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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
Pulse Technique Circuits, Analog Electronic Training Set - Model AE-101
• Analog-to-digital signal conversion and vice versa
• Possibility to apply different input signal
• Investigation of RLC circuits response to standard waveforms
• Investigation of different types of oscillator and schmitt-trigger
• Investigation of MOSFET switch behaviour
• Possibility to apply different input signal
• Investigation of RLC circuits response to standard waveforms
• Investigation of different types of oscillator and schmitt-trigger
• Investigation of MOSFET switch behaviour
1) RL and RC passive derivative
2) RC passive integrator
3) Multi vibrator Stable, B satble, Mono stable based on OPAMP
4) Multi vibrator Stable, B satble, Mono stable based on transistor
5) Schmitt trigger based on OPAMP
6) Converting Analog signal to 8-bit or 256 steps and converting digital signal individually or differential.
7) -12V, +12V, -5V and +5V Fixed power supply
8) Signal generator with output frequency 10Hz to 200kHz and producing sine, square and triangle waveforms.
2) RC passive integrator
3) Multi vibrator Stable, B satble, Mono stable based on OPAMP
4) Multi vibrator Stable, B satble, Mono stable based on transistor
5) Schmitt trigger based on OPAMP
6) Converting Analog signal to 8-bit or 256 steps and converting digital signal individually or differential.
7) -12V, +12V, -5V and +5V Fixed power supply
8) Signal generator with output frequency 10Hz to 200kHz and producing sine, square and triangle waveforms.