MAKEJAC Forms the power flow Jacobian.
J = MAKEJAC(MPC)
J = MAKEJAC(MPC, FULLJAC)
J = MAKEJAC(BASEMVA, BUS, BRANCH, GEN)
J = MAKEJAC(BASEMVA, BUS, BRANCH, GEN, FULLJAC)
[J, YBUS, YF, YT] = MAKEJAC(MPC)
Returns the power flow Jacobian and, optionally, the system admittance
matrices. Inputs can be a MATPOWER case struct or individual BASEMVA,
BUS, BRANCH and GEN values. Bus numbers must be consecutive beginning
at 1 (i.e. internal ordering). If the FULLJAC argument is present and
true, it returns the full Jacobian (sensitivities of all bus injections
w.r.t all voltage angles/magnitudes) as opposed to the reduced version
used in the Newton power flow updates. The units for all quantities are
in per unit with radians for voltage angles.
Note: This function builds the Jacobian from scratch, rebuilding the
YBUS matrix in the process. You probably don't want to use this
in performance critical code.
See also MAKEYBUS, EXT2INT0001 function [J, Ybus, Yf, Yt] = makeJac(baseMVA, bus, branch, gen, fullJac) 0002 %MAKEJAC Forms the power flow Jacobian. 0003 % J = MAKEJAC(MPC) 0004 % J = MAKEJAC(MPC, FULLJAC) 0005 % J = MAKEJAC(BASEMVA, BUS, BRANCH, GEN) 0006 % J = MAKEJAC(BASEMVA, BUS, BRANCH, GEN, FULLJAC) 0007 % [J, YBUS, YF, YT] = MAKEJAC(MPC) 0008 % 0009 % Returns the power flow Jacobian and, optionally, the system admittance 0010 % matrices. Inputs can be a MATPOWER case struct or individual BASEMVA, 0011 % BUS, BRANCH and GEN values. Bus numbers must be consecutive beginning 0012 % at 1 (i.e. internal ordering). If the FULLJAC argument is present and 0013 % true, it returns the full Jacobian (sensitivities of all bus injections 0014 % w.r.t all voltage angles/magnitudes) as opposed to the reduced version 0015 % used in the Newton power flow updates. The units for all quantities are 0016 % in per unit with radians for voltage angles. 0017 % 0018 % Note: This function builds the Jacobian from scratch, rebuilding the 0019 % YBUS matrix in the process. You probably don't want to use this 0020 % in performance critical code. 0021 % 0022 % See also MAKEYBUS, EXT2INT 0023 0024 % MATPOWER 0025 % Copyright (c) 1996-2017, Power Systems Engineering Research Center (PSERC) 0026 % by Ray Zimmerman, PSERC Cornell 0027 % 0028 % This file is part of MATPOWER. 0029 % Covered by the 3-clause BSD License (see LICENSE file for details). 0030 % See https://matpower.org for more info. 0031 0032 if nargin < 4 0033 mpc = baseMVA; 0034 if nargin > 1 0035 fullJac = bus; 0036 else 0037 fullJac = 0; 0038 end 0039 baseMVA = mpc.baseMVA; 0040 bus = mpc.bus; 0041 branch = mpc.branch; 0042 gen = mpc.gen; 0043 elseif nargin < 5 0044 fullJac = 0; 0045 end 0046 0047 %% define named indices into bus, gen, branch matrices 0048 [PQ, PV, REF, NONE, BUS_I, BUS_TYPE, PD, QD, GS, BS, BUS_AREA, VM, ... 0049 VA, BASE_KV, ZONE, VMAX, VMIN, LAM_P, LAM_Q, MU_VMAX, MU_VMIN] = idx_bus; 0050 [GEN_BUS, PG, QG, QMAX, QMIN, VG, MBASE, GEN_STATUS, PMAX, PMIN, ... 0051 MU_PMAX, MU_PMIN, MU_QMAX, MU_QMIN, PC1, PC2, QC1MIN, QC1MAX, ... 0052 QC2MIN, QC2MAX, RAMP_AGC, RAMP_10, RAMP_30, RAMP_Q, APF] = idx_gen; 0053 0054 %% build Ybus 0055 [Ybus, Yf, Yt] = makeYbus(baseMVA, bus, branch); 0056 0057 %% extract voltage 0058 V = bus(:, VM) .* exp(1j * pi/180 * bus(:, VA)); 0059 0060 %% make sure we use generator setpoint voltage for PV and slack buses 0061 on = find(gen(:, GEN_STATUS) > 0); %% which generators are on? 0062 gbus = gen(on, GEN_BUS); %% what buses are they at? 0063 k = find(bus(gbus, BUS_TYPE) == PV | bus(gbus, BUS_TYPE) == REF); 0064 V(gbus(k)) = gen(on(k), VG) ./ abs(V(gbus(k))).* V(gbus(k)); 0065 0066 %% build Jacobian 0067 [dSbus_dVa, dSbus_dVm] = dSbus_dV(Ybus, V); 0068 if fullJac 0069 j11 = real(dSbus_dVa); 0070 j12 = real(dSbus_dVm); 0071 j21 = imag(dSbus_dVa); 0072 j22 = imag(dSbus_dVm); 0073 else 0074 %% get bus index lists of each type of bus 0075 [ref, pv, pq] = bustypes(bus, gen); 0076 0077 j11 = real(dSbus_dVa([pv; pq], [pv; pq])); 0078 j12 = real(dSbus_dVm([pv; pq], pq)); 0079 j21 = imag(dSbus_dVa(pq, [pv; pq])); 0080 j22 = imag(dSbus_dVm(pq, pq)); 0081 end 0082 0083 J = [ j11 j12; 0084 j21 j22; ];