6.6.2 Operating band unwanted emissions

37.1413GPPMulti-Standard Radio (MSR) Base Station (BS) conformance testingNR, E-UTRA, UTRA and GSM/EDGERelease 17TS

6.6.2.1 Definition and applicability

The Operating band unwanted emission limits are defined from ΔfOBUE below the lowest frequency of each supported downlink operating band to the lower Base Station RF Bandwidth edge located at FBW RF,low and from the upper Base Station RF Bandwidth edge located at FBW RF,high up to ΔfOBUE above the highest frequency of each supported downlink operating band. In addition, for a BS operating in non-contiguous spectrum, it applies inside any sub-block gap. In addition, for a BS operating in multiple bands, it applies inside any Inter RF Bandwidth gap. The values of ΔfOBUE are defined in table 6.6-1.

The requirements shall apply whatever the type of transmitter considered and for all transmission modes foreseen by the manufacturer’s specification, except for any operating band with GSM/EDGE single RAT operation. The requirements in TS 45.005 [6] as defined in clause 6.6.2.3 apply to an MSR Base Station for any operating band with GSM/EDGE single RAT operation in Band Category 2.

For BS capable of multi-band operation where multiple bands are mapped on separate antenna connectors, the single-band requirements apply and the cumulative evaluation of the emission limit in the Inter RF Bandwidth gap are not applicable.

6.6.2.2 Minimum requirement

The minimum requirement is in TS 37.104 [2] clause 6.6.2.1, 6.6.2.2, 6.6.2.3 and 6.6.2.4.

6.6.2.3 Test purpose

This test measures the emissions of the MSR BS, close to the assigned channel bandwidth of the wanted signal, while the transmitter is in operation.

6.6.2.4 Method of test

For some of the test cases Tables 5.1-1 and 5.2-1 refer to single-RAT specifications; see clause 5. In this case the following shall apply:

– For references to TS 25.141 [10], the method of test is specified in TS 25.141 [10], clause 6.5.2.1.4.

– For references to TS 25.142 [12], the method of test is specified in TS 25.142 [12], clause 6.6.2.1.4.

– For references to TS 36.141 [9], the method of test is specified in TS 36.141 [9], clause 6.6.3.4.

– For references to TS 38.141-1 [26], the method of test is specified in TS 38.141-1 [26], clause 6.6.4.4.

NOTE: In this case the test requirements of the present document defined in clause 6.6.2.5 apply.

For GSM/EDGE single-RAT requirements, the method of test is specified in TS 51.021 [11], applicable parts of clause 6.5.1, 6.5.2, 6.6.2 and 6.12.

For test requirements of operating band unwanted emissions using the MSR test configurations defined in clause 4.8, the, method of test described in clauses 6.6.2.4.1 and 6.6.2.4.2 applies.

6.6.2.4.1 Initial conditions

Test environment: normal; see Annex B.2.

Base Station RF Bandwidth positions to be tested: BRFBW, MRFBW and TRFBW in single-band operation, see clause 4.9.1; BRFBW_T’RFBW and B’RFBW_TRFBW in multi-band operation, see clause 4.9.1.

1) Connect the signal analyzer to the Base Station antenna connector as shown in Annex D.1.1.

As a general rule, the resolution bandwidth of the measuring equipment should be equal to the measurement bandwidth. However, to improve measurement accuracy, sensitivity, efficiency and to avoid e.g. carrier leakage, the resolution bandwidth may be smaller than the measurement bandwidth. When the resolution bandwidth is smaller than the measurement bandwidth, the result should be integrated over the measurement bandwidth in order to obtain the equivalent noise bandwidth of the measurement bandwidth.

2) Detection mode: True RMS.

The emission power should be averaged over an appropriate time duration to ensure the measurement is within the measurement uncertainty in Table 4.1.2-1.

6.6.2.4.2 Procedure

1) Set the Base Station to transmit at maximum power according to the applicable test configuration in clause 5 using the corresponding test models or set of physical channels in clause 4.9.2.

2) Step the centre frequency of the measurement filter in contiguous steps and measure the emission within the specified frequency ranges with the specified measurement bandwidth. For BS operating in multiple bands or non-contiguous spectrum, the emission within the Inter RF Bandwidth or sub-block gap shall be measured using the specified measurement bandwidth from the closest RF Bandwidth or sub block edge.

3) Repeat the test for the remaining test cases with channel set-up according to clause 5 and clause 4.9.2.

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 SBT or MBT shall be terminated.

6.6.2.5 Test requirement

6.6.2.5.1 Test requirements for Band Categories 1 and 3

For a Wide Area BS operating in Band Category 1 or Band Category 3, the requirement applies outside the Base Station RF Bandwidth edges. In addition, for a Wide Area BS operating in non-contiguous spectrum, it applies inside any sub-block gap. In addition, for a Wide Area BS operating in multiple bands, it applies inside any Inter RF Bandwidth gap.

For a Medium Range BS operating in Band Category 1 the requirement applies outside the Base Station RF Bandwidth edges. In addition, for a Medium Range BS operating in non-contiguous spectrum, it applies inside any sub-block gap. In addition, for a Medium Range BS operating in multiple bands, it applies inside any Inter RF Bandwidth gap.

For a Local Area BS operating in Band Category 1 the requirement applies outside the Base Station RF Bandwidth edges. In addition, for a Local Area BS operating in non-contiguous spectrum, it applies inside any sub-block gap. In addition, for a Local Area BS operating in multiple bands, it applies inside any Inter RF Bandwidth gap.

Outside the Base Station RF Bandwidth edges, emissions shall not exceed the maximum levels specified in Tables 6.6.2.5.1-1 to 6.6.2.5.1-4b below, where:

– Δf is the separation between the Base Station RF Bandwidth edge frequency and the nominal -3 dB point of the measuring filter closest to the carrier frequency.

– f_offset is the separation between the Base Station RF Bandwidth edge frequency and the centre of the measuring filter.

– f_offsetmax is the offset to the frequency ΔfOBUE outside the downlink operating band.

– Δfmax is equal to f_offsetmax minus half of the bandwidth of the measuring filter.

For a BS operating in multiple bands, inside any Inter RF Bandwidth gaps with Wgap < 2* ΔfOBUE, emissions shall not exceed the cumulative sum of the test requirements specified at the Base Station RF Bandwidth edges on each side of the Inter RF Bandwidth gap. The test requirement for Base Station RF Bandwidth edge is specified in Table 6.6.2.5.1-1 to 6.6.2.5.1-4b below, where in this case:

– Δf is the separation between the Base Station RF Bandwidth edge frequency and the nominal -3 dB point of the measuring filter closest to the carrier frequency.

– f_offset is the separation between the Base Station RF Bandwidth edge frequency and the centre of the measuring filter.

– f_offsetmax is equal to the Inter RF Bandwidth gap minus half of the bandwidth of the measuring filter.

– Δfmax is equal to f_offsetmax minus half of the bandwidth of the measuring filter.

For BS capable of multi-band operation where multiple bands are mapped on the same antenna connector, the operating band unwanted emission limits apply also in a supported operating band without any carriers transmitted, in the case where there are carriers transmitted in other supported operating band(s). In this case where there is no carrier transmitted in an operating band the operating band unwanted emission limit, as defined in the tables of the present clause for the largest frequency offset (Δfmax), of a band where there are no carriers transmitted shall apply from ΔfOBUE below the lowest frequency, up to ΔfOBUE above the highest frequency of the supported downlink operating band without any carrier transmitted. And no cumulative limits are applied in the inter-band gap between a supported downlink band with carrier(s) transmitted and a downlink band without any carrier transmitted.

Inside any sub-block gap for a BS operating in non-contiguous spectrum, emissions shall not exceed the cumulative sum of the test requirements specified for the adjacent sub blocks on each side of the sub block gap. The test requirement for each sub block is specified in Tables 6.6.2.5.1-1 to 6.6.2.5.1-4b below, where in this case:

– Δf is the separation between the sub block edge frequency and the nominal -3 dB point of the measuring filter closest to the sub block edge frequency.

– f_offset is the separation between the sub block edge frequency and the centre of the measuring filter.

– f_offsetmax is equal to the sub block gap bandwidth minus half of the bandwidth of the measuring filter.

– Δfmax is equal to f_offsetmax minus half of the bandwidth of the measuring filter.

For Band 41 NR operation in Japan, the operating band unwanted emissions limits shall be applied to the sum of the emission power over all antenna connectors.

Applicability of Wide Area operating band unwanted emission requirements in Tables 6.6.2.5.1-1/1a, 6.6.2.5.1-1c and 6.6.2.5.1-1d/1e is specified in Table 6.6.2.5.1-0.

Note: Option 1 and Option 2 correspond to the Category B option 1/2 operating band unwanted emissions defined in the E-UTRA and NR specifications TS 36.104 [5] and TS 38.104 [27]. Option 2 also corresponds to the UTRA spectrum emission mask as defined in TS 25.104 [3].

Table 6.6.2.5.1-0: Applicability of operating band unwanted emission requirements for BC1 and BC3 Wide Area BS

NR Band operation

Standalone NB-IoT carrier adjacent to the BS RF bandwidth edge or UTRA supported

Applicable requirement table

None

Y/N

6.6.2.5.1-1/1a (option 2)

In certain regions (NOTE 2), bands 1, 7, 38, 65

N

6.6.2.5.1-1/1a (option 2)

Any

Y

6.6.2.5.1-1/1a (option 2)

Any below 1GHz

N

6.6.2.5.1-1c (option 1)

Any above 1GHz except for, in certain regions (NOTE 2), bands 1, 7, 38, 65

N

6.6.2.5.1-1d/1e (option 1)

NOTE 1: Void.

NOTE 2: Applicable only for operation in regions where Category B limits as defined in ITU-R Recommendation SM.329 [13] are used for which category B option 2 operating band unwanted emissions requirements as defined in TS 36.104 [5] and TS 38.104 [27] are applied.

Table 6.6.2.5.1-1: WA BS OBUE in BC1 and BC3 bands ≤ 3 GHz – option 2

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 1, 2)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 0.2 MHz

0.015MHz ≤ f_offset < 0.215MHz

-12.5 dBm

30 kHz

0.2 MHz ≤ Δf < 1 MHz

0.215MHz ≤ f_offset < 1.015MHz

(Note 4)

30 kHz

(Note 5)

1.015MHz ≤ f_offset < 1.5 MHz

-24.5 dBm (Note 4)

30 kHz

1 MHz ≤ Δf ≤

min(Δfmax, 10 MHz)

1.5 MHz ≤ f_offset < min(f_offsetmax, 10.5 MHz)

-11.5 dBm (Note 4)

1 MHz

10 MHz ≤ Δf ≤ Δfmax

10.5 MHz ≤ f_offset < f_offsetmax

-15 dBm (Note 4, 7)

1 MHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap, where the contribution from the far-end sub-block shall be scaled according to the measurement bandwidth of the near-end sub-block. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the test requirement within sub-block gaps shall be -15dBm/MHz (for MSR BS supporting multi-band operation, either this limit or -16dBm/100kHz with correspondingly adjusted f_offset shall apply for this frequency offset range for operating bands <1GHz).

NOTE2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap, where the contribution from the far-end sub-block or RF Bandwidth shall be scaled according to the measurement bandwidth of the near-end sub-block or RF Bandwidth.

NOTE 3: For operation with a standalone NB-IoT carrier adjacent to the Base Station RF Bandwidth edge, the limits in Table 6.6.2.5.1-1b apply for 0 MHz ≤ Δf < 0.15 MHz.

NOTE 4: For MSR BS supporting multi-band operation, either this limit or -16dBm/100kHz with correspondingly adjusted f_offset shall apply for this frequency offset range for operating bands <1GHz.

Table 6.6.2.5.1-1a: WA BS OBUE in BC1 and BC3 bands > 3 GHz – option 2

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 1, 2)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 0.2 MHz

0.015MHz ≤ f_offset < 0.215MHz

-12.2 dBm

30 kHz

0.2 MHz ≤ Δf < 1 MHz

0.215MHz ≤ f_offset < 1.015MHz

30 kHz

(Note 5)

1.015MHz ≤ f_offset < 1.5 MHz

-24.2 dBm

30 kHz

1 MHz ≤ Δf ≤

min(Δfmax, 10 MHz)

1.5 MHz ≤ f_offset < min(f_offsetmax, 10.5 MHz)

-11.2 dBm

1 MHz

10 MHz ≤ Δf ≤ Δfmax

10.5 MHz ≤ f_offset < f_offsetmax

-15 dBm (Note 7)

1 MHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap, where the contribution from the far-end sub-block shall be scaled according to the measurement bandwidth of the near-end sub-block. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the test requirement within sub-block gaps shall be -15dBm/MHz.

NOTE2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap, where the contribution from the far-end sub-block or RF Bandwidth shall be scaled according to the measurement bandwidth of the near-end sub-block or RF Bandwidth.

Table 6.6.2.5.1-1b: WA BS OBUE in BC1 and BC3 bands ≤ 3 GHz applicable for: BS with standalone NB-IoT carrier adjacent to the Base Station RF Bandwidth edge

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2, 3, 4)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 0.05 MHz

0.015 MHz ≤ f_offset < 0.065 MHz

30 kHz

0.05 MHz ≤ Δf < 0.15 MHz

0.065 MHz ≤ f_offset < 0.165 MHz

30 kHz

NOTE 1: The limits in this table only apply for operation with a standalone NB-IoT carrier adjacent to the Base Station RF Bandwidth edge.

NOTE 2: For MSR BS supporting non-contiguous spectrum operation within any operating band the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap.

NOTE 3: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

NOTE 4: In case the carrier adjacent to the RF bandwidth edge is a standalone NB-IoT carrier, the value of X = PNB-IoTcarrier – 43, where PNB-IoTcarrier is the power level of the standalone NB-IoT carrier adjacent to the RF bandwidth edge. In other cases, X = 0.

Table 6.6.2.5.1-1c: WA BS OBUE in BC1 and BC3 bands ≤ 1 GHz – option 1

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 5 MHz

0.05 MHz ≤ f_offset < 5.05 MHz

– 5.5dBm – 7/5(f_offset/MHz-0.05)dB

100 kHz

5 MHz ≤ Δf <

min(10 MHz, Δfmax)

5.05 MHz ≤ f_offset <

min(10.05 MHz, f_offsetmax)

-12.5 dBm

100 kHz

10 MHz ≤ Δf ≤ Δfmax

10.05 MHz ≤ f_offset < f_offsetmax

-16 dBm (Note 7)

100 kHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band, the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the minimum requirement within sub-block gaps shall be -16dBm/100kHz.

NOTE 2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

Table 6.6.2.5.1-1d: WA BS OBUE in BC1 and BC3 bands > 1 GHz and ≤ 3 GHz – option 1

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 5 MHz

0.05 MHz ≤ f_offset < 5.05 MHz

– 5.5dBm – 7/5(f_offset/MHz-0.05)dB

100 kHz

5 MHz ≤ Δf <

min(10 MHz, Δfmax)

5.05 MHz ≤ f_offset <

min(10.05 MHz, f_offsetmax)

-12.5 dBm

100 kHz

10 MHz ≤ Δf ≤ Δfmax

10.5 MHz ≤ f_offset < f_offsetmax

-15 dBm (Note 7)

1MHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band, the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap, where the contribution from the far-end sub-block shall be scaled according to the measurement bandwidth of the near-end sub-block. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the minimum requirement within sub-block gaps shall be -15dBm/1MHz.

NOTE 2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap, where the contribution from the far-end sub-block or RF Bandwidth shall be scaled according to the measurement bandwidth of the near-end sub-block or RF Bandwidth.

Table 6.6.2.5.1-1e: WA BS OBUE in BC1 and BC3 bands above 3 GHz – option 1

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 5 MHz

0.05 MHz ≤ f_offset < 5.05 MHz

– 5.2dBm – 7/5(f_offset/MHz-0.05)dB

100 kHz

5 MHz ≤ Δf <

min(10 MHz, Δfmax)

5.05 MHz ≤ f_offset <

min(10.05 MHz, f_offsetmax)

-12.2 dBm

100 kHz

10 MHz ≤ Δf ≤ Δfmax

10.5 MHz ≤ f_offset < f_offsetmax

-15 dBm (Note 7)

1MHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band, the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap, where the contribution from the far-end sub-block shall be scaled according to the measurement bandwidth of the near-end sub-block. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the minimum requirement within sub-block gaps shall be -15dBm/1MHz.

NOTE 2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap, where the contribution from the far-end sub-block or RF Bandwidth shall be scaled according to the measurement bandwidth of the near-end sub-block or RF Bandwidth.

Table 6.6.2.5.1-2: MR BS OBUE in BC1 bands ≤ 3 GHz applicable for: BS with maximum output power 31 < PRated,c ≤ 38 dBm and not supporting NR; or BS with maximum output power 31 < PRated,c ≤ 38 dBm, supporting NR, and supporting UTRA

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 1, 2)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 0.6 MHz

0.015MHz ≤ f_offset < 0.615MHz

PRated,c – 56.5dB – 7/5(f_offset/MHz-0.015)dB

30 kHz

0.6 MHz ≤ Δf < 1 MHz

0.615MHz ≤ f_offset < 1.015MHz

PRated,c – 51.5dB – 15(f_offset/MHz-0.215)dB

30 kHz

(Note 5)

1.015MHz ≤ f_offset < 1.5 MHz

PRated,c – 63.5 dB

30 kHz

1 MHz ≤ Δf ≤ 2.6 MHz

1.5 MHz ≤ f_offset < 3.1 MHz

PRated,c – 50.5 dB

1 MHz

2.6 MHz ≤ Δf ≤ 5 MHz

3.1 MHz ≤ f_offset < 5.5 MHz

min(PRated,c – 50.5 dB, -13.5dBm)

1 MHz

5 MHz ≤ Δf ≤ min(Δfmax, 10MHz)

5.5 MHz ≤ f_offset < min (f_offsetmax, 10.5 MHz)

PRated,c – 54.5 dB

1 MHz

10 MHz ≤ Δf ≤ Δfmax

10.5 MHz ≤ f_offset < f_offsetmax

PRated,c -56dB (Note 7)

1MHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap, where the contribution from the far-end sub-block shall be scaled according to the measurement bandwidth of the near-end sub-block. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the test requirement within sub-block gaps shall be (PRated,c – 56 dB)/MHz.

NOTE2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap, where the contribution from the far-end sub-block or RF Bandwidth shall be scaled according to the measurement bandwidth of the near-end sub-block or RF Bandwidth.

NOTE 3: For operation with a standalone NB-IoT carrier adjacent to the Base Station RF Bandwidth edge, the limits in Table 6.6.2.5.1-2b apply for 0 MHz ≤ Δf < 0.15 MHz.

Table 6.6.2.5.1-2a: MR BS OBUE in BC1 bands > 3 GHz applicable for: BS with maximum output power 31 < PRated,c ≤ 38 dBm and not supporting NR; or BS with maximum output power 31 < PRated,c ≤ 38 dBm supporting NR, and supporting UTRA

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 1, 2)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 0.6 MHz

0.015MHz ≤ f_offset < 0.615MHz

PRated,c – 56.2dB – 7/5(f_offset/MHz-0.015)dB

30 kHz

0.6 MHz ≤ Δf < 1 MHz

0.615MHz ≤ f_offset < 1.015MHz

PRated,c – 51.2dB – 15(f_offset/MHz-0.215)dB

30 kHz

(Note 5)

1.015MHz ≤ f_offset < 1.5 MHz

PRated,c – 63.2 dB

30 kHz

1 MHz ≤ Δf ≤ 2.6 MHz

1.5 MHz ≤ f_offset < 3.1 MHz

PRated,c – 50.2 dB

1 MHz

2.6 MHz ≤ Δf ≤ 5 MHz

3.1 MHz ≤ f_offset < 5.5 MHz

min(PRated,c – 50.2 dB, -13.2dBm)

1 MHz

5 MHz ≤ Δf ≤ min(Δfmax, 10MHz)

5.5 MHz ≤ f_offset < min(f_offsetmax ,10.5MHz)

PRated,c – 54.2 dB

1 MHz

10 MHz ≤ Δf ≤ Δfmax

10.5 MHz ≤ f_offset < f_offsetmax

PRated,c -56dB (Note 7)

1MHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap, where the contribution from the far-end sub-block shall be scaled according to the measurement bandwidth of the near-end sub-block. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the test requirement within sub-block gaps shall be (PRated,c – 56 dB)/MHz.

NOTE2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap, where the contribution from the far-end sub-block or RF Bandwidth shall be scaled according to the measurement bandwidth of the near-end sub-block or RF Bandwidth.

Table 6.6.2.5.1-2b: MR BS OBUE in BC1 bands ≤ 3 GHz applicable for: BS with maximum output power 31 < PRated ≤ 38 dBm and with standalone NB-IoT carrier adjacent to the Base Station RF Bandwidth edge

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2, 3)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 0.05 MHz

(Note 1)

0.015 MHz ≤ f_offset < 0.065 MHz

PRated,c – 36.5dB – 60(f_offset/MHz-0.015)dB

30 kHz

0.05 MHz ≤ Δf < 0.15 MHz

0.065 MHz ≤ f_offset < 0.165 MHz

PRated,c – 39.5dB – 160(f_offset/MHz-0.065)dB

30 kHz

NOTE 1: The limits in this table only apply for operation with a standalone NB-IoT carrier adjacent to the Base Station RF Bandwidth edge.

NOTE 2: For MSR BS supporting non-contiguous spectrum operation within any operating band the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap.

NOTE 3: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

Table 6.6.2.5.1-2c: MR BS OBUE in BC1 bands ≤ 3 GHz applicable for: BS with maximum output power 31 < PRated,c ≤ 38 dBm, supporting NR, and not supporting UTRA

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 5 MHz

0.05 MHz ≤ f_offset < 5.05 MHz

PRated,c – 51.5dB – 7/5(f_offset/MHz-0.05)dB

100 kHz

5 MHz ≤ Δf < min(10 MHz, Δfmax)

5.05 MHz ≤ f_offset < min(10.05 MHz, f_offsetmax)

PRated,c-58.5dB

100 kHz

10 MHz ≤ Δf ≤ Δfmax

10.05 MHz ≤ f_offset < f_offsetmax

Min(PRated,c-60dB, -25dBm) (Note 7)

100 kHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the minimum requirement within sub-block gaps shall be Min(PRated,c-60dB, -25dBm)/100kHz.

NOTE 2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

NOTE 3: For operation with a standalone NB-IoT carrier adjacent to the Base Station RF Bandwidth edge, the limits in Table 6.6.2.5.1-2b apply for 0 MHz ≤ Δf < 0.15 MHz.

Table 6.6.2.5.1-2d: MR BS OBUE in BC1 bands >3 GHz applicable for: BS with maximum output power 31 < PRated,c ≤ 38 dBm, supporting NR, and not supporting UTRA

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 5 MHz

0.05 MHz ≤ f_offset < 5.05 MHz

PRated,c – 51.2dB – 7/5(f_offset/MHz-0.05)dB

100 kHz

5 MHz ≤ Δf < min(10 MHz, Δfmax)

5.05 MHz ≤ f_offset < min(10.05 MHz, f_offsetmax)

PRated,c-58.2dB

100 kHz

10 MHz ≤ Δf ≤ Δfmax

10.05 MHz ≤ f_offset < f_offsetmax

Min(PRated,c-60dB, -25dBm) (Note 7)

100 kHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the minimum requirement within sub-block gaps shall be Min(PRated,c-60dB, -25dBm)/100kHz.

NOTE 2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

Table 6.6.2.5.1-3: MR BS OBUE in BC1 bands ≤ 3 GHz applicable for: BS with maximum output power PRated,c ≤ 31 dBm and not supporting NR; or BS with maximum output power PRated,c ≤ 31 dBm supporting NR, and supporting UTRA

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 1, 2)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 0.6 MHz

0.015MHz ≤ f_offset < 0.615MHz

30 kHz

0.6 MHz ≤ Δf < 1 MHz

0.615MHz ≤ f_offset < 1.015MHz

30 kHz

(Note 5)

1.015MHz ≤ f_offset < 1.5 MHz

-32.5 dBm

30 kHz

1 MHz ≤ Δf ≤ 5 MHz

1.5 MHz ≤ f_offset < 5.5 MHz

-19.5 dBm

1 MHz

5 MHz ≤ Δf ≤ min(Δfmax,10MHz)

5.5 MHz ≤ f_offset < min(f_offsetmax,10.5MHz)

-23.5 dBm

1 MHz

10 MHz ≤ Δf ≤ Δfmax

10.5 MHz ≤ f_offset < f_offsetmax

-25 dBm (Note 7)

1MHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap, where the contribution from the far-end sub-block shall be scaled according to the measurement bandwidth of the near-end sub-block. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the test requirement within sub-block gaps shall be -25dBm/MHz.

NOTE2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap, where the contribution from the far-end sub-block or RF Bandwidth shall be scaled according to the measurement bandwidth of the near-end sub-block or RF Bandwidth.

NOTE 3: For operation with a standalone NB-IoT carrier adjacent to the Base Station RF Bandwidth edge, the limits in Table 6.6.2.5.1-3b apply for 0 MHz ≤ Δf < 0.15 MHz.

Table 6.6.2.5.1-3a: MR BS OBUE in BC1 bands > 3 GHz applicable for: BS with maximum output power PRated,c ≤ 31 dBm and not supporting NR; or BS with maximum output power PRated,c ≤ 31 dBm supporting NR, and supporting UTRA

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 1, 2)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 0.6 MHz

0.015MHz ≤ f_offset < 0.615MHz

30 kHz

0.6 MHz ≤ Δf < 1 MHz

0.615MHz ≤ f_offset < 1.015MHz

30 kHz

(Note 5)

1.015MHz ≤ f_offset < 1.5 MHz

-32.2 dBm

30 kHz

1 MHz ≤ Δf ≤ 5 MHz

1.5 MHz ≤ f_offset < 5.5 MHz

-19.2 dBm

1 MHz

5 MHz ≤ Δf ≤ min(Δfmax,10MHz)

5.5 MHz ≤ f_offset < min(f_offsetmax,10.5MHz)

-23.2 dBm

1 MHz

10 MHz ≤ Δf ≤ Δfmax

10.5 MHz ≤ f_offset < f_offsetmax

-25 dBm (Note 7)

1MHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap, where the contribution from the far-end sub-block shall be scaled according to the measurement bandwidth of the near-end sub-block. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the test requirement within sub-block gaps shall be -25dBm/MHz.

NOTE2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap, where the contribution from the far-end sub-block or RF Bandwidth shall be scaled according to the measurement bandwidth of the near-end sub-block or RF Bandwidth.

Table 6.6.2.5.1-3b: MR BS OBUE in BC1 bands ≤ 3 GHz applicable for: BS with maximum output power PRated,c ≤ 31 dBm BS and standalone NB-IoT carrier adjacent to the Base Station RF Bandwidth edge

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2, 3, 4)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 0.05 MHz

(Note 1)

0.015 MHz ≤ f_offset < 0.065 MHz

30 kHz

0.05 MHz ≤ Δf < 0.15 MHz

0.065 MHz ≤ f_offset < 0.165 MHz

30 kHz

NOTE 1: The limits in this table only apply for operation with a standalone NB-IoT carrier adjacent to the Base Station RF Bandwidth edge.

NOTE 2: For MSR BS supporting non-contiguous spectrum operation within any operating band the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap.

NOTE 3: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

NOTE 4: In case the carrier adjacent to the RF bandwidth edge is a standalone NB-IoT carrier, the value of X = PNB-IoTcarrier – 31, where PNB-IoTcarrier is the power level of the standalone NB-IoT carrier adjacent to the RF bandwidth edge. In other cases, X = 0.

Table 6.6.2.5.1-3c: MR BS OBUE in BC1 bands ≤ 3 GHz applicable for: BS with maximum output power PRated,c ≤ 31 dBm, supporting NR, and not supporting UTRA

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 5 MHz

0.05 MHz ≤ f_offset < 5.05 MHz

– 20.5dBm – 7/5(f_offset/MHz-0.05)dB

100 kHz

5 MHz ≤ Δf < min(10 MHz, Δfmax)

5.05 MHz ≤ f_offset < min(10.05 MHz, f_offsetmax)

-27.5 dBm

100 kHz

10 MHz ≤ Δf ≤ Δfmax

10.05 MHz ≤ f_offset < f_offsetmax

-29 dBm (Note 7)

100 kHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the minimum requirement within sub-block gaps shall be -29dBm/100kHz.

NOTE 2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

NOTE 3: For operation with a standalone NB-IoT carrier adjacent to the Base Station RF Bandwidth edge, the limits in Table 6.6.2.5.1-3b apply for 0 MHz ≤ Δf < 0.15 MHz.

Table 6.6.2.5.1-3d: MR BS OBUE in BC1 bands >3 GHz applicable for: BS with maximum output power PRated,c ≤ 31 dBm, supporting NR, and not supporting UTRA

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 5 MHz

0.05 MHz ≤ f_offset < 5.05 MHz

– 20.2dBm – 7/5(f_offset/MHz-0.05)dB

100 kHz

5 MHz ≤ Δf < min(10 MHz, Δfmax)

5.05 MHz ≤ f_offset < min(10.05 MHz, f_offsetmax)

-27.2 dBm

100 kHz

10 MHz ≤ Δf ≤ Δfmax

10.05 MHz ≤ f_offset < f_offsetmax

-29 dBm (Note 7)

100 kHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the minimum requirement within sub-block gaps shall be -29dBm/100kHz.

NOTE 2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

Table 6.6.2.5.1-4: LA BS OBUE in BC1 bands ≤ 3 GHz

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 1, 2)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 5 MHz

0.05 MHz ≤ f_offset < 5.05 MHz

100 kHz

5 MHz ≤ Δf < min(10 MHz, Δfmax)

5.05 MHz ≤ f_offset < min(10.05 MHz, f_offsetmax)

-35.5 dBm

100 kHz

10 MHz ≤ Δf ≤ Δfmax

10.05 MHz ≤ f_offset < f_offsetmax

-37 dBm (Note 7)

100 kHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the test requirement within sub-block gaps shall be -37dBm/100 kHz.

NOTE2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

NOTE 3: For operation with a standalone NB-IoT carrier adjacent to the Base Station RF Bandwidth edge, the limits in Table 6.6.2.5.1-4b apply for 0 MHz ≤ Δf < 0.15 MHz.

Table 6.6.2.5.1-4a: LA BS OBUE in BC1 bands > 3 GHz

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 1, 2

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 5 MHz

0.05 MHz ≤ f_offset < 5.05 MHz

100 kHz

5 MHz ≤ Δf < min(10 MHz, Δfmax)

5.05 MHz ≤ f_offset < min(10.05 MHz, f_offsetmax)

-35.2 dBm

100 kHz

10 MHz ≤ Δf ≤ Δfmax

10.05 MHz ≤ f_offset < f_offsetmax

-37 dBm (Note 7)

100 kHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the test requirement within sub-block gaps shall be -37dBm/100 kHz.

NOTE2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

Table 6.6.2.5.1-4b: LA BS OBUE in BC1 bands ≤ 3 GHz applicable for: BS with standalone NB-IoT carrier adjacent to the Base Station RF Bandwidth edge

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2, 3, 4)

Measurement bandwidth (Note 6)

0 MHz ≤ Δf < 0.05 MHz

(Note 1)

0.015 MHz ≤ f_offset < 0.065 MHz

30 kHz

0.05 MHz ≤ Δf < 0.16 MHz

0.065 MHz ≤ f_offset < 0.175 MHz

30 kHz

NOTE 1: The limits in this table only apply for operation with a standalone NB-IoT carrier adjacent to the Base Station RF Bandwidth edge.

NOTE 2: For MSR BS supporting non-contiguous spectrum operation within any operating band the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap.

NOTE 3: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

NOTE 4: In case the carrier adjacent to the RF bandwidth edge is a standalone NB-IoT carrier, the value of X = PNB-IoTcarrier – 24, where PNB-IoTcarrier is the power level of the standalone NB-IoT carrier adjacent to the RF bandwidth edge. In other cases, X = 0.

NOTE 5: This frequency range ensures that the range of values of f_offset is continuous.

NOTE 6: As a general rule for the requirements in the present clause, the resolution bandwidth of the measuring equipment should be equal to the measurement bandwidth. However, to improve measurement accuracy, sensitivity and efficiency, the resolution bandwidth may be smaller than the measurement bandwidth. When the resolution bandwidth is smaller than the measurement bandwidth, the result should be integrated over the measurement bandwidth in order to obtain the equivalent noise bandwidth of the measurement bandwidth.

NOTE 7: The requirement is not applicable when Δfmax < ΔfOBUE.

6.6.2.5.2 Test requirements for Band Category 2

For a BS operating in Band Category 2 the requirement applies outside the Base Station RF Bandwidth edges. In addition, for a BS operating in non-contiguous spectrum, it applies inside any sub-block gap.

Outside the Base Station RF Bandwidth edges, emissions shall not exceed the maximum levels specified in Table 6.6.2.5.2-1 to 6.6.2.5.2-8 below, where:

– Δf is the separation between the Base Station RF Bandwidth edge frequency and the nominal -3dB point of the measuring filter closest to the carrier frequency.

– f_offset is the separation between the Base Station RF Bandwidth edge frequency and the centre of the measuring filter.

– f_offsetmax is the offset to the frequency ΔfOBUE outside the downlink operating band.

– Δfmax is equal to f_offsetmax minus half of the bandwidth of the measuring filter.

For a BS operating in multiple bands, inside any Inter RF Bandwidth gaps with Wgap < 2* ΔfOBUE, emissions shall not exceed the cumulative sum of the test requirements specified at the Base Station RF Bandwidth edges on each side of the Inter RF Bandwidth gap. The test requirement for Base Station RF Bandwidth edge is specified in Table 6.6.2.5.2-1 to 6.6.2.5.2-8 below, where in this case:

– Δf is the separation between the Base Station RF Bandwidth edge frequency and the nominal -3 dB point of the measuring filter closest to the carrier frequency.

– f_offset is the separation between the Base Station RF Bandwidth edge frequency and the centre of the measuring filter.

– f_offsetmax is equal to the Inter RF Bandwidth gap minus half of the bandwidth of the measuring filter.

– Δfmax is equal to f_offsetmax minus half of the bandwidth of the measuring filter.

For a BS capable of multi-band operation where multiple bands are mapped on the same antenna connector and where there is no carrier transmitted in an operating band, the operating band unwanted emission limit, as defined in the tables of the present clause for the largest frequency offset (Δfmax), of a band where there are no carriers transmitted shall apply from ΔfOBUE below the lowest frequency, up to ΔfOBUE above the highest frequency of the supported downlink operating band without any carrier transmitted. And no cumulative limits are applied in the inter-band gap between a supported downlink band with carrier(s) transmitted and a supported downlink band without any carrier transmitted.

Inside any sub-block gap for a BS operating in non-contiguous spectrum, emissions shall not exceed the cumulative sum of the test requirement specified for the adjacent sub blocks on each side of the sub block gap. The test requirement for each sub block is specified in Tables 6.6.2.5.2-1 to 6.6.2.5.2-8 below, where in this case:

– Δf is the separation between the sub block edge frequency and the nominal -3 dB point of the measuring filter closest to the sub block edge.

– f_offset is the separation between the sub block edge frequency and the centre of the measuring filter.

– f_offsetmax is equal to the sub block gap bandwidth minus half of the bandwidth of the measuring filter.

– Δfmax is equal to f_offsetmax minus half of the bandwidth of the measuring filter.

Applicability of Wide Area operating band unwanted emission requirements in Tables 6.6.2.5.2-1, 6.6.2.5.2-2a and 6.6.2.5.2-2b is specified in Table 6.6.2.5.2-0.

Note: Option 1 and option 2 correspond to the Category B option 1/2 operating band unwanted emissions defined in the E-UTRA and NR specifications TS 36.104 [5] and TS 38.104 [27]. Option 2 also corresponds to the UTRA spectrum emission mask as defined in TS 25.104 [3] with GSM related modifications.

Table 6.6.2.5.2-0: Applicability of operating band unwanted emission requirements for BC2 Wide Area BS

NR Band operation

Standalone NB-IoT carrier adjacent to the BS RF bandwidth edge or UTRA or GSM supported

Applicable requirement table

None

Y/N

6.6.2.5.2-1 (option 2)

In certain regions (NOTE 2), bands 3, 8

N

6.6.2.5.2-1 (option 2)

Any

Y

6.6.2.5.2-1 (option 2)

Any below 1GHz except for, in certain regions (NOTE 2), band 8

N

6.6.2.5.2-2a (option 1)

Any above 1GHz except for, in certain regions (NOTE 2), bands 3

N

6.6.2.5.2-2b (option 1)

NOTE 1: Void.

NOTE 2: Applicable only for operation in regions where Category B limits as defined in ITU-R Recommendation SM.329 [13] are used for which category B option 2 operating band unwanted emissions requirements as defined in TS 36.104 [5] and TS 38.104 [27] are applied.

Table 6.6.2.5.2-1: WA BS OBUE in BC2 bands – option 2

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 2, 3)

Measurement bandwidth (Note 9)

0 MHz ≤ Δf < 0.2 MHz

(Note 1)

0.015 MHz ≤ f_offset < 0.215 MHz

-12.5 dBm

30 kHz

0.2 MHz ≤ Δf < 1 MHz

0.215 MHz ≤ f_offset < 1.015 MHz

(Note 4)

30 kHz

(Note 8)

1.015 MHz ≤ f_offset < 1.5 MHz

-24.5 dBm (Note 4)

30 kHz

1 MHz ≤ Δf ≤

min(Δfmax, 10 MHz)

1.5 MHz ≤ f_offset < min(f_offsetmax, 10.5 MHz)

-11.5 dBm (Note 4)

1 MHz

10 MHz ≤ Δf ≤ Δfmax

10.5 MHz ≤ f_offset < f_offsetmax

-15 dBm (Note 4, 10)

1 MHz

NOTE 1: For operation with a GSM/EDGE or standalone NB-IoT or an E-UTRA 1.4 or 3 MHz carrier adjacent to the Base Station RF Bandwidth edge, the limits in Table 6.6.2.5-2 apply for 0 MHz ≤ Δf < 0.15 MHz.

NOTE 2: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap, where the contribution from the far-end sub-block shall be scaled according to the measurement bandwidth of the near-end sub-block. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the test requirement within sub-block gaps shall be -15dBm/MHz (for MSR BS supporting multi-band operation, either this limit or -16dBm/100kHz with correspondingly adjusted f_offset shall apply for this frequency offset range for operating bands <1GHz).

NOTE3: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE operation the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap, where the contribution from the far-end sub-block or RF Bandwidth shall be scaled according to the measurement bandwidth of the near-end sub-block or RF Bandwidth.

NOTE 4: For MSR BS supporting multi-band operation, either this limit or -16dBm/100kHz with correspondingly adjusted f_offset shall apply for this frequency offset range for operating bands <1GHz.

Table 6.6.2.5.2-2: WA BS OBUE in BC2 bands applicable for: BS with GSM/EDGE or standalone NB-IoT or E-UTRA 1.4 or 3 MHz carriers adjacent to the Base Station RF Bandwidth edge

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 2, 3, 4, 5)

Measurement bandwidth (Note 9)

0 MHz ≤ Δf < 0.05 MHz

0.015 MHz ≤ f_offset < 0.065 MHz

30 kHz

0.05 MHz ≤ Δf < 0.15 MHz

0.065 MHz ≤ f_offset < 0.165 MHz

30 kHz

NOTE 1: The limits in this table only apply for operation with a GSM/EDGE or standalone NB-IoT or an E-UTRA 1.4 or 3 MHz carrier adjacent to the Base Station RF Bandwidth edge.

NOTE 2: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap.

NOTE 3: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

NOTE 4: In case the carrier adjacent to the Base Station RF Bandwidth edge is a GSM/EDGE carrier, the value of X = PGSMcarrier – 43, where PGSMcarrier is the power level of the GSM/EDGE carrier adjacent to the Base Station RF Bandwidth edge. In other cases, X = 0.

NOTE 5: In case the carrier adjacent to the RF bandwidth edge is a NB-IoT carrier, the value of X = PNB-IoTcarrier – 43, where PNB-IoTcarrier is the power level of the NB-IoT carrier adjacent to the RF bandwidth edge. In other cases, X = 0.

Table 6.6.2.5.2-2a: WA BS OBUE in BC2 bands ≤ 1 GHz – option 1

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2)

Measurement bandwidth (Note 9)

0 MHz ≤ Δf < 5 MHz

0.05 MHz ≤ f_offset < 5.05 MHz

– 5.5dBm – 7/5(f_offset/MHz-0.05)dB

100 kHz

5 MHz ≤ Δf <

min(10 MHz, Δfmax)

5.05 MHz ≤ f_offset <

min(10.05 MHz, f_offsetmax)

-12.5 dBm

100 kHz

10 MHz ≤ Δf ≤ Δfmax

10.05 MHz ≤ f_offset < f_offsetmax

-16 dBm (Note 10)

100 kHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band, the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the minimum requirement within sub-block gaps shall be -16dBm/100kHz.

NOTE 2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

NOTE 3: For operation with an E-UTRA 1.4 or 3MHz carrier adjacent to the Base Station RF Bandwidth edge, the limits in Table 6.6.2.5.2-2 apply for 0 MHz ≤ Δf < 0.15 MHz.

Table 6.6.2.5.2-2b: WA BS OBUE in BC2 bands > 1 GHz – option 1

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2)

Measurement bandwidth (Note 9)

0 MHz ≤ Δf < 5 MHz

0.05 MHz ≤ f_offset < 5.05 MHz

– 5.5dBm – 7/5(f_offset/MHz-0.05)dB

100 kHz

5 MHz ≤ Δf <

min(10 MHz, Δfmax)

5.05 MHz ≤ f_offset <

min(10.05 MHz, f_offsetmax)

-12.5 dBm

100 kHz

10 MHz ≤ Δf ≤ Δfmax

10.5 MHz ≤ f_offset < f_offsetmax

-15 dBm (Note 10)

1MHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band, the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap, where the contribution from the far-end sub-block shall be scaled according to the measurement bandwidth of the near-end sub-block. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the minimum requirement within sub-block gaps shall be -15dBm/1MHz.

NOTE 2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap, where the contribution from the far-end sub-block or RF Bandwidth shall be scaled according to the measurement bandwidth of the near-end sub-block or RF Bandwidth.

NOTE 3: For operation with an E-UTRA 1.4 or 3MHz carrier adjacent to the Base Station RF Bandwidth edge, the limits in Table 6.6.2.5.2-2 apply for 0 MHz ≤ Δf < 0.15 MHz.

Table 6.6.2.5.2-3: MR BS OBUE in BC2 bands applicable for: BS with maximum output power 31 < PRated,c ≤ 38 dBm and not supporting NR; or BS with maximum output power 31 < PRated,c ≤ 38 dBm and supporting NR with UTRA and/or GSM

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 2, 3)

Measurement bandwidth (Note 9)

0 MHz ≤ Δf < 0.6 MHz

(Note 1)

0.015MHz ≤ f_offset < 0.615MHz

PRated,c – 56.5dB – 7/5(f_offset/MHz-0.015)dB

30 kHz

0.6 MHz ≤ Δf < 1 MHz

0.615MHz ≤ f_offset < 1.015MHz

PRated,c – 51.5dB – 15(f_offset/MHz-0.215)dB

30 kHz

(Note 8)

1.015MHz ≤ f_offset < 1.5 MHz

PRated,c – 63.5 dB

30 kHz

1 MHz ≤ Δf ≤ 2.8 MHz

1.5 MHz ≤ f_offset < 3.3 MHz

PRated,c – 50.5 dB

1 MHz

2.8 MHz ≤ Δf ≤ 5 MHz

3.3 MHz ≤ f_offset < 5.5 MHz

min(PRated,c – 50.5 dB, -13.5dBm)

1 MHz

5 MHz ≤ Δf ≤ min(Δfmax, 10 MHz)

5.5 MHz ≤ f_offset < min(f_offsetmax,10.5MHz)

PRated,c – 54.5 dB

1 MHz

10 MHz ≤ Δf ≤ Δfmax

10.5 MHz ≤ f_offset < f_offsetmax

PRated,c -56dB (Note 10)

1MHz

NOTE 1: For operation with a GSM/EDGE or standalone NB-IoT or an E-UTRA 1.4 or 3 MHz carrier adjacent to the Base Station RF Bandwidth edge, the limits in Table 6.6.2.5.2-5 apply for 0 MHz ≤ Δf < 0.15 MHz.

NOTE 2: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap, where the contribution from the far-end sub-block shall be scaled according to the measurement bandwidth of the near-end sub-block. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the test requirement within sub-block gaps shall be (PRated,c – 56 dB)/MHz.

NOTE 3: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap, where the contribution from the far-end sub-block or RF Bandwidth shall be scaled according to the measurement bandwidth of the near-end sub-block or RF Bandwidth.

Table 6.6.2.5.2-3a: MR BS OBUE in BC2 bands applicable for: BS with maximum output power 31 < PRated,c ≤ 38 dBm, supporting NR, not supporting UTRA, and not supporting GSM

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2)

Measurement bandwidth (Note 9)

0 MHz ≤ Δf < 5 MHz

0.05 MHz ≤ f_offset < 5.05 MHz

PRated,c – 51.5dB – 7/5(f_offset/MHz-0.05)dB

100 kHz

5 MHz ≤ Δf < min(10 MHz, Δfmax)

5.05 MHz ≤ f_offset < min(10.05 MHz, f_offsetmax)

PRated,c-58.5dB

100 kHz

10 MHz ≤ Δf ≤ Δfmax

10.05 MHz ≤ f_offset < f_offsetmax

Min(PRated,c-60dB, -25dBm) (Note 10)

100 kHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the minimum requirement within sub-block gaps shall be Min(PRated,c-60dB, -25dBm)/100kHz.

NOTE 2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

NOTE 3: For operation with a standalone NB-IoT or an E-UTRA 1.4 or 3MHz carrier adjacent to the Base Station RF Bandwidth edge, the limits in Table 6.6.2.5.2-5 apply for 0 MHz ≤ Δf < 0.15 MHz.

Table 6.6.2.5.2-4: MR BS OBUE in BC2 bands applicable for: BS with maximum output power PRated,c ≤ 31 dBm and not supporting NR; or BS with maximum output power PRated,c ≤ 31 dBm and supporting NR with UTRA and/or GSM

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 2, 3)

Measurement bandwidth (Note 9)

0 MHz ≤ Δf < 0.6 MHz

(Note 1)

0.015MHz ≤ f_offset < 0.615MHz

30 kHz

0.6 MHz ≤ Δf < 1 MHz

0.615MHz ≤ f_offset < 1.015MHz

30 kHz

(Note 8)

1.015MHz ≤ f_offset < 1.5 MHz

-32.5 dBm

30 kHz

1 MHz ≤ Δf ≤ 5 MHz

1.5 MHz ≤ f_offset < 5.5 MHz

-19.5 dBm

1 MHz

5 MHz ≤ Δf ≤ min(Δfmax,10MHz)

5.5 MHz ≤ f_offset < min(f_offsetmax,10.5MHz)

-23.5 dBm

1 MHz

10 MHz ≤ Δf ≤ Δfmax

10.5 MHz ≤ f_offset < f_offsetmax

-25dBm (Note 10)

1MHz

NOTE 1: For operation with a GSM/EDGE or standalone NB-IoT or an E-UTRA 1.4 or 3 MHz carrier adjacent to the Base Station RF Bandwidth edge, the limits in Table 6.6.2.5.2-6 apply for 0 MHz ≤ Δf < 0.15MHz.

NOTE 2: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap, where the contribution from the far-end sub-block shall be scaled according to the measurement bandwidth of the near-end sub-block. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the test requirement within sub-block gaps shall be -25dBm/MHz.

NOTE 3: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap, where the contribution from the far-end sub-block or RF Bandwidth shall be scaled according to the measurement bandwidth of the near-end sub-block or RF Bandwidth.

Table 6.6.2.5.2-4a: MR BS OBUE in BC2 bands applicable for: BS with maximum output power PRated,c ≤ 31 dBm BS, supporting NR, not supporting UTRA, and not supporting GSM

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement (Note 1, 2)

Measurement bandwidth (Note 9)

0 MHz ≤ Δf < 5 MHz

0.05 MHz ≤ f_offset < 5.05 MHz

– 20.5dBm – 7/5(f_offset/MHz-0.05)dB

100 kHz

5 MHz ≤ Δf < min(10 MHz, Δfmax)

5.05 MHz ≤ f_offset < min(10.05 MHz, f_offsetmax)

-27.5 dBm

100 kHz

10 MHz ≤ Δf ≤ Δfmax

10.05 MHz ≤ f_offset < f_offsetmax

-29 dBm (Note 10)

100 kHz

NOTE 1: For MSR BS supporting non-contiguous spectrum operation within any operating band the minimum requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the minimum requirement within sub-block gaps shall be -29dBm/100kHz.

NOTE 2: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the minimum requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

NOTE 3: For operation with a standalone NB-IoT or an E-UTRA 1.4 or 3MHz carrier adjacent to the Base Station RF Bandwidth edge, the limits in Table 6.6.2.5.2-6 apply for 0 MHz ≤ Δf < 0.15 MHz.

Table 6.6.2.5.2-5: MR BS OBUE in BC2 bands applicable for: BS with maximum output power 31 < PRated,c ≤ 38 dBm and with GSM/EDGE or E-UTRA 1.4 or 3 MHz carriers or standalone NB-IoT adjacent to the Base Station RF Bandwidth edge

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 2, 3)

Measurement bandwidth (Note 9)

0 MHz ≤ Δf < 0.05 MHz

0.015 MHz ≤ f_offset < 0.065 MHz

PRated,c – 36.5dB – 60(f_offset/MHz-0.015)dB

30 kHz

0.05 MHz ≤ Δf < 0.15 MHz

0.065 MHz ≤ f_offset < 0.165 MHz

PRated,c – 39.5dB – 160(f_offset/MHz-0.065)dB

30 kHz

NOTE 1: The limits in this table only apply for operation with a GSM/EDGE or an E-UTRA 1.4 or 3 MHz carrier adjacent to the Base Station RF Bandwidth edge.

NOTE 2: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap.

NOTE 3: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

Table 6.6.2.5.2-6: MR BS OBUE in BC2 bands applicable for: BS with maximum output power PRated,c ≤ 31 dBm and with GSM/EDGE or E-UTRA 1.4 or 3 MHz carriers or standalone NB-IoT adjacent to the Base Station RF Bandwidth edge

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 2, 3, 4)

Measurement bandwidth (Note 9)

0 MHz ≤ Δf < 0.05 MHz

0.015 MHz ≤ f_offset < 0.065 MHz

30 kHz

0.05 MHz ≤ Δf < 0.15 MHz

0.065 MHz ≤ f_offset < 0.165 MHz

30 kHz

NOTE 1: The limits in this table only apply for operation with a GSM/EDGE or an E-UTRA 1.4 or 3 MHz carrier adjacent to the Base Station RF Bandwidth edge.

NOTE 2: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap.

NOTE 3: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

NOTE 4: In case the carrier adjacent to the Base Station RF Bandwidth edge is a GSM/EDGE carrier, the value of X = PGSMcarrier – 31, where PGSMcarrier is the power level of the GSM/EDGE carrier adjacent to the Base Station RF Bandwidth edge. In other cases, X = 0.

NOTE 5: In case the carrier adjacent to the RF bandwidth edge is a NB-IoT carrier, the value of X = PNB-IoTcarrier – 31, where PNB-IoTcarrier is the power level of the NB-IoT carrier adjacent to the RF bandwidth edge. In other cases, X = 0.

Table 6.6.2.5.2-7: LA BS OBUE in BC2 bands

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 2, 3)

Measurement bandwidth (Note 9)

0 MHz ≤ Δf < 5 MHz

(Note 1)

0.05 MHz ≤ f_offset < 5.05 MHz

100 kHz

5 MHz ≤ Δf < min(10 MHz, Δfmax)

5.05 MHz ≤ f_offset < min(10.05 MHz, f_offsetmax)

-35.5 dBm

100 kHz

10 MHz ≤ Δf ≤ Δfmax

10.05 MHz ≤ f_offset < f_offsetmax

-37 dBm (Note 10)

100 kHz

NOTE 1: For operation with a GSM/EDGE or standalone NB-IoT or an E-UTRA 1.4 or 3 MHz carrier adjacent to the Base Station RF Bandwidth edge, the limits in Table 6.6.2.5.2-8 apply for 0 MHz ≤ Δf < 0.16 MHz.

NOTE 2: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap. Exception is f ≥ 10MHz from both adjacent sub blocks on each side of the sub-block gap, where the test requirement within sub-block gaps shall be -37dBm/100 kHz.

NOTE 3: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

Table 6.6.2.5.2-8: LA BS OBUE in in BC2 bands applicable for: BS with GSM/EDGE or E-UTRA 1.4 or 3 MHz carriers or standalone NB-IoT adjacent to the Base Station RF Bandwidth edge

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Test requirement (Note 2, 3, 4)

Measurement bandwidth (Note 9)

0 MHz ≤ Δf < 0.05 MHz

0.015 MHz ≤ f_offset < 0.065 MHz

30 kHz

0.05 MHz ≤ Δf < 0.16 MHz

0.065 MHz ≤ f_offset < 0.175 MHz

30 kHz

NOTE 1: The limits in this table only apply for operation with a GSM/EDGE or an E-UTRA 1.4 or 3 MHz carrier adjacent to the Base Station RF Bandwidth edge.

NOTE 2: For MSR BS supporting non-contiguous spectrum operation within any operating band the test requirement within sub-block gaps is calculated as a cumulative sum of contributions from adjacent sub blocks on each side of the sub block gap.

NOTE 3: For MSR BS supporting multi-band operation with Inter RF Bandwidth gap < 2×ΔfOBUE the test requirement within the Inter RF Bandwidth gaps is calculated as a cumulative sum of contributions from adjacent sub-blocks or RF Bandwidth on each side of the Inter RF Bandwidth gap.

NOTE 4: In case the carrier adjacent to the Base Station RF Bandwidth edge is a GSM/EDGE carrier, the value of X = PGSMcarrier – 24, where PGSMcarrier is the power level of the GSM/EDGE carrier adjacent to the Base Station RF Bandwidth edge. In other cases, X = 0.

NOTE 5: In case the carrier adjacent to the RF bandwidth edge is a NB-IoT carrier, the value of X = PNB-IoTcarrier – 24, where PNB-IoTcarrier is the power level of the NB-IoT carrier adjacent to the RF bandwidth edge. In other cases, X = 0.

NOTE 8: This frequency range ensures that the range of values of f_offset is continuous.

NOTE 9: As a general rule for the requirements in the present clause, the resolution bandwidth of the measuring equipment should be equal to the measurement bandwidth. However, to improve measurement accuracy, sensitivity and efficiency, the resolution bandwidth may be smaller than the measurement bandwidth. When the resolution bandwidth is smaller than the measurement bandwidth, the result should be integrated over the measurement bandwidth in order to obtain the equivalent noise bandwidth of the measurement bandwidth.

NOTE 10: The requirement is not applicable when Δfmax < ΔfOBUE.

6.6.2.5.3 Test requirements for GSM/EDGE single-RAT requirements

The following test requirements and the corresponding test method specified in TS 51.021 [11] apply to an MSR Base Station for any operating band with GSM/EDGE single RAT operation in Band Category 2:

– Spectrum due to the modulation and wide band noise, applicable parts of clause 6.5.1.

– Spectrum due to switching transients, applicable parts of clause 6.5.2.

– Emission requirement for frequency offsets of between 2 and 10 MHz outside relevant transmit band, applicable parts of clause 6.6.2.

– Intra BTS Intermodulation, applicable parts of clause 6.12.

6.6.2.5.4 Test requirements for additional requirements

6.6.2.5.4.1 Limits in FCC Title 47

In addition to the requirements in clauses 6.6.2.5.1 and 6.6.2.5.2, the BS may have to comply with the applicable emission limits established by FCC Title 47 [8], when deployed in regions where those limits are applied, and under the conditions declared by the manufacturer.

6.6.2.5.4.2 Unsynchronized operation for BC3

In certain regions, the following requirements may apply to a TDD BS operating in BC3 in the same geographic area and in the same operating band as another TDD system without synchronisation. For this case the emissions shall not exceed -52 dBm/MHz in each supported downlink operating band except in:

– The frequency range from 10 MHz below the lower Base Station RF Bandwidth edge to the frequency 10 MHz above the upper Base Station RF Bandwidth edge of each supported band.

NOTE 1: Local or regional regulations may specify another excluded frequency range, which may include frequencies where synchronised TDD systems operate.

NOTE 2: TDD Base Stations that are synchronized and operating in BC3 can transmit without these additional co-existence requirements.

NOTE 3: Unsynchronized operation for BC3 BS with any NR configuration is FFS.

6.6.2.5.4.3 Protection of DTT

In certain regions the following requirement may apply for protection of DTT. For a BS operating in Band 20, the level of emissions in the band 470-790 MHz, measured in an 8 MHz filter bandwidth on centre frequencies Ffilter according to Table 6.6.2.5.4.3-1, shall not exceed the maximum emission level PEM,N declared by the manufacturer. This requirement applies in the frequency range 470-790 MHz even though part of the range falls in the spurious domain.

Table 6.6.2.5.4.3-1: Declared emissions levels for protection of DTT

Filter centre frequency, Ffilter

Measurement bandwidth

Declared emission level [dBm]

Ffilter = 8*N + 306 (MHz);
21 ≤ N ≤ 60

8 MHz

PEM,N

NOTE: The regional requirement is defined in terms of EIRP (effective isotropic radiated power), which is dependent on both the BS emissions at the antenna connector and the deployment (including antenna gain and feeder loss). The requirement defined above provides the characteristics of the Base Station needed to verify compliance with the regional requirement. Compliance with the regional requirement can be determined using the method outlined in Annex G of TS 36.104 [5].

6.6.2.5.4.4 Void

Table 6.6.2.5.4.4-1: Void

6.6.2.5.4.5 Void

Table 6.6.2.5.4.5-1: Void

6.6.2.5.4.6 Additional band 32, 50, 51, 74, 75 and 76 unwanted emissions

In certain regions, the following requirements may apply to BS operating in Band 32 within 1452-1492 MHz, in Band 75 within 1432-1517 MHz and in Band 76 within 1427-1432 MHz. The level of operating band unwanted emissions, measured on centre frequencies f_offset with filter bandwidth, according to Table 6.6.2.5.4.6-1, shall neither exceed the maximum emission level PEM,B32,B75,B76,a , PEM,B32,B75,B76,b nor PEM,B32,B75,B76,c declared by the manufacturer.

For Band 32, this requirement applies in the frequency range 1452-1492 MHz when non-Mobile/Fixed Communications Network (MFCN) services are deployed in adjacent frequency ranges, while it applies also within 1427-1452 MHz and/or 1492-1517 MHz when MFCN services are deployed in such frequency ranges, even though part of the ranges falls in the spurious domain. For Band 75, this requirement applies in the frequency range 1427-1517 MHz. For Band 76, this requirement applies in the frequency range 1432-1517 MHz even though part of the range falls in the spurious domain.

Table 6.6.2.5.4.6-1: Declared operating band 32, 75 and 76 unwanted emission within 1427-1517 MHz

Frequency offset of measurement filter centre frequency, f_offset

Declared emission level [dBm]

Measurement bandwidth

2.5 MHz

PEM,B32,B75,B76,a

5 MHz

7.5 MHz

PEM,B32,B75,B76,b

5 MHz

12.5 MHz ≤ f_offset ≤ f_offsetmax

PEM,B32,B75,B76,c

5 MHz

NOTE: For Band 32, when non-MFCN services are deployed in the adjacent bands, f_offsetmax denotes the frequency difference between the lower Base Station RF Bandwidth edge and 1454.5 MHz, and the frequency difference between the upper Base Station RF Bandwidth edge and 1489.5 MHz for the set channel position. For Band 32, when MFCN services are deployed in the adjacent frequencies, Band 75 and Band 76, f_offsetmax denotes the frequency difference between the lower Base Station RF Bandwidth edge and 1429.5 MHz, and the frequency difference between the upper Base Station RF Bandwidth edge and 1514.5 MHz for the set channel position

NOTE: The regional requirement, included in [25], is defined in terms of EIRP per antenna, which is dependent on both the BS emissions at the antenna connector and the deployment (including antenna gain and feeder loss). The requirement defined above provides the characteristics of the base station needed to verify compliance with the regional requirement. The assessment of the EIRP level is described in Annex H of TS 36.104 [5].

In certain regions, the following requirement may apply to BS operating in Band 32 within 1452-1492MHz for the protection of non-MFCN services in spectrum adjacent to the frequency range 1452-1492 MHz. The level of emissions, measured on centre frequencies Ffilter with filter bandwidth according to Table 6.6.2.5.4.6-2, shall neither exceed the maximum emission level PEM,B32,d nor PEM,B32,e declared by the manufacturer. This requirement applies in the frequency range 1429-1518MHz even though part of the range falls in the spurious domain.

Table 6.6.2.5.4.6-2: Operating band 32 declared emission outside 1452-1492 MHz

Filter centre frequency, Ffilter

Declared emission level [dBm]

Measurement bandwidth

1429.5 MHz ≤ Ffilter ≤ 1448.5 MHz

PEM,B32,d

1 MHz

Ffilter = 1450.5 MHz

PEM,B32,e

3 MHz

Ffilter = 1493.5 MHz

PEM,B32,e

3 MHz

1495.5 MHz ≤ Ffilter ≤ 1517.5 MHz

PEM,B32,d

1 MHz

NOTE: The regional requirement, included in [24], is defined in terms of EIRP, which is dependent on both the BS emissions at the antenna connector and the deployment (including antenna gain and feeder loss). The requirement defined above provides the characteristics of the base station needed to verify compliance with the regional requirement. The assessment of the EIRP level is described in Annex H of TS 36.104 [5].

In certain regions, the following requirement may apply to BS operating in Band 50 and Band 75 within 1492-1517 MHz and in Band 74 within 1492-1518 MHz. The level of emissions, measured on centre frequencies Ffilter with filter bandwidth according to Table 6.6.2.5.4.6-3, shall neither exceed the maximum emission level PEM,B50,B74,B75,a nor PEM,B50,B74,B75,b declared by the manufacturer.

Table 6.6.2.5.4.6-3: Operating band 50, 74 and 75 declared emission above 1518 MHz

Filter centre frequency, Ffilter

Declared emission level [dBm]

Measurement bandwidth

1518.5 MHz ≤ Ffilter ≤ 1519.5 MHz

PEM,B50,B74,B75,a

1 MHz

1520.5 MHz ≤ Ffilter ≤ 1558.5 MHz

PEM,B50,B74,B75,b

1 MHz

NOTE: The regional requirement, included in [25], is defined in terms of EIRP, which is dependent on both the BS emissions at the antenna connector and the deployment (including antenna gain and feeder loss). The requirement defined above provides the characteristics of the base station needed to verify compliance with the regional requirement. The assessment of the EIRP level is described in Annex H.

In certain regions, the following requirement may apply to E-UTRA or NR BS operating in Band 50 and Band 75 within 1432-1452 MHz, and in Band 51 and Band 76. Emissions shall not exceed the maximum levels specified in Table 6.6.2.5.4.6-4.

Table 6.6.2.5.4.6-4: Additional operating band unwanted emission limits for BS operating in Band 50 and 75 within 1432-1452 MHz, and in Band 51 and 76

Filter centre frequency, Ffilter

Maximum Level [dBm]

Measurement Bandwidth

Ffilter = 1413.5 MHz

-42

27 MHz

6.6.2.5.4.7 Additional requirements for band 48

The following requirement may apply to BS operating in Band 48 in certain regions. Emissions shall not exceed the maximum levels specified in Table 6.6.2.4.9-1.

Table 6.6.2.5.4.7-1: Additional operating band unwanted emission limits for Band 48

Channel bandwidth

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement

Measurement bandwidth

All

0 MHz ≤ Δf < 10 MHz

0.5 MHz ≤ f_offset < 9.5 MHz

-13 dBm

1 MHz

6.6.2.5.4.8 Additional requirements for band 53

The following requirement may apply to BS operating in Band 53 in certain regions. Emissions shall not exceed the maximum levels specified in Table 6.6.2.5.4.8-1.

Table 6.6.2.5.4.8-1: Additional operating band unwanted emission limits for Band 53

Channel bandwidth [MHz]

Frequency range [MHz]

Frequency offset of measurement filter ‑3dB point, Δf

Frequency offset of measurement filter centre frequency, f_offset

Minimum requirement

Measurement bandwidth

1.4, 3, 5

2400 – 2477.5

6 MHz ≤ Δf < 83.5 MHz

6.5 MHz ≤ f_offset < 83 MHz

-25 dBm

1 MHz

10

2400 – 2473.5

10 MHz ≤ Δf < 83.5 MHz

10.5 MHz ≤ f_offset < 83 MHz

-25 dBm

1 MHz

1.4, 3, 5

2477.5 – 2478.5

5 MHz ≤ Δf < 6 MHz

5.5 MHz

-13 dBm

1 MHz

10

2473.5 – 2478.5

5 MHz ≤ Δf < 10 MHz

5.5 MHz ≤ f_offset < 9.5 MHz

-13 dBm

1 MHz

All

2478.5 – 2483.5

0 MHz ≤ Δf < 5 MHz

0.5 MHz ≤ f_offset < 4.5 MHz

-10 dBm

1 MHz

1.4, 3, 5

2495 – 2501

0 MHz ≤ Δf < 6 MHz

0.5 MHz ≤ f_offset < 5.5 MHz

-13 dBm

1 MHz

10

2495 – 2505

0 MHz ≤ Δf < 10 MHz

0.5 MHz ≤ f_offset < 9.5 MHz

-13 dBm

1 MHz

1.4, 3, 5

2501 – 2690

6 MHz ≤ Δf < 195 MHz

6.5 MHz ≤ f_offset < 194.5 MHz

-25 dBm

1 MHz

10

2505 – 2690

10 MHz ≤ Δf < 195 MHz

10.5 MHz ≤ f_offset < 194.5 MHz

-25 dBm

1 MHz