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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

b:loc_name              Name    
b:n_q                   Number of Reactive Power Outputs        
b:n_sym                 Number of Machines      
b:i_ctrl                Load Flow Control       

Element Parameter:

e:loc_name              Name    
e:outserv               Out of Service  
e:psym           ElmSym,ElmGenstat,ElmPvsys,ElmSvs,ElmAsm,ElmVsc*,ElmXnet       Machines        
e:cconn                 Connected       
e:cpGrid                Grid    
e:cpOwner               Owner   
e:cpOperator            Operator        
e:cpBranch              Branch  
e:cpSubstat             Substation      
e:cpSite                Site    
e:cpHeadFold            Head Folder     
e:fold_id               In Folder       
e:cDisplayName          Display Name    

Scenario Parameter:

e:loc_name              Name    
e:outserv               Out of Service  
e:psym           ElmSym,ElmGenstat,ElmPvsys,ElmSvs,ElmAsm,ElmVsc*,ElmXnet       Machines        
e:cconn                 Connected       
e:cpGrid                Grid    
e:cpOwner               Owner   
e:cpOperator            Operator        
e:cpBranch              Branch  
e:cpSubstat             Substation      
e:cpSite                Site    
e:cpHeadFold            Head Folder     
e:fold_id               In Folder       
e:cDisplayName          Display Name    

Type Parameter:



Reference Parameter:

r:psym           ElmSym,ElmGenstat,ElmPvsys,ElmSvs,ElmAsm,ElmVsc*,ElmXnet       Machines        
r:cpGrid                Grid    
r:cpOwner               Owner   
r:cpOperator            Operator        
r:cpBranch              Branch  
r:cpSubstat             Substation      
r:cpSite                Site    
r:cpHeadFold            Head Folder     
r:fold_id               In Folder       

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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

b:loc_name              Name    
b:n_q                   Number of Reactive Power Outputs        
b:n_sym                 Number of Machines      
b:i_ctrl                Load Flow Control       

Element Parameter:

e:loc_name              Name    
e:outserv               Out of Service  
e:psym           ElmSym,ElmGenstat,ElmPvsys,ElmSvs,ElmAsm,ElmVsc*,ElmXnet       Machines        
e:cconn                 Connected       
e:cpGrid                Grid    
e:cpOwner               Owner   
e:cpOperator            Operator        
e:cpBranch              Branch  
e:cpSubstat             Substation      
e:cpSite                Site    
e:cpHeadFold            Head Folder     
e:fold_id               In Folder       
e:cDisplayName          Display Name    

Scenario Parameter:

e:loc_name              Name    
e:outserv               Out of Service  
e:psym           ElmSym,ElmGenstat,ElmPvsys,ElmSvs,ElmAsm,ElmVsc*,ElmXnet       Machines        
e:cconn                 Connected       
e:cpGrid                Grid    
e:cpOwner               Owner   
e:cpOperator            Operator        
e:cpBranch              Branch  
e:cpSubstat             Substation      
e:cpSite                Site    
e:cpHeadFold            Head Folder     
e:fold_id               In Folder       
e:cDisplayName          Display Name    

Type Parameter:



Reference Parameter:

r:psym           ElmSym,ElmGenstat,ElmPvsys,ElmSvs,ElmAsm,ElmVsc*,ElmXnet       Machines        
r:cpGrid                Grid    
r:cpOwner               Owner   
r:cpOperator            Operator        
r:cpBranch              Branch  
r:cpSubstat             Substation      
r:cpSite                Site    
r:cpHeadFold            Head Folder     
r:fold_id               In Folder       

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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:

e:i_ctrl                Control Mode    
e:i_phase               Phase   
e:qu_char               Q-Control       
e:cosphi_char           PF-Control      
e:selBus                Controlled Node 
e:uset_mode             Setpoint        
e:rembar         StaBar*,ElmTerm*       Controlled Node 
e:cpCtrlNode            Target Node     
e:usetp          p.u.   Voltage Setpoint        
e:selAutoUn      kV     Busbar Search Criteria >=       
e:p_cub          StaCubic,ElmBoundary   Control Q at    
e:qsetp          Mvar   Q Setpoint      
e:tansetp               tan(phi)        
e:pfsetp                Power Factor    
e:pf_recap              Power Factor    
e:iQorient              Orientation     
e:i_droop               Enable Droop    
e:Srated         Mvar   Rated Reactive Power    
e:ddroop         %      Droop   
e:Qdroop         Mvar/p.u.      Droop   
e:deltaV         p.u.   delta(V)        
e:pQmeas         StaCubic,ElmBoundary   Q measured at   
e:refbar         StaBar*,ElmTerm*       Reference Node  
e:iopt_tdr              Different droop values  
e:Qdroopoe       Mvar/p.u.      Droop (overexcited)     
e:Qdroopue       Mvar/p.u.      Droop (underexcited)    
e:ddroopoe       %      Droop (overexcited)     
e:ddroopue       %      Droop (underexcited)    
e:deltaVoe       p.u.   delta(V) (overexcited)  
e:deltaVue       p.u.   delta(V) (underexcited) 
e:Qmin           Mvar   Qmin    
e:Qmax           Mvar   Qmax    
e:udeadbup       p.u.   Upper Voltage Limit     
e:udeadblow      p.u.   Lower Voltage Limit     
e:pQPcurve       IntQpcurve     Q(P)-Curve      
e:pf_over               Min. Power Factor       
e:p_over         MW     Active Power    
e:pf_under              Min. Power Factor       
e:p_under        MW     Active Power    
e:u_over         p.u.   Voltage 
e:u_under        p.u.   Voltage 
e:imode                 Reactive Power Distribution     
e:consQdisp             Consider reactive power dispatch        
e:iTrfCtrl              Step-up Transformer Control     
e:Tctrl          s      Controller Time Constant        
e:psym           ElmSym,ElmGenstat,ElmPvsys,ElmSvs,ElmAsm,ElmVsc*,ElmXnet       Machines        
e:cvqq           %      Reactive Power Percentage       
e:cvgen          p.u.   Voltage Setpoint        
e:cvgenmin       p.u.   Min. Voltage    
e:cvgenmax       p.u.   Max. Voltage    

Scenario Parameter:

e:i_ctrl                Control Mode    
e:i_phase               Phase   
e:qu_char               Q-Control       
e:cosphi_char           PF-Control      
e:selBus                Controlled Node 
e:uset_mode             Setpoint        
e:rembar         StaBar*,ElmTerm*       Controlled Node 
e:cpCtrlNode            Target Node     
e:usetp          p.u.   Voltage Setpoint        
e:selAutoUn      kV     Busbar Search Criteria >=       
e:p_cub          StaCubic,ElmBoundary   Control Q at    
e:qsetp          Mvar   Q Setpoint      
e:tansetp               tan(phi)        
e:pfsetp                Power Factor    
e:pf_recap              Power Factor    
e:iQorient              Orientation     
e:i_droop               Enable Droop    
e:Srated         Mvar   Rated Reactive Power    
e:ddroop         %      Droop   
e:Qdroop         Mvar/p.u.      Droop   
e:deltaV         p.u.   delta(V)        
e:pQmeas         StaCubic,ElmBoundary   Q measured at   
e:refbar         StaBar*,ElmTerm*       Reference Node  
e:iopt_tdr              Different droop values  
e:Qdroopoe       Mvar/p.u.      Droop (overexcited)     
e:Qdroopue       Mvar/p.u.      Droop (underexcited)    
e:ddroopoe       %      Droop (overexcited)     
e:ddroopue       %      Droop (underexcited)    
e:deltaVoe       p.u.   delta(V) (overexcited)  
e:deltaVue       p.u.   delta(V) (underexcited) 
e:Qmin           Mvar   Qmin    
e:Qmax           Mvar   Qmax    
e:udeadbup       p.u.   Upper Voltage Limit     
e:udeadblow      p.u.   Lower Voltage Limit     
e:pQPcurve       IntQpcurve     Q(P)-Curve      
e:pf_over               Min. Power Factor       
e:p_over         MW     Active Power    
e:pf_under              Min. Power Factor       
e:p_under        MW     Active Power    
e:u_over         p.u.   Voltage 
e:u_under        p.u.   Voltage 
e:imode                 Reactive Power Distribution     
e:consQdisp             Consider reactive power dispatch        
e:iTrfCtrl              Step-up Transformer Control     
e:Tctrl          s      Controller Time Constant        
e:psym           ElmSym,ElmGenstat,ElmPvsys,ElmSvs,ElmAsm,ElmVsc*,ElmXnet       Machines        
e:cvqq           %      Reactive Power Percentage       
e:cvgen          p.u.   Voltage Setpoint        
e:cvgenmin       p.u.   Min. Voltage    
e:cvgenmax       p.u.   Max. Voltage    

Type Parameter:



Reference Parameter:

r:rembar         StaBar*,ElmTerm*       Controlled Node 
r:cpCtrlNode            Target Node     
r:p_cub          StaCubic,ElmBoundary   Control Q at    
r:pQmeas         StaCubic,ElmBoundary   Q measured at   
r:refbar         StaBar*,ElmTerm*       Reference Node  
r:pQPcurve       IntQpcurve     Q(P)-Curve      
r:psym           ElmSym,ElmGenstat,ElmPvsys,ElmSvs,ElmAsm,ElmVsc*,ElmXnet       Machines        

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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:

e:i_ctrl                Control Mode    
e:i_phase               Phase   
e:qu_char               Q-Control       
e:cosphi_char           PF-Control      
e:selBus                Controlled Node 
e:uset_mode             Setpoint        
e:rembar         StaBar*,ElmTerm*       Controlled Node 
e:cpCtrlNode            Target Node     
e:usetp          p.u.   Voltage Setpoint        
e:selAutoUn      kV     Busbar Search Criteria >=       
e:p_cub          StaCubic,ElmBoundary   Control Q at    
e:qsetp          Mvar   Q Setpoint      
e:tansetp               tan(phi)        
e:pfsetp                Power Factor    
e:pf_recap              Power Factor    
e:iQorient              Orientation     
e:i_droop               Enable Droop    
e:Srated         Mvar   Rated Reactive Power    
e:ddroop         %      Droop   
e:Qdroop         Mvar/p.u.      Droop   
e:deltaV         p.u.   delta(V)        
e:pQmeas         StaCubic,ElmBoundary   Q measured at   
e:refbar         StaBar*,ElmTerm*       Reference Node  
e:iopt_tdr              Different droop values  
e:Qdroopoe       Mvar/p.u.      Droop (overexcited)     
e:Qdroopue       Mvar/p.u.      Droop (underexcited)    
e:ddroopoe       %      Droop (overexcited)     
e:ddroopue       %      Droop (underexcited)    
e:deltaVoe       p.u.   delta(V) (overexcited)  
e:deltaVue       p.u.   delta(V) (underexcited) 
e:Qmin           Mvar   Qmin    
e:Qmax           Mvar   Qmax    
e:udeadbup       p.u.   Upper Voltage Limit     
e:udeadblow      p.u.   Lower Voltage Limit     
e:pQPcurve       IntQpcurve     Q(P)-Curve      
e:pf_over               Min. Power Factor       
e:p_over         MW     Active Power    
e:pf_under              Min. Power Factor       
e:p_under        MW     Active Power    
e:u_over         p.u.   Voltage 
e:u_under        p.u.   Voltage 
e:imode                 Reactive Power Distribution     
e:consQdisp             Consider reactive power dispatch        
e:iTrfCtrl              Step-up Transformer Control     
e:Tctrl          s      Controller Time Constant        
e:psym           ElmSym,ElmGenstat,ElmPvsys,ElmSvs,ElmAsm,ElmVsc*,ElmXnet       Machines        
e:cvqq           %      Reactive Power Percentage       
e:cvgen          p.u.   Voltage Setpoint        
e:cvgenmin       p.u.   Min. Voltage    
e:cvgenmax       p.u.   Max. Voltage    

Scenario Parameter:

e:i_ctrl                Control Mode    
e:i_phase               Phase   
e:qu_char               Q-Control       
e:cosphi_char           PF-Control      
e:selBus                Controlled Node 
e:uset_mode             Setpoint        
e:rembar         StaBar*,ElmTerm*       Controlled Node 
e:cpCtrlNode            Target Node     
e:usetp          p.u.   Voltage Setpoint        
e:selAutoUn      kV     Busbar Search Criteria >=       
e:p_cub          StaCubic,ElmBoundary   Control Q at    
e:qsetp          Mvar   Q Setpoint      
e:tansetp               tan(phi)        
e:pfsetp                Power Factor    
e:pf_recap              Power Factor    
e:iQorient              Orientation     
e:i_droop               Enable Droop    
e:Srated         Mvar   Rated Reactive Power    
e:ddroop         %      Droop   
e:Qdroop         Mvar/p.u.      Droop   
e:deltaV         p.u.   delta(V)        
e:pQmeas         StaCubic,ElmBoundary   Q measured at   
e:refbar         StaBar*,ElmTerm*       Reference Node  
e:iopt_tdr              Different droop values  
e:Qdroopoe       Mvar/p.u.      Droop (overexcited)     
e:Qdroopue       Mvar/p.u.      Droop (underexcited)    
e:ddroopoe       %      Droop (overexcited)     
e:ddroopue       %      Droop (underexcited)    
e:deltaVoe       p.u.   delta(V) (overexcited)  
e:deltaVue       p.u.   delta(V) (underexcited) 
e:Qmin           Mvar   Qmin    
e:Qmax           Mvar   Qmax    
e:udeadbup       p.u.   Upper Voltage Limit     
e:udeadblow      p.u.   Lower Voltage Limit     
e:pQPcurve       IntQpcurve     Q(P)-Curve      
e:pf_over               Min. Power Factor       
e:p_over         MW     Active Power    
e:pf_under              Min. Power Factor       
e:p_under        MW     Active Power    
e:u_over         p.u.   Voltage 
e:u_under        p.u.   Voltage 
e:imode                 Reactive Power Distribution     
e:consQdisp             Consider reactive power dispatch        
e:iTrfCtrl              Step-up Transformer Control     
e:Tctrl          s      Controller Time Constant        
e:psym           ElmSym,ElmGenstat,ElmPvsys,ElmSvs,ElmAsm,ElmVsc*,ElmXnet       Machines        
e:cvqq           %      Reactive Power Percentage       
e:cvgen          p.u.   Voltage Setpoint        
e:cvgenmin       p.u.   Min. Voltage    
e:cvgenmax       p.u.   Max. Voltage    

Type Parameter:



Reference Parameter:

r:rembar         StaBar*,ElmTerm*       Controlled Node 
r:cpCtrlNode            Target Node     
r:p_cub          StaCubic,ElmBoundary   Control Q at    
r:pQmeas         StaCubic,ElmBoundary   Q measured at   
r:refbar         StaBar*,ElmTerm*       Reference Node  
r:pQPcurve       IntQpcurve     Q(P)-Curve      
r:psym           ElmSym,ElmGenstat,ElmPvsys,ElmSvs,ElmAsm,ElmVsc*,ElmXnet       Machines        

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:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



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:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

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:sernum                Serial Number   
e:manuf                 Manufacturer    
e:constr                Year of Construction    
e:commissionDate                Commissioning Date      
e:chr_name              Characteristic Name     
e:dat_src               Data source     
e:for_name              Foreign Key     
e:doc_id                Additional Data 
e:pOwner         ElmOwner       Owner   
e:pOperator      ElmOperator    Operator        
e:desc                  Description     
e:appr_status           Status  
e:appr_modif            Modified        
e:appr_modby            Modified by     
e:sOpComment            Operator Comment        

Scenario Parameter:

e:gnrl_modif            Object modified 
e:gnrl_modby            Object modified by      
e:sernum                Serial Number   
e:manuf                 Manufacturer    
e:constr                Year of Construction    
e:commissionDate                Commissioning Date      
e:chr_name              Characteristic Name     
e:dat_src               Data source     
e:for_name              Foreign Key     
e:doc_id                Additional Data 
e:pOwner         ElmOwner       Owner   
e:pOperator      ElmOperator    Operator        
e:desc                  Description     
e:appr_status           Status  
e:appr_modif            Modified        
e:appr_modby            Modified by     
e:sOpComment            Operator Comment        

Type Parameter:



Reference Parameter:

r:doc_id                Additional Data 
r:pOwner         ElmOwner       Owner   
r:pOperator      ElmOperator    Operator        

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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:

e:sernum                Serial Number   
e:manuf                 Manufacturer    
e:constr                Year of Construction    
e:commissionDate                Commissioning Date      
e:chr_name              Characteristic Name     
e:dat_src               Data source     
e:for_name              Foreign Key     
e:doc_id                Additional Data 
e:pOwner         ElmOwner       Owner   
e:pOperator      ElmOperator    Operator        
e:desc                  Description     
e:appr_status           Status  
e:appr_modif            Modified        
e:appr_modby            Modified by     
e:sOpComment            Operator Comment        

Scenario Parameter:

e:sernum                Serial Number   
e:manuf                 Manufacturer    
e:constr                Year of Construction    
e:commissionDate                Commissioning Date      
e:chr_name              Characteristic Name     
e:dat_src               Data source     
e:for_name              Foreign Key     
e:doc_id                Additional Data 
e:pOwner         ElmOwner       Owner   
e:pOperator      ElmOperator    Operator        
e:desc                  Description     
e:appr_status           Status  
e:appr_modif            Modified        
e:appr_modby            Modified by     
e:sOpComment            Operator Comment        

Type Parameter:



Reference Parameter:

r:doc_id                Additional Data 
r:pOwner         ElmOwner       Owner   
r:pOperator      ElmOperator    Operator        

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:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

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:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

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:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

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:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

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:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



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:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:



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:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

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:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

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:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

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:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

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:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

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:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:qres           Mvar   Reactive Power Reserve  
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

Element Parameter:



Scenario Parameter:



Type Parameter:



Reference Parameter:



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

Currents, Voltages and Powers:



Bus Results:



Signals:



Calculation Parameter:

c:rembar                Controlled Busbar       
c:i_phase               Controlled Phase        
c:uini:r         p.u.   Voltage Setpoint, Real Part     
c:uini:i         p.u.   Voltage Setpoint, Imaginary Part        
c:uini:phi       deg    Voltage Setpoint, Angle 
c:uini:mag       p.u.   Voltage Setpoint, Magnitude     
c:uini:phirad    rad    Voltage Setpoint, Angle 
c:qset                  Reactive Power Percentage       
c:qres           Mvar   Reactive Power Reserve  
c:imode                 Control Mode    
c:i_ctrl                Load Flow Control       
c:qini           Mvar   Reactive Power Setpoint 
c:Qdmeas         Mvar   Q(measured) for Droop   
c:Qdroop         Mvar/p.u.      Droop   
c:umin           p.u.   Lower Deadband Limit    
c:umax           p.u.   Upper Deadband Limit    
c:Qmin           Mvar   Lower limit of reactive power   
c:Qmax           Mvar   Upper limit of reactive power   
c:i_qlim                Reactive power limit reached    
c:nCtrlIter             No. of CTRL-iterations  

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:

