Chapter 6: Power conditioning and inverter modelling.

 

 

 
     
  Summary  
 
        Power conditioning equipment for protection or control such as DC-DC converters, charge regulators or DC-AC converters are part of a PV system in most applications. this chapter is focused on the description of models for these elements in order to make easy the Pspice simulation of a wide range of PV system architectures incorporating power conditioning equipment. Different models can be found in this chapter having different degrees of complexity and simulation quality.
  
  PSpice Files  
 
FILE NAME
DESCRIPTION
SECTION
INCLUDES
FIGURES

Example6.1.cir

 Stand Alone PV system with battery shunt regulation.
6.3.1
Example 6.1
module_1.lib
bat.cir
opamp.lib
irrad.stl
6.3, 6.4, 6.5, 6.6, 6.7, 6.8

Example6.2.cir

 Stand Alone PV system with series charge regulation.
6.3.2
Example 6.2
Annex 6
module_1.lib
batstd.cir
opamp.lib
irrad.stl
6.12, 6.13, 6.14

dcdcf.cir

 DC/DC converter model.
6.4.3
 
6.19, 6.20, 6.21

ppm.cir

 Stand Alone including a DC/DC converter (PV generator + DC/DC + load).
6.4.3
Example 6.3
Annex 6
generator_beh.lib
dcdcf.cir
irrad.stl
6.22, 6.23, 6.24, 6.25, 6.26, 6.27

Inverter1.cir

 Inverter topological pspice model.
6.5.1
Example 6.4
Annex 6
 
6.33, 6.34, 6.35, 6.36, 6.37
Inverter2.cir Inverter behavioural pspice model.
6.5.2
 
6.38, 6.39, 6.40
Example6.5.cir Inverter simulation.
6.5.2
Example 6.5
Generator_beh.lib
Irradprueba2.stl
Inverter2.cir
6.41, 6.42, 6.43, 6.44, 6.45, 6.46
Example6.6.cir Inverter model for direct battery connection.
6.5.3
Example 6.6
 
 
Moduleppt.cir Simplified PV generator model.
6.5.3
Example 6.7
 
 
Example6.7.cir Stand Alone PV system with AC output, including PV generator, DC/DC converter, battery, inverter and load.
6.5.3
Example 6.7
Moduleppt.cir
April.stl
Dcdcf.cir
Batstdif.cir
Inverter3.cir
6.47, 6.48, 6.49, 6.50, 6.51, 6.52
 
     
 

chapter6_files

 Download all files.