登录
首页 » matlab » matpower3.0.0

matpower3.0.0

于 2006-12-26 发布 文件大小:1222KB
0 262
下载积分: 1 下载次数: 133

代码说明:

  输电网潮流及状态估计计算程序(牛拉、高塞、PQ、直流等各种程序)(lose power flow calculation and state estimation procedures (ox-drawn, high-Cypriot, PQ, DC, and other procedures))

文件列表:

matpower3.0.0
.............\matpower3.0.0
.............\.............\bustypes.m
.............\.............\case118.m
.............\.............\case14.m
.............\.............\case30.m
.............\.............\case300.m
.............\.............\case30pwl.m
.............\.............\case30Q.m
.............\.............\case39.m
.............\.............\case4gs.m
.............\.............\case57.m
.............\.............\case6ww.m
.............\.............\case9.m
.............\.............\case9Q.m
.............\.............\caseformat.m
.............\.............\case_ieee30.m
.............\.............\cdf2matp.m
.............\.............\compare.m
.............\.............\consfmin.m
.............\.............\copf.m
.............\.............\costfmin.m
.............\.............\dAbr_dV.m
.............\.............\dcopf.m
.............\.............\dcpf.m
.............\.............\docs
.............\.............\....\htm" target=_blank>CHANGES
.............\.............\....\CHANGES.txt
.............\.............\....\manual.pdf
.............\.............\dSbr_dV.m
.............\.............\dSbus_dV.m
.............\.............\ext2int.m
.............\.............\extras
.............\.............\......\smartmarket
.............\.............\......\...........\auction.m
.............\.............\......\...........\case2off.m
.............\.............\......\...........\idx_disp.m
.............\.............\......\...........\off2case.m
.............\.............\......\...........\printmkt.m
.............\.............\......\...........\runmkt.m
.............\.............\......\...........\smartmkt.m
.............\.............\......\...........\htm" target=_blank>SM_CHANGES
.............\.............\......\state_estimator
.............\.............\......\...............\runse.m
.............\.............\......\...............\state_est.m
.............\.............\fairmax.m
.............\.............\fdpf.m
.............\.............\fg_names.m
.............\.............\fmincopf.m
.............\.............\fun_ccv.m
.............\.............\fun_std.m
.............\.............\gausspf.m
.............\.............\genform.m
.............\.............\grad_ccv.m
.............\.............\grad_std.m
.............\.............\have_fcn.m
.............\.............\idx_area.m
.............\.............\idx_brch.m
.............\.............\idx_bus.m
.............\.............\idx_cost.m
.............\.............\idx_gen.m
.............\.............\int2ext.m
.............\.............\isload.m
.............\.............\loadcase.m
.............\.............\LPconstr.m
.............\.............\LPeqslvr.m
.............\.............\lpopf.m
.............\.............\LPrelax.m
.............\.............\LPsetup.m
.............\.............\makeAy.m
.............\.............\makeB.m
.............\.............\makeBdc.m
.............\.............\makeSbus.m
.............\.............\makeYbus.m
.............\.............\mpoption.m
.............\.............\mpver.m
.............\.............\mp_lp.m
.............\.............\mp_qp.m
.............\.............\newtonpf.m
.............\.............\opf.m
.............\.............\opfsoln.m
.............\.............\opf_form.m
.............\.............\opf_slvr.m
.............\.............\pfsoln.m
.............\.............\poly2pwl.m
.............\.............\pqcost.m
.............\.............\printpf.m
.............\.............\htm" target=_blank>README
.............\.............\README.txt
.............\.............\runcomp.m
.............\.............\rundcopf.m
.............\.............\rundcpf.m
.............\.............\runduopf.m
.............\.............\runopf.m
.............\.............\runpf.asv
.............\.............\runpf.m
.............\.............\runuopf.m
.............\.............\savecase.m
.............\.............\t
.............\.............\.\soln9_dcopf.mat

下载说明:请别用迅雷下载,失败请重下,重下不扣分!

发表评论

0 个回复

  • LaplacianPyramid
    说明:  该程序包中包含传统拉普拉斯金字塔分解和重构的matlab代码,以及测试程序(The package includes the traditional Laplace pyramid decomposition and reconstruction of matlab code, and testing procedures)
    2010-04-29 11:29:47下载
    积分:1
  • VSS_Ray
    说明:  用于故障诊断研究的vss程序代码,感兴趣的可以看看(The VSS program code for fault diagnosis research can be viewed as interesting)
    2020-06-18 02:20:02下载
    积分:1
  • 6
    说明:  各种各样的不同代码源打包,都是经过运行的,绝对可以使用。(A variety of different source code packages are run through, and absolutely can be used.)
    2010-11-03 19:22:55下载
    积分:1
  • CenterPoint.m
    to find center point of fingerprint image
    2011-07-13 17:53:05下载
    积分:1
  • bianhuan
    这是利用Hilebert进行求变换的程序,可用于瞬时频率测量和相位提取,具有一定的参考价值!(This is done using FFT analysis phase of the program, has a certain reference value!)
    2014-05-27 11:33:21下载
    积分:1
  • BESSModel
    说明:  BESS通常用于负载均衡,调峰,负载转移应用等。 此BESS块从工作空间获取每小时负载曲线(kW)输入,并计算电网和电池使用量输出到工作空间。 必须以两列格式准备负载配置文件,其中第一列是从一天的0小时开始的时间。第二列是以kW为单位的功耗。(例如,将SampleLoadProfile.mat加载到工作空间中)。 模拟运行时间是从一天的0小时开始的每小时单位。例如,为了模拟24小时负载配置文件,模拟运行时间设置为23,一周运行时间设置为167,一个月30天运行时间设置为719和31天运行时间设置为743。 在“求解器”选项下的模型配置参数中,设置为固定步长类型并将固定步长(基本采样时间)设置为1并运行模拟。(BESS are commonly used for load leveling, peak shaving, load shifting applications and etc. This BESS Block takes hourly Load Profile (kW) input from workspace and compute the Grid and Battery usage output to workspace. The load profile has to be prepared in two column format, where the first column is time starting from 0 hour of the day. The second column is power consumption in kW unit. (For example, load the SampleLoadProfile.mat into workspace). The simulation run time is in hourly unit starting from 0 hour of the day. For example to simulate a 24 hours load profile, the simulation run time is set to 23, one week run time is set to 167, one month 30 days run time is set to 719 and 31 days run time set to 743. In model configuration parameters under Solver options, set to fixed-step type and set the fixed-step size (fundamental sample time) to 1 and run the simulation.)
    2019-02-28 10:59:38下载
    积分:1
  • bpsk_m
    binary phase shift keying modulation
    2010-06-12 21:05:15下载
    积分:1
  • PID
    PID控制算法的MATLAB仿真其中参数,Kp,Ki,Kd分别为PID控制器的比例、微分和积分参数。(PID control algorithm of the MATLAB simulation in which the parameters, Kp, Ki, Kd are the proportion of PID controller, differential and integral parameters.)
    2020-07-06 21:38:58下载
    积分:1
  • signal
    随机信号设计课件,提供基础参考,对信号设计方面有所裨益(single process)
    2012-09-18 21:33:09下载
    积分:1
  • reduct_solar
    source code for reduct using matlab
    2012-11-28 18:47:12下载
    积分:1
  • 696516资源总数
  • 106914会员总数
  • 0今日下载