SENSORS
A sensor is a device that measures a physical quantity and coverts it into a signal that can be identified by an instrument. Sensors have variety of uses in almost all instruments that we come across in our everyday life. It has innumerable applications in cars, machines, elevators, aerospace, medicine, manufacturing etc. Sensors are to be designed even to measure minute readings. If its size is maintained to be small, it has various advantages. Technologically it adds variety of applications.
All sensors need to be calibrated against known standards. Resolution of a sensor is used to measure even the least variations in the measurements and displays digitally. Sensors sensitivity is another point to be noted. It indicates how much the sensors output changes when the measured quantity changes. Sensors can be used with verniar interfaces.
A good sensor must obey certain rules. They are listed under. It should be sensitive to measured property and insensitive to others, it should not influence the measured property. It should be designed so that must be linear in nature. An ideal sensor means, the output signal should be directly proportional to the measured quantity. The ideal sensor wouldn’t possess all these characters and its sensitivity will be much low
Different types of sensors are acoustic, sound, vibration, automotive, transportation, chemical etc. Sensors are small devices that can be used with large equipments with definite functions. It founds innumerable applications in all the fields of science and technology. So let’s conclude a sensor as a small magic device that can be encapsulated in different equipments for various different functions.
Thursday, October 22, 2009
Mechatronics Engineering
what is mechatronics?
A formal definition of mechatronics is “the synergic integration of mechanics, mechanical engineering, electronics, computer technology and IT to produce enhanced products and systems.
Mechatronics is a vast subject which has deep roots in the fields of mechanical, electronic, computer and control engineering. Mechatronics is exceptionally useful in design engineering to create new products. Actually it is a combination of mechanics, computing, controlling etc. This combination made possible the invention of more versatile systems.
A robot is the typical example for a mechatronic system. It includes all the aspects of above said subjects. The collaboration of mechatronic molecules gives rise to new different formats of designs. Mechatronic is such an advanced field of technology which makes possible new creations with the help of almost all the major branches in technical field. Hybrid systems important to mechatronics include production drives, synergy drives, planetary exploration rovers, automotive subsystems, auto focus cameras, hard drives and CD players.
It has applications on automation and robotics, servo mechanics, sensing and control systems, automotive engineering, biomedical engineering, computer aided design, manufacturing systems etc. So this topic is much relevant to discuss about.
A formal definition of mechatronics is “the synergic integration of mechanics, mechanical engineering, electronics, computer technology and IT to produce enhanced products and systems.
Mechatronics is a vast subject which has deep roots in the fields of mechanical, electronic, computer and control engineering. Mechatronics is exceptionally useful in design engineering to create new products. Actually it is a combination of mechanics, computing, controlling etc. This combination made possible the invention of more versatile systems.
A robot is the typical example for a mechatronic system. It includes all the aspects of above said subjects. The collaboration of mechatronic molecules gives rise to new different formats of designs. Mechatronic is such an advanced field of technology which makes possible new creations with the help of almost all the major branches in technical field. Hybrid systems important to mechatronics include production drives, synergy drives, planetary exploration rovers, automotive subsystems, auto focus cameras, hard drives and CD players.
It has applications on automation and robotics, servo mechanics, sensing and control systems, automotive engineering, biomedical engineering, computer aided design, manufacturing systems etc. So this topic is much relevant to discuss about.
Monday, October 12, 2009
ELECTRICAL EQUIPMENTS
ELECTRICAL EQUIPMENTS
Electrical equipment is an appliance powered by electricity. This includes an enclosure, several electrical components, power switch etc. A machine which is the part of an electrical distribution system can be put under the category of electrical equipment. The components in this include switch board, distribution board, circuit breakers, energy meters, transformers etc
Let’s have a look at some significant electrical equipment. Electrical switch board is a major appliance. It directs electricity from one form to another. These switch boards contain large number of panels and each of it contains switches to redirect electricity. Actually the control of electricity to this switch board is carried out by electrical generators. As the power law defines the amount of power entering and leaving the switch must be equal. So generators make this stable. While going to the technical side of switch boards, it contains bus bars inside the case to isolate the switch board from the connections before it gets opened.
Distribution board is key electrical equipment. The main function of a distribution board is to divide the electric power feed into subsidiary circuits. It provides a safety breaker and fuse for each circuit in a common enclosure and hence the distribution board is sometimes called as power breaker.
An unavoidable part in electrical equipment section is circuit breakers. Basically it is an electric switch. It is designed to protect a device from over current or short circuit. It detects the fault if any and stops the flow of current to it. It incorporates manual as well as automatic control for switching operations. The latter control employs relays and operates only under fault conditions.
Its known to every one, transformer holds the top slot in the priority list. It’s a static piece of apparatus by means of which electric power from one circuit is transformed into electrical power of the same frequency in another circuit. It can raise and lower the voltage according to the need with the increase or decrease in current. The physical basis of a transformer is mutual induction and it works under the principle of Faraday’s laws of electromagnetic induction.
The above explained are some of the main electrical equipments which hold the key place in this section.
Saturday, October 10, 2009
ELECTRICAL ENGINEERING
ELECTRICAL ENGINEERING DEPARTMENT
It is commonly known as Electrical & Electronics engineering. Electrical engineering has as much relevance as electricity has in our life. So it is considered as one of the major and basic branches in engineering field. We can’t even think of an earth with out electricity.
At first this branch dealt with electricity, electronics and electromagnetism, now power electronics, power systems, digital signal processing, control systems are all handled by an electrical engineer. The major advancement in this field was emerged by late 19th centaury. By 17th centaury the work on electricity got started. It includes the famous works done by George Ohm on the relationship between current and potential difference, Michael Faraday’s Electromagnetic induction, James Clerk Maxwell’s theory on electricity and electromagnetism. These all made the advancement of an electric era so fast.
Major and noticeable inventions in this field are Cathode Ray Oscilloscope by Karl Ferdinand Baum, Diode by John Fleming, Triode by Robert Von Lieben and Lee Deforest, Albert Hull’s Magnetron which eventually lead to the development of Microwave oven by Percy Spencer. These inventions made our life as wonderful as we wish. We know how well these all take parts in our life.
In the field of education, an electrical engineer covers Maths, Physics, computer science, specific topics in electrical engineering. They should have detailed knowledge in Electrical machines, signal processing, power systems, power electronics, and control systems
An electrical engineer has to work in the development of wide range of technologies. They use to design, test and supervise all electric systems. They are destined to work in electric power stations, telecommunication systems, and satellite communications, in the fields of power generation, transmission and distribution. It includes work on transformers, motors, alternators, generators etc.
Electrical engineer has a key role in the field of space flight. Control system is a major topic in electrical engineering; this plays an exceptionally strong role in space flight. Electronics is the sub discipline of electrical branch. It involves the testing of electric circuits, properties of resistors, capacitors, diodes etc. It deals with the study of radar, commercial circuits, microprocessors and its applications on different fields.
Digital signal processing is an unavoidable section in electrical engineering. It deals with the analysis and manipulation of signals. Another markable feature is in the field of computer technology. This involves the designing of computer and computer systems.
In short, in every walk of our life we can feel the importance of electricity and hence electrical engineering.
It is commonly known as Electrical & Electronics engineering. Electrical engineering has as much relevance as electricity has in our life. So it is considered as one of the major and basic branches in engineering field. We can’t even think of an earth with out electricity.
At first this branch dealt with electricity, electronics and electromagnetism, now power electronics, power systems, digital signal processing, control systems are all handled by an electrical engineer. The major advancement in this field was emerged by late 19th centaury. By 17th centaury the work on electricity got started. It includes the famous works done by George Ohm on the relationship between current and potential difference, Michael Faraday’s Electromagnetic induction, James Clerk Maxwell’s theory on electricity and electromagnetism. These all made the advancement of an electric era so fast.
Major and noticeable inventions in this field are Cathode Ray Oscilloscope by Karl Ferdinand Baum, Diode by John Fleming, Triode by Robert Von Lieben and Lee Deforest, Albert Hull’s Magnetron which eventually lead to the development of Microwave oven by Percy Spencer. These inventions made our life as wonderful as we wish. We know how well these all take parts in our life.
In the field of education, an electrical engineer covers Maths, Physics, computer science, specific topics in electrical engineering. They should have detailed knowledge in Electrical machines, signal processing, power systems, power electronics, and control systems
An electrical engineer has to work in the development of wide range of technologies. They use to design, test and supervise all electric systems. They are destined to work in electric power stations, telecommunication systems, and satellite communications, in the fields of power generation, transmission and distribution. It includes work on transformers, motors, alternators, generators etc.
Electrical engineer has a key role in the field of space flight. Control system is a major topic in electrical engineering; this plays an exceptionally strong role in space flight. Electronics is the sub discipline of electrical branch. It involves the testing of electric circuits, properties of resistors, capacitors, diodes etc. It deals with the study of radar, commercial circuits, microprocessors and its applications on different fields.
Digital signal processing is an unavoidable section in electrical engineering. It deals with the analysis and manipulation of signals. Another markable feature is in the field of computer technology. This involves the designing of computer and computer systems.
In short, in every walk of our life we can feel the importance of electricity and hence electrical engineering.
Friday, October 9, 2009
BASIC ELECTRICAL RULES
BASIC ELECTRICAL RULES
To protect all while working under electric apparatus from hazardous conditions some rules are to be strictly followed. They are made and proposed for the safety of users. These rules are listed under several sections.
Make sure that the equipment used is safe and check its working conditions properly. If the equipment is watered by some means, do avoid contact with it. Use the appliance only for the purpose for which it is made. Before using the device, check whether it has passed the entire requirement prescribed. Avoid direct contact from fuses. The equipments that are made to use in wet conditions may only used in that condition, ensure it. Before using identify its working and disconnecting methods. Equipments with out the mark of manufacturer can’t be used. Maintenances should be done in a proper way. The cases, cables, fuses all should be fixed as prescribed. Another important thing is the equipment should be perfectly grounded and is over current protected. Several different rules are to be used in different working conditions. The devices are to be classified under type, voltage, power rating and several other factors. Replace the fuse only after rectified the mistake of the blown fuse. Avoid using wires with poor insulation. Don’t touch the circuit with fingers. Proper safety measures are to be followed in each case.
To protect all while working under electric apparatus from hazardous conditions some rules are to be strictly followed. They are made and proposed for the safety of users. These rules are listed under several sections.
Make sure that the equipment used is safe and check its working conditions properly. If the equipment is watered by some means, do avoid contact with it. Use the appliance only for the purpose for which it is made. Before using the device, check whether it has passed the entire requirement prescribed. Avoid direct contact from fuses. The equipments that are made to use in wet conditions may only used in that condition, ensure it. Before using identify its working and disconnecting methods. Equipments with out the mark of manufacturer can’t be used. Maintenances should be done in a proper way. The cases, cables, fuses all should be fixed as prescribed. Another important thing is the equipment should be perfectly grounded and is over current protected. Several different rules are to be used in different working conditions. The devices are to be classified under type, voltage, power rating and several other factors. Replace the fuse only after rectified the mistake of the blown fuse. Avoid using wires with poor insulation. Don’t touch the circuit with fingers. Proper safety measures are to be followed in each case.
Thursday, October 8, 2009
ELECTRICAL SAFETY MEASURES
ELECTRICAL SAFETY MEASURES
We can’t even think of a day with out electricity. It has such relevance in our every day life. We know in earlier periods how miserable were the days with out electricity. It’s an extremely powerful force and if it’s not used properly and if proper safety measures are not taken, electricity would become deadly harmful. So the topic about safety measure is such a way important. Taking proper safety measures will always keep the harm away
It’s important to take apt measures against accidents while working indoor and outdoor. Public utility commission of Ohio offers several tips for keeping safety under all working conditions.
To ensure indoor safety we must make sure that no electric cords or wires are frayed or cracked. If any, remove or replace it in no time. Over loading is another important cause for accidents because it’s really harmful to take large number of appliances from a single outlet, it’s to be avoided. Ensure that electric plugs are fitted properly. While unplugging always pull the plug and not the cord because pulling the cords do harm to all the internal connections and may harm the user. Avoid using extension cords and if necessary relieve suddenly after use. Avoid contact of water from all the electric appliances. Never use any metal pieces to dislodge something from an electrical appliance.
Let’s have a look at the outdoor precautions to be taken. Severe weather conditions may cause live power wires fall on the ground, don’t ever attempt to touch the wire and its surroundings. Inform the police as early as possible if noticed. Use wood ladders around the power lines instead of metal; also keep the ladders at a minimum distance of 10 feet away from the power lines. Make the surroundings of power line free from plants, branches of tree. Don’t use any wet tools. Keep the electric lines far from the reach of children.
Use wires and cables with ISI mark, Use lamp holders with lamp, use appropriate MCB and Use apt rated fuses. While repairing get the certified electrician. If any accident occurs, don’t touch the victim directly. Make him free from electric contact, i.e., to turn off the supply, give him first aid and call for medical assistance. If ant electric device catches fire, don’t try to put out it with water, immediately switch off the supply and use fire extinguisher.
Taking all these safety tips under consideration, stay free from harm and use electricity wisely and properly.
We can’t even think of a day with out electricity. It has such relevance in our every day life. We know in earlier periods how miserable were the days with out electricity. It’s an extremely powerful force and if it’s not used properly and if proper safety measures are not taken, electricity would become deadly harmful. So the topic about safety measure is such a way important. Taking proper safety measures will always keep the harm away
It’s important to take apt measures against accidents while working indoor and outdoor. Public utility commission of Ohio offers several tips for keeping safety under all working conditions.
To ensure indoor safety we must make sure that no electric cords or wires are frayed or cracked. If any, remove or replace it in no time. Over loading is another important cause for accidents because it’s really harmful to take large number of appliances from a single outlet, it’s to be avoided. Ensure that electric plugs are fitted properly. While unplugging always pull the plug and not the cord because pulling the cords do harm to all the internal connections and may harm the user. Avoid using extension cords and if necessary relieve suddenly after use. Avoid contact of water from all the electric appliances. Never use any metal pieces to dislodge something from an electrical appliance.
Let’s have a look at the outdoor precautions to be taken. Severe weather conditions may cause live power wires fall on the ground, don’t ever attempt to touch the wire and its surroundings. Inform the police as early as possible if noticed. Use wood ladders around the power lines instead of metal; also keep the ladders at a minimum distance of 10 feet away from the power lines. Make the surroundings of power line free from plants, branches of tree. Don’t use any wet tools. Keep the electric lines far from the reach of children.
Use wires and cables with ISI mark, Use lamp holders with lamp, use appropriate MCB and Use apt rated fuses. While repairing get the certified electrician. If any accident occurs, don’t touch the victim directly. Make him free from electric contact, i.e., to turn off the supply, give him first aid and call for medical assistance. If ant electric device catches fire, don’t try to put out it with water, immediately switch off the supply and use fire extinguisher.
Taking all these safety tips under consideration, stay free from harm and use electricity wisely and properly.
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