Showing posts with label how to find out three phase voltage and current. Show all posts
Showing posts with label how to find out three phase voltage and current. Show all posts

Saturday, 22 February 2014

To measure phase voltages and currents in a three phase system(engineering students lab report)

Required Components:

AC voltage sources (Vac), resistors (R), voltmeters (Vprint2), ammeters (Iprint), ground (EGnd), and connecting wires.

Circuit Diagram

 this circuit diagram is drawn in pspice  software,you can download free software by clicking links below, to know more about pspice circuit software follow the links below

 

Procedure:

Open Schematics.
Go to get new parts, select and place the required parts. 
Place the components in their appropriate position and if necessary rotate by cntr+r.
Click on draw wire and connect all the elements.
Configure the values of all the placed elements.
Go to analysis, check AC sweep, open it, set total points to 1 and also set the frequency to 50 Hz.
Saves the circuit.
Go to analysis and simulate the circuit.
Go to analysis and examine the results.

Results

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     CIRCUIT DESCRIPTION
******************************************************************************
* Schematics Version 9.1 - Web Update 1
* Sun Jan 01 20:02:06 2012
** Analysis setup **
.ac LIN 1 50 50
.OP 
* From [PSPICE NETLIST] section of pspiceev.ini:
.lib "nom.lib"
.INC "11.net"
**** INCLUDING 11.net ****

* Schematics Netlist *


V_VAB         $N_0001 $N_0002 DC 0V AC 10V 0
V_PRINT2         $N_0003 $N_0004 0V

.PRINT        AC 
+ IM(V_PRINT2) 
+ IP(V_PRINT2)    
V_PRINT3         $N_0002 $N_0005 0V
          
.PRINT        AC 
+ IM(V_PRINT3) 
+ IP(V_PRINT3)    
           
.PRINT         AC 
+ VM([$N_0006],[0]) 
+ VP([$N_0006],[0])    
           
.PRINT         AC 
+ VM([$N_0004],[0]) 
+ VP([$N_0004],[0])    
R_RAB         $N_0001 $N_0007  1u  
R_RCA         $N_0008 $N_0007  1u  
R_RaN         0 $N_0006  1k  
R_RbN         $N_0005 0  1k  
R_RcN         $N_0004 0  1k  
           
.PRINT         AC 
+ VM([$N_0005],[0]) 
+ VP([$N_0005],[0])    
V_PRINT1         $N_0007 $N_0006 0V
          
.PRINT        AC 
+ IM(V_PRINT1) 
+ IP(V_PRINT1)    
R_RBC         $N_0002 $N_0009  1u  
V_VBC         $N_0009 $N_0003 DC 0V AC 10V -120
V_VCA         $N_0003 $N_0008 DC 0V AC 10V 120

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     SMALL SIGNAL BIAS SOLUTION       TEMPERATURE =   27.000 DEG C
******************************************************************************
 NODE   VOLTAGE     NODE   VOLTAGE     NODE   VOLTAGE     NODE   VOLTAGE
($N_0001)    0.0000                   ($N_0002)    0.0000                       

($N_0003)    0.0000                   ($N_0004)    0.0000                       

($N_0005)    0.0000                   ($N_0006)    0.0000                       

($N_0007)    0.0000                   ($N_0008)    0.0000                       

($N_0009)    0.0000                   

    VOLTAGE SOURCE CURRENTS
    NAME         CURRENT

    V_VAB        0.000E+00
    V_PRINT2     0.000E+00
    V_PRINT3     0.000E+00
    V_PRINT1     0.000E+00
    V_VBC        0.000E+00
    V_VCA        0.000E+00

    TOTAL POWER DISSIPATION   0.00E+00  WATTS

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     OPERATING POINT INFORMATION      TEMPERATURE =   27.000 DEG C
******************************************************************************

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch

 ****     AC ANALYSIS                      TEMPERATURE =   27.000 DEG C
******************************************************************************

  FREQ        IM(V_PRINT2)IP(V_PRINT2)
   5.000E+01   5.774E-03   9.000E+01

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     AC ANALYSIS                      TEMPERATURE =   27.000 DEG C
******************************************************************************


  FREQ        IM(V_PRINT3)IP(V_PRINT3)
   5.000E+01   5.774E-03  -1.500E+02

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     AC ANALYSIS                      TEMPERATURE =   27.000 DEG C
******************************************************************************

  FREQ        VM($N_0006,0)VP($N_0006,0)
   5.000E+01   5.774E+00  -3.000E+01

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     AC ANALYSIS                      TEMPERATURE =   27.000 DEG C
******************************************************************************

  FREQ        VM($N_0004,0)VP($N_0004,0)
   5.000E+01   5.774E+00   9.000E+01

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     AC ANALYSIS                      TEMPERATURE =   27.000 DEG C
******************************************************************************

  FREQ        VM($N_0005,0)VP($N_0005,0)
   5.000E+01   5.774E+00  -1.500E+02

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     AC ANALYSIS                      TEMPERATURE =   27.000 DEG C
******************************************************************************

  FREQ        IM(V_PRINT1)IP(V_PRINT1)
   5.000E+01   5.774E-03  -3.000E+01
JOB CONCLUDED
TOTAL JOB TIME             .02

          

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