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and reactive power as well as voltage and VAR compensation. It also can improve the power quality of the associated system. Thus UPFC can control output voltage Vo and its angle ρ (0 ≤ ρ ≤ 2π) [1]. The operation of UPFC depends on types of voltage source converters. The shunt converter is Static Compensator (STATCOM) and series compensator is Static Synchronous Series Compensator (SSSC) [1]. The STATCOM is a static, shunt connected compensator which can control current independent of system voltage with the help of capacitor or inductor. In UPFC, capacitor-based current compensation considered. Hence depending on the system requirement, leading current can be injected in the system with the help of a capacitor connected to the common DC bus. It absorbs active power for charging the capacitor. So it has the role of Static Synchronous Generator (SSG) and Static VAR Generator (SVG). The SSSC is a series-connected compensator which can control series injected voltage. The magnitude of the series injected voltage is low. Still, the converter can change the voltage angle regarding sending end voltage, resulting in a change in receiving end voltage magnitude and angle depending on the system requirements.

Schematic illustration of the basic structure of UPFC. image

Schematic illustration of the basic structure of GUPFC.

      2.4.1 Mathematical Modeling of GUPFC

      The basic circuit shown in Figure 2.6 is considered here for modeling. The development is based on the fundamental frequency model of UPFC which is presented in Refs. [14] and [15]. The basic concept of UPFC has briefly explained already in this section. Modeling aims to determine the relationship between unified DC bus voltage and injected voltage. A three-phase, PWM controlled voltage source inverter is typically made of six controlled switches (GTO valves with six anti-parallel diodes) switched on and off at very high frequency around 5 kHz. The model considered a stable voltage condition for fundamental frequency voltage sources. One source is connected in parallel while the other connected in a series branch.

      Where,

      (2.7a)image

      (2.7b)image

      (2.7c)image

      (2.7d)image

      This model consists of two voltage sources. These voltage sources are gained from inverters connected in series and parallel. Hence amplitude modulation factors are used to calculate voltage source magnitudes as:

      (2.8)image

      (2.9)image

      k = constant based on type of inverter (for six pulse converter

image

      The power delivered by GUPFC in steady state is given by:

      Where,

      (2.12a)image

      (2.12b)image

      (2.12c)image

      (2.13)image

      and