Analyze electric circuit
sps = power_analyze('sys','
structure
')
[A,B,C,D,x0,states,inputs,outputs,uss,xss,yss,frequencies,Hlin]
=...
power_analyze('sys')
sps = power_analyze('sys','sort
')
sps = power_analyze('sys','ss
')
sps = power_analyze('sys','net
')
SW = power_analyze('sys','getSwitchStatus')
sps = power_analyze('sys','setSwitchStatus',SW)
The power_analyze
command computes the equivalent
statespace model of the specified electrical model built with SimPowerSystems™ software.
It evaluates the A, B, C, D standard matrices
of the statespace system described by the equations
$$\begin{array}{l}\dot{x}=Ax+Bu\\ y=Cx+Du\end{array}$$
where the state vector x represents the inductor currents and capacitor voltages, the input vector u represents the voltage and current sources, and the output vector y represents the voltage and current measurements of the model.
Nonlinear elements, such as the switch devices, motors and machines, are simulated by current sources driven by the voltages across the nonlinear element terminals. The nonlinear elements produces additional current source inputs to the u vector, and additional voltage measurements outputs to the y vector.
The Simulink^{®} blocks of the model, as well as internal Simulink models of the SimPowerSystems nonlinear elements are not represented in the statespace matrices.
The A, B, C, D matrices are computed for the particular circuit topology where all the switch devices, if any, are considered to be open status (that is, with infinite impedance).
power_analyze
also computes the Aswitch
, Bswitch
, Cswitch
,
and Dswitch
matrices for the circuit topology that
take into account the initial state (open/closed) of the Breaker and
Ideal Switch blocks present in the model. The initial state of power
electronic devices (Diodes, Thyristors, and so on) is considered to
be open, unless a nonzero initial current value is specified in the
mask of the device when Lon parameter is different from zero.
For a circuit that contains no switches, the Aswitch
, Bswitch
, Cswitch
,
and Dswitch
matrices have exactly the same values
as the A, B, C, D matrices.
In SimPowerSystems software, each state variable name begins
with a prefix Uc_
for capacitor voltages or Il_
for
inductor currents, followed by the name of the block in which the
element (C or L) is found.
A string is added to this prefix for blocks containing more
than one inductance or capacitor. For example, the Linear Transformer
block is represented with four state variables, one for each of the
three leakage inductances, defined with the prefixes Il_winding_
,
where x
:x
is the winding number of the transformer,
and one state for the magnetization inductance defined with the prefix Il_Lm:
.
Each input state variable name begins with a prefix U_
for
voltage sources or I_
for current sources, followed
by the name of the source block. A string can be added to the prefix
for blocks containing more than one source. For example, the Synchronous
Machine block produces two current inputs with prefixes I_A:
and I_B:
(phase
A and phase B machine currents).
Each output state variable name begins with a prefix U_
for
voltage outputs or I_
for current outputs, followed
by the name of the block that produces the output. A string can be
added to the prefix for blocks containing more than one output. For
example, the Synchronous Machine block produces two voltage outputs
with prefixes U_AB:
and U_BC:
(two
machine phasetophase voltages).
The following conventions are used for inputs:
Source current flowing in the arrow direction is positive.
Positive source voltage is indicated by a + sign on the icon.
The sign conventions used for voltages and currents of state variables and measurement outputs are described in Measuring Voltages and Currents. See also Sign Conventions for Voltages and Currents for current directions and voltage polarities.
sps = power_analyze('sys','
creates
a structure array structure
')sps
with fields and values describing
the model sys
.
The fields of the structure array are defined in the following order.
Field  Description 

 Name of the model 






















 1by 


 Vector of initial conditions of dependent states 


 Discrete statespace A matrix. Returns an empty value when the Powergui is in continuous or in phasor mode. 
 Discrete statespace B matrix. Returns an empty value when the Powergui is in continuous or in phasor mode. 
 Discrete statespace C matrix. Returns an empty value when the Powergui is in continuous or in phasor mode. 
 Discrete statespace D matrix. Returns an empty value when the Powergui is in continuous or in phasor mode. 
 Vector of discrete initial conditions. Returns an empty value when the Powergui is in continuous or in phasor mode. 
 Sample time value used to compute discrete statespace matrices 
 A matrix taking into account the initial status of switch devices 
 B matrix taking into account the initial status of switch devices 
 C matrix taking into account the initial status of switch devices 
 D matrix taking into account the initial status of switch devices 
 Vector of initial values of switch currents 


 Display the oscillatory modes of the statespace system 
The table uses the following conventions:
nstates
is the number of states.
ninput
is the number of inputs.
noutput
is the number of outputs.
nfreq
is the number of input source
frequencies.
[A,B,C,D,x0,states,inputs,outputs,uss,xss,yss,frequencies,Hlin]
=...
returns the statespace
calculations in separate variables.
power_analyze('sys')
sps = power_analyze('sys','
returns
a structure array sort
')sps
with the following fields
related to the interconnection of SimPowerSystems blocks in a
model. The fields are defined in the following order.
Field  Description 

 Name of the model 
 Sample time for discrete systems 


 List of blocks containing the state variable 
 Source matrix in the 
 Names of the blocks defined as sources 
 Names of the inputs of the system 
 Names of the outputs of the system 
 Output expression in the 
 Output expression in matrix format (internal) 
 Names of the voltage and current measurement blocks 
sps = power_analyze('sys','
creates
a continuous statespace model of the model ss
')sys
with
matrices A, B, C, D. You must have Control System Toolbox™ software
installed for this option. The output is a statespace object.
sps = power_analyze('sys','
generates
a netlist stored in a file, net
')sys.net
. The file contains
the node numbers automatically generated by power_analyze
,
as well as parameter values of all linear elements. See the formats
described in the power_statespace
reference
page.
SW = power_analyze('sys','getSwitchStatus')
returns
a structure array with switch names and their initial status. You
can use the SW
structure to specify switch statuses
for a particular circuit topology and to compute the corresponding
statespace matrices using the command sps = power_analyze('sys','setSwitchStatus',SW)
.
The SW
structure contains the following fields.
Field  Description 

 Names of the switches of the system 
 Vector of initial states of switches 
sps = power_analyze('sys','setSwitchStatus',SW)
creates
a structure array sps
with fields and values describing
the statespace matrices of model sys
for the switch
status defined in SW
. Use the command
to
obtain the
SW = power_analyze('sys','getSwitchStatus')SW
structure array.
Field  Description 











Obtain the statespace
matrices and steadystate voltages and currents for the power_netsim2
power_netsim2
circuit.
The command
sps = power_analyze('power_netsim2','structure');
returns the statespace model in the sps
structure
variable.
sps.A = 1.0e+04 * 0 6.2500 0.0083 1.4250 sps.uss = 0 1000
sps.xss = 1.0e+02 * 4.8392  5.1314i 0.0310 + 0.0292i sps.yss = 1.0e+02 * 8.5535  1.6287i 0 sps.inputs = I_Breaker U_Source sps.outputs = U_Breaker I_Current Measurement
The inductor current of the 51ohm, 12mH block and the capacitor voltage of the 120ohm, 16µF block are the two state variables in this circuit. The Breaker block is a nonlinear element that is represented by a current source (the first input) driven by the voltage across its terminals (the first output).