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NFPSS
- These set of programs are written to design a robust power system stabilizer for minimizing the effects of low frequency oscillations in electric power systems. A complete nonlinear model of the power system represented by a single machine connected
danjiwuqiongda
- 单机无穷大系统的短路电压的仿真和电流的仿真-Single machine infinite bus system short-circuit voltage and current simulation of the simulation
23_1400_olimpoanayalara_01
- work on the development of wind farm models for power system studies has been covered in the open literature, most of the reported results are derived from simplified network simulation models with local wind farms connected to an infinite bus [7][8]
Application-of-an-optimal-coordinated-control-of-
- An optimal coordinated control strategy between generator and VSC HVDC system is proposed in this paper. In the studied system, a generator is connected with infinite bus through parallel AC lines and VSC HVDC. The simulation results show tha
SMIB
- Two files 1. Data for Single machine Infinite Bus bar of power system. the generator data is based on MMF method which is described in Kundur, Power System Stability. 2. performance of Power System Stabilizer (PSS) for inter-area oscillations. T
431-1456-1-PB.rar
- Linearized Modeling of Single Machine Infinite Bus Power System,Linearized Modeling of Single Machine Infinite Bus Power System
AdaptivePFuzzyPSlidingPModePPowerPSystemPStabiliz
- Power system stability is enhanced through a novel stabilizer developed around an adaptive fuzzy sliding mode approach which applies the Nussbaum gain to a nonlinear model of a single-machine infinite-bus (SMIB) and multi-machine power system stabili
16Vol54No2
- In this paper, a method combining fuzzy logic and sliding mode controller is proposed for the robust control of power system Single-Machine Infinite-Bus (SMIB). The aim of this study is to overcome some shortcoming of conventional power system stabil
Robust-adaptive-control-for-a-single-machine-infi
- this paper Robust adaptive control for a single-machine infinite-bus power system with an SVC
165-174
- This paper presents a designing method of PSS for a single machine connected to an infinite bus, based on the technique of sliding mode control, which is robust to changes in the operating point of the system.
v5-16-22
- This study compares the power system stabilizer based on sliding mode control with the fuzzy power system stabilizer for Single Machine Infinite Bus System (SMIB). Using the sliding mode control, a range is obtained for the changes in system paramete
PSS_Fuzzy-type2
- An interval type-2 fuzzy logic controller (IT2FLC) is proposed in this paper for the design of power system stabilizer (PSS) of a single machine infinite bus (SMIB) and multi machine infinite bus (MMIB) system incorporated with an AC1A exciter.
PSSF
- This paper presents a designing method of PSS for a single machine connected to an infinite bus, based on the technique of sliding mode control, which is robust to changes in the operating point of the system.
PSS
- This study compares the power system stabilizer based on sliding mode control with the fuzzy power system stabilizer for Single Machine Infinite Bus System (SMIB). Using the sliding mode control, a range is obtained for the changes in system paramete
PSSF2
- An interval type-2 fuzzy logic controller (IT2FLC) is proposed in this paper for the design of power system stabilizer (PSS) of a single machine infinite bus (SMIB) and multi machine infinite bus (MMIB) system incorporated with an AC1A exciter. For c
PSA_Chapter_01
- For the purpose of explaining the security monitoring function, it is expedient to classify the infinite number of possible operating conditions of a power system in terms of security. For this purpose observe that the power system should satisfy the
ee2302-qb
- 1. A 5 MVA, 10 kV, 1500 rpm, 3 phase, 50 Hz, 4 pole, star connected alternator is operating on infinite bus bars. Determine the synchronizing power per mechanical degree of displacement under no-load condition. Xs = 20 .-1. A 5 MVA, 10 kV, 1500 rpm,
Unit1-VH
- 1. A 5 MVA, 10 kV, 1500 rpm, 3 phase, 50 Hz, 4 pole, star connected alternator is operating on infinite bus bars. Determine the synchronizing power per mechanical degree of displacement under no-load condition. Xs = 20 .-1. A 5 MVA, 10 kV, 1500 rpm,