7 Receiver characteristics

25.1413GPPBase Station (BS) conformance testing (FDD)Release 17TS

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

7.1 General

The requirements in clause 7 are expressed for a single receiver antenna connector. For receivers with antenna diversity, the requirements apply for each receiver antenna connector.

Unless otherwise stated, all tests in this clause shall be performed at the BS antenna connector (test port A) with a full complement of transceivers for the configuration in normal operating conditions. If any external apparatus such as a RX amplifier, a filter or the combination of such devices is used, the tests according to clauses 4.6.2 and/or 4.6.4, depending on the device added, shall be performed to ensure that the requirements are met at test port B.

Figure 7.1: Receiver test ports

For ACS, blocking and intermodulation characteristics, the negative offsets of the interfering signal apply relative to the assigned channel frequency of the lowest carrier frequency used and positive offsets of the interfering signal apply relative to the assigned channel frequency of the highest carrier frequency used.

The BER requirements defined for the receiver characteristics in this clause do not assume HARQ transmissions.

When the BS is configured to receive multiple carriers, all the BER requirements are applicable for each received carrier.

A BS supporting DC-HSUPA receives two cells simultaneously on adjacent carrier frequencies.

A BS supporting DB-DC-HSUPA receives two cells simultaneously in different operating bands.

In all the relevant clauses in this clause all Bit Error Ratio (BER), Residual BER (RBER) and Block Error Ratio (BLER) measurements shall be carried out according to the general rules for statistical testing defined in ITU-T Recommendation O.153 [5] and Annex C.

If external BER measurement is not used then the internal BER calculation shall be used instead. When internal BER calculation is used, the requirements of the verification test according to 7.8 shall be met in advance.

In tests performed with signal generators a synchronization signal may be provided, from the base station to the signal generator, to enable correct timing of the wanted signal.

7.2 Reference sensitivity level

7.2.1 Definition and applicability

The reference sensitivity level is the minimum mean power received at the antenna connector at which the BER shall not exceed the specific value indicated by the minimum requirement.

The test is set up according to Figure B.7 and performed without interfering signal power applied to the BS antenna connector . For duplex operation , the measurement configuration principle is indicated for one duplex branch in Figure B.7. For internal BER calculation an example of the test connection is as shown in figure B.7. The reference point for signal power is at the input of the receiver (antenna connector).

7.2.2 Minimum Requirement

The minimum requirement is in TS 25.104 [1] clause 7.2.

Table 7.1: (void)

7.2.3 Test purpose

To verify that at the BS Reference sensitivity level the BER shall not exceed the specified limit.

7.2.4 Method of testing

7.2.4.1 Initial conditions

Test environment: normal; see clause 4.4.1

RF channels to be tested: B, M and T; see clause 4.8.

The following additional tests shall be performed:

a) On each of B, M and T, the test shall be performed under extreme power supply as defined in clause 4.4.4

NOTE: Tests under extreme power supply also test extreme temperature.

1) Connect BS to be tested to RF signal source.

2) Start transmit 12,2kbps DPCH with reference measurement channel defined in annex A to the BS under test (PN-9 data sequence or longer).

3) Disable TPC function.

7.2.4.2 Procedure

1) Set the base station to transmit a signal according to TM1, clause 6.1.1.1, at manufacturer’s declared rated output power, Prated,c.

2) Calculate BER according to Annex C.

3) Set the test signal mean power as specified in table 7.1A.

4) Measure BER.

In addition, for a multi-band capable BS, the following step shall apply:

5) For multi-band capable BS and single band tests, repeat the steps above per involved band where single carrier test models shall apply with no carrier activated in the other band. For multi-band capable BS with separate antenna connector, the antenna connector not being under test shall be terminated.

7.2.5 Test requirement

The BER measurement result in step 3 of 7.2.4.2 shall not be greater than the limit specified in table 7.1A.

Table 7.1A: BS reference sensitivity levels

BS class	Reference measurement channel data rate	BS reference sensitivity level ( dBm)		BER
BS class	Reference measurement channel data rate	f ≤ 3.0 GHz	3.0 GHz < f ≤ 4.2 GHz	BER
Wide Area BS	12.2 kbps	-120.3	-120.0	BER shall not exceed 0.001
Medium Range BS	12.2 kbps	-110.3	-110.0	BER shall not exceed 0.001
Local Area BS / Home BS	12.2 kbps	-106.3	-106.0	BER shall not exceed 0.001

NOTE: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in clause 4.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in Annex F.

7.3 Dynamic range

7.3.1 Definition and applicability

Receiver dynamic range is the receiver ability to handle a rise of interference in the reception frequency channel. The receiver shall fulfil a specified BER requirement for a specified sensitivity degradation of the wanted signal in the presence of an interfering AWGN signal in the same reception frequency channel.

7.3.2 Minimum Requirement

The minimum requirement is in TS 25.104 [1] clause 7.3

Table 7.2: (void)

7.3.3 Test purpose

The test purpose is to verify the ability of the BS to receive a single-code test signal of maximum with a BER not exceeding a specified limit.

7.3.4 Method of test

7.3.4.1 Initial conditions

Test environment: normal; see clause 4.4.1.

RF channels to be tested: B, M and T; see clause 4.8

1) Connect the test equipment as shown in annex B.

7.3.4.2 Procedure

1) Adjust the signal generator for the wanted signal as specified in Table 7.2A.

2) Adjust the AWGN generator level as specified in Table 7.2A and set the frequency to the same frequency as the tested channel.

3) Measure the BER for the tested service and verify that it is below the specified level.

In addition, for a multi-band capable BS, the following step shall apply:

4) For multi-band capable BS and single band tests, repeat the steps above per involved band, with no carrier activated in the other band. For multi-band capable BS with separate antenna connector, the antenna connector not being under test shall be terminated.

7.3.5 Test Requirements

The BER measurement result in step 3 of 7.3.4.2 shall not be greater than 0,001 using the parameters specified in tables 7.2A.

Table 7.2A: Dynamic range

Parameter	Level Wide Area BS	Level Medium Range BS	Level Local Area / Home BS	Level Home BS¹	Unit
Reference measurement channel data rate	12,2	12.2	12.2	12.2	Kbps
Wanted signal mean power	-89.8	-79.8	-75.8	-55.8	dBm
Interfering AWGN signal	-73	-63	-59	-39	dBm/3.84 MHz
Note 1: For Home BS, this additional requirement ensures the performance is met over a large dynamic range.

7.4 Adjacent Channel Selectivity (ACS)

7.4.1 Definition and applicability

Adjacent channel selectivity (ACS) is a measure of the receiver ability to receive a wanted signal at its assigned channel frequency in the presence of an adjacent channel signal at a given frequency offset from the centre frequency of the assigned channel. ACS is the ratio of the receiver filter attenuation on the assigned channel frequency to the receive filter attenuation on the adjacent channel(s).

The interference signal is offset from the wanted signal by the frequency offset Fuw. The interference signal shall be a W-CDMA signal as specified in Annex I.

7.4.2 Minimum Requirement

The minimum requirement is in TS 25.104 [1] clause 7.4.

Table 7.3: (void)

7.4.3 Test purpose

The test purpose is to verify the ability of the BS receiver filter to suppress interfering signals in the channels adjacent to the wanted channel.

7.4.4 Method of test

7.4.4.1 Initial conditions

Test environment: normal; see clause 4.4.1.

RF channels to be tested for single carrier: B, M and T; see clause 4.8

Base Station RF Bandwidth positions to be tested for multi-carrier: M_RFBW; B_RFBW_T’_RFBW and B’_RFBW_T_RFBW in multi-band operation; see subclause 4.8.1;

1) Set-up the equipment as shown in annex B.

7.4.4.2 Procedure

1) Generate the wanted signal and adjust the ATT1 to set the input level to the base station under test to the level specified in table 7.3A. For a BS supporting multi-carrier operation, generate the wanted signal according to the applicable test configuration (see clause 4.12) using applicable reference measurement channel to the BS under test. Power settings are specified in Table 7.3A.

2) Set-up the interference signal at the adjacent channel frequency and adjust the ATT2 to obtain the specified level of interference signal at the base station input defined in table 7.3A. Note that the interference signal shall have an ACLR of at least 63 dB in order to eliminate the impact of interference signal adjacent channel leakage power on the ACS measurement.

3) Measure the BER of the wanted signal. For a BS supporting multi-carrier operation the BER shall be measured for all relevant carriers specified by the test configuration.

In addition, for a multi-band capable BS with separate antenna connectors, the following steps shall apply:

4) For single band tests, repeat the steps above per involved band where single band test configurations shall apply with no carrier activated in the other band.

The interfering signal shall first be applied on the same port as the wanted signal. The test shall be repeated with the interfering signal applied on the other port (if any) mapped to the same receiver as the wanted signal. Any antenna connector with no signal applied in case of single-band or multi-band test shall be terminated.

5) Repeat step 4) with the wanted signal for the other band(s) applied on the respective port(s).

7.4.5 Test Requirements

For each measured carrier, the BER shall not exceed 0,001 for the parameters specified in table 7.3A.

For multi-carrier BS the ACS requirement is applicable outside the Base Station RF Bandwidth or Maximum Radio Bandwidth. The interfering signal offset is defined relative to the lower/upper Base Station RF Bandwidth edges or Maximum Radio Bandwidth edges.

For a BS operating in non-contiguous spectrum within any operating band, the requirement applies in addition inside any sub-block gap, in case the sub-block gap size is at least 5MHz. The interfering signal offset is defined relative to the lower/upper sub-block edge inside the sub-block gap and is equal to -2.5MHz/+2.5MHz, respectively.

For a BS capable of multi-band operation, the requirement applies in addition inside any Inter RF Bandwidth gap, in case the Inter RF Bandwidth gap size is at least 5MHz. The interfering signal offset is defined relative to lower/upper Base Station RF Bandwidth edges inside the Inter RF Bandwidth gap and is equal to -2.5MHz/+2.5MHz, respectively.

Table 7.3A: Adjacent channel selectivity

Parameter	Level Wide Area BS	Level Medium Range BS	Level Local Area / Home BS	Level Home BS¹	Unit
Reference measurement channel data rate	12.2	12.2	12.2	12.2	kbps
Wanted signal mean power	-115	-105	-101	-91	dBm
Interfering signal mean power	-52	-42	-38	-28	dBm
Fuw (Modulated)	±5	±5	±5	±5	MHz
Note 1: For Home BS, this additional requirement ensures the performance is met over a large dynamic range.

7.5 Blocking characteristics

7.5.1 Definition and applicability

The blocking characteristics are measure of the receiver ability to receive a wanted signal at its assigned channel frequency in the presence of an unwanted interferer on frequencies other than those of the adjacent channels. The interferences are either a WDCMA signal for in-band blocking or a CW signal for out-of-band blocking.

The requirements shall apply to the indicated base station class, depending on which frequency band is used. The test requirements in Tables 7.4N to 7.4Q may be applied for the protection of FDD BS receivers when GSM, DCS, PCS, CDMA, E-UTRA and/or UTRA BS operating in Bands I to XXI are co-located with a UTRA FDD BS.

The additional test requirements in Tables 7.4U and 7.4V may be applied for the protection of FDD BS receivers when a UTRA TDD BS is co-located with a UTRA FDD BS.

7.5.2 Minimum Requirements

The minimum requirement is in TS 25.104 [1] clause 7.5.

Table 7.4A: (void)

Table 7.4B: (void)

Table 7.4C: (void)

Table 7.4D: (void)

Table 7.4E: (void)

Table 7.4F: (void)

Table 7.4G: (void)

Table 7.4H: (void)

Table 7.4J: (void)

Table 7.4J(a): (void)

Table 7.4J(b): (void)

7.5.3 Test purpose

The test stresses the ability of the BS receiver to withstand high-level interference from unwanted signals at frequency offsets of 10 MHz or more, without undue degradation of its sensitivity.

7.5.4 Method of test

7.5.4.1 Initial conditions

Test environment: normal; see clause 4.4.1.

RF channels to be tested for single carrier: M see clause 4.8. The BS shall be configured to operate as close to the centre of the operating band as possible.

Base Station RF Bandwidth positions to be tested for multi-carrier: M_RFBW; B_RFBW_T’_RFBW and B’_RFBW_T_RFBW in multi-band operation; see subclause 4.8.1;

In addition, in multi-band operation:

– For B_RFBW_T’_RFBW, out-of-band blocking testing above the highest operating band may be omitted

– For B’_RFBW_T_RFBW, out-of-band blocking testing below the lowest operating band may be omitted

1) Connect WCDMA signal generator at the assigned channel frequency of the wanted signal and a signal generator to the antenna connector of one Rx port.

2) Transmit a signal from the WCDMA signal generator to the BS. The characteristics of the signal shall be set according to the UL reference measurement channel (12,2 kbit/s) specified in annex A clause A.2.1. The level of the WCDMA signal measured at the BS antenna connector shall be set to the level specified in clause 7.5.5. For a BS supporting multi-carrier operation, generate the wanted signal according to the applicable test configuration (see clause 4.12) using applicable reference measurement channel to the BS under test. Power settings are specified in clause 7.5.5.

3) For BS capable of single carrier operation only, start BS transmission according to TM1, clause 6.1.1.1, at manufacturer’s declared rated output power, Prated,c.

For a BS declared to be capable of multi-carrier operation, set the BS to transmit according to TM1 on all carriers configured, using the applicable test configuration and corresponding power setting for receiver tests, as specified in sub-clause 4.12.

In addition, for a multi-band capable BS with separate antenna connectors, the following steps shall apply:

4) For single band tests, repeat the steps above per involved band where single band test configurations and test models shall apply with no carrier activated in the other band.

5) Repeat step 4) with the wanted signal for the other band(s) applied on the respective port(s).

The transmitter may be turned off for the out-of-band blocker tests when the frequency of the blocker is such that no IM2 or IM3 products fall inside the bandwidth of the wanted signal.

7.5.4.2 Procedure

1) Adjust the signal generators to the type of interfering signals and the frequency offsets as specified in Tables 7.4K to 7.4T . Note that the GMSK modulated interfering signal shall have an ACLR of at least 72 dB in order to eliminate the impact of interference signal adjacent channel leakage power on the blocking characteristics measurement. For the tests defined in Tables 7.4K to 7.4M, the interfering signal shall be at a frequency offset Fuw from the assigned channel frequency of the wanted signal which is given by:

Fuw = ± (n x 1 MHz),

where n shall be increased in integer steps from n = 10 up to such a value that the center frequency of the interfering signal covers the range from 1 MHz to 12,75 GHz.

2) Measure the BER of the wanted signal at the BS receiver. For a BS supporting multi-carrier operation the BER shall be measured for all relevant carriers specified by the test configuration.

7.5.5 Test Requirements

For each measured carrier, the BER shall not exceed 0.001 for the parameters specified in table 7.4K to 7.4V if applicable for the BS under test.

The requirement is applicable outside the Base Station RF Bandwidth or Maximum Radio Bandwidth. The interfering signal offset is defined relative to the lower/upper Base Station RF Bandwith edges or Maximum Radio Bandwidth edges.

For a BS operating in non-contiguous spectrum within any operating band, the blocking requirement applies in addition inside any sub-block gap, in case the sub-block gap size is at least 15MHz. The interfering signal offset is defined relative to the lower/upper sub-block edge inside the sub-block gap and is equal to -7.5MHz/+7.5MHz, respectively.

For a BS operating in non-contiguous spectrum within any operating band, the narrowband blocking requirements in Tables 7.4R-7.4T apply in addition inside any sub-block gap, in case the sub-block gap size is at least 400kHz or 600kHz, depending on the operating band. The interfering signal offset is defined relative to the lower/upper sub-block edge inside the sub-block gap and is equal to -200kHz/+200kHz or -300kHz/+300kHz, respectively.

For a BS capable of multi-band operation, the requirement in the in-band blocking frequency range applies for each supported operating band. The requirement applies in addition inside any Inter RF Bandwidth gap, in case the Inter RF Bandwidth gap size is at least 15MHz. The interfering signal offset is defined relative to lower/upper Base Station RF bandwidth edges inside the Inter RF Bandwidth gap and is equal to -7.5MHz/+7.5MHz, respectively.

For a BS capable of multi-band operation, the requirement in the out-of-band blocking frequency ranges apply for each operating band, with the exception that the in-band blocking frequency ranges of all supported operating bands according to Tables 7.4K – 7.4M shall be excluded from the out-of-band blocking requirement.

For a BS capable of multi-band operation, the narrowband blocking requirement applies in addition inside any Inter RF Bandwidth gap, in case the Inter RF Bandwidth gap size is at least 400kHz or 600kHz, depending on the operating band. The interfering signal offset is defined relative to lower/upper Base Station RF Bandwidth edges inside the Inter RF Bandwidth gap and is equal to -200kHz/+200kHz or -300kHz/+300kHz, respectively.

Table 7.4K: Blocking characteristics for Wide Area BS

Operating Band	Center Frequency of Interfering Signal	Interfering Signal mean power	Wanted Signal mean power	Minimum Offset of Interfering Signal	Type of Interfering Signal
I	1920 ‑ 1980 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1900 ‑ 1920 MHz 1980 ‑ 2000 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz -1900 MHz 2000 MHz ‑ 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
II	1850 ‑ 1910 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1830 ‑ 1850 MHz 1910 ‑ 1930 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1830 MHz 1930 MHz ‑ 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
III	1710 – 1785 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1690 ‑ 1710 MHz 1785 – 1805 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1690 MHz 1805 MHz ‑ 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
IV	1710 – 1755 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1690 ‑ 1710 MHz 1755 – 1775 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1690 MHz 1775 MHz ‑ 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
V	824-849 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	804-824 MHz 849-869 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz – 804 MHz 869 MHz ‑ 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
VI	810 – 830 MHz 840 – 860 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
VI	1 MHz – 810 MHz 860 MHz – 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
VII	2500 – 2570 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	2480 – 2500 MHz 2570 – 2590 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz -2480 MHz 2590 MHz – 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
VIII	880 ‑ 915 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	860 ‑ 880 MHz 915 – 925 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz -860 MHz 925 MHz ‑ 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
IX	1749.9 – 1784.9 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1729.9 – 1749.9 MHz 1784.9 – 1804.9 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz – 1729.9 MHz 1804.9 MHz – 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
X	1710 – 1770 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1690 ‑ 1710 MHz 1770 – 1790 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1690 MHz 1790 MHz ‑ 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
XI	1427.9 – 1447.9 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1407.9 – 1427.9 MHz 1447.9 – 1467.9 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz – 1407.9 MHz 1467.9 MHz – 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
XII	699 – 716 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	679 – 699 MHz 716 – 729 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz – 679 MHz 729 MHz – 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
XIII	777 – 787 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	757 – 777 MHz 787 – 807 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 – 757 MHz 807 MHz – 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
XIV	788 – 798 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	768 – 788 MHz 798 – 818 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 – 768 MHz 818 MHz – 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
XIX	830 – 845 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	810 – 830 MHz 845 – 865 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz – 810 MHz 865 MHz – 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
XX	832 – 862 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	821 – 832 MHz 862 – 882 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz – 821 MHz 882 MHz – 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
XXI	1447.9 – 1462.9 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1427.9 – 1447.9 MHz 1462.9 – 1482.9 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz – 1427.9 MHz 1482.9 MHz – 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
XXII	3410 – 3490 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	3390 – 3410 MHz 3490 – 3510 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz – 3390 MHz 3510 MHz – 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
XXV	1850 ‑ 1915 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1830 ‑ 1850 MHz 1915 ‑ 1930 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1830 MHz 1930 MHz ‑ 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
XXVI	814-849 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	794-814 MHz 849-859 MHz	-40 dBm	-115 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 794 MHz 859 MHz ‑ 12750 MHz	-15 dBm	-115 dBm	⎯	CW carrier
Note : The characteristics of the W-CDMA interference signal are specified in Annex I. NOTE*: For a BS capable of multiband operation, in case of interfering signal that is not in the in-band blocking frequency range of the operating band where the wanted signal is present, and not in an adjacent or overlapping band, the wanted signal mean power is equal to -119.6 dBm.

NOTE: Table 7.4K assumes that two operating bands, where the downlink frequencies (see Table 3.0) of one band would be within the in-band blocking region of the other band, are not deployed in the same geographical area.

Table 7.4L: Blocking characteristics for Medium Range BS

Operating Band	Center Frequency of Interfering Signal	Interfering Signal Level	Wanted Signal mean power	Minimum Offset of Interfering Signal	Type of Interfering Signal
I	1920 ‑ 1980 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1900 ‑ 1920 MHz 1980 ‑ 2000 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz -1900 MHz 2000 MHz ‑ 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
II	1850 ‑ 1910 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1830 ‑ 1850 MHz 1910 ‑ 1930 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1830 MHz 1930 MHz ‑ 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
III	1710 – 1785 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1690 ‑ 1710 MHz 1785 – 1805 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1690 MHz 1805 MHz ‑ 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
IV	1710 – 1755 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1690 ‑ 1710 MHz 1755 – 1775 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1690 MHz 1775 MHz ‑ 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
V	824-849 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	804-824 MHz 849-869 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz – 804 MHz 869 MHz ‑ 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
VI	810 – 830 MHz 840 – 860 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
VI	1 MHz – 810 MHz 860 MHz – 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
VII	2500 – 2570 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	2480 – 2500 MHz 2570 – 2590 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz -2480 MHz 2590 MHz – 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
VIII	880 ‑ 915 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	860 ‑ 880 MHz 915 – 925 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz -860 MHz 925 MHz ‑ 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
IX	1749.9 – 1784.9 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1729.9 – 1749.9 MHz 1784.9 – 1804.9 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz – 1729.9 MHz 1804.9 MHz – 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
X	1710 – 1770 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1690 ‑ 1710 MHz 1770 – 1790 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1690 MHz 1790 MHz ‑ 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
XI	1427.9 – 1447.9 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1407.9 – 1427.9 MHz 1447.9 – 1467.9 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz – 1407.9 MHz 1467.9 MHz – 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
XII	699 – 716 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	679 – 699 MHz 716 – 729 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz – 679 MHz 729 MHz – 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
XIII	777 – 787 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	757 – 777 MHz 787 – 807 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 – 757 MHz 807 MHz – 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
XIV	788 – 798 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	768 – 788 MHz 798 – 818 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 – 768 MHz 818 MHz – 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
XIX	830 – 845 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	810 – 830 MHz 845 – 865 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz – 810 MHz 865 MHz – 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
XX	832 – 862 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	821 – 832 MHz 862 – 882 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz – 821 MHz 882 MHz – 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
XXI	1447.9 – 1462.9 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1427.9 – 1447.9 MHz 1462.9 – 1482.9 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz – 1427.9 MHz 1482.9 MHz – 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
XXII	3410 – 3490 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	3390 – 3410 MHz 3490 – 3510 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz – 3390 MHz 3510 MHz – 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
XXV	1850 ‑ 1915 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1830 ‑ 1850 MHz 1915 ‑ 1930 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1830 MHz 1930 MHz ‑ 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
XXVI	814-849 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	794-814 MHz 849-859 MHz	-35 dBm	-105 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 794 MHz 859 MHz ‑ 12750 MHz	-15 dBm	-105 dBm	⎯	CW carrier
Note : The characteristics of the W-CDMA interference signal are specified in Annex I. NOTE*: For a BS capable of multiband operation, in case of interfering signal that is not in the in-band blocking frequency range of the operating band where the wanted signal is present, and not in an adjacent or overlapping band, the wanted signal mean power is equal to -109.6 dBm.

NOTE: Table 7.4L assumes that two operating bands, where the downlink frequencies (see Table 3.0) of one band would be within the in-band blocking region of the other band, are not deployed in the same geographical area.

Table 7.4M: Blocking characteristics for Local Area / Home BS

Operating Band	Center Frequency of Interfering Signal	Interfering Signal Level	Wanted Signal mean power	Minimum Offset of Interfering Signal	Type of Interfering Signal
I	1920 ‑ 1980 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1900 ‑ 1920 MHz 1980 ‑ 2000 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz -1900 MHz 2000 MHz ‑ 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
II	1850 ‑ 1910 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1830 ‑ 1850 MHz 1910 ‑ 1930 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1830 MHz 1930 MHz ‑ 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
III	1710 – 1785 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1690 ‑ 1710 MHz 1785 – 1805 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1690 MHz 1805 MHz ‑ 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
IV	1710 – 1755 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1690 ‑ 1710 MHz 1755 – 1775 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1690 MHz 1775 MHz ‑ 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
V	824-849 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	804-824 MHz 849-869 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz – 804 MHz 869 MHz ‑ 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
VI	810 – 830 MHz 840 – 860 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
VI	1 MHz – 810 MHz 860 MHz – 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
VII	2500 – 2570 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	2480 – 2500 MHz 2570 – 2590 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz -2480 MHz 2590 MHz – 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
VIII	880 ‑ 915 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	860 ‑ 880 MHz 915 – 925 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz -860 MHz 925 MHz ‑ 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
IX	1749.9 – 1784.9 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1729.9 – 1749.9 MHz 1784.9 – 1804.9 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz – 1729.9 MHz 1804.9 MHz – 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
X	1710 – 1770 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1690 ‑ 1710 MHz 1770 – 1790 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1690 MHz 1790 MHz ‑ 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
XI	1427.9 – 1447.9 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1407.9 – 1427.9 MHz 1447.9 – 1467.9 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz – 1407.9 MHz 1467.9 MHz – 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
XII	699 – 716 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	679 – 699 MHz 716 – 729 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz – 679 MHz 729 MHz – 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
XIII	777 – 787 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	757 – 777 MHz 787 – 807 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 – 757 MHz 807 MHz – 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
XIV	788 – 798 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	768 – 788 MHz 798 – 818 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 – 768 MHz 818 MHz – 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
XIX	830 – 845 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	810 – 830 MHz 845 – 865 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz – 810 MHz 865 MHz – 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
XX	832 – 862 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	821 – 832 MHz 862 – 882 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz – 821 MHz 882 MHz – 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
XXI	1447.9 – 1462.9 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1427.9 – 1447.9 MHz 1462.9 – 1482.9 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz – 1427.9 MHz 1482.9 MHz – 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
XXII	3410 – 3490 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	3390 – 3410 MHz 3490 – 3510 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz – 3390 MHz 3510 MHz – 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
XXV	1850 ‑ 1915 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1830 ‑ 1850 MHz 1915 ‑ 1930 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 1830 MHz 1930 MHz ‑ 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
XXVI	814-849 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	794-814 MHz 849-859 MHz	-30 dBm	-101 dBm	±10 MHz	WCDMA signal *
	1 MHz ‑ 794 MHz 859 MHz ‑ 12750 MHz	-15 dBm	-101 dBm	⎯	CW carrier
Note : The characteristics of the W-CDMA interference signal are specified in Annex I. NOTE*: For a BS capable of multiband operation, in case of interfering signal that is not in the in-band blocking frequency range of the operating band where the wanted signal is present, and not in an adjacent or overlapping band, the wanted signal mean power is equal to -105.6 dBm.

NOTE: Table 7.4M assumes that two operating bands, where the downlink frequencies (see Table 3.0) of one band would be within the in-band blocking region of the other band, are not deployed in the same geographical area.

Table 7.4N: Blocking performance requirement for Wide Area BS when co-located with BS in other bands.

Co-located BS type	Center Frequency of Interfering Signal	Interfering Signal mean power	Wanted Signal mean power	Type of Interfering Signal
Macro GSM900	921 – 960 MHz	+16 dBm	-115 dBm	CW carrier
Macro DCS1800	1805 – 1880 MHz	+16 dBm	-115 dBm	CW carrier
Macro PCS1900	1930 – 1990 MHz	+16 dBm	-115 dBm	CW carrier
Macro GSM850 or CDMA850	869 – 894 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band I or E-UTRA Band 1 or NR band n1	2110 – 2170 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band II or E-UTRA Band 2 or NR band n2	1930 – 1990 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band III or E-UTRA Band 3 or NR band n3	1805 – 1880 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band IV or E-UTRA Band 4	2110 – 2155 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band V or E-UTRA Band 5 or NR band n5	869 – 894 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band VI or E-UTRA Band 6	875 – 885 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band VII or E-UTRA Band 7 or NR band n7	2620 – 2690 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band VIII or E-UTRA Band 8 or NR band n8	925 – 960 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band IX or E-UTRA Band 9	1844.9 – 1879.9 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band X or E-UTRA Band 10	2110 – 2170 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band XI or E-UTRA Band 11	1475.9 – 1495.9 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band XII or E-UTRA Band 12 or NR band n12	729 – 746 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band XIII or E-UTRA Band 13	746 – 756 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band XIV or E-UTRA Band 14	758 – 768 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 17	734 – 746 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 18	860 – 875 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band XIX or E-UTRA Band 19	875 – 890 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band XX or E-UTRA Band 20 or NR band n20	791 – 821 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band XXI or E-UTRA Band 21	1495.9 – 1510.9 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band XXII or E-UTRA Band 22	3510 – 3590 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 23	2180 – 2200 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 24	1525 – 1559 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band XXV or E-UTRA Band 25 or NR band n25	1930 – 1995 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band XXVI or E-UTRA Band 26	859 – 894 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 27	852 – 869 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 28 or NR band n28	758 – 803 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 29	717 – 728 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 30	2350 – 2360 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 31	462.5 – 467.5 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA-FDD Band XXXII or E-UTRA Band 32	1452 – 1496 MHz (NOTE 3)	+ 16 dBm	-115 dBm	CW carrier
WA UTRA TDD Band a) or E-UTRA Band 33	1900 – 1920 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA TDD Band a) or E-UTRA Band 34 or NR band n34	2010 – 2025 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA TDD Band b) or E-UTRA Band 35	1850 – 1910 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA TDD Band b) or E-UTRA Band 36	1930 – 1990 MHz	+16 dBm	-115 dBm	CW carrie
WA UTRA TDD Band c) or E-UTRA Band 37	1910 – 1930 MHz	+16 dBm	-115 dBm	CW carrie
WA UTRA TDD Band d) or E-UTRA Band 38 or NR band n38	2570 – 2620 MHz	+16 dBm	-115 dBm	CW carrier
WA UTRA TDD Band f) or E-UTRA Band 39 or NR band n39	1880 – 1920 MHz	+16 dBm	-115 dBm	CW carrie
WA UTRA TDD Band e) E-UTRA Band 40 or NR band n40	2300 – 2400 MHz	+16 dBm	-115 dBm	CW carrie
WA E-UTRA Band 41 or NR band n41	2496 – 2690 MHz	+16 dBm	-115 dBm	CW carrie
WA E-UTRA Band 42	3400 – 3600 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 43	3600 – 3800 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 44	703 – 803 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 45	1447 – 1467 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 48	3550 – 3700 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 50 or NR band n50	1432 – 1517 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 52	3300 – 3400 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 65	2110 – 2200 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 66 or NR band n66	2110 – 2200 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 67	738 – 758 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 68	753 – 783 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 69	2570 – 2620 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 70 or NR band n70	1995 – 2020 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 71 or NR band n71	617 – 652 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 72	461 – 466 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 73	460 – 465 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 74 or NR band n74	1475 – 1518 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 75 or NR band n75	1432 – 1517 MHz	+16 dBm	-115 dBm	CW carrier
WA NR band n77	3300 – 4200 MHz	+16 dBm	-115 dBm	CW carrier
WA NR band n78	3300 – 3800 Mz	+16 dBm	-115 dBm	CW carrier
WA NR band n79	4400 – 5000 MHz	+16 dBm	-115 dBm	CW carrier
WA E-UTRA Band 85	728 – 746 MHz	+16 dBm	-115 dBm	CW carrier
NOTE 1: Except for a BS operating in Band XIII, these requirements do not apply when the interfering signal falls within any of the supported uplink operating band or in the 10 MHz immediately outside any of th supported e uplink operating band. For a BS operating in band XIII the requirements do not apply when the interfering signal falls within the frequency range 768-797 MHz. NOTE 2: Some combinations of bands may not be possible to co-site based on the requirements above. The current state-of-the-art technology does not allow a single generic solution for co-location of UTRA FDD with UTRA TDD or E-UTRA TDD on adjacent frequencies for 30dB BS-BS minimum coupling loss. However, there are certain site-engineering solutions that can be used. These techniques are addressed in TR 25.942 [4]. NOTE 3: For a BS operating in band XI or XXI, this requirement applies for interfering signal within the frequency range 1475.9-1495.9 MHz.

Table 7.4P: Blocking performance requirement for Medium Range BS when co-located with BS in other bands.

Co-located BS type	Center Frequency of Interfering Signal	Interfering Signal mean power	Wanted Signal mean power	Type of Interfering Signal
Micro GSM900	921 – 960 MHz	-3 dBm	-105 dBm	CW carrier
Micro DCS1800	1805 – 1880 MHz	+5 dBm	-105 dBm	CW carrier
Micro PCS1900	1930 – 1990 MHz	+5 dBm	-105 dBm	CW carrier
Micro GSM850	869 – 894 MHz	-3 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band I or E-UTRA Band 1 or NR band n1	2110 – 2170 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band II or E-UTRA Band 2 or NR band n2	1930 – 1990 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band III or E-UTRA Band 3 or NR band n3	1805 – 1880 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band IV or E-UTRA Band 4	2110 – 2155 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band V or E-UTRA Band 5 or NR band n5	869 – 894 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band VI or E-UTRA Band 6	875 – 885 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band VII or E-UTRA Band 7 or NR band n7	2620 – 2690 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band VIII or E-UTRA Band 8 or NR band n8	925 – 960 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band IX or E-UTRA Band 9	1844.9 – 1879.9 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band X or E-UTRA Band 10	2110 – 2170 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band XI or E-UTRA Band 11	1475.9 – 1495.9 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band XII or E-UTRA Band 12 or NR band n12	729 – 746 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band XIII or E-UTRA Band 13	746 – 756 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band XIV or E-UTRA Band 14	758 – 768 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 17	734 – 746 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 18	860 – 875 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band XIX or E-UTRA Band 19	875 – 890 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band XX or E-UTRA Band 20 or NR band n20	791 – 821 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band XXI or E-UTRA Band 21	1495.9 – 1510.9 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band XXII or E-UTRA Band 22	3510 – 3590 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 23	2180 – 2200 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 24	1525 – 1559 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band XXV or E-UTRA Band 25 or NR band n25	1930 – 1995 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band XXVI or E-UTRA Band 26	859 – 894 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 27	852 – 869 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 28 or NR band n28	758 – 803 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 29	717 – 728 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 30	2350 – 2360 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 31	462.5 – 467.5 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA-FDD Band XXXII or E-UTRA Band 32	1452 – 1496 MHz (NOTE 3)	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 33	1900 – 1920 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 34 or NR band n34	2010 – 2025 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA TDD Band b) or E-UTRA Band 35	1850 – 1910 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA TDD Band b) or E-UTRA Band 36	1930 – 1990 MHz	+8 dBm	-105 dBm	CW carrier
MR UTRA TDD Band c) or E-UTRA Band 37	1910 – 1930 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 38 or NR band n38	2570 – 2620 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 39 or NR band n39	1880 – 1920 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 40 or NR band n40	2300 – 2400 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 41 or NR band n41	2496 – 2690 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 42	3400 – 3600 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 43	3600 – 3800 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 44	703 – 803 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 45	1447 – 1467 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 46	5150 – 5925 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 48	3550 – 3700 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 50 or NR band n50	1432 – 1517 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 52	3300 – 3400 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 53	2483.5 – 2495 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 65	2110 – 2200 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 66 or NR band n66	2110 – 2200 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 67	738 – 758 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 68	753 – 783 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 69	2570 – 2620 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 70 or NR band n70	1995 – 2020 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 71 or NR band n71	617 – 652 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 72	461 – 466 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 73	460 – 465 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 74 or NR band n74	1475 – 1518 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 75 or NR band n75	1432 – 1517 MHz	+8 dBm	-105 dBm	CW carrier
MR NR band n77	3300 – 4200 MHz	+8 dBm	-105 dBm	CW carrier
MR NR band n78	3300 – 3800 MHz	+8 dBm	-105 dBm	CW carrier
MR NR band n79	4400 – 5000 MHz	+8 dBm	-105 dBm	CW carrier
MR E-UTRA Band 85	728 – 746 MHz	+8 dBm	-105 dBm	CW carrier
NOTE 1: Except for a BS operating in Band XIII, these requirements do not apply when the interfering signal falls within any of the supported uplink operating band or in the 10 MHz immediately outside any of the supported uplink operating band. For a BS operating in band XIII the requirements do not apply when the interfering signal falls within the frequency range 768-797 MHz. NOTE 2: Some combinations of bands may not be possible to co-site based on the requirements above. The current state-of-the-art technology does not allow a single generic solution for co-location of UTRA FDD with UTRA TDD or E-UTRA TDD on adjacent frequencies for 30dB BS-BS minimum coupling loss. However, there are certain site-engineering solutions that can be used. These techniques are addressed in TR 25.942 [4]. NOTE 3: For a BS operating in band XI or XXI, this requirement applies for interfering signal within the frequency range 1475.9-1495.9 MHz.

Table 7.4Q: Blocking performance requirement for Local Area BS when co-located with BS in other bands.

Co-located BS type	Center Frequency of Interfering Signal	Interfering Signal mean power	Wanted Signal mean power	Type of Interfering Signal
Pico GSM900	921 – 960 MHz	-7 dBm	-101 dBm	CW carrier
Pico DCS1800	1805 – 1880 MHz	-4 dBm	-101 dBm	CW carrier
Pico PCS1900	1930 – 1990 MHz	-4 dBm	-101 dBm	CW carrier
Pico GSM850	869 – 894 MHz	-7 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band I or E-UTRA Band 1 or NR band n1	2110 – 2170 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band II or E-UTRA Band 2 or NR band n2	1930 – 1990 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band III or E-UTRA Band 3 or NR band n3	1805 – 1880 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band IV or E-UTRA Band 4	2110 – 2155 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band V or E-UTRA Band 5 or NR band n5	869 – 894 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band VI or E-UTRA Band 6	875 – 885 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band VII or E-UTRA Band 7 or NR band n7	2620 – 2690 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band VIII or E-UTRA Band 8 or NR band n8	925 – 960 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band IX or E-UTRA Band 9	1844.9 – 1879.9 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band X or E-UTRA Band 10	2110 – 2170 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band XI or E-UTRA Band 11	1475.9 – 1495.9 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band XII or E-UTRA Band 12 or NR band n12	729 – 746 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band XIII or E-UTRA Band 13	746 – 756 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band XIV or E-UTRA Band 14	758 – 768 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 17	734 – 746 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 18	860 – 875 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band XIX or E-UTRA Band 19	875 – 890 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band XX or E-UTRA Band 20 or NR band n20	791 – 821 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band XXI or E-UTRA Band 21	1495.9 – 1510.9 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band XXII or E-UTRA Band 22	3510 – 3590 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 23	2180 – 2200 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 24	1525 – 1559 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band XXV or E-UTRA Band 25 or NR band n25	1930 – 1995 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA-FDD Band XXVI or E-UTRA Band 26	859 – 894 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 27	852 – 869 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 28 or NR band n28	758 – 803 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 29	717 – 728 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 30	2350 – 2360 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 31	462.5 – 467.5 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA_FDD Band XXXII or E-UTRA Band 32	1452 – 1496 MHz (NOTE 3)	-6 dBm	-101 dBm	CW carrier
LA UTRA TDD Band a) or E-UTRA Band 33	1900 – 1920 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA TDD Band a) or E-UTRA Band 34 or NR band n34	2010 – 2025 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA TDD Band b) or E-UTRA Band 35	1850 – 1910 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA TDD Band b) or E-UTRA Band 36	1930 – 1990 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA TDD Band c) or E-UTRA Band 37	1910 – 1930 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA TDD Band d) or E-UTRA Band 38 or NR band n38	2570 – 2620 MHz	-4 dBm	-101 dBm	CW carrier
LA UTRA TDD Band f) or E-UTRA Band 39 or NR band n39	1880 – 1920 MHz	-6 dBm	-101 dBm	CW carrier
LA UTRA TDD Band e) E-UTRA Band 40 or NR band n40	2300 – 2400 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 41 or NR band n41	2496 – 2690 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 42	3400 – 3600 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 43	3600 – 3800 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 44	703 – 803 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 45	1447 – 1467 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 46	5150 – 5925 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 48	3550 – 3700 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 49	3550 – 3700 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 50 or NR band n50	1432 – 1517 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 51 or NR band n51	1427 – 1432 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 52	3300 – 3400 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 53	2483.5 – 2495 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 65	2110 – 2200 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 66 or NR band n66	2110 – 2200 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 67	738 – 758 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 68	753 – 783 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 69	2570 – 2620 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 70 or NR band n70	1995 – 2020 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 71 or NR band n71	617 – 652 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 72	461 – 466 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 73	460 – 465 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 74 or NR band n74	1475 – 1518 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 75 or NR band n75	1432 – 1517 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 76 or NR band n76	1427 – 1432 MHz	-6 dBm	-101 dBm	CW carrier
LA NR band n77	3300 – 4200 MHz	-6 dBm	-101 dBm	CW carrier
LA NR band n78	3300 – 3800 MHz	-6 dBm	-101 dBm	CW carrier
LA NR band n79	4400 – 5000 MHz	-6 dBm	-101 dBm	CW carrier
LA E-UTRA Band 85	728 – 746 MHz	-6 dBm	-101 dBm	CW carrier
NOTE 1: Except for a BS operating in Band XIII, these requirements do not apply when the interfering signal falls within any of the supported uplink operating band or in the 10 MHz immediately outside any of the supported the uplink operating band. For a BS operating in band XIII the requirements do not apply when the interfering signal falls within the frequency range 768-797 MHz. NOTE 2: Some combinations of bands may not be possible to co-site based on the requirements above. The current state-of-the-art technology does not allow a single generic solution for co-location of UTRA FDD with UTRA TDD or E-UTRA TDD on adjacent frequencies for 30dB BS-BS minimum coupling loss. However, there are certain site-engineering solutions that can be used. These techniques are addressed in TR 25.942 [4]. NOTE 3: For a BS operating in band XI or XXI, this requirement applies for interfering signal within the frequency range 1475.9-1495.9 MHz.

Table 7.4R: Blocking performance requirement (narrowband) for Wide Area BS

Operating Band	Center Frequency of Interfering Signal	Interfering Signal mean power	Wanted Signal mean power	Minimum Offset of Interfering Signal	Type of Interfering Signal
II	1850 ‑ 1910 MHz	– 47 dBm	-115 dBm	±2.7 MHz	GMSK modulated*
III	1710 – 1785 MHz	– 47 dBm	-115 dBm	±2.8 MHz	GMSK modulated*
IV	1710 – 1755 MHz	– 47 dBm	-115 dBm	±2.7 MHz	GMSK modulated*
V	824 – 849 MHz	– 47 dBm	-115 dBm	±2.7 MHz	GMSK modulated*
VIII	880 – 915 MHz	– 47 dBm	-115 dBm	±2.8 MHz	GMSK modulated*
X	1710 – 1770 MHz	– 47 dBm	-115 dBm	±2.7 MHz	GMSK modulated*
XII	699 – 716 MHz	– 47 dBm	-115 dBm	±2.7 MHz	GMSK modulated*
XIII	777 – 787 MHz	– 47 dBm	-115 dBm	±2.7 MHz	GMSK modulated*
XIV	788 – 798 MHz	– 47 dBm	-115 dBm	±2.7 MHz	GMSK modulated*
XXV	1850 ‑ 1915 MHz	– 47 dBm	-115 dBm	±2.7 MHz	GMSK modulated*
XXVI	814-849 MHz	-47 dBm	-115 dBm	±2.7 MHz	GMSK modulated*
Note *: GMSK modulation as defined in TS 45.004 [12].

Table 7.4S: Blocking performance requirement (narrowband) for Medium range BS

Operating Band	Center Frequency of Interfering Signal	Interfering Signal mean power	Wanted Signal mean power	Minimum Offset of Interfering Signal	Type of Interfering Signal
II	1850 ‑ 1910 MHz	– 42 dBm	-105 dBm	±2.7 MHz	GMSK modulated*
III	1710 – 1785 MHz	– 42 dBm	-105 dBm	±2.8 MHz	GMSK modulated*
IV	1710 – 1755 MHz	– 42 dBm	-105 dBm	±2.7 MHz	GMSK modulated*
V	824 – 849 MHz	– 42 dBm	-105 dBm	±2.7 MHz	GMSK modulated*
VIII	880 – 915 MHz	– 42 dBm	-105 dBm	±2.8 MHz	GMSK modulated*
X	1710 – 1770 MHz	– 42 dBm	-105 dBm	±2.7 MHz	GMSK modulated*
XII	699 – 716 MHz	– 42 dBm	-105 dBm	±2.7 MHz	GMSK modulated*
XIII	777 – 787 MHz	– 42 dBm	-105 dBm	±2.7 MHz	GMSK modulated*
XIV	788 – 798 MHz	– 42 dBm	-105 dBm	±2.7 MHz	GMSK modulated*
XXV	1850 ‑ 1915 MHz	– 42 dBm	-105 dBm	±2.7 MHz	GMSK modulated*
XXVI	814-849 MHz	– 42 dBm	-105 dBm	±2.7 MHz	GMSK modulated*
Note *: GMSK modulation as defined in TS 45.004 [12].

Table 7.4T: Blocking performance requirement (narrowband) for Local Area / Home BS

Operating Band	Center Frequency of Interfering Signal	Interfering Signal mean power	Wanted Signal mean power	Minimum Offset of Interfering Signal	Type of Interfering Signal
II	1850 ‑ 1910 MHz	– 37 dBm	-101 dBm	±2.7 MHz	GMSK modulated*
III	1710 – 1785 MHz	– 37 dBm	-101 dBm	±2.8 MHz	GMSK modulated*
IV	1710 – 1755 MHz	– 37 dBm	-101 dBm	±2.7 MHz	GMSK modulated*
V	824 – 849 MHz	– 37 dBm	-101 dBm	±2.7 MHz	GMSK modulated*
VIII	880 – 915 MHz	– 37 dBm	-101 dBm	±2.8 MHz	GMSK modulated*
X	1710 – 1770 MHz	– 37 dBm	-101 dBm	±2.7 MHz	GMSK modulated*
XII	699 – 716 MHz	– 37 dBm	-101 dBm	±2.7 MHz	GMSK modulated*
XIII	777 – 787 MHz	– 37 dBm	-101 dBm	±2.7 MHz	GMSK modulated*
XIV	788 – 798 MHz	– 37 dBm	-101 dBm	±2.7 MHz	GMSK modulated*
XXV	1850 – 1915 MHz	– 37 dBm	-101 dBm	±2.7 MHz	GMSK modulated*
XXVI	814-849 MHz	– 37 dBm	-101 dBm	±2.7 MHz	GMSK modulated*
Note *: GMSK modulation as defined in TS 45.004 [12].

Table 7.4U: Void

Table 7.4V: Void

NOTE 1: If the above Test Requirement differs from the Minimum Requirement then the Test Tolerance applied for this test is non-zero. The Test Tolerance for this test is defined in clause 4.2 and the explanation of how the Minimum Requirement has been relaxed by the Test Tolerance is given in Annex F.

NOTE 2: Annex C describes the procedure for BER tests taking into account the statistical consequence of frequent repetition of BER measurements within the blocking test . The consequence is: a DUT exactly on the limit may fail due to the statistical nature 2.55 times(mean value) in 12750 BER measurements using the predefined wrong decision probability of 0.02%. If the fail cases are ≤12, it is allowed to repeat the fail cases 1 time before the final verdict.

7.6 Intermodulation characteristics

7.6.1 Definition and applicability

Third and higher order mixing of the two interfering RF signals can produce an interfering signal in the band of the desired channel. Intermodulation response rejection is a measure of the capability of the receiver to receive a wanted signal on its assigned channel frequency in the presence of two or more interfering signals which have a specific frequency relationship to the wanted signal.

7.6.2 Minimum Requirement

The minimum requirement is in TS 25.104 [1] clause 7.6.

7.5(a): (void)

Table 7.5(b): (void)

7.6.3 Test purpose

The test purpose is to verify the ability of the BS receiver to inhibit the generation of intermodulation products in its non-linear elements caused by the presence of two high-level interfering signals at frequencies with a specific relationship to the frequency of the wanted signal.

7.6.4 Method of test

7.6.4.1 Initial conditions

Test environment: normal; see clause 4.4.1.

RF channels to be tested for single carrier: B, M and T; see clause 4.8

Base Station RF Bandwidth positions to be tested for multi-carrier: B_RFBW, M_RFBW and T_RFBW; B_RFBW_T’_RFBW and B’_RFBW_T_RFBW in multi-band operation; see subclause 4.8.1;

1) Set-up the equipment as shown in annex B.

7.6.4.2 Procedures

1) Generate the wanted signal (reference signal) and adjust ATT1 to set the signal level to the BS under test to the level specified in table 7.5A. For a BS supporting multi-carrier operation, generate the wanted signal according to the applicable test configuration (see clause 4.12) using applicable reference measurement channel to the BS under test. Power settings are specified in Table 7.5A.

2) Adjust the signal generators to the type of interfering signals and the frequency offsets as specified in Tables 7.5A(a) and 7.5A(b). Note that the GMSK modulated interfering signal shall have an ACLR of at least 72 dB in order to eliminate the impact of interference signal adjacent channel leakage power on the intermodulation characteristics measurement.

3) Adjust the ATT2 and ATT3 to obtain the specified level of interference signal at the BS input.

4) Measure the BER of the wanted signal. For a BS supporting multi-carrier operation the BER shall be measured for all relevant carriers specified by the test configuration.

In addition, for a multi-band capable BS with separate antenna connectors, the following steps shall apply:

5) For single band tests, repeat the steps above per involved band where single band test configurations shall apply with no carrier activated in the other band.

6) Repeat step 5) with the wanted signal for the other band(s) applied on the respective port(s).

7.6.5 Test requirements

For each measured carrier, the BER shall not exceed 0,001 for the parameters specified in tables 7.5A(a) and 7.5(b).

The intermodulation performance shall be met when the following signals are applied to the receiver.

For a BS operating in non-contiguous spectrum within any operating band, the narrowband intermodulation requirement applies in addition inside any sub-block gap, in case the sub-block gap size is at least 6.8MHz. The CW interfering signal offset is defined relative to the lower/upper sub-block edge inside the sub-block gap and is equal to -1MHz/+1MHz, respectively. The GMSK modulated interfering signal offset is defined relative to the lower/upper sub-block edge inside the sub-block gap and is equal to -3.4MHz/+3.4MHz, respectively. The requirement applies separately for both sub-blocks.

For a BS capable of multi-band operation, the narrowband intermodulation requirement applies in addition inside any Inter RF Bandwidth gap, in case the Inter RF Bandwidth gap size is at least 6.8MHz. The CW interfering signal offset is defined relative to lower/upper Base Station RF Bandwidth edges inside the Inter RF Bandwidth gap and is equal to -1MHz/+1MHz, respectively. The GMSK modulated interfering signal offset is defined relative to lower/upper Base Station RF Bandwidth edges inside the Inter RF Bandwidth gap and is equal to -3.4MHz/+3.4MHz, respectively.

Table 7.5A(a): Intermodulation performance requirement

Operating Band	Type of Signal	Offset	Signal mean power
			Wide Area BS	Medium Range BS	Local Area / Home BS
All bands	Wanted signal	–	-115 dBm	‑105 dBm	-101 dBm
	CW signal	±10 MHz	-48 dBm	-44 dBm	-38 dBm
	WCDMA signal *	±20 MHz	-48 dBm	-44 dBm	-38 dBm
Note*: The characteristics of the W-CDMA interference signal are specified in Annex I.

Table 7.5A(b): Narrowband intermodulation performance requirement

Operating band	Type of Signal	Offset	Signal mean power
Operating band	Type of Signal	Offset	Wide Area BS	Medium Range BS	Local Area / Home BS
II, III, IV, V, VIII, X, XII, XIII, XIV, XXV, XXVI	Wanted signal	–	-115 dBm	‑105 dBm	-101 dBm
	CW signal	±3.5 MHz	– 47 dBm	– 43 dBm	-37 dBm
	GMSK modulated*	±5.9 MHz	– 47 dBm	– 43 dBm	-37 dBm
Note *: GMSK as defined in TS 45.004 [12].

7.7 Spurious Emissions

7.7.1 Definition and applicability

The spurious emission power is the power of the emissions generated or amplified in a receiver that appears at the BS antenna connector. The requirements apply to all BS with separate RX and TX antenna port. The test shall be performed when both TX and RX are on with the TX port terminated.

For all BS with common RX and TX antenna port the transmitter spurious emission as specified in clause 6.5.3 is valid.

7.7.2 Minimum Requirements

The minimum requirement is in TS 25.104 [1] clause 7.7.

Table 7.6(a): (void)

Table 7.6(b): (void)

7.7.3 Test purpose

The test purpose is to verify the ability of the BS to limit the interference caused by receiver spurious emissions to other systems.

7.7.4 Method of test

7.7.4.1 Initial conditions

Test environment: normal; see clause 4.4.1.

RF channels to be tested for single carrier: M. See clause 4.8

Base Station RF Bandwidth positions to be tested for multi-carrier: M_RFBW; B_RFBW_T’_RFBW and B’_RFBW_T_RFBW in multi-band operation; see sub-clause 4.8.1;

1) Connect a measurement receiver to the BS antenna connector as shown in annex B.

7.7.4.2 Procedure

1) For BS capable of single carrier operation only, start BS transmission according to TM1, clause 6.1.1.1, at manufacturer’s declared rated output power, Prated,c.

2) Set measurement equipment parameters as specified in table 7.7.

3) Measure the spurious emissions over each frequency range described in clause 7.7.2.

Table 7.7: Measurement equipment parameters

Measurement Band width	3.84 MHz (Root raised cosine,0.22) / 100 kHz/ 1MHz (note)
Sweep frequency range	30 MHz to 12.75GHz
Detection	True RMS
NOTE: As defined in clause 7.7.2.

In addition, for a multi-band capable BS, the following step shall apply:

4) For multi-band capable BS and single band tests, repeat the steps above per involved band where single band test configurations and test models shall apply with no carrier activated in the other band. For multi-band capable BS with separate antenna connector, the antenna connector not being under test in case of single-band or multi-band test shall be terminated.

7.7.5 Test requirements

All measured spurious emissions, derived in step (3) and (4), shall be within requirement limits as specified in Tables 7.7A. For BS capable of multi-band operation, the exclusions and conditions in the Note column of Table 7.7A apply for each supported operating band. For BS capable of multi-band operation where multiple bands are mapped on separate antenna connectors, the single-band requirements apply and the excluded frequency range is only applicable for the operating band supported on each antenna connector.

Table 7.7A(a): Spurious emission minimum requirement

Band	Maximum level	Measurement Bandwidth	Note
30 MHz ‑ 1 GHz	-57 dBm	100 kHz	With the exception of frequencies between 12.5 MHz below the first carrier frequency and 12.5 MHz above the last carrier frequency transmitted used by the BS.
1 GHz ‑ 12.75 GHz	-47 dBm	1 MHz	With the exception of frequencies between 12.5 MHz below the first carrier frequency and 12.5 MHz above the last carrier frequency transmitted used by the BS.
12.75 GHz ‑ 5^th harmonic of the upper frequency edge of the UL operating band in GHz	-47 dBm	1 MHz	NOTE 1: Applies only for Band XXII

In addition to the requirements in Table 7.7A(a), the power of any spurious emission shall not exceed the levels specified for Protection of the BS receiver of own or different BS in clause 6.5.3.7.3 and for Co-existence with other systems in the same geographical area in clause 6.5.3.7.4 and 6.5.3.7.8.1. In addition, the co-existence requirements for co-located base stations specified in clause 6.5.3.7.5 and 6.5.3.7.8.2 may also be applied.

Table 7.7A(b): Void

Table 7.7A(c): Void

7.8 Verification of the internal BER calculation

7.8.1 Definition and applicability

Base Station System with internal BER calculation can synchronise it’s receiver to known pseudo-random data sequence and calculates bit error ratio from the received data. This test is performed only if Base Station System has this kind of feature. This test is performed by feeding measurement signal with known BER to the input of the receiver. Locations of the erroneous bits shall be randomly distributed within a frame. Erroneous bits shall be inserted to the data bit stream as shown in figure 7.1.

Figure 7.1: BER insertion into the information data

7.8.2 Minimum Requirement

BER indicated by the Base Station System shall be within ±10% of the BER generated by the RF signal source. Measurement shall be performed for the measurement signal specified in table 7.8.

Table 7.8

Transport channel combination	Data rate	BER
DPCH	12,2 kbps	0,01

7.8.3 Test purpose

To verify that the internal BER calculation accuracy shall meet requirements for conformance testing.

7.8.4 Method of test

7.8.4.1 Initial conditions

Test environment: normal; see clause 4.4.1.

RF channels to be tested: B, M and T; see clause 4.8

1) Connect BS RX antenna connector to the RF signal source or UE simulator as shown in annex B.

2) Set correct signal source parameters as specified in table 7.9.

Table 7.9

Parameter	Level/status	Unit
UL signal level	Ref.sens +10 dB	dBm/3,84 MHz
Data sequence	PN9 or longer

7.8.4.2 Procedure

1) Measure the BER of received signal from RF signal source or UE simulator to BS antenna connector.

2) BER calculation shall be done at least over 50 000 bits

In addition, for a multi-band capable BS, the following step shall apply:

3) For multi-band capable BS and single band tests, repeat the steps above per involved band, with no carrier activated in the other band. For multi-band capable BS with separate antenna connector, the antenna connector not being under test shall be terminated.

7.8.5 Test Requirement

BER indicated by the Base Station System shall be within requirement as specified in clause 7.8.2.