th_format.txt

IEEE标准系统

			TH Format Description

				By Yiwei ZHANG


First record：     HERDER
Second record：    Format Description File
Other records as following：
   	There is no limit on the order or the following 
      various records.
   	Any record with first character of '*' is comment record.
   	The parameters are in free format.

SYSBASE: system base

	1: "SYSBASE"
	2:  "***"        Any character string 
	3: base         System base 
	4: state         0 or 1



SYSFREQ: system frequency

	1: "SYSFERQ"
	2: "***"     Any character string 
	3: freq      System frequency in HZ 



THLINE: line

	1: "THLINE"   
	2: Oname     Line name
	3: name1     Beginning bus name
	4: name2     Ending bus name
	5: r         Line resistance in p.u.
	6: x         Line reactance in p.u.


LINE

	1: "THLINE"   
	2: Oname     Line name
	3: name1     Beginning bus name
	4: name2     Ending bus name
	5: r         Line resistance in p.u.
	6: x         Line reactance in p.u.
	7: -B/2      Semi in p.u. 
	8: rate      Line rated power 
	9: br1       Sending break state
       10: br2       Ending break state



THTRFO:  transformer    I --- r+jx ---- 1:n ----J

	1: "THTRFO"   
	2: Oname     Transformer name
	3: name1     Beginning bus name
	4: name2     Ending bus name
	5: r         Resistance in p.u.
	6: x         Reactance in p.u.
	7: n*100     Tap 



TRFO:  transformer    I --- r+jx ---- 1:n ----J

	1: "TRFO"   
	2: Oname     Transformer name
	3: name1     Beginning bus name
	4: name2     Ending bus name
	5: r         Resistance in p.u.
	6: x         Reactance in p.u.
	7: n*100     Tap
	8: rate      Line rated power 
	9: br1       Sending break state
       10: br2       Ending break state



THFORB2: transformer   I --- r+jx ---- 1:n ----J
                          |                  |
                        -B/2               -B/2
                          |                  |

        1: "THFORB2"
	2: Oname     Transformer name
	3: name1     Beginning bus name 
        4: name2     Ending bus name
	5: r         Resistance in p.u.
	6: x         Reactance in p.u.
	7: g1        Sending side shunt conductance in p.u.
	8: b1        Sending side shunt susceptance in p.u.
	9: g2        Ending side shunt conductance in p.u.
       10: b2        Ending side shunt susceptance in p.u.
       11: n*100     Tap


         
THTRPH:  phase transformer    I --- r+jx ---- 1:n(phase)----J

	1: "TRFO"   
	2: Oname     Transformer name
	3: name1     Beginning bus name
	4: name2     Ending bus name
	5: r         Resistance in p.u.
	6: x         Reactance in p.u.
	7: n*100     Tap
	8: phase     Phase in degree



TAP : LTC    --n10:1--(1+st1*dv1):1 -- r+jx --1:(1+st2*dv2)-1:n20

	1: LTC
	2: object name
	3: name1     Beginning bus name
	4: name2     Ending bus name
	5: r         Resistance in p.u.
	6: x         Reactance in p.u.
	7: g1        Sending side shunt conductance in p.u.
	8: b1        Sending side shunt susceptance in p.u.
	9: g2        Ending side shunt conductance in p.u.
       10: b2        Ending side shunt susceptance in p.u.
       11: n1*100    Sending tap
       12: n2*100    Ending tap
       13: n10       Sendind tap step 
       14: n20       Ending tap step 
       15: st1       Initial sending tap in int 
       16: st2       Initial ending tap in int
       17: side      Controllable side
       18: stmax     Maximum number of step tap in int 
       19: stmin     Minimum number step tap in int
       20: rate      Rated power
       21: br1       Sending state
       22: br2       Ending state



TAPCV: LTC control parameter

	1: TAPCV
	2: object name	    LTC name
	3: bus name         Controlled bus
	4: Vc               Desired Votage in p.u.
	5: Vcmax            Maximum Voltage in p.u. 
	6: Vcmin            Minimum Voltage in p.u.       
	7: Vimax            Maximum Voltage at beginning in p.u.
	8: Vimin            Minimum Voltage at beginning in p.u.
	9: Vjmax            Maximum Voltage at ending in p.u.
       10: Vjmin            Minimum Voltage at ending in p.u.
       11: br               State

	*LTC make control only when    
		Vimin<Vi<Vimax and Vjmin<Vj<Vjmax
     		i:LTC's beginning j : LTC's ending


GENER: PQ genarator

	1: GENERCV 
	2: name  	     Generator name
	3: Bus name          To which generator connect
	4: Pg                Active Power (MW)
	5: Qg                Reactive Power (MVAR)
	6: br                State


GENERCV: PV Generator

	1: GENERCV 
	2: name  	     Generator name
	3: Bus name          To which generator connect
	4: Pg                Active Power (MW)
	5: Qg                Reactive Power (MVAR)
    	6: V                 Voltage in p.u.
	7: br                State

	* The Qg is not the solution value, i.e. 
		it could be any value here

GENERDATA: generator data

   	1: GENERDATA
	2: name              Generator name
      3-7: 0
	8: Pmax              Maximum active power (MW)
	9: Pmin              Minimum active power (MW)
       10: Qmax              Maximum reactive power (MVAR)
       11: Qmin              Minimum reactive power (MVAR)
       12: Vmax              Maximum Voltage (p.u)
       13: Vmin              Minimum Voltage (p.u)
    14-16: 0
       17: br                State 
	
THLOAD: Load 

    	1: THLOAD 
	2: Object name 
	3: Bus name        To which the load connects
	4: Pl              Active power load in p.u.
	5: Ql              Reactive power load in p.u.



LOAD : PIZ load

    	1: LOAD 
	2: Object name 
	3: Bus name        To which the load connects
	4: Pp              Constant P load (MW)
	5: Qp              Constant Q load (MVAR) 
	6: Pi              Constant active current  (MW)
	7: Qi              Constant reactive current (MVAR) 
	8: Pz              Constant resistance load  (MW)
	9: Qz              Constant reactance load (MVAR) 
       10: V0              Voltage base for above loads
       11: br              State

THSLACK: Slack generator

     	1: THSLACK 
	2: Name           Generator name 
     	3: V              Assigned Voltage in p.u.
     	4: Phase          Assigned Phase in degree

THSHUNT: shunt reactor or capacitors

	1: THSHUNT
	2: Object name
	3: Bus name         To which the equipment is connected
	4: Psh              Active power loss (p.u.)
	5: Qsh              Reactive power (p.u., reactor = +)

RES_V: bus voltage after Load Flow Solution
	
	1: RES_V   
	2: bus name 
	3: V            Voltage in p.u. 
	4: Ph           Phase in degree
	5: State
   
RES_MAC : generator output after Load flow Solution

	1: REC_MAC 
	2: Name         Generator name 
	3: Bus name     Generator bus name
	4: Pg           Active power  Output (MW)
	5: Qg           Reactive power output (MVAR)
   	6: br           State 

MAC_CMXD : generator data
   
   	1: MAC_CMXD
	2: Name         Generator name 
	3: Rate         Generator rated power (MWVAR)
	4: Tj           Time constant ( on the base of "Rate") 
	5: X'           Transient reactance ( on the base of "Rate")