4G TDD归档

4G频带

LTE已开发用于在频划分双面的配对频谱上操作 (软驱), 和不成对的频谱用于时期双工 (测试驱动开发).

For an LTE radio system to facilitate bidirectional communication, it is necessary to implement a duplex scheme so that a device may transmit and receive without collision. In order to achieve high data rates, LTE operates full duplex whereby both downlink (DL) and uplink (UL) communication takes place simultaneously by separating DL and UL traffic either by frequency (i.e., 软驱), or time periods (i.e., 测试驱动开发).

While less efficient and more electrically complex to deploy, FDD tends to be more commonly deployed by operators due to refarming of existing 3G spectrum arrangements. By comparison, deploying TDD requires less spectrum as well as eliminating then need for guard bands permitting a more efficient stacking of spectrum. UL/DL capacity can also be dynamically adjusted to match demand simply by devoting more airtime to one over the other. 然而, transmission timing must be synchronised between base stations, introducing complexity, 以及DL和UL子帧之间需要的警卫期, 这降低了容量.

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FDD LTE频带

The continuing evolution of carrier aggregation has resulted in several new bands added, 包括B29, B32, B67, and B69 used for downlink-only carrier aggregation, termed Supplemental DL bands[5]. Supplemental DL bands 252 和 255 have been included as part of the LTE-U expansion into unlicensed 5 GHz bands U-NII-1 and U-NII-3, respectively.

Release 16.0 in April 2019 saw the introduction of European 450 MHz LTE bands for the purposes of emergency services use during disaster relief.

The below table lists the 39 Frequency Division Duplex and Supplemental Downlink LTE bands, compiled from 3GPP 36.101 (Rel. 17.1) [June 2023]

E-UTRA Band	Identifier	Uplink (兆赫)	Downlink (兆赫)	UL EARFCN	DL earfcn	频道带宽 (兆赫)
B1 (2100 兆赫)	IMT核心乐队	1920 – 1980	2110 – 2170	18000 – 18599	0 – 599	0.2, 5, 10, 15, 20
B2 (1900 兆赫)	件 1900	1850 – 1910	1930 – 1990	18600 – 19199	600 – 1199	0.2, 1.4, 3, 5, 10, 15, 20
B3 (1800 兆赫)	1800	1710 – 1785	1805 – 1880	19200 – 19949	1200 – 1949	0.2, 1.4, 3, 5, 10, 15, 20
B4 (1700 兆赫)	AWS 1700	1710 – 1755	2110 – 2155	19950 – 20399	1950 – 2399	0.2, 1.4, 3, 5, 10, 15, 20
B5 (850 兆赫)	850	824 – 849	869 – 894	20400 – 20649	2400 – 2649	0.2, 1.4, 3, 5, 10
B7 (2600 兆赫)	IMT扩展	2500 – 2570	2620 – 2690	20750 – 21449	2750 – 3449	0.2, 5, 10, 15, 20
B8 (900 兆赫)	900	880 – 915	925 – 960	21450 – 21799	3450 – 3799	0.2, 1.4, 3, 5, 10
B9 (1800 兆赫)	1700 (日本 #2)	1749.9 – 1784.9	1844.9 – 1879.9	21800 – 22149	3800 – 4149	5, 10, 15, 20
B10 (1700 兆赫)	3G Americas扩展了AWS A-i	1710 – 1770	2110 – 2170	22150 – 22749	4150 – 4749	5, 10, 15, 20
B11 (1500 兆赫)	1500 (日本 #3)	1427.9 – 1452.9	1475.9 – 1500.9	22750 – 22949	4750 – 4949	5, 10
B12 (700 兆赫)	我们 700 较低a, 乙, C	698 – 716	728 – 746	23010 – 23179	5010 – 5179	0.2, 1.4, 3, 5
B13 (700 兆赫)	我们 700 上c	777 – 787	746 – 756	23180 – 23279	5180 – 5279	0.2, 5, 10
B14 (700 兆赫)	我们 700 上d	788 – 798	758 – 768	23280 – 23379	5280 – 5379	5, 10
B17 (700 兆赫)	我们 700 下b, C	704 – 716	734 – 746	23730 – 23849	5730 – 5849	5, 10
B18 (850 兆赫)	850 (日本 #4)	815 – 830	860 – 875	23850 – 23999	5850 – 5999	0.2, 5, 10, 15
B19 (850 兆赫)	850 (日本 #5)	830 – 845	875 – 890	24000 – 24149	6000 – 6149	0.2, 5, 10, 15
B20 (800 兆赫)	cept 800	832 – 862	791 – 821	24150 – 24449	6150 – 6449	0.2, 5, 10, 15, 20
B21 (1500 兆赫)	1500 (日本 #6)	1447.9 – 1462.9	1495.5 – 1510.9	24450 – 24599	6450 – 6599	0.2, 5, 10, 15
B22 (3500 兆赫)	软驱 3500	3410 – 3500	3510 – 3600	24600 – 25399	6600 – 7399	5, 10, 15, 20
B24 (1600 兆赫)	美国L波段	1625.5 – 1660.5	1525 – 1559	25700 – 26039	7700 – 8039	5, 10
B25 (1900 兆赫)	件 1900 G	1850 – 1915	1930 – 1995	26040 – 26689	8040 – 8689	0.2, 1.4, 3, 5, 10, 15, 20
B26 (850 兆赫)	E850上升器	814 – 849	859 – 894	26690 – 27039	8690 – 9039	0.2, 1.4, 3, 5, 10, 15
B27 (850 兆赫)	E850 Lower LTE	807 – 824	852 – 869	27040 – 27209	9040 – 9209	1.4, 3, 5
B28 (700 兆赫)	易于 700	703 – 748	758 – 803	27210 – 27659	9210 – 9659	0.2, 1.4, 3, 5, 10, 15, 20
B30 (2300 兆赫)	LTE WCS	2305 – 2315	2350 – 2360	27660 – 27710	9770 – 9869	5, 10
B31 (450 兆赫)	长期演进 450 巴西	452.5 – 457.5	462.5 – 467.5	27760 – 27785	9870 – 9919	0.2, 1.4, 3, 5
B65 (2100 兆赫)	2 GHz LTE	1920 – 2010	2110 – 2200	131072 – 131971	65536 – 66435	1.4, 3, 5, 10, 15, 20
B66 (1700 兆赫)	AWS扩展	1710 – 1780	2110 – 2200	131972 – 132671	66436 – 67335	1.4, 3, 5, 10, 15, 20
B68 (700 兆赫)	长期演进 700 阿拉伯地区	698 – 728	753 – 783	132672 – 132971	67536 – 67835	5, 10, 15
B70 (1700 兆赫)	AWS-3/4	1695 – 1710	1995 – 2020	132972 – 133121	68336 – 68585	5, 10, 15, 20
B71 (600 兆赫)	我们 600	663 – 698	617 – 652	133122 – 133471	68586 – 68935	0.2, 5, 10, 15, 20
B72 (450 兆赫)	450 我bb-ppdr	451 – 456	461 – 466	133472 – 133521	68936 – 68985	0.2, 1.4, 3, 5
B73 (450 兆赫)	450 LTE Apac	450 – 455	460 – 465	133522 – 133571	68986 – 69035	0.2, 1.4, 3, 5
B74 (1500 兆赫)	FDD L波段	1427 – 1470	1475 – 1518	133572 – 134001	69036 – 69465	0.2, 1.4, 3, 5, 10, 15, 20
B85 (700 兆赫)	700 A+	698 – 716	728 – 746	134002 – 134181	70366 – 70545	5, 10
B87 (450 兆赫)	欧盟的PPDR PMR/PMAR	410 – 415	420 – 425	134182 – 134231	70546 – 70595	0.2, 1.4, 3, 5
B88 (450 兆赫)	欧盟的PPDR PMR/PMAR	412 – 417	422 – 427	134231 – 134280	70596 – 70645	0.2, 1.4, 3, 5
B103 (700 兆赫)	nb-iot 700	787 – 788	757 – 758	134282 – 134291	70646 – 70655	0.2
B106 (900 兆赫)	900 软驱	896 – 901	935 – 940	134292 – 134341	70656 – 70705	1.4, 3

TDD LTE频带

The increasing asymmetric demand for downlink data has also resulted in the introduction of Band 46, a downlink-only Supplemental DL band operating in the 5 GHz U-NII frequency range.

乐队 47 has been introduced for applications such as Vehicle to Everything (V2X) communications, which is positioned in the U-NII-3 5 GHz unlicensed band. Cellular V2X (C-V2X) may require the use of unlicensed bands to solve regulatory issues related to LTE-Direct, where devices broadcast directly to nearby devices[6]. Like all unlicensed band LTE technologies, V2X operates Band 47 only in carrier aggregation with the operator’s licensed band.

The below table lists the 20 时部复式和补充下行链路LTE频段, compiled from 3GPP 36.101 (Rel. 17.1) [June 2023]

E-UTRA Band	Identifier	频率 (兆赫)	earfcn	频道带宽 (兆赫)
B33 (2100 兆赫)	测试驱动开发 2000 降低	1900 – 1920	36000 – 36199	5, 10, 15, 20
B34 (2100 兆赫)	测试驱动开发 2000 上	2010 – 2025	36200 – 36349	5, 10, 15
B35 (1900 兆赫)	1900	1850 – 1910	36350 – 36949	0.2, 1.4, 3, 5, 10, 15, 20
B36 (1900 兆赫)	测试驱动开发 1900	1930 – 1990	36950 – 37549	0.2, 1.4, 3, 5, 10, 15, 20
B37 (1900 兆赫)	PCS中心间隙	1910 – 1930	37550 – 37749	5, 10, 15, 20
B38 (2600 兆赫)	IMT扩展差距	2570 – 2620	37750 – 38249	5, 10, 15, 20
B39 (1900 兆赫)	中国TDD 1900	1880 – 1920	38250 – 38649	5, 10, 15, 20
B40 (2300 兆赫)	测试驱动开发 2300	2300 – 2400	38650 – 39649	5, 10, 15, 20
B41 (2500 兆赫)	测试驱动开发 2500	2496 – 2690	39650 – 41589	5, 10, 15, 20
B42 (3500 兆赫)	测试驱动开发 3500	3400 – 3600	41590 – 43589	5, 10, 15, 20
B43 (3700 兆赫)	测试驱动开发 3700	3600 – 3800	43590 – 45589	5, 10, 15, 20
B44 (700 兆赫)	易于 700 测试驱动开发	703 – 803	45590 – 46589	3, 5, 10, 15, 20
B45 (1500 兆赫)	中国TDD 1400	1447 – 1467	46590 – 46789	5, 10, 15, 20
B46 (5200 兆赫)	LAA 5200	5150 – 5925	46790 – 54539	10, 20
B47 (5800 兆赫)	V2X 5800	5855 – 5925	54540 – 55239	10, 20
B48 (3600 兆赫)	美国CBR 3500	3550 – 3700	55240 – 56739	5, 10, 15, 20
B50 (1500 兆赫)	TD 1500+	1432 – 1517	58240 – 59089	3, 5, 10, 15, 20
B51 (1500 兆赫)	TD 1500-	1427 – 1432	59090 – 59139	5
B53 (2400 兆赫)	wifi上的TDD LTE	2483.5 – 2495	60140 – 60254	1.4, 3, 5, 10
B54 (1600 兆赫)	TD 1700	1670 – 1675	60255 – 60304	5

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