCH/F43.2 NT	dB		8		2.5		4		3.5		14
NOTE: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. The TU3 (ideal FH) and TU1.5 (ideal FH), sufficient decorrelation cannot easily be achieved. These performance requirements are given for information purposes and need not be tested.

Table 2i: Adjacent channel interference (for MS) ratio at reference performance
for ECSD (8-PSK modulated signals)

GSM 850 and GSM 900
Type of				Propagation conditions
Channel				TU3 (no FH)		TU3 (ideal FH)		TU50 (no FH)		TU50 (ideal FH)		RA250 (no FH)

E-TCH/F28.8 T		dB		12.5		-0.5		1.5		0		4
E-TCH/F 32 T		dB		10		-1.5		0		-1.5		-1.5

E-TCH/F28.8 NT	dB		4.5		-2		-1		-2		1
E-TCH/F43.2 NT	dB		9.5		3.5		4.5		4		12.5
DCS 1 800 & PCS 1900
Type of				Propagation conditions
Channel				TU1,5 (no FH)		TU1,5 (ideal FH)		TU50 (no FH)		TU50 ideal FH)		RA130 (no FH)

E-TCH/F28.8 T		dB		12.5		-0.5		0.5		0.5		6.5
E-TCH/F 32 T		dB		10		-1.5		-1		-1		-1.5

E-TCH/F28.8 NT	dB		4.5		-2		-1.5		-1.5		2
E-TCH/F43.2 NT	dB		9.5		3.5		5		5		14
NOTE: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. The TU3 (ideal FH) and TU1.5 (ideal FH), sufficient decorrelation cannot easily be achieved. These performance requirements are given for information purposes and need not be tested.

Table 2j: Reference interference performance for GMSK modulated channels

GSM 850, ER-GSM 900 and GSM 900
Type of		Propagation conditions
Channel		TU3 (no FH)	TU50 (no FH)	RA250 (no FH)
TCH/ WFS12.65	(dB)	21,5	14,5	12,5
	Class Ib (RBER)	0,08	0,40	0,63
TCH/ WFS8.85	(dB)	20	11,5	9
	Class Ib (RBER)	0,11	0,42	0,73
TCH/ WFS6.60	(dB)	19	10,5	8
	Class Ib (RBER)	0,09	0,16	0,24

DCS 1 800 & PCS 1 900
Type of			Propagation condition
channel		TU50 (no FH)
TCH/ WFS12.65	(dB)	13
	Class Ib (RBER)	0,63
TCH/ WFS8.85	(dB)	10
	Class Ib (RBER)	0,64
TCH/ WFS6.60	(dB)	9
	Class Ib (RBER)	0,27

NOTE 1: Definitions:

FER: Frame erasure rate (frames marked with BFI=1)

UFR: Unreliable frame rate (frames marked with (BFI or UFI)=1)

EVSIDR: Erased Valid SID frame rate (frames marked with (SID=0) or (SID=1) or ((BFI or UFI)=1) if a valid SID frame was transmitted)

EVSIDUR: Erased Valid SID_UPDATE frame rate associated to an adaptive speech traffic channel

ESIDR: Erased SID frame rate (frames marked with SID=0 if a valid SID frame was transmitted)

BER: Bit error rate

RBER, BFI=0: Residual bit error rate (defined as the ratio of the number of errors detected over the frames defined as "good" to the number of transmitted bits in the "good" frames).

RBER, (BFI or UFI)=0: Residual bit error rate (defined as the ratio of the number of errors detected over the frames defined as "reliable" to the number of transmitted bits in the "reliable" frames).

NOTE 2: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the GSM 850 & GSM 900 & ER-GSM 900 TU3 (ideal FH), DCS 1800 & PCS 1900 TU1.5 (ideal FH), GSM 850 & GSM 900 TU50 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

NOTE 3: Ideal FH performance is already tested for the TCH/FS channel, therefore these requirements are given for information purposes and need not be tested.

NOTE 5: The performance requirements for inband signalling, SID_UPDATE and RATSCCH are the same as those given for TCH/AFS in Table 2. It is sufficient to test inband signalling, SID_UPDATE and RATSCCH requirements for only one of the channel types TCH/AFS and TCH/WFS.

Table 2k: Reference co-channel interference performance for 8-PSK modulated signals

GSM 850, ER-GSM 900 and GSM 900
Type of						Propagation conditions
channel						TU3 (no FH)	TU3 (ideal FH)				TU50 (no FH)	TU50 (ideal FH)		RA250 (no FH)
O-FACCH/F					(dB)	15,5	8				10	8		9
O-FACCH/H					(dB)	15,5	9				10	9		9,5
O-TCH/AHS12.2					(dB)	22,5	15,5				16,5	15,5		17
			Class Ib (RBER)			0,17	0,33				0,30	0,32		0,26
O-TCH/AHS10.2					(dB)	21,5	15				15,5	14,5		15,5
			Class Ib (RBER)			0,09	0,15				0,15	0,16		0,20
O-TCH/AHS7.95					(dB)	20,5	14				14,5	13,5		14,5
			Class Ib (RBER)			0,06	0,07				0,06	0,07		0,10
O-TCH/AHS7.4					(dB)	20	13				14	12,5		13,5
			Class Ib (RBER)			0,08	0,13				0,12	0,13		0,16
O-TCH/AHS6.7					(dB)	19,5	12,5				13,5	12		13
			Class Ib (RBER)			0,09	0,13				0,12	0,14		0,20
O-TCH/AHS5.9					(dB)	19	12				13	12		12,5
			Class Ib (RBER)			0,11	0,18				0,16	0,18		0,17
O-TCH/AHS5.15					(dB)	18,5	11,5				12,5	11		12
			Class Ib (RBER)			0,06	0,08				0,08	0,09		0,09
O-TCH/AHS4.75					(dB)	18	11				12	10,5		11,5
			Class Ib (RBER)			0,08	0,10				0,09	0,10		0,13
O-TCH/AHS-INB					(FER)	16,5	10,5				10,5	10,5		12,5
O-TCH/AHS				(EVSIDUR)		16	10				10,5	9,5		10,5
O-TCH/AHS					(EVRFR)	16	10				10,5	9,5		11
O-TCH/WFS23.85					(dBm)	22,5		13,5		16			13,5		13,5
	Class 1b (RBER)					0,10		0,24		0,15			0,23		0,28
O-TCH/WFS15.85					(dBm)	20		11		13,5			11		10,5
	Class 1b (RBER)					0,26		0,55		0,35			0,60		0,60
O-TCH/WFS12.65					(dBm)	18,5		9,5		11,5			9,5		9,5
	Class Ib (RBER)					0,18		0,40		0,31			0,45		0,40
O-TCH/WFS8.85					(dBm)	17		8		10,5			7,5		7,5
	Class Ib (RBER)					0,16		0,33		0,22			0,40		0,42
O-TCH/WFS6.60					(dBm)	16		7		9,5			7		6,5
	Class Ib (RBER)					0,10		0,15		0,14			0,18		0,23
O-TCH/WFS-INB					(dBm)	14,5		6		7			6		6
O-TCH/WFS					(EVSIDUR)	17,5		9,5		11,5			9,5		9,5
O-TCH/WFS					(EVRFR)	16,5		7,5		10			7,5		7,5
O-TCH/WHS12.65					(dBm)	22,5	15,5		17			15,5		17
		Class Ib (RBER)				0,16	0,37		0,27			0,36		0,32
O-TCH/ WHS8.85					(dBm)	21	14		15			14		15
		Class Ib (RBER)				0,07	0,11		0,11			0,11		0,11
O-TCH/ WHS6.60					(dBm)	19,5	12		13,5			12		13
		Class Ib (RBER)				0,09	0,13		0,12			0,13		0,14

DCS 1 800 & PCS 1 900
Type of				Propagation conditions
channel				TU50 (no FH)
O-FACCH/F		(dB)		9
O-FACCH/H		(dB)		9,5
O-TCH/AHS12.2	(dB)			16,5
	Class Ib (RBER)			0,30
O-TCH/AHS10.2	(dB)			15,5
	Class Ib (RBER)			0,13
O-TCH/AHS7.95	(dB)			14,5
	Class Ib (RBER)			0,07
O-TCH/AHS7.4		(dB)		14
	Class Ib (RBER)			0,12
O-TCH/AHS6.7		(dB)		13
	Class Ib (RBER)			0,12
O-TCH/AHS5.9		(dB)		12,5
	Class Ib (RBER)			0,15
O-TCH/AHS5.15		(dB)		12
	Class Ib (RBER)			0,08
O-TCH/AHS4.75		(dB)		11,5
	Class Ib (RBER)			0,10
O-TCH/AHS-INB		(FER)		11
O-TCH/AHS		(EVSIDUR)		10,5
O-TCH/AHS		(EVRFR)		10,5
O-TCH/WFS23.85		(dBm)	14,5
	Class Ib (RBER)		0,20
O-TCH/WFS15.85		(dBm)	12
	Class Ib (RBER)		0,44
O-TCH/WFS12.65		(dBm)	10,5
	Class Ib (RBER)		0,32
O-TCH/WFS8.85		(dBm)	9
	Class Ib (RBER)		0,28
O-TCH/WFS6.60		(dBm)	8
	Class Ib (RBER)		0,16
O-TCH/WFS-INB		(dBm)	6,5
O-TCH/WFS		(EVSIDUR)	11
O-TCH/WFS		(EVRFR)	9
O-TCH/WHS12.65		(dBm)	16,5
	Class Ib (RBER)		0,30
O-TCH/ WHS8.85		(dBm)	14,5
	Class Ib (RBER)		0,11
O-TCH/ WHS6.60		(dBm)	13
	Class Ib (RBER)		0,12

NOTE 1: Definitions:

FER: Frame erasure rate (frames marked with BFI=1)

EVSIDUR: Erased Valid SID_UPDATE frame rate associated to an adaptive speech traffic channel

BER: Bit error rate.

RBER: Residual bit error rate.

NOTE 2: FER for CCHs takes into account frames which are signalled as being erroneous (by the FIRE code, parity bits, or other means) or where the stealing flags are wrongly interpreted.

NOTE 4: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the DCS 1800 & PCS 1900 TU1.5 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

Table 2l: Reference adjacent channel interference performance for 8-PSK modulated signals

GSM 850, ER-GSM 900 and GSM 900
Type of										Propagation conditions
channel										TU3 (no FH)			TU3 (ideal FH)			TU50 (no FH)			TU50 (ideal FH)			RA250 (no FH)
O-FACCH/F						(dB)				0			-7,5			-7,5			-8			-8,5
O-FACCH/H						(dB)				0,5			-6,5			-5,5			-6,5			-6
O-TCH/AHS12.2							(dB)			5			-1,5			-1			-2			-0,5
			Class Ib (RBER)							0,15			0,30			0,26			0,28			0,33
O-TCH/AHS10.2							(dB)			4,5			-2,5			-2			-3			-2
			Class Ib (RBER)							0,11			0,15			0,14			0,14			0,17
O-TCH/AHS7.95							(dB)			3			-3,5			-3			-4			-3,5
			Class Ib (RBER)							0,07			0,08			0,08			0,07			0,07
O-TCH/AHS7.4							(dB)			2,5			-4,5			-4			-5			-4,5
			Class Ib (RBER)							0,11			0,15			0,15			0,15			0,17
O-TCH/AHS6.7							(dB)			2			-5,5			-4,5			-6			-5,5
			Class Ib (RBER)							0,08			0,16			0,15			0,16			0,13
O-TCH/AHS5.9							(dB)			1,5			-6			-5,5			-6,5			-6,5
			Class Ib (RBER)							0,08			0,22			0,19			0,22			0,17
O-TCH/AHS5.15							(dB)			1			-7			-6			-7			-7
			Class Ib (RBER)							0,05			0,11			0,10			0,08			0,10
O-TCH/AHS4.75							(dB)			0,5			-7,5			-7			-7,5			-7,5
			Class Ib (RBER)							0,06			0,13			0,13			0,11			0,12
O-TCH/AHS-INB						(FER)				-1			-7			-7			-7			-6,5
O-TCH/AHS						(EVSIDUR)				-1,5			-8			-8			-8			-7,5
O-TCH/AHS						(EVRFR)				-1			-8,5			-8			-8,5			-7,5
O-TCH/WFS23.85					(dBm)			5			-4			-2			-4			-4
		Class Ib (RBER)						0,09			0,23			0,17			0,21			0,26
O-TCH/WFS15.85					(dBm)			2			-7			-5			-7			-7
		Class Ib (RBER)						0,30			0,54			0,45			0,50			0,60
O-TCH/WFS12.65					(dBm)			0,5			-9			-7			-9			-9
		Class Ib (RBER)						0,11			0,50			0,35			0,46			0,46
O-TCH/WFS8.85					(dBm)			-0,5			-10,5			-9			-11			-10,5
		Class Ib (RBER)						0,13			0,50			0,35			0,31			0,29
O-TCH/WFS6.60					(dBm)			-1,5			-12,			-10			-12			-11,5
		Class Ib (RBER)						0,09			0,17			0,15			0,17			0,16
O-TCH/WFS-INB					(dBm)			-4			-13			-11,5			-13			-13
O-TCH/WFS					(EVSIDUR)			-0,5			-8,5			-7			-8,5			-8
O-TCH/WFS					(EVRFR)			-1			-11			-9,5			-11			-10,5
O-TCH/WHS12.65				(dBm)					5			-2			-1			-2			0
	Class Ib (RBER)								0,17			0,36			0,30			0,33			0,36
O-TCH/ WHS8.85				(dBm)					3			-4			-3			-3,5			-3
	Class Ib (RBER)								0,09			0,12			0,11			0,12			0,14
O-TCH/ WHS6.60				(dBm)					2			-6			-5			-6			-5,5
	Class Ib (RBER)								0,07			0,16			0,15			0,17			0,13
(continued)

Table 2l (concluded): Reference adjacent channel interference performance for 8-PSK modulated signals

DCS 1 800 & PCS 1 900
Type of				Propagation conditions
channel				TU50 (no FH)
O-FACCH/F		(dB)		-6,5
O-FACCH/H		(dB)		-5,5
O-TCH/AHS12.2	(dB)			-1
	Class Ib (RBER)			0,30
O-TCH/AHS10.2	(dB)			-2
	Class Ib (RBER)			0,14
O-TCH/AHS7.95	(dB)			-3
	Class Ib (RBER)			0,08
O-TCH/AHS7.4		(dB)		-4
	Class Ib (RBER)			0,17
O-TCH/AHS6.7		(dB)		-5
	Class Ib (RBER)			0,15
O-TCH/AHS5.9		(dB)		-5,5
	Class Ib (RBER)			0,20
O-TCH/AHS5.15		(dB)		-6,5
	Class Ib (RBER)			0,11
O-TCH/AHS4.75		(dB)		-7
	Class Ib (RBER)			0,14
O-TCH/AHS-INB		(FER)		-6,5
O-TCH/AHS		(EVSIDUR)		-7,5
O-TCH/AHS		(EVRFR)		-8
O-TCH/WFS23.85		(dBm)	-2,5
	Class Ib (RBER)		0,18
O-TCH/WFS15.85		(dBm)	-5,5
	Class Ib (RBER)		0,50
O-TCH/WFS12.65		(dBm)	-7,5
	Class Ib (RBER)		0,36
O-TCH/WFS8.85		(dBm)	-10
	Class Ib (RBER)		0,42
O-TCH/WFS6.60		(dBm)	-11,5
	Class Ib (RBER)		0,20
O-TCH/WFS-INB		(dBm)	-11
O-TCH/WFS		(EVSIDUR)	-8
O-TCH/WFS		(EVRFR)	-10,5
O-TCH/WHS12.65		(dBm)	-1
	Class Ib (RBER)		0,32
O-TCH/ WHS8.85		(dBm)	-3
	Class Ib (RBER)		0,12
O-TCH/ WHS6.60		(dBm)	-5
	Class Ib (RBER)		0,16

NOTE 1: Definitions:

FER: Frame erasure rate (frames marked with BFI=1)

EVSIDUR: Erased Valid SID_UPDATE frame rate associated to an adaptive speech traffic channel

BER: Bit error rate.

RBER: Residual bit error rate.

NOTE 2: FER for CCHs takes into account frames which are signalled as being erroneous (by the FIRE code, parity bits, or other means) or where the stealing flags are wrongly interpreted.

NOTE 4: The requirements for DCS 1800, PCS 1900 and MXM 1900 on TU50 (ideal FH) propagation conditions are the same as for TU50 (no FH).

The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the DCS 1800 & PCS 1900 TU1.5 (ideal FH) propagation conditions are the same as for the GSM 850 & GSM 900 TU3 (ideal FH), and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

Table 2m: Co-channel interference ratio at reference performance for FLO

GSM 900 and GSM 850

FLO Configuration

Propagation conditions

TU3

(no FH)

TU3

(ideal FH)

TU50

(no FH)

TU50

(ideal FH)

RA250

(no FH)

Reference TFC 1

(dB)

15,0

9,0

10,0

9,0

8,5

Reference TFC 2

(dB)

18,0

11,5

12,0

11,5

Reference TFC 3

(dB)

18,5

9,5

11,0

9,5

Reference TFC 4

(dB)

22,0

14,5

14,0

Reference TFC 5

(dB)

22,0

12,5

14,5

14,0

11,5

Reference TFC 6

(dB)

19,5

15,5

16,5

15,5

15,0

Reference TFC 7

(dB)

24,5

23,0

23,5

23,0

–

DCS 1 800 & PCS 1900

FLO Configuration

Propagation conditions

TU1,5

(no FH)

TU1,5

(ideal FH)

TU50

(no FH)

TU50

ideal FH)

RA130

(no FH)

Reference TFC 1

(dB)

⁽²⁾

9,0

⁽²⁾

Reference TFC 2

(dB)

⁽²⁾

12,0

⁽²⁾

Reference TFC 3

(dB)

⁽²⁾

9,5

⁽²⁾

Reference TFC 4

(dB)

⁽²⁾

14,5

⁽²⁾

Reference TFC 5

(dB)

⁽²⁾

13,0

⁽²⁾

Reference TFC 6

(dB)

⁽²⁾

15,5

⁽²⁾

Reference TFC 7

(dB)

⁽²⁾

25,0

⁽²⁾

NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. The TU3 (ideal FH) and TU1.5 (ideal FH), sufficient decorrelation cannot easily be achieved. These performance requirements are given for information purposes and need not be tested.

NOTE 2: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the DCS 1800 & PCS 1900 TU1.5 (ideal FH), and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

Table 2n: Adjacent channel interference ratio at reference performance for FLO

GSM 900 and GSM 850

FLO Configuration

Propagation conditions

TU3

(no FH)

TU3

(ideal FH)

TU50

(no FH)

TU50

(ideal FH)

RA250

(no FH)

Reference TFC 1

(dB)

⁽³⁾

Reference TFC 2

(dB)

⁽³⁾

Reference TFC 3

(dB)

⁽³⁾

Reference TFC 4

(dB)

5,0

-2,5

-3,0

Reference TFC 5

(dB)

5,5

-4,5

-3,0

-4,5

-5,0

Reference TFC 6

(dB)

3,0

-1,5

-0,5

-1,5

1,0

Reference TFC 7

(dB)

7,0

6,0

6,5

–

DCS 1 800 & PCS 1900

FLO Configuration

Propagation conditions

TU1,5

(no FH)

TU1,5

(ideal FH)

TU50

(no FH)

TU50

ideal FH)

RA130

(no FH)

Reference TFC 1

(dB)

⁽³⁾

Reference TFC 2

(dB)

⁽³⁾

Reference TFC 3

(dB)

⁽³⁾

Reference TFC 4

(dB)

⁽²⁾

-2,0

⁽²⁾

Reference TFC 5

(dB)

⁽²⁾

-4,0

⁽²⁾

Reference TFC 6

(dB)

⁽²⁾

-1,0

⁽²⁾

Reference TFC 7

(dB)

⁽²⁾

8,0

⁽²⁾

NOTE 2: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the DCS 1800 & PCS 1900 TU1.5 (ideal FH), and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

NOTE 3: The adjacent channel interference ratio for Reference TFCs 1,2 and 3 shall be 18 dB less than the cochannel interference ratio (see Table 2m).

Table 2o: C/I1 ratio at reference performance for DARP

GSM 900 and GSM 850
Propagation condition		TU50 no FH
Type of channel		DARP Test Scenario
		DTS-1^{(note 1)}	DTS-2	DTS-3	DTS-4	DTS-5
FACCH/F	(dB)	3	8	9	–	–
SDCCH	(dB)	4	9,5	10	–	–
TCH/FS	(dB)	4,5	9,5	10	6,5	9,5
	Class Ib	0,10	0,10	0,10	0,10	0,10
	Class II	4,60	4,40	4,30	5,02	4,60
TCH/AFS12.2	(dB)	5	10	10	6,5	10
	Class Ib	0,60	0,60	0,50	0,80	0,70
TCH/AFS10.2	(dB)	3,5	8,5	9	–	–
	Class Ib	0,20	0,15	0,15	–	–
TCH/AFS7.95	(dB)	1,5	6,5	7,5	–	–
	Class Ib	0,35	0,28	0,28	–	–
TCH/AFS7.4	(dB)	1,5	6,5	7,5	–	–
	Class Ib	0,20	0,15	0,15	–	–
TCH/AFS6.7	(dB)	0	5,5	7	–	–
	Class Ib	0,50	0,39	0,37	–	–
TCH/AFS5.9	(dB)	0	5,5	6,5	1	5,5
	Class Ib	0,20	0,20	0,15	0,16	0,20
TCH/AFS5.15	(dB)	-1	5	5,5	–	–
	Class Ib	0,21	0,20	0,25	–	–
TCH/AFS4.75	(dB)	-1,5	4,5	5	–	–
	Class Ib	0,15	0,15	0,15	–	–
TCH/AHS7.95	(dB)	9	14	14,5	–	–
	Class Ib	0,35	0,30	0,35	–	–
	Class II	1,80	1,60	1,43	–	–
TCH/AHS7.4	(dB)	8,5	12,5	13,5	–	–
	Class Ib	0,25	0,20	0,20	–	–
	Class II	2,20	1,90	1,80	–	–
TCH/AHS6.7	(dB)	7	11,5	12	–	–
	Class Ib	0,25	0,30	0,25	–	–
	Class II	2,90	2,80	2,50	–	–
TCH/AHS5.9	(dB)	6	10,5	11,5	–	–
	Class Ib	0,15	0,15	0,15	–	–
	Class II	3,70	3,50	3,50	–	–
TCH/AHS5.15	(dB)	4,5	9	10	–	–
	Class Ib	0,25	0,30	0,30	–	–
	Class II	4,90	4,50	4,80	–	–
TCH/AHS4.75	(dB)	3	7,5	8,5	–	–
	Class Ib	0,20	0,25	0,20	–	–
	Class II	6,50	5,80	5,50	–	–
PDTCH CS-1	(dB)	3	8	8,5	–	–
PDTCH CS-2	(dB)	6	10,5	11	–	–
PDTCH CS-3	(dB)	8,5	13	13,5	–	–
PDTCH CS-4	(dB)	19,5	22	22,5	–	–
PDTCH MCS-1	(dB)	3,5	9,5	10,5	–	–
PDTCH MCS-2	(dB)	5,5	11	12	–	–
PDTCH MCS-3	(dB)	11	15	15,5	–	–
PDTCH MCS-4	(dB)	18	20	21	–	–
(Continued)

Table 2o (continued): C/I1 ratio at reference performance for DARP

DCS 1 800 & PCS 1900
Propagation condition		TU50 no FH
Type of channel		DARP Test Scenario
		DTS-1^{(note 1)}	DTS-2	DTS-3	DTS-4	DTS-5
FACCH/F	(dB)	3	7,5	8	–	–
SDCCH	(dB)	4	8,5	9,5	–	–
TCH/FS	(dB)	3,5	9	9	6	9
	Class Ib	0,10	0,10	0,10	0,10	0,10
	Class II	5,30	5,70	5,40	6,09	5,80
TCH/AFS12.2	(dB)	4	9	10	6	9
	Class Ib	0,87	0,89	0,80	0,95	1,10
TCH/AFS10.2	(dB)	3	7,5	8,5	–	–
	Class Ib	0,20	0,20	0,20	–	–
TCH/AFS7.95	(dB)	0,5	5,5	6,5	–	–
	Class Ib	0,36	0,43	0,40	–	–
TCH/AFS7.4	(dB)	0,5	5,5	6,5	–	–
	Class Ib	0,20	0,20	0,20	–	–
TCH/AFS6.7	(dB)	-0,5	4,5	5,5	–	–
	Class Ib	0,70	0,60	0,56	–	–
TCH/AFS5.9	(dB)	-1	4,5	5	0	4
	Class Ib	0,20	0,30	0,16	0,21	0,22
TCH/AFS5.15	(dB)	-1,5	3,5	4,5	–	–
	Class Ib	0,25	0,30	0,25	–	–
TCH/AFS4.75	(dB)	-2	3	4	–	–
	Class Ib	0,15	0,20	0,20	–	–
TCH/AHS7.95	(dB)	10	14	15	–	–
	Class Ib	0,35	0,40	0,30	–	–
	Class II	1,70	1,80	1,50	–	–
TCH/AHS7.4	(dB)	9	13	14	–	–
	Class Ib	0,20	0,20	0,20	–	–
	Class II	2,10	1,90	1,90	–	–
TCH/AHS6.7	(dB)	7,5	11,5	12,5	–	–
	Class Ib	0,25	0,25	0,25	–	–
	Class II	3,20	2,80	2,50	–	–
TCH/AHS5.9	(dB)	6	10,5	11,5	–	–
	Class Ib	0,15	0,20	0,20	–	–
	Class II	3,80	3,40	3,30	–	–
TCH/AHS5.15	(dB)	5	9	10	–	–
	Class Ib	0,31	0,30	0,30	–	–
	Class II	5,00	4,70	4,40	–	–
TCH/AHS4.75	(dB)	3,5	8	9	–	–
	Class Ib	0,20	0,25	0,20	–	–
	Class II	6,70	5,90	5,46	–	–
PDTCH CS-1	(dB)	2,5	7	8	–	–
PDTCH CS-2	(dB)	6	10,5	11	–	–
PDTCH CS-3	(dB)	9	12,5	13	–	–
PDTCH CS-4	(dB)	22	23,5	24	–	–
PDTCH MCS-1	(dB)	3,5	9	10	–	–
PDTCH MCS-2	(dB)	6,5	11	11,5	–	–
PDTCH MCS-3	(dB)	11,5	15	15,5	–	–
PDTCH MCS-4	(dB)	19,5	22	22,5	–	–
NOTE 1: DARP Test Scenario 1 (DTS-1) is similar to testing of co-channel interference for non-DARP receivers with essentially at least as stringent requirements under TU50noFH propagation conditions. Thus the non-DARP test under this propagation condition need not be tested for MS indicating support for Downlink Advanced Receiver Performance – phase I (see 3GPP TS 24.008).

Table 2p: Co-channel interference ratio at reference performance for Repeated Downlink FACCH and Repeated SACCH

GSM 900, ER-GSM 900 and GSM 850
		Propagation conditions
		TU3 (no FH)	TU3 (ideal FH)	TU50 (no FH)	TU50 (ideal FH)	RA250 (no FH)
FACCH/F	(dB)	11,5	4,5	5,5	4,5	4,5
FACCH/H		[tbd]	[tbd]	[tbd]	[tbd]	[tbd]
SACCH		5,0	4,5	4,5	4,5	4,5
DCS 1 800 & PCS 1900
		Propagation conditions
		TU1,5 (no FH)	TU1,5 (ideal FH)	TU50 (no FH)	TU50 ideal FH)	RA130 (no FH)
FACCH/F	(dB)	⁽²⁾	⁽²⁾	4,5	⁽²⁾	⁽²⁾
FACCH/H		⁽²⁾	⁽²⁾	[tbd]	⁽²⁾	⁽²⁾
SACCH		⁽²⁾	⁽²⁾	4,5	⁽²⁾	⁽²⁾
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. The TU3 (ideal FH) and TU1.5 (ideal FH), sufficient decorrelation cannot easily be achieved. These performance requirements are given for information purposes and need not be tested. NOTE 2: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the DCS 1800 & PCS 1900 TU1.5 (ideal FH), and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

Table 2q : C/I1 ratio at reference performance for Downlink Advanced Receiver Performance – phase II

GSM 900 and GSM 850
		Propagation conditions
		TU50 (noFH)
		Correlation=0; AGI=0 dB
		DTS-1/DTS-1b^Note1	DTS-2	DTS-5
TCH/FS	FER (dB)	-12,0	1,0	1,0
	Rber1b	0,06%	0,10%	0,07%
	Rber2	5,37%	4,90%	5,01%
TCH/AFS12.2	FER (dB)	-11,0	2,5	2,5
	Rber1b	0,69%	0,64%	0,67%
TCH/AFS7.4	FER (dB)	-13,5	0,0	0,0
	Rber1b	0,21%	0,15%	0,15%
TCH/AFS5.9	FER (dB)	-15,0	-1,5	-2,0
	Rber1b	0,17%	0,16%	0,23%
TCH/AHS7.4	FER (dB)	-7,5	4,5	4,5
	Rber1b	0,40%	0,50%	0,53%
	Rber2	1,88%	2,25%	2,49%
TCH/AHS5.9	FER (dB)	-9,5	3,0	3,0
	Rber1b	0,51%	0,64%	0,59%
	Rber2	3,27%	3,85%	4,05%

PDTCH CS-1	BLER (dB)	-12,5	0,5	0,5
PDTCH CS-2	BLER (dB)	-9,5	3,0	3,5
PDTCH CS-3	BLER (dB)	-8,0	5,0	5,5
PDTCH CS-4	BLER (dB)	0,0	12,0	13,0
PDTCH MCS-1	BLER (dB)	-11,5	1,0	1,5
PDTCH MCS-2	BLER (dB)	-10,0	2,5	2,5
PDTCH MCS-3	BLER (dB)	-6,5	6,0	6,0
PDTCH MCS-4	BLER (dB)	-1,0	11,0	12,5
PDTCH MCS-5	BLER (dB)	-6,5	7,0	8,0
PDTCH MCS-6	BLER (dB)	-4,0	9,0	10,5
PDTCH MCS-7	BLER (dB)	1,5	13,5	15,0
PDTCH MCS-8	BLER (dB)	1,5**	20,0	20,5
PDTCH MCS-9	BLER (dB)	6,0**	23,5	26,5
PDTCH DAS-5	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DAS-6	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DAS-7	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DAS-8	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DAS-9	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DAS-10	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DAS-11	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DAS-12	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-5	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-6	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-7	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-8	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-9	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-10	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-11	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-12	BLER (dB)	[tbd]	[tbd]	[tbd]
NOTE 1: Performance is specified at 30% BLER for those cases identified with mark ‘**’ NOTE 2: Performance is not specified for those cases identified with mark ‘-‘ NOTE 3: DARP Test Scenario 1 (DTS-1) is similar to testing of co-channel interference for non-DARP receivers with essentially at least as stringent requirements under TU50noFH propagation conditions. DTS-1b utillizes an 8-PSK modulated interferer and is to be applied for MCS5-MCS9.

Table 2q continued: C/I1 ratio at reference performance for Downlink Advanced Receiver Performance – phase II

DCS 1800 and PCS 1900
		Propagation conditions
		TU50 (noFH)
		Correlation=0; AGI=0 dB
		DTS-1/DTS-1b^Note1	DTS-2	DTS-5
TCH/FS	FER (dB)	-11,5	0,5	0,5
	Rber1b	0,08%	0,08%	0,09%
	Rber2	5,86%	5,91%	6,01%
TCH/AFS12.2	FER (dB)	-10,5	1,5	1,5
	Rber1b	0,84%	0,94%	0,94%
TCH/AFS7.4	FER (dB)	-13,5	-1,0	-1,0
	Rber1b	0,18%	0,18%	0,19%
TCH/AFS5.9	FER (dB)	-14,5	-2,0	-2,0
	Rber1b	0,20%	0,18%	0,21%
TCH/AHS7.4	FER (dB)	-7,0	4,5	5,0
	Rber1b	0,57%	0,52%	0,56%
	Rber2	2,11%	2,27%	2,34%
TCH/AHS5.9	FER (dB)	-9,0	3,0	3,0
	Rber1b	0,62%	0,70%	0,64%
	Rber2	3,56%	3,75%	3,91%
PDTCH CS-1	BLER (dB)	-12,0	0,0	0,0
PDTCH CS-2	BLER (dB)	-9,0	3,0	3,0
PDTCH CS-3	BLER (dB)	-7,0	4,5	5,0
PDTCH CS-4	BLER (dB)	4,5	12,5	13,5
PDTCH MCS-1	BLER (dB)	-10,5	1,0	1,0
PDTCH MCS-2	BLER (dB)	-8,5	2,5	2,5
PDTCH MCS-3	BLER (dB)	-4,5	6,0	6,0
PDTCH MCS-4	BLER (dB)	2,0	11,5	13,0
PDTCH MCS-5	BLER (dB)	-6,0	6,5	7,5
PDTCH MCS-6	BLER (dB)	-3,5	8,5	9,5
PDTCH MCS-7	BLER (dB)	3,0	14,0	15,0
PDTCH MCS-8	BLER (dB)	5,0**	20,5	22,0
PDTCH MCS-9	BLER (dB)	12,0**	25,0	25,5
PDTCH DAS-5	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DAS-6	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DAS-7	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DAS-8	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DAS-9	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DAS-10	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DAS-11	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DAS-12	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-5	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-6	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-7	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-8	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-9	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-10	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-11	BLER (dB)	[tbd]	[tbd]	[tbd]
PDTCH DBS-12	BLER (dB)	[tbd]	[tbd]	[tbd]
NOTE 1: Performance is specified at 30% BLER for those cases identified with mark ‘**’ NOTE 2: Performance is not specified for those cases identified with mark ‘-‘ NOTE 3: DARP Test Scenario 1 (DTS-1) is similar to testing of co-channel interference for non-DARP receivers with essentially at least as stringent requirements under TU50noFH propagation conditions. DTS-1b utillizes an 8-PSK modulated interferer and is to be applied for MCS5-MCS9.

Table 2r: Cochannel interference ratio (for normal BTS) at reference performance for
16-QAM modulated signals (Normal symbol rate and BTTI) (EGPRS2-A UL)

GSM 900, GSM 850 and MXM 850
Type of		Propagation conditions
channel		TU3 (no FH)		TU3 (ideal FH)		TU50 (no FH)		TU50 (ideal FH)		RA250 (no FH)
PDTCH/UAS-7	dB		27		⁽²⁾		23,5		22,5		22
PDTCH/UAS-8	dB		28		⁽²⁾		25		24,5		25,5
PDTCH/UAS-9	dB		28,5		⁽²⁾		27		26,5		33
PDTCH/UAS-10	dB		29,5		⁽²⁾		29,5		29,5		34,5**
PDTCH/UAS-11	dB		30,5		⁽²⁾		33,0		33,0		–
DCS 1 800. PCS 1900 and MXM 1900
Type of		Propagation conditions
channel		TU1,5 (no FH)		TU1,5 (ideal FH)		TU50 (no FH)		TU50 (ideal FH)		RA130 (no FH)
PDTCH/UAS-7	dB		⁽²⁾		⁽²⁾		23		⁽²⁾		⁽²⁾
PDTCH/UAS-8	dB		⁽²⁾		⁽²⁾		25		⁽²⁾		⁽²⁾
PDTCH/UAS-9	dB		⁽²⁾		⁽²⁾		26		⁽²⁾		⁽²⁾
PDTCH/UAS-10	dB		⁽²⁾		⁽²⁾		26,5**		⁽²⁾		⁽²⁾
PDTCH/UAS-11	dB		⁽²⁾		⁽²⁾		29,5**		⁽²⁾		⁽²⁾
Performance is specified at 30% BLER for those cases identified with mark ‘**’ Performance is not specified for those cases identified with mark ‘-‘ NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. The TU3 (ideal FH) and TU1.5 (ideal FH), sufficient decorrelation cannot easily be achieved. These performance requirements are given for information purposes and need not be tested. NOTE 2: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the GSM 850 & GSM 900 TU3 (ideal FH), DCS 1800 & PCS 1900 TU1.5 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

Table 2s: Cochannel interference ratio (for MS) at reference performance for 8-PSK, 16-QAM and 32-QAM modulated signals (Normal symbol rate, BTTI and turbo-coding) (EGPRS2-A DL)

GSM 850 and GSM 900
Type of		Propagation conditions
channel		TU3 (no FH)	TU3 (ideal FH)		TU50 (no FH)			TU50 (ideal FH)	RA250 (no FH)
PDTCH/DAS-5	dB	16,5		⁽²⁾		15	15		12,5
PDTCH/DAS-6	dB	18		⁽²⁾		16	15,5		14,5
PDTCH/DAS-7	dB	19,5		⁽²⁾		17	17		16,5
PDTCH/DAS-8	dB	22,5		⁽²⁾		20	19,5		19,5
PDTCH/DAS-9	dB	24,5		⁽²⁾		23	23		24,5
PDTCH/DAS-10	dB	28		⁽²⁾		26	25,5		24,5**
PDTCH/DAS-11	dB	30,5		⁽²⁾		31,5	31		–
PDTCH/DAS-12	dB	34,5		⁽²⁾		33**	32,5**		–
USF/DAS-5 to 7	dB	⁽³⁾		⁽³⁾		⁽³⁾	⁽³⁾		⁽³⁾
USF/DAS-8 to 9	dB	10,0		⁽²⁾		6,0	4,5		4,0
USF/DAS-10 to 12	dB	10,0	⁽²⁾		7,0			4,5	4,0
DCS 1 800 and PCS 1900
Type of		Propagation conditions
channel		TU1,5 (no FH)	TU1,5 (ideal FH)		TU50 (no FH)			TU50 (ideal FH)	RA130 (no FH)
PDTCH/DAS-5	dB	⁽²⁾		⁽²⁾		15	⁽²⁾		⁽²⁾
PDTCH/DAS-6	dB	⁽²⁾		⁽²⁾		16	⁽²⁾		⁽²⁾
PDTCH/DAS-7	dB	⁽²⁾		⁽²⁾		17,5	⁽²⁾		⁽²⁾
PDTCH/DAS-8	dB	⁽²⁾		⁽²⁾		20	⁽²⁾		⁽²⁾
PDTCH/DAS-9	dB	⁽²⁾		⁽²⁾		24	⁽²⁾		⁽²⁾
PDTCH/DAS-10	dB	⁽²⁾		⁽²⁾		27	⁽²⁾		⁽²⁾
PDTCH/DAS-11	dB	⁽²⁾		⁽²⁾		32**	⁽²⁾		⁽²⁾
PDTCH/DAS-12	dB	⁽²⁾		⁽²⁾		–	⁽²⁾		⁽²⁾
USF/DAS-5 to 7	dB	⁽³⁾		⁽³⁾		⁽³⁾	⁽³⁾		⁽³⁾
USF/DAS-8 to 9	dB	⁽²⁾		⁽²⁾		4,5	⁽²⁾		⁽²⁾
USF/DAS-10 to 12	dB	⁽²⁾		⁽²⁾		5,5	⁽²⁾		⁽²⁾
Performance is specified at 30% BLER for those cases identified with mark ‘**’ Performance is not specified for those cases identified with mark ‘-‘ NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the GSM 850 & GSM 900 TU3 (ideal FH), DCS 1800 & PCS 1900 TU1.5 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition. NOTE 3: The requirements for USF/DAS-5 to 7 are the same as for USF/MCS-5 to 9.

Table 2t: Cochannel interference ratio (for normal BTS) at reference performance for QPSK, 16-QAM and 32-QAM modulated signals (Higher symbol rate and BTTI) (EGPRS2-B UL)

GSM 900, GSM 850 and MXM 850
Type of		Propagation conditions
channel		TU3 (no FH)		TU3 (ideal FH)	TU50 (no FH)		TU50 (ideal FH)		RA250 (no FH)
PDTCH/UBS-5	dB		-4,5 / [tbd]	⁽²⁾	-4,5 / [tbd]	-6,0 / [tbd]			-1,5 / [tbd]
PDTCH/UBS-6	dB		-2,0 / [tbd]	⁽²⁾	-3,0 / [tbd]	-3,5 / [tbd]			1,5 / [tbd]
PDTCH/UBS-7	dB		2,5 / [tbd]	⁽²⁾	1,5 / [tbd]	1,0 / [tbd]			5,5 / [tbd]
PDTCH/UBS-8	dB		4,5 / [tbd]	⁽²⁾	4,0 / [tbd]	3,5 / [tbd]			9,5 / [tbd]
PDTCH/UBS-9	dB		5,5 / [tbd]	⁽²⁾	5,5 / [tbd]	5,0 / [tbd]			13,0 / [tbd]
PDTCH/UBS-10	dB		11,0 / [tbd]	⁽²⁾	12,5 / [tbd]	12,0 / [tbd]			26,0 / [tbd]
PDTCH/UBS-11	dB		13,5 / [tbd]	⁽²⁾	16,5 / [tbd]	17,0 / [tbd]			35,0 / [tbd]
PDTCH/UBS-12	dB		15,0 / [tbd]	⁽²⁾	19,5 / [tbd]	19,5 / [tbd]			28,0** / [tbd]
DCS 1 800. PCS 1900 and MXM 1900
Type of		Propagation conditions
channel		TU1,5 (no FH)		TU1,5 (ideal FH)	TU50 (no FH)		TU50 (ideal FH)		RA130 (no FH)
PDTCH/UBS-5	dB		⁽²⁾	⁽²⁾	-4,5 / [tbd]	⁽²⁾		⁽²⁾
PDTCH/UBS-6	dB		⁽²⁾	⁽²⁾	-2,5 / [tbd]	⁽²⁾		⁽²⁾
PDTCH/UBS-7	dB		⁽²⁾	⁽²⁾	2,5 / [tbd]	⁽²⁾		⁽²⁾
PDTCH/UBS-8	dB		⁽²⁾	⁽²⁾	5,0 / [tbd]	⁽²⁾		⁽²⁾
PDTCH/UBS-9	dB		⁽²⁾	⁽²⁾	6,5 / [tbd]	⁽²⁾		⁽²⁾
PDTCH/UBS-10	dB		⁽²⁾	⁽²⁾	14,5 / [tbd]	⁽²⁾		⁽²⁾
PDTCH/UBS-11	dB		⁽²⁾	⁽²⁾	22,5 / [tbd]	⁽²⁾		⁽²⁾
PDTCH/UBS-12	dB		⁽²⁾	⁽²⁾	28,5 / [tbd]	⁽²⁾		⁽²⁾
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. The TU3 (ideal FH) and TU1.5 (ideal FH), sufficient decorrelation cannot easily be achieved. These performance requirements are given for information purposes and need not be tested. NOTE 2: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the GSM 850 & GSM 900 TU3 (ideal FH), DCS 1800 & PCS 1900 TU1.5 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition. NOTE 3: RX diversity requirements are given by the left numbers. Requirements without RX diversity are given by the right numbers. NOTE 4: Performance is specified at 30% BLER for those cases identified with mark **.

Table 2u: Cochannel interference ratio (for MS) at reference performance for QPSK, 16-QAM
and 32-QAM modulated signals (Higher symbol rate, BTTI and turbo coding) (EGPRS2-B DL)

GSM 850 and GSM 900
Type of		Propagation conditions
channel		TU3 (no FH)		TU3 (ideal FH)		TU50 (no FH)		TU50 (ideal FH)	RA250 (no FH)
PDTCH/DBS-5	dB		17,0		⁽²⁾		15,0	12,0	12,0
PDTCH/DBS-6	dB		19,0		⁽²⁾		17,5	17,5	15,0
PDTCH/DBS-7	dB		22,5		⁽²⁾		20,0	19,5	19,0
PDTCH/DBS-8	dB		25,5		⁽²⁾		23,0	23,0	24,0
PDTCH/DBS-9	dB		27,0		⁽²⁾		26,0	25,5	27,0
PDTCH/DBS-10	dB		31,0		⁽²⁾		32,0	31,5	–
PDTCH/DBS-11	dB		34,0		⁽²⁾		31,0**	28,0**	–
PDTCH/DBS-12	dB		27,0**		⁽²⁾		34,5**	32,0**	–
USF/DBS-5 to 6	dB		[14,5]		⁽²⁾		[9,0]	[8,5]	[8,5]
USF/DBS-7 to 9	dB		[11,0]		⁽²⁾		[6,0]	[5,5]	[5,0]
USF/DBS-10 to 12	dB		[12,5]		⁽²⁾		[7,0]	[6,0]	[6,0]
DCS 1 800 and PCS 1900
Type of		Propagation conditions
channel		TU1,5 (no FH)		TU1,5 (ideal FH)		TU50 (no FH)		TU50 (ideal FH)	RA130 (no FH)
PDTCH/DBS-5	dB		⁽²⁾	⁽²⁾		12,0		⁽²⁾	⁽²⁾
PDTCH/DBS-6	dB		⁽²⁾	⁽²⁾		15,5		⁽²⁾	⁽²⁾
PDTCH/DBS-7	dB		⁽²⁾	⁽²⁾		19,0		⁽²⁾	⁽²⁾
PDTCH/DBS-8	dB		⁽²⁾	⁽²⁾		23,0		⁽²⁾	⁽²⁾
PDTCH/DBS-9	dB		⁽²⁾	⁽²⁾		22,0**		⁽²⁾	⁽²⁾
PDTCH/DBS-10	dB		⁽²⁾	⁽²⁾		30,0**		⁽²⁾	⁽²⁾
PDTCH/DBS-11	dB		⁽²⁾	⁽²⁾		–		⁽²⁾	⁽²⁾
PDTCH/DBS-12	dB		⁽²⁾	⁽²⁾		–		⁽²⁾	⁽²⁾
USF/DBS-5 to 6	dB		⁽²⁾	⁽²⁾		[8,5]		⁽²⁾	⁽²⁾
USF/DBS-7 to 9	dB		⁽²⁾	⁽²⁾		[5,5]		⁽²⁾	⁽²⁾
USF/DBS-10 to 12	dB		⁽²⁾	⁽²⁾		[6,5]		⁽²⁾	⁽²⁾
Performance is specified at 30% BLER for those cases identified with mark ‘**’ Performance is not specified for those cases identified with mark ‘-‘ NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the GSM 850 & GSM 900 TU3 (ideal FH), DCS 1800 & PCS 1900 TU1.5 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

Table 2v: Adjacent channel interference ratio (for normal BTS) at reference performance for 16-QAM modulated signals (Normal symbol rate and BTTI) (EGPRS2-A UL)

GSM 900, GSM 850 and MXM 850
Type of		Propagation conditions
channel		TU3 (no FH)		TU3 (ideal FH)	TU50 (no FH)		TU50 (ideal FH)	RA250 (no FH)
PDTCH/UAS-7	dB		13,0	⁽²⁾	9,5		8,0	10,5
PDTCH/UAS-8	dB		14,5	⁽²⁾	11,0		10,0	15,0
PDTCH/UAS-9	dB		15,5	⁽²⁾	13,5		12,5	22,5
PDTCH/UAS-10	dB		17,5	⁽²⁾	17,0		17,0	25,0**
PDTCH/UAS-11	dB		19,0	⁽²⁾	23,5		24,0	–
DCS 1 800, PCS 1900 and MXM 1900
Type of		Propagation conditions
channel		TU1,5 (no FH)		TU1,5 (ideal FH)	TU50 (no FH)		TU50 (ideal FH)	RA130 (no FH)
PDTCH/UAS-7	dB		⁽²⁾	⁽²⁾		9,5	⁽²⁾	⁽²⁾
PDTCH/UAS-8	dB		⁽²⁾	⁽²⁾		12,0	⁽²⁾	⁽²⁾
PDTCH/UAS-9	dB		⁽²⁾	⁽²⁾		15,5	⁽²⁾	⁽²⁾
PDTCH/UAS-10	dB		⁽²⁾	⁽²⁾		24,5	⁽²⁾	⁽²⁾
PDTCH/UAS-11	dB		⁽²⁾	⁽²⁾		20,5**	⁽²⁾	⁽²⁾
Performance is specified at 30% BLER for those cases identified with mark ‘**’ Performance is not specified for those cases identified with mark ‘-‘ NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. The TU3 (ideal FH) and TU1.5 (ideal FH), sufficient decorrelation cannot easily be achieved. These performance requirements are given for information purposes and need not be tested. NOTE 2: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the GSM 850 & GSM 900 TU3 (ideal FH), DCS 1800 & PCS 1900 TU1.5 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

Table 2w: Adjacent channel interference ratio (for MS) at reference performance
for 8-PSK, 16-QAM and 32-QAM modulated signals (Normal symbol rate andTurbo coding)
(EGPRS2-A DL)

GSM 850 and GSM 900
Type of		Propagation conditions
channel		TU3 (no FH)	TU3 (ideal FH)		TU50 (no FH)		TU50 (ideal FH)	RA250 (no FH)
PDTCH/DAS-5	dB	3	⁽²⁾	-2,0			-3,0	-3
PDTCH/DAS-6	dB	3,5	⁽²⁾	-0,5			-1,5	-1
PDTCH/DAS-7	dB	4,5	⁽²⁾	1,5			0,5	2
PDTCH/DAS-8	dB	7,5	⁽²⁾	4,5			4	5,5
PDTCH/DAS-9	dB	9,0	⁽²⁾	7,5			7	14,5
PDTCH/DAS-10	dB	12,5	⁽²⁾	12			12	14,0**
PDTCH/DAS-11	dB	15,5	⁽²⁾	19			19,5	–
PDTCH/DAS-12	dB	17,5	⁽²⁾	19,5**			17,5**	–
USF/DAS-5 to 7	dB	⁽³⁾	⁽³⁾	⁽³⁾			⁽³⁾	⁽³⁾
USF/DAS-8 to 9	dB	-6,0	⁽²⁾	-14,0			-15,5	-16,0
USF/DAS-10 to 12	dB	-5,5	⁽²⁾	-13,0			-14,5	-14,0
DCS 1 800 and PCS 1900
Type of		Propagation conditions
channel		TU1,5 (no FH)	TU1,5 (ideal FH)		TU50 (no FH)		TU50 (ideal FH)	RA130 (no FH)
PDTCH/DAS-5	dB	⁽²⁾	⁽²⁾			-2,5	⁽²⁾	⁽²⁾
PDTCH/DAS-6	dB	⁽²⁾	⁽²⁾			-0,5	⁽²⁾	⁽²⁾
PDTCH/DAS-7	dB	⁽²⁾	⁽²⁾			1,5	⁽²⁾	⁽²⁾
PDTCH/DAS-8	dB	⁽²⁾	⁽²⁾			5,0	⁽²⁾	⁽²⁾
PDTCH/DAS-9	dB	⁽²⁾	⁽²⁾			9,0	⁽²⁾	⁽²⁾
PDTCH/DAS-10	dB	⁽²⁾	⁽²⁾			16,0	⁽²⁾	⁽²⁾
PDTCH/DAS-11	dB	⁽²⁾	⁽²⁾			22,0**	⁽²⁾	⁽²⁾
PDTCH/DAS-12	dB	⁽²⁾	⁽²⁾			–	⁽²⁾	⁽²⁾
USF/DAS-5 to 7	dB	⁽³⁾	⁽³⁾			⁽³⁾	⁽³⁾	⁽³⁾
USF/DAS-8 to 9	dB	⁽²⁾	⁽²⁾			-14,0	⁽²⁾	⁽²⁾
USF/DAS-10 to 12	dB	⁽²⁾	⁽²⁾			-13,5	⁽²⁾	⁽²⁾
Performance is specified at 30% BLER for those cases identified with mark ‘**’ Performance is not specified for those cases identified with mark ‘-‘ NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 2: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the GSM 850 & GSM 900 TU3 (ideal FH), DCS 1800 & PCS 1900 TU1.5 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition. NOTE 3: The requirements for USF/DAS-5 to 7 are the same as for USF/MCS-5 to 9.

Table 2x: Adjacent channel interference ratio (for normal BTS) at reference performance for QPSK, 16-QAM and 32-QAM modulated signals (Higher symbol rate, BTTI and no PAN)
using narrow pulse shaping filter (EGPRS2-B UL)

GSM 900, GSM 850 and MXM 850

Type of

Propagation conditions

channel

TU3

(no FH)

TU3

(ideal FH)

TU50

(no FH)

TU50

(ideal FH)

RA250

(no FH)

PDTCH/UBS-5

-14,5 / [tbd]

⁽²⁾

-14,0 / [tbd]

-2,5 / [tbd]

PDTCH/UBS-6

-12,0 / [tbd]

⁽²⁾

-11,0 / [tbd]

-11,5 / [tbd]

1,5 / [tbd]

PDTCH/UBS-7

-1,5 / [tbd]

⁽²⁾

-2,5 / [tbd]

-3,0 / [tbd]

7,0 / [tbd]

PDTCH/UBS-8

1,0 / [tbd]

⁽²⁾

0,5 / [tbd]

11,0 / [tbd]

PDTCH/UBS-9

2,5 / [tbd]

⁽²⁾

2,0 / [tbd]

12,5 / [tbd]

PDTCH/UBS-10

7,0 / [tbd]

⁽²⁾

9,0 / [tbd]

18,0 / [tbd]

PDTCH/UBS-11

8,5 / [tbd]

⁽²⁾

13,0 / [tbd]

13,5 / [tbd]

18,5** / [tbd]

PDTCH/UBS-12

9,0 / [tbd]

⁽²⁾

14,5 / [tbd]

15,0 / [tbd]

22,5** / [tbd]

DCS 1 800, PCS 1900 and MXM 1900

Type of

Propagation conditions

channel

TU1,5

(no FH)

TU1,5

(ideal FH)

TU50

(no FH)

TU50

(ideal FH)

RA130

(no FH)

PDTCH/UBS-5

⁽²⁾

-10,0 / [tbd]

⁽²⁾

PDTCH/UBS-6

⁽²⁾

-6,5 / [tbd]

⁽²⁾

PDTCH/UBS-7

⁽²⁾

2,0 / [tbd]

⁽²⁾

PDTCH/UBS-8

⁽²⁾

5,0 / [tbd]

⁽²⁾

PDTCH/UBS-9

⁽²⁾

7,0 / [tbd]

⁽²⁾

PDTCH/UBS-10

⁽²⁾

14,0 / [tbd]

⁽²⁾

PDTCH/UBS-11

⁽²⁾

12,5** / [tbd]

⁽²⁾

PDTCH/UBS-12

⁽²⁾

14,0** / [tbd]

⁽²⁾

NOTE 2: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the GSM 850 & GSM 900 TU3 (ideal FH), DCS 1800 & PCS 1900 TU1.5 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

NOTE 3: RX diversity requirements are given by the left numbers. Requirements without RX diversity are given by the right numbers.

NOTE 4: Performance is specified at 30% BLER for those cases identified with mark **.

Table 2y: Adjacent channel interference ratio (for MS) at reference performance for QPSK, 16-QAM and 32-QAM modulated signals (Higher symbol rate, BTTI, turbo coding and no PAN)
using narrow pulse shaping filter (EGPRS2-B DL)

GSM 850 and GSM 900

Type of

Propagation conditions

channel

TU3

(no FH)

TU3

(ideal FH)

TU50

(no FH)

TU50

(ideal FH)

RA250

(no FH)

PDTCH/DBS-5

[-4,0]

⁽²⁾

[-7,0]

[-7,5]

[-8,0]

PDTCH/DBS-6

[-2,0]

⁽²⁾

[-4,0]

[-4,5]

[-4,0]

PDTCH/DBS-7

[5,0]

⁽²⁾

[1,5]

[0,5]

[2,0]

PDTCH/DBS-8

[8,0]

⁽²⁾

[5,5]

[5,0]

[10,0]

PDTCH/DBS-9

[10,0]

⁽²⁾

[8,5]

[8,0]

[20,5]

PDTCH/DBS-10

[18,5]

⁽²⁾

[17,0]

[17,5]

[-]

PDTCH/DBS-11

[22,5]

⁽²⁾

[29,5]

[30,0]

[-]

PDTCH/DBS-12

[27,5]

⁽²⁾

[23**]

[24**]

[-]

USF/DBS-5 to 6

[-3,0]

⁽²⁾

[-8,0]

[-9,0]

[-9,5]

USF/DBS-7 to 9

[-5,0]

⁽²⁾

[-11,5]

[-12,5]

[-13,0]

USF/DBS-10 to 12

[-4,5]

⁽²⁾

[-10,5]

[-11,0]

[-11,5]

DCS 1 800 and PCS 1900

Type of

Propagation conditions

channel

TU1,5

(no FH)

TU1,5

(ideal FH)

TU50

(no FH)

TU50

(ideal FH)

RA130

(no FH)

PDTCH/DBS-5

⁽²⁾

[-7,5]

⁽²⁾

PDTCH/DBS-6

⁽²⁾

[-4,0]

⁽²⁾

PDTCH/DBS-7

⁽²⁾

[1,5]

⁽²⁾

PDTCH/DBS-8

⁽²⁾

[6,0]

⁽²⁾

PDTCH/DBS-9

⁽²⁾

[9,5]

⁽²⁾

PDTCH/DBS-10

⁽²⁾

[22,0]

⁽²⁾

PDTCH/DBS-11

⁽²⁾

[24,5**]

⁽²⁾

PDTCH/DBS-12

⁽²⁾

[-]

⁽²⁾

USF/DBS-5 to 6

⁽²⁾

[-8,5]

⁽²⁾

USF/DBS-7 to 9

⁽²⁾

[-12,0]

⁽²⁾

USF/DBS-10 to 12

⁽²⁾

[-11,5]

⁽²⁾

Performance is specified at 30% BLER for those cases identified with mark **.

Performance is not specified for those cases identified with mark ‘-‘

NOTE 2 The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the GSM 850 & GSM 900 TU3 (ideal FH), DCS 1800 & PCS 1900 TU1.5 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

Table 2z: Adjacent channel interference ratio (for normal BTS) at reference performance for QPSK, 16-QAM and 32-QAM modulated signals (Higher symbol rate, BTTI and no PAN)
using wide pulse shaping filter (EGPRS2-B UL)

GSM 900, GSM 850 and MXM 850

Type of

Propagation conditions

channel

TU3

(no FH)

TU3

(ideal FH)

TU50

(no FH)

TU50

(ideal FH)

RA250

(no FH)

PDTCH/UBS-5

-17,5 / [tbd]

⁽²⁾

-16,5 / [tbd]

-17,0 / [tbd]

-9,0 / [tbd]

PDTCH/UBS-6

-15,0 / [tbd]

⁽²⁾

-14,0 / [tbd]

-14,5 / [tbd]

-5,5 / [tbd]

PDTCH/UBS-7

-11,5 / [tbd]

⁽²⁾

-9,5 / [tbd]

-2,5 / [tbd]

PDTCH/UBS-8

-8,0 / [tbd]

⁽²⁾

-6,0 / [tbd]

1,5 / [tbd]

PDTCH/UBS-9

-6,0 / [tbd]

⁽²⁾

-3,5 / [tbd]

-4,0 / [tbd]

4,0 / [tbd]

PDTCH/UBS-10

0,0 / [tbd]

⁽²⁾

1,0 / [tbd]

12,5 / [tbd]

PDTCH/UBS-11

5,5 / [tbd]

⁽²⁾

9,0 / [tbd]

25,0 / [tbd]

PDTCH/UBS-12

8,0 / [tbd]

⁽²⁾

13,5 / [tbd]

12,5 / [tbd]

16,5** / [tbd]

DCS 1 800, PCS 1900 and MXM 1900

Type of

Propagation conditions

channel

TU1,5

(no FH)

TU1,5

(ideal FH)

TU50

(no FH)

TU50

(ideal FH)

RA130

(no FH)

PDTCH/UBS-5

⁽²⁾

-13,0 / [tbd]

⁽²⁾

PDTCH/UBS-6

⁽²⁾

-10,0 / [tbd]

⁽²⁾

PDTCH/UBS-7

⁽²⁾

-5,5 / [tbd]

⁽²⁾

PDTCH/UBS-8

⁽²⁾

-2,0 / [tbd]

⁽²⁾

PDTCH/UBS-9

⁽²⁾

1,5 / [tbd]

⁽²⁾

PDTCH/UBS-10

⁽²⁾

5,0 / [tbd]

⁽²⁾

PDTCH/UBS-11

⁽²⁾

14,5 / [tbd]

⁽²⁾

PDTCH/UBS-12

⁽²⁾

20,0 / [tbd]

⁽²⁾

NOTE 2: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the GSM 850 & GSM 900 TU3 (ideal FH), DCS 1800 & PCS 1900 TU1.5 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition.

NOTE 3: RX diversity requirements are given by the left numbers. Requirements without RX diversity are given by the right numbers.

Table 2aa: C/I1 ratio at reference performance for VAMOS I MS for voice channels in VAMOS mode

Propagation conditions		TU50 no FH
VAMOS Test Scenario (see AnnexQ)		VDTS-1
		GSM 900 and GSM 850			DCS 1800 & PCS 1900
SCPIR_DL		+4 dB	0 dB	-4 dB	+4 dB	0 dB	-4 dB
TCH/HS	FER (dB)	11,5	12,5	15,5	11,5	12,5	15,5
	RBER1b	0,1 %	0,24 %	0,08 %	0,1 %	0,23 %	0,21 %
	RBER2	3,9 %	4,7 %	4,12 %	4 %	4,65 %	4,62 %
TCH/EFS	FER (dB)	12	13,5	16,5	11	13	15,5
	RBER1b	0,04 %	0,06 %	0,03 %	0,06 %	0,06 %	0,07 %
	RBER2	3,62 %	3,77 %	3,55 %	4,61 %	4,62 %	4,77 %
TCH/AFS12.2	FER (dB)	12	13,5	16,5	11,5	13	15,5
	RBER1b	0,49 %	0,51 %	0,53 %	0,69 %	0,65 %	0,7 %
TCH/AFS4.75	FER (dB)	6,5	8	10,5	5	6,5	9
	RBER1b	0,12 %	0,1 %	0,1 %	0,14 %	0,17 %	0,13 %
TCH/AHS7.4	FER (dB)	15	17	19,5	15,5	17,5	20,5
	RBER1b	0,15 %	0,15 %	0,16 %	0,15 %	0,14 %	0,15 %
	RBER2	1,6 %	1,61 %	1,75 %	1,64 %	1,6 %	1,58 %
TCH/AHS4.75	FER (dB)	10,5	12	14,5	10,5	12	15
	RBER1b	0,14 %	0,1 %	0,12 %	0,13 %	0,12 %	0,11 %
	RBER2	5,22 %	4,5 %	5,18 %	5,44 %	5,17 %	5,17 %
TCH/WFS12.65	FER (dB)	12	13,5	16,5	11,5	13	15,5
	RBER1b	0,44 %	0,45 %	0,39 %	0,48 %	0,54 %	0,47 %
TCH/WFS6.60	FER (dB)	8,5	10	12,5	7	8,5	11
	RBER1b	0,11 %	0,14 %	0,22 %	0,21 %	0,21 %	0,31 %
FACCH/F	FER	9,5	11,5	14,5	8,5	10,5	13,5
FACCH/H	FER	9	11	14	9	11	13,5
SACCH	FER	9,5	11,5	15	9,5	11,5	15
Repeated FACCH/F	FER	–	7	–	–	6,5	–
Repeated SACCH	FER	–	5	–	–	5	–

Propagation conditions		TU50 no FH
VAMOS Test Scenario (see AnnexQ)		VDTS-2
		GSM 900 and GSM 850			DCS 1800 & PCS 1900
SCPIR_DL		+4 dB	0 dB	-4 dB	+4 dB	0 dB	-4 dB
TCH/HS	FER (dB)	12,5	14,5	17,5	12,5	15	18
	RBER1b	0,22 %	0,25 %	0,22 %	0,29 %	0,1 %	0,22 %
	RBER2	4,86 %	4,9 %	4,74 %	5,4 %	3,6 %	4,73 %
TCH/EFS	FER (dB)	14	15,5	19	13	14,5	17,5
	RBER1b	0,03 %	0,03 %	0,04 %	0,07 %	0,06 %	0,08 %
	RBER2	3,47 %	3,59 %	3,35 %	4,74 %	5,02 %	5,12 %
TCH/AFS4.75	FER (dB)	8,5	10	13	7,5	9	11,5
	RBER1b	0,12 %	0,12 %	0,12 %	0,14 %	0,14 %	0,14 %
TCH/AHS7.4	FER (dB)	17	19	21,5	17,5	19,5	22,5
	RBER1b	0,13 %	0,13 %	0,16 %	0,14 %	0,14 %	0,16 %
	RBER2	1,58 %	1,6 %	1,82 %	1,65 %	1,66 %	1,69 %
TCH/WFS12.65	FER (dB)	14,5	16,5	19	13,5	15,5	18
	RBER1b	0,34 %	0,31 %	0,31 %	0,44 %	0,45 %	0,59 %

Propagation conditions		TU50 no FH
VAMOS Test Scenario (see AnnexQ)		VDTS-3
		GSM 900 and GSM 850			DCS 1800 & PCS 1900
SCPIR_DL		+4 dB	0 dB	-4 dB	+4 dB	0 dB	-4 dB
TCH/HS	FER (dB)	9,5	11,5	16	10	12	16
	RBER1b	0,24 %	0,24 %	0,07 %	0,24 %	0,28 %	0,08 %
	RBER2	5,15 %	5,01 %	3,99 %	5 %	4,99 %	4,07 %
TCH/EFS	FER (dB)	11,5	13	16	10	12	15
	RBER1b	0,03 %	0,03 %	0,03 %	0,04 %	0,03 %	0,03 %
	RBER2	3,95 %	3,62 %	3,67 %	4,89 %	4,92 %	4,95 %
TCH/AFS4.75	FER (dB)	5	6,5	9	3	5	7,5
	RBER1b	0,1 %	0,11 %	0,15 %	0,15 %	0,15 %	0, 2 %
TCH/AHS7.4	FER (dB)	13,5	16	19,5	14	16,5	20
	RBER1b	0,13 %	0,14 %	0,14 %	0,15 %	0,16 %	0,16 %
	RBER2	1,74 %	1,75 %	1,78 %	1,74 %	1,81 %	1,84 %
TCH/WFS12.65	FER (dB)	11	13,5	16,5	10	12,5	15,5
	RBER1b	0,42 %	0,4 %	0,38 %	0,62 %	0,59 %	0,3 %

Propagation conditions		TU50 no FH
VAMOS Test Scenario (see AnnexQ)		VDTS-4
		GSM 900 and GSM 850			DCS 1800 & PCS 1900
SCPIR_DL		+4 dB	0 dB	-4 dB	+4 dB	0 dB	-4 dB
TCH/HS	FER (dB)	-11	-6,5	-0,5	-10,5	-6	1
	RBER1b	0,26 %	0,25 %	0,25 %	0,24 %	0,25 %	0,23 %
	RBER2	4,55 %	4,74 %	4,79 %	4,64 %	4,86 %	4,72 %
TCH/EFS	FER (dB)	-8,5	-4,5	2	-9,5	-5,5	1
	RBER1b	0,05 %	0,03 %	0,03 %	0,05 %	0,03 %	0,04 %
	RBER2	3,58 %	3,89 %	3,8 %	4,29 %	4,8 %	4,82 %
TCH/AFS 4.75	FER (dB)	-16,5	-13,5	-8	-18	-15	-9
	RBER1b	0,1 %	0,13 %	0,13 %	0,15 %	0,15 %	0,17 %
TCH/AHS 7.4	FER (dB)	-2,5	2,5	7	-2	3,5	9
	RBER1b	0,13 %	0,13 %	0,14 %	0,19 %	0,16 %	0,2 %
	RBER2	1,66 %	1,59 %	1,59 %	1,75 %	1,68 %	2 %
TCH/WFS 12.65	FER (dB)	-8	-3,5	2	-9	-5	1,5
	RBER1b	0,37 %	0,32 %	0,47 %	0,55 %	0,48 %	0,63 %

Table 2ab: C/I1 ratio at reference performance for VAMOS II MS for voice channels in VAMOS mode

GSM 900 and GSM 850
VAMOS Test Scenario (see AnnexQ)		VDTS-1
Propagation condition		TU50 noFH
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	10	11,5	13,5	17,5	19
	Rber1b	0,09 %	0,2 %	0,21 %	0,2 %	0,22 %
	Rber2	4,24 %	5,29 %	5,59 %	5,42 %	5,7 %
TCH/EFS	FER (dB)	11,5	13	15,5	19	21
	Rber1b	0,05 %	0,04 %	0,06 %	0,04 %	0,06 %
	Rber2	3,73 %	3,6 %	3,77 %	3,66 %	4,06 %
TCH/AFS12.2	FER (dB)	11,5	13	15,5	19	21
	Rber1b	0,45 %	0,45 %	0,47 %	0,4 %	0,47 %
TCH/AFS4.75	FER (dB)	5,5	7	9	13	15
	Rber1b	0,14 %	0,13 %	0,14 %	0,11 %	0,12 %
TCH/AHS7.4	FER (dB)	14	16	18,5	22	24
	Rber1b	0,16 %	0,12 %	0,13 %	0,17 %	0,17 %
	Rber2	1,67 %	1,56 %	1,61 %	1,92 %	2,01 %
TCH/AHS4.75	FER (dB)	9,5	11	13,5	17	18,5
	Rber1b	0,15 %	0,13 %	0,15 %	0,15 %	0,19 %
	Rber2	5,42 %	5,52 %	5,87 %	5,85 %	6,34 %
TCH/WFS12.65	FER (dB)	11,5	13	15,5	19	21
	Rber1b	0,34 %	0,36 %	0,38 %	0,36 %	0,36 %
TCH/WFS6.60	FER (dB)	7,5	9	11,5	15,5	17
	Rber1b	0,2 %	0,2 %	0,13 %	0,13 %	0,15 %
FACCH/F	FER	9,5	11,5	13,5	17	18,5
FACCH/H	FER	9	11	13,5	16,5	18,5
SACCH	FER	9,5	11,5	14	17	19
Repeated FACCH/F	FER	–	7	–	–	–
Repeated SACCH	FER	–	5	–	–	–

GSM 900 and GSM 850
VAMOS Test Scenario (see AnnexQ)		VDTS-2
Propagation condition		TU50 noFH
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	11,5	13	15,5	19	21
	Rber1b	0,18 %	0,18 %	0,2 %	0,21 %	0,12 %
	Rber2	5,03 %	4,97 %	5,2 %	5,21 %	5 %
TCH/EFS	FER (dB)	13	15	17	20	22
	Rber1b	0,03 %	0,03 %	0,04 %	0,05 %	0,04 %
	Rber2	3,58 %	3,45 %	3,8 %	4,25 %	4,17 %
TCH/AFS4.75	FER (dB)	7	8,5	11	14,5	16
	Rber1b	0,11 %	0,16 %	0,14 %	0,11 %	0,09 %
TCH/AHS7.4	FER (dB)	15,5	17,5	19	23,5	25
	Rber1b	0,15 %	0,15 %	0,1 %	0,12 %	0,12 %
	Rber2	1,84 %	1,82 %	1,89 %	2,03 %	2,15 %
TCH/WFS12.65	FER (dB)	13	15	17	20	22
	Rber1b	0,39 %	0,34 %	0,36 %	0,4 %	0,4 %

GSM 900 and GSM 850
VAMOS Test Scenario (see AnnexQ)		VDTS-3
Propagation condition		TU50 noFH
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	9,5	11	13,5	17,5	19
	Rber1b	0,05 %	0,21 %	0,23 %	0,26 %	0,24 %
	Rber2	4,81 %	4,96 %	5 %	5,5 %	5,5 %
TCH/EFS	FER (dB)	10	12	15	18,5	20,5
	Rber1b	0,05 %	0,05 %	0,07 %	0,07 %	0,06 %
	Rber2	4,23 %	3,85 %	3,75 %	3,69 %	3,76 %
TCH/AFS4.75	FER (dB)	4,5	6	8,5	11,5	13,5
	Rber1b	0,18 %	0,21 %	0,18 %	0,18 %	0,21 %
TCH/AHS7.4	FER (dB)	13	15	18	21,5	23,5
	Rber1b	0,2 %	0,21 %	0,23 %	0,26 %	0,24 %
	Rber2	2,11 %	2 %	2 %	2,2 %	2,5 %
TCH/WFS12.65	FER (dB)	10	13	15	19	21
	Rber1b	0,4 %	0,38 %	0,43 %	0,42 %	0,42 %

GSM 900 and GSM 850
VAMOS Test Scenario (see AnnexQ)		VDTS-4
Propagation condition		TU50 noFH
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dBb	-10 dB
TCH/HS	FER (dB)	-11,5	-8	-3,5	-3,5	-0,5
	Rber1b	0,24 %	0,24 %	0,22 %	0,14 %	0,17 %
	Rber2	5,09 %	5,12 %	5,05 %	5,9 %	6,51 %
TCH/EFS	FER (dB)	-8,5	-5	-0,5	-2,5	1
	Rber1b	0,05 %	0,06 %	0,05 %	0,04 %	0,03 %
	Rber2	3,58 %	3,75 %	3,74 %	4,99 %	3,19 %
TCH/AFS4.75	FER (dB)	-18,5	-15	-12	-10,5	-8,5
	Rber1b	0,22 %	0,14 %	0,13 %	0,18 %	0,17 %
TCH/AHS7.4	FER (dB)	-9,5	-2	0	2,5	7
	Rber1b	0,2 %	0,16 %	0,11 %	0,27 %	0,12 %
	Rber2	2,16 %	1,67 %	1,18 %	2,97 %	1,74 %
TCH/WFS12.65	FER (dB)	-8	-3,5	0	-3	0,5
	Rber1b	0,37 %	0,32 %	0,39 %	0,73 %	0,46 %

DCS 1800 & PCS 1900
VAMOS Test Scenario (see AnnexQ)		VDTS-1
Propagation condition		TU50 noFH
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	10	11,5	14	18	19,5
	Rber1b	0,17 %	0,19 %	0,2 %	0,2 %	0,21 %
	Rber2	5,24 %	5,46 %	5,8 %	5,71 %	5,96 %
TCH/EFS	FER (dB)	10	11,5	14,5	18	20
	Rber1b	0,05 %	0,04 %	0,06 %	0,04 %	0,04 %
	Rber2	5,02 %	5,35 %	5,32 %	5,33 %	5,58 %
TCH/AFS12.2	FER (dB)	10,5	12	14,5	18	20
	Rber1b	0,76 %	0,74 %	0,74 %	0,8 %	0,85 %
TCH/AFS4.75	FER (dB)	3,5	5,5	7,5	11,5	13,5
	Rber1b	0,11 %	0,12 %	0,17 %	0,12 %	0,13 %
TCH/AHS7.4	FER (dB)	14,5	16	18,5	23	24,5
	Rber1b	0,16 %	0,14 %	0,12 %	0,15 %	0,16 %
	Rber2	1,69 %	1,77 %	1,79 %	1,92 %	2,28 %
TCH/AHS4.75	FER (dB)	9,5	11	13,5	17,5	19,5
	Rber1b	0,12 %	0,13 %	0,11 %	0,13 %	0,12 %
	Rber2	5,78 %	5,85 %	6 %	6,09 %	6,41 %
TCH/WFS12.65	FER (dB)	10,5	12	15	18,5	20
	Rber1b	0,49 %	0,53 %	0,52 %	0,64 %	0,6 %
TCH/WFS6.60	FER (dB)	6	7,5	10	14	16
	Rber1b	0,27 %	0,28 %	0,21 %	0,15 %	0,17 %
FACCH/F	FER	8,5	10,5	13	16	18
FACCH/H	FER	9	11	13,5	17	19
SACCH	FER	9,5	11,5	14	17,5	19,5
Repeated FACCH/F	FER	–	6,5	–	–	–
Repeated SACCH	FER	–	5	–	–	–

DCS 1800 & PCS 1900
VAMOS Test Scenario (see AnnexQ)		VDTS-2
Propagation condition		TU50 noFH
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	11,5	13	15,5	19	21
	Rber1b	0,19 %	0,2 %	0,2 %	0,25 %	0,26 %
	Rber2	5,52 %	5,61 %	5,73 %	5,92 %	6,31 %
TCH/EFS	FER (dB)	12	13,5	16	19,5	21,5
	Rber1b	0,03 %	0,07 %	0,06 %	0,05 %	0,05 %
	Rber2	4,57 %	4,89 %	5,16 %	5,38 %	5,62 %
TCH/AFS4.75	FER (dB)	6	7,5	9,5	13	15
	Rber1b	0,15 %	0,15 %	0,15 %	0,19 %	0,13 %
TCH/AHS7.4	FER (dB)	16	17,5	20	24	26,5
	Rber1b	0,12 %	0,13 %	0,14 %	0,16 %	0,15 %
	Rber2	1,85 %	1,96 %	2,01 %	2,25 %	2,36 %
TCH/WFS12.65	FER (dB)	12	13,5	16	20	22
	Rber1b	0,46 %	0,57 %	0,54 %	0,43 %	0,52 %

DCS 1800 & PCS 1900
VAMOS Test Scenario (see AnnexQ)		VDTS-3
Propagation condition		TU50 noFH
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	9,5	11,5	14	18	20
	Rber1b	0,2 %	0,21 %	0,21 %	0,19 %	0,2 %
	Rber2	4,88 %	4,55 %	5 %	5,5 %	5,5 %
TCH/EFS	FER (dB)	9	10,5	14	18	19,5
	Rber1b	0,04 %	0,06 %	0,05 %	0,07 %	0,05 %
	Rber2	5,27 %	5,4 %	4,33 %	4,77 %	4,85 %
TCH/AFS4.75	FER (dB)	2,5	4,5	7	10,5	12,5
	Rber1b	0,18 %	0,11 %	0,15 %	0,16 %	0,16 %
TCH/AHS7.4	FER (dB)	13,5	16	18,5	22,5	24,5
	Rber1b	0,23 %	0,22 %	0,23 %	0,22 %	0,21 %
	Rber2	2 %	2 %	2 %	2,2 %	2,5 %
TCH/WFS12.65	FER (dB)	9	11,5	14	18	20
	Rber1b	0,63 %	0,51 %	0,5 %	0,44 %	0,48 %

DCS 1800 & PCS 1900
VAMOS Test Scenario (see AnnexQ)		VDTS-4
Propagation condition		TU50 noFH
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	-11	-7,5	-2,5	-1	1,5
	Rber1b	0,23 %	0,24 %	0,22 %	0,14 %	0,15 %
	Rber2	5,11 %	5,2 %	5,2 %	4,19 %	5,11 %
TCH/EFS	FER (dB)	-9,5	-6	-1	-2	2
	Rber1b	0,05 %	0,06 %	0,06 %	0,03 %	0,04 %
	Rber2	4,29 %	4,55 %	4,61 %	3,98 %	4,09 %
TCH/AFS4.75	FER (dB)	-19,5	-16,5	-13,5	-11,5	-9,5
	Rber1b	0,21 %	0,16 %	0,21 %	0,22 %	0,22 %
TCH/AHS7.4	FER (dB)	-9,5	-1	0	4,5	9,5
	Rber1b	0,2 %	0,18 %	0,23 %	0,17 %	0,25 %
	Rber2	2,18 %	1,76 %	2,5 %	1,9 %	2,95 %
TCH/WFS12.65	FER (dB)	-9	-5	-0,5	-2,5	1
	Rber1b	0,55 %	0,48 %	0,57 %	0,52 %	0,54 %

Table 2ac: C/I1 ratio at reference performance (for BTS) for voice channels in VAMOS mode

GSM 900 and GSM 850
VAMOS Test Scenario (see Annex Q)		VUTS-1		VUTS-2		VUTS-3		VUTS-4
Propagation condition		TU50 noFH		TU50 noFH		TU50 noFH		TU50 noFH
SCPIR_UL		0 dB	-10 dB	0 dB	-10 dB	0 dB	-10 dB	0 dB	-10 dB
TCH/HS	FER (dB)	11	11.5	-6.5	-8	11.5	11	7	6
	Rber1b	0.20%	0.10%	0.16%	0.13%	0.24%	0.19%	0.23%	0.15%
	Rber2	4.52%	4.50%	3.54%	3.90%	4.51%	4.95%	3.74%	5.00%
TCH/EFS	FER (dB)	13.5	12.5	-3.5	-7	14	13	10	7
	Rber1b	0.04%	0.04%	0.04%	0.04%	0.04%	0.04%	0.04%	0.05%
	Rber2	2.75%	3.30%	3.10%	3.40%	3.30%	3.50%	2.70%	3.70%
TCH/AFS 12.2	FER (dB)	13	12	-4.5	-7.5	13.5	12.5	9.5	6.5
	Rber1b	0.46%	0.53%	0.45%	0.63%	0.53%	0.58%	0.31%	0.42%
TCH/AFS 4.75	FER (dB)	7	–	-12.5	–	6	–	3.5	–
	Rber1b	0.12%	–	0.10%	–	0.21%	–	0.13%	–
TCH/AHS 7.4	FER (dB)	15	14.5	-1	-3	16.5	15	12	10.5
	Rber1b	0.17%	0.18%	0.14%	0.22%	0.18%	0.22%	0.13%	0.15%
	Rber2	1.40%	2.01%	1.20%	1.60%	1.79%	2.16%	1.05%	1.84%
TCH/AHS 4.75	FER (dB)	10.5	–	-7.5	–	10.5	–	7.5	–
	Rber1b	0.15%	–	0.18%	–	0.36%	–	0.15%	–
	Rber2	6.00%	–	4.50%	–	5.10%	–	5.20%	–
TCH/WFS 12.65	FER (dB)	13	12	-4	-6.5	14	12.5	9.5	7
	Rber1b	0.32%	0.42%	0.30%	0.35%	0.33%	0.37%	0.27%	0.32%
TCH/WFS 6.60	FER (dB)	9	–	-11	–	8.5	–	4.5	–
	Rber1b	0.15%	–	0.15%	–	0.22%	–	0.15%	–
FACCH/F	FER	10	–	-8.5	–	11	–	6.5	–
FACCH/H	FER	10.5	–	-8.5	–	10.5	–	6	–
SACCH	FER	10	–	-7.5	–	11	–	6.5	–
Repeated SACCH	FER	6	–	-14.5	–	5	–	2.5	–

DCS 1800 & PCS 1900
VAMOS Test Scenario (see Annex Q)		VUTS-1		VUTS-2		VUTS-3		VUTS-4
Propagation condition		TU50 noFH		TU50 noFH		TU50 noFH		TU50 noFH
SCPIR_UL		0 dB	-10 dB	0 dB	-10 dB	0 dB	-10 dB	0 dB	-10 dB
TCH/HS	FER (dB)	11	12	-5.5	-6.5	11.5	12	7.5	7
	Rber1b	0.21%	0.17%	0.18%	0.15%	0.23%	0.18%	0.23%	0.17%
	Rber2	4.64%	4.46%	3.50%	4.01%	4.60%	4.90%	3.86%	4.24%
TCH/EFS	FER (dB)	13.5	13.5	-3.5	-5	14.5	14	10.5	9
	Rber1b	0.04%	0.04%	0.04%	0.04%	0.04%	0.04%	0.04%	0.04%
	Rber2	2.90%	3.87%	3.85%	3.41%	3.10%	3.45%	2.30%	3.27%
TCH/AFS 12.2	FER (dB)	13	13.5	-4.5	-6	14	14	10	8
	Rber1b	0.40%	0.70%	0.52%	0.67%	0.50%	0.70%	0.39%	0.66%
TCH/AFS 4.75	FER (dB)	6	–	-14	–	5.5	–	1	–
	Rber1b	0.14%	–	0.13%	–	0.26%	–	0.15%	–
TCH/AHS 7.4	FER (dB)	15.5	17	-1	0.5	17	17.5	12.5	14
	Rber1b	0.18%	0.29%	0.18%	0.23%	0.18%	0.27%	0.16%	0.18%
	Rber2	1.30%	2.00%	1.54%	1.75%	1.35%	2.02%	1.15%	2.00%
TCH/AHS 4.75	FER (dB)	11.5	–	-7.5	–	10	–	8.5	–
	Rber1b	0.25%	–	0.21%	–	0.37%	–	0.25%	–
	Rber2	6.39%	–	4.40%	–	5.40%	–	6.01%	–
TCH/WFS 12.65	FER (dB)	13.5	13.5	-4	-5	14	14	10.5	9
	Rber1b	0.39%	0.52%	0.32%	0.50%	0.40%	0.54%	0.42%	0.39%
TCH/WFS 6.60	FER (dB)	8.5	–	-11	–	8.5	–	4	–
	Rber1b	0.20%	–	0.15%	–	0.27%	–	0.15%	–
FACCH/F	FER	10	–	-8.5	–	10.5	–	6.5	–
FACCH/H	FER	10.5	–	-8	–	10.5	–	6.5	–
SACCH	FER	12	–	-7	–	10.5	–	8.5	–
Repeated SACCH	FER	6	–	-15	–	5	–	2.5	–

Table 2ad: Cochannel interference ratio (for MS) at reference performance for TIGHTER

GSM 850 and GSM 900
Type of		Propagation conditions
Channel		TU3 (no FH)	TU3 (ideal FH)		TU50 (no FH)			TU50 (ideal FH)	RA250 (no FH)
FACCH/H	dB	1,5		-2,5		-2,5	-2,5		1
FACCH/F	dB	2		-3		-2,5	-3		-0,5
SDCCH	dB	2		-2		-1	-2		1,5
TCH/FS	dB	7		0		0	-1		3
	RBER1b (%)	0,05		0,07		0,06	0,08		0,07
	RBER2 (%)	0,6		4,66		4,56	5,67		6,5
TCH/EFS	dB	7		0		1	-0,5		3.5
	RBER1b (%)	0,19		0,09		0,18	0,09		0,03
	RBER2 (%)	0,62		4,86		5,07	4,92		6,01
TCH/HS	dB	7		0,5		1	0		4,5
	RBER1b (%)	0,17		0,23		0,24	0,23		0,17
	RBER2 (%)	0,95		4,45		4,16	4,6		5,19
TCH/AFS12.2	dB	5		-1,5		-2,5	-1,5		2.5
	RBER1b (%)	0,14		0,92		⁽⁶⁾	0,87		1,28
TCH/AFS10.2	dB	4		-3		⁽⁶⁾	-3		1
	RBER1b (%)	0,07		0,18		⁽⁶⁾	0,15		0,24
TCH/AFS7.95	dB	2,5		-5		⁽⁶⁾	-4,5		-2
	RBER1b (%)	0,11		0,35		⁽⁶⁾	0,34		0,46
TCH/AFS7.4	dB	2,5		-5		⁽⁶⁾	-4,5		-2,5
	RBER1b (%)	0,08		0,16		⁽⁶⁾	0,13		0,26
TCH/AFS6.7	dB	2		-5,5		⁽⁶⁾	-5,5		-3,5
	RBER1b (%)	0,16		0,48		⁽⁶⁾	0,49		0,74
TCH/AFS5.9	dB	2		-6		⁽⁶⁾	-6		-4
	RBER1b (%)	0,05		0,15		⁽⁶⁾	0,14		0,21
TCH/AFS5.15	dB	1,5		-6,5		⁽⁶⁾	-6,5		-5
	RBER1b (%)	0,11		0,2		⁽⁶⁾	0,21		0,29
TCH/AFS4.75	dB	1		-7		⁽⁶⁾	-7		-5,5
	RBER1b (%)	0,06		0,12		⁽⁶⁾	0,13		0,15
TCH/AHS7.95	dB	7		2,5		⁽⁶⁾	3		16
	RBER1b (%)	0,12		0,38		⁽⁶⁾	0,28		0,44
	RBER2 (%)	0,39		1,85		⁽⁶⁾	1,8		1,77
TCH/AHS7.4	dB	6,5		2		⁽⁶⁾	2		13,5
	RBER1b (%)	0,08		0,21		⁽⁶⁾	0,21		0,17
	RBER2 (%)	0,45		2,26		⁽⁶⁾	2,31		2,35
TCH/AHS6.7	dB	5,5		1		⁽⁶⁾	1		9,5
	RBER1b (%)	0,09		0,19		⁽⁶⁾	0,19		0,24
	RBER2 (%)	0,7		2,8		⁽⁶⁾	2,7		3,5
TCH/AHS5.9	dB	5		0		⁽⁶⁾	0		7
	RBER1b (%)	0,07		0,11		⁽⁶⁾	0,15		0,16
	RBER2 (%)	0,73		3,6		⁽⁶⁾	3,4		3,93
TCH/AHS5.15	dB	4,5		-1		⁽⁶⁾	-1,5		4
	RBER1b (%)	0,06		0,18		⁽⁶⁾	0,26		0,28
	RBER2 (%)	0,9		4,4		⁽⁶⁾	5,23		5,54
TCH/AHS4.75	dB	3,5		-2		⁽⁶⁾	-2		3
	RBER1b (%)	0,08		0,1		⁽⁶⁾	0,15		0,13
	RBER2 (%)	1,21		5,4		⁽⁶⁾	5,6		6,38
TCH/WFS12.65	dB	14,5		⁽²⁾		8,5	⁽²⁾		12,5
	RBER1b (%)	0,08		⁽²⁾		0,40	⁽²⁾		0,63
TCH/ WFS8.85	dB	13		⁽²⁾		5,5	⁽²⁾		9
	RBER1b (%)	0,11		⁽²⁾		0,42	⁽²⁾		0,73
TCH/ WFS6.60	dB	12		⁽²⁾		4,5	⁽²⁾		8
	RBER1b (%)	0,09		⁽²⁾		0,16	⁽²⁾		0,24
PDTCH/CS-1	dB	9		5,5		6,5	5,5		6,5
PDTCH/CS-2	dB	11		9,5		10,5	9,5		10,5
PDTCH/CS-3	dB	12		11,5		12,5	11,5		13,5
PDTCH/CS-4	dB	17		19,5		20,5	20,5		–
PDTCH/MCS-1	dB	9		5,5		6,5	5,5		8
PDTCH/MCS-2	dB	11		8		8,5	8		10
PDTCH/MCS-3	dB	12,5		12,5		13	13		17
PDTCH/MCS-4	dB	15		17,5		18	18		–
PDTCH/MCS-5	dB	15,5		10,5		12	11		13,5
PDTCH/MCS-6	dB	17,5		13		14,5	14		18
PDTCH/MCS-7	dB	22,5		19,5		21,5	21		–
PDTCH/MCS-8	dB	26,5		19,5**		22**	22**		–
PDTCH/MCS-9	dB	21,5**		24**		27**	27**		–
PDTCH/DAS-5	dB	[14,5]		⁽²⁾		[12]	[11,5]		[12,5] ⁽⁷⁾
PDTCH/DAS-6	dB	[16]		⁽²⁾		[13]	[12]		[14,5] ⁽⁷⁾
PDTCH/DAS-7	dB	[17,5]		⁽²⁾		[14]	[13,5]		[16,5] ⁽⁷⁾
PDTCH/DAS-8	dB	[19,5]		⁽²⁾		[16]	[15,5]		[17,5]
PDTCH/DAS-9	dB	[21,5]		⁽²⁾		[19]	[19]		[22,5]
PDTCH/DAS-10	dB	[25]		⁽²⁾		[22]	[22]		[22,5**]
PDTCH/DAS-11	dB	[27,5]		⁽²⁾		[27,5]	[27,5]		–
PDTCH/DAS-12	dB	[31,5]		⁽²⁾		[29**]	[29**]		–
PDTCH/DBS-5	dB	[14]		⁽²⁾		[11,5]	[10]		[12] ⁽⁷⁾
PDTCH/DBS-6	dB	[16]		⁽²⁾		[14]	[15,5]		[15] ⁽⁷⁾
PDTCH/DBS-7	dB	[19]		⁽²⁾		[15]	[15]		[16]
PDTCH/DBS-8	dB	[22]		⁽²⁾		[18]	[18,5]		[21]
PDTCH/DBS-9	dB	[23,5]		⁽²⁾		[21]	[21]		[24]
PDTCH/DBS-10	dB	[31] ⁽⁷⁾		⁽²⁾		[26]	[28,5]		–
PDTCH/DBS-11	dB	[34] ⁽⁷⁾		⁽²⁾		[25**]	[25**]		–
PDTCH/DBS-12	dB	[27**] ⁽⁷⁾		⁽²⁾		[28,5**]	[29**]		–
(continued)

Table 2ad (continued): Cochannel interference ratio (for MS) at reference performance for TIGHTER

DCS 1 800 and PCS 1900
Type of		Propagation conditions
Channel		TU1,5 (no FH)	TU1,5 (ideal FH)		TU50 (no FH)			TU50 (ideal FH)	RA130 (no FH)
FACCH/H	dB	1,5		-2,5		-2	-2		1
FACCH/F	dB	2		-3		-2,5	-2,5		-0,5
SDCCH	dB	2		-2		-1,5	-1,5		1,5
TCH/FS	dB	7		0		0	0		3
	RBER1b (%)	0,05		0,07		0,06	0,07		0,06
	RBER2 (%)	0,6		4,66		3,8	4,34		6,49
TCH/EFS	dB	7		0		0	0,5		3
	RBER1b (%)	0,19		0,09		0,08	0,09		0,03
	RBER2 (%)	0,62		4,86		4,02	4,54		6,21
TCH/HS	dB	7		0,5		1	1		5
	RBER1b (%)	0,17		0,23		0,24	0,24		0,16
	RBER2 (%)	0,95		4,45		4,08	4,35		5,13
TCH/AFS12.2	dB	5		-1,5		⁽⁶⁾	-1,5		2.5
	RBER1b (%)	0,14		0,92		⁽⁶⁾	0,88		1,28
TCH/AFS10.2	dB	4		-3		⁽⁶⁾	-3		1
	RBER1b (%)	0,07		0,15		⁽⁶⁾	0,26		0,26
TCH/AFS7.95	dB	3		-5		⁽⁶⁾	-4,5		-2
	RBER1b (%)	0,1		0,35		⁽⁶⁾	0,34		0,46
TCH/AFS7.4	dB	2,5		-5		⁽⁶⁾	-4,5		-2,5
	RBER1b (%)	0,07		0,16		⁽⁶⁾	0,14		0,24
TCH/AFS6.7	dB	2		-5,5		⁽⁶⁾	-5,5		-3,5
	RBER1b (%)	0,15		0,48		⁽⁶⁾	0,51		0,75
TCH/AFS5.9	dB	2		-6		⁽⁶⁾	-6		-4
	RBER1b (%)	0,07		0,15		⁽⁶⁾	0,14		0,2
TCH/AFS5.15	dB	1,5		-6,5		⁽⁶⁾	-6,5		-5
	RBER1b (%)	0,1		0,2		⁽⁶⁾	0,2		0,28
TCH/AFS4.75	dB	1		-7		⁽⁶⁾	-7		-5,5
	RBER1b (%)	0,06		0,12		⁽⁶⁾	0,14		0,15
TCH/AHS7.95	dB	7		2,5		⁽⁶⁾	3		16.5
	RBER1b (%)	0,12		0,38		⁽⁶⁾	0,41		0,42
	RBER2 (%)	0,39		1,85		⁽⁶⁾	1,96		1,74
TCH/AHS7.4	dB	6,5		2		⁽⁶⁾	2,5		14,5
	RBER1b (%)	0,08		0,2		⁽⁶⁾	0,2		0,16
	RBER2 (%)	0,5		2,26		⁽⁶⁾	2,34		2,27
TCH/AHS6.7	dB	5,5		1		⁽⁶⁾	1		9,5
	RBER1b (%)	0,1		0,19		⁽⁶⁾	0,29		0,23
	RBER2 (%)	0,8		2,58		⁽⁶⁾	3,4		3,53
TCH/AHS5.9	dB	5		0		⁽⁶⁾	0		7
	RBER1b (%)	0,07		0,11		⁽⁶⁾	0,14		0,15
	RBER2 (%)	0,8		3,25		⁽⁶⁾	3,92		3,9
TCH/AHS5.15	dB	4,5		-1		⁽⁶⁾	-1		4
	RBER1b (%)	0,06		0,18		⁽⁶⁾	0,26		0,27
	RBER2 (%)	1,0		4,29		⁽⁶⁾	5,28		5,61
TCH/AHS4.75	dB	3,5		-2		⁽⁶⁾	-2		3
	RBER1b (%)	0,08		0,1		⁽⁶⁾	0,16		0,13
	RBER2 (%)	1,3		5,5		⁽⁶⁾	6,31		6,4
TCH/WFS12.65	dB	⁽²⁾		⁽²⁾		7	⁽²⁾		⁽²⁾
	RBER1b (%)	⁽²⁾		⁽²⁾		0,63	⁽²⁾		⁽²⁾
TCH/ WFS8.85	dB	⁽²⁾		⁽²⁾		4	⁽²⁾		⁽²⁾
	RBER1b (%)	⁽²⁾		⁽²⁾		0,64	⁽²⁾		⁽²⁾
TCH/ WFS6.60	dB	⁽²⁾		⁽²⁾		3	⁽²⁾		⁽²⁾
	RBER1b (%)	⁽²⁾		⁽²⁾		0,27	⁽²⁾		⁽²⁾
PDTCH/CS-1	dB	9		5,5		5,5	5,5		6,5
PDTCH/CS-2	dB	11		9,5		9,5	9,5		10,5
PDTCH/CS-3	dB	12		11,5		12,5	12,5		13,5
PDTCH/CS-4	dB	17		19,5		23,5	23,5		–
PDTCH/MCS-1	dB	10		6,5		7,5	6		8
PDTCH/MCS-2	dB	12		9		9,5	8,5		10
PDTCH/MCS-3	dB	13,5		13,5		14	13,5		17
PDTCH/MCS-4	dB	16		18,5		19	18,5		–
PDTCH/MCS-5	dB	16		11		11,5	11,5		13,5
PDTCH/MCS-6	dB	18		13,5		14,5	14,5		18
PDTCH/MCS-7	dB	23		20		24	24		–
PDTCH/MCS-8	dB	27		20**		26**	25**		–
PDTCH/MCS-9	dB	22**		24,5**		–	–		–
PDTCH/DAS-5	dB	⁽²⁾		⁽²⁾		[11,5]	⁽²⁾		⁽²⁾
PDTCH/DAS-6	dB	⁽²⁾		⁽²⁾		[12,5]	⁽²⁾		⁽²⁾
PDTCH/DAS-7	dB	⁽²⁾		⁽²⁾		[14]	⁽²⁾		⁽²⁾
PDTCH/DAS-8	dB	⁽²⁾		⁽²⁾		[16]	⁽²⁾		⁽²⁾
PDTCH/DAS-9	dB	⁽²⁾		⁽²⁾		[20]	⁽²⁾		⁽²⁾
PDTCH/DAS-10	dB	⁽²⁾		⁽²⁾		[22,5]	⁽²⁾		⁽²⁾
PDTCH/DAS-11	dB	⁽²⁾		⁽²⁾		[27,5**]	⁽²⁾		⁽²⁾
PDTCH/DAS-12	dB	⁽²⁾		⁽²⁾		–	⁽²⁾		⁽²⁾
PDTCH/DBS-5	dB	⁽²⁾		⁽²⁾		[12] ⁽⁷⁾	⁽²⁾		⁽²⁾
PDTCH/DBS-6	dB	⁽²⁾		⁽²⁾		[15,5] ⁽⁷⁾	⁽²⁾		⁽²⁾
PDTCH/DBS-7	dB	⁽²⁾		⁽²⁾		[15,5]	⁽²⁾		⁽²⁾
PDTCH/DBS-8	dB	⁽²⁾		⁽²⁾		[19,5]	⁽²⁾		⁽²⁾
PDTCH/DBS-9	dB	⁽²⁾		⁽²⁾		[18,5**]	⁽²⁾		⁽²⁾
PDTCH/DBS-10	dB	⁽²⁾		⁽²⁾		[23**]	⁽²⁾		⁽²⁾
PDTCH/DBS-11	dB	⁽²⁾		⁽²⁾		–	⁽²⁾		⁽²⁾
PDTCH/DBS-12	dB	⁽²⁾		⁽²⁾		–	⁽²⁾		⁽²⁾
Performance is specified at 30% BLER for those cases identified with mark ‘**’ NOTE 1: The specification for SDCCH applies also for BCCH, AGCH, PCH, SACCH. The actual performance of SACCH, particularly for the C/I TU3 (no FH) and TU 1.5 (no FH) cases should be better. NOTE 2: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the GSM 850 & GSM 900 TU3 (ideal FH), DCS 1800 & PCS 1900 TU1.5 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition. NOTE 3: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 4: FER for CCHs takes into account frames which are signalled as being erroneous (by the FIRE code, parity bits, or other means) or where the stealing flags are wrongly interpreted. NOTE 5: PDTCH/CS-4, PDTCH/MCS-x, PDTCH/DAS-x and PDTCH/DBS-x cannot meet the reference performance for some propagation conditions (-). NOTE 6: The TU50 no FH TIGHTER requirement for these TCH are specified as a fixed tightening of the reference interference performance listed in Table 2 by 10 dB for GSM 850 & 900 and by 9,5 dB for DCS 1800 and PCS 1900. NOTE 7: The requirement is identical to the EGPRS2-A or EGPRS2-B requirement in Table 2s or Table 2u, respectively.

Table 2ae: C/I1 ratio at reference performance for TIGHTER

GSM 900 and GSM 850
Propagation condition				TU50 no FH
Type of channel				DARP Test Scenario
				DTS-1		DTS-2		DTS-3		DTS-4		DTS-5
FACCH/F	dB			-5,5		5,5		7		–		–
SDCCH	dB			-4,5		7		8		–		–
TCH/FS	dB			-4		7,5		8		-2		7
	RBER1b (%)			0,1		0,1		0,1		0,1		0,1
	RBER2 (%)			4,6		4,4		4,3		5,02		4,6
TCH/AFS12.2	dB			-2,5		8		8		-2,5		7,5
	RBER1b (%)			0,6		0,6		0,5		0,8		0,7
TCH/AFS10.2	dB			-4		6,5		7		–		–
	RBER1b (%)			0,2		0,15		0,15		–		–
TCH/AFS7.95	dB			-6		4,5		5,5		–		–
	RBER1b (%)			0,35		0,28		0,28		–		–
TCH/AFS7.4	dB			-6		4,5		5,5		–		–
	RBER1b (%)			0,2		0,15		0,15		–		–
TCH/AFS6.7	dB			-7,5		3,5		5		–		–
	RBER1b (%)			0,5		0,39		0,37		–		–
TCH/AFS5.9	dB			-7,5		3,5		4,5		-8		3
	RBER1b (%)			0,2		0,2		0,15		0,16		0,2
TCH/AFS5.15	dB			-8,5		3		3,5		–		–
	RBER1b (%)			0,21		0,2		0,25		–		–
TCH/AFS4.75	dB			-9		2,5		3		–		–
	RBER1b (%)			0,15		0,15		0,15		–		–
TCH/AHS7.95	dB			1,5		12		12,5		–		–
	RBER1b (%)			0,35		0,3		0,35		–		–
	RBER2 (%)			1,8		1,6		1,43		–		–
TCH/AHS7.4	dB			1		10,5		11,5		–		–
	RBER1b (%)			0,25		0,2		0,2		–		–
	RBER2 (%)			2,2		1,9		1,8		–		–
TCH/AHS6.7	dB			-0,5		9,5		10		–		–
	RBER1b (%)			0,25		0,3		0,25		–		–
	RBER2 (%)			2,9		2,8		2,5		–		–
TCH/AHS5.9	dB			-1,5		8,5		9,5		–		–
	RBER1b (%)			0,15		0,15		0,15		–		–
	RBER2 (%)			3,7		3,5		3,5		–		–
TCH/AHS5.15	dB			-3		7		8		–		–
	RBER1b (%)			0,25		0,3		0,3		–		–
	RBER2 (%)			4,9		4,5		4,8		–		–
TCH/AHS4.75	dB			-4,5		5,5		6,5		–		–
	RBER1b (%)			0,2		0,25		0,2		–		–
	RBER2 (%)			6,5		5,8		5,5		–		–
PDTCH CS-1	dB			-7		6		6,5		–		–
PDTCH CS-2	dB			-4		8,5		9		–		–
PDTCH CS-3	dB			-1,5		11		11,5		–		–
PDTCH CS-4	dB			9,5		20		20,5		–		–
PDTCH MCS-1		dB	-6		7,5		8,5		–		–
PDTCH MCS-2		dB	-4		9		10		–		–
PDTCH MCS-3		dB	1,5		13		13,5		–		–
PDTCH MCS-4		dB	8,5		18		19		–		–
(Continued)

Table 2ae (continued): C/I1 ratio at reference performance for TIGHTER

DCS 1 800 & PCS 1900
Propagation condition				TU50 no FH
Type of channel				DARP Test Scenario
				DTS-1		DTS-2		DTS-3		DTS-4		DTS-5
FACCH/F		dB		-5,5		5		6		–		–
SDCCH		dB		-4,5		6		7,5		–		–
TCH/FS		dB		-4		7		7		-2,5		7
		RBER1b (%)		0,1		0,1		0,1		0,1		0,1
		RBER2 (%)		5,3		5,7		5,4		6,09		5,8
TCH/AFS12.2		dB		-3,5		7		8		-2,5		7
		RBER1b (%)		0,87		0,89		0,8		0,95		1,1
TCH/AFS10.2		dB		-4,5		5,5		6,5		–		–
		RBER1b (%)		0,2		0,2		0,2		–		–
TCH/AFS7.95		dB		-7		3,5		4,5		–		–
		RBER1b (%)		0,36		0,43		0,4		–		–
TCH/AFS7.4		dB		-7		3,5		4,5		–		–
		RBER1b (%)		0,2		0,2		0,2		–		–
TCH/AFS6.7		dB		-8		2,5		3,5		–		–
		RBER1b (%)		0,7		0,6		0,56		–		–
TCH/AFS5.9		dB		-8,5		2,5		3		-8,5		2
		RBER1b (%)		0,2		0,3		0,16		0,21		0,22
TCH/AFS5.15		dB		-9		1,5		2,5		–		–
		RBER1b (%)		0,25		0,3		0,25		–		–
TCH/AFS4.75		dB		-9,5		1		2		–		–
		RBER1b (%)		0,15		0,2		0,2		–		–
TCH/AHS7.95		dB		2,5		12		13		–		–
		RBER1b (%)		0,35		0,4		0,3		–		–
		RBER2 (%)		1,7		1,8		1,5		–		–
TCH/AHS7.4		dB		1,5		11		12		–		–
		RBER1b (%)		0,2		0,2		0,2		–		–
		RBER2 (%)		2,1		1,9		1,9		–		–
TCH/AHS6.7		dB		0		9,5		10,5		–		–
		RBER1b (%)		0,25		0,25		0,25		–		–
		RBER2 (%)		3,2		2,8		2,5		–		–
TCH/AHS5.9		dB		-1,5		8,5		9,5		–		–
		RBER1b (%)		0,15		0,2		0,2		–		–
		RBER2 (%)		3,8		3,4		3,3		–		–
TCH/AHS5.15		dB		-2,5		7		8		–		–
		RBER1b (%)		0,31		0,3		0,3		–		–
		RBER2 (%)		5		4,7		4,4		–		–
TCH/AHS4.75		dB		-4		6		7		–		–
		RBER1b (%)		0,2		0,25		0,2		–		–
		RBER2 (%)		6,7		5,9		5,46		–		–
PDTCH CS-1		dB		-6,5		5		6		–		–
PDTCH CS-2		dB		-3		8,5		9		–		–
PDTCH CS-3		dB		0		10,5		11		–		–
PDTCH CS-4		dB		13		21,5		22		–		–
PDTCH MCS-1		dB		-5,5		7		8		–		–
PDTCH MCS-2	dB		-3,5		9		9,5		–		–
PDTCH MCS-3	dB		2		13		13,5		–		–
PDTCH MCS-4	dB		9		20		20,5		–		–

Table 2af: Adjacent channel interference ratio (for MS) at reference performance
for TIGHTER

GSM 850 and GSM 900
Type of		Propagation conditions
Channel		TU3 (no FH)	TU3 (ideal FH)		TU50 (no FH)			TU50 (ideal FH)	RA250 (no FH)
FACCH/H	dB	-16		-21		-21	-21		-21
FACCH/F	dB	-15,5		-21,5		-20,5	-21,5		-21,5
SDCCH	dB	-15,5		-20		-19,5	-20		-20
TCH/FS	dB	-11,5		-19,5		-18,5	-19,5		-19,5
	RBER1b (%)	0,06		0,08		0,07	0,08		0,07
	RBER2 (%)	0,6		5,55		4,12	5,55		6,34
TCH/EFS	dB	-11		-19,5		-18	-19		-19
	RBER1b (%)	0,02		0,04		0,03	0,03		0,04
	RBER2 (%)	0,5		5,2		3,88	4,77		5,73
TCH/HS	dB	-12,5		-19		-19	-19		-18,5
	RBER1b (%)	0,14		0,18		0,19	0,16		0,19
	RBER2 (%)	1,01		5,19		5,04	5,08		5,48
TCH/AFS12.2	dB	-11,5		-19,5		⁽⁶⁾	-19,5		-19,5
	RBER1b (%)	0,12		1,02		⁽⁶⁾	1,01		1,15
TCH/AFS10.2	dB	-12,5		-21		⁽⁶⁾	-21		-21
	RBER1b (%)	0,07		0,25		⁽⁶⁾	0,25		0,26
TCH/AFS7.95	dB	-14		-23		⁽⁶⁾	-23		-23
	RBER1b (%)	0,11		0,44		⁽⁶⁾	0,44		0,43
TCH/AFS7.4	dB	-14		-23		⁽⁶⁾	-23		-23
	RBER1b (%)	0,07		0,23		⁽⁶⁾	0,23		0,24
TCH/AFS6.7	dB	-15		-24		⁽⁶⁾	-24		-24
	RBER1b (%)	0,14		0,63		⁽⁶⁾	0,64		0,68
TCH/AFS5.9	dB	-15		-24,5		⁽⁶⁾	-24,5		-24,5
	RBER1b (%)	0,07		0,2		⁽⁶⁾	0,2		0,21
TCH/AFS5.15	dB	-15,5		-25		⁽⁶⁾	-25		-25
	RBER1b (%)	0,09		0,29		⁽⁶⁾	0,28		0,3
TCH/AFS4.75	dB	-16		-25,5		⁽⁶⁾	-25,5		-25,5
	RBER1b (%)	0,07		0,17		⁽⁶⁾	0,16		0,17
TCH/AHS7.95	dB	-9,5		-15		⁽⁶⁾	-14,5		-10
	RBER1b (%)	0,11		0,42		⁽⁶⁾	0,41		0,43
	RBER2 (%)	0,36		1,97		⁽⁶⁾	1,92		1,99
TCH/AHS7.4	dB	-10		-15,5		⁽⁶⁾	-15,5		-12
	RBER1b (%)	0,08		0,22		⁽⁶⁾	0,21		0,2
	RBER2 (%)	0,43		2,29		⁽⁶⁾	2,28		2,54
TCH/AHS6.7	dB	-11		-17		⁽⁶⁾	-17		-15,5
	RBER1b (%)	0,09		0,28		⁽⁶⁾	0,29		0,29
	RBER2 (%)	0,57		3,26		⁽⁶⁾	3,3		3,71
TCH/AHS5.9	dB	-11,5		-18		⁽⁶⁾	-18		-16,5
	RBER1b (%)	0,07		0,17		⁽⁶⁾	0,16		0,17
	RBER2 (%)	0,66		4,02		⁽⁶⁾	4,02		4,21
TCH/AHS5.15	dB	-12,5		-19		⁽⁶⁾	-19		-18,5
	RBER1b (%)	0,12		0,31		⁽⁶⁾	0,3		0,32
	RBER2 (%)	0,91		5,3		⁽⁶⁾	5,34		5,77
TCH/AHS4.75	dB	-13		-20		⁽⁶⁾	-20		-19,5
	RBER1b (%)	0,09		0,16		⁽⁶⁾	0,16		0,16
	RBER2 (%)	1,11		6,26		⁽⁶⁾	6,32		6,69
TCH/WFS12.65	dB	-10,5		⁽²⁾		-17,5	⁽²⁾		-19
	RBER1b (%)	0,08		⁽²⁾		0,40	⁽²⁾		0,63
TCH/ WFS8.85	dB	-12		⁽²⁾		-20,5	⁽²⁾		-22,5
	RBER1b (%)	0,11		⁽²⁾		0,42	⁽²⁾		0,73
TCH/ WFS6.60	dB	-13		⁽²⁾		-21,5	⁽²⁾		-23,5
	RBER1b (%)	0,09		⁽²⁾		0,16	⁽²⁾		0,24
PDTCH/CS-1	dB	-15		-19		-18	-19		-18
PDTCH/CS-2	dB	-13		-15		-14	-15		-14
PDTCH/CS-3	dB	-12		-13		-12	-13		-11
PDTCH/CS-4	dB	-7		-5		-4	-4		–
PDTCH/MCS-1	dB	[-14		-17,5		-16,5	-18		-17
PDTCH/MCS-2	dB	-12		-14,5		-14,5	-15,5		-15
PDTCH/MCS-3	dB	-10,5		-1,5		-10	-10,5		-8
PDTCH/MCS-4	dB	-8		3,5		-5	-5,5		–
PDTCH/MCS-5	dB	-9		-13,5		-12,5	-13,5		-13,5
PDTCH/MCS-6	dB	-7		-11		-10,5	-11,5		-10
PDTCH/MCS-7	dB	-2,5		-5		-4	-4		–
PDTCH/MCS-8	dB	5		-3**		-2,5**	-2,5**		–
PDTCH/MCS-9	dB	0,5**		-1**		3**	3**		–
PDTCH/DAS-5	dB	[-8,5]		⁽²⁾		[-12]	[-13]		[-12]
PDTCH/DAS-6	dB	[-8]		⁽²⁾		[-10,5]	[-11,5]		[-10]
PDTCH/DAS-7	dB	[-7]		⁽²⁾		[-8,5]	[-9,5]		[-7]
PDTCH/DAS-8	dB	[-2]		⁽²⁾		[-5,5]	[-5,5]		[-2]
PDTCH/DAS-9	dB	[-0,5]		⁽²⁾		[-2,5]	[-2,5]		[7]
PDTCH/DAS-10	dB	[10,5]		⁽²⁾		[7]	[9]		[8,5**]
PDTCH/DAS-11	dB	[13,5]		⁽²⁾		[14]	[16,5]		–
PDTCH/DAS-12	dB	[15,5]		⁽²⁾		[14,5**]	[14,5**]		–
PDTCH/DBS-5	dB	[-4] ⁽⁷⁾		⁽²⁾		[-7] ⁽⁷⁾	[-7,5] ⁽⁷⁾		[-8] ⁽⁷⁾
PDTCH/DBS-6	dB	[-2] ⁽⁷⁾		⁽²⁾		[-4] ⁽⁷⁾	[-4,5] ⁽⁷⁾		[-4] ⁽⁷⁾
PDTCH/DBS-7	dB	[5] ⁽⁷⁾		⁽²⁾		[1,5] ⁽⁷⁾	[0,5] ⁽⁷⁾		[2] ⁽⁷⁾
PDTCH/DBS-8	dB	[8] ⁽⁷⁾		⁽²⁾		[5,5] ⁽⁷⁾	[5] ⁽⁷⁾		[10] ⁽⁷⁾
PDTCH/DBS-9	dB	[10] ⁽⁷⁾		⁽²⁾		[8,5] ⁽⁷⁾	[8] ⁽⁷⁾		[20,5] ⁽⁷⁾
PDTCH/DBS-10	dB	[18,5] ⁽⁷⁾		⁽²⁾		[17] ⁽⁷⁾	[17,5] ⁽⁷⁾		–
PDTCH/DBS-11	dB	[22,5] ⁽⁷⁾		⁽²⁾		[29,5] ⁽⁷⁾	[30] ⁽⁷⁾		–
PDTCH/DBS-12	dB	[27,5] ⁽⁷⁾		⁽²⁾		[23**] ⁽⁷⁾	[24**] ⁽⁷⁾		–
(continued)

Table 2af (continued): Adjacent channel interference ratio (for MS) at reference performance
for TIGHTER

DCS 1 800 and PCS 1900
Type of		Propagation conditions
channel		TU1,5 (no FH)	TU1,5 (ideal FH)		TU50 (no FH)			TU50 (ideal FH)	RA130 (no FH)
FACCH/H	dB	-15,5		-21		-20,5	-20,5		-20,5
FACCH/F	dB	-15,5		-21,5		-21	-21,5		-21,5
SDCCH	dB	-15,5		-20		-20	-20		-20
TCH/FS	dB	-11,5		-19,5		-19,5	-19,5		-19,5
	RBER1b (%)	0,06		0,08		0,07	0,09		0,08
	RBER2 (%)	0,59		5,59		5,87	5,54		6,34
TCH/EFS	dB	-11		-19,5		-19	-19,5		-19
	RBER1b (%)	0,02		0,04		0,03	0,04		0,04
	RBER2 (%)	0,5		5,19		4,93	5,22		5,76
TCH/HS	dB	-12,5		-19		-18,5	-19		-18,5
	RBER1b (%)	0,13		0,19		0,18	0,18		0,17
	RBER2 (%)	0,97		5,17		5,11	5,18		5,62
TCH/AFS12.2	dB	-11,5		-19,5		⁽⁶⁾	-19,5		-19,5
	RBER1b (%)	0,12		1,01		⁽⁶⁾	1,02		1,14
TCH/AFS10.2	dB	-12,5		-21		⁽⁶⁾	-21		-20,5
	RBER1b (%)	0,07		0,24		⁽⁶⁾	0,25		0,26
TCH/AFS7.95	dB	-14		-23		⁽⁶⁾	-23		-23
	RBER1b (%)	0,11		0,43		⁽⁶⁾	0,43		0,44
TCH/AFS7.4	dB	-14		-23		⁽⁶⁾	-23		-23
	RBER1b (%)	0,07		0,23		⁽⁶⁾	0,23		0,25
TCH/AFS6.7	dB	-15		-24		⁽⁶⁾	-24		-24
	RBER1b (%)	0,14		0,62		⁽⁶⁾	0,66		0,69
TCH/AFS5.9	dB	-15		-24,5		⁽⁶⁾	-24,5		-24,5
	RBER1b (%)	0,08		0,2		⁽⁶⁾	0,2		0,21
TCH/AFS5.15	dB	-15,5		-25		⁽⁶⁾	-25		-25
	RBER1b (%)	0,09		0,29		⁽⁶⁾	0,3		0,3
TCH/AFS4.75	dB	-16		-25,5		⁽⁶⁾	-25,5		-25,5
	RBER1b (%)	0,07		0,17		⁽⁶⁾	0,17		0,17
TCH/AHS7.95	dB	-9,5		-15		⁽⁶⁾	-14,5		-10,5
	RBER1b (%)	0,1		0,43		⁽⁶⁾	0,42		0,47
	RBER2 (%)	0,35		1,99		⁽⁶⁾	1,98		2,06
TCH/AHS7.4	dB	-10		-15,5		⁽⁶⁾	-15,5		-12,5
	RBER1b (%)	0,08		0,21		⁽⁶⁾	0,21		0,21
	RBER2 (%)	0,4		2,29		⁽⁶⁾	2,32		2,58
TCH/AHS6.7	dB	-11		-17		⁽⁶⁾	-17		-15
	RBER1b (%)	0,09		0,28		⁽⁶⁾	0,3		0,28
	RBER2 (%)	0,57		3,29		⁽⁶⁾	3,36		3,73
TCH/AHS5.9	dB	-11,5		-18		⁽⁶⁾	-18		-17
	RBER1b (%)	0,07		0,17		⁽⁶⁾	0,16		0,17
	RBER2 (%)	0,66		4,01		⁽⁶⁾	3,98		4,24
TCH/AHS5.15	dB	-12,5		-19,5		⁽⁶⁾	-19		-18,5
	RBER1b (%)	0,12		0,32		⁽⁶⁾	0,32		0,32
	RBER2 (%)	0,92		5,35		⁽⁶⁾	5,36		5,82
TCH/AHS4.75	dB	-13		-20		⁽⁶⁾	-20		-19,5
	RBER1b (%)	0,09		0,16		⁽⁶⁾	0,16		0,17
	RBER2 (%)	1,1		6,29		⁽⁶⁾	6,38		6,78
TCH/WFS12.65	dB	⁽²⁾		⁽²⁾		-19	⁽²⁾		⁽²⁾
	RBER1b (%)	⁽²⁾		⁽²⁾		0,63	⁽²⁾		⁽²⁾
TCH/ WFS8.85	dB	⁽²⁾		⁽²⁾		-22	⁽²⁾		⁽²⁾
	RBER1b (%)	⁽²⁾		⁽²⁾		0,64	⁽²⁾		⁽²⁾
TCH/ WFS6.60	dB	⁽²⁾		⁽²⁾		-23	⁽²⁾		⁽²⁾
	RBER1b (%)	⁽²⁾		⁽²⁾		0,27	⁽²⁾		⁽²⁾
PDTCH/CS-1	dB	-15		-19		-19	-19		-18
PDTCH/CS-2	dB	-13		-15		-15	-15		-14
PDTCH/CS-3	dB	-12		-13		-12	-12		-11
PDTCH/CS-4	dB	-7		-5		-1	-1		–
PDTCH/MCS-1	dB	-14		-17,5		-17	-18		-16
PDTCH/MCS-2	dB	-12		-15		-15	-15,5		-14
PDTCH/MCS-3	dB	-10,5		-10,5		-10	-9,5		-7
PDTCH/MCS-4	dB	-8		-5,5		-4	-4,5		–
PDTCH/MCS-5	dB	-9		-13,5		-13	-13		-13,5
PDTCH/MCS-6	dB	-7		-11		-11	-11		-10
PDTCH/MCS-7	dB	-2,5		-5		-2,5	-2,5		–
PDTCH/MCS-8	dB	5		-3**		0**	0**		–
PDTCH/MCS-9	dB	0**		1,5**		–	–		–
PDTCH/DAS-5	dB	⁽²⁾		⁽²⁾		[-12,5]	⁽²⁾		⁽²⁾
PDTCH/DAS-6	dB	⁽²⁾		⁽²⁾		[-10,5]	⁽²⁾		⁽²⁾
PDTCH/DAS-7	dB	⁽²⁾		⁽²⁾		[-8,5]	⁽²⁾		⁽²⁾
PDTCH/DAS-8	dB	⁽²⁾		⁽²⁾		[-4]	⁽²⁾		⁽²⁾
PDTCH/DAS-9	dB	⁽²⁾		⁽²⁾		[0]	⁽²⁾		⁽²⁾
PDTCH/DAS-10	dB	⁽²⁾		⁽²⁾		[8]	⁽²⁾		⁽²⁾
PDTCH/DAS-11	dB	⁽²⁾		⁽²⁾		[14**]	⁽²⁾		⁽²⁾
PDTCH/DAS-12	dB	⁽²⁾		⁽²⁾		–	⁽²⁾		⁽²⁾
PDTCH/DBS-5	dB	⁽²⁾		⁽²⁾		[-7,5] ⁽⁷⁾	⁽²⁾		⁽²⁾
PDTCH/DBS-6	dB	⁽²⁾		⁽²⁾		[-4] ⁽⁷⁾	⁽²⁾		⁽²⁾
PDTCH/DBS-7	dB	⁽²⁾		⁽²⁾		[1,5] ⁽⁷⁾	⁽²⁾		⁽²⁾
PDTCH/DBS-8	dB	⁽²⁾		⁽²⁾		[6] ⁽⁷⁾	⁽²⁾		⁽²⁾
PDTCH/DBS-9	dB	⁽²⁾		⁽²⁾		[9,5] ⁽⁷⁾	⁽²⁾		⁽²⁾
PDTCH/DBS-10	dB	⁽²⁾		⁽²⁾		[22] ⁽⁷⁾	⁽²⁾		⁽²⁾
PDTCH/DBS-11	dB	⁽²⁾		⁽²⁾		[24,5**] ⁽⁷⁾	⁽²⁾		⁽²⁾
PDTCH/DBS-12	dB	⁽²⁾		⁽²⁾		–	⁽²⁾		⁽²⁾
Performance is specified at 30% BLER for those cases identified with mark ‘**’ NOTE 1: The specification for SDCCH applies also for BCCH, AGCH, PCH, SACCH. The actual performance of SACCH, particularly for the C/I TU3 (no FH) and TU 1.5 (no FH) cases should be better. NOTE 2: The requirements for the DCS 1800 & PCS 1900 TU1.5 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 TU3 (no FH) propagation condition, the requirements for the GSM 850 & GSM 900 TU3 (ideal FH), DCS 1800 & PCS 1900 TU1.5 (ideal FH) and DCS 1800 & PCS 1900 TU50 (ideal FH) propagation conditions are the same as for the DCS 1800 & PCS 1900 TU50 (no FH) propagation condition, and the requirements for the DCS 1800 & PCS 1900 RA130 (no FH) propagation condition are the same as for the GSM 850 & GSM 900 RA250 (no FH) propagation condition. NOTE 3: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. For TU50 (ideal FH), sufficient decorrelation may be achieved with 4 frequencies spaced over 5 MHz. NOTE 4: FER for CCHs takes into account frames which are signalled as being erroneous (by the FIRE code, parity bits, or other means) or where the stealing flags are wrongly interpreted. NOTE 5: PDTCH/CS-4, PDTCH/MCS-x, PDTCH/DAS-x and PDTCH/DBS-x cannot meet the reference performance for some propagation conditions (-). NOTE 6: The TU50 no FH TIGHTER requirement for these TCH are specified as a fixed tightening of the reference interference performance listed in Table 2 by 10 dB for GSM 850 & 900 and by 9,5 dB for DCS 1800 and PCS 1900 (see section 6.3.1). NOTE 7: The requirement is identical to the EGPRS2-B requirement in Table 2y.

Table 2ag: C/I1 ratio at reference performance for VAMOS III MS for voice channels in VAMOS mode

GSM 900 and GSM 850
VAMOS Test Scenario (see Annex Q)		VDTS-1
Propagation conditions		TU50 no FH
Antenna correlation and gain imbalance (see Annex Q.7)		Corr.=0; AGI=0dB					Corr.=0.7; AGI=-6dB
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB	+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	-2	-1	1.5	5	7.5	0.5	2.5	5	8.5	10.5
	RBER1b (%)	0.09	0.2	0.21	0.2	0.22	0.09	0.2	0.21	0.2	0.22
	RBER2 (%)	4.24	5.29	5.59	5.42	5.7	4.24	5.29	5.59	5.42	5.7
TCH/EFS	FER (dB)	-1	0.5	2.5	6.5	9	2	3.5	6.5	9.5	12
	RBER1b (%)	0.05	0.04	0.06	0.04	0.06	0.05	0.04	0.06	0.04	0.06
	RBER2 (%)	3.73	3.6	3.77	3.66	4.06	3.73	3.6	3.77	3.66	4.06
TCH/AFS12.2	FER (dB)	-1	0.5	2.5	6.5	9	2	3.5	6.5	9.5	12
	RBER1b (%)	0.45	0.45	0.47	0.4	0.47	0.45	0.45	0.47	0.4	0.47
TCH/AFS4.75	FER (dB)	-6.5	-5	-3	0	2	-3	-1.5	0.5	4	5.5
	RBER1b (%)	0.14	0.13	0.14	0.11	0.12	0.14	0.13	0.14	0.11	0.12
TCH/AHS7.4	FER (dB)	1.5	3.5	5	9.5	12.5	4	6	8.5	12	15
	RBER1b (%)	0.16	0.12	0.13	0.17	0.17	0.16	0.12	0.13	0.17	0.17
	RBER2 (%)	1.67	1.56	1.61	1.92	2.01	1.67	1.56	1.61	1.92	2.01
TCH/AHS4.75	FER (dB)	-3	-1.5	1	4.5	6.5	0.5	2	4.5	8	10
	RBER1b (%)	0.15	0.13	0.15	0.15	0.19	0.15	0.13	0.15	0.15	0.19
	RBER2 (%)	5.42	5.52	5.87	5.85	6.34	5.42	5.52	5.87	5.85	6.34
TCH/WFS12.65	FER (dB)	-1	0.5	2.5	6.5	9	2	3.5	6.5	9.5	12
	RBER1b (%)	0.34	0.36	0.38	0.36	0.36	0.34	0.36	0.38	0.36	0.36
TCH/WFS6.60	FER (dB)	-5	-3.5	-1.5	2	4	-1.5	0	2.5	5.5	8
	RBER1b (%)	0.2	0.2	0.13	0.13	0.15	0.2	0.2	0.13	0.13	0.15
FACCH/F	FER (dB)	-3.5	-1.5	0.5	4	6.5	0	2	4	7.5	9.5
FACCH/H	FER (dB)	-4	-1.5	0.5	4	6.5	0	1.5	4	7.5	9.5
SACCH	FER (dB)	-3.5	-1	1	4.5	7	0.5	2	4.5	8	10.5
Repeated FACCH/F	FER (dB)	–	-2.5	–	–	–	–	-0.5	–	–	–
Repeated SACCH	FER (dB)	–	-4.5	–	–	–	–	-2.5	–	–	–

GSM 900 and GSM 850
VAMOS Test Scenario (see Annex Q)		VDTS-2
Propagation conditions		TU50 no FH
Antenna correlation and gain imbalance (see Annex Q.7)		Corr.=0; AGI=0dB					Corr.=0.7; AGI=-6dB
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB	+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	5.5	7	9.5	11.5	14	6	8	10	13.5	14.5
	RBER1b (%)	0.18	0.18	0.2	0.21	0.12	0.18	0.18	0.2	0.21	0.12
	RBER2 (%)	5.03	4.97	5.2	5.21	5	5.03	4.97	5.2	5.21	5
TCH/EFS	FER (dB)	5.5	8	9.5	12.5	15.5	7	8.5	11	14.5	16
	RBER1b (%)	0.03	0.03	0.04	0.05	0.04	0.03	0.03	0.04	0.05	0.04
	RBER2 (%)	3.58	3.45	3.8	4.25	4.17	3.58	3.45	3.8	4.25	4.17
TCH/AFS4.75	FER (dB)	1	3.5	5	8.5	10	2	3.5	6	9	10.5
	RBER1b (%)	0.11	0.16	0.14	0.11	0.09	0.11	0.16	0.14	0.11	0.09
TCH/AHS7.4	FER (dB)	8	10.5	12	15.5	18	8.5	11	13	16.5	18.5
	RBER1b (%)	0.15	0.15	0.1	0.12	0.12	0.15	0.15	0.1	0.12	0.12
	RBER2 (%)	1.84	1.82	1.89	2.03	2.15	1.84	1.82	1.89	2.03	2.15
TCH/WFS12.65	FER (dB)	5.5	8	9.5	14	15.5	7	9	11	14.5	16
	RBER1b (%)	0.39	0.34	0.36	0.4	0.4	0.39	0.34	0.36	0.4	0.4

GSM 900 and GSM 850
VAMOS Test Scenario (see Annex Q)		VDTS-3
Propagation conditions		TU50 no FH
Antenna correlation and gain imbalance (see Annex Q.7)		Corr.=0; AGI=0dB					Corr.=0.7; AGI=-6dB
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB	+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	-1.5	0.5	2.5	6	8	1.5	3	5.5	8.5	11
	RBER1b (%)	0.05	0.21	0.23	0.26	0.24	0.05	0.21	0.23	0.26	0.24
	RBER2 (%)	4.81	4.96	5	5.5	5.5	4.81	4.96	5	5.5	5.5
TCH/EFS	FER (dB)	-0.5	1	3.5	7.5	10	2.5	4	6.5	10	12.5
	RBER1b (%)	0.05	0.05	0.07	0.07	0.06	0.05	0.05	0.07	0.07	0.06
	RBER2 (%)	4.23	3.85	3.75	3.69	3.76	4.23	3.85	3.75	3.69	3.76
TCH/AFS4.75	FER (dB)	-6	-4.5	-2.5	0.5	3	-2.5	-1.5	1	4	6.5
	RBER1b (%)	0.18	0.21	0.18	0.18	0.21	0.18	0.21	0.18	0.18	0.21
TCH/AHS7.4	FER (dB)	2	4.5	6.5	11	13.5	5	6.5	9.5	13	15.5
	RBER1b (%)	0.2	0.21	0.23	0.26	0.24	0.2	0.21	0.23	0.26	0.24
	RBER2 (%)	2.11	2	2	2.2	2.5	2.11	2	2	2.2	2.5
TCH/WFS12.65	FER (dB)	-0.5	1	3.5	7.5	10.5	2.5	4.5	6.5	10.5	12.5
	RBER1b (%)	0.4	0.38	0.43	0.42	0.42	0.4	0.38	0.43	0.42	0.42

GSM 900 and GSM 850
VAMOS Test Scenario (see Annex Q)		VDTS-4
Propagation conditions		TU50 no FH
Antenna correlation and gain imbalance (see Annex Q.7)		Corr.=0; AGI=0dB					Corr.=0.7; AGI=-6dB
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB	+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	-20	-17	-15	-12	-10	-17.5	-14.5	-13	-9.5	-7.5
	RBER1b (%)	0.24	0.24	0.22	0.14	0.17	0.24	0.24	0.22	0.14	0.17
	RBER2 (%)	5.09	5.12	5.05	5.9	6.51	5.09	5.12	5.05	5.9	6.51
TCH/EFS	FER (dB)	-19	-16	-13.5	-11	-8.5	-16	-13.5	-11.5	-8.5	-6
	RBER1b (%)	0.05	0.06	0.05	0.04	0.03	0.05	0.06	0.05	0.04	0.03
	RBER2 (%)	3.58	3.75	3.74	4.99	3.19	3.58	3.75	3.74	4.99	3.19
TCH/AFS4.75	FER (dB)	-25	-22.5	-20	-17	-15	-22	-19	-17.5	-14	-12.5
	RBER1b (%)	0.22	0.14	0.13	0.18	0.17	0.22	0.14	0.13	0.18	0.17
TCH/AHS7.4	FER (dB)	-16.5	-12	-10.5	-8.5	-5	-14	-10	-8.5	-6	-2.5
	RBER1b (%)	0.2	0.16	0.11	0.27	0.12	0.2	0.16	0.11	0.27	0.12
	RBER2 (%)	2.16	1.67	1.18	2.97	1.74	2.16	1.67	1.18	2.97	1.74
TCH/WFS12.65	FER (dB)	-18.5	-15.5	-14	-11	-8.5	-16	-13	-11.5	-8.5	-6
	RBER1b (%)	0.37	0.32	0.39	0.73	0.46	0.37	0.32	0.39	0.73	0.46

DCS 1800 & PCS 1900
VAMOS Test Scenario (see Annex Q)		VDTS-1
Propagation conditions		TU50 no FH
Antenna correlation and gain imbalance (see Annex Q.7)		Corr.=0; AGI=0dB					Corr.=0.7; AGI=-6dB
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB	+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	-2	0	2	6	8.5	1	3	5.5	9	11
	RBER1b (%)	0.17	0.19	0.2	0.2	0.21	0.17	0.19	0.2	0.2	0.21
	RBER2 (%)	5.24	5.46	5.8	5.71	5.96	5.24	5.46	5.8	5.71	5.96
TCH/EFS	FER (dB)	-1.5	0	2.5	6.5	9	1.5	3	6	9	11.5
	RBER1b (%)	0.05	0.04	0.06	0.04	0.04	0.05	0.04	0.06	0.04	0.04
	RBER2 (%)	5.02	5.35	5.32	5.33	5.58	5.02	5.35	5.32	5.33	5.58
TCH/AFS12.2	FER (dB)	-1.5	0	2.5	6.5	9	1.5	3	6	9	11.5
	RBER1b (%)	0.76	0.74	0.74	0.8	0.85	0.76	0.74	0.74	0.8	0.85
TCH/AFS4.75	FER (dB)	-7	-5	-3.5	-0.5	2	-4.5	-2	0	3	5.5
	RBER1b (%)	0.11	0.12	0.17	0.12	0.13	0.11	0.12	0.17	0.12	0.13
TCH/AHS7.4	FER (dB)	2	3.5	6	10.5	14	4.5	6.5	9	13.5	16.5
	RBER1b (%)	0.16	0.14	0.12	0.15	0.16	0.16	0.14	0.12	0.15	0.16
	RBER2 (%)	1.69	1.77	1.79	1.92	2.28	1.69	1.77	1.79	1.92	2.28
TCH/AHS4.75	FER (dB)	-2.5	-1	1.5	5	7.5	0.5	2	5	8	10.5
	RBER1b (%)	0.12	0.13	0.11	0.13	0.12	0.12	0.13	0.11	0.13	0.12
	RBER2 (%)	5.78	5.85	6	6.09	6.41	5.78	5.85	6	6.09	6.41
TCH/WFS12.65	FER (dB)	-1.5	0	2.5	6.5	9.5	1.5	3	6	9	11.5
	RBER1b (%)	0.49	0.53	0.52	0.64	0.6	0.49	0.53	0.52	0.64	0.6
TCH/WFS6.60	FER (dB)	-5	-3.5	-1.5	2	4	-2	-0.5	2	5	7.5
	RBER1b (%)	0.27	0.28	0.21	0.15	0.17	0.27	0.28	0.21	0.15	0.17
FACCH/F	FER (dB)	-3.5	-2	0.5	4	7	-0.5	1.5	4	7.5	9.5
FACCH/H	FER (dB)	-3	-1.5	1	4.5	7.5	0	2	4.5	7.5	10
SACCH	FER (dB)	-2.5	-1	2.5	5.5	8	0.5	2.5	5	8.5	11
Repeated FACCH/F	FER (dB)	–	-3	–	–	–	–	-1	–	–	–
Repeated SACCH	FER (dB)	–	-4.5	–	–	–	–	-2.5	–	–	–

DCS 1800 & PCS 1900
VAMOS Test Scenario (see Annex Q)		VDTS-2
Propagation conditions		TU50 no FH
Antenna correlation and gain imbalance (see Annex Q.7)		Corr.=0; AGI=0dB					Corr.=0.7; AGI=-6dB
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB	+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	5.5	7	9.5	11.5	14	6	8	10.5	12.5	15
	RBER1b (%)	0.19	0.2	0.2	0.25	0.26	0.19	0.2	0.2	0.25	0.26
	RBER2 (%)	5.52	5.61	5.73	5.92	6.31	5.52	5.61	5.73	5.92	6.31
TCH/EFS	FER (dB)	5	7.5	9	12	15.5	6	8	10.5	13.5	15.5
	RBER1b (%)	0.03	0.07	0.06	0.05	0.05	0.03	0.07	0.06	0.05	0.05
	RBER2 (%)	4.57	4.89	5.16	5.38	5.62	4.57	4.89	5.16	5.38	5.62
TCH/AFS4.75	FER (dB)	0.5	1.5	4	7	9	1.5	2.5	6	8.5	10
	RBER1b (%)	0.15	0.15	0.15	0.19	0.13	0.15	0.15	0.15	0.19	0.13
TCH/AHS7.4	FER (dB)	8.5	11	12.5	16	19	9	11	13	17	20
	RBER1b (%)	0.12	0.13	0.14	0.16	0.15	0.12	0.13	0.14	0.16	0.15
	RBER2 (%)	1.85	1.96	2.01	2.25	2.36	1.85	1.96	2.01	2.25	2.36
TCH/WFS12.65	FER (dB)	5	7.5	9	12.5	15	6	8	10.5	13	16
	RBER1b (%)	0.46	0.57	0.54	0.43	0.52	0.46	0.57	0.54	0.43	0.52

DCS 1800 & PCS 1900
VAMOS Test Scenario (see Annex Q)		VDTS-3
Propagation conditions		TU50 no FH
Antenna correlation and gain imbalance (see Annex Q.7)		Corr.=0; AGI=0dB					Corr.=0.7; AGI=-6dB
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB	+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	-1.5	1.5	3	6.5	9	2	3.5	6	9	11.5
	RBER1b (%)	0.2	0.21	0.21	0.19	0.2	0.2	0.21	0.21	0.19	0.2
	RBER2 (%)	4.88	4.55	5	5.5	5.5	4.88	4.55	5	5.5	5.5
TCH/EFS	FER (dB)	-1	0.5	3	7	10	2	4	6.5	10	12.5
	RBER1b (%)	0.04	0.06	0.05	0.07	0.04	0.04	0.06	0.05	0.07	0.04
	RBER2 (%)	5.27	5.4	4.33	4.77	5.27	5.27	5.4	4.33	4.77	5.27
TCH/AFS4.75	FER (dB)	-6	-4.5	-2.5	0.5	3	-3.5	-2	0.5	3.5	5.5
	RBER1b (%)	0.18	0.11	0.15	0.16	0.16	0.18	0.11	0.15	0.16	0.16
TCH/AHS7.4	FER (dB)	2.5	5.5	7	11.5	15	5.5	7.5	10	14	17
	RBER1b (%)	0.23	0.22	0.23	0.22	0.21	0.23	0.22	0.23	0.22	0.21
	RBER2 (%)	2	2	2	2.2	2.5	2	2	2	2.2	2.5
TCH/WFS12.65	FER (dB)	-0.5	1	3.5	7.5	10	2	4	6.5	10	13
	RBER1b (%)	0.63	0.51	0.5	0.44	0.48	0.63	0.51	0.5	0.44	0.48

DCS 1800 & PCS 1900
VAMOS Test Scenario (see Annex Q)		VDTS-4
Propagation conditions		TU50 no FH
Antenna correlation and gain imbalance (see Annex Q.7)		Corr.=0; AGI=0dB					Corr.=0.7; AGI=-6dB
SCPIR_DL		+4 dB	0 dB	-4 dB	-8 dB	-10 dB	+4 dB	0 dB	-4 dB	-8 dB	-10 dB
TCH/HS	FER (dB)	-19.5	-15.5	-14	-11.5	-8.5	-17	-13.5	-12.5	-9	-7
	RBER1b (%)	0.23	0.24	0.22	0.14	0.15	0.23	0.24	0.22	0.14	0.15
	RBER2 (%)	5.11	5.2	5.2	4.19	5.11	5.11	5.2	5.2	4.19	5.11
TCH/EFS	FER (dB)	-18.5	-15	-13.5	-11	-8	-16.5	-13	-12	-8.5	-6
	RBER1b (%)	0.05	0.06	0.06	0.03	0.04	0.05	0.06	0.06	0.03	0.04
	RBER2 (%)	4.29	4.55	4.61	3.98	4.09	4.29	4.55	4.61	3.98	4.09
TCH/AFS4.75	FER (dB)	-25	-23	-20.5	-17	-15.5	-22	-20	-17.5	-14.5	-12.5
	RBER1b (%)	0.21	0.16	0.21	0.22	0.22	0.21	0.16	0.21	0.22	0.22
TCH/AHS7.4	FER (dB)	-15.5	-10	-10	-7	-3.5	-13.5	-8.5	-8.5	-5	-1.5
	RBER1b (%)	0.2	0.18	0.23	0.17	0.25	0.2	0.18	0.23	0.17	0.25
	RBER2 (%)	2.18	1.76	2.5	1.9	2.95	2.18	1.76	2.5	1.9	2.95
TCH/WFS12.65	FER (dB)	-18.5	-14.5	-13.5	-10.5	-8	-16.5	-13	-11.5	-8.5	-6
	RBER1b (%)	0.55	0.48	0.57	0.52	0.54	0.55	0.48	0.57	0.52	0.54

Table 2ah: Cochannel interference ratio at reference performance (for normal BTS) for GMSK modulated signals

E-GSM 900 and GSM 850
Type of			Propagation conditions
Channel			TU1.2 (no FH)	TU1.2¹⁾ (ideal FH)	TU50 (no FH)
EC-PACCH/U	CC1	dB	-1,0	-1,0	0,0
EC-PACCH/U/4	CC2	dB	-8,0	-9,0	-8,0
EC-PACCH/U/8	CC3	dB	-11,0	-12,0	-11,5
EC-PACCH/U/16	CC4	dB	-13,5	-14,5	-14,5
EC-PACCH/U/48	CC5	dB	-17,5	-20,0	-19,0
EC-PACCH/U/2TS/4	CC2	dB	-7,0	-7,5	-7,5
EC-PACCH/U/2TS/8	CC3	dB	-10,0	-10,0	-10,5
EC-PACCH/U/2TS/16	CC4	dB	-11,5	-12,0	-13,5
EC-PACCH/U/2TS/48	CC5	dB	-16,5	-23,5	-18,0
EC-PDTCH/MCS-1⁴⁾	CC1	dB	0,0	-0,5	-0,5
EC-PDTCH/MCS-1/4	CC2	dB	-7,5	-7,5	-7,5
EC-PDTCH/MCS-1/8	CC3	dB	-11,0	-10,5	-10,5
EC-PDTCH/MCS-1/16	CC4	dB	-14,0	-13,0	-13,0
EC-PDTCH/MCS-1’/48	CC5	dB	-18,0	-18,5	-17,0
EC-PDTCH/2TS/MCS-1/4	CC2	dB	-7,5	-6,5	-7,0
EC-PDTCH/2TS/MCS-1/8	CC3	dB	-11,0	-9,0	-10,0
EC-PDTCH/2TS/MCS-1/16	CC4	dB	-13,5	-11,0	-12,5
EC-PDTCH/2TS/MCS-1’/48	CC5	dB	-16,0	-22,0	-17,0
1 TS EC-RACH²⁾	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
2 TS EC-RACH/66⁶⁾	CC5	dB	-15,0	–	-16,5
2 TS EC-RACH/132⁷⁾	CC5	dB	-17,5	–	-17.5
1 TS EC-RACH/30bits⁵⁾	CC1	dB	3,0	–	3,5
DCS 1800 and PCS 1900
Type of			Propagation conditions
Channel			TU1.2 (no FH)	TU1.2¹⁾ (Ideal FH)	TU50 (no FH)
EC-PACCH/U	CC1	dB	-0,5	-1,0	1,0
EC-PACCH/U/4	CC2	dB	-7,5	-9,0	-7,5
EC-PACCH/U/8	CC3	dB	-10,5	-11,5	-11,0
EC-PACCH/U/16	CC4	dB	-13,5	-14,0	-14,0
EC-PACCH/U/48	CC5	dB	-17,0	-21,5	-18,5
EC-PACCH/U/2TS/4	CC2	dB	-7,5	-7,0	-7,0
EC-PACCH/U/2TS/8	CC3	dB	-9,5	-10,0	-10.5
EC-PACCH/U/2TS/16	CC4	dB	-11,0	-12,0	-13,0
EC-PACCH/U/2TS/48	CC5	dB	-16,0	-21,5	-17,5
EC-PDTCH/MCS-1⁴⁾	CC1	dB	-0,5	-0,5	-0,5
EC-PDTCH/MCS-1/4	CC2	dB	-7,0	-7,5	-7,0
EC-PDTCH/MCS-1/8	CC3	dB	-10,5	-10,0	-10,0
EC-PDTCH/MCS-1/16	CC4	dB	-13,5	-12,5	-13,0
EC-PDTCH/MCS-1’/48	CC5	dB	-17,5	-18,0	-16,5
EC-PDTCH/2TS/MCS-1/4	CC2	dB	-7,5	-6,5	-6,5
EC-PDTCH/2TS/MCS-1/8	CC3	dB	-11,0	-9,0	-9,5
EC-PDTCH/2TS/MCS-1/16	CC4	dB	-13,0	-11,0	-12,0
EC-PDTCH/2TS/MCS-1’/48	CC5	dB	-16,5	-19,5	-16,0
1 TS EC-RACH²⁾	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
2 TS EC-RACH/66⁶⁾	CC5	dB	-15,5	–	-17,0
2 TS EC-RACH/132⁷⁾	CC5	dB	-17,5	–	-18,5
1 TS EC-RACH/30bits⁵⁾	CC1	dB	3,0	–	3,5
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. NOTE 2: Identification of the correct Training sequence is required, see 3GPP TS 45.002. NOTE 3: For the notation of EC-channels, see 3GPP TS 45.003. NOTE 4: For MCS-2, MCS-3 and MCS-4 in CC1 the requirements in table 2a apply for TU3 (low band) and TU1,5 (high band) and TU50 (no FH) propagation conditions together with the conditions for EGPRS in subclause 6.3.4. NOTE 5: The performance requirement applies 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) as part of the Multilateration Timing Advance procedure using the Extended Access Burst method in EC operation. NOTE 6: The performance requirement applies 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: The performance requirement applies for the random access on EC-RACH CC5 using EDAB TS 7 (see 3GPP TS45.002) and the coding scheme EC-RACH/132 (see 3GPP TS 45.003).

Table 2ai: Cochannel interference ratio at reference performance (for EC-GSM-IoT MS) for GMSK modulated signals

E-GSM 900 and GSM 850
Type of							Propagation conditions
Channel							TU1.2 (no FH)	TU1.2¹⁾ (ideal FH)	TU50 (no FH)
EC-SCH	–			dB			-12.0	–	-13.5
EC-BCCH	–			dB			-13.5	–	-15.0
EC-PACCH/D	CC1			dB			-1.5	-5.0	-4.0
EC-PACCH/D/4	CC2			dB			-5.5	-10.0	-9.0
EC-PACCH/D/8	CC3			dB			-6.5	-13.0	-12.0
EC-PACCH/D/16	CC4			dB			-8.0	-15.5	-15.0
EC-PACCH/D/2TS/4	CC2			dB			[TBD]	[TBD]	[TBD]
EC-PACCH/D/2TS/8	CC3			dB			[TBD]	[TBD]	[TBD]
EC-PACCH/D/2TS/16	CC4			dB			[TBD]	[TBD]	[TBD]
EC-CCCH/D²⁾	CC1			dB			2.5	–	0.5
EC-CCCH/D/8	CC2			dB			-7.5	–	-10.5
EC-CCCH/D/16	CC3			dB			-9.0	–	-13.0
EC-CCCH/D/32	CC4			dB			-12.0	–	-15.0
EC-PDTCH/MCS-1⁴⁾	CC1			dB			-1.5	-3.0	-2.5
EC-PDTCH/MCS-1/4	CC2			dB			-6.5	-8.0	-7.5
EC-PDTCH/MCS-1/8	CC3			dB			-8.5	-12.0	-11.5
EC-PDTCH/MCS-1/16	CC4			dB			-10.5	-14.5	-14.5
EC-PDTCH/2TS/MCS-1/4	CC2			dB			[TBD]	[TBD]	[TBD]
EC-PDTCH/2TS/MCS-1/8	CC3			dB			[TBD]	[TBD]	[TBD]
EC-PDTCH/2TS/MCS-1/16	CC4			dB			[TBD]	[TBD]	[TBD]
DCS 1800 and PCS 1900
Type of							Propagation conditions
Channel							TU1.2 (no FH)	TU1.2¹⁾ (Ideal FH)	TU50 (no FH)
EC-SCH		–			dB		-12.5	–	-13.5
EC-BCCH		–			dB		-14.0	–	-15.0
EC-PACCH/D		CC1			dB		-1.0	-5.0	-5.0
EC-PACCH/D/4		CC2			dB		-5.0	-10.0	-10.0
EC-PACCH/D/8		CC3			dB		-7.0	-13.0	-12.5
EC-PACCH/D/16		CC4			dB		-9.0	-15.5	-15.0
EC-PACCH/D/2TS/4		CC2			dB		[TBD]	[TBD]	[TBD]
EC-PACCH/D/2TS/8		CC3			dB		[TBD]	[TBD]	[TBD]
EC-PACCH/D/2TS/16		CC4			dB		[TBD]	[TBD]	[TBD]
EC-CCCH/D²⁾			CC1			dB	2.0	–	0.5
EC-CCCH/D/8			CC2			dB	-7.5	–	-11.0
EC-CCCH/D/16			CC3			dB	-9.5	–	-13.5
EC-CCCH/D/32			CC4			dB	-13.0	–	-15.0
EC-PDTCH/MCS-1⁴⁾		CC1			dB		-1.0	-2.5	-2.5
EC-PDTCH/MCS-1/4		CC2			dB		-6.5	-8.0	-8.0
EC-PDTCH/MCS-1/8		CC3			dB		-8.5	-11.5	-11.5
EC-PDTCH/MCS-1/16		CC4			dB		-10.5	-14.5	-14.5
EC-PDTCH/2TS/MCS-1/4		CC2			dB		[TBD]	[TBD]	[TBD]
EC-PDTCH/2TS/MCS-1/8		CC3			dB		[TBD]	[TBD]	[TBD]
EC-PDTCH/2TS/MCS-1/16		CC4			dB		[TBD]	[TBD]	[TBD]
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test NOTE 2: The performance requirements for EC-CCCH apply for EC-PCH and EC‑AGCH. NOTE 3: For the notation of EC-channels, see 3GPP TS 45.003. NOTE 4: For MCS-2, MCS-3 and MCS-4 in CC1 the requirements in table 2a apply for TU3 (low band) and TU1,5 (high band) and TU50 (no FH) propagation conditions together with the conditions for EGPRS in subclause 6.3.4.

Table 2aj: Cochannel interference ratio (for normal BTS) at reference performance for 8-PSK modulated input signals

E-GSM 900 and GSM 850
Type of			Propagation conditions
Channel			TU1.2 (no FH)	TU1.2¹⁾ (ideal FH)	TU50 (no FH)
EC-PDTCH/MCS-5²⁾	CC1	dB	6,5	6,5	6,5
DCS 1800 and PCS 1900
Type of			Propagation conditions
Channel			TU1.2 (no FH)	TU1.2¹⁾ (ideal FH)	TU50 (no FH)
EC-PDTCH/MCS-5²⁾	CC1	dB	6,5	6,5	6,5
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. NOTE 2: For MCS-6, MCS-7, MCS-8 and MCS-9 in CC1 the requirements in table 2b apply for TU3 (low band) and TU1,5 (high band) and TU50 (no FH) propagation conditions together with the conditions for EGPRS in subclause 6.3.4.

Table 2ak: Cochannel interference ratio (for EC-GSM-IoT MS) at reference performance for 8‑PSK modulated input signals

E-GSM 900 and GSM 850
Type of			Propagation conditions
Channel			TU3 (no FH)	TU3¹⁾ (ideal FH)	TU50 (no FH)
EC-PDTCH/MCS-5²⁾	CC1	dB	19,5	14,5	15,5
EC-PDTCH/MCS-6²⁾	CC1	dB	21,5	17	18
EC-PDTCH/MCS-7²⁾	CC1	dB	26,5	23,5	25
EC-PDTCH/MCS-8	CC1	dB	30,5²⁾	23,5³⁾	25,5³⁾
EC-PDTCH/MCS-9	CC1	dB	25,5³⁾	28³⁾	30,5³⁾
DCS 1800 and PCS 1900
Type of			Propagation conditions
Channel			TU1.5 (no FH)	TU1.5¹⁾ (ideal FH)	TU50 (no FH)
EC-PDTCH/MCS-5²⁾	CC1	dB	19,5	14,5	15
EC-PDTCH/MCS-6²⁾	CC1	dB	21,5	17	18
EC-PDTCH/MCS-7²⁾	CC1	dB	26,5	23,5	27,5
EC-PDTCH/MCS-8	CC1	dB	30,5²⁾	23,5³⁾	29,5³⁾
EC-PDTCH/MCS-9	CC1	dB	25,5³⁾	28³⁾	–
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. NOTE 2: For MCS-5, MCS-6, MCS-7, MCS-8 in CC1 these requirements are identical to PDTCH in table 2c and are specified at 10% BLER with the conditions for EGPRS in subclause 6.3.4. NOTE 3: For MCS-8 and MCS-9 in CC1 these requirements are identical to PDTCH in table 2c and are specified at 30% BLER with the conditions for EGPRS in subclause 6.3.4.

Table 2al: Adjacent channel interference ratio at reference performance (for normal BTS) for GMSK modulated signals

E-GSM 900 and GSM 850
Type of			Propagation conditions
Channel			TU1.2 (no FH)	TU1.2¹⁾ (ideal FH)	TU50 (no FH)
EC-PACCH/U	CC1	dB	-19,5	-21,0	-19,0
EC-PACCH/U/4	CC2	dB	-27,0	-29,5	-27,0
EC-PACCH/U/8	CC3	dB	-28,0	-32,5	-29,0
EC-PACCH/U/16	CC4	dB	-29,0	-35,0	-30,5
EC-PACCH/U/48	CC5	dB	-30,0	-42,5	-31,5
EC-PACCH/U/2TS/4	CC2	dB	-22,0	-28,5	-24,5
EC-PACCH/U/2TS/8	CC3	dB	-23,0	-31,0	-26,5
EC-PACCH/U/2TS/16	CC4	dB	-23,5	-33,5	-28,0
EC-PACCH/U/2TS/48	CC5	dB	-28,5	-46,5	-29,5
EC-PDTCH/MCS-1⁴⁾	CC1	dB	-21,0	-20,5	-20,5
EC-PDTCH/MCS-1/4	CC2	dB	-30,0	-29,5	-29,5
EC-PDTCH/MCS-1/8	CC3	dB	-32,0	-32,5	-32,0
EC-PDTCH/MCS-1/16	CC4	dB	-33,0	-35,0	-33,0
EC-PDTCH/MCS-1’/48	CC5	dB	-34,5	-42,5	-34,5
EC-PDTCH/2TS/MCS-1/4	CC2	dB	-28,5	-28,5	-28,5
EC-PDTCH/2TS/MCS-1/8	CC3	dB	-29,5	-31,0	-29,5
EC-PDTCH/2TS/MCS-1/16	CC4	dB	-30,5	-33,5	-30,5
EC-PDTCH/2TS/MCS-1’/48	CC5	dB	-32,5	-46,5	-32,5
1 TS EC-RACH²⁾	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
2 TS EC-RACH/66⁶⁾	CC5	dB	-34,0	–	-34,5
2 TS EC-RACH/132⁷⁾	CC5	dB	-32,5	–	-33,5
1 TS EC-RACH/30bits⁵⁾	CC1	dB	-14,0	–	-13,5

DCS 1800 and PCS 1900
Type of			Propagation conditions
Channel			TU1.2 (no FH)	TU1.2¹⁾ (Ideal FH)	TU50 (no FH)
EC-PACCH/U	CC1	dB	-19,5	-21,0	-19,5
EC-PACCH/U/4	CC2	dB	-25,0	-30,0	-27,0
EC-PACCH/U/8	CC3	dB	-26,5	-32,5	-28,5
EC-PACCH/U/16	CC4	dB	-28,0	-35,0	-30,0
EC-PACCH/U/48	CC5	dB	-29,5	-41,5	-30,5
EC-PACCH/U/2TS/4	CC2	dB	-22,0	-28,5	-24,5
EC-PACCH/U/2TS/8	CC3	dB	-22,5	-31,0	-26,0
EC-PACCH/U/2TS/16	CC4	dB	-23,0	-33,5	-27,5
EC-PACCH/U/2TS/48	CC5	dB	-28,0	-44,5	-29,0
EC-PDTCH/MCS-1⁴⁾	CC1	dB	-21,0	-20,5	-20,5
EC-PDTCH/MCS-1/4	CC2	dB	-30,0	-29,5	-29,5
EC-PDTCH/MCS-1/8	CC3	dB	-31,5	-31,5	-32,0
EC-PDTCH/MCS-1/16	CC4	dB	-32,5	-35,0	-32,5
EC-PDTCH/MCS-1’/48	CC5	dB	-34,0	-45,0	-34,0
EC-PDTCH/2TS/MCS-1/4	CC2	dB	-28,5	-28,5	-28,0
EC-PDTCH/2TS/MCS-1/8	CC3	dB	-29,5	-31,0	-29,5
EC-PDTCH/2TS/MCS-1/16	CC4	dB	-30,0	-33,5	-30,0
EC-PDTCH/2TS/MCS-1’/48	CC5	dB	-31,5	-44,5	-31,5
1 TS EC-RACH²⁾	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
2 TS EC-RACH/66⁶⁾	CC5	dB	-34,0	–	-34,5
2 TS EC-RACH/132⁷⁾	CC5	dB	-32,0	–	-32,5
1 TS EC-RACH/30bits⁵⁾	CC1	dB	-14,0	–	-13,5
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. NOTE 2: Identification of the correct Training sequence is required, see 3GPP TS 45.002. NOTE 3: For the notation of EC-channels, see 3GPP TS 45.003. NOTE 4: For MCS-2, MCS-3 and MCS-4 in CC1 the requirements in table 2a apply for TU3 (low band) and TU1,5 (high band) and TU50 (no FH) propagation conditions together with the conditions for EGPRS in table 6.3-1b and subclause 6.3.4. NOTE 5: The performance requirement applies 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) as part of the Multilateration Timing Advance procedure using the Extended Access Burst method in EC operation. NOTE 6: The performance requirement applies 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: The performance requirement applies for random access on EC-RACH CC5 using EDAB TS 7 (see 3GPP TS45.002) and the coding scheme EC-RACH/132 (see 3GPP TS 45.003).

Table 2am: Adjacent channel interference ratio at reference performance (for EC-GSM-IoT MS) for GMSK modulated signals

E-GSM 900 and GSM 850
Type of			Propagation conditions
Channel			TU1.2 (no FH)	TU1.2¹⁾ (ideal FH)	TU50 (no FH)
EC-SCH	–	dB	-28.5	–	-30.0
EC-BCCH	–	dB	-31.0	–	-32.5
EC-PACCH/D	CC1	dB	-18.5	-23.0	-22.0
EC-PACCH/D/4	CC2	dB	-21.0	-26.5	-25.5
EC-PACCH/D/8	CC3	dB	-22.0	-29.0	-28.0
EC-PACCH/D/16	CC4	dB	-23.5	-30.5	-30.0
EC-PACCH/D/2TS/4	CC2	dB	[TBD]	[TBD]	[TBD]
EC-PACCH/D/2TS/8	CC3	dB	[TBD]	[TBD]	[TBD]
EC-PACCH/D/2TS/16	CC4	dB	[TBD]	[TBD]	[TBD]
EC-CCCH/D²⁾	CC1	dB	-15.0	–	-17.5
EC-CCCH/D/8	CC2	dB	-24.0	–	-27.5
EC-CCCH/D/16	CC3	dB	-25.0	–	-29.0
EC-CCCH/D/32	CC4	dB	-27.5	–	-30.5
EC-PDTCH/MCS-1⁴⁾	CC1	dB	-20.0	-21.5	-21.5
EC-PDTCH/MCS-1/4	CC2	dB	-24.0	-26.0	-25.5
EC-PDTCH/MCS-1/8	CC3	dB	-26.0	-29.5	-29.0
EC-PDTCH/MCS-1/16	CC4	dB	-27.5	-32.0	-32.0
EC-PDTCH/2TS/MCS-1/4	CC2	dB	[TBD]	[TBD]	[TBD]
EC-PDTCH/2TS/MCS-1/8	CC3	dB	[TBD]	[TBD]	[TBD]
EC-PDTCH/2TS/MCS-1/16	CC4	dB	[TBD]	[TBD]	[TBD]
DCS 1800 and PCS 1900
Type of			Propagation conditions
Channel			TU1.2 (no FH)	TU1.2¹⁾ (Ideal FH)	TU50 (no FH)
EC-SCH	–	dB	-29.0	–	-30.5
EC-BCCH	–	dB	-32.0	–	-33.0
EC-PACCH/D	CC1	dB	-18.0	-23.0	-23.0
EC-PACCH/D/4	CC2	dB	-21.0	-26.5	-26.5
EC-PACCH/D/8	CC3	dB	-22.5	-29.0	-28.5
EC-PACCH/D/16	CC4	dB	-24.0	-30.5	-30.5
EC-PACCH/D/2TS/4	CC2	dB	[TBD]	[TBD]	[TBD]
EC-PACCH/D/2TS/8	CC3	dB	[TBD]	[TBD]	[TBD]
EC-PACCH/D/2TS/16	CC4	dB	[TBD]	[TBD]	[TBD]
EC-CCCH/D²⁾	CC1	dB	-15.5	–	-18.5
EC-CCCH/D/8	CC2	dB	-24.5	–	-27.5
EC-CCCH/D/16	CC3	dB	-25.5	–	-29.5
EC-CCCH/D/32	CC4	dB	-28.5	–	-31.0
EC-PDTCH/MCS-1⁴⁾	CC1	dB	-20.0	-21.5	-21.5
EC-PDTCH/MCS-1/4	CC2	dB	-24.0	-26.0	-26.0
EC-PDTCH/MCS-1/8	CC3	dB	-26.0	-29.5	-29.5
EC-PDTCH/MCS-1/16	CC4	dB	-28.0	-32.0	-32.0
EC-PDTCH/2TS/MCS-1/4	CC2	dB	[TBD]	[TBD]	[TBD]
EC-PDTCH/2TS/MCS-1/8	CC3	dB	[TBD]	[TBD]	[TBD]
EC-PDTCH/2TS/MCS-1/16	CC4	dB	[TBD]	[TBD]	[TBD]
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. NOTE 2: The performance requirements for EC-CCCH apply for EC-PCH and EC‑AGCH. NOTE 3: For the notation of EC-channels, see 3GPP TS 45.003. NOTE 4: For MCS-2, MCS-3 and MCS-4 in CC1 the requirements in table 2a apply for TU3 (low band) and TU1,5 (high band) and TU50 (no FH) propagation conditions together with the conditions for EGPRS in table 6.3-1a and subclause 6.3.4.

Table 2an: Adjacent channel interference ratio (for normal BTS) at reference performance for 8-PSK modulated input signals

E-GSM 900 and GSM 850
Type of			Propagation conditions
Channel			TU1.2 (no FH)	TU1.2¹⁾ (ideal FH)	TU50 (no FH)
EC-PDTCH/MCS-5²⁾	CC1	dB	-9,5	-11,5	-11,5
DCS 1800 and PCS 1900
Type of			Propagation conditions
Channel			TU1.2 (no FH)	TU1.2¹⁾ (ideal FH)	TU50 (no FH)
EC-PDTCH/MCS-5²⁾	CC1	dB	-9,5	-11,5	-11,5
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. NOTE 2: For MCS-6, MCS-7, MCS-8 and MCS-9 in CC1 the requirements in table 2f apply for TU3 (low band) and TU1,5 (high band) and TU50 (no FH) propagation conditions together with the conditions for EGPRS in subclause 6.3.4.

Table 2ao: Adjacent channel interference ratio (for EC-GSM-IoT MS) at reference performance for 8-PSK modulated input signals

E-GSM 900 and GSM 850
Type of			Propagation conditions
Channel			TU3 (no FH)	TU3¹⁾ (ideal FH)	TU50 (no FH)
EC-PDTCH/MCS-5²⁾	CC1	dB	2.5	-2	-1
EC-PDTCH/MCS-6²⁾	CC1	dB	5.5	0.5	2
EC-PDTCH/MCS-7²⁾	CC1	dB	10.5	8	10
EC-PDTCH/MCS-8	CC1	dB	15.5²⁾	9³⁾	11³⁾
EC-PDTCH/MCS-9	CC1	dB	10³⁾	12.5³⁾	17³⁾
DCS 1800 and PCS 1900
Type of			Propagation conditions
Channel			TU1.5 (no FH)	TU1.5¹⁾ (ideal FH)	TU50 (no FH)
EC-PDTCH/MCS-5²⁾	CC1	dB	2.5	-2	-2
EC-PDTCH/MCS-6²⁾	CC1	dB	5.5	0.5	1.5
EC-PDTCH/MCS-7²⁾	CC1	dB	10.5	8	12.5
EC-PDTCH/MCS-8	CC1	dB	15.5²⁾	9³⁾	16³⁾
EC-PDTCH/MCS-9	CC1	dB	10³⁾	12.5³⁾	–
NOTE 1: Ideal FH case assumes perfect decorrelation between bursts. This case may only be tested if such a decorrelation is ensured in the test. NOTE 2: For MCS-5, MCS-6, MCS-7, MCS-8 in CC1 these requirements are identical to PDTCH in table 2g and are specified at 10% BLER with the conditions for EGPRS in subclause 6.3.4. NOTE 3: For MCS-8 and MCS-9 in CC1 these requirements are identical to PDTCH in table 2g and are specified at 30% BLER with the conditions for EGPRS in subclause 6.3.4.

Annex A (informative):
Spectrum characteristics (spectrum due to the modulation)

Figure A.1a: GSM 400, GSM 900, ER-GSM 900, GSM 850 and GSM 700 MS spectrum due to GMSK modulation

Figure A.1b: GSM 400, GSM 900, ER-GSM 900, GSM 850 and GSM 700 MS spectrum due to 8-PSK and 16-QAM modulation with normal symbol rate and QPSK, 16-QAM and 32-QAM modulation with higher symbol rate using narrow BW pulse shaping filter

Figure A.1c: GSM 400, GSM 900, ER-GSM 900, GSM 850 and GSM 700 MS spectrum due to QPSK, 16- QAM and 32-QAM modulation with higher symbol rate using wide pulse shaping filter

Figure A.2a: GSM 400, GSM 900, ER-GSM 900, GSM 850, MXM 850, GSM 700, DCS 1800, PCS 1900 and MXM 1900 BTS spectrum due to GMSK modulation

Figure A.2b: GSM 400, GSM 900, ER-GSM 900, GSM 850, MXM 850, GSM 700, DCS 1800, PCS 1900 and MXM 1900 BTS spectrum due to 8-PSK, AQPSK, 16-QAM and 32-QAM modulation with normal symbol rate and QPSK, 16-QAM and 32-QAM modulation with higher symbol rate using narrow BW pulse shaping filter

Figure A.3a: DCS 1 800 and PCS 1900 MS spectrum due to GMSK modulation

Figure A.3b: DCS 1 800 and PCS 1900 MS spectrum due to 8-PSK and 16-QAM modulation with normal symbol rate and QPSK, 16-QAM and 32-QAM with higher symbol rate modulation using narrow BW pulse shaping filter

Figure A.3c: DCS 1 800 and PCS 1900 MS spectrum due to QPSK, 16-QAM and 32-QAM modulation with higher symbol rate using using wide pulse shaping filter

Annex B (normative):
Transmitted power level versus time

Figure B.1: Time mask for normal duration bursts (NB, FB, DB, SB and Extended AB) at GMSK modulation

Figure B.2: Time mask for normal duration bursts (NB) at 8-PSK modulation

Figure B.3: Time mask for access bursts (AB) and extended synchronization access burst (ESAB)

Figure B.4: PCS 1900 and MXM 1900 BTS Transmitter Time Mask at GMSK modulation

Figure B.5: Time mask for normal duration bursts (NB) at 16-QAM and 32-QAM modulation at normal symbol rate

Figure B.6: Time mask for higher symbol rate bursts (HB) at QPSK modulation with narrow pulse shaping filter

B.7: Time mask for higher symbol rate bursts (HB) at 16-QAM and 32-QAM modulation with narrow pulse shaping filter

Figure B.8: Time mask for higher symbol rate bursts (HB) at QPSK modulation with wide pulse shaping filter

Figure B.9: Time mask for higher symbol rate bursts (HB) at 16-QAM and 32-QAM modulation with wide pulse shaping filter

Figure B.10: Time mask for AQPSK modulation (Note: the above time mask is applicable to all values of (see 3GPP TS 45.004) supported by the BTS)

(*)		For GSM 400, GSM 850, GSM 700, ER-GSM 900 and GSM 900 MS	:	see 4.5.2.
		For DCS 1 800 and PCS 1900 MS	:	‑48 dBc or ‑48 dBm, whichever is the higher.
		For all BTS	:	no requirement below ‑30 dBc (see 4.5.1).
(**)		For GSM 400, GSM 900, ER-GSM 900, GSM 700 and GSM 850 MS	:	‑4 dBc for power control level 16;
				‑2 dBc for power control level 17;
				‑1 dBc for power control levels 18 and 19-31.
		For DCS 1 800 MS	:	‑4 dBc for power control level 11,
				‑2 dBc for power control level 12,
				‑1 dBc for power control levels 13, 14 and 15-28.
		For PCS 1900 MS	:	‑4 dBc for power control level 11,
				‑2 dBc for power control level 12,
				‑1 dBc for power control levels 13, 14 and 15.
(***)		For GSM 400, GSM 900, ER-GSM 900, GSM 700 and GSM 850 MS	:	‑30 dBc or ‑17 dBm, whichever is the higher.
		For DCS 1 800 and PCS 1900 MS	:	‑30 dBc or ‑20 dBm, whichever is the higher.
(****)	For all BTS and all MS				Lower limit within the useful part of burst is seen as undefined for 16-QAM and 32-QAM.

Annex C (normative):
Propagation conditions