hash stringlengths 32 32 | doc_id stringlengths 5 12 | section stringlengths 5 1.47k | content stringlengths 0 6.67M |
|---|---|---|---|
d3ac8d6aa3347ad7b01f9ee2550c87ae | 28.543 | 4.4 Attribute definitions | |
d3ac8d6aa3347ad7b01f9ee2550c87ae | 28.543 | 4.4.1 Attribute properties | The following table defines the attributes that are present in several Information Object Classes (IOCs) of the present document.
Attribute Name
Documentation and Allowed Values
Properties
aMFIdentifier
The AMFI is constructed from an AMF Region ID, an AMF Set ID and an AMF Pointer. The AMF Region ID identifies the reg... |
d3ac8d6aa3347ad7b01f9ee2550c87ae | 28.543 | 4.5 Common notifications | 5 Solution Set
This specification defines the following 3GPP 5GC NRM Solution Set definitions:
- JSON based 3GPP 5GC NRM Solution Set (Annex A).
Annex A (normative):
JSON definitions
A.1 General
This annex contains the JSON definitions for the 5GC NRM, in accordance with 5GC NRM information model definitions specified... |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 1 Scope | The present document constitutes the output of the initial evaluation phase for the work item “LTE RAN Enhancements for Diverse Data Applications” (LTE_eDDA). The document captures agreements and descriptions related to the evaluation methodology used, descriptions of enhancement proposals and their evaluation results... |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 2 References | The following documents contain provisions which, through reference in this text, constitute provisions of the present document.
- References are either specific (identified by date of publication, edition number, version number, etc.) or non‑specific.
- For a specific reference, subsequent revisions do not apply.
- Fo... |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 3 Definitions, symbols and abbreviations | |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 3.1 Definitions | For the purposes of the present document, the terms and definitions given in TR 21.905 [x] and the following apply. A term defined in the present document takes precedence over the definition of the same term, if any, in TR 21.905 [x].
<example>: <text used to clarify abstract rules by applying them literally>. |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 3.2 Symbols | For the purposes of the present document, the following symbols apply:
<symbol> <Explanation> |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 3.3 Abbreviations | For the purposes of the present document, the abbreviations given in TR 21.905 [x] and the following apply. An abbreviation defined in the present document takes precedence over the definition of the same abbreviation, if any, in TR 21.905 [x].
<ACRONYM> <Explanation> |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 4 Evaluation Methodology | Enhancement proposals considered as part of the LTE_eDDA work item are likely to exhibit some diversity in their focus on different application/traffic situations, and to tackle different areas of the system and its optimisation.
In order to provide the necessary degree of commonality and comparability between company ... |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 4.1 Evaluation Guidelines | |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 4.1.1 Traffic Sources | The following alternatives have been identified to generate source traffic for the purposes of evaluation:
Traffic Trace:
Data traffic or packets captured from live systems or apparatus running one or more applications of interest
Synthetic Models:
Abstract modelling of application-level and/or user behaviours in order... |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 4.1.2 Simulation Environment | • For the purposes of simulation, a suitable abstraction of the physical layer is permitted (it need not be explicitly modelled). Where appropriate, basic HARQ functionality at the sub-frame level should be included.
• Depending on the nature of the proposal, some evaluations may require that TCP is modelled. Evaluat... |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 4.1.3 Output Metrics | Metrics of interest are dependent on the nature of a particular proposal. However, the following guidelines regarding output metrics are recommended. It is expected that wherever there is perceived to be a significant impact to one of the areas covered by these metrics, the associated metric(s) will be provided and t... |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 4.2 Traffic Scenarios and Characterisation | The following traffic scenarios provide the primary focus for the evaluations. The emphasis is on smartphone and tablet device types (rather than PCs).
Table 4.2-1: Traffic scenarios
Label
Traffic Scenario
Description
Top priority
A
Background Traffic
Traffic from an unattended phone with applications not in “active ... |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 4.2.1 A) Background Traffic | Editor’s note: pending outcome of RAN2 email discussion on packet inter-arrival and packet size CDFs |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 4.2.2 B) Instant Messaging | Editor’s note: pending outcome of RAN2 email discussion on packet inter-arrival and packet size CDFs |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 4.2.3 C) Gaming | Editor’s note: pending outcome of RAN2 email discussion on packet inter-arrival and packet size CDFs |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 4.2.4 D) Interactive Content Pull | Editor’s note: pending outcome of RAN2 email discussion on packet inter-arrival and packet size CDFs |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 4.2.5 E) HTTP Video Streaming | Editor’s note: pending outcome of RAN2 email discussion on packet inter-arrival and packet size CDFs |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 5 Evaluation of existing EUTRAN functionality | Editor’s note: Intention is to include evaluations for existing functionality in Rel-8/9/10 |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 6 Proposals and Evaluations (new functionality) | Editor’s note: Intention is to describe proposals along with their evaluations within separate sub-clauses 6.1, 6.2, … etc… It may at a later stage be possible to re-structure this section such that similar proposals are logically grouped |
f5fd9ff51348f38f64d5c2b5cf01e495 | 36.832 | 7 Recommendations and Conclusions | Annex <A>:
<Annex title>
A.1 <Annex Heading>
Annex <X>:
Change history
Change history
Date
TSG #
TSG Doc.
CR
Rev
Subject/Comment
Old
New
2011-09
Initial draft version capturing the outcome of RAN2#75
---
0.0.0 |
389f9b67c003a620147a83200e3331ae | 36.851 | 1 Scope | The present document is a technical report for Inter-band Carrier Aggregation under Rel-12 time frame. The purpose is to gather the relevant background information and studies in order to address Inter-band Carrier Aggregation requirements.
This TR covers relevant background information and studies in order to address ... |
389f9b67c003a620147a83200e3331ae | 36.851 | 2 References | The following documents contain provisions which, through reference in this text, constitute provisions of the present document.
- References are either specific (identified by date of publication, edition number, version number, etc.) or non‑specific.
- For a specific reference, subsequent revisions do not apply.
- Fo... |
389f9b67c003a620147a83200e3331ae | 36.851 | 3 Definitions, symbols and abbreviations | |
389f9b67c003a620147a83200e3331ae | 36.851 | 3.1 Definitions | For the purposes of the present document, the terms and definitions given in TR 21.905 [1] and the following apply. A term defined in the present document takes precedence over the definition of the same term, if any, in TR 21.905 [1].
Carrier aggregation: Aggregation of two or more component carriers in order to suppo... |
389f9b67c003a620147a83200e3331ae | 36.851 | 3.2 Symbols | For the purposes of the present document, the following symbols apply:
FDL_low The lowest frequency of the downlink operating band
FDL_high The highest frequency of the downlink operating band
FUL_low The lowest frequency of the uplink operating band
FUL_high The highest frequency of the uplink operating band
ΔRIB Allo... |
389f9b67c003a620147a83200e3331ae | 36.851 | 3.3 Abbreviations | For the purposes of the present document, the abbreviations given in TR 21.905 [1] and the following apply. An abbreviation defined in the present document takes precedence over the definition of the same abbreviation, if any, in TR 21.905 [1].
A-MPR Additional Maximum Power Reduction
BS Base Station
CA Carrier Aggrega... |
389f9b67c003a620147a83200e3331ae | 36.851 | 4 Background | The present document is a technical report for Inter-band Carrier Aggregation under Rel-12 time frame. It covers both the UE and BS side. The document is divided in two different parts:
- Common part: this part covers BS and UE specific which is band combination independent.
- Specific band combination part: this pa... |
389f9b67c003a620147a83200e3331ae | 36.851 | 5 Inter-band Carrier Aggregation: general part | 5.1 BS specific
<Text will be added.>
5.2 UE specific
<Text will be added.>
5.2.1 Class A1. Low-high band combination without harmonic relation between bands or intermodulation problem
<Text will be added.> |
389f9b67c003a620147a83200e3331ae | 36.851 | 5.2.2 Class A2. Low-high band combination with harmonic relation between bands | <Text will be added.>
5.2.3 Class A3. Low-low or high-high band combination without intermodulation problem (low order IM)
<Text will be added.> |
389f9b67c003a620147a83200e3331ae | 36.851 | 5.2.4 Class A4. Low-low, low-high or high-high band combination with intermodulation problem (low order IM) | <Text will be added.> |
389f9b67c003a620147a83200e3331ae | 36.851 | 5.2.5 Class A5. Combination except for A1 – A4 | <Text will be added.>
5.3 RRM specific
<Text will be added.>
5.3.1 Class A1. Low-high band combination without harmonic relation between bands or intermodulation problem
<Text will be added.> |
389f9b67c003a620147a83200e3331ae | 36.851 | 6 Inter-band Carrier Aggregation: band combination specific part | |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1 Class A1. Low-high band combination without harmonic relation between bands or intermodulation problem | |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.1 LTE Advanced Carrier Aggregation of Band 23 and Band 29 (1 UL) | Table 6.1.1-1: Inter-band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_high
CA_23-29
23
2000 MHz
–
2020 MHz
5, 10, 15, 20
2180 MHz
–
2200 MHz
5, 10,... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.2 LTE Advanced Carrier Aggregation of Band 3 and Band 26 | Table 6.1.2-1: Inter-band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_high
CA_3-26
3
1710 MHz
–
1785 MHz
10, 15, 20
1805 MHz
–
1880 MHz
10, 15, 20
... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.2.1 List of specific combination issues | |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.2.1.1 Channel bandwidths per operating band for CA | Table 6.1.2.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
Bandwidth Combination Sets
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_3A-26A
3
Yes
Yes
Yes
Yes
0
26
Yes
Yes
Yes
3
Yes
Yes
1
26
Yes
Yes
NOTE: For the UE that signa... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.2.1.2 Co-existence studies for CA_3-26 (1 UL/2 DL) | Table 6.1.2.1.2-1 summarizes frequency ranges where harmonics occur due to Band 3 or Band 26 for both UL and DL. It can be seen that UL harmonic frequencies of Band 3 and Band 26 does not locate within the receive bands of interest in the DL.
Table 6.1.2.1.2-1: Impact of UL/DL Harmonic Interference
2nd Harmonic
3rd H... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.3 LTE Advanced Carrier Aggregation of Band 3 and Band 19 (1 UL) | Table 6.1.3-1: Inter-band CA
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_high
CA_3-19
3
1710 MHz
–
1785 MHz
5,10, 15, 20
(note 1)
1805 MHz
–
1880 MHz
5, 10, 15, 20
FD... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.3.1.1 Channel bandwidths per operating band for CA | Table 6.1.3.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_3A-19A
3
Yes
Yes
Yes
Yes
19
Yes
Yes
Yes |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.3.1.2 Co-existence studies for CA_3-19 | As band 3 and band 19 are a low-high band combination the harmonic frequencies are far away from the receive and transmit bands of interest in the DL and UL (see table 6.1.3.1.2-1) and therefore we can conclude that there is no issue on harmonic interference.
Table 6.1.3.1.2-1: Impact of UL/DL Harmonic Interference
2nd... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.4 LTE Advanced Carrier Aggregation of Band 1 and Band 8 (1 UL) | Table 6.1.4-1: Inter-band CA
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_high
CA_1-8
1
1920 MHz
–
1980 MHz
5,10, 15, 20
(note 1)
2110 MHz
–
2170 MHz
5, 10, 15, 20
FDD... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.4.1.1 Channel bandwidths per operating band for CA | Table 6.1.4.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
Bandwidth Combination Set
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_1A-8A
1
Yes
Yes
Yes
Yes
0
8
Yes
Yes
1
Yes
Yes
1
8
Yes
Yes |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.4.1.2 Co-existence studies for CA_1-8 | As shown in table 6.1.4.1.2-1, the harmonic frequencies of band 1 and band 8 in UL are away from the receive bands of interest in the DL and we can conclude that there is no issue on UL harmonic interference.
Table 6.1.4.1.2-1: Impact of UL Harmonic Interference
2nd Harmonic
3rd Harmonic
Band
UL Low Band Edge
UL High... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.5 LTE Advanced Carrier Aggregation of Band 3 and Band 28 (1 UL) | Table 6.1.5-1: Inter-band CA
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_high
CA_3-28
3
1710 MHz
–
1785 MHz
5,10, 15, 20
(note 1)
1805 MHz
–
1880 MHz
5, 10, 15, 20
FD... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.5.1.1 Channel bandwidths per operating band for CA | Table 6.1.5.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_3A-28A
3
Yes
Yes
Yes
Yes
28
Yes
Yes
Yes
Yes |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.5.1.2 Co-existence studies for CA_3-28 | As band 3 and band 28 are a low-high band combination the harmonic frequencies are far away from the receive bands of interest in the DL (see table 6.1.5.1.2-1) and we can conclude that there is no issue on harmonic interference.
Table 6.1.5.1.2-1: Band 3 and Band 28 UL harmonics
2nd Harmonic
3rd Harmonic
Band
UL Low... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.6 LTE Advanced Carrier Aggregation of Band 1 and Band 26 | CA_1A-26A is designed to operate in the operating bands defined in table 6.1.6-1.
Table 6.1.6-1: Inter band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – ... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.6.1.1 Channel bandwidths per operating band for CA | Table 6.1.6.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
Maximum aggregate bandwidth [MHz]
Bandwidth Combination Set
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_1A-26A
1
Yes
Yes
Yes
Yes
35
0
26
Yes
Yes
Yes
1
Yes
Yes
20
1
... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.6.1.2 Co-existence studies for CA_1-26 | Although Band 1 and Band 26 are a High-Low band combination, the harmonic frequencies do not fall into the frequency ranges of both bands as observed in table 6.1.6.1.2-1. Therefore we can conclude that there is no issue on harmonic interference.
Table 6.1.6.1.2-1: Impact of UL/DL Harmonic Interference
2nd Harmonic
3r... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.7 LTE Advanced Carrier Aggregation of Band 2 and Band 12 (1 UL) | Table 6.1.7-1: Inter-band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_high
CA_2-12
2
1850 MHz
–
1910 MHz
5, 10, 15, 20
1930 MHz
–
1990 MHz
5, 10, 1... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.7.1.1 Channel bandwidths per operating band for CA | Table 6.1.7.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_2A-12A
2
Yes
Yes
Yes
Yes
12
Yes
Yes
Yes
NOTE: For the UE that signals support of any bandwidth combination set for carr... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.7.1.2 Co-existence studies for CA_2-12 | The 2nd and 3rd order harmonics and IMD products caused in the BS by transmitting of Band 2 and Band 12 DL carriers can be calculated as shown in table 6.1.7.1.2-1 below:
Table 6.1.7.1.2-1: Band 2 and Band 12 DL harmonics and IMD products
BS DL carriers
f1_low
f1_high
f2_low
f2_high
DL frequency (MHz)
729
746
1930
1990... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.8 LTE Advanced Carrier Aggregation of Band 2 and Band 13 | CA_2-13 is designed to operate in the operating bands in table 6.1.8-1.
Table 6.1.8-1: Inter-band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_high
... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.8.1.1 Channel bandwidths per operating band for CA | Table 6.1.8.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
Bandwidth Combination Set
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_2A-13A
2
Yes
Yes
Yes
Yes
0
13
Yes
2
Yes
Yes
1
13
Yes |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.8.1.2 Co-existence studies for CA_2-13 | As shown in table 6.1.8.1.2-1, the harmonic frequencies of Band 2 and Band 13 in UL are away from the receive bands of interest in the DL and therefore we can conclude that there is no issue on harmonic interference.
Table 6.1.8.1.2-1: Impact of UL/DL Harmonic Interference
2nd Harmonic
3rd Harmonic
2nd Harmonic
3rd ... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.8.1.2.1 Co-existence studies for 1 UL/2 DL | The 2nd and 3rd order harmonics and IMD products caused in the BS by transmitting of Band 2 and Band 13 DL carriers can be calculated as shown in table 6.1.8.1.2.1-1 below:
Table 6.1.8.1.2.1-1: Band 2 and Band 13 DL harmonics and IMD products
BS DL carriers
f1_low
f1_high
f2_low
f2_high
DL frequency (MHz)
746
756
1930
... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.9 LTE Advanced Carrier Aggregation of Band 12 and Band 25 (1 UL) | Table 6.1.9-1: Inter-band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_high
CA_12-25
12
699 MHz
–
716 MHz
5, 10
729 MHz
–
746 MHz
5, 10
FDD
25
1850 ... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.9.1.1 Channel bandwidths per operating band for CA | Table 6.1.9.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_12A-25A
12
Yes
Yes
25
Yes
Yes
NOTE: For the UE that signals support of any bandwidth combination set for carrier aggreg... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.9.1.2 Co-existence studies for CA _12_25 | The 2nd and 3rd order harmonics and IMD products caused in the BS by transmitting of Band 12 and Band 25 DL carriers can be calculated as shown in Table 6.1.9.1.2-1 below:
Table 6.1.9.1.2-1: Band 12 and Band 25 DL harmonics and IMD products
BS DL carriers
f1_low
f1_high
f2_low
f2_high
DL frequency (MHz)
729
746
1930
19... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.10 LTE Advanced Carrier Aggregation of Band 2 and Band 5 | CA_2-5 is designed to operate in the operating bands in table 6.1.10-1.
Table 6.1.10-1: Inter-band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_high... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.10.1.1 Channel bandwidths per operating band for CA | Table 6.1.10.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
Bandwidth Combination Set
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_2A-5A
Yes
Yes
Yes
Yes
0
Yes
Yes
Yes
Yes
1
Yes
Yes |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.10.1.2 Co-existence studies for CA_2-5 | As shown in table 6.1.10.1.2-1, the harmonic frequencies of Band 2 and Band 5 in UL are away from the receive bands of interest in the DL and therefore we can conclude that there is no issue on harmonic interference.
Table 6.1.10.1.2-1: Impact of UL/DL Harmonic Interference
2nd Harmonic
3rd Harmonic
2nd Harmonic
3rd... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.10.1.2.1 Co-existence studies for 1 UL/2 DL | The 2nd and 3rd order harmonics and IMD products caused in the BS by transmitting of Band 2 and Band 5 DL carriers can be calculated as shown in Table 6.1.10.1.2.1-1 below:
Table 6.1.10.1.2.1-1: Band 2 and Band 5 DL harmonics and IMD products
BS DL carriers
f1_low
f1_high
f2_low
f2_high
DL frequency (MHz)
869
894
1930
... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.11 LTE Advanced Carrier Aggregation of Band 1 and Band 18 | CA_1A-18A is designed to operate in the operating bands defined in Table 6.1.11-1.
Table 6.1.11-1: Inter band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low ... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.11.1.1 Channel bandwidths per operating band for CA | Table 6.1.11.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
Maximum aggregate bandwidth [MHz]
Bandwidth Combination Set
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_1A-18A
1
Yes
Yes
Yes
Yes
35
0
18
Yes
Yes
Yes
1
Yes
Yes
20
1... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.11.1.2 Co-existence studies for CA_1-18 | Studies have been already made in Rel-11. See [3]. |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.11.1.2.1 Co-existence studies for 1 UL/2 DL | The 2nd and 3rd order harmonics and IMD products caused in the BS by transmitting of Band 1 and Band 18 DL carriers can be calculated as shown in Table 6.1.11.1.2.1-1 below:
Table 6.1.11.1.2.1-1: Band 1 and Band 18 DL harmonics and IMD products
BS DL carriers
f1_low
f1_high
f2_low
f2_high
DL frequency (MHz)
860
875
211... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.12 LTE Advanced Carrier Aggregation of Band 7 and Band 28 | CA_7-28 is designed to operate in the operating bands in table 6.1.12-1.
Table 6.1.12-1: Inter-band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_hig... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.12.1.1 Channel bandwidths per operating band for CA | Table 6.1.12.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_7A-28A
7
Yes
Yes
Yes
Yes
28
Yes
Yes
Yes |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.12.1.2 Co-existence studies for CA_7-28 | As shown in table 6.1.12.1.2-1, the harmonic frequencies of Band 7 and Band 28 in UL are away from the receive bands of interest in the DL and therefore we can conclude that there is no issue on harmonic interference.
Table 6.1.12.1.2-1: Impact of UL/DL Harmonic Interference
2nd Harmonic
3rd Harmonic
Band
UL Low Band... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.13 LTE Advanced Carrier Aggregation of Band 5 and Band 25 | CA_5-25 is designed to operate in the operating bands in table 6.1.13-1.
Table 6.1.13-1: Inter-band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_hig... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.13.1.1 Channel bandwidths per operating band for CA | Table 6.1.13.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
Bandwidth Combination Set
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_5A-25A
5
Yes
Yes
0
25
Yes
Yes
Yes
Yes |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.13.1.2 Co-existence studies for CA_5-25 | As shown in table 6.1.13.1.2-1, the harmonic frequencies of Band 5 and Band 25 in UL are away from the receive bands of interest in the DL and therefore we can conclude that there is no issue on harmonic interference.
Table 6.1.13.1.2-1: Impact of UL/DL Harmonic Interference
2nd Harmonic
3rd Harmonic
2nd Harmonic
3r... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.13.1.2.1 Co-existence studies for 1 UL/2 DL | The 2nd and 3rd order harmonics and IMD products caused in the BS by transmitting of Band 5 and Band 25 DL carriers can be calculated as shown in Table 6.1.13.1.2.1-1 below:
Table 6.1.13.1.2.1-1: Band 5 and Band 25 DL harmonics and IMD products
BS DL carriers
f1-low
f1-high
f2-low
f2-high
DL frequency (MHz)
869
894
193... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.14 LTE Advanced Carrier Aggregation of Band 5 and Band 7 | CA_5-7 is designed to operate in the operating bands in table 6.1.14-1.
Table 6.1.14-1: Inter-band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_high... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.14.1.1 Channel bandwidths per operating band for CA | Table 6.1.14.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_5A-7A
5
Yes
Yes
Yes
Yes
7
Yes
Yes
Yes |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.14.1.2 Co-existence studies for CA_5-7 | As shown in table 6.1.14.1.2-1, the harmonic frequencies of Band 5 and Band 7 in UL are away from the receive bands of interest in the DL and therefore we can conclude that there is no issue on harmonic interference.
Table 6.1.14.1.2-1: Impact of UL/DL Harmonic Interference
2nd Harmonic
3rd Harmonic
Band
UL Low Band ... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.15 LTE Advanced Carrier Aggregation of Band 5 and Band 30 | CA_5-30 is designed to operate in the operating bands in table 6.1.15-1.
Table 6.1.15-1: Inter-band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_hig... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.15.1.1 Channel bandwidths per operating band for CA | Table 6.1.15.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
Bandwidth Combination Set
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_5A-30A
5
Yes
Yes
0
30
Yes
Yes |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.15.1.2 Co-existence studies for CA_5-30 | As shown in table 6.1.15.1.2-1, the harmonic frequencies of Band 5 and Band 30 in UL are away from the receive bands of interest in the DL and therefore we can conclude that there is no issue on harmonic interference.
Table 6.1.15.1.2-1: Impact of UL/DL Harmonic Interference
2nd Harmonic
3rd Harmonic
2nd Harmonic
3r... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.15.1.2.1 Co-existence studies for 1 UL/2 DL | The 2nd and 3rd order harmonics and IMD products caused in the BS by transmitting of Band 5 and Band 30 DL carriers can be calculated as shown in Table 6.1.15.1.2.1-1 below:
Table 6.1.15.1.2.1-1: Band 5 and Band 30 DL harmonics and IMD products
BS DL carriers
f1_low
f1_high
f2_low
f2_high
DL frequency (MHz)
869
894
235... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.16 LTE Advanced Carrier Aggregation of Band 29 and Band 30 | CA_29-30 is designed to operate in the operating bands in table 6.1.16-1.
Table 6.1.16-1: Inter-band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_hi... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.16.1.1 Channel bandwidths per operating band for CA | Table 6.1.16.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
Bandwidth Combination Set
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_29A-30A
29
Yes
Yes
0
30
Yes
Yes |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.16.1.2 Co-existence studies for CA_29-30 | As shown in table 6.1.16.1.2-1, the harmonic frequencies of Band 30 in UL are away from the receive bands of interest in the DL and therefore we can conclude that there is no issue on harmonic interference.
Table 6.1.16.1.2-1: Impact of UL/DL Harmonic Interference
2nd Harmonic
3rd Harmonic
2nd Harmonic
3rd Harmonic
... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.16.1.2.1 Co-existence studies for 1 UL/2 DL | The 2nd and 3rd order harmonics and IMD products caused in the BS by transmitting of Band 29 and Band 30 DL carriers can be calculated as shown in Table 6.1.16.1.2.1-1 below:
Table 6.1.16.1.2.1-1: Band 29 and Band 30 DL harmonics and IMD products
BS DL carriers
f1_low
f1_high
f2_low
f2_high
DL frequency (MHz)
717
728
2... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.17 LTE Advanced Carrier Aggregation of Band 4 and Band 27 (1 UL) | CA_4A-27A is designed to operate in the operating bands defined in table 6.1.17-1.
Table 6.1.17-1: Inter band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low ... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.17.1.1 Channel bandwidths per operating band for CA | Table 6.1.17.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
Maximum aggregate bandwidth [MHz]
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_4A-27A
4
Yes
Yes
Yes
Yes
30
27
Yes
Yes
Yes |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.17.1.2 Co-existence studies for CA_4-27 | Band 4 and Band 27 are a High-Low band combination. The UL harmonic frequencies can be seen in table 6.1.17.1.2-1. It can be seen that the UL harmonics do not fall into the DL of either band. Therefore we can conclude that there is no issue with UL harmonic interference to the DL.
Table 6.1.17.1.2-1: Impact of UL/DL ... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.18 LTE Advanced Carrier Aggregation of Band 3 and Band 27 | CA_3-27 is designed to operate in the operating bands in table 6.1.18-1.
Table 6.1.18-1: Inter-band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_hig... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.18.1.1 Channel bandwidths per operating band for CA | Table 6.1.18.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_3A-27A
3
Yes
Yes
Yes
Yes
27
Yes
Yes |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.18.1.2 Co-existence studies for CA_3-27 | As shown in table 6.1.18.1.2-1, the harmonic frequencies of Band 3 and Band 27 in UL are away from the receive bands of interest in the DL and therefore we can conclude that there is no issue on harmonic interference.
Table 6.1.18.1.2-1: Impact of UL/DL Harmonic Interference
2nd Harmonic
3rd Harmonic
Band
UL Low Band... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.19 LTE Advanced Carrier Aggregation of Band 1 and Band 5 | CA_1-5 is designed to operate in the operating bands in table 6.1.19-1.
Table 6.1.19-1: Inter-band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_high... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.19.1.1 Channel bandwidths per operating band for CA | Table 6.1.19.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_1A-5A
1
Yes
Yes
Yes
Yes
5
Yes
Yes |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.19.1.2 Co-existence studies for CA_1-5 | Table 6.1.19.1.2-1 summarizes frequency ranges where harmonics occur due to Band 1 or Band 5 for both UL and DL. It can be seen that the harmonic frequencies of Band 1 and Band 5 in DL are away from the BS receive bands of interest in the UL. For the UE aspect, the UL harmonic frequencies of Band 1 and Band 5 does not ... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.20 LTE Advanced Carrier Aggregation of Band 12 and Band 30 | CA_12-30 is designed to operate in the operating bands in table 6.1.20-1.
Table 6.1.20-1: Inter-band CA operating bands
E-UTRA CA Band
E-UTRA Band
Uplink (UL) band
Downlink (DL) band
Duplex
mode
BS receive / UE transmit
Channel BW (MHz)
BS transmit / UE receive
Channel BW (MHz)
FUL_low – FUL_high
FDL_low – FDL_hi... |
389f9b67c003a620147a83200e3331ae | 36.851 | 6.1.20.1.1 Channel bandwidths per operating band for CA | Table 6.1.20.1.1-1: Supported E-UTRA bandwidths per CA configuration for inter-band CA
CA operating / channel bandwidth
Bandwidth Combination Set
E-UTRA CA Configuration
E-UTRA Bands
1.4 MHz
3 MHz
5 MHz
10 MHz
15 MHz
20 MHz
CA_12A-30A
12
Yes
Yes
0
30
Yes
Yes |
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.