Sankalchand Patel College of Engineering

SANKALCHAND PATEL COLLEGE OF ENGINEERING

Sankalchand Patel University

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Lab Facilities and Infrastructure

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Analog Electronics Laboratory

Analog Electronics is a field focused on the study of various electronic circuits that bridge the gap between the real world and the analog domain. In this laboratory, students engage in hands-on practice using trainer kits to explore a wide range of experiments—from fundamental circuits like inverting and non-inverting amplifier configurations using Op-Amps (IC 741) to more advanced topics such as precision circuits, filters, oscillators, and applications of integrated circuits like timers (IC 555) and voltage regulators (IC 78XX).

These practical sessions help students gain a deeper understanding of analog circuit design and its real-world applications.

Digital Electronics Laboratory

The Digital Electronics Laboratory, a part of the Electrical Engineering department, is dedicated to educating undergraduate and graduate students on the concepts and techniques of digital electronics while also supporting advanced research in the field.

The lab facilitates rigorous experimentation with various digital circuit designs, including sequential and combinational logic circuits. Students gain hands-on experience through the study and testing of digital CROs, logic gates, flip-flops, ICs, and counters, as well as by realizing truth tables using multiplexers and troubleshooting different digital systems. These activities deepen their understanding of digital electronic principles and their real-world applications.

Main Equipment
  1. Operational Amplifier Kit
  2. Study of Integrating, Differentiating, and Clamping Circuit Kit
  3. Timer Application IC-555
  4. Multiplexer/Demultiplexer
  5. D.C Regulated Power Supply
  6. Digital Multimeter
  7. Digital Storage Oscilloscope
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The Industrial Automation Laboratory plays a crucial role in core electrical engineering education, combining both hardware and software-based experimentation. It features various practical kits and also utilizes MATLAB software for simulation and analysis, making it highly effective for understanding both theoretical and practical aspects of electrical engineering.

The lab focuses on research and experimentation related to sensors, actuators, and automation systems, providing students with insights into the functioning and integration of these components in industrial applications. While the specific setup may vary depending on the industry or institutional focus, the lab equips students with essential skills in designing, analyzing, and troubleshooting automation-based systems.

Main Equipment
  1. Strain Gauge Demo Station Kit
  2. C.R.O. 20 MHz
  3. Synchro Control Transducer
  4. Digital Multimeter
  5. D.C. Regulated Power Supply
  6. Displacement Sensing Transducers
  7. Temperature Sensing Transducers Trainer
  8. L.V.D.T Transducer
  9. PID Controller System
  10. A.C Servomotor Study (Motor Unit of A.C Servo Motor Study)
  11. Bode–Plot Demo Station Kit
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Circuit Analysis Laboratory

The Circuit Analysis Laboratory is a foundational facility within the Electrical Engineering Department, designed to offer hands-on learning experiences in electrical circuit theory and analysis. It enables students and professionals to apply theoretical concepts to practical scenarios involving circuit design, troubleshooting, and measurement.

Equipped with a variety of electrical components and instruments such as power supplies, resistors, capacitors, inductors, multimeters, and specialized trainer kits for circuit theorems, the lab supports the building, testing, and analysis of electronic circuits, making it an essential part of electrical engineering education and training.

Electric Measurement Laboratory

The Electric Measurement Laboratory is a vital facility where students, engineers, and researchers gain hands-on experience with a wide array of electrical measurement tools to explore and validate fundamental electrical principles. Commonly found in educational and research institutions, this laboratory aims to provide practical knowledge in accurately measuring electrical parameters such as voltage, current, resistance, frequency, and waveforms.

It is equipped with advanced instruments including digital multimeters, oscilloscopes, signal generators, power analyzers, spectrum analyzers, and LCR meters, each serving specific measurement purposes. Additionally, the lab may feature calibration equipment to ensure the precision and reliability of these measuring instruments, thereby enhancing the overall learning and experimentation experience.

Main Equipment
  1. Kelvin’s Bridge Trainer
  2. Wein’s Bridge Trainer
  3. Wheatstone Bridge
  4. Calibrate Ammeter by Potentiometer
  5. Light Spot Galvanometer
  6. Dual Trace Oscilloscope 20 MHz
  7. Anderson Bridge
  8. Cathode Ray Oscilloscope
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MACHINE (5)

The laboratory is well-equipped with a wide range of AC and DC machines aligned with the program curriculum, providing students with valuable hands-on experience.

Through practical experiments involving real machines such as motors, alternators, transformers, and starters, students explore various aspects of electrical machinery.

They conduct tests like load test, brake test, loss separation, open-circuit and short-circuit tests. Using these tests and experiments, students determine the electromechanical characteristics of machines and evaluate their performance under different conditions.

Main Equipment
  1. DC Shunt Motor Panel Set
    DC Shunt Motor: 3.5 kW, 1500 rpm, 220 V, 18.6 A
  2. 3 KVA, 3φ Transformer
  3. Pole Changing Induction Motor with Control Panel
    3φ Induction Motor: 5 kW / HP, 1440 rpm, 415 V, 7.5 A
  4. 3φ Squirrel Cage Induction Motor
    Squirrel Cage Induction Motor: 3.7 kW, 7 A, 1440 rpm
  5. Working Cut Section of DC Motor
    1 HP, 230 V, 1500 rpm
  6. Working Cut Section of DC Motor
    1 HP, 230 V, 1500 rpm
  7. 1φ A.C Motor with Control Panel
    1φ Induction Motor: 1.5 / 2 kW / HP, 1440 rpm, 230 V, 5.6 A
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The Basic Electrical Engineering Laboratory is a fundamental part of the department, serving students from all engineering disciplines by providing hands-on experience with core concepts of electrical science. Well-equipped with various experimental setups for real-time experiments, this lab plays a crucial role in building foundational knowledge.

Students are trained on essential topics such as AC to DC conversion, electrical measurements, transformer operation, verification of basic laws and theorems, and the use of instruments like CRO and DSO. Due to its broad applicability, this laboratory sees maximum utilization and is vital for establishing a strong base in electrical engineering principles.

Main Equipment
  1. D.C Regulated Power Supply
  2. Three Phase Variac – 15 Amp
  3. Function Generator
  4. Variable 3-φ Choke Coil
  5. “AE” Make Portable Voltmeter – 0–50V DC
  6. “AE” Make Portable Ammeter – 0–5A AC
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Power Electronics Laboratory

Power Electronics (PE) is a part of electrical engineering that plays a crucial role in modern technology. It finds applications in systems ranging from low-power household devices to high-power industrial processes.

This laboratory is equipped with semiconductor switching devices—such as diodes, BJTs, SCRs, MOSFETs, IGBTs, and GTOs—to control and convert electrical power to meet diverse load requirements. Through hands-on experiments, students address both theoretical and practical design challenges, gaining the ability to design, simulate, build, and assess the performance of various power electronic converters.

Electric Drives Laboratory

The Electric Drives Laboratory is primarily dedicated to research and experimentation in the field of electric drive systems and motor control technologies. It focuses on the investigation and development of advanced electric drives, exploring motor control algorithms, strategies, and the integration of power electronics to enhance system performance.

Applications of this lab’s work span across various sectors, including automotive electric drives, renewable energy systems such as wind and solar, and industrial automation and robotics, making it a critical area for advancing energy-efficient and intelligent motion control solutions.

Main Equipment
  1. IGBT Characteristics Trainer Kit
  2. 3-Phase Half Wave & Full Wave Rectifiers
  3. Silicon Controlled Rectifier Characteristic Kit
  4. Study of SCR Parallel Inverters
  5. Study of Triac & AC Phase Control Kit
  6. DV/DT Protection & Firing Circuit Study Panel
  7. Digital Storage Oscilloscope (Dual Trace)
  8. DC to DC Converter Panel
  9. Isolation Transformer (230V/230V)
  10. Single Phase Variac
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HV (1)

The High Voltage Engineering laboratory is a specialized facility dedicated to research, testing, and experimentation involving electrical systems and components operating at high voltage levels, typically measured in kilovolts (kV).

It plays a crucial role in understanding the behavior of electrical equipment under high voltage conditions. This lab is primarily used for practical sessions focused on high voltage generation techniques and measurement practices.

Students gain hands-on experience by testing the breakdown strength of various insulation materials and exploring high voltage phenomena through real-world experiments.

Main Equipment
  1. HVAC Transformer, 30 kV
  2. 5-Stage Impulse Generator, 100 kV
  3. Corona Study Cage
  4. Oil Breakdown Test Kit
  5. Sphere Gap Assembly (50 mm gap, Point Electrode, Flat Electrode)
  6. Resistance Divider, 0–40 kV
  7. Capacitance Divider, 0–30 kV
Power System
  1. Transmission Line Protection 
  2. Microprocessor-Based Relay – Earth Fault & Over Current (SPAJ 140C)
  3. Radial Feeder Protection 
  4. Induction Motor Protection 
  5. Generator Protection 
  6. Parallel Feeder Protection 
  7. Thermal Overload Relay
  8. IDMT Relay 
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The laboratory is well-equipped with a wide range of AC and DC machines aligned with the program curriculum, providing students with valuable hands-on experience.

Through practical experiments involving real machines such as motors, alternators, transformers, and starters, students explore various aspects of electrical machinery.

They conduct tests like load test, brake test, loss separation, open-circuit and short-circuit tests. Using these tests and experiments, students determine the electromechanical characteristics of machines and evaluate their performance under different conditions.

Main Equipment
  1. DC Shunt Motor Panel Set
    DC Shunt Motor: 3.5 kW, 1500 rpm, 220 V, 18.6 A
  2. 3 KVA, 3φ Transformer
  3. Pole Changing Induction Motor with Control Panel
    3φ Induction Motor: 5 kW / HP, 1440 rpm, 415 V, 7.5 A
  4. 3φ Squirrel Cage Induction Motor
    Squirrel Cage Induction Motor: 3.7 kW, 7 A, 1440 rpm
  5. Working Cut Section of DC Motor
    1 HP, 230 V, 1500 rpm
  6. Working Cut Section of DC Motor
    1 HP, 230 V, 1500 rpm
  7. 1φ A.C Motor with Control Panel
    1φ Induction Motor: 1.5 / 2 kW / HP, 1440 rpm, 230 V, 5.6 A

The High Voltage Engineering laboratory is a specialized facility dedicated to research, testing, and experimentation involving electrical systems and components operating at high voltage levels, typically measured in kilovolts (kV).

It plays a crucial role in understanding the behavior of electrical equipment under high voltage conditions. This lab is primarily used for practical sessions focused on high voltage generation techniques and measurement practices.

Students gain hands-on experience by testing the breakdown strength of various insulation materials and exploring high voltage phenomena through real-world experiments.

Main Equipment
  1. HVAC Transformer, 30 kV
  2. 5-Stage Impulse Generator, 100 kV
  3. Corona Study Cage
  4. Oil Breakdown Test Kit
  5. Sphere Gap Assembly (50 mm gap, Point Electrode, Flat Electrode)
  6. Resistance Divider, 0–40 kV
  7. Capacitance Divider, 0–30 kV
Analog Electronics Laboratory

Analog Electronics is a field focused on the study of various electronic circuits that bridge the gap between the real world and the analog domain. In this laboratory, students engage in hands-on practice using trainer kits to explore a wide range of experiments—from fundamental circuits like inverting and non-inverting amplifier configurations using Op-Amps (IC 741) to more advanced topics such as precision circuits, filters, oscillators, and applications of integrated circuits like timers (IC 555) and voltage regulators (IC 78XX).

These practical sessions help students gain a deeper understanding of analog circuit design and its real-world applications.

Digital Electronics Laboratory

The Digital Electronics Laboratory, a part of the Electrical Engineering department, is dedicated to educating undergraduate and graduate students on the concepts and techniques of digital electronics while also supporting advanced research in the field.

The lab facilitates rigorous experimentation with various digital circuit designs, including sequential and combinational logic circuits. Students gain hands-on experience through the study and testing of digital CROs, logic gates, flip-flops, ICs, and counters, as well as by realizing truth tables using multiplexers and troubleshooting different digital systems. These activities deepen their understanding of digital electronic principles and their real-world applications.

Main Equipment
  1. Operational Amplifier Kit
  2. Study of Integrating, Differentiating, and Clamping Circuit Kit
  3. Timer Application IC-555
  4. Multiplexer/Demultiplexer
  5. D.C Regulated Power Supply
  6. Digital Multimeter
  7. Digital Storage Oscilloscope
Power Electronics Laboratory

Power Electronics (PE) is a part of electrical engineering that plays a crucial role in modern technology. It finds applications in systems ranging from low-power household devices to high-power industrial processes.

This laboratory is equipped with semiconductor switching devices—such as diodes, BJTs, SCRs, MOSFETs, IGBTs, and GTOs—to control and convert electrical power to meet diverse load requirements. Through hands-on experiments, students address both theoretical and practical design challenges, gaining the ability to design, simulate, build, and assess the performance of various power electronic converters.

Electric Drives Laboratory

The Electric Drives Laboratory is primarily dedicated to research and experimentation in the field of electric drive systems and motor control technologies. It focuses on the investigation and development of advanced electric drives, exploring motor control algorithms, strategies, and the integration of power electronics to enhance system performance.

Applications of this lab’s work span across various sectors, including automotive electric drives, renewable energy systems such as wind and solar, and industrial automation and robotics, making it a critical area for advancing energy-efficient and intelligent motion control solutions.

Main Equipment
  1. IGBT Characteristics Trainer Kit
  2. 3-Phase Half Wave & Full Wave Rectifiers
  3. Silicon Controlled Rectifier Characteristic Kit
  4. Study of SCR Parallel Inverters
  5. Study of Triac & AC Phase Control Kit
  6. DV/DT Protection & Firing Circuit Study Panel
  7. Digital Storage Oscilloscope (Dual Trace)
  8. DC to DC Converter Panel
  9. Isolation Transformer (230V/230V)
  10. Single Phase Variac

The Industrial Automation Laboratory plays a crucial role in core electrical engineering education, combining both hardware and software-based experimentation. It features various practical kits and also utilizes MATLAB software for simulation and analysis, making it highly effective for understanding both theoretical and practical aspects of electrical engineering.

The lab focuses on research and experimentation related to sensors, actuators, and automation systems, providing students with insights into the functioning and integration of these components in industrial applications. While the specific setup may vary depending on the industry or institutional focus, the lab equips students with essential skills in designing, analyzing, and troubleshooting automation-based systems.

Main Equipment
  1. Strain Gauge Demo Station Kit
  2. C.R.O. 20 MHz
  3. Synchro Control Transducer
  4. Digital Multimeter
  5. D.C. Regulated Power Supply
  6. Displacement Sensing Transducers
  7. Temperature Sensing Transducers Trainer
  8. L.V.D.T Transducer
  9. PID Controller System
  10. A.C Servomotor Study (Motor Unit of A.C Servo Motor Study)
  11. Bode–Plot Demo Station Kit
Circuit Analysis Laboratory

The Circuit Analysis Laboratory is a foundational facility within the Electrical Engineering Department, designed to offer hands-on learning experiences in electrical circuit theory and analysis. It enables students and professionals to apply theoretical concepts to practical scenarios involving circuit design, troubleshooting, and measurement.

Equipped with a variety of electrical components and instruments such as power supplies, resistors, capacitors, inductors, multimeters, and specialized trainer kits for circuit theorems, the lab supports the building, testing, and analysis of electronic circuits, making it an essential part of electrical engineering education and training.

Electric Measurement Laboratory

The Electric Measurement Laboratory is a vital facility where students, engineers, and researchers gain hands-on experience with a wide array of electrical measurement tools to explore and validate fundamental electrical principles. Commonly found in educational and research institutions, this laboratory aims to provide practical knowledge in accurately measuring electrical parameters such as voltage, current, resistance, frequency, and waveforms.

It is equipped with advanced instruments including digital multimeters, oscilloscopes, signal generators, power analyzers, spectrum analyzers, and LCR meters, each serving specific measurement purposes. Additionally, the lab may feature calibration equipment to ensure the precision and reliability of these measuring instruments, thereby enhancing the overall learning and experimentation experience.

Main Equipment
  1. Kelvin’s Bridge Trainer
  2. Wein’s Bridge Trainer
  3. Wheatstone Bridge
  4. Calibrate Ammeter by Potentiometer
  5. Light Spot Galvanometer
  6. Dual Trace Oscilloscope 20 MHz
  7. Anderson Bridge
  8. Cathode Ray Oscilloscope

This laboratory focuses on core electrical engineering practices, offering facilities for both research and practical study of essential concepts. It enables students and researchers to explore critical topics such as the protection of electrical apparatus, physical modeling and protection of transmission lines, the Ferranti effect, and series and shunt compensation techniques.

Through hands-on experiments and simulations, the lab provides a deeper understanding of power system behavior and protection strategies, making it an integral part of advanced electrical engineering education and research.

Main Equipment
  1. Transmission Line Protection Test Panel
  2. Microprocessor-Based Relay – Earth Fault & Over Current (SPAJ 140C)
  3. Radial Feeder Protection Panel Set
  4. Induction Motor Protection Test Panel
  5. Generator Protection Test Panel
  6. Parallel Feeder Protection Panel Set
  7. Thermal Overload Relay
  8. IDMT Relay Test Setup

The Basic Electrical Engineering Laboratory is a fundamental part of the department, serving students from all engineering disciplines by providing hands-on experience with core concepts of electrical science. Well-equipped with various experimental setups for real-time experiments, this lab plays a crucial role in building foundational knowledge.

Students are trained on essential topics such as AC to DC conversion, electrical measurements, transformer operation, verification of basic laws and theorems, and the use of instruments like CRO and DSO. Due to its broad applicability, this laboratory sees maximum utilization and is vital for establishing a strong base in electrical engineering principles.

Main Equipment
  1. D.C Regulated Power Supply
  2. Three Phase Variac – 15 Amp
  3. Function Generator
  4. Variable 3-φ Choke Coil
  5. “AE” Make Portable Voltmeter – 0–50V DC
  6. “AE” Make Portable Ammeter – 0–5A AC
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