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What is Electronic Controls Engineering?

Electronic controls engineering (ECE) is the application of electronics and technologies to the interpretation and execution of control functions. This includes electric power systems, manufacturing, robotics, computing machines and embedded systems as well as other types of automatic control devices.

The world has progressed in leaps and bounds during the last few centuries, revolving around a series of technological innovations that have made human life much easier and more convenient than it once was. One such innovation is what we now know as electronics engineering. A pivotal invention in the history of electronics was the relay, which allowed for simple and reliable control of electric devices. The invention of the first quartz crystal oscillator led to greatly increased accuracy. The practical use of radio waves to transmit signals led to the development of radar signals and advanced technology such as remote control.

The auxiliary field of electronics, known as electronic controls engineering (ECE), has been vital to many industrial processes and has helped enhance new products and provide better performance from existing technologies.

Types Of Electronic Controls

Electrical control systems are composed of several controlled elements to form a complete system.

  1. Feedback systems are used in process control. The controlled element is usually a thermometer.
  2. Mutually-coupled control systems are also used in process control. In this type of electronic controls, the controlled element is usually a motor/generator or an actuator such as a valve.
  3. Linear time invariant (LT) systems are used in direct digital control and other forms of digital controls. For an LT system, the controlled element is usually a digital signal processing (DSP) processor.
  4. Nonlinear time invariant (NTI) systems are used in direct digital control and other forms of digital controls. For an NTI system, the controlled element is usually a DSP processor or analog signal processing (ASP) processor such as a computer A/D or multiplier.
  5. Analog systems are used in analog signal processing and analog signal processing related electronic systems. These electronic controls are frequently referred to as analog controlled by a computer.
  6. Perturbation control systems are used in nonlinear control systems such as those that use semiconductor devices, pulse-width modulated (PWM) drives, and adaptive control system.
  7. Computerized systems are the most used form of electronic controls. These systems are generally used in applications that are fairly straightforward and simple.
  8. Networked electronic controls are often used in applications that require multiple electronic control systems working together. Many examples of this type of application include factory automation for assembling large groups of products or robots carrying out various processes that would otherwise be individually too complex to carry out by themselves.

Importance Of Electronic Controls Engineering

Reduce Injuries- The use of automation in production reduces the likelihood of accidents and injuries associated with repetitive manual operations. As an example, robots are used in some cases to provide greater control while welding, so if any contact is made between workpiece and robot (i.e., finger), it is typically a light touch rather than grinding contact.

Enhanced Quality- With the use of sensors to monitor and adjust production, a product can be produced with a higher level of consistency. For instance, robotic cells and their programmable logic controllers (PLCs) allow for precise control over operations such as welding.

Improve Safety- The use of sensors helps to improve the security of workers on a production floor. Sensors can be used to detect any potential danger, giving plant operators adequate time to react and prevent accidents.

Safety and Health- The use of sensors for automated production also provides a more accurate monitor of the safety of workers, especially when using machine tools. This provides clarification on machine settings, providing users with increased safety by following safety policies and procedures.

Improved Product Quality- Electronic controls give manufacturers the ability to control the temperature and speed at which a product is processed or fabricated. The result is improved quality in products; this can be seen by improvements in quality while drilling, milling, or fabricating components.

Lower Energy and Water Consumption- The use of sensors in automated manufacturing provides plant operators with the ability to monitor and manage energy or water consumption during production. This can be done using industrial controls, which can reduce a company’s total operating expenses.

Improved Worker Productivity- Electronic controls allow workers to work smarter, not harder. By increasing efficiency of production lines with the use of sensors and programmable logic controllers (PLCs), companies are able to produce more products in less time.

Lower Manufacturing Costs- The use of sensors in automated equipment helps improve the reliability of manufacturing and reduces the impact of downtime on production schedules. For instance, by monitoring the water and gas temperatures in a furnace, the likelihood that a process will shut down due to overheating is reduced.

 Topics Studied Under Electronic Controls Engineering

  1. Electronic controls engineering
  2. Theory of Computations
  3. Engineering circuits (e.g., controllers, power systems)
  4. Signals and Systems
  5. Industrial Automation Systems
  6. Process Control Systems
  7. Industrial Engineering & Production Management
  8. Computer Communication Networks
  9. Digital Computer Systems
  10. Microprocessors
  11. Digital Signal Processing
  12. Artificial Intelligence
  13. Computer Networks and Communication Protocols

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Electrical Engineering Assignment Help

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What is Electrical Engineering

Electrical engineering involves electrical systems study and implementation. Electrical engineers are experts in power systems, electric power transmission and distribution (including electrical generators, motors, control components, wiring systems), signal processing, control theory/systems theory and communication theory.

Electrical engineers are in demand in their respective specialty fields. Such as signal processing, control algorithms and the optimization of power systems. This is actually the basic knowledge which one requires to become an electrical engineer.

Electrical engineers are responsible for the generation, transmission, distribution & supply of electrical power through various types of transformers and networks along with providing quality services at affordable prices to customers. They are mainly responsible for the planning, design and installation of electrical equipment’s that include generators, electrical motors, power plants and transmission systems.

Types Of Electrical Engineering

 1.Theory of Operation-This is a branch of electronics engineering which deals with the study of magnetic, as well as electrical phenomena including electrical and electronic circuits and components.

2.Electromagnetic-This branch of electrical engineering deals with the design and development of various electromagnetic devices like transformers, inductors, generators etc along with the development of related theory’s, including ac and dc power calculations to understand the electromagnetic phenomena.

3.Power Systems-This involves the design and development of power generation systems such as hydro-electric, thermal and nuclear that are used for the generation of electricity.

4.Signal processing-this includes the design, development and improvement of digital integrated circuits used for performing arithmetic operations in accordance with a given program. In addition to an understanding of analog processes which form basis of various filters used in the digital circuits. It also involves developing processing elements such as the processor or multiplier along with the multiplier output unit or adder.

5.Control Engineering-This involves the design, development and improvement of control systems that operate systems such as nuclear power plants, ores mining, chemical and electrical plants.

6.Fields of Application-Control and signal processing are being used in communication, medical devices, robotics and other fields.

What’s The Importance Of Electrical Engineering?

Engineers deal with the design, manufacturing, and construction of electrical equipment for use in electricity generation, transmission, distribution, control, instrumentation and information processing. Engineers apply fundamental science and mathematics to solve engineering problems. The job is a great match for someone who likes to work on practical tasks that have both analytical and creative components. It offers a wide variety of career possibilities and is a great starting point for students who want to get involved in engineering.

Electrical Engineering courses for admission into professional courses may include Electronics, Computer Science, IT, Telecommunication and all other allied courses.

Electrical power generation, transmission and distribution systems are an important part of the world’s infrastructure; from the base-load electricity required by high-demand urban centers to the more variable demand from rural communities. Electrical engineers are actively involved in the design and operation of these systems.

Electrical engineers design and test the transmitters and receivers that make it possible to connect with satellite communication systems, as well as remote medical devices such as heart pacemakers. Modern electrical engineers design embedded computer systems that control all types of industrial equipment. The rapid growth in this area is due to advances in digital technology. Electrical engineering has a direct impact on many aspects of people’s lives including energy conservation, telecommunications, medicine, transportation and entertainment.

Electrical Engineering is a discipline that focuses on designing and building electronic circuits and systems. This field includes electronic design automation, control theory, power electronics, electrical insulation and protection, electromagnetics, project management in a manufacturing environment. additionally, electrical engineering also involves the design of software-based systems. Electrical engineers also have to be familiar with the manufacturing process, mechanical and civil engineering as well.

In pursuit of the understanding the world around us through electrical engineering we explore new technology possibilities for our personal use as well as for public benefit. Examples include vacuum tubes in radio receivers to transistors in computers to wireless technologies such as WiFi or Bluetooth. Electrical engineers typically work in a wide range of settings, including health care (electrophysiology), defense establishments, research organizations and universities. They may specialize in designing electrical circuitry related to telecommunications network transmission or generation, industrial control systems and other high-voltage machinery. They also find work in scientific research and product development.

In addition to these applications, one of the fundamental principles involved in electrical engineering is that one can directly convert energy into useful work. This principle is at work in every modern electrical motor and generator used every day by all of us in our homes and offices. A work generator is a device that converts mechanical energy directly into electrical energy. Electrical engineers are involved with the design, analysis and implementation of these types of technologies.

In addition to the conversion of mechanical energy into electrical energy, another fundamental principle involved in electrical engineering is that heat can be converted directly into useful work. Heat engines are a type of engine that convert heat directly into useful work (e.g., electricity).

Electrical Engineering is a common language to all electrical engineers, regardless of the focus they pursue within that discipline. The possibility of using other languages (e.g. structural engineering, civil engineering, etc.) is minimal. Therefore, learning and applying the basics of electrical engineering is crucial to master in order to become a professional electrical engineer.

Units Studied Under Electrical Engineering

  1. Electrical Circuits
  2. Electrical Networks
  3. Electromagnetic Waves
  4. Fourier Series and Integrals
  5. Capacitors, Electric Discharge Machines & Transformers
  6. The Speed of Light
  7. Magnetic Circuits
  8. Alternating Currents
  9. Semiconductors and the Electrical Field
  10. Electric Charges & Currents
  11. The Electric Dipole and the Induction Coil
  12. Electromagnetic Wave Theory
  13. Oscillators, Waveguides and Transducers
  14. Light Phenomena of Modern Physics
  15. Optics & Telescopes

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Civil Engineering Assignment Help

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What is Civil Engineering

 Civil engineering is the branch of design and construction that focuses on making water, wastewater, food, gas, or electrical services available and safe in urban areas.

It is also known as civil engineering and it’s a vast science that involves engineering with materials such as metals, cement-based materials (e.g. concrete), rock and soil mechanics / geotechnical engineering. It can also involve the maintenance and development of transportation, waste management and public health systems.

Civil engineering is directly related to the disciplines of architecture, construction and environmental design as it involves:

A civil engineer designs and makes available water, energy, food, or sewage services in cities and towns. They must also ensure that buildings meet safety codes to minimize risks to people and property.

Types Of Civil Engineering

Solid and Structural Engineering

They are the types of civil engineering most commonly thought of. These engineers learn about the principles behind structures like buildings, bridges, and dams.

Environmental Engineering

They are concerned with keeping our environment clean and safe. These engineers look at methods to remove pollution from the air and water. They also design plants to convert garbage into energy or to minimize pollution from manufacturing processes. Environmental engineers may reduce the need for natural resources by coming up with new technologies that use fewer resources or waste fewer materials in their production.

Construction Engineering

These engineers are more generally thought of as civil engineers, but their work is more specific. They usually work on buildings, roads and other structures that are already built. Their projects can vary quite a bit, but often involve updating and maintaining the structures we already have instead of building new ones from scratch.

Transportation Engineering

They help to make our transportation systems efficient and safe to use. They also design and develop new ways to travel and transport goods.

Structural Engineers

Structural engineers design buildings, bridges, and other types of structures. They use different techniques to create and maintain such systems. Structural engineers often employ the use of computers in their designs. These engineers inspect buildings for safety issues before they are built.

Environmental Engineers

Environmental engineers are concerned with making sure that the environment is safe, clean, and healthy while respecting the natural resources we need to live our lives on Earth. Their work can sometimes involve researching the effects of pollution and other changes to our environment.

Environmental engineers may also be sometimes called “environmental planners”. They study the health of our atmosphere, water, and land, and ensure that it will continue to be a healthy environment for us. They may also look into how natural resources are being used.

Material Engineers

Material engineers design and/or use various materials in building structures, machines, structures that allow transportation, etc. They work in civil engineering, aerospace engineering and chemical engineering.

 Importance Of Civil Engineering

  1. Enhancing the quality of life

Civil engineering can solve  problems. Its applications are numerous and include bridges and highways, buildings that withstand earthquakes, water treatment plants that provide clean drinking water to fight diseases in developing countries, and communication systems that link classrooms in every corner of the world.

  1. Keeping us safe

An important part of civil engineering is building codes which ensure a new building will not collapse under natural or man-made forces such as earthquakes or fires. Without them, buildings could collapse and fall on innocent people. Traffic engineers develop road design plans for cities, towns and highways to make it easier for people to travel safely. The department of transportation also requires civil engineers to develop plans for bridges and other important infrastructure that support transportation.

  1. Keeping the environment clean

Civil engineers apply water conservation practices to ensure enough water is available for safe drinking water and irrigation from public facilities such as irrigation or flood control systems or even government guard dams that can be used to prevent floods or landslides.

  1. Building community

Civil engineers also help ensure that large structures such as buildings and roads are spaced properly to allow for enough access to fire trucks and ambulances in the event of an emergency. Civil engineers also ensure that large buildings, such as hotels, can withstand major earthquakes by designing the buildings to support heavy loads without collapsing on people during a quake.

  1. Building opportunities

In the U.S., civil engineers have helped deliver water from great rivers to arid lands in the west turning deserts into viable lands for agriculture. In developing countries, civil engineers have helped deliver safe drinking water to remote regions, and helped to reduce pollution by building sewage and water treatment plants.

  1. Helping others

Civil engineers are also known for their capacity for service, as demonstrated by their ability to build hospitals such as the Queen Elizabeth Hospital (Queen Elizabeth II of the United Kingdom), St Thomas’ Hospital (Kingston upon Thames in London), or emergency services such as fire departments.

Topics Studied Under Civil Engineering

  • Civil Engineering
  • Hydraulic Structures Design
  • Structural Engineering
  • Hydraulic Structure Analysis
  • Water Resource Engineering
  • Geotechnical Engineering
  • Water Supply and Sanitary Engineering
  • Irrigation, Drainage, and Flood Control
  • Soil Mechanics, Foundation and Earthwork Design
  • Mine Planning and Design
  • Environmental Engineering

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There are some topics in undergraduate engineering courses that are not taught as a part of any particular major’s requirements. These topics, which usually fall into the broad category of civil engineering, are typically offered as electives. As a result, students have to seek outside help for their coursework assignments in these areas of study.

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What is Chemical engineering

Chemical engineering is a complex discipline that deals with the design and operation of chemical plants and process units, heavy industry, refining and petrochemical industries. The study of chemical engineering encompasses numerous sciences such as physics, molecular biology, thermodynamics, mathematics (including differential equations), computer science (including computational modeling), statistics and chemistry. It requires good communication skills for explaining its principles to others including various professionals such as chemists in pharmaceuticals or biochemists in the agricultural industry.

Chemical engineering can be seen as a hybrid discipline between chemistry and mechanical & electrical engineering. Students are educated in chemical engineering from a young age to gain a detailed understanding of the physical principles behind chemical reactions and the control of environment. The chemical industry is expanding worldwide due to new technological developments such as bio-refining and the increasing demand for biofuels, smart chemicals, energy saving technology. Chemical engineers are therefore unique in combining background in physics with their knowledge of chemistry, mathematics and computer science (i.e., modeling).

Chemical engineers are employed in a wide range of industries and occupations, including those that involve the design, operation and production of chemical plants; the refining and manufacturing of both commodity and specialty chemicals; the manufacture of plastics; pharmaceuticals, food processing, dairy products, nutraceuticals, biological materials and biotechnology; petroleum refining; petrochemicals (such as polyethylene terephthalate or polyester resins); production of synthetic rubber based on ethylbenzene acetic acid; steel mills that refine iron ore.

 Major Types Of Chemical Engineering

‌ 1. Process Engineering

Process engineers use a three-point system to make sure proper chemistry is used. This system is the input, output and route of the product. The process engineer uses this system in order to ensure an efficient use of resources and a safe product on the market.

‌2. Environmental Engineering‌

Environmental engineers can help relieve environmental problems by using scientific and technological knowledge. They are skilled in testing, evaluating, and manufacturing new technologies to improve the quality of technology. Environmental engineers study waste water, air and noise pollution among other things. Air pollution is one of the most dangerous types of pollution because it can easily spread to other areas and affect many different people.

‌3. Biochemical Engineering‌

Biochemical engineers are responsible for ensuring that living organisms are kept in top condition and their H2O requirements are met. They also play a part in the process to produce enzymes for use in the food industry. Biochemical engineers study muscle cells, which are used to make up our body. There is a great deal of biochemical engineering done for human beings because our body needs to constantly be in good condition and this requires careful maintenance at all times.

‌4. Polymer Systems Engineering‌

Polymer system engineers look at how plastics can be improved and utilized more so than in the past. They are very important because they enable the world to become more efficient with the plastic we produce by improving it.

Importance of Chemical Engineering

1.Develops fuels and chemicals- for example, gasoline – from crude oil and natural gas

Engineers work with chemical reactions of different substances and their physical properties, often working in a laboratory setting to test theories and develop new projects. Chemical engineers generally have a bachelor’s degree in chemical engineering or similar scientific field like chemistry.

  1. Provides medical therapies

Chemical engineers work in the pharmaceutical, health care, and bio-tech industries. Some examples of their work include synthesizing new drugs, developing ways to administer drugs more easily, improving existing drugs and administering vaccines.

  1. Enhances agricultural production

Food production is a major chemical engineering task that involves some combination of food chemistry, food engineering and biotechnology. A chemical engineer helps develop ways to improve the quality and quantity of crops produced, for example, by modifying soil conditions or developing new strains of plants.

  1. Creates renewable energy sources

Alternative energy sources are a growing field in chemical engineering. Chemical engineers work on technologies such as solar power, wind turbines, biodiesel fuel and geothermal energy (using heat from the earth for electricity and heat). Renewable sources often unify physical science with life science or biochemical engineering.

  1. Develops the next generation of materials and devices

New materials, such as biodegradable plastics, are designed by chemical engineers. Engineers often work with both familiar and unfamiliar materials to find a way to use them in new ways.

  1. Mitigates environmental pollution, a major global issue that threatens biodiversity, food production, water quality…

Some engineering projects involve the study of toxins and their use in agriculture. Others develop ways to filter pollutants from water.

  1. Provides security

Chemical engineers work on nuclear weapons and defense systems, studying the use of radiation, chemicals or radioactive substances to destroy enemy targets.

Units Studied Under Chemical Engineering

  • Electro-chemistry
  • Industrial Chemistry
  • Physical Chemistry and Thermodynamics
  • Biochemistry
  • Chemical Technology
  • Petroleum Refining
  • Environmental Protection and Pollution Control
  • Computer Applications in Chemical Engineering (CAX)
  • Chemical Engineering Laboratory


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