5G/NR - FR/Operating Bandwidth  

 

 

 

5G FR(Frequency Range) / Operating Bandwidth in a Nutshell

  • Supported bands
    • FR1-FDD : n1,n2,n3,n5,n7,n8,n12,n13,n14,n18,n20,n24,n25,n26,n28,n30,n65,n66,n70,n71,n74,n85               ,n91,n92,n93,n94
    • FR1-TDD : n34,n38,n39,n40,n41,n46,n47,n48,n50,n51,n53,n77,n78,n79,n90,n96,n101,n102
    • FR1-SDL : n29,n67,n75,n76
    • FR1-SUL : n80,n81,n82,n83,n84,n86,n89,n95,n97,n98,n99
    • FR2-TDD : n257,n258,n259,n260,n261,n262,n263
  • Not all bands support all the possible bandwidth. Check the details for which band support which bandwidth
  • Not all bands support all the possible subcarrier spacing. Check the details for which band support which subcarrier spacing is supported.
  • FR1 support subcarrier spacing 15,30,60 Khz. 15 and 30 Khz are most commonly used.
  • FR2 support subcarrier spacing 120,240,960 Khz. 120 Khz is most commonly used.
  • GSCN is the frequency to indicate the position of SSB in frequency domain
  • There are roughly 3 different SSB patterns for FR1 - Case A,B,C.  Each frequency band applies only one of the cases.

5G FR(Frequency Range) / Operating Bandwidth  in Detail

In NR, there are roughly two large frequency range specified in 3GPP. One is what we usually call (sub 6 Ghz) and the other is what we usually call millimeter wave. Depending on the ranges, the maximum bandwidth and subcarrier spacing varies. In sub 6 Ghz, the maximum bandwidth is 100 Mhz and in millimeter wave range the maximum bandwidth is 400 Mhz. Some subcarrierspacing (15, 30 Khz)  can be used only in Sub 6 Ghz and some subcarrier spacing (120 Khz) can be used in millimeter wave range only, and some subcarrier spacing (60 Khz) can be used both in sub 6 Ghz and millimeter wave range.  

Followings are the list of topics to be covered  here. Not so much explanations in this page. they are mostly bunch of tables, but you would refer to these tables very often once you start developing (especially testing) NR devices. I just wanted to put togather those tables in single page, so that you can easily find the information. Most of the tables shown in this page are from 38.101-1 and 38.101-2.

All in One Table

< Based on 38.101-1 Table 5.2-1, Table 5.4.2.3-1 and 38.104 - Table 5.4.3.3-1>

NR Operating Band

Uplink (UL) operating band

Downlink (DL) operating band

Duplex

Mode

BS receive

BS transmit

UE transmit

UE receive

FUL_low     FUL_high

total BW

FDL_low     FDL_high

total BW

n1

Frquency

1920 MHz-1980 MHz 

60

2110 MHz-2170 MHz

60

FDD

ARFCN

384000 <20> 396000

422000 <20> 434000

GSCN

5279 <1> 5419

n2

Frquency

1850 MHz-1910 MHz

60

1930 MHz-1990 MHz

60

FDD

ARFCN

370000 <20> 382000

386000 <20> 398000

GSCN

4829 <1> 4969

n3

Frquency

1710 Mhz -1785 MHz

75

1805 MHz-1880 MHz

75

FDD

ARFCN

342000 <20> 357000

361000 <20> 376000

GSCN

4517 <1> 4693

n5

Frquency

824 -849 MHz

25

869 MHz-894MHz

25

FDD

ARFCN

164800 <20> 169800

173800 <20> 178800

GSCN

15 Khz

 

2177 <1> 2230

30 khz

2183 <1> 2224

n7

Frquency

2500 MHz-2570 MHz

70

2620 MHz-2690 MHz

70

FDD

ARFCN

500000 <20> 514000

524000 <20> 538000

GSCN

6554 <1> 6718

n8

Frquency

880 MHz-915 MHz

35

925 MHz-960 MHz

35

FDD

ARFCN

176000 <20> 78300

185000 <20> 192000

GSCN

2318 <1> 2395

n12

Frquency

699 Mhz-716 Mhz

17

729 Mhz-746 Mhz

17

FDD

ARFCN

139800 <20> 143200

 

145800 <20> 149200

 

GSCN

 

 

1828 - <1> - 1858

 

n20

Frquency

832 MHz-862 MHz

30

791 MHz-821 MHz

30

FDD

ARFCN

166400 <20> 172400

158200 <20> 164200

GSCN

1982 <1> 2047

n25

Frquency

1850 Mhz-1915 Mhz

65

1930 Mhz-1995 Mhz

65

FDD

ARFCN

370000 <20> 383000

 

386000 <20> 399000

 

GSCN

 

 

4829 <1> 4981

 

n28

Frquency

703 MHz-748 MHz

45

758 MHz-803 MHz

45

FDD

ARFCN

140600 <20> 149600

151600 <20> 160600

GSCN

1901 <1> 2002

n34

Frquency

2010 Mhz-2025 Mhz

15

2010 Mhz-2025 Mhz

15

TDD

ARFCN

402000 <20> 405000

 

402000 <20> 405000

 

GSCN

 

 

5030 <1> 5056

 

n38

Frquency

2570 MHz-2620 MHz

50

2570 MHz-2620 MHz

50

TDD

ARFCN

514002 <3> 523998

514002 <3> 523998

GSCN

6431 <1> 6544

n39

Frquency

1880 Mhz - 1920 Mhz

40

1880 Mhz- 1920 Mhz

40

TDD

ARFCN

376000 <20> 384000

 

376000 <20> 384000

 

GSCN

 

 

4706 <1> 4795

 

n40

Frquency

2300 Mhz - 2400 Mhz

100

2300 Mhz - 2400 Mhz

100

TDD

ARFCN

460000 <20> 480000

 

460000 <20> 480000

 

GSCN

 

 

5756 <1> 5995

 

n41

Frquency

2496 MHz-2690 MHz

194

2496 MHz-2690 MHz

194

TDD

ARFCN

15 Khz

499200 <3> 537999

499200 <3> 537999

30 khz

499200 <6> 537999

 

499200 <6> 537999

 

GSCN

15 Khz

 

6246 <3> 6717

30 khz

6252 <3> 6714

n50

Frquency

1432 MHz-1517 MHz

85

1432 MHz-1517 MHz

85

TDD

ARFCN

286400 <20> 303400

286400 <20> 303400

GSCN

3584 <1> 3787

n51

Frquency

1427 MHz-1432 MHz

5

1427 MHz-1432 MHz

5

TDD

ARFCN

285400 <20> 286400

285400 <20> 286400

GSCN

3572 <1> 3574

n66

Frquency

1710 MHz-1780 MHz

70

2110 MHz-2200 MHz

90

FDD

ARFCN

342000 <20> 356000

422000 <20> 440000

GSCN

15 Khz

 

5279 <1> 5494

30 khz

5285 <1> 5488

n70

Frquency

1695 MHz-1710 MHz 

15

1995 MHz-2020 MHz

25

FDD

ARFCN

339000 <20> 342000

399000 <20> 404000

GSCN

4993 <1> 5044

n71

Frquency

663 MHz-698 MHz 

35

617 MHz-652 MHz

35

FDD

ARFCN

132600 <20> 139600

123400 <20> 130400

GSCN

1547 <1> 1624

n74

Frquency

1427 MHz-1470 MHz 

43

1475 MHz-1518 MHz 

43

FDD

ARFCN

285400 <20> 294000

295000 <20> 303600

GSCN

[3692 <1> 3790]

n75

Frquency

N/A

1432 Mhz -1517 MHz

85

SDL

ARFCN

N/A

286400 <20> 303400

GSCN

3584 <1> 3787

n76

Frquency

N/A

1427 Mhz -1432 MHz

5

SDL

ARFCN

N/A

285400 <20> 286400

GSCN

3572 <1> 3574

n77 

Frquency

3300 MHz- 4200 MHz

900

3300 MHz- 4200 MHz

900

TDD

ARFCN

620000 <1> 680000

620000 <1> 680000

GSCN

7711 <1> 8329

n78

Frquency

3300 MHz-3800 MHz 

500

3300 MHz - 3800 MHz 

500

TDD

ARFCN

620000 <1> 653333

620000 <1> 653333

GSCN

7711 <1> 8051

n79 

Frquency

4400 MHz-5000 MHz

600

4400 MHz - 5000 MHz

600

TDD

ARFCN

693333 <1> 733333

693333 <1> 733333

GSCN

8480 <16> 8880

n80

Frquency

1710 MHz-1785 MHz

75

N/A

SUL

ARFCN

342000 <20> 357000

GSCN

n81

Frquency

880 MHz-915 MHz

35

N/A

SUL

ARFCN

176000 <20> 183000

GSCN

n82

Frquency

832 MHz-862 MHz

30

N/A

SUL

ARFCN

166400 <20> 172400 

GSCN

n83

Frquency

703 MHz-748 MHz

45

N/A

SUL

ARFCN

140600 <20> 149600

GSCN

n84

Frquency

1920 MHz-1980 MHz 

60

N/A

SUL

ARFCN

384000 <20> 396000

GSCN

n86

Frquency

1710 MHz-1780 MHz 

70

   

SUL

ARFCN

342000 <20> 356000

     

GSCN

       

 

 < Based on 38.101-2 v17.6 Table 5.2-1, Table 5.4.2.2-1 and 38.104 - Table 5.4.3.1-1>

NR Operating Band

Uplink (UL) operating band

Downlink (DL) operating band

Duplex

Mode

BS receive

BS transmit

UE transmit

UE receive

FUL_low     FUL_high

total BW

FDL_low     FDL_high

total BW

n257

Frequency

26500 MHz29500 MHz 

3,000

26500 MHz29500 MHz 

3,000

TDD

ARFCN

2054167 <1> 2104166

2054167 <1> 2104166

GSCN

120 Khz

[24306 <1> 24476]

[24306 <1> 24476]

240 Khz

[24308 <2> 24474]

[24308 <2> 24474]

n258

Frequency

24250 MHz27500 MHz

3,260

24250 MHz27500 MHz

3,260

TDD

ARFCN

2016667 <1> 2070833

2016667 <1> 2070833

GSCN

120 Khz

[24175 <1> 24361]

[24175 <1> 24361]

240 Khz

[24176 <2> 24360]

[24176 <2> 24360]

n260

Frequency

37000 MHz40000 MHz

3,000

37000 MHz40000 MHz

3,000

TDD

ARFCN

2229167 <1> 2279166

2229167 <1> 2279166

GSCN

120 Khz

[24913 <1> 25084]

[24913 <1> 25084]

240 Khz

[24916 <2> 25080]

[24916 <2> 25080]

n261

Frequency

27500 MHz 28350 MH

850

27500 MHz 28350 MH

850

TDD

ARFCN

2070833 <2> 2084999

2070833 <2> 2084999

GSCN

120 Khz

22446 <1> 22492

22446 <1> 22492

240 Khz

22446 <2> 22490

22446 <2> 22490

n262

Frequency

47200 MHz 48200 MHz

1,000

47200 MHz 48200 MHz

1,000

TDD

ARFCN (120Khz)

2399167 <2> 2415831

2399167 <2> 2415831

GSCN

120 Khz

22446 <1> 22492

22446 <1> 22492

240 Khz

22446 <2> 22490

22446 <2> 22490

n263

Frequency

57000 MHz 71000 MHz

14,000

57000 MHz 71000 MHz

14,000

TDD

ARFCN

Table 5.4.2.3-2

Table 5.4.2.3-2

GSCN

120 Khz

Table 5.4.3.3-2

 

Table 5.4.3.3-2

240 Khz

Table 5.4.3.3-2

 

Table 5.4.3.3-2

960 Khz

24162 <6> 24954

 

24162 <6> 24954

 

 

< 38.101-2 : Table 5.4.2.3-2: Applicable NR-ARFCN for operation in band n263 >

Channel Bandwidth

Applicable NR-ARFCN

100 MHz

2564083 + 1680 * N, N = 0:137

400 MHz

2566603 + 6720 * N, N = 0:33

800 MHz

2569963 + 6720 * N, N = 0:32

1600 MHz

2576683 + 6720 * N, N =0:30

2000 MHz

2580043 + 6720 * N, N=0:29,

2585083, 2655643, 2692603, 2764843

 

< 38.101-2 : Table 5.4.3.3-2: Allowed GSCN for operation in band n263 for 120 kHz and 480 kHz >

SS Block SCS

Range of GSCN

120 kHz

24156 + 6 * N 3 * floor((N+5)/18), N=0:137

480 kHz

24162 + 24 * N 12 * floor((N+4)/18), N=0:33

Frequency Range

As mentioned above, two types of frequency range is defined in 3GPP. Sub 6 Ghz range is called FR1 and millimiter wave range is called FR2. The exact frequency range for FR1(sub 6 Ghz) and FR2 (millimeter wave) are defined as below.

<  38.101-1  Table 5.1-1: Definition of frequency ranges  >

Operating Band

< Based on 38.101-1 v17.5 - Table 5.2-1: NR operating bands in FR1 >

 

< based on 38.104 v17.6 -Table 5.2-2: NR operating bands in FR2 >

 

< 38.101-5 v17.2 - Table 5.2.2-1: NTN satellite bands in FR1 >

Spectrum and Bandwidth

< 38.101-1 Figure 5.3.3-1 Definition of channel bandwidth and transmission bandwidth configuration for one NR channel >

This illustration would look obvious saying 'Channel BW = Maximum transmission bandwidth + guardbands on both side', but when you look at the tables below it may not look clear since the maximum transmission bandwidth is specified in the unit of RB and the guardband band is specified in the unit of khz.

To make things clear on this, my Japanese friend Tanaka Junya came up with a simple equation and example as follows.

    Channel Bandwidth(CBW) is about [ N_RB x NumOfSubcarrier x SCS + GuardBand x 2 ]

      ,where N_RB = Maximum Transmission Bandwidth in 38.101-1 Table 5.3.2-1,38.101-2 Table 5.3.2-1

                NumberOfSubcarrier = 12 (constant)

                SCS = Subcarrier Spacing = the number in the column labed as (A)

                                                                      in 38.101-1 Table 5.3.2-1,38.101-2 Table 5.3.2-1

                GuardBand = the number in the section (C) in 38.101-1 Table 5.3.3-1,38.101-2 Table 5.3.3-1

     

    Example >

      In case of CBW = 5Mhz, SCS = 30 Khz, meaning the second row in 38.101-1 Table 5.3.2-1

      [ N_RB x NumOfSubcarrier x SCS ] = 11 x 12 x 30 = 3960 [kHz] ----- (a)

      [ GuardBand x 2 ] = 505 x 2 = 1010 --------------------------------(b)

      (a) + (b) = 3960 + 1010 = 4970 kHz = 4.970 Mhz which is close to 5 Mhz CBW

       

      NOTE : Guardband is defined as 'Minimum' value in the table, so (a) + (b) may not be exactly same as CBW, but close enough to the CBW

 

< 38.101-1 v17.6 : Table 5.3.2-1: Maximum transmission bandwidth configuration NRB : FR1 >

 

< 38.101-2 v17.6 - Table 5.3.2-1: Maximum transmission bandwidth configuration NRB : FR2 >

 

< 38.101-1 Table 5.3.3-1: Minimum Guardband for each UE channel bandwidth and SCS (kHz) : FR1 >

 

< 38.101-2 v17.6 - Table 5.3.3-1: Minimum guardband for each UE channel bandwidth and SCS (kHz) : FR2 >

Supported Channel Bandwidth for each Band

 

NOTE : This is for PDCCH/PDSCH/PUSCH. For SSB, refer to 38.104 - Table 5.4.3.3-1

 

< 38.101-1 v17.5 - Table 5.3.5-1 Channel Bandwidths for Each NR band : FR1 >

 

< 38.101-2 v17.6 - Table 5.3.5-1 Channel bandwidths for each NR band : FR2 >

NR-ARFCN

Following tables shows the range and possible ARFCN values for each FR and band. Be careful when you sepcify ARFCN values for a specific bands because they are different not only in terms of ARFCN range, but also in terms of step size. It means that not all of ARFCN value within the range can be used for the band.

< 38.104 v17.6 Table 5.4.2.1-1: NR-ARFCN parameters for the global frequency raster >

Frequency range

ΔFGlobal

FREF-Offs [MHz]

NREF-Offs

Range of NREF

0 3000 MHz

5 kHz

0 MHz

0

0 599999

3000 24250 MHz

15 kHz

3000 MHz

600000

600000 2016666

24250 100000 MHz

60 kHz

24250 MHz

2016667

2016667 3279167

 

< 38.104 v17.6 Table 5.4.2.3-1: Applicable NR-ARFCN per operating band in FR1 >

 

< 38.104 v17.6 Table 5.4.2.3-2: Applicable NR-ARFCN per operating band in FR2 >

 

< 38.104 v17.6 Table 5.4.2.3-3: Applicable NR-ARFCN for operation in band n263 >

GSCN

When I first saw the frequency specification called GSCN(Global Synchronization Raster Channel). I asked myself 'why we need this kind of additional frequency specification like this when we already have the existing frequency spec(raster) called ARFCN ?'.

I still don't know of the offical answers in 3GPP TS or TDocs (I failed to find the answers in the specification). So I just came up with my personal guess as follows :

    When NR is activated in NSA, UE does not need to do blind search for SSB since the frequency, subcarrier spacing etc are all configured by LTE RRC Connection Reconfiguration message. But in SA, UE need to blindly detect SSB since UE need to detect this before it gets any RRC (MIB, SIB). If UE needs to search SSB based on ARFCN raster, it would take too long time since ARFCN raster is very narrow. So it would be good to define a SSB searching frequency in wider steps. This is the usage/purpose of GSCN.

 

As you see in 38.104 Table 5.4.2.1-1, ARFCN step is 5Khz or 15kHz or 60Khz depending on frequency range. If UE has to scan the spectrum in this granularity for cell search, it will take very long time to find a cell. In case of GSCN, as you see in the following table, the granularity is 50 or 150 or 250 Khz under 3Ghz and it has the granularity of 1.44 Mhz in above 3 Ghz frequency range and below 24.25Ghz, and the granuilirity jumps to 17.28 Mhz if the frequency goes over 24.25 Ghz. .

< 38.104 v17.6.0 - Table 5.4.3.1-1: GSCN parameters for the global frequency raster >

Frequency range

SS block frequency position SSREF

GSCN

Range of GSCN

0 3000 MHz

N * 1200kHz + M * 50 kHz
N=1:2499, M={1,3,5} (Default M=3)

3N + (M-3)/2

2 7498

3000 24250 MHz

3000 MHz + N * 1.44 MHz
N= 0:14756

7499 + N

7499 22255

24250 100000 Mhz

24250.08 MHz + N * 17.28 MHz,

N = 0:4383

22256 + N

22256 26639

 

< 38.104 v17.6.0 - Table 5.4.3.3-1: Applicable SS raster entries per operating band (FR1) >

NR Operating Band

SS  Block SCS

SS Block pattern1

Range of GSCN
(First <Step size> Last)

n1

15 kHz

Case A

5279 <1> 5419

n2

15 kHz

Case A

4829 <1> 4969

n3

15 kHz

Case A

4517 <1> 4693

n5

15 kHz

Case A

2177 <1> 2230

30 kHz

Case B

2183 <1> 2224

n7

15 kHz

Case A

6554 <1> 6718

n8

15 kHz

Case A

2318 <1> 2395

n12

15 kHz

Case A

1828 <1> 1858

n13

15 kHz

Case A

1828 <1> 1858

n14

15 kHz

Case A

1828 <1> 1858

n18

15 kHz

Case A

2156 <1> 2182

n20

15 kHz

Case A

1982 <1> 2047

n24

15 kHz

Case A

3818 <1> 3892

30 kHz

Case B

3824 <1> 3886

n25

15 kHz

Case A

4829 <1> 4981

n26

15 kHz

Case A

2153 <1> 2230

n28

15 kHz

Case A

1901 <1> 2002

n29

15 kHz

Case A

1798 <1> 1813

n30

15 kHz

Case A

5879 <1> 5893

n34

15 kHz

Case A

NOTE 3

30 kHz

Case C

5036 <1> 5050

n38

15 kHz

Case A

NOTE 2

30 kHz

Case C

6437 <1> 6538

n39

15 kHz

Case A

NOTE 4

30 kHz

Case C

4712 <1> 4789

n40

15 kHz

Case A

5756 <1> 5995

n41

15 kHz

Case A

6246 <3> 6717

30 kHz

Case C

6252 <3> 6714

n46

30 kHz

Case C

8993 <1> 9530

n48

30 kHz

Case C

7884 <1> 7982

n50

15 kHz

Case A

3584 <1> 3787

n51

15 kHz

Case A

3572 <1> 3574

n53

15 kHz

Case A

6215 <1> 6232

n65

15 kHz

Case A

5279 <1> 5494

n66

15 kHz

Case A

5279 <1> 5494

30 kHz

Case B

5285 <1> 5488

n67

15 kHz

Case A

1850 <1> 1888

n70

15 kHz

Case A

4993 <1> 5044

n71

15 kHz

Case A

1547 <1> 1624

n74

15 kHz

Case A

3692 <1> 3790

n75

15 kHz

Case A

3584 <1> 3787

n76

15 kHz

Case A

3572 <1> 3574

n77

30 kHz

Case C

7711 <1> 8329

n78

30 kHz

Case C

7711 <1> 8051

n79

30 kHz

Case C

8480 <16> 8880

n85

30 kHz

Case A

1826 <1> 1858

n90

15 kHz

Case A

6246 <1> 6717

30 kHz

Case C

6252 <1> 6714

n91

15 kHz

Case A

3572 <1> 3574

n92

15 kHz

Case A

3584 <1> 3587

n93

15 kHz

Case A

3572 <1> 3574

n94

15 kHz

Case A

3584 <1> 3587

n96

30 kHz

Case C

9531 <1> 10363

n100

15 kHz

Case A

2303 <1> 2307

n101

15 kHz

Case A

4754 <1> 4768

30 kHz

Case C

4760 <1> 4764

n102

30 kHz

Case C

9531 <1> 9877

n104

30 kHz

Case C

9882 <7> 10358

NOTE 1: SS Block pattern is defined in clause 4.1 in TS 38.213 [10].

NOTE 2: The applicable SS raster entries are

     GSCN = {6432, 6443, 6457, 6468, 6479, 6493, 6507, 6518,6532, 6543}

NOTE 3: The applicable SS raster entries are

     GSCN = {5032, 5043, 5054}

NOTE 4: The applicable SS raster entries are

     GSCN = {4707, 4715, 4718, 4729, 4732, 4743, 4747, 4754,4761, 4768, 4772,

                 4782,4786, 4793}

NOTE 5: The following GSCN are allowed for operation in band n46:

     GSCN = {8996, 9010, 9024, 9038, 9051, 9065, 9079, 9093, 9107, 9121, 9218,

                 9232,9246,9260, 9274, 9288, 9301, 9315, 9329, 9343, 9357, 9371, 9385,

                 9402, 9416, 9430, 9444, 9458,9472, 9485, 9499, 9513}.

NOTE 6: The following GSCN are allowed for operation in band n96:

     GSCN = {9548, 9562, 9576, 9590, 9603, 9617, 9631, 9645, 9659, 9673, 9687,

                 9701,9714,9728, 9742, 9756, 9770, 9784, 9798, 9812, 9826, 9840, 9853,

                 9867,9881, 9895, 9909, 9923,9937, 9951, 9964, 9978, 9992, 10006,

                 10020, 10034, 10048, 10062, 10076, 10090, 10103,10117, 10131, 10145,

                 10159, 10173, 10187, 10201, 10214, 10228, 10242, 10256, 10270,10284,

                 10298, 10312, 10325, 10339, 10353}

NOTE 7: The SS raster entries apply for channel bandwidths larger than or equal to 40 MHz.

NOTE 8: The SS raster entries apply for channel bandwidths smaller than 40 MHz.

NOTE 9: The following GSCN are allowed for operation in band n102:

     GSCN = {9535, 9548, 9562, 9576, 9590, 9603, 9617, 9631, 9645, 9659, 9673,

                 9687, 9701, 9714, 9728, 9742, 9756, 9770, 9784, 9798, 9812, 9826,

                 9840, 9853, 9867}

NOTE 10: The SS raster entries apply for channel bandwidths larger than or equal to 10 MHz.

NOTE 11: The SS raster entries apply for channel bandwidth equal to 5 MHz.

 

< 38.104 v17.6.0 - Table 5.4.3.3-2: Applicable SS raster entries per operating band (FR2) >

NR Operating Band

SS Block SCS

SS Block pattern1

Range of GSCN
(First <Step size> Last)

n257 

120 kHz

Case D

22388 <1> 22558

240 kHz

Case E

22390 <2> 22556

n258

120 kHz

Case D

22257 <1> 22443

240 kHz

Case E

22258 <2> 22442

n260 

120 kHz

Case D

22995 <1> 23166

240 kHz

Case E

22996 <2> 23164

n261

120 kHz

Case D

22446 <1> 22492

240 kHz

Case E

22446 <2> 22490

n262

120 kHz

Case D

23586 <1> 23641

240 kHz

Case E

23588 <2> 23640

n263

120 kHz

Case D

Table 5.4.3.3-2

480 kHz

Case F

Table 5.4.3.3-2

960 kHz

Case G

24162 <6> 24954

 

< 38.101-2 : Table 5.4.3.3-2: Allowed GSCN for operation in band n263 for 120 kHz and 480 kHz >

SS Block SCS

Range of GSCN

120 kHz

24156 + 6 * N 3 * floor((N+5)/18), N=0:137

480 kHz

24162 + 24 * N 12 * floor((N+4)/18), N=0:33

Reference

[1]