CONTENTS

Policy on Intellectual Property Right (IPR)
 1     Measurement uncertainty
 2     Spectrum mask
        2.1     UTRA spectrum mask
                  2.1.1     Additional spectrum emission mask for DC-HSUPA
        2.2     E-UTRA spectrum mask
                  2.2.1     E-UTRA spectrum mask
                  2.2.2     Additional E-UTRA spectrum mask
 3     Adjacent channel leakage power ratio (ACLR)
        3.1     UTRA ACLR
        3.2     E-UTRA ACLR
                  3.2.1     Limits for E-UTRA
                  3.2.2     Limits for E-UTRA for UTRA coexistence in the same geographical area
                  3.2.3     Additional ACLR limits for UTRA
 4     Transmitter spurious emissions (conducted)
        4.1     Transmitter spurious emissions for UTRA
        4.2     Transmitter spurious emissions for E-UTRA
                  4.2.1     Additional spurious emissions
 5     Receiver spurious emissions (conducted)
        5.1     Receiver spurious emissions for UTRA
        5.2     Receiver spurious emissions for E-UTRA
 1     Spectrum mask
        1.1     Spreading rate 1
        1.2     Multi-carrier HRPD
        1.3     Spreading rate 3
 2     Transmitter spurious emissions (conducted)
 3     Adjacent channel leakage power ratio
 4     Receiver spurious emissions (conducted)
 1     Spectrum mask
 2     Transmitter spurious emission
 3     Adjacent channel leakage power ratio
 1     Measurement uncertainty
 2     Spectrum mask
        2.1     Spectrum mask (3.84 Mchip/s UTRA TDD option)
        2.2     Spectrum mask (1.28 Mchip/s UTRA TDD option)
        2.3     Spectrum mask (7.68 Mchip/s UTRA TDD option)
        2.4     E-UTRA spectrum mask
                  2.4.1     General E-UTRA spectrum mask
                  2.4.2     Additional E-UTRA spectrum mask
 3     ACLR
        3.1     ACLR for UTRA
        3.2     ACLR for E-UTRA
                  3.2.1     Limits for E-UTRA
                  3.2.2     Limits for EUTRA for UTRA coexistence in the same geographical area
 4     Transmitter spurious emissions (conducted)
        4.1     Transmitter spurious emissions for UTRA
        4.2     Transmitter spurious emissions for E-UTRA
                  4.2.1     Additional spurious emissions
 5     Receiver spurious emissions (conducted)
        5.1     Receiver spurious emissions for UTRA
        5.2     Receiver spurious emissions for E-UTRA
 1     Spectrum mask
 2     Transmitter spurious emissions (conducted)
        2.1     Coexistence with services in adjacent frequency bands
 3     Receiver spurious emissions (idle mode)
 1     Spectrum mask
 2     Spectrum due to the modulation and wideband noise
 3     Spectrum due to switching transients
 4     Transmitter spurious emissions (conducted)
 5     Coexistence with services in adjacent frequency bands
 6     Receiver spurious emissions (idle mode)
 1     Spectrum mask
 2     Emissions due to modulation
 3     Emissions due to transmitter transients
 4     Transmitter spurious emissions (conducted)
        4.1     Spurious emissions when allocated a transmit channel
 5     Receiver spurious emissions (idle mode)
        5.1     Spurious emissions when the EUT has no allocated transmit channel
        5.2     In the DECT band
 1     Spectrum emission mask
        1.1     Default spectrum emission mask
        1.2     Spectrum emission mask for TDD equipment operating in the band 2 300-2 400 MHz (BCG 1.A/1.B)
        1.3     Spectrum emission mask for TDD equipment operating in the band 2 500-2 690 MHz (BCG 3.A)
        1.4     Spectrum emission mask for TDD equipment operating in the band 3 400-3 600 MHz (BCG 5L.A/5L.B/5L.C)
                  1.4.1     5 MHz channel bandwidth
                  1.4.2     7 MHz channel bandwidth
                  1.4.3     10 MHz channel bandwidth
        1.5     Spectrum emission mask for TDD equipment operating in the bands 3 600-3 800 MHz (BCG 5H.A/5H.B/5H.C)
                  1.5.1     5 MHz channel bandwidth
                  1.5.2     7 MHz channel bandwidth
                  1.5.3     10 MHz channel bandwidth
        1.6     Spectrum emission mask for FDD equipment operating in the bands 1 710‑1 770/2 110-2 170 MHz (BCG 6A)
        1.7     Spectrum emission mask for FDD equipment operating in the bands 1 920‑1 980/2 110-2 170 MHz (BCG 6.B)
        1.8     Spectrum emission mask for FDD equipment operating in the band 2 496-2 690 MHz (BCG 3.B)
        1.9     Spectrum emission mask for FDD equipment operating in the bands 1 710‑1 785/1 805-1 880 MHz (BCG 6.C)
       1.10     Spectrum emission mask for TDD equipment operating in the bands 698-862 MHz (BCG 7.A)
       1.11     Spectrum emission mask for FDD equipment operating in the bands 776‑787/746‑757 MHz (BCG 7.B)
       1.12     Spectrum emission mask for FDD equipment operating in the bands 788-793/ 758-763 and 793-798/763-768 MHz (BCG 7.C)
       1.13     Spectrum emission mask for FDD equipment operating in the bands 788‑798/758‑768 MHz (BCG 7.D)
       1.14     Spectrum emission mask for FDD and TDD equipment operating in the bands 698‑862 MHz (BCG 7.E)
       1.15     Spectrum emission mask for FDD equipment operating in the bands 880‑915/925‑960 MHz (BCG 7.F)
       1.16     Spectrum emission mask for TDD equipment operating in the bands 1 785-1 805, 1 880-1 920, 1 910-1 930, 2 010-2 025, and 1 900-1 920 MHz (BCG 8.A)
 2     Transmitter spurious emissions (conducted)
        2.1     Default spurious emissions
        2.2     Spurious emissions for TDD equipment operating in the band 2 300-2 400 MHz (BCG 1.A/1.B)
        2.3     Spurious emissions for TDD equipment operating in the band 2 500-2 690 MHz (BCG 3.A)
        2.4     Spurious emission for TDD equipment operating in the band 3 400-3 600 MHz (BCG 5L.A/5L.B/5L.C)
        2.5     Spurious emissions for TDD equipment operating in the band 3 600-3 800 MHz (BCG 5H.A/5H.B/5H.C)
        2.6     Spurious emissions for FDD equipment operating in the band 1 710‑1 770/2 110‑2 170 MHz (BCG 6.A)
        2.7     Spurious emissions for FDD equipment operating in the band 1 920‑1 980/2 110‑2 170 MHz (BCG 6.B)
        2.8     Spurious emissions for FDD equipment operating in the band 2 496-2 690 MHz (BCG 3.B)
        2.9     Spurious emissions for FDD equipment operating in the band 1 710‑1 785/1 805‑1 880 MHz (BCG 6.C)
       2.10     Spurious emissions for TDD equipment operating in the band 698-862 MHz (BCG 7.A)
       2.11     Spurious emissions for FDD equipment operating in the band 776-787/746-757 MHz (BCG 7.B)
       2.12     Spurious emissions for FDD equipment operating in the band 788-793/758-763 and 793-798/763-768 MHz (BCG 7.C)
       2.13     Spurious emission for FDD equipment operating in the bands 788-798/758-768 MHz (BCG 7.D)
       2.14     Spurious emission for FDD and TDD equipment operating in the bands 698-862 MHz (BCG 7.E)
       2.15     Spurious emission for FDD equipment operating in the bands 880-915/925-960 MHz (BCG 7.G)
       2.16     Spurious emission for TDD equipment operating in the bands 1 785-1 805, 1 880‑1 920, 1 910-1 930, 2 010-2 025, and 1 900-1 920 MHz (BCG 8.A)
 3     Receiver spurious emissions (conducted)
        3.1     Spurious emissions for TDD equipment operating in the band 2 500-2 690 MHz (BCG 3.A)
 4     Adjacent channel leakage ratio (ACLR)
        4.1     ACLR values for TDD equipment operating in the band 2 300-2 400 MHz (BCG 1.B)
        4.2     ACLR of TDD equipment operating in the frequency range 2 500-2 690 MHz (BCG 3.A)
        4.3     ACLR of TDD equipment operating in the frequency range 3 400-3 600 MHz (BCG 5L.A/5L.B/5L.C)
        4.4     ACLR values for FDD equipment operating in the band 1 710-1 785/1 805-1 880 MHz (BCG 6.C)
        4.5     ACLR values for FDD equipment operating in the bands 880-915/925-960 MHz (BCG 7.G)
 5     Test tolerance