3 Definitions and abbreviations
25.1413GPPBase Station (BS) conformance testing (FDD)Release 17TS
3.1 Definitions
For the purposes of the present document, the following terms and definitions apply:
Ancillary RF amplifier: piece of equipment, which when connected by RF coaxial cables to the BS, has the primary function to provide amplification between the transmit and/or receive antenna connector of a BS and an antenna without requiring any control signal to fulfil its amplifying function.
Bit Error Ratio: ratio of the bits wrongly received to all data bits sent.
NOTE: The bits are the data bits above the convolutional/turbo decoder. The BER is the overall BER independent of frame erasures or when erased frames are not defined.
Block Error Ratio: ratio of the number of erroneous blocks received to the total number of blocks sent.
NOTE: An erroneous block is a Transport Block whose cyclic redundancy check (CRC) is wrong.
Mean power: power (transmitted or received) in a bandwidth of at least (1+ times the chip rate of the radio access mode.
NOTE1: α = 0,22 is the roll off factor of the WCDMA signal. The roll-off factor α factor is defined in [1] section 6.8.1.
NOTE2: The period of measurement shall be at least one timeslot unless otherwise stated.
RRC filtered mean power: mean power as measured through a root raised cosine filter with roll-off factor and a bandwidth equal to the chip rate of the radio access mode.
NOTE 1: The RRC filtered mean power of a perfectly modulated W-CDMA signal is 0,246 dB lower than the mean power of the same signal.
NOTE 2: The roll-off factor factor is defined in [1] section 6.8.1.
Code domain power: part of the mean power which correlates with a particular (OVSF) code channel.
NOTE: The sum of all powers in the code domain equals the mean power in a bandwidth of (1+ times the chip rate of the radio access mode. See Annex E.2.5.1.
Output power: mean power of one carrier of the base station, delivered to a load with resistance equal to the nominal load impedance of the transmitter.
Rated output power: mean power level per carrier that the manufacturer has declared to be available at the antenna connector.
Rated total output power: mean power level that the manufacturer has declared to be available at the antenna connector.
Maximum output power: mean power level per carrier of the base station measured at the antenna connector in a specified reference condition.
MIMO mode: downlink MIMO configuration with two transmit antennas.
MIMO mode with four transmit antennas: downlink MIMO configuration with four transmit antennas.
Power control dynamic range: difference between the maximum and the minimum code domain power of a code channel for a specified reference condition.
Total power dynamic range: difference between the maximum and the minimum total power for a specified reference condition.
Secondary serving HS-DSCH cell(s): set of cells where the UE is configured to simultaneously monitor an HS-SCCH set and receive the HS-DSCH if it is scheduled in that cell.
NOTE: There can be up to 7 secondary serving HS-DSCH cells, in addition to the serving HS-DSCH cell.
1st secondary serving HS-DSCH cell: first secondary serving HS-DSCH cell.
NOTE: If the UE is configured with two uplink frequencies, the 1st secondary serving HS-DSCH cell is the secondary serving HS-DSCH cell that is associated with the secondary uplink frequency. If the UE is configured with a single uplink frequency, the 1st secondary serving HS-DSCH cell is a secondary serving HS-DSCH cell whose index is indicated by higher layers.
Channel bandwidth: RF bandwidth supporting a single UTRA RF carrier.
NOTE: the channel bandwidth is measured in MHz and is used as a reference for transmitter and receiver RF requirements.
Channel edge: lowest or highest frequency of the UTRA carrier, separated by the channel bandwidth.
Base Station RF Bandwidth: bandwidth in which a base station transmits and/or receives single or multiple carriers simultaneously within each supported operating band.
NOTE: in single carrier operation the channel bandwidth is equal to Base Station RF Bandwidth.
Maximum Base Station RF Bandwidth: maximum Base Station RF Bandwidth supported by a BS within each supported operating band.
Maximum Radio Bandwidth: maximum frequency difference between the upper edge of the highest used carrier and the lower edge of the lowest used carrier.
Base Station RF Bandwidth edge: frequency of one of the edges of the Base Station RF Bandwidth.
Contiguous spectrum: spectrum consisting of a contiguous block of spectrum with no sub-block gap(s).
Non-contiguous spectrum: spectrum consisting of two or more sub-blocks separated by sub-block gap(s).
Sub-block: one contiguous allocated block of spectrum for use by the same base station.
NOTE: There may be multiple instances of sub-blocks within an Base Station RF Bandwidth.
Sub-block bandwidth: bandwidth of one sub-block.
Sub-block gap: frequency gap between two consecutive sub-blocks within a Base Station RF Bandwidth, where the RF requirements in the gap are based on co-existence for un-coordinated operation.
Lower sub-block edge: frequency at the lower edge of one sub-block.
NOTE: It is used as a frequency reference point for both transmitter and receiver requirements.
Upper sub-block edge: frequency at the higher edge of one sub-block.
NOTE: It is used as a frequency reference point for both transmitter and receiver requirements.
Multi-band Base Station: base station characterized by the ability of its transmitter and/or receiver to process two or more carriers in common active RF components simultaneously, where at least one carrier is configured at a different operating band (which is not a sub-band or superseding-band of another supported operating band) than the other carrier(s).
Multi-carrier transmission configuration: set of one or more contiguous or non-contiguous carriers that a BS is able to transmit simultaneously according to the manufacturer’s specification.
Multi-band transmitter: transmitter characterized by the ability to process two or more carriers in common active RF components simultaneously, where at least one carrier is configured at a different operating band (which is not a sub-band or superseding-band of another supported operating band) than the other carrier(s).
Multi-band receiver: receiver characterized by the ability to process two or more carriers in common active RF components simultaneously, where at least one carrier is configured at a different operating band (which is not a sub-band or superseding-band of another supported operating band) than the other carrier(s).
Inter-band gap: The frequency gap between two supported consecutive operating bands.
Inter RF Bandwidth gap: frequency gap between two consecutive Base Station RF Bandwidths that are placed within two supported operating bands.
Sub-band: A sub-band of an operating band contains a part of the uplink and downlink frequency range of the operating band.
Superseding-band: A superseding-band of an operating band includes the whole of the uplink and downlink frequency range of the operating band.
Total RF Bandwidth: maximum sum of Base Station RF Bandwidths in all supported operating bands.
3.2 Symbols
For the purposes of the present document, the following symbols apply:
Roll-off factor
B appropriate frequency in the Bottom of the operating band of the BS
BRFBW Maximum Base Station RF Bandwidth located at the bottom of the supported frequency range in each operating band
BWmax Maximum Radio Bandwidth
BWtot Total Radio Bandwidth
Eb Average energy per information bit
Ec Total energy per PN chip
f Frequency
Δf Frequency offset of the measurement filter -3dB point, as defined in section 6.5.2.1
Δfmax The largest value of Δf used for defining the requirement
Foffset Frequency offset from the centre frequency of the highest transmitted/received carrier to the upper Base Station RF Bandwidth edge or sub-block edge, or from the centre frequency of the lowest transmitted/received carrier to the lower Base Station RF Bandwidth edge or sub-block edge. Foffset for UTRA FDD is 2.5 MHz.
f_offset Frequency offset of the measurement filter centre frequency, as defined in section 6.5.2.1.5
FDL_low The lowest frequency of the downlink operating band
FDL_high The highest frequency of the downlink operating band
FDL_Offset The offset parameter used to calculate the UARFCN for downlink
FUL_low The lowest frequency of the uplink operating band
FUL_high The highest frequency of the uplink operating band
FUL_Offset The offset parameter used to calculate the UARFCN for downlink
Fuw Frequency offset of unwanted signal
M appropriate frequency in the Middle of the operating band of the BS
MRFBW Maximum Base Station RF Bandwidth located in the middle of the supported frequency range in each operating band
PEM,N Declared emission level for channel N
PEM,B32,ind Declared emission level in Band 32, ind=a, b, c, d, e
Pout Output power
Prated,c Rated output power (per carrier)
Prated,t Rated total output power
Pmax,c Maximum output power (per carrier)
PREFSENS Reference sensitivity power level
RBW Resolution bandwidth (of test equipment)
Rx Receiver
TRFBW Maximum Base Station RF Bandwidth located at the top of the supported frequency range in each operating band
Tx Transmitter
Wgap Sub-block gap or Inter RF Bandwidth gap size
Figure 3.2-1 Illustration of Maximum Radio Bandwidth BWmax and Total RF Bandwidth BWtot for Multi-band Base Station
3.3 Abbreviations
For the purposes of the present document, the following abbreviations apply:
4C-HSDPA Four-Carrier HSDPA. HSDPA operation configured on 3 or 4 DL carriers
8C-HSDPA Eight-Carrier HSDPA. HSDPA operation configured for 5 to 8 DL carriers
16QAM 16 Quadrature Amplitude Modulation
ACLR Adjacent Channel Leakage power Ratio
ACS Adjacent Channel Selectivity
BER Bit Error Ratio
BLER Block Error Ratio
BS Base Station
C Contiguous
CACLR Cumulative ACLR
CW Continuous Wave (unmodulated signal)
DB-DC-HSDPA Dual Band Dual Cell HSDPA
DB-DC-HSUPA Dual Band Dual Cell HSUPA
DC-HSDPA Dual Cell HSDPA
DC-HSUPA Dual Cell HSUPA
DCH Dedicated Channel, which is mapped into Dedicated Physical Channel. DCH contains the data
DL Down Link (forward link)
DPCH Dedicated Physical Channel
DTT Digital Terrestrial Television
DUT Device Under Test
EIRP Effective Isotropic Radiated Power
EVM Error Vector Magnitude
FDD Frequency Division Duplexing
GSM Global System for Mobile communications
HSDPA High Speed Downlink Packet Access
HSUPA High Speed Uplink Packet Access
HS-DSCH High Speed Downlink Shared Channel
HS-PDSCH High Speed Physical Downlink Shared Channel
HS-SCCH Shared Control Channel for HS-DSCH
LA Local Area
MC Multi-Carrier
MIMO Multiple Input Multiple Output
MR Medium Range
MS Mobile Station
NC Non-Contiguous
NC-4C-HSDPA Non-contiguous Four-Carrier HSDPA. HSDPA operation for two non-adjacent blocks within a single band configured on 2, 3 or 4 DL carriers.
PCCPCH Primary Common Control Physical Channel
PCDE Peak Code Domain Error
PCH Paging Channel
PPM Parts Per Million
PSD Power Spectral Density
RAT Radio Access Technology
RF Radio Frequency
QPSK Quadrature Phase Shift Keying
RCDE Relative Code Domain Error
SC Single Carrier
SCCPCH Secondary Common Control Physical Channel
TC Test Configuration
TAE Time Alignment Error
TDD Time Division Duplexing
TPC Transmit Power Control
UE User Equipment
UL Up Link (reverse link)
UTC UTRA Test Configuration
UTRA UMTS Terrestrial Radio Access
WA Wide Area
3.4 Radio Frequency bands
3.4.1 Frequency bands
a) UTRA/FDD is designed to operate in the following paired bands:
Table 3.0: Frequency bands
|
Operating Band |
UL Frequencies UE transmit, Node B receive |
DL frequencies UE receive, Node B transmit |
|
I |
1 920 – 1 980 MHz |
2 110 – 2 170 MHz |
|
II |
1 850 – 1 910 MHz |
1 930 – 1 990 MHz |
|
III |
1 710 – 1 785 MHz |
1 805 – 1 880 MHz |
|
IV |
1 710 – 1 755 MHz |
2 110 – 2 155 MHz |
|
V |
824 – 849MHz |
869 – 894MHz |
|
VI |
830 – 840 MHz |
875 – 885 MHz |
|
VII |
2 500 – 2 570 MHz |
2 620 – 2 690 MHz |
|
VIII |
880 – 915 MHz |
925 – 960 MHz |
|
IX |
1 749,9 – 1 784,9 MHz |
1 844,9 – 1 879,9 MHz |
|
X |
1 710 – 1 770 MHz |
2 110 – 2 170 MHz |
|
XI |
1427.9 – 1447.9 MHz |
1475.9 – 1495.9 MHz |
|
XII |
699 – 716 MHz |
729 – 746 MHz |
|
XIII |
777 – 787 MHz |
746 – 756 MHz |
|
XIV |
788 – 798 MHz |
758 – 768 MHz |
|
XV |
Reserved |
Reserved |
|
XVI |
Reserved |
Reserved |
|
XVII |
Reserved |
Reserved |
|
XVIII |
Reserved |
Reserved |
|
XIX |
830 – 845 MHz |
875 – 890 MHz |
|
XX |
832 – 862 MHz |
791 – 821 MHz |
|
XXI |
1447.9 – 1462.9 MHz |
1495.9 – 1510.9 MHz |
|
XXII |
3410 – 3490 MHz |
3510 – 3590 MHz |
|
XXV |
1850 -1915 MHz |
1930 -1995 MHz |
|
XXVI |
814-849MHz |
859-894MHz |
|
XXXII (NOTE 1) |
N/A |
1452 – 1496 MHz |
|
NOTE 1: Restricted to UTRA operation when dual band is configured (e.g., DB-DC-HSDPA or dual band 4C-HSDPA). The down link frequenc(ies) of this band are paired with the uplink frequenc(ies) of the other FDD band (external) of the dual band configuration. |
||
b) Deployment in other frequency bands is not precluded
c) DB-DC-HSDPA is designed to operate in the following configurations:
Table 3.0aA: DB-DC-HSDPA configurations
|
DB-DC-HSDPA Configuration |
UL Band |
DL Bands |
|---|---|---|
|
1 |
I or VIII |
I and VIII |
|
2 |
II or IV |
II and IV |
|
3 |
I or V |
I and V |
|
4 |
I or XI |
I and XI |
|
5 |
II or V |
II and V |
|
6 |
I |
I and XXXII |
d) Single band 4C-HSDPA is designed to operate in the following configurations:
Table 3.0aB Single band 4C-HSDPA configurations
|
Single band 4C-HSDPA Configuration |
Operating Band |
Number of DL carriers |
|---|---|---|
|
I-3 |
I |
3 |
|
II-3 |
II |
3 |
|
II-4 |
II |
4 |
|
NOTE: Single band 4C-HSDPA configuration is numbered as (X-M) where X denotes the operating band and M denotes the number of DL carriers. |
||
e) Dual band 4C-HSDPA is designed to operate in the following configurations:
Table 3.0aC Dual band 4C-HSDPA configurations
|
Dual band 4C-HSDPA Configuration |
UL Band |
DL Band A |
Number of DL carriers in Band A |
DL Band B |
Number of DL carriers in Band B |
|---|---|---|---|---|---|
|
I-2-VIII-1 |
I or VIII |
I |
2 |
VIII |
1 |
|
I-3-VIII-1 |
I or VIII |
I |
3 |
VIII |
1 |
|
II-1-IV-2 |
II or IV |
II |
1 |
IV |
2 |
|
II-2-IV-1 |
II or IV |
II |
2 |
IV |
1 |
|
II-2-IV-2 |
II or IV |
II |
2 |
IV |
2 |
|
I-1-V-2 |
I or V |
I |
1 |
V |
2 |
|
I-2-V-1 |
I or V |
I |
2 |
V |
1 |
|
I-2-V-2 |
I or V |
I |
2 |
V |
2 |
|
I-2-VIII-2 |
I or VIII |
I |
2 |
VIII |
2 |
|
I-1-VIII-2 |
I or VIII |
I |
1 |
VIII |
2 |
|
II-1-V-2 |
II or V |
II |
1 |
V |
2 |
|
I-1-XXXII-2 |
I |
I |
1 |
XXXII |
2 |
|
I-2-XXXII-1 |
I |
I |
2 |
XXXII |
1 |
|
NOTE: Dual band 4C-HSDPA configuration is numbered as (X-M-Y-N) where X denotes the DL Band A, M denotes the number DL carriers in the DL Band A, Y denotes the DL Band B, and N denotes the number of DL carriers in the DL Band B |
|||||
f) Single Band 8C-HSDPA is designed to operate in the following configurations:
Table 3.0aD Single Band 8C-HSDPA configurations
|
Single Band 8C-HSDPA Configuration |
Operating Band |
Number of DL carriers |
|---|---|---|
|
I-8 |
I |
8 |
|
NOTE: Single band 8C-HSDPA configuration is numbered as (X-M) where X denotes the operating band and M denotes the number of DL carriers. |
||
g) Single band NC-4C-HSDPA is designed to operate in the following configurations:
Table 3.0aE Single band NC-4C-HSDPA configurations
|
Single band NC-4C-HSDPA Configuration |
Operating Band |
Number of DL carriers in one sub-block |
Sub-block gap [MHz] |
Number of DL carriers in the other sub-block |
|---|---|---|---|---|
|
I-1-5-1 |
I |
1 |
5 |
1 |
|
I-2-5-1 |
I |
2 |
5 |
1 |
|
I-3-10-1 |
I |
3 |
10 |
1 |
|
IV-1-5-1 |
IV |
1 |
5 |
1 |
|
IV-2-10-1 |
IV |
2 |
10 |
1 |
|
IV-2-15-2 |
IV |
2 |
15 |
2 |
|
IV-2-20-1 |
IV |
2 |
20 |
1 |
|
IV-2-25-2 |
IV |
2 |
25 |
2 |
|
NOTE: Single band NC-4C-HSDPA configuration is numbered as (X-M-Y-N) where X denotes the operating band, M denotes the number of DL carriers in one sub-block, Y denotes the sub-block gap in MHz and N denotes the number of DL carriers in the other sub-block. M and N can be switched. |
||||
h) DB-DC-HSUPA is designed to operate in the following configurations:
Table 3.0aF DB-DC-HSUPA configurations
|
Dual band HSUPA Configuration together with DB-DC-HSDPA/DB-4C-HSDPA |
UL Band A/B |
Number of UL carriers in Band A/B |
DL Band A |
Number of DL carriers in Band A |
DL Band B |
Number of DL carriers in Band B |
|---|---|---|---|---|---|---|
|
I-1-VIII-1 |
I and VIII |
1 |
I |
1 |
VIII |
1 |
|
I-2-VIII-1 |
I and VIII |
1 |
I |
2 |
VIII |
1 |
|
I-2-VIII-2 |
I and VIII |
1 |
I |
2 |
VIII |
2 |
|
I-1-VIII-2 |
I and VIII |
1 |
I |
1 |
VIII |
2 |
|
I-3-VIII-1 |
I and VIII |
1 |
I |
3 |
VIII |
1 |
|
I-1-V-1 |
I and V |
1 |
I |
1 |
V |
1 |
|
I-1-V-2 |
I and V |
1 |
I |
1 |
V |
2 |
|
I-2-V-1 |
I and V |
1 |
I |
2 |
V |
1 |
|
I-2-V-2 |
I and V |
1 |
I |
2 |
V |
2 |
|
II-1-V-1 |
II and V |
1 |
II |
1 |
V |
1 |
|
II-1-V-2 |
II and V |
1 |
II |
1 |
V |
2 |
3.4.2 TX-RX frequency separation
a) UTRA/FDD is designed to operate with the following TX-RX frequency separation
Table 3.0A: TX-RX frequency separation
|
Operating Band |
TX-RX frequency separation |
|
I |
190 MHz |
|
II |
80 MHz |
|
III |
95 MHz |
|
IV |
400 MHz |
|
V |
45 MHz |
|
VI |
45 MHz |
|
VII |
120 MHz |
|
VIII |
45 MHz |
|
IX |
95 MHz |
|
X |
400 MHz |
|
XI |
48 MHz |
|
XII |
30 MHz |
|
XIII |
31 MHz |
|
XIV |
30 MHz |
|
XIX |
45 MHz |
|
XX |
41 MHz |
|
XXI |
48 MHz |
|
XXI |
100 MHz |
|
XXV |
80 MHz |
|
XXVI |
45MHz |
b) UTRA/FDD can support both fixed and variable transmit to receive frequency separation.
c) The use of other transmit to receive frequency separations in existing or other frequency bands shall not be precluded.
d) When configured to operate in DC-HSDPA with a single UL frequency, the TX-RX frequency separation in Table 3.0A shall be applied for the serving HS-DSCH cell. For bands XII, XIII and XIV, the TX-RX frequency separation in Table 3.0A shall be the minimum spacing between the UL and either of the DL carriers.
e) When configured to operate on dual cells in both the DL and UL, the TX-RX frequency separation in Table 3.0A shall be applied to the primary UL frequency and DL frequency of the serving HS-DSCH cell, and to the secondary UL frequency and the frequency of the secondary serving HS-DSCH cell respectively.
f) When configured to operate on single/dual band 4C-HSDPA or single band 8C-HSDPA or single band NC-4C-HSDPA with a single UL frequency, the TX-RX frequency separation in Table 3.0A shall be applied for the DL frequency of the serving HS-DSCH cell. When configured to operate on single/dual band 4C-HSDPA or single band 8C-HSDPA or single band NC-4C-HSDPA with dual UL frequencies, the TX-RX frequency separation in Table 3.0A shall be applied to the primary UL frequency and DL frequency of the serving HS-DSCH cell, and to the secondary UL frequency and the frequency of the 1st secondary serving HS-DSCH cell respectively.
g) For bands XII, XIII and XIV, the requirements in TS 25.104 are applicable only for a single uplink carrier frequency, however dual cell uplink operation may be considered in future releases.
h) When configured to operate on dual band dual cell HSDPA or dual band 4C-HSDPA with dual band UL frequencies, the TX-RX frequency separation in Table 3.0A shall be applied to the primary UL frequency and DL frequency of the serving HS-DSCH cell, and to the secondary UL frequency and the frequency of the 1st secondary serving HS-DSCH cell respectively.
3.5 Channel arrangement
3.5.1 Channel spacing
The nominal channel spacing is 5 MHz, but this can be adjusted to optimise performance in a particular deployment scenario.
3.5.2 Channel raster
The channel raster is 200 kHz for all bands, which means that the centre frequency must be an integer multiple of 200 kHz. In addition a number of additional centre frequencies are specified according to table 3.2, which means that the centre frequencies for these channels are shifted 100 kHz relative to the general raster.
3.5.3 Channel number
The carrier frequency is designated by the UTRA Absolute Radio Frequency Channel Number (UARFCN). For each operating Band, the UARFCN values are defined as follows.
Uplink: NU = 5 * (FUL – FUL_Offset), for the carrier frequency range FUL_low FUL FUL_high
Downlink: ND = 5 * (FDL – FDL_Offset), for the carrier frequency range FDL_low FDL FDL_high
For each operating Band, FUL_Offset, FUL_low FUL_high, FDL_Offset,, FDL_lowand FDL_high are defined in Table 3.1 for the general UARFCN. For the additional UARFCN, FUL_Offset, FDL_Offset and the specific FUL and FDL are defined in Table 3.2.
Table 3.1: UARFCN definition (general)
|
Band |
UPLINK (UL) UE transmit, Node B receive |
DOWNLINK (DL) UE receive, Node B transmit |
||||
|---|---|---|---|---|---|---|
|
UARFCN formula offset FUL_Offset [MHz] |
Carrier frequency (FUL) range [MHz] |
UARFCN formula offset FDL_Offset [MHz] |
Carrier frequency (FDL) range [MHz] |
|||
|
FUL_low |
FUL_high |
FDL_low |
FDL_high |
|||
|
I |
0 |
1 922,4 |
1 977,6 |
0 |
2 112,4 |
2 167,6 |
|
II |
0 |
1 852,4 |
1 907,6 |
0 |
1 932,4 |
1 987,6 |
|
III |
1 525 |
1 712,4 |
1 782,6 |
1 575 |
1 807,4 |
1 877,6 |
|
IV |
1 450 |
1 712,4 |
1 752,6 |
1 805 |
2 112,4 |
2 152,6 |
|
V |
0 |
826,4 |
846,6 |
0 |
871,4 |
891,6 |
|
VI |
0 |
832,4 |
837,6 |
0 |
877,4 |
882,6 |
|
VII |
2 100 |
2 502,4 |
2 567,6 |
2 175 |
2 622,4 |
2 687,6 |
|
VIII |
340 |
882,4 |
912,6 |
340 |
927,4 |
957,6 |
|
IX |
0 |
1 752,4 |
1 782,4 |
0 |
1 847,4 |
1 877,4 |
|
X |
1 135 |
1 712,4 |
1 767,6 |
1 490 |
2 112,4 |
2 167,6 |
|
XI |
733 |
1430,4 |
1445,4 |
736 |
1478,4 |
1493,4 |
|
XII |
-22 |
701.4 |
713.6 |
-37 |
731.4 |
743.6 |
|
XIII |
21 |
779.4 |
784.6 |
-55 |
748.4 |
753.6 |
|
XIV |
12 |
790.4 |
795.6 |
-63 |
760.4 |
765.6 |
|
XIX |
770 |
832,4 |
842,6 |
735 |
877,4 |
887,6 |
|
XX |
-23 |
834.4 |
859.6 |
-109 |
793.4 |
818.6 |
|
XXI |
1358 |
1450,4 |
1460,4 |
1326 |
1498,4 |
1508,4 |
|
XXII |
2525 |
3412.4 |
3487.6 |
2580 |
3512.4 |
3587.6 |
|
XXV |
875 |
1852.4 |
1912.6 |
910 |
1932.4 |
1992.6 |
|
XXVI |
-291 |
816.4 |
846.6 |
-291 |
861.4 |
891.6 |
|
XXXII (NOTE 1) |
N/A |
– |
– |
131 |
1454.4 |
1493.6 |
|
NOTE 1: Restricted to UTRA operation when dual band is configured (e.g., DB-DC-HSDPA or dual band 4C-HSDPA) |
||||||
Table 3.2: UARFCN definition (additional channels)
|
Band |
UPLINK (UL) UE transmit, Node B receive |
DOWNLINK (DL) UE receive, Node B transmit |
||
|---|---|---|---|---|
|
UARFCN formula offset FUL_Offset [MHz] |
Carrier frequency [MHz] (FUL) |
UARFCN formula offset FDL_Offset [MHz] |
Carrier frequency [MHz] (FDL) |
|
|
I |
– |
– |
– |
– |
|
II |
1 850,1 |
1 852,5, 1 857,5, 1 862,5, 1 867,5, 1 872,5, 1 877,5, 1 882,5, 1 887,5, 1 892,5, 1 897,5, 1 902,5, 1 907,5 |
1 850,1 |
1 932,5, 1 937,5, 1 942,5, 1 947,5, 1 952,5, 1 957,5, 1 962,5, 1 967,5, 1 972,5, 1 977,5, 1 982,5, 1 987,5 |
|
III |
– |
– |
– |
– |
|
IV |
1 380,1 |
1 712,5, 1 717,5, 1 722,5, 1 727,5, 1 732,5, 1 737,5 1 742,5, 1 747,5, 1 752,5 |
1 735,1 |
2 112,5, 2 117,5, 2 122,5, 2 127,5, 2 132,5, 2 137,5, 2 142,5, 2 147,5, 2 152,5 |
|
V |
670,1 |
826,5, 827,5, 831,5, 832,5, 837,5, 842,5 |
670,1 |
871,5, 872,5, 876,5, 877,5, 882,5, 887,5 |
|
VI |
670,1 |
832,5, 837,5 |
670,1 |
877,5, 882,5 |
|
VII |
2 030,1 |
2 502,5, 2 507,5, 2 512,5, 2 517,5, 2 522,5, 2 527,5, 2 532,5, 2 537,5, 2 542,5, 2 547,5, 2 552,5, 2 557,5, 2 562,5, 2 567,5 |
2 105,1 |
2 622,5, 2 627,5, 2 632,5, 2 637,5, 2 642,5, 2 647,5, 2 652,5, 2 657,5, 2 662,5, 2 667,5, 2 672,5, 2 677,5, 2 682,5, 2 687,5 |
|
VIII |
– |
– |
– |
– |
|
IX |
– |
– |
– |
– |
|
X |
1 075,1 |
1 712,5, 1 717,5, 1 722,5, 1 727,5, 1 732,5, 1 737,5, 1 742,5, 1 747,5, 1 752,5, 1 757,5, 1 762,5, 1 767,5 |
1 430,1 |
2 112,5, 2 117,5, 2 122,5, 2 127,5, 2 132,5, 2 137,5, 2 142,5, 2 147,5, 2 152,5, 2 157,5, 2 162,5, 2 167,5 |
|
XI |
– |
– |
– |
– |
|
XII |
-39.9 |
701.5, 706.5, 707.5, 712.5, 713.5 |
-54.9 |
731.5, 736.5, 737.5, 742.5, 743.5 |
|
XIII |
11.1 |
779.5, 784.5 |
-64.9 |
748.5, 753.5 |
|
XIV |
2.1 |
790.5, 795.5 |
-72.9 |
760.5, 765.5 |
|
XIX |
755,1 |
832,5, 837,5, 842.5 |
720,1 |
877,5, 882,5, 887.5 |
|
XX |
– |
– |
– |
– |
|
XXI |
– |
– |
– |
– |
|
XXII |
– |
– |
– |
– |
|
XXV |
810.1 |
1852.5, 1857.5, 1862.5, 1867.5, 1872.5, 1877.5, 1882.5, 1887.5, 1892.5, 1897.5, 1902.5, 1907.5, 1912.5 |
845.1 |
1932.5, 1937.5, 1942.5, 1947.5, 1952.5, 1957.5, 1962.5, 1967.5, 1972.5, 1977.5, 1982.5, 1987.5, 1992.5 |
|
XXVI |
-325.9 |
816.5, 821.5, 826.5, 827.5, 831.5, 832.5, 836.5, 837.5, 841.5, 842.5, 846.5 |
-325.9 |
861.5, 866.5, 871.5, 872.5, 876.5, 877.5, 881.5, 882.5, 886.5, 887.5, 891.5 |
|
XXXII (NOTE 1) |
N/A |
– |
87.1 |
1454.5, 1459.5, 1464.5, 1469.5, 1474.5, 1479.5, 1484.5, 1489.5 |
|
NOTE 1: Restricted to UTRA operation when dual band is configured (e.g., DB-DC-HSDPA or dual band 4C-HSDPA) |
||||