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EE/EC Course
We found 4 courses available for you
Internet of Things (IoT)
The Internet of Things (IoT) is a revolutionary concept that involve connecting everyday objects to the internet, allowing them to collect and share data. Equipped with sensors and communication interfaces, IoT devices enable seamless interactions, generating real-time information for enhanced efficiency. From smart homes to industrial processes, IoT transforms diverse sectors, optimizing decision-making and automating tasks. IoT's influence extends across industries, promising a more intelligent and connected world, where data-driven insights reshape how we live and work.
- 15 Lessons
- 31 Students
Robotics
- 15 Lessons
- 31 Students
Robotics
Robotics, a transformative fusion of engineering, AI, and mechanics, encapsulates the creation of versatile machines that navigate the physical realm. What sets it apart is the amalgamation of disciplines, allowing robots to interact with the world, sense their surroundings, and respond autonomously. Their diverse autonomy levels, from full independence to human-assisted operation, enable a wide array of applications. AI integration elevates their problem-solving capabilities, fostering adaptability. Robotics, with its inbuilt safety challenges and ethical considerations, leads to collaborative human-robot synergies. This field’s continual innovation drives advancements like soft robotics and biohybrid designs, making it a pivotal force reshaping industries and human-machine interaction.
- 15 Lessons
- 31 Students
Embedded Systems
- 15 Lessons
- 31 Students
Embedded Systems
Embedded systems are the unsung heroes of the modern world. These specialized computing systems, hidden within everyday devices, empower our interconnected lives. They’re tailored to execute specific functions efficiently, often in real-time, from washing machines and medical devices to automotive control units and IoT gadgets. Unlike general-purpose computers, they’re dedicated to their tasks, offering reliability and responsiveness. Embedded systems are compact and energy-efficient, a necessity in battery-powered devices. Their firmware and software orchestrate precise operations, crucial for critical applications like aerospace and healthcare. In essence, embedded systems are the silent enablers that seamlessly integrate technology into our routines, often imperceptible but omnipresent.
- 15 Lessons
- 31 Students
PLC SCADA
- 15 Lessons
- 31 Students
PLC SCADA
PLC (Programmable Logic Controller): PLC stands for Programmable Logic Controller. This controller is best to used for industrial automation. In PLC we give a set instruction to this controller through programming which it follows throughout life span. These controllers can automate a specific process, machine function, or even an entire production line.
- Functionality: PLCs are industrial digital computers specifically designed for controlling manufacturing processes, such as assembly lines, robotic devices, or any activity that requires high-reliability control and ease of programming.
- Programming: PLCs are programmed using ladder logic or other IEC 61131-3 standard programming languages. The programming is done to control the inputs and outputs of the system based on logic and timing functions.
- Inputs and Outputs: PLCs interface with sensors and actuators in the industrial environment. Inputs (sensors) provide information about the process, and outputs (actuators) control the various elements of the process.
- Reliability: PLCs are known for their ruggedness and reliability in harsh industrial environments.
- SCADA (Supervisory Control and Data Acquisition): Supervisory Control And Data Acquisition (SCADA) is the best system of software and hardware elements that allows industrial organizations to Control industrial processes locally or at remote locations, Monitor, gather, and process real-time data, Directly interact with devices such as sensors, valves, pumps, motors, and more through human-machine interface (HMI) software, record events into a log file. SCADA is the top rated analyzing software in the automation field.
- Functionality: SCADA systems are used for monitoring and controlling processes in real-time. They gather, process, and display real-time data, providing a graphical interface for operators to monitor the status of the industrial processes.
- Data Acquisition: SCADA systems collect data from various sensors and devices connected to the industrial process. This data is then processed and displayed in a human-readable format.
- Visualization: SCADA systems provide graphical representations of the industrial processes, allowing operators to visualize the entire system. This can include real-time trends, alarms, and historical data.
- Control: While PLCs handle the direct control of devices, SCADA systems provide a higher-level interface for operators to monitor and control the overall process. Operators can make adjustments and control the system remotely.
- 15 Lessons
- 31 Students