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Pscad案例仿真

于 2021-05-12 发布
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说明:  pscad直流输电,学习和使用pscad的直流输电案例,里面包含传统直流和柔性直流(it Is pscad DC trassion)

文件列表:

HVDC, 0 , 2020-04-23
HVDC\具有2级VSC端子的3端子HVDC, 0 , 2020-05-04
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3, 0 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42, 0 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\Graphs.dta, 483 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\Graphs.f, 8390 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\Graphs.o, 3291 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\HVDC_VSC3.bat, 58 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\HVDC_VSC3.exe, 1648910 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\HVDC_VSC3.mak, 3628 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\HVDC_VSC3.map, 18346 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\Main.dta, 4076 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\Main.f, 30671 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\Main.o, 31399 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\Station.dta, 483 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\Station.f, 9652 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\Station.o, 4725 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSC1.dta, 4816 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSC1.f, 35959 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSC1.o, 34052 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSC2.dta, 4816 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSC2.f, 35825 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSC2.o, 34052 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSC3.dta, 4816 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSC3.f, 35827 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSC3.o, 34052 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSCControls1.dta, 483 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSCControls1.f, 33231 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSCControls1.o, 27323 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSCControls2.dta, 483 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSCControls2.f, 33245 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSCControls2.o, 27323 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSCControls3.dta, 483 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSCControls3.f, 33244 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\VSCControls3.o, 27323 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\noname.infx, 10079 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.gf42\run_control.txt, 30 , 2020-05-20
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3\HVDC_VSC3.pscx, 751184 , 2016-05-17
HVDC\具有2级VSC端子的3端子HVDC\hvdc_vsc3.zip, 70508 , 2020-04-22
HVDC\单极高压直流输电Cigre基准示例, 0 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark, 0 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42, 0 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Cigre.infx, 2667 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Cigre_Benchmark.bat, 64 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Cigre_Benchmark.exe, 1570245 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Cigre_Benchmark.mak, 3548 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Cigre_Benchmark.map, 7154 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\InvCtl.dta, 483 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\InvCtl.f, 15452 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\InvCtl.o, 9835 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Inverter.dta, 7822 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Inverter.f, 20003 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Inverter.o, 17598 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Inverter_AC.dta, 2028 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Inverter_AC.f, 10632 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Inverter_AC.o, 6332 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Main.dta, 1620 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Main.f, 16443 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Main.o, 11205 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Rectifier.dta, 6997 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Rectifier.f, 19829 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Rectifier.o, 16915 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Rectifier_AC.dta, 1683 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Rectifier_AC.f, 10638 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Rectifier_AC.o, 6320 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Station.dta, 483 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Station.f, 8999 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\Station.o, 3162 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.gf42\run_control.txt, 36 , 2020-05-09
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark\Cigre_Benchmark.pscx, 170326 , 2012-12-03
HVDC\单极高压直流输电Cigre基准示例\cigre_benchmark.zip, 18613 , 2020-04-22
HVDC\双向LCC-HVDC, 0 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional, 0 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42, 0 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Cigre.infx, 3874 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Cigre_LCC_Bidirectional.bat, 72 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Cigre_LCC_Bidirectional.exe, 1575365 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Cigre_LCC_Bidirectional.mak, 3564 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Cigre_LCC_Bidirectional.map, 8660 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\InvCtl.dta, 483 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\InvCtl.f, 15452 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\InvCtl.o, 9835 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Inverter.dta, 7822 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Inverter.f, 22233 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Inverter.o, 20079 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Inverter_AC.dta, 2028 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Inverter_AC.f, 11561 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Inverter_AC.o, 7099 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Main.dta, 1275 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Main.f, 16657 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Main.o, 11565 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Rectifier.dta, 7343 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Rectifier.f, 23358 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Rectifier.o, 21831 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Rectifier_AC.dta, 1683 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Rectifier_AC.f, 11568 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Rectifier_AC.o, 7119 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Station.dta, 483 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Station.f, 8999 , 2020-05-13
HVDC\双向LCC-HVDC\cigre_lcc_bidirectional\Cigre_LCC_Bidirectional.gf42\Station.o, 3162 , 2020-05-13

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    说明:  生成正弦激励信号,用于模拟导波激励荷载的施加(Generate sinusoidal excitation signal to simulate the application of guided wave excitation load)
    2019-09-27 10:05:05下载
    积分:1
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    5G 的网络架构和业务特征相对于 3G/4G 时代出现了较大变化,对 5G 承载 网提出了挑战性的需求。针对大带宽、超低时延、高可靠、高精度同步、灵活性、网 络切片、智能协同等七大特征,探讨了 5G 承载技术方案,涵盖前传、中传和回传承 载方案,并分别对应有源天线单元(AAU)和分布单元(DU)之间,DU 和集中单元 (CU)之间,以及 CU 和核心网之间的通信承载。(Comparing with 3G/4G, 5G network architecture and service characteristics have changed great|y, which brings cha||enging requirements for 5G bearing network. |n this paper, seven features of 5G are proposed, such as wide bandwidth, u|tra |ow |atency, high re|iabi|ity, high-precision synchronization, f|exibi|ity, network section, and inte||igent cooperation. And 5G bearing technica| proposa|s are a|so discussed, inc|uding fronthau|, midd|ehau| and backhau| which correspond to the bearing network between active antenna unit (AAU) and distributed unit (DU), the bearing network between DU and centra|ized unit (CU), and the bearing network between CU and core network)
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