Content for TR 36.861 Word version: 13.0.0
2 References
3 Definitions and abbreviations
4 Background
5 Band-specific issues for LTE FDD
6 General issues
7 Study of E-UTRA specific issues
8 Study of Multi-Standard Radio or Mobile Station Receive (MSR) specific issues
9 Channel numbering for E-UTRA and MSR
A A-MPR simulation results to protect Band 34
B A-MPR simulation results to protect Band 33/3
$ Change History
2 References
3 Definitions and abbreviations
3.1 Definitions
3.2 Abbreviations Word‑p. 7
4 Background
5 Band-specific issues for LTE FDD
5.1 CA feasibility with Band 1 Word‑p. 8
5.1.1 Inter-band CA with Band 1 and new MSS band Word‑p. 9
5.1.2 Intra-band CA for extended band Word‑p. 10
5.2 Analysis of legacy Band 1 impacts Word‑p. 11
6 General issues Word‑p. 13
6.1 Deployment scenarios
6.1.1 Deployment scenarios in Korea Word‑p. 14
6.2 S-Band UE-to-UE coexistence study Word‑p. 16
6.2.1 Deterministic analysis for UE-to-UE coexistence Word‑p. 17
6.2.2 RF simulation based approach for UE-to-UE coexistence
7 Study of E-UTRA specific issues
7.1 UE Tx RF requirements Word‑p. 25
7.2 UE RX Requirements Word‑p. 27
8 Study of Multi-Standard Radio or Mobile Station Receive (MSR) specific issues Word‑p. 28
9 Channel numbering for E-UTRA and MSR
A A-MPR simulation results to protect Band 34 Word‑p. 29
A.1 simulation assumptions
A.2 Simulation results
A.2.1 A-MPR simulation results from LG Electronics
A.2.2 A-MPR simulation results from Nokia Word‑p. 37
A.2.2.1 Emission limit -50 dBm / MHz, 5 MHz guard band
A.2.2.2 Emission limit -40 dBm / MHz, 5 MHz guard band Word‑p. 39
A.2.2.3 Emission limit -30 dBm / MHz, 5 MHz guard band Word‑p. 40
A.2.2.4 Emission limit -50 dBm / MHz, 10 MHz guard band Word‑p. 41
A.2.2.5 Emission limit -40 dBm / MHz, 10 MHz guard band Word‑p. 42
A.2.2.6 Emission limit -30 dBm / MHz, 10 MHz guard band Word‑p. 43
A.2.3 A-MPR simulation results from Ericsson Word‑p. 44
B A-MPR simulation results to protect Band 33/3 Word‑p. 48
$ Change History Word‑p. 54
