Abstract
In this paper, an adaptive version of the impedance-conditioned phase-locked loop (IC-PLL), namely the adaptive IC-PLL (AIC-PLL), is proposed. The IC-PLL has recently been proposed to address the issue of synchronisation with a weak AC grid by supplementing the conventional synchronous reference frame phase-locked loop (SRF-PLL) with an additional virtual impedance term. The resulting IC-PLL aims to synchronise the converter to a remote and stronger point in the grid, hence increasing the upper bound on the achievable power transfer achieved by the VSC converter connected to the weak grid. However, the issue of the variable grid strength imposes another challenge in the operation of the IC-PLL. This is because the IC-PLL requires impedance estimation methods to estimate the value of the virtual impedance part. In AIC-PLL, the virtual impedance part is estimated by appending another dynamic loop in the exciting IC-PLL. In this method, an additional closed loop is involved so that the values of the virtual inductance and resistance are internally estimated and adapted. Hence, the VSC converter becomes effectively viable for the case of the grid strength variable, where the estimation of the grid impedance becomes unnecessary. The results show that the converter that relies on AIC-PLL has the ability to transfer power that is approximately equal to the theoretical maximum power while maintaining satisfactory dynamic performance.
Highlights
The integration of renewable energy sources, which are usually located in remote areas, is often realised using high voltage direct current (HVDC) based on voltage sources converter (VSC) technology [1]
The VSC-HVDC system may not be able to transfer power equals to the theoretical maximum power Pmax, which is due to the presence of the feedback element, where the dynamic of this element may affect on the stability of the system
The need for the estimation method in order to estimate the value of the grid impedance becomes redundant, which is important in the case of the grid impedance variable
Summary
The integration of renewable energy sources, which are usually located in remote areas, is often realised using high voltage direct current (HVDC) based on voltage sources converter (VSC) technology [1]. There is a theoretical limitation for each value of SCR on the maximum power that the VSC-HVDC system can transmit to or from the AC system [10,15] Another challenge emerges when the converter connected to the weak AC grid, which is the mutual coupling in controlling the active power and voltage. This technique needs for advanced estimation method for providing the information of the grid impedance Another approach that is suggested to deal with a weak grid problem is modifying the SRF-PLL by attaching a damping factor term in order to suppress the oscillation that exhibits in the voltage at PCC due to the weak grid connections [19]. The VSC converter that uses AIC-PLL has the ability to transfer power equals to maximum theoretical power with a satisfactory dynamic performance in the case of the grid impedance variation.
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