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Power System Analysis
- Power system analysis 1
- Power system analysis, supplementary model
- Power system analysis, basic model
- Power systems analysis, advanced model
- Comprehensive power system analysis
- Energy systems analysis
- Relay and protection, basic model
- Relay and protection, supplementary model
- Relay and protection, advanced model
- Relay and protection, substation protection model
- Relay and protection and power system
- Relay and protection of substation and power system
- Substation relay and protection, overcurrent model
- Substation relay and protection, differential model
- Substation relay and protection, distance model
- Relay & Protection
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Renewable Energy
- Induction Machines
- Transformers
- Electrical Machines 1
- Synchronous Machines
- Induction Machines Drive
- Advanced Model
- AC Machines
- Special Machines
- Software Based Monitoring and Control
- Power Electronics Trainer
- 3-Phase Multifunction Machine
- Multi-function DC machine
- Shunt DC machine
- Series DC Machine
- Compound DC Machine
- Universal Machine
- Permanent Magnet DC Machine
- Permanent Magnet Synchronous Machine
- electronic power
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control systems
- Analog Linear Control
- Modular Digital Control
- Analogue and Digital Servo Motor Control
- Industrial Control Training Set, Temperature Control
- Industrial Control Training Set, Pressure Control
- Industrial Control Training Set, Level and Flow Control
- Industrial Control Training Set, Motor Speed Control
- Advanced Router Robot
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precision automation tools
- LOGO PLC, Basic Model
- PLC LG, The Base Model
- S7-300 PLC, Advanced Model
- Industrial Network With S7-300 PLC
- Computer-based Control
- Industrial Monitoring, Basic Model
- Instrumentation, Basic Model
- Instrumentation, Supplementary Model
- Industrial Drives
- Electro-pneumatic, Basic Model
- Electro-pneumatic, Advanced Model
- Electro-pneumatic, Supplementary Model
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electronic
- Integrated Circuits, Analog Electronic Training Set
- Pulse Technique Circuits, Analog Electronic Training Set
- Electronic 1 Circuits, Analog Electronic Training Set
- Electronic 2 Circuits, Analog Electronic Training Set
- Electronic 3 Circuits, Analog Electronic Training Set
- Electronic Circuits, Analog Electronic Training Set
- Logic Circuits
- Digital Systems 1
- AVR Micro-Controller
- ARM Micro-Controller
- PIC Micro-Controller
- Digital Systems 2
- Digital Signal Proccessing
- telecommunications
- construction facilities and smart building
- industrial facilities
Power systems analysis, advanced model - Model PSA-103
Power systems analysis, advanced model Training set is designed based on new topics approved by the Ministry of Science and has a written agenda. This device is used to provide laboratories for reviewing power systems and analysis of energy systems, as well as training personnel of regional power companies and power distribution. The capabilities of this device include the following:
• Software measuring and monitoring of all network parameters
• Waveform monitoring capability of power network parameters
• Simulation of next generation dispatch centers based on PMUs
• Remote control of network equipments
• Software-based measurement and observation of network parameters
• Simulating Electricity network dispatch center
• Synchronous generator’s behavior analysis
• Analysis of power transmission lines characteristics
• Analysis of transformer effects on transmission power system
• Low load line and Ferranti phenomena
• Full load Line and series compensators
• Analysis of Load flow and power flow equations in transmission lines
• Network voltage and stability control
• 3-bus electricity network implementation
• Waveform monitoring capability of power network parameters
• Simulation of next generation dispatch centers based on PMUs
• Remote control of network equipments
• Software-based measurement and observation of network parameters
• Simulating Electricity network dispatch center
• Synchronous generator’s behavior analysis
• Analysis of power transmission lines characteristics
• Analysis of transformer effects on transmission power system
• Low load line and Ferranti phenomena
• Full load Line and series compensators
• Analysis of Load flow and power flow equations in transmission lines
• Network voltage and stability control
• 3-bus electricity network implementation
1) Short, medium and long transmission lines models
2) Electrical substation with monitoring and control capabilities
3) Electric power station simulator with remote control capability
4) Linear electrical loads consist of resistor, inductor and capacitor
5) Series compensating capacitor
6) Parallel compensating capacitor
7) Ferranti phenomena and compensating reactor
8) Software monitoring and control based on AZMA SCADA software and measurement equipment
9) Investigating the effects of FACTs devices on electricity network
10) Network transient control using Phasor Measurement Unit (PMU)
11) Transient and steady state control based on PMU AZMA software
12) Phase difference and voltage measurement module
13) Variable AC & DC power supply
2) Electrical substation with monitoring and control capabilities
3) Electric power station simulator with remote control capability
4) Linear electrical loads consist of resistor, inductor and capacitor
5) Series compensating capacitor
6) Parallel compensating capacitor
7) Ferranti phenomena and compensating reactor
8) Software monitoring and control based on AZMA SCADA software and measurement equipment
9) Investigating the effects of FACTs devices on electricity network
10) Network transient control using Phasor Measurement Unit (PMU)
11) Transient and steady state control based on PMU AZMA software
12) Phase difference and voltage measurement module
13) Variable AC & DC power supply
