Policy on Intellectual Property Right (IPR)
Annex 1 IMT-2000 code division multiple access (CDMA)
direct spread (universal terrestrial radio access (UTRA) FDD) base stations
1 Measurement uncertainty
2 Spectrum mask
2.1 UTRA spectrum
mask
2.2 E-UTRA (LTE)
spectrum mask
2.2.1 E-UTRA
spectrum mask for wide area BS (Category A)
2.2.2 E-UTRA
spectrum mask for wide area BS (Category B)
2.2.3 E-UTRA
spectrum mask for local area BS (Category A and B)
2.2.4 E-UTRA
spectrum mask for home BS (Category A and B)
2.2.5 E-UTRA
spectrum mask (additional limits)
3 Adjacent channel leakage
power ratio
3.1 ACLR for UTRA
3.2 ACLR for E-UTRA
(LTE)
4 Transmitter spurious
emission (conducted)
4.1 Mandatory
requirements
4.1.1 Category
A for UTRA and E-UTRA
4.1.2 Category
B
4.2 Coexistence
with other systems in the same geographical area
4.2.1 Coexistence
with other systems in the same geographical area for UTRA
4.2.2 Coexistence
with other systems in the same geographical area for E-UTRA
4.3 Co-location
with other base stations
4.3.1 Co-existence
with co-located and co-sited base stations for UTRA
4.3.2 Co-location
with other base stations for E-UTRA
4.4 Coexistence
with PHS
4.5 Co-existence with services in adjacent frequency bands
4.6 Protection of
public safety operations
4.7 Co-existence
with Home UTRA BS operating in other bands
4.9 Protection of
the E-UTRA FDD BS receiver of own or different BS
4.10 Protection of
the UTRA FDD BS receiver of own or different BS
5 Receiver spurious emission
Annex 2 IMT-2000 CDMA multi-carrier (cdma-2000) Base
Stations
1 CDMA2000 and CDMA2000 high
rate packet data (HRPD)
1.1 Spectrum mask
1.2 Transmitter
spurious emission
1.3 Adjacent
channel leakage power ratio
1.4 Receiver
spurious emission
2 Ultra Mobile Broadband
(UMB)
2.1 Spectrum mask
2.2 Transmitter
spurious emission
2.3 Adjacent
channel leakage power ratio
Annex 3 IMT-2000 CDMA TDD (UTRA TDD) base
stations
1 Measurement uncertainty
2 Spectrum mask
2.1 UTRA 3.84
Mchip/s TDD option
2.2 UTRA
1.28 Mchip/s TDD option
2.3 UTRA 7.68
Mchip/s TDD option
2.4 E-UTRA (LTE)
spectrum mask
2.4.1 E-UTRA
spectrum mask (Category A)
2.4.2 E-UTRA
spectrum mask (Category B, Option 1)
2.4.2a E-UTRA
spectrum mask for Wide Area BS (Category B, Option 2)
2.4.3 E-UTRA
spectrum mask for local area BS (Category A and B)
2.4.4 E-UTRA
spectrum mask for Home BS (Category A and B)
2.4.5 E-UTRA
spectrum mask (additional limits)
3 ACLR
3.1 ACLR for UTRA
3.2 ACLR for E-UTRA
(LTE)
4 Transmitter spurious
emission (conducted)
4.1 Coexistence
with GSM 900
4.2 Coexistence
with DCS 1800
4.3 Coexistence
with UTRA-FDD
4.3.1 Operation
in the same geographic area
4.3.2 Co-located
base stations
4.4 Co-existence
of UTRA TDD with unsynchronized UTRA TDD and/or E-UTRA TDD
4.4.1 Operation
in the same geographic area
4.4.2 Co-located
base stations
4.5 Coexistence
with other systems in the same geographical area for E-UTRA
4.6 Co-location
with other base stations for E-UTRA
4.7 Coexistence
with PHS
5 Receiver spurious emission
5.1 3.84 Mchip/s
UTRA TDD option
5.2 1.28 Mchip/s
UTRA TDD option
5.3 7.68 Mchip/s
UTRA TDD option
5.4 E-UTRA TDD
option
Annex 4 TDMA Single-Carrier (UWC-136) base stations
1 Spectrum mask
2 Transmitter spurious
emissions (conducted)
2.1 Coexistence
with services in adjacent frequency bands
3 Receiver spurious emissions
(idle mode)
1 Frequency bands and
channel arrangement
i) T-GSM 380 band:
ii) T-GSM 410 band:
iii) GSM 450 Band:
iv) GSM 480 Band;
v) GSM 710 Band:
vi) GSM 750 Band:
vii) T-GSM 810 Band:
viii) GSM 850 Band:
ix) Standard or primary
GSM 900 Band, P‑GSM:
x) Extended GSM 900
Band, E‑GSM (includes Standard GSM 900 band):
xi) Railways GSM 900
Band, R‑GSM (includes Standard and Extended GSM 900 Band):
xii) Void:
xiii) DCS 1 800 Band:
xiv) PCS 1 900 Band:
2 Spectrum
3 Spectrum due to the
modulation and wideband noise
4 Spectrum due to switching
transients
5 Transmitter spurious
emissions
5.1 Principle of
the specification
5.1.1 Relation to definitions and requirements in CEPT/ERC/REC 74-01
and ITU‑R SM.329
6 Coexistence with services
in adjacent frequency bands
6.2 Additional
requirements for coexistence with other 3G technologies
7 Receiver spurious
emissions (idle mode)
7.1 Principle of
the specification
7.1.1 Relation
to definitions and requirements in CEPT/ERC/REC 74-01 and ITU‑R SM.329
Annex 5 FDMA/TDMA (Digital enhanced cordless
telecommunications (DECT)) base
stations
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
Annex 6 IMT-2000 OFDMA TDD WMAN base stations
1 Introduction
2 Spectrum emission mask
2.1 Default
spectrum emission mask
2.2 Spectrum
emission mask for TDD equipment operating in the band 2 300‑2 400 MHz
(BCG 1.A/1.B)
2.3 Spectrum
emission mask for TDD equipment operating in the band 2 500-2 690 MHz (BCG 3.A)
2.4 Spectrum
emission mask for FDD equipment operating in the band 2 496‑2 572/
2 614-2 690 MHz (BCG 3.B)
2.5 Spectrum
emission mask for TDD equipment operating in the band
3 400-3 600 MHz (BCG 5L.A/5L.B/5L.C)
2.6 Spectrum
emission mask for TDD equipment operating in the band 3 600‑3 800 MHz
(BCG 5H.A/5H.B/5H.C)
2.7 Spectrum
emission mask for FDD equipment operating in the band 1 710‑1 770/
2 110-2 170 MHz (BCG 6.A)
2.8 Spectrum
emission mask for FDD equipment operating in the band 1 920-1 980/
2 110-2 170 MHz (BCG 6.B)
2.9 Spectrum
emission mask for FDD equipment operating in the band 1 710‑1 785/
1 805-1 880 MHz (BCG 6.C)
2.10 Spectrum
emission mask for TDD equipment operating in the band 698-862 MHz (BCG 7.A)
2.11 Spectrum
emission mask for FDD equipment operating in the band 776‑787/746‑757 MHz
(BCG 7.B)
2.12 Spectrum
emission mask for FDD equipment operating in the band 788-793/ 758-763 and
793-798/763-768 MHz (BCG 7.C)
2.13 Spectrum
emission mask for FDD equipment operating in the band 788‑798/758‑768 MHz
(BCG 7.D)
2.14 Spectrum
emission mask for TDD and FDD equipment operating in the band 698-862 MHz
(BCG 7.E)
2.15 Spectrum
emission mask for FDD equipment operating in the band 880‑915/925‑960 MHz
(BCG 7.G)
3 Transmitter spurious
emissions (conducted)
3.1 Default
spurious emissions
3.2 Spurious
emissions for TDD equipment operating in the band
2 300-2 400 MHz (BCG 1.A/1.B)
3.3 Spurious
emissions for TDD equipment operating in the band
2 500-2 690 MHz (BCG 3.A)
3.4 Spurious
emission for FDD equipment operating in the band 2 496‑2 572/2 614‑2 690 MHz
(BCG 3.B)
3.5 Spurious
emissions for TDD equipment operating in the band 3 400-3 600 MHz
(BCG 5L.A/5L.B/5L.C)
3.6 Spurious
emission for TDD equipment operating in the band 3 600-3 800 MHz
(BCG 5H.A/5H.B/5H.C)
3.7 Spurious
emission for FDD equipment operating in the band 1 710-1 770/2 110-2
170 MHz (BCG 6.A)
3.8 Spurious
emissions for FDD equipment operating in the band 1 920-1 980/
2 110-2 170 MHz (BCG 6.B)
3.9 Spurious
emissions for FDD equipment operating in the band 1 710-1 785/ 1
805-1 880 MHz (BCG 6.C)
3.10 Spurious
emissions for FDD equipment operating in the band 880-915/925-960 MHz (BCG 7.G)
3.11 Coexistence
with other systems in the same geographical/service area
4 Receiver spurious
emissions (conducted)
5 Adjacent channel leakage
ratio (ACLR)
5.1 ACLR values
for TDD equipment operating in the band 2 302.5 £ fc £ 2 397.5
(BCG 1.B)
5.2 ACLR values
for TDD equipment operating in the band 2 500-2 690 MHz (BCG
3.A)
5.3 Inter-system
and intra-system scenarios
5.4 ACLR values
for TDD equipment operating in the band 3 400-3 600 MHz
(BCG 5L.A/5L.B/5L.C)
5.5 ACLR values
for TDD equipment operating in the band 3 600-3 800 MHz
(BCG 5H.A/5H.B/5H.C)
5.6 ACLR values
for FDD equipment operating in the band 1 710-1 785/1 805-1
880 MHz (BCG 6.C)
5.7 ACLR values
for FDD equipment operating in the band 880-915/925-960 MHz (BCG 7.G)
6 Test tolerance
Attachment (to Annex 6) Definition of test tolerance