C.2 DCS 1800; Number of Samples for Testing

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

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

DCS 1800 SDCCH

(FER: 4.25 events/s, frame filling = 4/51)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
static	FER=0.10%	30 000	2	–	60 000	14 117.6
TU50	FER=9.0%	333	2	1 301	1 301	306.1
RA130	FER=8.0%	375	2	521	750	176.5
HT100	FER=13.0%	231	2	651	651	153.2
TU1.5	FER=22%	136	2	43 350	43 350	10 200.0
TU1.5(SFH)	FER=9.0%	333	2	43 350	43 350	10 200.0
TU50(SFH)	FER=9%	333	2	1 301	1 301	306.1
TI5	FER=13%	231	2	13 005	13 005	3 060

DCS 1800 RACH

(FER: 217 events/s, frame filling = 1)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
static	FER=0.50%	6 000	2	–	12 000	55.3
TU50	FER=13%	231	2	5 208	5 208	24.0
RA130	FER=12%	250	2	2 087	2 087	10.0
HT100	FER=13%	231	2	2 604	2 604	12.0
TU1.5	FER=15%	200	2	173 600	173 600	800.0
TU1.5(SFH)	FER=15%	200	2	173 600	173 600	800.0
TU50	FER=16%	188	2	5 208	5 208	24.0
RA130	FER=13%	231	2	2 087	2 087	10.0
TU50(SFH)	FER=13%	231	2	5 208	5 208	24.0
TI5	FER=13%	231	2	52 080	52 080	3063.5
TU50(SFH)	FER=16%	188	2	5208	5208	24
TI5	FER=16%	188	2	52 080	52 080	3063.5

DCS 1800 SACCH/T

(FER: 2.1 events/s, frame filling = 1/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
static	FER=0.10%	30 000	2	–	60 000	28 571.4
TU50	FER=9.0%	333	2	1 311	1 311	624.3
RA130	FER=8.0%	375	2	525	750	357.1
HT100	FER=13%	231	2	656	656	312.4
TU1.5	FER=22%	136	2	43 680	43 680	20 800.0
TU1.5(SFH)	FER=9.0%	333	2	43 680	43 680	20 800.0
TU50(SFH)	FER=9%	333	2	1 311	1 311	624.3
TI5	FER=13%	231	2	13 104	13 104	6 240.0

DCS 1800 SACCH/C

(FER: 2.13 events/s, frame filling = 4/102)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
static	FER=0.10%	30 000	2	–	60 000	28 169.0
TU50	FER=9%	333	2	1 304	1 304	612.2
RA130	FER=8.0%	375	2	523	750	352.1
HT100	FER=13%	251	2	652	652	306.1
TU1.5	FER=22%	136	2	43 452	43 452	20 400.0
TU1.5(SFH)	FER=9.0%	333	2	43 452	43 452	20 400.0
TU50(SFH)	FER=9%	333	2	1 304	1 304	612.2
TI5	FER=13%	231	2	26 071	26 071	12 240

DCS 1800 FACCH/F

(FER: 50 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
static	FER=0.10%	30 000	4	–	120 000	2 400.0
TU50	FER=3.9%	769	4	1 300	3 076	61.5
RA130	FER=3.4%	882	4	521	3 528	70.6
HT100	FER=7.4%	405	4	650	1 620	32.4
TU1.5	FER=22%	136	4	43 334	43 334	866.7
TU1.5(SFH)	FER=3.4%	882	4	43 334	43 334	866.7
TU50	FER=3.4%	882	4	1 300	3 528	70.6
RA130	FER=3.5%	857	4	521	3 428	68.6
TU50(SFH)	FER=3.9%	769	4	1 300	3 076	61.5
TI5	FER=8.0%	375	4	13 000	13 000	260.0
TU50(SFH)	FER=3.4%	882	4	1 300	3 528	70.6
TI5	FER=9.5%	316	4	13 000	13 000	260.0
TU50	FER=6.1%	492	4	1 300	1 968	39.4
TI5	FER=17.1%	176	4	13 000	13 000	260.0

DCS 1800 FACCH/H

(FER: 25 events/s, frame filling = 12/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
static	FER=0.10%	30 000	4	–	120 000	4 800.0
TU50	FER=7.2%	417	4	1 300	1 668	66.7
RA130	FER=5.7%	526	4	521	2 104	84.2
HT100	FER=10.4%	288	4	650	1 152	46.1
TU1.5	FER=22%	136	4	43 334	43 334	1733.4
TU1.5(SFH)	FER=6.7%	448	4	43 334	43 334	1733.4
TU50	FER=6.9%	435	4	1 300	1 740	69.6
TU50(SFH)	FER=7.2%	417	4	1 300	1 668	66.7
TI5	FER=6.9%	435	4	13 000	13 000	520.0
TU50(SFH)	FER=6.9%	435	4	1 300	1 740	69.6
TI5	FER=6.7%	448	4	13 000	13 000	520.0

DCS 1800 TCH/F9.6

(BER: 12000 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
static	BER=1.0E‑5	3 000 000	10	–	30 000 000	2 500.0
TU50	BER=0.40%	7 500	10	312 000	312 000	26.0
RA130	BER=0.10%	30 000	10	125 000	300 000	25.0
HT100	BER=0.70%	4 286	10	156 000	156 000	13.0
TU1.5	BER=8.0%	375	10	10 400 000	10 400 000	866.7
TU1.5(SFH)	BER=0.30%	10 000	10	10 400 000	10 400 000	866.7
TU50	BER=0.80%	3 750	10	312 000	312 000	26.0
TU50 (SFH)	BER=0.3%	10 000	10	312 000	312 000	26.0
RA130	BER=0.20%	15 000	10	125 000	150 000	12.5
TU50(SFH)	BER=0.4%	7 500	10	312 000	312 000	26.0
TI5	BER=0.5%	6 000	10	3 120 000	3 120 000	260.0
TI5	BER=0.8%	3 750	10	3 120 000	3 120 000	260.0

DCS 1800 TCH/H4.8

(BER: 6000 events/s, frame filling = 12/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
static	BER=1.0E‑5	3000 000	10	–	30000 000	5 000.0
TU50	BER=0.40%	7 500	10	312 000	312 000	52.0
RA130	BER=0.10%	30 000	10	125 000	300 000	50.0
HT100	BER=0.70%	4 286	10	156 000	156 000	26.0
TU1.5	BER=8.0%	375	10	10400 000	10400 000	1733.4
TU1.5(SFH)	BER=0.30%	10 000	10	10400 000	10400 000	1733.4
TU50	BER=0.80%	3 750	10	312 000	312 000	52.0
TU50(SFH)	BER=0.3%	10 000	10	312 000	312 000	52.0
RA130	BER=0.20%	15 000	10	125 000	150 000	25.0
TU50(SFH)	BER=0.40%	7 500	10	312 000	312 000	52.0
TI5	BER=0.50%	6 000	10	3 120 000	3 120 000	520.0
TI5	BER=0.80%	3 750	10	3 120 000	3 120 000	520.0

DCS 1800 TCH/F4.8

(BER: 6000 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
TU50	BER=1.0E‑4	300 000	10	156 000	3000 000	500.0
RA130	BER=1.0E‑4	300 000	10	62 500	3000 000	500.0
HT100	BER=1.0E‑4	300 000	10	78 000	3000 000	500.0
TU1.5	BER=3.0%	1 000	10	5200 000	5200 000	866.7
TU1.5(SFH)	BER=1.0E‑4	300 000	10	5200 000	5200 000	866.7
TU50(SFH)	BER=1.0E-4	300 000	10	1 560 000	3 000 000	260.0
TI5	BER=1.0E-4	300 000	10	1 560 000	3 000 000	260.0

DCS 1800 TCH/F2.4

(BER: 3600 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
TU50	BER=1.0E‑5	3000 000	10	93 600	30000 000	8 333.3
RA130	BER=1.0E‑5	3000 000	10	7 500	30000 000	8 333.3
HT100	BER=1.0E‑5	3000 000	10	46 800	30000 000	8 333.3
TU1.5	BER=3.0%	1 000	10	3120 000	3120 000	866.7
TU1.5(SFH)	BER=1.0E‑5	3000 000	10	3120 000	30000 000	8 333.3
TU50(SFH)	BER=1.0^E-5	3000 000	10	93 600	30000 000	8 333.3
TI5	BER=2.0^E-4	150 000	10	936 000	1 500 000	416.7
TI5	BER=1.0^E-4	300 000	10	93 600	3 000 000	833.3

DCS 1800 TCH/H2.4

(BER: 3600 events/s, frame filling = 12/26)

Prop. cond.	Error rate	Stat. sign.	Ind. samples	Station. proc.	Samples:	Time: (s)
TU50	BER=1.0E‑4	300 000	10	187 200	3000 000	833.3
RA130	BER=1.0E‑4	300 000	10	75 000	3000 000	833.3
HT100	BER=1.0E‑4	300 000	10	93 600	3000 000	833.3
TU1.5	BER=4.0%	750	10	6240 000	6240 000	1733.4
TU1.5(SFH)	BER=1.0E‑4	300 000	10	6240 000	6240 000	1733.4
TU50(SFH)	BER=1.0^E-4	300 000	10	187 200	3000 000	833.3
TI5	BER=1.0E-4	300 000	10	1 872 000	3 000 000	833.3
TI5	BER=2.0E-4	150 000	10	1 872 000	1 872 000	520.0

DCS 1800 TCH/FS

(FER: 50 events/s, RBER class Ib: 6600 events/s, RBER class II: 3900 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Ind. samples	Station. proc	Samples:	Time: (s)
static	FER=0.10%	30 000	4	–	120 000	2 400.0
Ib	RBER=0.40%	7 500	10	–	75 000	11.4
II	RBER=2.0%	1 500	10	–	15 000	3.8
TU50	FER=3.0%	1000	4	1 300	4 000	80.0
Ib	RBER=0.30%	10 000	10	171 600	171 600	26.0
II	RBER=8.0%	375	10	101 400	101 400	26.0
RA130	FER=2.0%	1 500	4	521	6 000	120.0
Ib	RBER=0.20%	15 000	10	68 750	150 000	22.7
II	RBER=7.0%	429	10	40 625	40 625	10.4
HT100	FER=7.0%	429	4	650	1 716	34.3
Ib	RBER=0.50%	6 000	10	85 800	85 800	13.0
II	RBER=9.0%	333	10	50 700	50 700	13.0
TU1.5	FER=21%	143	4	43 334	43 334	866.7
Ib	RBER=2.0%	1 500	10	5720 000	5720 000	866.7
II	RBER=4.0%	750	10	3380 000	3380 000	866.7
TU1.5(SFH)	FER=3.0%	1 000	4	43 334	43 334	866.7
Ib	RBER=0.20%	15 000	10	5720 000	5730 000	866.7
II	RBER=8.0%	375	10	3380 000	3380 000	866.7
TU50	FER=3.0%	1 000	4	1 300	4 000	80.0
Ib	RBER=0.25%	12 500	10	171 600	171 600	26.0
II	RBER=8.1%	370	10	101 400	101 400	26.0
RA130	FER=3.0%	1 000	4	521	4 000	80.0
Ib	RBER=0.20%	15 000	10	71 500	150 000	22.7
II	RBER=8.0%	375	10	42 250	42 250	10.8
static II	RBER=1.0E‑4	300 000	10	–	3000 000	769.2
EQU50	II RBER=3.0%	1 000	10	101 400	101 400	26.0
Static	FER=5%	600	4	–	2400	48.0
TU50(SFH)	FER=3.0%	1000	4	1 300	4 000	80.0
Ib	RBER=0.30%	10 000	10	171 600	171 600	26.0
II	RBER=8.0%	375	10	101 400	101 400	26.0
TI5	FER=6.0%	500	4	13 000	13 000	260.0
Ib	RBER=0.40%	7500	10	1 716 000	1 716 000	260.0
II	RBER=8.0%	375	10	1 014 000	1 014 000	260.0
TU50(SFH)	FER=3.0%	1000	4	1 300	4000	80.0
Ib	RBER=0.25%	12000	10	171 600	171 600	26.0
II	RBER=8.1%	370	10	101 400	101 400	26.0
TU50	FER=5.1%	588	4	1 300	2 352	47.0
Ib	RBER=0.45%	6667	10	171 600	171 600	26.0
II	RBER=8.9%	337	10	101 400	101 400	26.0
TI5	FER=10.2%	294	4	13 000	13 000	260.0
Ib	RBER=0.72%	4167	10	1 716 000	1 716 000	260.0
II	RBER=8.8%	341	10	1 014 000	1 014 000	260.0

GSM 1800 TCH/F14.4

(BER: 14500 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Indep. Samples	Station. proc.	Samples:	Time: (s)
static	BER=1.0E‑5	3 000 000	10	–	30 000 000	2 069.0
TU50	BER=2.1%	1 429	10	377 000	377 000	26.0
TU50(SFH)	BER=2.0%	1 500	10	377 000	377 000	26.0
RA130	BER=2.0%	1 500	10	150 800	150 800	10.4
HT100	BER=6.5%	462	10	188 500	188 500	13.0
TU1.5	BER=10.0%	300	10	12 566 667	12 566 667	866.7
TU1.5(SFH)	BER=3.0%	1 000	10	12 566 667	12 566 667	866.7
TU50	BER=4.0%	750	10	377 000	377 000	26.0
TU50(SFH)	BER=3.1%	968	10	377 000	377 000	26.0
RA130	BER=3.0%	1 000	10	150 800	150 800	10.4
TI5	BER=2.5%	1 200	10	3 770 000	3 770 000	260.0
TI5	BER=4.5%	667	10	3 770 000	3 770 000	260.0

DCS 1800 TCH/HS

(FER: 50 events/s, RBER class Ib: 3650 events/s, RBER class II: 850 events/s, frame filling = 12/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc	Samples:	Time: (s)
static (FER)	0.025%	120 000	4	–	480 000	9 600.0
Ib	0.001%	3 000 000	10	–	30 000 000	8 219.2
II	0.720%	4 167	10	–	41 667	49.0
TU50 (FER)	4.20%	714	4	2 600	2 857	57.1
Ib	0.38%	7 895	10	189 800	189 800	52.0
II	6.90%	435	10	44 200	44 200	52.0
RA130 (FER)	4.10%	732	4	1 040	2 927	58.5
Ib	0.28%	10 714	10	75 920	107 143	29.4
II	6.80%	441	10	17 680	17 680	20.8
HT100 (FER)	5.00%	600	4	1 300	2 400	48.0
Ib	0.63%	4 762	10	94 900	94 900	26.0
II	7.80%	385	10	22 100	22 100	26.0
TU1.5 (FER)	19.10%	157	4	86 667	86 667	1 733.3
Ib	0.52%	5 769	10	6 326 667	6 326 667	1 733.3
II	2.80%	1 071	10	1 473 333	1 473 333	1 733.3
TU50 (FER)	5.00%	600	4	2 600	2 600	52.0
Ib	0.29%	10 345	10	189 800	189 800	52.0
II	7.20%	417	10	44 200	44 200	52.0
RA130 (FER)	4.70%	638	4	1 040	2 553	51.1
Ib	0.21%	14 286	10	75 920	142 857	39.1
II	7.00%	429	10	17 680	17 680	20.8
TU50 (SFH) FER	4.20%	714	4	2 600	2 857	57.1
Ib	0.38%	7 895	10	189 800	189 800	52.0
II	6.90%	435	10	44 200	44 200	52.0
TI5 (FER)	4.10%	732	4	26 000	26 000	520.0
Ib	0.36%	8 333	10	1 898 000	1 898 000	520.0
II	6.90%	435	10	442 000	442 000	520.0
TU50 (SFH) FER	5.00%	600	4	2 600	2 600	52.0
Ib	0.29%	10 345	10	189 800	189 800	52.0
II	7.20%	417	10	44 200	44 200	52.0
TI5 (FER)	5.00%	600	4	26 000	26 000	520.0
Ib	0.29%	10 345	10	1 898 000	1 898 000	520.0
II	7.20%	417	10	442 000	442 000	520.0

To reduce the testing time on static FER and RBER class 1b the factor k = Pb/Ps may be increased from k = 2 to k > 2 thus resulting in reasonable reductions of the test times, see table below. If this test fails, the test may be repeated with the number of samples given in the table above.

Prop. cond.	k = Pb/Ps	Stat. sign.	Indep. samples	Samples:	Time: (s)	Probability of no error (1 – p)

static (FER)	2.5	60 000	4	240 000	4800 (1h20′)	6.8 %
Ib	2.5	1 500 000	10	15 000 000	4110 (1h08′)	6.8 %

static (FER)	3.0	40 000	4	160 000	2880 (48′)	15.8 %
Ib	3.0	1 000 000	10	10 000 000	2466 (41′)	15.8 %

DCS 1800 TCH/EFS

(FER: 50 events/s, RBER class Ib: 6600 events/s, RBER class II: 3900 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc	Samples:	Time: (s)
Static	FER=0.10%	30 000	4	–	120 000	2 400.0
Ib	RBER=0.10%	30 000	10	–	300 000	45.5
II	RBER=2.0%	1 500	10	–	15 000	3.8
TU50	FER=4.0%	750	4	1 300	3 000	60.0
Ib	RBER=0.12%	25 000	10	171 600	250 000	37.9
II	RBER=8.0%	375	10	101 400	101 400	26.0
TU50 (SFH)	FER=4.0%	750	4	1 300	3 000	60.0
Ib	RBER=0.12%	25 000	10	171 600	250 000	37.9
II	RBER=8.0%	375	10	101 400	101 400	26.0
RA130	FER=3.0%	1 000	4	520	4 000	80.0
Ib	RBER=0.10%	30 000	10	68 640	300 000	45.5
II	RBER=7.0%	429	10	40 560	40 560	10.4
HT100	FER=7.0%	429	4	650	1 716	34.3
Ib	RBER=0.24%	12 500	10	85 800	125 000	18.9
II	RBER=9.0%	333	10	50 700	50 700	13.0
TU1.5	FER=23.0%	130	4	43 334	43 334	866.7
Ib	RBER=0.20%	15 000	10	5720 000	5720 000	866.7
II	RBER=3.0%	1 000	10	3380 000	3380 000	866.7
TU1.5(SFH)	FER=3.0%	1 000	4	43 334	43 334	866.7
Ib	RBER=0.1%	30 000	10	5720 000	5720 000	866.7
II	RBER=8.0%	375	10	3380 000	3380 000	866.7
TU50	FER=3.0%	1 000	4	1 300	4 000	80.0
Ib	RBER=0.10%	30 000	10	171 600	300 000	45.5
II	RBER=9.0%	333	10	101 400	101 400	26.0
TU50(SFH)	FER=3.0%	1 000	4	1 300	4 000	80.0
Ib	RBER=0.10%	30 000	10	171 600	300 000	45.5
II	RBER=9.0%	1 000	10	101 400	101 400	26.0
RA130	FER=4.0%	750	4	520	3 000	60.0
Ib	RBER=0.13%	23 077	10	68 640	300 000	45.5
II	RBER=8.0%	375	10	40 560	40 560	10.4
TI5	FER=8.0%	375	4	13 000	13 000	260.0
Ib	RBER=0.21%	14 286	10	1 716 000	1 716 000	260.0
II	RBER=7.0%	429	10	1 014 000	1 014 000	260.0
TI5	FER=9.0%	333	4	13 000	13 000	260.0
Ib	RBER=0.20%	15 000	10	1 716 000	1 716 000	260.0
II	RBER=7.0%	429	10	1 014 000	1 014 000	260.0

GSM 1800 TCH/AFS12.2

(FER: 50 events/s, RBER class Ib: 12200 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
Static (Ib)	RBER = 0,001 %	3000000	10	–	30000000	2459
TU50 (no SFH)	FER = 2 %	1500	4	1300	6000	120
Ib	RBER = 1,4 %	2142,9	10	317200	317200	26
TU50 (ideal SFH)	FER = 2 %	1500	4	1300	6000	120
Ib	RBER = 1,4 %	2142,9	10	317200	317200	26
RA130 (no SFH)	FER = 1,3 %	2307,7	4	520	9230,8	184,6
Ib	RBER = 1,2 %	2500	10	126880	126880	10,4
HT100 (no SFH)	FER = 4,6 %	652,2	4	650	2608,7	52,2
Ib	RBER = 2,1 %	1428,6	10	158600	158600	13
TI5 (no SFH)	FER = 4,9 %	612,2	4	13000	13000	260
Ib	RBER = 1,5 %	2000	10	3172000	3172000	260
TU1.5 (no SFH)	FER = 22 %	136,4	4	43333,3	43333,3	866,7
Ib	RBER = 0,92 %	3260,9	10	10573333,3	10573333,3	866,7
TU50 (no SFH)	FER = 2,7 %	1111,1	4	1300	4444,4	88,9
Ib	RBER = 1,6 %	1875	10	317200	317200	26
TU50 (ideal SFH)	FER = 2,7 %	1111,1	4	1300	4444,4	88,9
Ib	RBER = 1,6 %	1875	10	317200	317200	26
RA130 (no SFH)	FER = 1,8 %	1666,7	4	520	6666,7	133,3
Ib	RBER = 1,4 %	2142,9	10	126880	126880	10,4
TI5 (no SFH)	FER = 6 %	500	4	13000	13000	260
Ib	RBER = 1,7 %	1764,7	10	3172000	3172000	260

GSM 1800 TCH/AFS10.2

(FER: 50 events/s, RBER class Ib: 10200 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
Static (Ib)	RBER = 0,001 %	3000000	10	0	30000000	2941,2
TU50 (no SFH)	FER = 0,65 %	4615,4	4	1300	18461,5	369,2
Ib	RBER = 0,12 %	25000	10	265200	265200	26
TU50 (ideal SFH)	FER = 0,65 %	4615,4	4	1300	18461,5	369,2
Ib	RBER = 0,12 %	25000	10	265200	265200	26
RA130 (no SFH)	FER = 0,41 %	7317,1	4	520	29268,3	585,4
Ib	RBER = 0,084 %	35714,3	10	106080	357142,9	35
HT100 (no SFH)	FER = 1,6 %	1875	4	650	7500	150
Ib	RBER = 0,26 %	11538,5	10	132600	132600	13
TI5 (no SFH)	FER = 2,1 %	1428,6	4	13000	13000	260
Ib	RBER = 0,23 %	13043,5	10	2652000	2652000	260
TU1.5 (no SFH)	FER = 18 %	166,7	4	43333,3	43333,3	866,7
Ib	RBER = 0,54 %	5555,6	10	8840000	8840000	866,7
TU50 (no SFH)	FER = 0,98 %	3061,2	4	1300	12244,9	244,9
Ib	RBER = 0,17 %	17647,1	10	265200	265200	26
TU50 (ideal SFH)	FER = 0,98 %	3061,2	4	1300	12244,9	244,9
Ib	RBER = 0,17 %	17647,1	10	265200	265200	26
RA130 (no SFH)	FER = 0,56 %	5357,1	4	520	21428,6	428,6
Ib	RBER = 0,12 %	25000	10	106080	250000	24,5
TI5 (no SFH)	FER = 2,7 %	1111,1	4	13000	13000	260
Ib	RBER = 0,3 %	10000	10	2652000	2652000	260

GSM 1800 TCH/AFS7.95

(FER: 50 events/s, RBER class Ib: 7950 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
TU50 (no SFH)	FER = 0,025 %	120000	4	1300	480000	9600
Ib	RBER = 0,023 %	130434,8	10	206700	1304347,8	164,1
TU50 (ideal SFH)	FER = 0,025 %	120000	4	1300	480000	9600
Ib	RBER = 0,023 %	130434,8	10	206700	1304347,8	164,1
RA130 (no SFH)	FER = 0,018 %	166666,7	4	520	666666,7	13333,3
Ib	RBER = 0,016 %	187500	10	82680	1875000	235,8
HT100 (no SFH)	FER = 0,089 %	33707,9	4	650	134831,5	2696,6
Ib	RBER = 0,061 %	49180,3	10	103350	491803,3	61,9
TI5 (no SFH)	FER = 0,36 %	8333,3	4	13000	33333,3	666,7
Ib	RBER = 0,11 %	27272,7	10	2067000	2067000	260
TU1.5 (no SFH)	FER = 13 %	230,8	4	43333,3	43333,3	866,7
Ib	RBER = 0,67 %	4477,6	10	6890000	6890000	866,7
TU50 (no SFH)	FER = 0,07 %	42857,1	4	1300	171428,6	3428,6
Ib	RBER = 0,042 %	71428,6	10	206700	714285,7	89,8
TU50 (ideal SFH)	FER = 0,07 %	42857,1	4	1300	171428,6	3428,6
Ib	RBER = 0,042 %	71428,6	10	206700	714285,7	89,8
RA130 (no SFH)	FER = 0,029 %	103448,3	4	520	413793,1	8275,9
Ib	RBER = 0,03 %	100000	10	82680	1000000	125,8
TI5 (no SFH)	FER = 0,51 %	5882,4	4	13000	23529,4	470,6
Ib	RBER = 0,15 %	20000	10	2067000	2067000	260
TU1.5 (no SFH)	FER = 25 %	120	4	43333,3	43333,3	866,7
Ib	RBER = 1,2 %	2500	10	6890000	6890000	866,7
TU50 (no SFH)	FER = 2 %	1500	4	1300	6000	120
Ib	RBER = 0,68 %	4411,8	10	206700	206700	26
TU50 (ideal SFH)	FER = 2 %	1500	4	1300	6000	120
Ib	RBER = 0,68 %	4411,8	10	206700	206700	26
RA130 (no SFH)	FER = 1,2 %	2500	4	520	10000	200
Ib	RBER = 0,48 %	6250	10	82680	82680	10,4
TI5 (no SFH)	FER = 5,3 %	566	4	13000	13000	260
Ib	RBER = 1 %	3000	10	2067000	2067000	260

GSM 1800 TCH/AFS7.4

(FER: 50 events/s, RBER class Ib: 7400 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
TU50 (no SFH)	FER = 0,036 %	83333,3	4	1300	333333,3	6666,7
Ib	RBER = 0,013 %	230769,2	10	192400	2307692,3	311,9
TU50 (ideal SFH)	FER = 0,036 %	83333,3	4	1300	333333,3	6666,7
Ib	RBER = 0,013 %	230769,2	10	192400	2307692,3	311,9
RA130 (no SFH)	FER = 0,023 %	130434,8	4	520	521739,1	10434,8
Ib	RBER = 0,007 %	428571,4	10	76960	4285714,3	579,2
HT100 (no SFH)	FER = 0,13 %	23076,9	4	650	92307,7	1846,2
Ib	RBER = 0,031 %	96774,2	10	96200	967741,9	130,8
TI5 (no SFH)	FER = 0,41 %	7317,1	4	13000	29268,3	585,4
Ib	RBER = 0,054 %	55555,6	10	1924000	1924000	260
TU1.5 (no SFH)	FER = 14 %	214,3	4	43333,3	43333,3	866,7
Ib	RBER = 0,43 %	6976,7	10	6413333,3	6413333,3	866,7
TU50 (no SFH)	FER = 0,083 %	36144,6	4	1300	144578,3	2891,6
Ib	RBER = 0,02 %	150000	10	192400	1500000	202,7
TU50 (ideal SFH)	FER = 0,083 %	36144,6	4	1300	144578,3	2891,6
Ib	RBER = 0,02 %	150000	10	192400	1500000	202,7
RA130 (no SFH)	FER = 0,047 %	63829,8	4	520	255319,1	5106,4
Ib	RBER = 0,012 %	250000	10	76960	2500000	337,8
TI5 (no SFH)	FER = 0,56 %	5357,1	4	13000	21428,6	428,6
Ib	RBER = 0,072 %	41666,7	10	1924000	1924000	260
TU1.5 (no SFH)	FER = 26 %	115,4	4	43333,3	43333,3	866,7
Ib	RBER = 0,8 %	3750	10	6413333,3	6413333,3	866,7
TU50 (no SFH)	FER = 2,3 %	1304,3	4	1300	5217,4	104,3
Ib	RBER = 0,32 %	9375	10	192400	192400	26
TU50 (ideal SFH)	FER = 2,3 %	1304,3	4	1300	5217,4	104,3
Ib	RBER = 0,32 %	9375	10	192400	192400	26
RA130 (no SFH)	FER = 1,4 %	2142,9	4	520	8571,4	171,4
Ib	RBER = 0,22 %	13636,4	10	76960	136363,6	18,4
TI5 (no SFH)	FER = 5,4 %	555,6	4	13000	13000	260
Ib	RBER = 0,52 %	5769,2	10	1924000	1924000	260

GSM 1800 TCH/AFS6.7

(FER: 50 events/s, RBER class Ib: 6700 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
TU50 (no SFH)	FER = 0,01 %	300000	4	1300	1200000	24000
Ib	RBER = 0,017 %	176470,6	10	174200	1764705,9	263,4
TU50 (ideal SFH)	FER = 0,01 %	300000	4	1300	1200000	24000
Ib	RBER = 0,017 %	176470,6	10	174200	1764705,9	263,4
RA130 (no SFH)	FER = 0,01 %	300000	4	520	1200000	24000
Ib	RBER = 0,01 %	300000	10	69680	3000000	447,8
HT100 (no SFH)	FER = 0,031 %	96774,2	4	650	387096,8	7741,9
Ib	RBER = 0,041 %	73170,7	10	87100	731707,3	109,2
TI5 (no SFH)	FER = 0,16 %	18750	4	13000	75000	1500
Ib	RBER = 0,082 %	36585,4	10	1742000	1742000	260
TU1.5 (no SFH)	FER = 11 %	272,7	4	43333,3	43333,3	866,7
Ib	RBER = 0,76 %	3947,4	10	5806666,7	5806666,7	866,7
TU50 (no SFH)	FER = 0,025 %	120000	4	1300	480000	9600
Ib	RBER = 0,028 %	107142,9	10	174200	1071428,6	159,9
TU50 (ideal SFH)	FER = 0,025 %	120000	4	1300	480000	9600
Ib	RBER = 0,028 %	107142,9	10	174200	1071428,6	159,9
RA130 (no SFH)	FER = 0,01 %	300000	4	520	1200000	24000
Ib	RBER = 0,016 %	187500	10	69680	1875000	279,9
TI5 (no SFH)	FER = 0,021 %	142857,1	4	13000	571428,6	11428,6
Ib	RBER = 0,11 %	27272,7	10	1742000	1742000	260
TU1.5 (no SFH)	FER = 22 %	136,4	4	43333,3	43333,3	866,7
Ib	RBER = 1,4 %	2142,9	10	5806666,7	5806666,7	866,7
TU50 (no SFH)	FER = 0,82 %	3658,5	4	1300	14634,1	292,7
Ib	RBER = 0,51 %	5882,4	10	174200	174200	26
TU50 (ideal SFH)	FER = 0,82 %	3658,5	4	1300	14634,1	292,7
Ib	RBER = 0,51 %	5882,4	10	174200	174200	26
RA130 (no SFH)	FER = 0,41 %	7317,1	4	520	29268,3	585,4
Ib	RBER = 0,34 %	8823,5	10	69680	88235,3	13,2
TI5 (no SFH)	FER = 2,9 %	1034,5	4	13000	13000	260
Ib	RBER = 0,86 %	3488,4	10	1742000	1742000	260

GSM 1800 TCH/AFS5.9

(FER: 50 events/s, RBER class Ib: 5900 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
TU50 (no SFH)	FER = 0,01 %	300000	4	1300	1200000	24000
Ib	RBER = 0,001 %	3000000	10	153400	30000000	5084,7
TU50 (ideal SFH)	FER = 0,01 %	300000	4	1300	1200000	24000
Ib	RBER = 0,001 %	3000000	10	153400	30000000	5084,7
RA130 (no SFH)	FER = 0,01 %	300000	4	520	1200000	24000
Ib	RBER = 0,001 %	3000000	10	61360	30000000	5084,7
HT100 (no SFH)	FER = 0,01 %	300000	4	650	1200000	24000
Ib	RBER = 0,002 %	1500000	10	76700	15000000	2542,4
TI5 (no SFH)	FER = 0,094 %	31914,9	4	13000	127659,6	2553,2
Ib	RBER = 0,014 %	214285,7	10	1534000	2142857,1	363,2
TU1.5 (no SFH)	FER = 10 %	300	4	43333,3	43333,3	866,7
Ib	RBER = 0,38 %	7894,7	10	5113333,3	5113333,3	866,7
TU50 (no SFH)	FER = 0,01 %	300000	4	1300	1200000	24000
Ib	RBER = 0,002 %	1500000	10	153400	15000000	2542,4
TU50 (ideal SFH)	FER = 0,01 %	300000	4	1300	1200000	24000
Ib	RBER = 0,002 %	1500000	10	153400	15000000	2542,4
RA130 (no SFH)	FER = 0,01 %	300000	4	520	1200000	24000
Ib	RBER = 0,001 %	3000000	10	61360	30000000	5084,7
TI5 (no SFH)	FER = 0,12 %	25000	4	13000	100000	2000
Ib	RBER = 0,022 %	136363,6	10	1534000	1534000	260
TU1.5 (no SFH)	FER = 21 %	142,9	4	43333,3	43333,3	866,7
Ib	RBER = 0,72 %	4166,7	10	5113333,3	5113333,3	866,7
TU50 (no SFH)	FER = 0,41 %	7317,1	4	1300	29268,3	585,4
Ib	RBER = 0,079 %	37974,7	10	153400	379746,8	64,4
TU50 (ideal SFH)	FER = 0,41 %	7317,1	4	1300	29268,3	585,4
Ib	RBER = 0,079 %	37974,7	10	153400	379746,8	64,4
RA130 (no SFH)	FER = 0,2 %	15000	4	520	60000	1200
Ib	RBER = 0,046 %	65217,4	10	61360	652173,9	110,5
TI5 (no SFH)	FER = 2 %	1500	4	13000	13000	260
Ib	RBER = 0,23 %	13043,5	10	1534000	1534000	260

GSM 1800 TCH/AFS5.15

(FER: 50 events/s, RBER class Ib: 5150 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
TU50 (no SFH)	FER = 0,01 %	300000	4	1300	1200000	24000
Ib	RBER = 0,001 %	3000000	10	133900	30000000	5825,2
TU50 (ideal SFH)	FER = 0,01 %	300000	4	1300	1200000	24000
Ib	RBER = 0,001 %	3000000	10	133900	30000000	5825,2
RA130 (no SFH)	–	–	4	520	–	–
Ib	RBER = 0,01 %	300000	10	53560	3000000	582,5
HT100 (no SFH)	FER = 0,004 %	750000	4	650	3000000	60000
Ib	RBER = 0,003 %	1000000	10	66950	10000000	1941,7
TI5 (no SFH)	FER = 0,07 %	42857,1	4	13000	171428,6	3428,6
Ib	RBER = 0,014 %	214285,7	10	1339000	2142857,1	416,1
TU1.5 (no SFH)	FER = 9,2 %	326,1	4	43333,3	43333,3	866,7
Ib	RBER = 0,45 %	6666,7	10	4463333,3	4463333,3	866,7
TU50 (no SFH)	FER = 0,01 %	300000	4	1300	1200000	24000
Ib	RBER = 0,001 %	3000000	10	133900	30000000	5825,2
TU50 (ideal SFH)	FER = 0,01 %	300000	4	1300	1200000	24000
Ib	RBER = 0,001 %	3000000	10	133900	30000000	5825,2
RA130 (no SFH)	FER = 0,01 %	300000	4	520	1200000	24000
Ib	RBER = 0,001 %	3000000	10	53560	30000000	5825,2
TI5 (no SFH)	FER = 0,081 %	37037	4	13000	148148,1	2963
Ib	RBER = 0,019 %	157894,7	10	1339000	1578947,4	306,6
TU1.5 (no SFH)	FER = 19 %	157,9	4	43333,3	43333,3	866,7
Ib	RBER = 0,84 %	3571,4	10	4463333,3	4463333,3	866,7
TU50 (no SFH)	FER = 0,26 %	11538,5	4	1300	46153,8	923,1
Ib	RBER = 0,072 %	41666,7	10	133900	416666,7	80,9
TU50 (ideal SFH)	FER = 0,26 %	11538,5	4	1300	46153,8	923,1
Ib	RBER = 0,072 %	41666,7	10	133900	416666,7	80,9
RA130 (no SFH)	FER = 0,13 %	23076,9	4	520	92307,7	1846,2
Ib	RBER = 0,038 %	78947,4	10	53560	789473,7	153,3
TI5 (no SFH)	FER = 1,4 %	2142,9	4	13000	13000	260
Ib	RBER = 0,22 %	13636,4	10	1339000	1339000	260

GSM 1800 TCH/AFS4.75

(FER: 50 events/s, RBER class Ib: 4750 events/s, frame filling = 24/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
TU50 (no SFH)	FER = 0,01 %	300000	4	1300	1200000	24000
Ib	RBER = 0,001 %	3000000	10	123500	30000000	6315,8
TU50 (ideal SFH)	–	–	4	1300	–	–
Ib	RBER = 0,001 %	3000000	10	123500	30000000	6315,8
RA130 (no SFH)	–	–	4	520	–	–
Ib	RBER = 0,001 %	3000000	10	49400	30000000	6315,8
HT100 (no SFH)	FER = 0,01 %	300000	4	650	1200000	24000
Ib	RBER = 0,001 %	3000000	10	61750	30000000	6315,8
TI5 (no SFH)	FER = 0,029 %	103448,3	4	13000	413793,1	8275,9
Ib	RBER = 0,005 %	600000	10	1235000	6000000	1263,2
TU1.5 (no SFH)	FER = 7,9 %	379,7	4	43333,3	43333,3	866,7
Ib	RBER = 0,31 %	9677,4	10	4116666,7	4116666,7	866,7
TU50 (no SFH)	FER = 0,01 %	300000	4	1300	1200000	24000
Ib	RBER = 0,001 %	3000000	10	123500	30000000	6315,8
TU50 (ideal SFH)	FER = 0,01 %	300000	4	1300	1200000	24000
Ib	RBER = 0,001 %	3000000	10	123500	30000000	6315,8
RA130 (no SFH)	–	–	4	520	–	–
Ib	RBER = 0,001 %	3000000	10	49400	30000000	6315,8
TI5 (no SFH)	FER = 0,036 %	83333,3	4	13000	333333,3	6666,7
Ib	RBER = 0,036 %	83333,3	10	1235000	1235000	260
TU1.5 (no SFH)	FER = 17 %	176,5	4	43333,3	43333,3	866,7
Ib	RBER = 0,61 %	4918	10	4116666,7	4116666,7	866,7
TU50 (no SFH)	FER = 0,1 %	30000	4	1300	120000	2400
Ib	RBER = 0,021 %	142857,1	10	123500	1428571,4	300,8
TU50 (ideal SFH)	FER = 0,1 %	30000	4	1300	120000	2400
Ib	RBER = 0,021 %	142857,1	10	123500	1428571,4	300,8
RA130 (no SFH)	FER = 0,051 %	58823,5	4	520	235294,1	4705,9
Ib	RBER = 0,009 %	333333,3	10	49400	3333333,3	701,8
TI5 (no SFH)	FER = 0,82 %	3658,5	4	13000	14634,1	292,7
Ib	RBER = 0,11 %	27272,7	10	1235000	1235000	260

GSM 1800 TCH/AHS7.95

(FER: 50 events/s, RBER class Ib: 2800 events/s, RBER class II : 1800 events/s, frame filling = 12/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
Static	FER = 0,01 %	300000	4	–	1200000	24000
Ib	RBER = 0,004 %	750000	10	–	7500000	2678,6
II	RBER = 0,66 %	4545,5	10	–	45454,5	25,3
TU50 (no SFH)	FER = 20 %	150	4	2600	2600	52
Ib	RBER = 2,3 %	1304,3	10	145600	145600	52
II	RBER = 5 %	600	10	93600	93600	52
TU50 (ideal SFH)	FER = 20 %	150	4	2600	2600	52
Ib	RBER = 2,3 %	1304,3	10	145600	145600	52
II	RBER = 5 %	600	10	93600	93600	52
RA130 (no SFH)	FER = 17 %	176,5	4	1040	1040	20,8
Ib	RBER = 2 %	1500	10	58240	58240	20,8
II	RBER = 4,8 %	625	10	37440	37440	20,8
HT100 (no SFH)	FER = 27 %	111,1	4	1300	1300	26
Ib	RBER = 2,9 %	1034,5	10	72800	72800	26
II	RBER = 5,7 %	526,3	10	46800	46800	26
TI5 (no SFH)	FER = 20 %	150	4	26000	26000	520
Ib	RBER = 2,3 %	1304,3	10	1456000	1456000	520
II	RBER = 5 %	600	10	936000	936000	520
TU1.5 (no SFH)	FER = 27 %	111,1	4	86666,7	86666,7	1733,3
Ib	RBER = 0,85 %	3529,4	10	4853333,3	4853333,3	1733,3
II	RBER = 1,7 %	1764,7	10	3120000	3120000	1733,3
TU50 (no SFH)	FER = 23 %	130,4	4	2600	2600	52
Ib	RBER = 2,3 %	1304,3	10	145600	145600	52
II	RBER = 5,1 %	588,2	10	93600	93600	52
TU50 (ideal SFH)	FER = 23 %	130,4	4	2600	2600	52
Ib	RBER = 2,3 %	1304,3	10	145600	145600	52
II	RBER = 5,1 %	588,2	10	93600	93600	52
RA130 (no SFH)	FER = 20 %	150	4	1040	1040	20,8
Ib	RBER = 2,1 %	1428,6	10	58240	58240	20,8
II	RBER = 5,1 %	588,2	10	37440	37440	20,8
TI5 (no SFH)	FER = 22 %	136,4	4	26000	26000	520
Ib	RBER = 2,3 %	1304,3	10	1456000	1456000	520
II	RBER = 5,3 %	566	10	936000	936000	520
TU1.5 (no SFH)	FER = 14 %	214,3	4	86666,7	86666,7	1733,3
Ib	RBER = 0,49 %	6122,4	10	4853333,3	4853333,3	1733,3
II	RBER = 1 %	3000	10	3120000	3120000	1733,3
TU50 (no SFH)	FER = 6,7 %	447,8	4	2600	2600	52
Ib	RBER = 1 %	3000	10	145600	145600	52
II	RBER = 3,1 %	967,7	10	93600	93600	52
TU50 (ideal SFH)	FER = 6,7 %	447,8	4	2600	2600	52
Ib	RBER = 1 %	3000	10	145600	145600	52
II	RBER = 3,1 %	967,7	10	93600	93600	52
RA130 (no SFH)	FER = 6,5 %	461,5	4	1040	1846,2	36,9
Ib	RBER = 0,98 %	3061,2	10	58240	58240	20,8
II	RBER = 3,1 %	967,7	10	37440	37440	20,8
TI5 (no SFH)	FER = 6,7 %	447,8	4	26000	26000	520
Ib	RBER = 1 %	3000	10	1456000	1456000	520
II	RBER = 3,2 %	937,5	10	936000	936000	520

GSM 1800 TCH/AHS7.4

(FER: 50 events/s, RBER class Ib: 2950 events/s, RBER class II : 1400 events/s, frame filling = 12/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
Static	FER = 0,01 %	300000	4	–	1200000	24000
Ib	RBER = 0,001 %	3000000	10	–	30000000	10169,5
II	RBER = 0,66 %	4545,5	10	–	45454,5	32,5
TU50 (no SFH)	FER = 16 %	187,5	4	2600	2600	52
Ib	RBER = 1,4 %	2142,9	10	153400	153400	52
II	RBER = 5,3 %	566	10	72800	72800	52
TU50 (ideal SFH)	FER = 16 %	187,5	4	2600	2600	52
Ib	RBER = 1,4 %	2142,9	10	153400	153400	52
II	RBER = 5,3 %	566	10	72800	72800	52
RA130 (no SFH)	FER = 13 %	230,8	4	1040	1040	20,8
Ib	RBER = 1,1 %	2727,3	10	61360	61360	20,8
II	RBER = 5,1 %	588,2	10	29120	29120	20,8
HT100 (no SFH)	FER = 22 %	136,4	4	1300	1300	26
Ib	RBER = 1,9 %	1578,9	10	76700	76700	26
II	RBER = 6 %	500	10	36400	36400	26
TI5 (no SFH)	FER = 16 %	187,5	4	26000	26000	520
Ib	RBER = 1,4 %	2142,9	10	1534000	1534000	520
II	RBER = 5,3 %	566	10	728000	728000	520
TU1.5 (no SFH)	FER = 26 %	115,4	4	86666,7	86666,7	1733,3
Ib	RBER = 0,69 %	4347,8	10	5113333,3	5113333,3	1733,3
II	RBER = 1,9 %	1578,9	10	2426666,7	2426666,7	1733,3
TU50 (no SFH)	FER = 18 %	166,7	4	2600	2600	52
Ib	RBER = 1,4 %	2142,9	10	153400	153400	52
II	RBER = 5,5 %	545,5	10	72800	72800	52
TU50 (ideal SFH)	FER = 18 %	166,7	4	2600	2600	52
Ib	RBER = 1,4 %	2142,9	10	153400	153400	52
II	RBER = 5,5 %	545,5	10	72800	72800	52
RA130 (no SFH)	FER = 16 %	187,5	4	1040	1040	20,8
Ib	RBER = 1,3 %	2307,7	10	61360	61360	20,8
II	RBER = 5,4 %	555,6	10	29120	29120	20,8
TI5 (no SFH)	FER = 18 %	166,7	4	26000	26000	520
Ib	RBER = 1,4 %	2142,9	10	1534000	1534000	520
II	RBER = 5,6 %	535,7	10	728000	728000	520
TU1.5 (no SFH)	FER = 13 %	230,8	4	86666,7	86666,7	1733,3
Ib	RBER = 0,39 %	7692,3	10	5113333,3	5113333,3	1733,3
II	RBER = 1,2 %	2500	10	2426666,7	2426666,7	1733,3
TU50 (no SFH)	FER = 4,9 %	612,2	4	2600	2600	52
Ib	RBER = 0,51 %	5882,4	10	153400	153400	52
II	RBER = 3,3 %	909,1	10	72800	72800	52
TU50 (ideal SFH)	FER = 4,9 %	612,2	4	2600	2600	52
Ib	RBER = 0,51 %	5882,4	10	153400	153400	52
II	RBER = 3,3 %	909,1	10	72800	72800	52
RA130 (no SFH)	FER = 4,8 %	625	4	1040	2500	50
Ib	RBER = 0,47 %	6383	10	61360	63829,8	21,6
II	RBER = 3,3 %	909,1	10	29120	29120	20,8
TI5 (no SFH)	FER = 5,1 %	588,2	4	26000	26000	520
Ib	RBER = 0,51 %	5882,4	10	1534000	1534000	520
II	RBER = 3,3 %	909,1	10	728000	728000	520

GSM 1800 TCH/AHS6.7

(FER: 50 events/s, RBER class Ib: 2750 events/s, RBER class II : 1200 events/s, frame filling = 12/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
Static	FER = 0,01 %	300000	4	–	1200000	24000
Ib	RBER = 0,001 %	3000000	10	–	30000000	10909,1
II	RBER = 0,66 %	4545,5	10	–	45454,5	37,9
TU50 (no SFH)	FER = 9,4 %	319,1	4	2600	2600	52
Ib	RBER = 1,1 %	2727,3	10	143000	143000	52
II	RBER = 5,8 %	517,2	10	62400	62400	52
TU50 (ideal SFH)	FER = 9,4 %	319,1	4	2600	2600	52
Ib	RBER = 1,1 %	2727,3	10	143000	143000	52
II	RBER = 5,8 %	517,2	10	62400	62400	52
RA130 (no SFH)	FER = 7,5 %	400	4	1040	1600	32
Ib	RBER = 0,92 %	3260,9	10	57200	57200	20,8
II	RBER = 5,5 %	545,5	10	24960	24960	20,8
HT100 (no SFH)	FER = 13 %	230,8	4	1300	1300	26
Ib	RBER = 1,5 %	2000	10	71500	71500	26
II	RBER = 6,6 %	454,5	10	31200	31200	26
TI5 (no SFH)	FER = 9,2 %	326,1	4	26000	26000	520
Ib	RBER = 1,1 %	2727,3	10	1430000	1430000	520
II	RBER = 5,8 %	517,2	10	624000	624000	520
TU1.5 (no SFH)	FER = 23 %	130,4	4	86666,7	86666,7	1733,3
Ib	RBER = 0,71 %	4225,4	10	4766666,7	4766666,7	1733,3
II	RBER = 2,3 %	1304,3	10	2080000	2080000	1733,3
TU50 (no SFH)	FER = 12 %	250	4	2600	2600	52
Ib	RBER = 1,2 %	2500	10	143000	143000	52
II	RBER = 6 %	500	10	62400	62400	52
TU50 (ideal SFH)	FER = 12 %	250	4	2600	2600	52
Ib	RBER = 1,2 %	2500	10	143000	143000	52
II	RBER = 6 %	500	10	62400	62400	52
RA130 (no SFH)	FER = 9,9 %	303	4	1040	1212,1	24,2
Ib	RBER = 1 %	3000	10	57200	57200	20,8
II	RBER = 6 %	500	10	24960	24960	20,8
TI5 (no SFH)	FER = 11 %	272,7	4	26000	26000	520
Ib	RBER = 1,2 %	2500	10	1430000	1430000	520
II	RBER = 6,2 %	483,9	10	624000	624000	520
TU1.5 (no SFH)	FER = 11 %	272,7	4	86666,7	86666,7	1733,3
Ib	RBER = 0,39 %	7692,3	10	4766666,7	4766666,7	1733,3
II	RBER = 1,4 %	2142,9	10	2080000	2080000	1733,3
TU50 (no SFH)	FER = 2,5 %	1200	4	2600	4800	96
Ib	RBER = 0,38 %	7894,7	10	143000	143000	52
II	RBER = 3,5 %	857,1	10	62400	62400	52
TU50 (ideal SFH)	FER = 2,5 %	1200	4	2600	4800	96
Ib	RBER = 0,38 %	7894,7	10	143000	143000	52
II	RBER = 3,5 %	857,1	10	62400	62400	52
RA130 (no SFH)	FER = 2,5 %	1200	4	1040	4800	96
Ib	RBER = 0,37 %	8108,1	10	57200	81081,1	29,5
II	RBER = 3,5 %	857,1	10	24960	24960	20,8
TI5 (no SFH)	FER = 2,3 %	1304,3	4	26000	26000	520
Ib	RBER = 0,39 %	7692,3	10	1430000	1430000	520
II	RBER = 3,6 %	833,3	10	624000	624000	520

GSM 1800 TCH/AHS5.9

(FER: 50 events/s, RBER class Ib: 2350 events/s, RBER class II : 800 events/s, frame filling = 12/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
Static (II)	RBER = 0,66 %	4545,5	10	–	45454,5	56,8
TU50 (no SFH)	FER = 5,9 %	508,5	4	2600	2600	52
Ib	RBER = 0,52 %	5769,2	10	122200	122200	52
II	RBER = 6,1 %	491,8	10	41600	41600	52
TU50 (ideal SFH)	FER = 5,9 %	508,5	4	2600	2600	52
Ib	RBER = 0,52 %	5769,2	10	122200	122200	52
II	RBER = 6,1 %	491,8	10	41600	41600	52
RA130 (no SFH)	FER = 4,6 %	652,2	4	1040	2608,7	52,2
Ib	RBER = 0,39 %	7692,3	10	48880	76923,1	32,7
II	RBER = 5,8 %	517,2	10	16640	16640	20,8
HT100 (no SFH)	FER = 8,5 %	352,9	4	1300	1411,8	28,2
Ib	RBER = 0,72 %	4166,7	10	61100	61100	26
II	RBER = 6,8 %	441,2	10	20800	20800	26
TI5 (no SFH)	FER = 5,7 %	526,3	4	26000	26000	520
Ib	RBER = 0,51 %	5882,4	10	1222000	1222000	520
II	RBER = 6 %	500	10	416000	416000	520
TU1.5 (no SFH)	FER = 21 %	142,9	4	86666,7	86666,7	1733,3
Ib	RBER = 0,55 %	5454,5	10	4073333,3	4073333,3	1733,3
II	RBER = 2,6 %	1153,8	10	1386666,7	1386666,7	1733,3
TU50 (no SFH)	FER = 7,7 %	389,6	4	2600	2600	52
Ib	RBER = 0,6 %	5000	10	122200	122200	52
II	RBER = 6,4 %	468,8	10	41600	41600	52
TU50 (ideal SFH)	FER = 7,7 %	389,6	4	2600	2600	52
Ib	RBER = 0,6 %	5000	10	122200	122200	52
II	RBER = 6,4 %	468,8	10	41600	41600	52
RA130 (no SFH)	FER = 6,4 %	468,8	4	1040	1875	37,5
Ib	RBER = 0,48 %	6250	10	48880	62500	26,6
II	RBER = 6,3 %	476,2	10	16640	16640	20,8
TI5 (no SFH)	FER = 7,1 %	422,5	4	26000	26000	520
Ib	RBER = 0,57 %	5263,2	10	1222000	1222000	520
II	RBER = 6,5 %	461,5	10	416000	416000	520

GSM 1800 TCH/AHS5.15

(FER: 50 events/s, RBER class Ib: 2100 events/s, RBER class II : 600 events/s, frame filling = 12/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
Static (II)	RBER = 0,66 %	4545,5	10	–	45454,5	75,8
TU50 (no SFH)	FER = 2,6 %	1153,8	4	2600	4615,4	92,3
Ib	RBER = 0,53 %	5660,4	10	109200	109200	52
II	RBER = 6,3 %	476,2	10	31200	31200	52
TU50 (ideal SFH)	FER = 2,6 %	1153,8	4	2600	4615,4	92,3
Ib	RBER = 0,53 %	5660,4	10	109200	109200	52
II	RBER = 6,3 %	476,2	10	31200	31200	52
RA130 (no SFH)	FER = 2 %	1500	4	1040	6000	120
Ib	RBER = 0,4 %	7500	10	43680	75000	35,7
II	RBER = 6,1 %	491,8	10	12480	12480	20,8
HT100 (no SFH)	FER = 3,7 %	810,8	4	1300	3243,2	64,9
Ib	RBER = 0,76 %	3947,4	10	54600	54600	26
II	RBER = 7,2 %	416,7	10	15600	15600	26
TI5 (no SFH)	FER = 2,5 %	1200	4	26000	26000	520
Ib	RBER = 0,51 %	5882,4	10	1092000	1092000	520
II	RBER = 6,3 %	476,2	10	312000	312000	520
TU1.5 (no SFH)	FER = 17 %	176,5	4	86666,7	86666,7	1733,3
Ib	RBER = 0,8 %	3750	10	3640000	3640000	1733,3
II	RBER = 3,1 %	967,7	10	1040000	1040000	1733,3
TU50 (no SFH)	FER = 3,8 %	789,5	4	2600	3157,9	63,2
Ib	RBER = 0,66 %	4545,5	10	109200	109200	52
II	RBER = 6,8 %	441,2	10	31200	31200	52
TU50 (ideal SFH)	FER = 3,8 %	789,5	4	2600	3157,9	63,2
Ib	RBER = 0,66 %	4545,5	10	109200	109200	52
II	RBER = 6,8 %	441,2	10	31200	31200	52
RA130 (no SFH)	FER = 3,1 %	967,7	4	1040	3871	77,4
Ib	RBER = 0,53 %	5660,4	10	43680	56603,8	27
II	RBER = 6,6 %	454,5	10	12480	12480	20,8
TI5 (no SFH)	FER = 3,3 %	909,1	4	26000	26000	520
Ib	RBER = 0,6 %	5000	10	1092000	1092000	520
II	RBER = 6,9 %	434,8	10	312000	312000	520

GSM 1800 TCH/AHS4.75

(FER: 50 events/s, RBER class Ib: 2200 events/s, RBER class II : 600 events/s, frame filling = 12/26)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
Static (II)	RBER = 0,66 %	4545,5	10	–	45454,5	75,8
TU50 (no SFH)	FER = 1,2 %	2500	4	2600	10000	200
Ib	RBER = 0,18 %	16666,7	10	114400	166666,7	75,8
II	RBER = 6,5 %	461,5	10	31200	31200	52
TU50 (ideal SFH)	FER = 1,2 %	2500	4	2600	10000	200
Ib	RBER = 0,18 %	16666,7	10	114400	166666,7	75,8
II	RBER = 6,5 %	461,5	10	31200	31200	52
RA130 (no SFH)	FER = 1,1 %	2727,3	4	1040	10909,1	218,2
Ib	RBER = 0,13 %	23076,9	10	45760	230769,2	104,9
II	RBER = 6,2 %	483,9	10	12480	12480	20,8
HT100 (no SFH)	FER = 1,7 %	1764,7	4	1300	7058,8	141,2
Ib	RBER = 0,25 %	12000	10	57200	120000	54,5
II	RBER = 7,3 %	411	10	15600	15600	26
TI5 (no SFH)	FER = 1,2 %	2500	4	26000	26000	520
Ib	RBER = 0,17 %	17647,1	10	1144000	1144000	520
II	RBER = 6,4 %	468,8	10	312000	312000	520
TU1.5 (no SFH)	FER = 15 %	200	4	86666,7	86666,7	1733,3
Ib	RBER = 0,6 %	5000	10	3813333,3	3813333,3	1733,3
II	RBER = 3,6 %	833,3	10	1040000	1040000	1733,3
TU50 (no SFH)	FER = 2,1 %	1428,6	4	2600	5714,3	114,3
Ib	RBER = 0,25 %	12000	10	114400	120000	54,5
II	RBER = 7 %	428,6	10	31200	31200	52
TU50 (ideal SFH)	FER = 2,1 %	1428,6	4	2600	5714,3	114,3
Ib	RBER = 0,25 %	12000	10	114400	120000	54,5
II	RBER = 7 %	428,6	10	31200	31200	52
RA130 (no SFH)	FER = 1,8 %	1666,7	4	1040	6666,7	133,3
Ib	RBER = 0,19 %	15789,5	10	45760	157894,7	71,8
II	RBER = 6,8 %	441,2	10	12480	12480	20,8
TI5 (no SFH)	FER = 1,8 %	1666,7	4	26000	26000	520
Ib	RBER = 0,22 %	13636,4	10	1144000	1144000	520
II	RBER = 7 %	428,6	10	312000	312000	520

GSM 1800 PDTCH/CS-1 to CS-4

(BLER: 50 events/s, frame filling = 12/52)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
static	BLER=10%	300	2	–	600	12.0
TU50	BLER=10%	300	2	5 200	5 200	104.0
TU50 (SFH)	BLER=10%	300	2	5 200	5 200	104.0
RA130	BLER=10%	300	2	2 080	2 080	41.6
HT100	BLER=10%	300	2	2 600	2 600	52.0
TI5	BLER=10%	300	2	52 008	52 008	1 040.2
TU1.5	BLER=10%	300	2	173 360	173 360	3 467.2
TU1.5 (SFH)	BLER=10%	300	2	173 360	173 360	3 467.2

GSM 1800 PRACH (11 bits), PRACH (8 bits)

(BLER: 217 events/s, frame filling = 1)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
static	BLER=15%	200	2	–	400	8.0
TU50	BLER=15%	200	2	5 208	5 208	104.2
TU50 (SFH)	BLER=15%	200	2	5 208	5 208	104.2
RA130	BLER=15%	200	2	2 083	2 083	41.7
HT100	BLER=15%	200	2	2 604	2 604	52.1
TI5	BLER=15%	200	2	52 080	52 080	1 041.6
TU1.5	BLER=15%	200	2	173 600	173 600	3 472.0
TU1.5 (SFH)	BLER=15%	200	2	173 600	173 600	3 472.0

GSM 1800 PACCH

(BLER: 50 events/s, frame filling = 12/52)

Prop. cond.	Error rate	Stat. sign.	Indep. samples	Station. proc.	Samples:	Time: (s)
static	BLER=10%	300	2	–	600	12.0
TU50	BLER=10%	300	2	5 200	5 200	104.0
TU50 (SFH)	BLER=10%	300	2	5 200	5 200	104.0
RA130	BLER=10%	300	2	2 080	2 080	41.6
HT100	BLER=10%	300	2	2 600	2 600	52.0
TI5	BLER=10%	300	2	52 008	52 008	1 040.2
TU1.5	BLER=10%	300	2	173 360	173 360	3 467.2
TU1.5 (SFH)	BLER=10%	300	2	173 360	173 360	3 467.2

Annex D (informative):
Change history

This annex lists all change requests approved for the present document since the first phase 2 version was approved by ETSI SMG.

SMG / GP#	SMG/GP tdoc	SMG8/G3/G1 tdoc	VERS	CR	R	PH	CAT	SUBJECT	New Version
S12	584/94		4.0.0	001		2	F	Amendments to GSM 11.21; revision of static and multipath reference sensitivity tests, and editorial changes	4.1.0
S13	99/95		4.1.0	002		2	F	Frequency range for E-GSM 900	4.2.0
	99/95		4.1.0	003		2	F	Types of implementation of frequency hopping	4.2.0
	99/95		4.1.0	004		2	F	Section 4.1.6.3, number of static power steps	4.2.0
	99/95		4.1.0	005		2	F	Spectrum due to modulation	4.2.0
	99/95		4.1.0	006		2	F	Intermodulation attenuation	4.2.0
	99/95		4.1.0	007		2	F	Definition of test environment for section 4.1.7.8	4.2.0
	99/95		4.1.0	009		2	D	Annex 2: Number of samples needed for statistical testing	4.2.0
S15	401/95		4.2.0	010		2	3	Reformatting	4.3.0
	401/95		4.2.0	011		2	1	new sections	4.3.0
	401/95		4.2.0	012		2	1	Splitting of conformance requirements	4.3.0
	401/95		4.2.0	013		2	1	Definition of extreme power supply conditions	4.3.0
	401/95		4.2.0	014		2	F	Corrections of inconsistencies	4.3.0
	401/95		4.2.0	015		2	3	Testing of reference interference	4.3.0
	401/95		4.2.0	016		2	1	Testing of reference sensitivity and interference	4.3.0
	401/95		4.2.0	017		2	1	Measurement BW for intermodulation attenuation tests	4.3.0
S16	566/95		4.3.0	018		2	1	Measurement uncertainties	4.4.0
	566/95		4.3.0	019		2	2	Mean transmitted RF carrier power	4.4.0
	566/95		4.3.0	020		2	1	Intermodulation attenuation	4.4.0
	566/95		4.3.0	021		2	2	Erroneous frame indication performance	4.4.0
	566/95		4.3.0	022		2	1	Reference sensitivity; testing of essential conformance	4.4.0
	566/95		4.3.0	023		2	1	AM suppression	4.4.0
	566/95		4.3.0	024		2	F	Measurement BW for transmitted RF carrier power vs time	4.4.0
	566/95		4.3.0	025		2	3	Editorial corrections and clarifications	4.4.0
S17	092/96		4.4.0	026		2	F	CR to GSM 11.21 section 7.5, Reference interference	4.5.0
	092/96		4.4.0	027		2	F	Testing of switching translents spectrum	4.5.0
	092/96		4.4.0	028		2	F	Measurement uncertainties	4.5.0
	092/96		4.4.0	029		2	F	BTS configurations	4.5.0
	092/96		4.4.0	030		2	F	Mean transmitted RF carrier power	4.5.0
	092/96		4.4.0	031		2	D	Configuration of BTS for section 6.2	4.5.0
	092/96		4.4.0	032		2	F	Testing of Multipath reference sensitivity with TU 50	4.5.0
	092/96		4.4.0	033		2	D	Section 6.4	4.5.0
S18	253/96		4.5.0	A034		2	F	Incorporation of technical PE comments	4.6.0
	265/96		4.5.0	A035		2	F	Correction of Tables for intermodulation limits in receive band	4.6.0
	253/96		4.5.0	A036		2	F	Incorporation of editorial and technical PE comments	4.6.0
	253/96		4.5.0	A037		2	F	Spectrum due to modulation and wideband noise:definition and correction	4.6.0
S20	606/96	52/96	4.6.0	A038		2	F	Correction of inconsistancy with 05.05	4.7.0
	606/96	53/96	4.6.0	A039		2	F	Correction of statistical tables in informative annex	4.7.0
	627/96	29/96	4.6.0	A040		2	F	Maintenance of consistance with GSM 05.05	4.7.0
s22	348/97	006/97	4.7.1	A041		2	F	Deletion of TU3 and TU1.5 tests	5.0.0
	349/97		4.7.1	A049		2+	B	Definition of R-GSM band and the associated RF-parameters	5.0.0
s23	783/97	050/97	5.0.0	A051		R96	B	Addition of Radio Link Management chapter	5.1.0
	783/97	052/97	5.0.0	A053		R96	B	Testing BSS with ancillary FR amplifiers	5.1.0
	783/97	057/97	5.0.0	A055		R96	B	BSS using Antenna arrays	5.1.0
	783/97	064/97	5.0.0	A057		R96	B	Definition of EFR test cases	5.1.0
	783/97	061/97	5.0.0	A058		R96	B	Addition of 14.4 test case	5.1.0
	783/97	060/97	5.0.0	A059		R96	B	Conversion of phase 2+ TS to phase2 and 2+ EN	5.1.0
s25	98-0164	98p028	5.1.0	A060		R96	D	Conducted spurious emissions from the antenna connector	5.2.0
	98-0164	98p029	5.1.0	A061		R96	D	Intra BTS intermodulation attenuation	5.2.0
	98-0164	98p025	5.1.0	A062		R96	B	Definition of the number of samples required for TCH/HS	5.2.0
	98-0165	98p009	5.1.0	A063		R96	A	Measurement of average signal level through a multipath fading simulator	5.2.0
s26	98-394	98p035	5.2.0	A069		R96	F	Definition of timeslot to use for testing of Spectrum due to modulation, subclause 6.5.1.	5.3.0
	98-394	98p037	5.2.0	A070		R96	D	Environmental conditions during essential conformance testing	5.3.0
	98-394	98p045	5.2.0	A071		R96	F	Ancillary RF amplifier	5.3.0
	98-394	98p054	5.2.0	A072		R96	B	New requirements for static layer 1 receiver functions	5.3.0
	98-441	98p058	5.2.0	A073		R96	F	Clarification of "relevant" and "operational" bands	5.3.0
	98-394	98p060	5.2.0	A075		R96	F	Resolution of PE comment SE3	5.3.0
	98-394	98p061	5.2.0	A076		R96	F	Resolution of PE comment UK2	5.3.0
s27	98-742	98p091	5.3.0	A077		R96	F	Addition to chap. 4.10.5 to define a BTS with separated antenna ports	5.4.0
	98-742	98p105	5.3.0	A079		R96	F	Reduction of Half Rate Speech (TCH/HS) number of samples to be tested as defined in Annex C1 and C2 for static FER and RBER class 1b.	5.4.0
	98-742	98p104	5.3.0	A082		R96	F	Erroneous frame indication performance	5.4.0
	98-742	98p098	5.3.0	A083		R96	D	Clarification on conformance requirements for testcases 6.7/6.8	5.4.0
s28	99-064	98p123	5.4.0	A085		R96	D	Spurious emissions from the receiver antenna connector	7.0.0
	99-064	98p126	5.4.0	A086		R96	A	Speeds for Multipath Fading profiles	7.0.0
	99-064	98p132	5.4.0	A087		R96	A	Multipath Reference Sensitivity Level	7.0.0
	99-064	98p139	5.4.0	A089		R96	A	Clarification on number of power steps	7.0.0
	99-064	98p134	5.4.0	A090		R96	A	Correction of multipath error performance limits	7.0.0
	99-064	98p137	5.4.0	A092		R97	B	GPRS Test Cases	7.0.0
	99-064	98p100	5.4.0	A095		R98	B	Pico-BTS requirements	7.0.0
	99-064	98p107	5.4.0	A096		R98	B	Pico-BTS requirements section 6.2.	7.0.0
s29	99-477	416/99	7.0.0	A099		R98		Correction regarding transmitter tests	7.1.0
	99-477	420/99	7.0.0	A101		R98		Removal of power levels in Watts in table 3	7.1.0
	99-477	418/99	7.0.0	A102	1	R98		Adding Pico requirements to GPRS sections	7.1.0
	99-477	491/99	7.0.0	A104		R98		Testing of BTSs that can be equipped with various configurations of antenna combiners	7.1.0
	99-477	528/99	7.0.0	A106		R98		Clarification on tests at extreme power supply	7.1.0
	99-477	614/99	7.0.0	A108		R98		Updates to annex A and C	7.1.0
s30	99-624	1372/99	7.1.0	A019	1	R98		Correction to Section 7.4 Multipath Reference Sensitivity	7.2.0
	99-624	1373/99	7.1.0	A113	1	R98		Clarification of Intra BSS intermodulation attenuation test purpose	7.2.0
	99-624	1378/99	7.1.0	A114	2	R98		Introduction of AMR requirements	7.2.0
	99-624	1245/99	7.1.0	A112		R98		C/I requirements for PicoBTS in GSM 1800	7.2.0
s30b	99-810	1596/99	7.2.0	A118		R98		Correction of tables in sections 6.7, 6.8 for Pico BTS	8.0.0
	99-811	1938/99	7.2.0	A115	2	R99		Introduction of GSM 400, PCS 1900, MXM 850 and MXM 1900	8.0.0
	99-812	1935/99	7.2.0	A117	2	R99		Changes in clause 1- 6 due to EDGE introduction	8.0.0
s31	00-099	442/00	8.0.0	A119	2	R99		Modification EDGE TX test cases	8.1.0
	00-099	449/00	8.0.0	A120	2	R99		EDGE RX test cases	8.1.0
	00-099	481/00	8.0.0	A121	1	R99		Switching Transients for 8-PSK	8.1.0
s31b	00-190	865/00	8.1.0	A122	1	R99		EDGE TX-test cases and uncertainties	8.2.0
	00-190	868/00	8.1.0	A123	1	R99		EDGE radio link management test cases	8.2.0
	00-191	532/00	8.1.0	A124		R99		Corrections of GSM 400 Spurious	8.2.0
	00-190	869/00	8.1.0	A125	2	R99		Changes in clause 7 due to EDGE and GSM850	8.2.0
s32	00-251	1208/00	8.2.0	A130		R99	B	Channels to be tested for AMR included	8.3.0
	00-252	1209/00	8.2.0	A126	2	R99	B	New subcaluse 9.4.4 Signal quality EGPRS	8.3.0
	00-252	974/00	8.2.0	A128		R99	C	Correction of acceptable measurement uncertainty	8.3.0
	00-252	1211/00	8.2.0	A129	1	R99	B	Missing values in table 19c	8.3.0
	00-259	1210/00	8.2.0	A127	2	R99	B	Spurious requirements in UMTS bands	8.3.0
GP1	GP-000365	GP-000365	8.3.0	A134	1	R99	F	Correction of Blocking and AM suppression test case in GSM11.21	8.4.0
	GP-000366	GP-000366	8.3.0	A131	1	R99	F	Changes in clause 7 due to EDGE and GSM 05.01	8.4.0
	GP-000367	GP-000367	8.3.0	A132	1	R99	F	Correction of test case for Signal quality, EGPRS	8.4.0
	GP-000368	GP-000368	8.3.0	A133	1	R99	F	Correction of spurious requiremens in UMTS bands	8.4.0
GP2	GP-000864	GP-000864	8.4.0	A135	1	R99	F	Modification of complete conformance, AM suppression	8.5.0
	GP-000515	GP-000515	8.4.0	A136		R99	F	Relaxation of PDTCH/CS-4 C/I requirements	8.5.0
	GP-000866	GP-000866	8.4.0	A137	2	R99	F	Additions to facilitate test on MXM systems	8.5.0
	GP-000525	GP-000525	8.4.0	A138		R99	F	Change of referenced specification for test site requirements for Radiated Spurious Emissions, Base Station testing	8.5.0
	GP-000865	GP-000865	8.4.0	A139	1	R99	F	BTS output power capability and requirements with 8PSK	8.5.0
GP4	GP-010480	GP-010480	8.5.0	A142		R99	F	Relaxation of Power versus time.	8.6.0
GP4	GP-010485	GP-010485	8.5.0	A147		R99	F	Correction of error parameter in Table 15	8.6.0
GP4	GP-010486	GP-010486	8.5.0	A148		R99	F	Testing of blocking requirements for MXM 1900 BTS	8.6.0
GP4	GP-010487	GP-010487	8.5.0	A149		R99	F	Alignment of AM supression test for MXM 850/1900 normal BTS	8.6.0
GP4	GP-010901	GP-010901	8.5.0	A150	1	R99	F	Relaxed uncertainty for EVM	8.6.0
GP4	GP-010682	GP-010682	8.5.0	A141	1	R99	F	Intermodulation attenuation test method for MXM-850/1900 Systems	8.6.0
GP4	GP-010902	GP-010902	8.5.0	A143	1	R99	F	Correction of phase 2 references	8.6.0
GP4	GP-010483	GP-010483	8.5.0	A145		R99	F	Alternative testprocedure for vibration.	8.6.0
GP7								Version for Release 4.	4.0.0
GP10	GP-021481	GP-021481	4.0.0	001		Rel4	F	Clarification of output power measurement in 8-PSK	4.1.0
GP10	GP-021956	GP-021956	4.0.0	003		Rel4	F	Alignment of AMR inband requirement with 45.005 for GSM 900 TCH/AFS	4.1.0
								Version for Release 5.	5.0.0
GP12	GP-023412	GP-023412	5.0.0	004	1	Rel5	F	Introduction of tests and requirements for AMR and WB-AMR on 8-PSK modulated channels	5.1.0
GP12	GP-023411	GP-023411	5.0.0	005	1	Rel5	F	Introduction of tests and requirements for WB-AMR on GMSK modulated channels	5.1.0
GP12	GP-023408	GP-023408	5.0.0	007	1	Rel5	A	Update of references to GERAN and ETSI specifications	5.1.0
GP12	GP-023410	GP-023410	5.0.0	009	1	Rel5	A	Introduction of GSM 700	5.1.0
GP12	GP-022961	GP-022961	5.0.0	011		Rel5	A	Correction of requirements for PDTCH/CS-4 C/Ic	5.1.0
GP12	GP-023212	GP-023212	5.0.0	013		Rel5	A	Removal of clause 9.4.4	5.1.0
GP13	GP-030415	GP-030415	5.1.0	015	1	Rel5	A	Correction to reference interference performance requirements	5.2.0
GP13	GP-030416	GP-030416	5.1.0	016	1	Rel6	A	Correction to reference interference performance requirements	6.0.0
GP13	GP-030377	GP-030377	5.2.0	017		Rel6	F	Clarification of interference performance test conditions for AMR	6.0.0
GP15	GP-031207	GP-031207	6.0.0	020		Rel6	A	Clarification of requirements for BSS IM attenuation for GSM 700, GSM 850 and PCS 1900	6.1.0
GP15	GP-031212	GP-031212	6.0.0	023		Rel6	A	Alignment of receiver requirements with TS 45.005	6.1.0
GP15	GP-031213	GP-031213	6.0.0	024		Rel6	F	Clarification of requirements for Intra-BTS IM for GSM 700, GSM 850 and PCS 1900	6.1.0
GP21	GP-042229	GP-042229	6.1.0	025	2	Rel6	F	Correction of preliminary test of blocking performance for BSS	6.2.0
GP26	GP-051894	GP-051894	6.2.0	0029		Rel7	B	Introduction of T-GSM 810	7.0.0
GP27	GP-052816	GP-052816	7.0.0	0030		Rel7	A	Performance requirements for E-TCH/F32.0	7.1.0
GP38	GP-080933	GP-080933	7.1.0	0034	2	Rel7	B	Introduction of EGPRS2 and LATRED	7.2.0
GP39	GP-081368	GP-081368	7.2.0	0036	1	Rel7	F	Corrections for EGPRS2 and LATRED	7.3.0
GP39	GP-081379	GP-081379	7.3.0	0035	3	Rel8	B	Introduction of multicarrier BTS classes with changed requirements	8.0.0
GP40	GP-081593	GP-081593	8.0.0	0038		Rel8	A	Clarification for Interference ratio for adjacent channel requirements	8.1.0
GP40	GP-081884	GP-081884	8.0.0	0039	2	Rel8	F	Clarification of MCBTS test cases	8.1.0
GP40	GP-081904	GP-081904	8.0.0	0040	2	Rel8	F	Wide band noise lower limit in MCBTS	8.1.0
GP40	GP-081631	GP-081631	8.0.0	0043		Rel8	D	Editorial correction related to test of intermodulation attenuation for multicarrier BTS class	8.1.0
GP41	GP-090206	GP-090206	8.1.0	0042	2	Rel8	A	Inclusion of GSM 700	8.2.0
GP41	GP-090434	GP-090434	8.1.0	0045	3	Rel8	F	Enhancement of readability of multicarrier spectral requirements and other clarifications	8.2.0
GP41	GP-090439	GP-090439	8.1.0	0046	1	Rel8	B	Introduction of multicarrier BTS class for GSM 700/850/1900	8.2.0
GP41	GP-090432	GP-090432	8.1.0	0048	1	Rel8	A	Introduction of receiver performance requirements for EGPRS2-A	8.2.0
GP41	GP-090475	GP-090475	8.1.0	0049	2	Rel8	F	Correction of absolute limit for IM products from multicarrier BTS enhancement of readability of multicarrier spectral requirements and other clarifications	8.2.0
GP41	GP-090538	GP-090538	8.1.0	0051	3	Rel8	F	Alignment of Power Level in Static Layer 1 receiver functions to the Relaxed Blocking Values of GSM 400, T-GSM 810 and E-GSM 900	8.2.0
GP42	GP-090714	GP-090714	8.2.0	0059		Rel8	A	Reference performance EGPRS2-A, UL, Co-channel and Adjacent channel interference	8.3.0
GP42	GP-090719	GP-090719	8.2.0	0061		Rel8	A	Wanted signal level for testing of blocking, intermodulation and AM suppression characteristics	8.3.0
GP42	GP-090981	GP-090981	8.2.0	0062	1	Rel8	F	Clarifications of requirements for Spectrum due to switching transients for MCBTS	8.3.0
GP42	GP-090996	GP-090996	8.2.0	0063	1	Rel8	F	Alignment of requirements for Nominal Error Rate (NER) and RACH performance with blocking requirements for MCBTS in lower frequency bands	8.3.0
GP42	GP-090979	GP-090979	8.2.0	0064	1	Rel8	F	Correction of absolute limit for IM products and related clarifications for multicarrier BTS	8.3.0
GP42	GP-090804	GP-090804	8.2.0	0069		Rel8	A	Correction to Wanted Signal Level for Testing of Intermodulation Characteristics	8.3.0
GP42	GP-091043	GP-091043	8.2.0	0071	1	Rel8	A	Reference performance EGPRS2, UL, Sensitivity	8.3.0
GP42	GP-090980	GP-090980	8.2.0	0072		Rel8	F	Testing spectrum requirements at split frequency allocation	8.3.0
GP42	GP-090986	GP-090986	8.2.0	0073		Rel8	F	Improvement of alignment between spurious emissions of MCBTS Classes 1 and 2	8.3.0
GP42	GP-091046	GP-091046	8.2.0	0074		Rel8	F	Clarifications of requirements for Spectrum due to modulation for MCBTS at frequency offset below 1.8 MHz	8.3.0
GP43	GP-091084	GP-091084	8.3.0	0053	1	Rel8	A	EVM for EGPRS2	8.4.0
GP43	GP-091255	GP-091255	8.3.0	0055	2	Rel8	A	Requirements for Spectrum due to Modulation and wideband noise for EGPRS2-B with narrow pulse-shaping filter	8.4.0
GP43	GP-091259	GP-091259	8.3.0	0057	1	Rel8	A	Reference performance EGPRS2-A, 400 kHz adjacent channel	8.4.0
GP43	GP-091083	GP-091083	8.3.0	0075		Rel8	F	Inclusion of deleted paragraph and correction of a misplaced sentence	8.4.0
GP43	GP-091518	GP-091518	8.3.0	0081	1	Rel8	A	Reference performance EGPRS2-B, UL, Sensitivity and Reduced Latency	8.4.0
GP43	GP-091520	GP-091520	8.3.0	0083	1	Rel8	A	Reference performance EGPRS2-B, UL, Co-channel	8.4.0
GP43	GP-091562	GP-091562	8.3.0	0085	2	Rel8	A	Reference performance EGPRS2-B, UL, Adj-channel	8.4.0
GP43	GP-091298	GP-091298	8.3.0	0087		Rel8	A	Removal of brackets, Modulation accuracy, EGPRS2, Base station	8.4.0
GP43	GP-091304	GP-091304	8.3.0	0089		Rel8	A	Removal of brackets: NER requirements for EGPRS2	8.4.0
GP43	GP-091568	GP-091568	8.3.0	0090	1	Rel8	F	Correction of exceptions in requirements for Spectrum due to modulation and wide band noise for MCBTS	8.4.0
GP43	GP-091569	GP-091569	8.3.0	0091	1	Rel8	F	Clarification of exceptions in requirements for Spectrum due to modulation and wide band noise for MCBTS in single carrier operation	8.4.0
GP43	GP-091324	GP-091324	8.3.0	0093		Rel8	F	Introduction of test cases for requirements for protection of services in the new frequency bands: 1880-1920 MHz and 2300-2400 MHz available for 3GPP access technologies	8.4.0
GP43	GP-091668	GP-091668	8.3.0	0100		Rel8	A	Removal of blocking, IM characteristics and AM suppression receiver requirements for QPSK, 16QAM and 32QAM modulations introduced EGPRS2	8.4.0
GP44	GP-092302	GP-092302	8.4.0	0079	7	Rel8	A	Removal of brackets, EGPRS2-A, UL	8.5.0
GP44	GP-092321	GP-092321	8.4.0	0095	4	Rel8	F	Correction of MCBTS capability for operating split frequency allocation	8.5.0
GP44	GP-092413	GP-092413	8.4.0	0098	7	Rel8	F	Introduction of test case for unwanted emissions in multicarrier operation with the carriers spread over the declared maximum Base Station RF bandwidth of the MCBTS	8.5.0
GP44	GP-092192	GP-092192	8.4.0	0103	4	Rel8	A	Removal of brackets, EGPRS2-B, UL	8.5.0
GP44	GP-091993	GP-091993	8.4.0	0105	2	Rel8	A	Reference performance EGPRS2-B, 400 kHz adjacent channel, without brackets	8.5.0
GP44	GP-092319	GP-092319	8.4.0	0106	3	Rel8	F	Correction of application of spurious emission requirements for MCBTS	8.5.0
GP44	GP-092147	GP-092147	8.4.0	0107		Rel8	F	Clarification of exceptions for MCBTS in single carrier operation and applicable lower limit on GSM850 and PCS1900 bands in requirements for Spectrum due to modulation and wide band noise	8.5.0
GP44	GP-092002	GP-092002	8.4.0	0108	1	Rel8	F	Correction of application of inband spurious emission requirements for MCBTS	8.5.0
GP44	GP-092150	GP-092150	8.4.0	0110	2	Rel8	F	Correction of MCBTS unwanted emission measurement conditions	8.5.0
GP44	GP-092018	GP-092018	8.4.0	0112		Rel8	A	Correction to EGPRS2-A UL, 400 kHz ACI	8.5.0
GP44			8.5.0			Rel9		Version for Release 9	9.0.0
GP45	GP-100575	GP-100575	9.0.0	0115	1	Rel9	F	Clarification to the blocking test interfering signal	9.1.0
GP45	GP-100379	GP-100379	9.0.0	0118	1	Rel9	A	Clarification of input signals when testing receiver performance for EGPRS2-B	9.1.0
GP45	GP-100216	GP-100216	9.0.0	0121		Rel9	A	Correction of test case for Static Reference Sensitivity Level	9.1.0
GP45	GP-100219	GP-100219	9.0.0	0124		Rel9	A	Correction of test case for Transmitted RF carrier power versus time	9.1.0
GP45	GP-100226	GP-100226	9.0.0	0127		Rel9	A	Correction of frequency distribution in the test case for Modulation accuracy	9.1.0
GP45	GP-100228	GP-100228	9.0.0	0129		Rel9	A	Editorial correction of test case for out-of-band spurious emissions and other tests for the MCBTS	9.1.0
GP45	GP-100230	GP-100230	9.0.0	0131		Rel9	A	Correction of test case for spurious emissions for the MCBTS in frequency bands, used by UTRA and E-UTRA	9.1.0
GP45	GP-100232	GP-100232	9.0.0	0133		Rel9	A	Correction of test case for Spectrum due to Modulation and wideband noise	9.1.0
GP45	GP-100250	GP-100250	9.0.0	0144		Rel9	A	Correction of references for DTX and Environmental conditions and requirements	9.1.0
GP45	GP-100565	GP-100565	9.0.0	0148	1	Rel9	A	Corrections and clarifications of the MCBTS requirements for unwanted emissions	9.1.0
GP46	GP-100984	GP-100984	9.1.0	0135	2	Rel9	A	Correction of exceptions of Spectrum due to modulation and wideband noise for MCBTS	9.2.0
GP46	GP-100913	GP-100913	9.1.0	0141	2	Rel9	A	Correction of test case for Spectrum due to Modulation and wideband noise when testing with the lowest supported numbers of carriers (≥ 2)	9.2.0
GP46	GP-101036	GP-101036	9.1.0	0142	4	Rel9	A	Alignment of blocking requirements in multi-RAT operation and in GSM single-RAT operation for MSR equipment	9.2.0
GP46	GP-100929	GP-100929	9.1.0	0151	1	Rel9	A	Alignment of requirements for out-of-band spurious emissions with CEPT/ERC/REC 74-01	9.2.0
GP46	GP-100999	GP-100999	9.1.0	0157		Rel9	A	Alignment of inband frequency range for GSM 850 with other 3GPP access technologies	9.2.0
GP46	GP-101039	GP-101039	9.1.0	0158	1	Rel9	F	Introduction of spurious emission requirements in frequency band 20	9.2.0
GP47	GP-101323	GP-101323	9.2.0	0160		Rel9	A	Clarification of applicable modulation in multicarrier tests	9.3.0
GP47	GP-101325	GP-101325	9.2.0	0162		Rel9	A	Aligning the upper measurement frequency for radiated spurious emissions with ERC/REC 74-01	9.3.0
GP47	GP-101327	GP-101327	9.2.0	0164		Rel9	A	Definition of the Lowest Static Power Level	9.3.0
GP47	GP-101329	GP-101329	9.2.0	0166		Rel9	A	Alignment of measurement bandwidths for receiver spurious emissions with TS 45.005	9.3.0
GP47	GP-101541	GP-101541	9.2.0	0168	1	Rel9	A	Clarification of multicarrier BTS receiver requirements	9.3.0
GP47	GP-101338	GP-101338	9.2.0	0169		Rel9	F	Renumbering tables and figures to improve maintainability	9.3.0
GP47	GP-101642	GP-101642	9.2.0	0171	2	Rel9	A	Corrections of the MCBTS IM requirements	9.3.0
GP47	GP-101614	GP-101614	9.2.0	0174		Rel9	F	Removal of inconsistencies related to frequency ranges for multicarrier BTS tests in single carrier and multicarrier operation	9.3.0
GP48	GP-101993	GP-101993	9.3.0	0137	3	Rel9	A	Reduction of the number of multicarrier BTS classes	9.4.0
GP48	GP-102045	GP-102045	9.3.0	0176	1	Rel9	A	MCBTS minimum carrier spacing	9.4.0
GP48	GP-101841	GP-101841	9.3.0	0178		Rel9	F	Minor error corrections in TS 51.021	9.4.0
GP48	GP-102049	GP-102049	9.3.0	0180	1	Rel9	A	Clarification of the measurement of the spectrum exceptions in MCBTS	9.4.0
GP48	GP-102043	GP-102043	9.3.0	0181	1	Rel9	F	Cleaning up and reformatting long tables in 51.021	9.4.0
GP49	GP-110485	GP-110485	9.4.0	0182	2	Rel9	B	Introduction of test cases and performance requirements for VAMOS	9.5.0
GP49						Rel-10		Version for Release 10	10.0.0
GP50	GP-110995	GP-110995	10.0.0	0187	1	Rel-10	A	Modified test of receiver performance for multicarrier BTS equipped with multicarrier receiver	10.1.0
GP50	GP-110949	GP-110949	10.0.0	0188	1	Rel-10	A	Modified test of AM suppression receiver performance for multicarrier BTS equipped with multicarrier receiver	10.1.0
GP50	GP-110997	GP-110997	10.0.0	0189	2	Rel-10	A	Modified test of blocking receiver performance for multicarrier BTS equipped with multicarrier receiver	10.1.0
GP50	GP-110680	GP-110680	10.0.0	0192		Rel-10	A	Clarification of operating band applicability for MCBTS	10.1.0
GP50	GP-110865	GP-110865	10.0.0	0195	1	Rel-10	A	Alignment with core specification of measurement method for RX spurious emission	10.1.0
GP50	GP-110876	GP-110876	10.0.0	0201	1	Rel-10	A	Power versus time mask for AQPSK	10.1.0
GP51	GP-111424	GP-111424	10.1.0	0203	4	Rel-10	A	Clarification of the notation used for the minimum spacing between carriers	10.2.0
GP51	GP-111354	GP-111354	10.1.0	0205	1	Rel-10	A	Correction of blocking frequency range and definition of preliminary test interfering signal level for multicarrier BTS equipped with multicarrier receiver	10.2.0
GP51	GP-111356	GP-111356	10.1.0	0207	1	Rel-10	A	Specification of the applicability of equivalent receiver paths	10.2.0
GP51	GP-111379	GP-111379	10.1.0	0209	1	Rel-10	A	Correction to conducted spurios emissions test case	10.2.0
GP51	GP-111194	GP-111194	10.1.0	0211		Rel-10	A	Introduction of EVM requirements for AQPSK	10.2.0
GP51	GP-111448	GP-111448	10.1.0	0213	1	Rel-10	A	Uplink receiver performance requirements for VAMOS	10.2.0
GP51	GP-111486	GP-111486	10.1.0	0216	3	Rel-10	A	Reduction of testing effort related to blocking receiver performance and AM suppression for multicarrier BTS equipped with multicarrier receiver	10.2.0
GP51	GP-111488	GP-111488	10.1.0	0218	3	Rel-10	A	Clarification of applicability of requirements for spurious response frequencies and of the blocking requirement for multicarrier receiver	10.2.0
GP51	GP-111417	GP-111417	10.1.0	0221		Rel-10	A	Clarification on VAMOS essential conformance	10.2.0
GP52	GP-111865	GP-111865	10.2.0	0214	4	Rel-10	F	Aligning MCBTS testing according to MSR-NC principles	10.3.0
GP52	GP-111622	GP-111622	10.2.0	0224		Rel-10	A	Correction to uplink receiver performance requirements for VAMOS and removal of brackets	10.3.0
GP52	GP-111631	GP-111631	10.2.0	0226		Rel-10	A	Clarification of test for output power	10.3.0
GP52	GP-111769	GP-111769	10.2.0	0228	1	Rel-10	A	Clarifying application of Maximum Base Station RF bandwidth for MCBTS equipped with different operational bandwidth in transmitter and receiver	10.3.0
GP52	GP-111635	GP-111635	10.2.0	0230		Rel-10	A	Removal of brackets for preliminary blocking level for multicarrier BTS equipped with multicarrier receiver	10.3.0
GP52	GP-111846	GP-111846	10.2.0	0233	1	Rel-10	A	Corrections related to conducted spurious emissions in other frequency bands	10.3.0
GP52	GP-111747	GP-111747	10.2.0	0235		Rel-10	A	Removal fo brackets for VAMOS BTS requirements	10.3.0
GP53	GP-120279	GP-120279	10.3.0	0236	1	Rel-10	F	Correction related to MSR-NC BS declaration	10.4.0
GP54	GP-120755	GP-120755	10.4.0	0239	1	Rel-10	A	Clarifications in the MCBTS test for wideband noise and IM	10.5.0
GP54	GP-120758	GP-120758	10.4.0	0242	1	Rel-10	A	Spurious emission and Intermodulation attenuation – protection of operating RX band	10.5.0
GP54	GP-120586	GP-120586	10.4.0	0245		Rel-10	A	Intra BSS Intermodulation attenuation – protection of operating RX band	10.5.0
GP54	GP-120690	GP-120690	10.4.0	0248		Rel-10	A	Miscellaneous corrections	10.5.0
GP55	GP-121123	GP-121123	10.5.0	0252	1	Rel-10	A	Miscellaneous corrections for multicarrier BTS testing requirements	10.6.0
GP55	GP-121002	GP-121002	10.5.0	0255		Rel-10	A	Spurious emission – protection of operating Rx band	10.6.0
GP55	GP-120999	GP-120999	10.6.0	0249	1	Rel-11	B	Introduction of Medium Range and Local Area multicarrier BTS	11.0.0
GP56	GP-121344	GP-121344	11.0.0	0257	1	Rel-11	A	Correction of in-band spurious emission requirement for MCBTS	11.1.0
GP56	GP-121346	GP-121346	11.0.0	0258	1	Rel-11	F	VAMOS performance requirements for Local Area multicarrier BTS	11.1.0
GP56	GP-121266	GP-121266	11.0.0	0259		Rel-11	F	Removal of square brackets for MRLA	11.1.0
GP56	GP-121392	GP-121392	11.0.0	0260	2	Rel-11	F	Miscellaneous corrections related to Medium Range and Local Area multicarrier BTS	11.1.0
GP-57	GP-130116	GP-130116	11.1.0	0265		Rel-11	F	Correction to wideband noise reference	11.2.0
GP-57	GP-130118	GP-130118	11.1.0	0266		Rel-11	F	Removal of square brackets for LA VAMOS performance requirements	11.2.0
GP-57	GP-130283	GP-130283	11.1.0	0267	1	Rel-11	F	Further corrections due to introduction of Medium Range and Local Area multicarrier BTS	11.2.0
GP-58	GP-130455	GP-130455	11.2.0	0261	1	Rel-11	F	Correction to co-siting requirements	11.3.0
GP-58	GP-130555	GP-130555	11.2.0	0269		Rel-11	F	Correction of frequency ranges for E-UTRA bands	11.3.0
GP-59	GP-130788	GP-130788	11.3.0	0268	2	Rel-11	F	Correction of test case b) for MCBTS for measuring unwanted emissions	11.4.0
GP-59	GP-130690	GP-130690	11.3.0	0270		Rel-11	F	Correction of table referencing error	11.4.0
GP-61	GP-140194	GP-140194	11.4.0	0261	3	Rel-12	B	TCRT: Introduction of ER-GSM band	12.0.0
GP-62	GP-140340	GP-140340	12.0.0	0272		Rel-12	F	Miscellaneous Corrections related to ER-GSM 900	12.1.0
GP-63	GP-140683	GP-140683	12.1.0	0274	2	Rel-12	F	Correction due to ETSI update of harmonized standard	12.2.0
GP-64	GP-140923	GP-140923	12.2.0	0275		Rel-12	F	Miscellaneous corrections	12.3.0
GP-68			12.3.0			Rel-13		Version for Release 13 (frozen at SP-70)	13.0.0

Change history
Date	Meeting	TDoc	CR	Rev	Cat	Subject/Comment	New version
2016-05	RP-70	GP-160503	0276	3	B	Introduction of EC-GSM-IoT	13.1.0
2016-09	RP-73	RP-161390	0277	1	F	Corrections to EC-GSM-IoT	13.2.0
2016-09						Editorial corrections	13.2.1
2016-12	RP-74	RP-162070	0278	1	F	Miscellaneous corrections to EC-GSM-IoT	13.3.0
2017-01						Editorial correction of version number in the Change History	13.3.1
2017-03	RP-75					Version for Release 13 (frozen at TSG-75)	14.0.0
2017-06	RP-76	RP-170924	0279	2	B	Introduction of ESAB	14.1.0
2017-06	RP-76	RP-170928	0281	2	A	Add performance requirement values for testing EC-GSM-IoT channels	14.1.0
2017-06	RP-76	RP-170923	0282	3	B	Introduction of Multilateration	14.1.0
2017-06	RP-76	RP-170923	0284	–	B	Introduction of Extended Access Burst	14.1.0
2017-09	RP-77	RP-171595	0286	2	F	Performance requirements for uplink CC5 and for Alternative Coverage Class mapping method	14.2.0
2017-09	RP-77	RP-171594	0288	1	F	Performance Requirements for Extended AB	14.2.0
2017-09	RP-77	RP-171594	0289	2	F	Corrections to BTS Reception Accuracy Capability for Multilateration Positioning	14.2.0
2017-12	RP-78	RP-172188	0290	–	F	Performance requirements for uplink CC5 and for Alternative Coverage Class mapping	14.3.0
2017-12	RP-78	RP-172188	0291	–	F	Performance requirements for Alternative Coverage Class mapping and CC5 using OLCDMA	14.3.0
2017-12	RP-78	RP-172189	0292	–	F	Correction to BTS Reception Accuracy Capability for Multilateration Positioning	14.3.0
2018-03	RP-79	RP-180071	0293	–	F	Finalised performance requirements for Alternative Coverage Class mapping and CC5 using OLCDMA	14.4.0
2018-06	RP-80	RP-180825	0296	–	F	Miscellaneous corrections for EC-GSM-IoT and Extended AB	14.5.0
2018-06	RP-80					Version for Release 15	15.0.0
2018-09	RP-81	RP-181594	0299	–	A	Editorial correction related to EC-GSM-IoT	15.1.0
2019-03	RP-83	RP-190062	0302	–	A	Addition of EC-RACH format to manufacturer’s declaration for EC-GSM-IoT	15.2.0
2020-07	RP-88e	–	–	–	–	Upgrade to Rel-16 version without technical change	16.0.0
2022-03	RP-95e	–	–	–	–	Upgrade to Rel-17 version without technical change	17.0.0