
Basic Data balanced:
-------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

b:loc_name              Name    

Element Parameter:

e:loc_name              Name    
e:outserv               Out of Service  
e:nphase                No. of phases   
e:measuredPh            Measured phase  
e:pbusbar        StaBar,ElmTerm,StaCubic        Measurement point       

Scenario Parameter:

e:loc_name              Name    
e:outserv               Out of Service  
e:nphase                No. of phases   
e:measuredPh            Measured phase  
e:pbusbar        StaBar,ElmTerm,StaCubic        Measurement point       

Type Parameter:



Reference Parameter:

r:pbusbar        StaBar,ElmTerm,StaCubic        Measurement point       

Basic Data unbalanced:
---------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

b:loc_name              Name    

Element Parameter:

e:loc_name              Name    
e:outserv               Out of Service  
e:nphase                No. of phases   
e:measuredPh            Measured phase  
e:pbusbar        StaBar,ElmTerm,StaCubic        Measurement point       

Scenario Parameter:

e:loc_name              Name    
e:outserv               Out of Service  
e:nphase                No. of phases   
e:measuredPh            Measured phase  
e:pbusbar        StaBar,ElmTerm,StaCubic        Measurement point       

Type Parameter:



Reference Parameter:

r:pbusbar        StaBar,ElmTerm,StaCubic        Measurement point       

Load Flow AC balanced:
---------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Load Flow AC unbalanced:
-----------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Short-Circuit VDE/IEC balanced:
------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Short-Circuit VDE/IEC unbalanced:
--------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Simulation RMS balanced:
-----------------------

Currents, Voltages and Powers:



Bus Results:



Signals:

s:uR             p.u.   IN      Input voltage, real part        continuous, double      
s:uI             p.u.   IN      Input voltage, imaginary part   continuous, double      
s:fref           p.u.   IN      Reference frequency     continuous, double      
s:Fmeas          Hz     OUT     Measured frequency      continuous, double      
s:fmeas          p.u.   OUT     Measured frequency      continuous, double      
s:cosphi                OUT     cos(phi)        continuous, double      
s:sinphi                OUT     sin(phi)        continuous, double      
s:xpi                   STATE   State variable (PI-controller)  continuous, double      
s:xphi           rad    STATE   State variable (integrator)     continuous, double      
s:xpi:dt          /s    d/dt    State variable (PI-controller), derivative      continuous, double      
s:xphi:dt        rad/s  d/dt    State variable (integrator), derivative continuous, double      
s:umag           p.u.   SIGS    Voltage magnitude       continuous, double      

Calculation Parameter:

c:Phi            deg    Voltage angle   
c:dphi           rad    dphi    
c:vd             p.u.   vd      
c:vq             p.u.   vq      
c:dwlim          rad/s  dwlim   
c:dwmax          rad/s  Upper angular frequency deviation limit 
c:dwmin          rad/s  Lower angular frequency deviation limit 
c:frnom          Hz     Nominal frequency       
c:hpi            rad/s  Nominal angular frequency       
c:umin           p.u.   Blocking voltage        

Element Parameter:

e:iAstabint             A-stable integration algorithm  
e:Kp                    PI proportional gain    
e:Ki                    PI integration gain     
e:fmax           p.u.   Upper frequency limit   
e:fmin           p.u.   Lower frequency limit   
e:i_norm                Input voltage normalisation     
e:i_block               Voltage dependent blocking      
e:i_dw                  Set the angular frequency deviation to zero when blocked        
e:umin           p.u.   Blocking voltage        

Scenario Parameter:

e:iAstabint             A-stable integration algorithm  
e:Kp                    PI proportional gain    
e:Ki                    PI integration gain     
e:fmax           p.u.   Upper frequency limit   
e:fmin           p.u.   Lower frequency limit   
e:i_norm                Input voltage normalisation     
e:i_block               Voltage dependent blocking      
e:i_dw                  Set the angular frequency deviation to zero when blocked        
e:umin           p.u.   Blocking voltage        

Type Parameter:



Reference Parameter:



Simulation RMS unbalanced:
-------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:

s:uR_A           p.u.   IN      Input voltage, phase a, real part       continuous, double      
s:uR_B           p.u.   IN      Input voltage, phase b, real part       continuous, double      
s:uR_C           p.u.   IN      Input voltage, phase c, real part       continuous, double      
s:uI_A           p.u.   IN      Input voltage, phase a, imaginary part  continuous, double      
s:uI_B           p.u.   IN      Input voltage, phase b, imaginary part  continuous, double      
s:uI_C           p.u.   IN      Input voltage, phase c, imaginary part  continuous, double      
s:fref           p.u.   IN      Reference frequency     continuous, double      
s:Fmeas          Hz     OUT     Measured frequency      continuous, double      
s:fmeas          p.u.   OUT     Measured frequency      continuous, double      
s:cosphi                OUT     cos(phi)        continuous, double      
s:sinphi                OUT     sin(phi)        continuous, double      
s:xpi                   STATE   State variable (PI-controller)  continuous, double      
s:xphi           rad    STATE   State variable (integrator)     continuous, double      
s:phiref         rad    STATE   State variable  continuous, double      
s:xpi:dt          /s    d/dt    State variable (PI-controller), derivative      continuous, double      
s:xphi:dt        rad/s  d/dt    State variable (integrator), derivative continuous, double      
s:phiref:dt      rad/s  d/dt    State variable, derivative      continuous, double      
s:umag           p.u.   SIGS    Voltage magnitude       continuous, double      

Calculation Parameter:

c:Phi            deg    Voltage angle   
c:dphi           rad    dphi    
c:vd             p.u.   vd      
c:vq             p.u.   vq      
c:dwlim          rad/s  dwlim   
c:dwmax          rad/s  Upper angular frequency deviation limit 
c:dwmin          rad/s  Lower angular frequency deviation limit 
c:frnom          Hz     Nominal frequency       
c:hpi            rad/s  Nominal angular frequency       
c:umin           p.u.   Blocking voltage        

Element Parameter:

e:iAstabint             A-stable integration algorithm  
e:Kp                    PI proportional gain    
e:Ki                    PI integration gain     
e:fmax           p.u.   Upper frequency limit   
e:fmin           p.u.   Lower frequency limit   
e:i_norm                Input voltage normalisation     
e:i_block               Voltage dependent blocking      
e:i_dw                  Set the angular frequency deviation to zero when blocked        
e:umin           p.u.   Blocking voltage        

Scenario Parameter:

e:iAstabint             A-stable integration algorithm  
e:Kp                    PI proportional gain    
e:Ki                    PI integration gain     
e:fmax           p.u.   Upper frequency limit   
e:fmin           p.u.   Lower frequency limit   
e:i_norm                Input voltage normalisation     
e:i_block               Voltage dependent blocking      
e:i_dw                  Set the angular frequency deviation to zero when blocked        
e:umin           p.u.   Blocking voltage        

Type Parameter:



Reference Parameter:



Simulation EMT balanced:
-----------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:

e:i_model               PLL based on    
e:Kp                    PI proportional gain    
e:Ki                    PI integration gain     
e:Ksogi                 SOGI proportional gain  
e:T1             ms     Low-pass filter time constant   
e:fmax           p.u.   Upper frequency limit   
e:fmin           p.u.   Lower frequency limit   
e:i_norm                Input voltage normalisation     
e:i_block               Voltage dependent blocking      
e:umin           p.u.   Blocking voltage        
e:i_notch               Notch filter for oscillations at double nominal angular frequency       
e:bw             rad/s  Bandwidth       

Scenario Parameter:

e:i_model               PLL based on    
e:Kp                    PI proportional gain    
e:Ki                    PI integration gain     
e:Ksogi                 SOGI proportional gain  
e:T1             ms     Low-pass filter time constant   
e:fmax           p.u.   Upper frequency limit   
e:fmin           p.u.   Lower frequency limit   
e:i_norm                Input voltage normalisation     
e:i_block               Voltage dependent blocking      
e:umin           p.u.   Blocking voltage        
e:i_notch               Notch filter for oscillations at double nominal angular frequency       
e:bw             rad/s  Bandwidth       

Type Parameter:



Reference Parameter:



Simulation EMT unbalanced:
-------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:

s:u_a            p.u.   IN      Input voltage, phase a  continuous, double      
s:u_b            p.u.   IN      Input voltage, phase b  continuous, double      
s:u_c            p.u.   IN      Input voltage, phase c  continuous, double      
s:Fmeas          Hz     OUT     Measured frequency      continuous, double      
s:fmeas          p.u.   OUT     Measured frequency      continuous, double      
s:cosphi                OUT     cos(phi)        continuous, double      
s:sinphi                OUT     sin(phi)        continuous, double      
s:xpi                   STATE   State variable (PI-controller)  continuous, double      
s:xphi           rad    STATE   State variable (integrator)     continuous, double      
s:xpi:dt          /s    d/dt    State variable (PI-controller), derivative      continuous, double      
s:xphi:dt        rad/s  d/dt    State variable (integrator), derivative continuous, double      
s:umag           p.u.   SIGS    Voltage magnitude (input)       continuous, double      

Calculation Parameter:

c:Phi            deg    Voltage angle   
c:dphi           rad    dphi    
c:vd             p.u.   vd      
c:vq             p.u.   vq      
c:dwlim          rad/s  dwlim   
c:dwmax          rad/s  Upper angular frequency deviation limit 
c:dwmin          rad/s  Lower angular frequency deviation limit 
c:frnom          Hz     Nominal frequency       
c:hpi            rad/s  Nominal angular frequency       
c:valpha_in      p.u.   Voltage input, alpha-component  
c:vbeta_in       p.u.   Voltage input, beta-component   
c:umin           p.u.   Blocking voltage        

Element Parameter:

e:i_model               PLL based on    
e:Kp                    PI proportional gain    
e:Ki                    PI integration gain     
e:Ksogi                 SOGI proportional gain  
e:T1             ms     Low-pass filter time constant   
e:fmax           p.u.   Upper frequency limit   
e:fmin           p.u.   Lower frequency limit   
e:i_norm                Input voltage normalisation     
e:i_block               Voltage dependent blocking      
e:umin           p.u.   Blocking voltage        
e:i_notch               Notch filter for oscillations at double nominal angular frequency       
e:bw             rad/s  Bandwidth       

Scenario Parameter:

e:i_model               PLL based on    
e:Kp                    PI proportional gain    
e:Ki                    PI integration gain     
e:Ksogi                 SOGI proportional gain  
e:T1             ms     Low-pass filter time constant   
e:fmax           p.u.   Upper frequency limit   
e:fmin           p.u.   Lower frequency limit   
e:i_norm                Input voltage normalisation     
e:i_block               Voltage dependent blocking      
e:umin           p.u.   Blocking voltage        
e:i_notch               Notch filter for oscillations at double nominal angular frequency       
e:bw             rad/s  Bandwidth       

Type Parameter:



Reference Parameter:



Power Quality/Harmonics balanced:
--------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Power Quality/Harmonics unbalanced:
----------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Protection balanced:
-------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Protection unbalanced:
---------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Optimal Power Flow AC balanced:
------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Optimal Power Flow AC unbalanced:
--------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Reliability balanced:
--------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Reliability unbalanced:
----------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Description balanced:
--------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:

e:gnrl_modif            Object modified 
e:gnrl_modby            Object modified by      
e:chr_name              Characteristic Name     
e:dat_src               Data source     
e:for_name              Foreign Key     

Scenario Parameter:

e:gnrl_modif            Object modified 
e:gnrl_modby            Object modified by      
e:chr_name              Characteristic Name     
e:dat_src               Data source     
e:for_name              Foreign Key     

Type Parameter:



Reference Parameter:



Description unbalanced:
----------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:

e:chr_name              Characteristic Name     
e:dat_src               Data source     
e:for_name              Foreign Key     

Scenario Parameter:

e:chr_name              Characteristic Name     
e:dat_src               Data source     
e:for_name              Foreign Key     

Type Parameter:



Reference Parameter:



Short-Circuit Complete balanced:
-------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Short-Circuit Complete unbalanced:
---------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Short-Circuit ANSI balanced:
---------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Short-Circuit ANSI unbalanced:
-----------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



State Estimation balanced:
-------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



State Estimation unbalanced:
---------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Short-Circuit IEC 61363 balanced:
--------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Short-Circuit IEC 61363 unbalanced:
----------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Generation Adequacy balanced:
----------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Generation Adequacy unbalanced:
------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Tie Open Point Opt. balanced:
----------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Tie Open Point Opt. unbalanced:
------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Short-Circuit DC balanced:
-------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Short-Circuit DC unbalanced:
---------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Basic Data balanced:
-------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Basic Data unbalanced:
---------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Basic Data balanced:
-------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Basic Data unbalanced:
---------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Sensitivities / Distribution Factors AC balanced:
------------------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Sensitivities / Distribution Factors AC unbalanced:
--------------------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Contingency Analysis AC balanced:
--------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Contingency Analysis AC unbalanced:
----------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Load Flow DC balanced:
---------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Load Flow DC unbalanced:
-----------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Sensitivities / Distribution Factors DC balanced:
------------------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Sensitivities / Distribution Factors DC unbalanced:
--------------------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Contingency Analysis DC balanced:
--------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Contingency Analysis DC unbalanced:
----------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Voltage Profile Optimisation balanced:
-------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Voltage Profile Optimisation unbalanced:
---------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Optimal Capacitor Placement balanced:
------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Optimal Capacitor Placement unbalanced:
--------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Frequency Sweep balanced:
------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Frequency Sweep unbalanced:
--------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Modal/Eigenvalue Analysis balanced:
----------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:

s:uR             p.u.   IN      Input voltage, real part        continuous, double      
s:uI             p.u.   IN      Input voltage, imaginary part   continuous, double      
s:fref           p.u.   IN      Reference frequency     continuous, double      
s:Fmeas          Hz     OUT     Measured frequency      continuous, double      
s:fmeas          p.u.   OUT     Measured frequency      continuous, double      
s:cosphi                OUT     cos(phi)        continuous, double      
s:sinphi                OUT     sin(phi)        continuous, double      
s:xpi                   STATE   State variable (PI-controller)  continuous, double      
s:xphi           rad    STATE   State variable (integrator)     continuous, double      
s:xpi:dt          /s    d/dt    State variable (PI-controller), derivative      continuous, double      
s:xphi:dt        rad/s  d/dt    State variable (integrator), derivative continuous, double      
s:umag           p.u.   SIGS    Voltage magnitude       continuous, double      

Calculation Parameter:

c:Phi            deg    Voltage angle   
c:dphi           rad    dphi    
c:vd             p.u.   vd      
c:vq             p.u.   vq      
c:dwlim          rad/s  dwlim   
c:dwmax          rad/s  Upper angular frequency deviation limit 
c:dwmin          rad/s  Lower angular frequency deviation limit 
c:frnom          Hz     Nominal frequency       
c:hpi            rad/s  Nominal angular frequency       
c:umin           p.u.   Blocking voltage        

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Modal/Eigenvalue Analysis unbalanced:
------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:

s:uR_A           p.u.   IN      Input voltage, phase a, real part       continuous, double      
s:uR_B           p.u.   IN      Input voltage, phase b, real part       continuous, double      
s:uR_C           p.u.   IN      Input voltage, phase c, real part       continuous, double      
s:uI_A           p.u.   IN      Input voltage, phase a, imaginary part  continuous, double      
s:uI_B           p.u.   IN      Input voltage, phase b, imaginary part  continuous, double      
s:uI_C           p.u.   IN      Input voltage, phase c, imaginary part  continuous, double      
s:fref           p.u.   IN      Reference frequency     continuous, double      
s:Fmeas          Hz     OUT     Measured frequency      continuous, double      
s:fmeas          p.u.   OUT     Measured frequency      continuous, double      
s:cosphi                OUT     cos(phi)        continuous, double      
s:sinphi                OUT     sin(phi)        continuous, double      
s:xpi                   STATE   State variable (PI-controller)  continuous, double      
s:xphi           rad    STATE   State variable (integrator)     continuous, double      
s:phiref         rad    STATE   State variable  continuous, double      
s:xpi:dt          /s    d/dt    State variable (PI-controller), derivative      continuous, double      
s:xphi:dt        rad/s  d/dt    State variable (integrator), derivative continuous, double      
s:phiref:dt      rad/s  d/dt    State variable, derivative      continuous, double      
s:umag           p.u.   SIGS    Voltage magnitude       continuous, double      

Calculation Parameter:

c:Phi            deg    Voltage angle   
c:dphi           rad    dphi    
c:vd             p.u.   vd      
c:vq             p.u.   vq      
c:dwlim          rad/s  dwlim   
c:dwmax          rad/s  Upper angular frequency deviation limit 
c:dwmin          rad/s  Lower angular frequency deviation limit 
c:frnom          Hz     Nominal frequency       
c:hpi            rad/s  Nominal angular frequency       
c:umin           p.u.   Blocking voltage        

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Arc-Flash Analysis balanced:
---------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Arc-Flash Analysis unbalanced:
-----------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Optimal Power Flow DC balanced:
------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Optimal Power Flow DC unbalanced:
--------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Backbone Calculation balanced:
-----------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:

s:uR             p.u.   IN      Input voltage, real part        continuous, double      
s:uI             p.u.   IN      Input voltage, imaginary part   continuous, double      
s:fref           p.u.   IN      Reference frequency     continuous, double      
s:Fmeas          Hz     OUT     Measured frequency      continuous, double      
s:fmeas          p.u.   OUT     Measured frequency      continuous, double      
s:cosphi                OUT     cos(phi)        continuous, double      
s:sinphi                OUT     sin(phi)        continuous, double      
s:xpi                   STATE   State variable (PI-controller)  continuous, double      
s:xphi           rad    STATE   State variable (integrator)     continuous, double      
s:umag           p.u.   SIGS    Voltage magnitude       continuous, double      

Calculation Parameter:

c:Phi            deg    Voltage angle   
c:dphi           rad    dphi    
c:vd             p.u.   vd      
c:vq             p.u.   vq      
c:dwlim          rad/s  dwlim   
c:dwmax          rad/s  Upper angular frequency deviation limit 
c:dwmin          rad/s  Lower angular frequency deviation limit 
c:frnom          Hz     Nominal frequency       
c:hpi            rad/s  Nominal angular frequency       
c:umin           p.u.   Blocking voltage        

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Backbone Calculation unbalanced:
-------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:

s:uR_A           p.u.   IN      Input voltage, phase a, real part       continuous, double      
s:uR_B           p.u.   IN      Input voltage, phase b, real part       continuous, double      
s:uR_C           p.u.   IN      Input voltage, phase c, real part       continuous, double      
s:uI_A           p.u.   IN      Input voltage, phase a, imaginary part  continuous, double      
s:uI_B           p.u.   IN      Input voltage, phase b, imaginary part  continuous, double      
s:uI_C           p.u.   IN      Input voltage, phase c, imaginary part  continuous, double      
s:fref           p.u.   IN      Reference frequency     continuous, double      
s:Fmeas          Hz     OUT     Measured frequency      continuous, double      
s:fmeas          p.u.   OUT     Measured frequency      continuous, double      
s:cosphi                OUT     cos(phi)        continuous, double      
s:sinphi                OUT     sin(phi)        continuous, double      
s:xpi                   STATE   State variable (PI-controller)  continuous, double      
s:xphi           rad    STATE   State variable (integrator)     continuous, double      
s:phiref         rad    STATE   State variable  continuous, double      
s:umag           p.u.   SIGS    Voltage magnitude       continuous, double      

Calculation Parameter:

c:Phi            deg    Voltage angle   
c:dphi           rad    dphi    
c:vd             p.u.   vd      
c:vq             p.u.   vq      
c:dwlim          rad/s  dwlim   
c:dwmax          rad/s  Upper angular frequency deviation limit 
c:dwmin          rad/s  Lower angular frequency deviation limit 
c:frnom          Hz     Nominal frequency       
c:hpi            rad/s  Nominal angular frequency       
c:umin           p.u.   Blocking voltage        

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Optimal RCS Placement balanced:
------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Optimal RCS Placement unbalanced:
--------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Motor Starting Calculation balanced:
-----------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:

s:uR             p.u.   IN      Input voltage, real part        continuous, double      
s:uI             p.u.   IN      Input voltage, imaginary part   continuous, double      
s:fref           p.u.   IN      Reference frequency     continuous, double      
s:Fmeas          Hz     OUT     Measured frequency      continuous, double      
s:fmeas          p.u.   OUT     Measured frequency      continuous, double      
s:cosphi                OUT     cos(phi)        continuous, double      
s:sinphi                OUT     sin(phi)        continuous, double      
s:xpi                   STATE   State variable (PI-controller)  continuous, double      
s:xphi           rad    STATE   State variable (integrator)     continuous, double      
s:umag           p.u.   SIGS    Voltage magnitude       continuous, double      

Calculation Parameter:

c:Phi            deg    Voltage angle   
c:dphi           rad    dphi    
c:vd             p.u.   vd      
c:vq             p.u.   vq      
c:dwlim          rad/s  dwlim   
c:dwmax          rad/s  Upper angular frequency deviation limit 
c:dwmin          rad/s  Lower angular frequency deviation limit 
c:frnom          Hz     Nominal frequency       
c:hpi            rad/s  Nominal angular frequency       
c:umin           p.u.   Blocking voltage        

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Motor Starting Calculation unbalanced:
-------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:

s:uR_A           p.u.   IN      Input voltage, phase a, real part       continuous, double      
s:uR_B           p.u.   IN      Input voltage, phase b, real part       continuous, double      
s:uR_C           p.u.   IN      Input voltage, phase c, real part       continuous, double      
s:uI_A           p.u.   IN      Input voltage, phase a, imaginary part  continuous, double      
s:uI_B           p.u.   IN      Input voltage, phase b, imaginary part  continuous, double      
s:uI_C           p.u.   IN      Input voltage, phase c, imaginary part  continuous, double      
s:fref           p.u.   IN      Reference frequency     continuous, double      
s:Fmeas          Hz     OUT     Measured frequency      continuous, double      
s:fmeas          p.u.   OUT     Measured frequency      continuous, double      
s:cosphi                OUT     cos(phi)        continuous, double      
s:sinphi                OUT     sin(phi)        continuous, double      
s:xpi                   STATE   State variable (PI-controller)  continuous, double      
s:xphi           rad    STATE   State variable (integrator)     continuous, double      
s:phiref         rad    STATE   State variable  continuous, double      
s:umag           p.u.   SIGS    Voltage magnitude       continuous, double      

Calculation Parameter:

c:Phi            deg    Voltage angle   
c:dphi           rad    dphi    
c:vd             p.u.   vd      
c:vq             p.u.   vq      
c:dwlim          rad/s  dwlim   
c:dwmax          rad/s  Upper angular frequency deviation limit 
c:dwmin          rad/s  Lower angular frequency deviation limit 
c:frnom          Hz     Nominal frequency       
c:hpi            rad/s  Nominal angular frequency       
c:umin           p.u.   Blocking voltage        

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Cable Analysis balanced:
-----------------------

Currents, Voltages and Powers:



Bus Results:



Signals:

s:uR             p.u.   IN      Input voltage, real part        continuous, double      
s:uI             p.u.   IN      Input voltage, imaginary part   continuous, double      
s:fref           p.u.   IN      Reference frequency     continuous, double      
s:Fmeas          Hz     OUT     Measured frequency      continuous, double      
s:fmeas          p.u.   OUT     Measured frequency      continuous, double      
s:cosphi                OUT     cos(phi)        continuous, double      
s:sinphi                OUT     sin(phi)        continuous, double      
s:xpi                   STATE   State variable (PI-controller)  continuous, double      
s:xphi           rad    STATE   State variable (integrator)     continuous, double      
s:umag           p.u.   SIGS    Voltage magnitude       continuous, double      

Calculation Parameter:

c:Phi            deg    Voltage angle   
c:dphi           rad    dphi    
c:vd             p.u.   vd      
c:vq             p.u.   vq      
c:dwlim          rad/s  dwlim   
c:dwmax          rad/s  Upper angular frequency deviation limit 
c:dwmin          rad/s  Lower angular frequency deviation limit 
c:frnom          Hz     Nominal frequency       
c:hpi            rad/s  Nominal angular frequency       
c:umin           p.u.   Blocking voltage        

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Cable Analysis unbalanced:
-------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:

s:uR_A           p.u.   IN      Input voltage, phase a, real part       continuous, double      
s:uR_B           p.u.   IN      Input voltage, phase b, real part       continuous, double      
s:uR_C           p.u.   IN      Input voltage, phase c, real part       continuous, double      
s:uI_A           p.u.   IN      Input voltage, phase a, imaginary part  continuous, double      
s:uI_B           p.u.   IN      Input voltage, phase b, imaginary part  continuous, double      
s:uI_C           p.u.   IN      Input voltage, phase c, imaginary part  continuous, double      
s:fref           p.u.   IN      Reference frequency     continuous, double      
s:Fmeas          Hz     OUT     Measured frequency      continuous, double      
s:fmeas          p.u.   OUT     Measured frequency      continuous, double      
s:cosphi                OUT     cos(phi)        continuous, double      
s:sinphi                OUT     sin(phi)        continuous, double      
s:xpi                   STATE   State variable (PI-controller)  continuous, double      
s:xphi           rad    STATE   State variable (integrator)     continuous, double      
s:phiref         rad    STATE   State variable  continuous, double      
s:umag           p.u.   SIGS    Voltage magnitude       continuous, double      

Calculation Parameter:

c:Phi            deg    Voltage angle   
c:dphi           rad    dphi    
c:vd             p.u.   vd      
c:vq             p.u.   vq      
c:dwlim          rad/s  dwlim   
c:dwmax          rad/s  Upper angular frequency deviation limit 
c:dwmin          rad/s  Lower angular frequency deviation limit 
c:frnom          Hz     Nominal frequency       
c:hpi            rad/s  Nominal angular frequency       
c:umin           p.u.   Blocking voltage        

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



OPF with Contingencies DC balanced:
----------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



OPF with Contingencies DC unbalanced:
------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Optimal Manual Restoration balanced:
-----------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Optimal Manual Restoration unbalanced:
-------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Quasi-Dynamic Simulation AC balanced:
------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Quasi-Dynamic Simulation AC unbalanced:
--------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Quasi-Dynamic Simulation DC balanced:
------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Quasi-Dynamic Simulation DC unbalanced:
--------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Connection Request D-A-CH-CZ balanced:
-------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Connection Request D-A-CH-CZ unbalanced:
---------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Phase Balance Optimisation balanced:
-----------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Phase Balance Optimisation unbalanced:
-------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



User defined calculation balanced:
---------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



User defined calculation unbalanced:
-----------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Connection Request BDEW/VDE balanced:
------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Connection Request BDEW/VDE unbalanced:
--------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Probabilistic Load Flow DC balanced:
-----------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Probabilistic Load Flow DC unbalanced:
-------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Probabilistic Load Flow AC balanced:
-----------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Probabilistic Load Flow AC unbalanced:
-------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Characteristics balanced:
------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Characteristics unbalanced:
--------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Data Extension balanced:
-----------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Data Extension unbalanced:
-------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Probabilistic OPF AC balanced:
-----------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Probabilistic OPF AC unbalanced:
-------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Probabilistic OPF DC balanced:
-----------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Probabilistic OPF DC unbalanced:
-------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Probabilistic OPF with Contingencies DC balanced:
------------------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Probabilistic OPF with Contingencies DC unbalanced:
--------------------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Version balanced:
----------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Version unbalanced:
------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Unit Commitment AC balanced:
---------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Unit Commitment AC unbalanced:
-----------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Unit Commitment DC balanced:
---------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Unit Commitment DC unbalanced:
-----------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Hosting Capacity Analysis balanced:
----------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Hosting Capacity Analysis unbalanced:
------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Connection Request VDE 4110 balanced:
------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Connection Request VDE 4110 unbalanced:
--------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Scenarios balanced:
------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Scenarios unbalanced:
--------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Power Park Energy Analysis balanced:
-----------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Power Park Energy Analysis unbalanced:
-------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Optimal Equipment Placement balanced:
------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Optimal Equipment Placement unbalanced:
--------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Techno-Economical Calculation balanced:
--------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Techno-Economical Calculation unbalanced:
----------------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Low Voltage Load Flow balanced:
------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



Low Voltage Load Flow unbalanced:
--------------------------------

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:

