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caseformat

PURPOSE ^

CASEFORMAT Defines the MATPOWER case file format.

SYNOPSIS ^

This is a script file.

DESCRIPTION ^

CASEFORMAT    Defines the MATPOWER case file format.
   A MATPOWER case file is an M-file or MAT-file that defines or returns
   a struct named mpc, referred to as a "MATPOWER case struct". The fields
   of this struct are baseMVA, bus, gen, branch, and (optional) gencost. With
   the exception of baseMVA, a scalar, each data variable is a matrix, where
   a row corresponds to a single bus, branch, gen, etc. The format of the
   data is similar to the PTI format described in
       http://www.ee.washington.edu/research/pstca/formats/pti.txt
   except where noted. An item marked with (+) indicates that it is included
   in this data but is not part of the PTI format. An item marked with (-) is
   one that is in the PTI format but is not included here. Those marked with
   (2) were added for version 2 of the case file format. The columns for
   each data matrix are given below.

   MATPOWER Case Version Information:
   There are two versions of the MATPOWER case file format. The current
   version of MATPOWER uses version 2 of the MATPOWER case format
   internally, and includes a 'version' field with a value of '2' to make
   the version explicit. Earlier versions of MATPOWER used the version 1
   case format, which defined the data matrices as individual variables,
   as opposed to fields of a struct. Case files in version 1 format with
   OPF data also included an (unused) 'areas' variable. While the version 1
   format has now been deprecated, it is still be handled automatically by
   LOADCASE and SAVECASE which are able to load and save case files in both
   version 1 and version 2 formats.

   See also IDX_BUS, IDX_BRCH, IDX_GEN, IDX_AREA and IDX_COST regarding
   constants which can be used as named column indices for the data matrices.
   Also described in the first three are additional results columns that
   are added to the bus, branch and gen matrices by the power flow and OPF
   solvers.

   The case struct also also allows for additional fields to be included.
   The OPF is designed to recognize fields named A, l, u, H, Cw, N,
   fparm, z0, zl and zu as parameters used to directly extend the OPF
   formulation (see OPF for details). Other user-defined fields may also
   be included and will be automatically loaded by the LOADCASE function
   and, given an appropriate 'savecase' callback function (see
   ADD_USERFCN), saved by the SAVECASE function.

   Bus Data Format
       1   bus number (positive integer)
       2   bus type
               PQ bus          = 1
               PV bus          = 2
               reference bus   = 3
               isolated bus    = 4
       3   Pd, real power demand (MW)
       4   Qd, reactive power demand (MVAr)
       5   Gs, shunt conductance (MW demanded at V = 1.0 p.u.)
       6   Bs, shunt susceptance (MVAr injected at V = 1.0 p.u.)
       7   area number, (positive integer)
       8   Vm, voltage magnitude (p.u.)
       9   Va, voltage angle (degrees)
   (-)     (bus name)
       10  baseKV, base voltage (kV)
       11  zone, loss zone (positive integer)
   (+) 12  maxVm, maximum voltage magnitude (p.u.)
   (+) 13  minVm, minimum voltage magnitude (p.u.)

   Generator Data Format
       1   bus number
   (-)     (machine identifier, 0-9, A-Z)
       2   Pg, real power output (MW)
       3   Qg, reactive power output (MVAr)
       4   Qmax, maximum reactive power output (MVAr)
       5   Qmin, minimum reactive power output (MVAr)
       6   Vg, voltage magnitude setpoint (p.u.)
   (-)     (remote controlled bus index)
       7   mBase, total MVA base of this machine, defaults to baseMVA
   (-)     (machine impedance, p.u. on mBase)
   (-)     (step up transformer impedance, p.u. on mBase)
   (-)     (step up transformer off nominal turns ratio)
       8   status,  >  0 - machine in service
                    <= 0 - machine out of service
   (-)     (% of total VAr's to come from this gen in order to hold V at
               remote bus controlled by several generators)
       9   Pmax, maximum real power output (MW)
       10  Pmin, minimum real power output (MW)
   (2) 11  Pc1, lower real power output of PQ capability curve (MW)
   (2) 12  Pc2, upper real power output of PQ capability curve (MW)
   (2) 13  Qc1min, minimum reactive power output at Pc1 (MVAr)
   (2) 14  Qc1max, maximum reactive power output at Pc1 (MVAr)
   (2) 15  Qc2min, minimum reactive power output at Pc2 (MVAr)
   (2) 16  Qc2max, maximum reactive power output at Pc2 (MVAr)
   (2) 17  ramp rate for load following/AGC (MW/min)
   (2) 18  ramp rate for 10 minute reserves (MW)
   (2) 19  ramp rate for 30 minute reserves (MW)
   (2) 20  ramp rate for reactive power (2 sec timescale) (MVAr/min)
   (2) 21  APF, area participation factor

   Branch Data Format
       1   f, from bus number
       2   t, to bus number
   (-)     (circuit identifier)
       3   r, resistance (p.u.)
       4   x, reactance (p.u.)
       5   b, total line charging susceptance (p.u.)
       6   rateA, MVA rating A (long term rating), set to 0 for unlimited
       7   rateB, MVA rating B (short term rating), set to 0 for unlimited
       8   rateC, MVA rating C (emergency rating), set to 0 for unlimited
       9   ratio, transformer off nominal turns ratio ( = 0 for lines )
           (taps at 'from' bus, impedance at 'to' bus,
            i.e. if r = x = b = 0, then ratio = Vf / Vt)
       10  angle, transformer phase shift angle (degrees), positive => delay
   (-)     (Gf, shunt conductance at from bus p.u.)
   (-)     (Bf, shunt susceptance at from bus p.u.)
   (-)     (Gt, shunt conductance at to bus p.u.)
   (-)     (Bt, shunt susceptance at to bus p.u.)
       11  initial branch status, 1 - in service, 0 - out of service
   (2) 12  minimum angle difference, angle(Vf) - angle(Vt) (degrees)
   (2) 13  maximum angle difference, angle(Vf) - angle(Vt) (degrees)
           (The voltage angle difference is taken to be unbounded below
            if ANGMIN < -360 and unbounded above if ANGMAX > 360.
            If both parameters are zero, it is unconstrained.)

 (+) Generator Cost Data Format
       NOTE: If gen has ng rows, then the first ng rows of gencost contain
       the cost for active power produced by the corresponding generators.
       If gencost has 2*ng rows then rows ng+1 to 2*ng contain the reactive
       power costs in the same format.
       1   model, 1 - piecewise linear, 2 - polynomial
       2   startup, startup cost in US dollars
       3   shutdown, shutdown cost in US dollars
       4   N, number of cost coefficients to follow for polynomial
           cost function, or number of data points for piecewise linear
       5 and following, parameters defining total cost function f(p),
           units of f and p are $/hr and MW (or MVAr), respectively.
           (MODEL = 1) : p0, f0, p1, f1, ..., pn, fn
               where p0 < p1 < ... < pn and the cost f(p) is defined by
               the coordinates (p0,f0), (p1,f1), ..., (pn,fn) of the
               end/break-points of the piecewise linear cost function
           (MODEL = 2) : cn, ..., c1, c0
               n+1 coefficients of an n-th order polynomial cost function,
               starting with highest order, where cost is
               f(p) = cn*p^n + ... + c1*p + c0

 (+) Area Data Format (deprecated)
     (this data is not used by MATPOWER and is no longer necessary for
      version 2 case files with OPF data).
       1   i, area number
       2   price_ref_bus, reference bus for that area

   See also LOADCASE, SAVECASE, IDX_BUS, IDX_BRCH, IDX_GEN, IDX_AREA
   and IDX_COST.

CROSS-REFERENCE INFORMATION ^

This function calls: This function is called by:

SOURCE CODE ^

0001 %CASEFORMAT    Defines the MATPOWER case file format.
0002 %   A MATPOWER case file is an M-file or MAT-file that defines or returns
0003 %   a struct named mpc, referred to as a "MATPOWER case struct". The fields
0004 %   of this struct are baseMVA, bus, gen, branch, and (optional) gencost. With
0005 %   the exception of baseMVA, a scalar, each data variable is a matrix, where
0006 %   a row corresponds to a single bus, branch, gen, etc. The format of the
0007 %   data is similar to the PTI format described in
0008 %       http://www.ee.washington.edu/research/pstca/formats/pti.txt
0009 %   except where noted. An item marked with (+) indicates that it is included
0010 %   in this data but is not part of the PTI format. An item marked with (-) is
0011 %   one that is in the PTI format but is not included here. Those marked with
0012 %   (2) were added for version 2 of the case file format. The columns for
0013 %   each data matrix are given below.
0014 %
0015 %   MATPOWER Case Version Information:
0016 %   There are two versions of the MATPOWER case file format. The current
0017 %   version of MATPOWER uses version 2 of the MATPOWER case format
0018 %   internally, and includes a 'version' field with a value of '2' to make
0019 %   the version explicit. Earlier versions of MATPOWER used the version 1
0020 %   case format, which defined the data matrices as individual variables,
0021 %   as opposed to fields of a struct. Case files in version 1 format with
0022 %   OPF data also included an (unused) 'areas' variable. While the version 1
0023 %   format has now been deprecated, it is still be handled automatically by
0024 %   LOADCASE and SAVECASE which are able to load and save case files in both
0025 %   version 1 and version 2 formats.
0026 %
0027 %   See also IDX_BUS, IDX_BRCH, IDX_GEN, IDX_AREA and IDX_COST regarding
0028 %   constants which can be used as named column indices for the data matrices.
0029 %   Also described in the first three are additional results columns that
0030 %   are added to the bus, branch and gen matrices by the power flow and OPF
0031 %   solvers.
0032 %
0033 %   The case struct also also allows for additional fields to be included.
0034 %   The OPF is designed to recognize fields named A, l, u, H, Cw, N,
0035 %   fparm, z0, zl and zu as parameters used to directly extend the OPF
0036 %   formulation (see OPF for details). Other user-defined fields may also
0037 %   be included and will be automatically loaded by the LOADCASE function
0038 %   and, given an appropriate 'savecase' callback function (see
0039 %   ADD_USERFCN), saved by the SAVECASE function.
0040 %
0041 %   Bus Data Format
0042 %       1   bus number (positive integer)
0043 %       2   bus type
0044 %               PQ bus          = 1
0045 %               PV bus          = 2
0046 %               reference bus   = 3
0047 %               isolated bus    = 4
0048 %       3   Pd, real power demand (MW)
0049 %       4   Qd, reactive power demand (MVAr)
0050 %       5   Gs, shunt conductance (MW demanded at V = 1.0 p.u.)
0051 %       6   Bs, shunt susceptance (MVAr injected at V = 1.0 p.u.)
0052 %       7   area number, (positive integer)
0053 %       8   Vm, voltage magnitude (p.u.)
0054 %       9   Va, voltage angle (degrees)
0055 %   (-)     (bus name)
0056 %       10  baseKV, base voltage (kV)
0057 %       11  zone, loss zone (positive integer)
0058 %   (+) 12  maxVm, maximum voltage magnitude (p.u.)
0059 %   (+) 13  minVm, minimum voltage magnitude (p.u.)
0060 %
0061 %   Generator Data Format
0062 %       1   bus number
0063 %   (-)     (machine identifier, 0-9, A-Z)
0064 %       2   Pg, real power output (MW)
0065 %       3   Qg, reactive power output (MVAr)
0066 %       4   Qmax, maximum reactive power output (MVAr)
0067 %       5   Qmin, minimum reactive power output (MVAr)
0068 %       6   Vg, voltage magnitude setpoint (p.u.)
0069 %   (-)     (remote controlled bus index)
0070 %       7   mBase, total MVA base of this machine, defaults to baseMVA
0071 %   (-)     (machine impedance, p.u. on mBase)
0072 %   (-)     (step up transformer impedance, p.u. on mBase)
0073 %   (-)     (step up transformer off nominal turns ratio)
0074 %       8   status,  >  0 - machine in service
0075 %                    <= 0 - machine out of service
0076 %   (-)     (% of total VAr's to come from this gen in order to hold V at
0077 %               remote bus controlled by several generators)
0078 %       9   Pmax, maximum real power output (MW)
0079 %       10  Pmin, minimum real power output (MW)
0080 %   (2) 11  Pc1, lower real power output of PQ capability curve (MW)
0081 %   (2) 12  Pc2, upper real power output of PQ capability curve (MW)
0082 %   (2) 13  Qc1min, minimum reactive power output at Pc1 (MVAr)
0083 %   (2) 14  Qc1max, maximum reactive power output at Pc1 (MVAr)
0084 %   (2) 15  Qc2min, minimum reactive power output at Pc2 (MVAr)
0085 %   (2) 16  Qc2max, maximum reactive power output at Pc2 (MVAr)
0086 %   (2) 17  ramp rate for load following/AGC (MW/min)
0087 %   (2) 18  ramp rate for 10 minute reserves (MW)
0088 %   (2) 19  ramp rate for 30 minute reserves (MW)
0089 %   (2) 20  ramp rate for reactive power (2 sec timescale) (MVAr/min)
0090 %   (2) 21  APF, area participation factor
0091 %
0092 %   Branch Data Format
0093 %       1   f, from bus number
0094 %       2   t, to bus number
0095 %   (-)     (circuit identifier)
0096 %       3   r, resistance (p.u.)
0097 %       4   x, reactance (p.u.)
0098 %       5   b, total line charging susceptance (p.u.)
0099 %       6   rateA, MVA rating A (long term rating), set to 0 for unlimited
0100 %       7   rateB, MVA rating B (short term rating), set to 0 for unlimited
0101 %       8   rateC, MVA rating C (emergency rating), set to 0 for unlimited
0102 %       9   ratio, transformer off nominal turns ratio ( = 0 for lines )
0103 %           (taps at 'from' bus, impedance at 'to' bus,
0104 %            i.e. if r = x = b = 0, then ratio = Vf / Vt)
0105 %       10  angle, transformer phase shift angle (degrees), positive => delay
0106 %   (-)     (Gf, shunt conductance at from bus p.u.)
0107 %   (-)     (Bf, shunt susceptance at from bus p.u.)
0108 %   (-)     (Gt, shunt conductance at to bus p.u.)
0109 %   (-)     (Bt, shunt susceptance at to bus p.u.)
0110 %       11  initial branch status, 1 - in service, 0 - out of service
0111 %   (2) 12  minimum angle difference, angle(Vf) - angle(Vt) (degrees)
0112 %   (2) 13  maximum angle difference, angle(Vf) - angle(Vt) (degrees)
0113 %           (The voltage angle difference is taken to be unbounded below
0114 %            if ANGMIN < -360 and unbounded above if ANGMAX > 360.
0115 %            If both parameters are zero, it is unconstrained.)
0116 %
0117 % (+) Generator Cost Data Format
0118 %       NOTE: If gen has ng rows, then the first ng rows of gencost contain
0119 %       the cost for active power produced by the corresponding generators.
0120 %       If gencost has 2*ng rows then rows ng+1 to 2*ng contain the reactive
0121 %       power costs in the same format.
0122 %       1   model, 1 - piecewise linear, 2 - polynomial
0123 %       2   startup, startup cost in US dollars
0124 %       3   shutdown, shutdown cost in US dollars
0125 %       4   N, number of cost coefficients to follow for polynomial
0126 %           cost function, or number of data points for piecewise linear
0127 %       5 and following, parameters defining total cost function f(p),
0128 %           units of f and p are $/hr and MW (or MVAr), respectively.
0129 %           (MODEL = 1) : p0, f0, p1, f1, ..., pn, fn
0130 %               where p0 < p1 < ... < pn and the cost f(p) is defined by
0131 %               the coordinates (p0,f0), (p1,f1), ..., (pn,fn) of the
0132 %               end/break-points of the piecewise linear cost function
0133 %           (MODEL = 2) : cn, ..., c1, c0
0134 %               n+1 coefficients of an n-th order polynomial cost function,
0135 %               starting with highest order, where cost is
0136 %               f(p) = cn*p^n + ... + c1*p + c0
0137 %
0138 % (+) Area Data Format (deprecated)
0139 %     (this data is not used by MATPOWER and is no longer necessary for
0140 %      version 2 case files with OPF data).
0141 %       1   i, area number
0142 %       2   price_ref_bus, reference bus for that area
0143 %
0144 %   See also LOADCASE, SAVECASE, IDX_BUS, IDX_BRCH, IDX_GEN, IDX_AREA
0145 %   and IDX_COST.
0146 
0147 %   MATPOWER
0148 %   Copyright (c) 1996-2016, Power Systems Engineering Research Center (PSERC)
0149 %   by Ray Zimmerman, PSERC Cornell
0150 %
0151 %   This file is part of MATPOWER.
0152 %   Covered by the 3-clause BSD License (see LICENSE file for details).
0153 %   See http://www.pserc.cornell.edu/matpower/ for more info.

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