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!
! This script is based on a script developed by Tennessee Tech Univ students
! Tyler Patton, Jon Wood, and David Woods, April 2009
!

new circuit.IEEE13Nodeckt 
~ basekv=115 pu=1.0001 phases=3 bus1=SourceBus  
~ Angle=30                                                         ! advance angle 30 deg so result agree with published angle
~ MVAsc3=20000 MVASC1=21000    ! stiffen the source to approximate inf source



!SUB TRANSFORMER DEFINITION 
! Although this data was given, it does not appear to be used in the test case results
! The published test case starts at 1.0 per unit at Bus 650. To make this happen, we will change the impedance
! on the transformer to something tiny by dividing by 1000 using the DSS in-line RPN math
New Transformer.Sub Phases=3 Windings=2   XHL=(8 1000 /)
~ wdg=1 bus=SourceBus   conn=delta  kv=115  kva=5000   %r=(.5 1000 /)  XHT=4
~ wdg=2 bus=650             conn=wye    kv=4.16  kva=5000   %r=(.5 1000 /)   XLT=4

! FEEDER 1-PHASE VOLTAGE REGULATORS
! Define low-impedance 2-wdg transformer

New Transformer.Reg1 phases=1 XHL=0.01 kVAs=[1666 1666]
~ Buses=[650.1 RG60.1] kVs=[2.4  2.4] %LoadLoss=0.01
new regcontrol.Reg1  transformer=Reg1 winding=2  vreg=122  band=2  ptratio=20 ctprim=700  R=3   X=9 

New Transformer.Reg2 phases=1 XHL=0.01 kVAs=[1666 1666]
~ Buses=[650.2 RG60.2] kVs=[2.4  2.4] %LoadLoss=0.01
new regcontrol.Reg2  transformer=Reg2 winding=2  vreg=122  band=2  ptratio=20 ctprim=700  R=3   X=9 

New Transformer.Reg3 phases=1 XHL=0.01 kVAs=[1666 1666]
~ Buses=[650.3 RG60.3] kVs=[2.4  2.4] %LoadLoss=0.01
new regcontrol.Reg3  transformer=Reg3 winding=2  vreg=122  band=2  ptratio=20 ctprim=700  R=3   X=9 


!TRANSFORMER DEFINITION 
New Transformer.XFM1  Phases=3   Windings=2  XHL=2
~ wdg=1 bus=633       conn=Wye kv=4.16    kva=500    %r=.55     XHT=1
~ wdg=2 bus=634       conn=Wye kv=0.480    kva=500    %r=.55   XLT=1


!LINE CODES
redirect IEEELineCodes.dss

// these are local matrix line codes
// corrected 9-14-2011
New linecode.mtx601 nphases=3 BaseFreq=60 
~ rmatrix = (0.3465 | 0.1560 0.3375 | 0.1580 0.1535 0.3414 ) 
~ xmatrix = (1.0179 | 0.5017 1.0478 | 0.4236 0.3849 1.0348 ) 
~ units=mi 
New linecode.mtx602 nphases=3 BaseFreq=60 
~ rmatrix = (0.7526 | 0.1580 0.7475 | 0.1560 0.1535 0.7436 ) 
~ xmatrix = (1.1814 | 0.4236 1.1983 | 0.5017 0.3849 1.2112 ) 
~ units=mi 
New linecode.mtx603 nphases=2 BaseFreq=60 
~ rmatrix = (1.3238 | 0.2066 1.3294 ) 
~ xmatrix = (1.3569 | 0.4591 1.3471 ) 
~ units=mi 
New linecode.mtx604 nphases=2 BaseFreq=60 
~ rmatrix = (1.3238 | 0.2066 1.3294 ) 
~ xmatrix = (1.3569 | 0.4591 1.3471 ) 
~ units=mi 
New linecode.mtx605 nphases=1 BaseFreq=60 
~ rmatrix = (1.3292 ) 
~ xmatrix = (1.3475 ) 
~ units=mi 

/*********** Original 606 Linecode *********************

You have to use this to match Kersting's results:

New linecode.mtx606 nphases=3 BaseFreq=60 
~ rmatrix = (0.7982 | 0.3192 0.7891 | 0.2849 0.3192 0.7982 ) 
~ xmatrix = (0.4463 | 0.0328 0.4041 | -0.0143 0.0328 0.4463 ) 
~ Cmatrix = [257 | 0 257 | 0 0 257]  ! <--- This is too low by 1.5
~ units=mi 

Corrected mtx606  Feb 3 2016 by RDugan

The new LineCode.606 is computed using the following CN cable definition and 
LineGeometry definition:

New CNDATA.250_1/3 k=13 DiaStrand=0.064 Rstrand=2.816666667 epsR=2.3
~ InsLayer=0.220 DiaIns=1.06 DiaCable=1.16 Rac=0.076705 GMRac=0.20568 diam=0.573
~ Runits=kft Radunits=in GMRunits=in

New LineGeometry.606 nconds=3 nphases=3 units=ft
~ cond=1 cncable=250_1/3 x=-0.5 h= -4
~ cond=2 cncable=250_1/3 x=0   h= -4
~ cond=3 cncable=250_1/3 x=0.5  h= -4

****End Comment******/ 

New Linecode.mtx606 nphases=3  Units=mi
~ Rmatrix=[0.791721  |0.318476  0.781649  |0.28345  0.318476  0.791721  ]
~ Xmatrix=[0.438352  |0.0276838  0.396697  |-0.0184204  0.0276838  0.438352  ]
~ Cmatrix=[383.948  |0  383.948  |0  0  383.948  ]
New linecode.mtx607 nphases=1 BaseFreq=60 
~ rmatrix = (1.3425 ) 
~ xmatrix = (0.5124 )
~ cmatrix = [236] 
~ units=mi 

// Alterações para executar "daily": começo <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<

New Loadshape.Triangle npts=24 interval=1 
~ mult=(0 0.043478 0.086956 0.130434 0.173912 0.21739 0.260868 0.304346 0.347824 0.391302 0.43478 0.478258 0.521736 0.565214 0.608692 0.65217 0.695648 0.739126 0.782604 0.826082 0.86956 0.913038 0.956516 1)

!LOAD DEFINITIONS 
New Load.671 Bus1=671.1.2.3  Phases=3 Conn=Delta Model=1 kV=4.16   kW=1155 kvar=660 yearly=default
New Load.634a Bus1=634.1     Phases=1 Conn=Wye  Model=1 kV=0.277  kW=160   kvar=110 yearly=default
New Load.634b Bus1=634.2     Phases=1 Conn=Wye  Model=1 kV=0.277  kW=120   kvar=90 yearly=default
New Load.634c Bus1=634.3     Phases=1 Conn=Wye  Model=1 kV=0.277  kW=120   kvar=90 yearly=default
New Load.645 Bus1=645.2       Phases=1 Conn=Wye  Model=1 kV=2.4      kW=170   kvar=125 yearly=default
New Load.646 Bus1=646.2.3    Phases=1 Conn=Delta Model=2 kV=4.16    kW=230   kvar=132 yearly=default
New Load.692 Bus1=692.3.1    Phases=1 Conn=Delta Model=5 kV=4.16    kW=170   kvar=151 yearly=default
New Load.675a Bus1=675.1    Phases=1 Conn=Wye  Model=1 kV=2.4  kW=485   kvar=190 yearly=default
New Load.675b Bus1=675.2    Phases=1 Conn=Wye  Model=1 kV=2.4  kW=68   kvar=60 yearly=default
New Load.675c Bus1=675.3    Phases=1 Conn=Wye  Model=1 kV=2.4  kW=290   kvar=212 yearly=default
New Load.611 Bus1=611.3      Phases=1 Conn=Wye  Model=5 kV=2.4  kW=170   kvar=80 yearly=default
New Load.652 Bus1=652.1      Phases=1 Conn=Wye  Model=2 kV=2.4  kW=128   kvar=86 yearly=default
New Load.670a Bus1=670.1    Phases=1 Conn=Wye  Model=1 kV=2.4  kW=17    kvar=10 yearly=default
New Load.670b Bus1=670.2    Phases=1 Conn=Wye  Model=1 kV=2.4  kW=66    kvar=38 yearly=default
New Load.670c Bus1=670.3    Phases=1 Conn=Wye  Model=1 kV=2.4  kW=117  kvar=68 yearly=default

New Monitor.Load_670c_VI element=Load.670c terminal=1 mode=0 VIpolar=Yes

// Alterações para executar "daily": fim <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<

!CAPACITOR DEFINITIONS
New Capacitor.Cap1 Bus1=675 phases=3 kVAR=600 kV=4.16 
New Capacitor.Cap2 Bus1=611.3 phases=1 kVAR=100 kV=2.4 

!Bus 670 is the concentrated point load of the distributed load on line 632 to 671 located at 1/3 the distance from node 632

!LINE DEFINITIONS 
New Line.650632    Phases=3 Bus1=RG60.1.2.3   Bus2=632.1.2.3  LineCode=mtx601 Length=2000 units=ft 
New Line.632670    Phases=3 Bus1=632.1.2.3    Bus2=670.1.2.3  LineCode=mtx601 Length=667  units=ft    
New Line.670671    Phases=3 Bus1=670.1.2.3    Bus2=671.1.2.3  LineCode=mtx601 Length=1333 units=ft 
New Line.671680    Phases=3 Bus1=671.1.2.3    Bus2=680.1.2.3  LineCode=mtx601 Length=1000 units=ft 
New Line.632633    Phases=3 Bus1=632.1.2.3    Bus2=633.1.2.3  LineCode=mtx602 Length=500  units=ft 
New Line.632645    Phases=2 Bus1=632.3.2      Bus2=645.3.2    LineCode=mtx603 Length=500  units=ft 
New Line.645646    Phases=2 Bus1=645.3.2      Bus2=646.3.2    LineCode=mtx603 Length=300  units=ft 
New Line.692675    Phases=3 Bus1=692.1.2.3    Bus2=675.1.2.3  LineCode=mtx606 Length=500  units=ft 
New Line.671684    Phases=2 Bus1=671.1.3      Bus2=684.1.3    LineCode=mtx604 Length=300  units=ft 
New Line.684611    Phases=1 Bus1=684.3        Bus2=611.3      LineCode=mtx605 Length=300  units=ft 
New Line.684652    Phases=1 Bus1=684.1        Bus2=652.1      LineCode=mtx607 Length=800  units=ft 


!SWITCH DEFINITIONS 
New Line.671692    Phases=3 Bus1=671   Bus2=692  Switch=y  r1=1e-4 r0=1e-4 x1=0.000 x0=0.000 c1=0.000 c0=0.000

Set Voltagebases=[115, 4.16, .48]
calcv

// Alterações para executar "daily": começo <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<

set stepsize=1h
set mode=yearly
set number=8760

// Alterações para executar "daily": fim <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<

BusCoords IEEE13Node_BusXY.csv

!---------------------------------------------------------------------------------------------------------------------------------------------------
!----------------Show some Results -----------------------------------------------------------------------------------------------------------------
!---------------------------------------------------------------------------------------------------------------------------------------------------


// Show Voltages LN Nodes
// Show Currents Elem
// Show Powers kVA Elem
// Show Losses
// Show Taps

!---------------------------------------------------------------------------------------------------------------------------------------------------
!---------------------------------------------------------------------------------------------------------------------------------------------------
! Alternate Solution Script
! To force the taps to be same as published results, set the transformer taps manually and disable the controls
!---------------------------------------------------------------------------------------------------------------------------------------------------
/*
Transformer.Reg1.Taps=[1.0 1.0625]
Transformer.Reg2.Taps=[1.0 1.0500]
Transformer.Reg3.Taps=[1.0 1.06875]
Set Controlmode=OFF

Solve

Solve mode=yearly
*/