Difference between active and passive components

Definition of active and passive components :

Active component: The active component is a device which can amplify the output signal of an electronic circuit with more power in it than the input signal.

Passive component: The passive component is a device which stores or maintains energy in the form of voltage or current are known as passive components.

The main key difference between Active and passive components is that active component is those who deliver or produce energy or power in the form of voltage or current while passive components are those who utilize or store energy in the form of voltage or current.

Difference between active and passive components :

• Active components are energy donor and passive components are energy acceptor. 
• The active components act as generators, on the other hand, passive components acts as attenuators. 
• The active device injects power to the circuit, whereas passive devices are incapable of supplying any energy.
• The active device is capable of providing gain while passive devices are incapable of providing power gain.
• The active component requires an external source for the operations, Passive components does not require any external source for the operations.
• Active device can control the current flow within the circuit whereas passive device can not control it.
• Active components have unidirectional function while passive components have a bidirectional function.
• Active components are widely used in personal computers while passive components are widely used in MP3 player, washing machine, etc.
• Active components normally non-linear whereas passive components fall under linear category mostly. 
• Active components include components like diodes, transistor, IC, battery, etc while passive component includes a resistor, capacitors, inductors, transformers, conductors, etc.

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Difference between induction motor and synchronous motor

AC motors are divided into two types, synchronous motor and induction motor also called an asynchronous motor. The biggest difference is whether the speed of the rotor is consistent with the speed of the rotating magnetic field in the stator. If the rotation speed of the rotor and the stator field are the same called a synchronous motor and if not then is called asynchronous motor. Let us have a deep insight into the difference between induction and synchronous motor. 

The key difference between the induction motor and the synchronous motor is given below.   

• The synchronous motor is a doubly excited machine whereas an induction motor is a single excited machine.
• The armature winding of the synchronous motor is energized from an AC source and its field winding from a DC source in the synchronous motor while the stator winding of induction motor is energized from an AC source in an induction motor. 
• Synchronous motors require an additional DC power source for energizing rotor winding and induction motor does not require an additional power source.
• The synchronous motor is more efficient than the same output and voltage rating of an induction motor. 
• A synchronous motor is costlier than the same output and voltage rating of an induction motor.
• The synchronous motor always runs at synchronous speed, and the speed of the motor is independent of load, but an induction motor always runs less than the synchronous speed. Induction motor speed is decreased if the load increased.
• The induction motor has self-starting torque, on the other hand, the synchronous motor is not self-starting. It has to be run to synchronous speed by any means before it can be synchronized to AC supply.
• Slip rings and brushes are required in synchronous motors but not in induction motors.
• In addition to the supplied torque, the synchronous motor can be used to correct the power factor to drive mechanical load while an induction motor is only used to drive a mechanical load.
• The synchronous motor can be operated with lagging and leading power by changing its excitation and the induction motor operates only at a lagging power factor. The power factor of the induction motor becomes very poor at light loads.

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6.  Advantages and disadvantages of polyphase system
7. What are the difference between single-phase and three-phase induction motor
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Difference between core type and shell type transformer

One of the biggest distinctions between the core type and the shell type transformer is that the winding encircles the more in a core type, whereas the core encircles the winding of the transformer in a shell type transformer. Now let us check some key points for both of the transformers.

Core type transformer :

• It has one yoke and two limbs
• Both the limbs are provided with winding and the core is surrounded by windings.
• Winding is less protected by the core
• Leakage flux is more than power transfer less capability
• Series magnetic circuit
• Both limbs have the same cross-sectional area
• More amount of copper is required for winding
• Required less amount of insulating material
• Used high-voltage power transmission applications
• High voltage, small KVA rating transformers are suitable
• Easy to repair
• Better cooling because more surface is exposed to the atmosphere

Shell type transformer :

• It has three limbs and two yokes
• Only the middle limbs are provided with winding and winding ar being surrounded by a core
• More protected by the core
• Leakage flux is less
• Parallel magnetic circuit
• The different cross-sectional area
• Amount of chopper required for winding is less
• Not easy to repair
• Cooling is not very efficient 

The key difference between core-type and shell-type transformers are given below.

• The core surrounds the winding in a core-type transformer, whereas the winding surrounds the core of the transformer in a shell-type transformer.
• The core-type transformer has two limbs, and the shell-type transformer has three limbs.
• The lamination is cut in the form of L in the core-type transformer while the lamination is cut in the form of E and L in the shell-type transformer.
• The core-type transformer required less insulation compared to the shell type transformer.
• The mechanical strength of the core-type transformer is low compared to the shell-type transformer.
• The output of the core-type transformer is less as compared to the shell-type transformer because it has more losses.
• There are two magnetic circuits in the core type transformer, whereas one magnetic circuit in the shell type transformer.
• The losses in a transformer of core type are more compared to the transformer of shell type.
• In a core-type transformer, less winding is removed for maintenance, in a shell-type transformer number of the winding are required to remove for maintenance.
• The winding of the shell type transformer is distributed type and hence heat is dissipated naturally, whereas in core type transformer the natural cooling is not possible.
• In core-type transformers, both the primary and secondary windings are placed on the side limbs whereas the winding is placed on the central limbs of the transformer in shell-type transformers.
• There are two magnetic circuits in the core type transformer, whereas one magnetic circuit in the shell type transformer.
• The core type transformer cross-section area is rectangular, whereas the shell type transformer cross-section area is square, cross-sectional two bent, or three bent in shape.

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Difference between power transformer and distribution transformer

The transformer is installed at various power stations for generation and transmission of power in power transformer. It acts as a step up or steps down transformer for increasing and decreasing the level of voltages as per the requirement and its also used as an interconnection between two power stations.

The distribution transformer is used to bring down or step down the voltage and current level of the transmission line to a predefined level, which is called safety level and interconnection between two power stations.

The key difference between the power transformer and distribution transformer is given below.

• The power transformer is used in the transmission network of higher voltages whereas the distribution transformer is used in the distribution network of lower voltages.
• Power transformer the iron and copper losses take place throughout the day but in distribution transformer, the iron loss takes place in 24 hours.
• The power transformer always operates on rated full load as the load fluctuation is very less but the distribution transformer is operated at the load less than full load as the variation in the load are very high.
• The power transformer is available in a various rating of 400 K, 200 KV, 110 KV, 66 KV, 33 KV in the market and the distribution transformer are available in 11 KV, 6.6 KV, 3.3 KV, 440 V, 230 Volts.
• The power transformer is designed for maximum efficiency of 100% and the efficiency is simply calculated by the ratio o the output power to the input power whereas the distribution transformer the maximum efficiency varies between 50 to 70% and calculated by all-day efficiency.
• The power transformer has a large size as compared to the distribution transformer.
• The fluctuation of the load in the power transformer is much less compared with the distribution transformer.
• The density of flux in the power transformer is higher than in a distribution transformer.
• In the substation at the end of the transmission line, the power transformer connection is star delta.

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Difference between ac and dc motor

We all know that both AC and DC motors serve the actually same function of converting electrical energy into mechanical energy, they are powered, constructed and controlled differently. The most basic difference between AC motor and DC motor is that AC motor power on AC current while DC motor power on DC current, to learn in detail about AC and DC motor difference is given below. 

The main key difference between AC and DC motor are given below:

• AC motors are powered from AC current while DC motors are powered from DC current.
• AC motor conversion of current is not required while DC motors conversion of current is required like DC current.
• The main source of the AC motor is currently coming from the three-phase or the single phase supply mains while the sources of the DC motors are batteries and cells.
• In AC motor there are three input terminals known as RYB while in DC motor are only two terminals. They are known as positive and negative.
• AC motor is used where power performance is sought for extended periods of time, DC motors are used where motor speed required to be controlled externally.
• AC motor can be single phase or three phases while DC motors are single phase.
• AC motors armatures do not rotate while magnetic field continuously rotates, while in DC motors the armature rotates while the magnetic field does rotate.
• AC motor is suitable for large and industrial applications while in DC motors are most commonly used for small and domestic applications.
• AC motors do not use brushes, DC motor uses brushes.
• AC motors are not self-starting and thus it requires some external equipment to start the motor initially, DC motor is self-starting motors.
• AC motors have a longer life span, DC motors have not longer life span.
• The maintenance cost of the AC motor is more as compared to DC motor.
• AC motor requires effective starting equipment like a capacitor to start operation while DC motor does not require any external help to start operation.
• The speed of AC motors is simply controlled by varying the frequency of the current, The speed of DC motors is controlled by varying the armature winding current.
• Efficiency of AC motor is less while the efficiency of the DC motor is high as there is no slip and induction current loss.

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Difference between ac and dc generator

The main key difference between AC and DC generator is that , The AC generator is a electrical device, which transform the mechanical energy form intro an AC electrical form of energy, While the DC generator convert the mechanical input energy into DC electrical energy.  We all know that the power electronics knowledge is that the AC generator generates an output voltage which alters in amplitude as well as time whereas the DC generator as a constant output voltage which does not change in amplitude as well as time. Here this blog  post we will discuss the difference between AC and DC generator to better understand this topic.

The main KEY difference between AC and DC generator are given below:

• AC generator is a mechanical device which converts mechanical energy into AC electric power while in DC generator is a mechanical device which converts mechanical energy in DC electric power supply.
• AC generator is also known as alternator,  while DC generator also called as a Dynamo.
• AC generator generates AC electric power while the DC generator generates DC electric power.
• In AC generator current flow in one direction while in DC generator current periodically change direction.
• AC generator can be used slip rings for the induced current transmission but the DC generator uses split rings for the transfer of induced current.
• AC generator has slip rings, while DC generator uses a split ring commutator.
• AC generator requires very less maintenance and thus more reliable than a DC generator while DC generator requires frequent maintenance.
• In AC generator slip rings have smooth and uninterrupted surfaces which allow the brushes to remains in contact uninterrupted with the slip ring surfaces. Hence the brushes do not wear as quickly as in case of a DC  generator and there is almost no possibility of a short circuit while DC generator uses commutators and brushes were out quickly in the commutator because of sparking.
• AC generator are  simple design, but DC generator have complex in design.
• AC generator requires very less maintenance and thus more reliable than a DC generator while DC generator requires frequent maintenance.
• AC generator used to generate very high voltages, DC generator used to generate comparatively lower voltages.
• AC generator does not have commutator, DC generator possesses commutators in order to counter the changing polarities effect.
• AC voltage can be distributed quite easily using a transformer but in DC generator DC voltage is comparatively difficult to distribute efficiently.
• AC generator has a different type like rotating armature, single phase, three phases, rotating field while in DC generator has a different type like a permanent magnet, Self-excited and separately excited.
• AC output is suitable for long distance transmission, on the other hand DC output is not suitable for long distance.
• AC generator are more reliable, but DC generator are not reliable as they require more maintenance.
• Efficiency of AC generator is higher, DC generator has relatively lower efficiency.
• In AC generator output voltage amplitude is higher as compared to DC generator, but the DC generator output voltage amplitudes is comparatively lower.
• In AC generator the alternating current(AC) can be induced in the rotor or stator, in contrast DC generator Direct current(DC) can be produced in the rotor only.
• While in we are using AC generator the initial cost of AC generator is higher, on the other hand, the initial cost of DC generator is relatively lower.
• While we are using the long turn AC generator, the overall cost of AC generator is low, but due to costly maintenance, the overall cost of DC generator is high.
• AC generator may challenging to regulate the voltage, in contrast the DC generator easier to regulate the voltage.
• AC generators are employed for suppling power for domestic, commercial and industrial purposes such as lighting, fans, etc. But the DC generators are mainly used for supplying power to large DC motors such as in electric traction, charging batteries etc.

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Difference between motor and generator

The generator and motor are such a device whose function is just the opposite of each other. One is used to generate electricity and other uses of electricity. In this article, we will learn about the difference between motor and generator to better understand this topic.

Electric motor:

• An electric motor generates energy from electrical energy
• Electricity is required for its operation
• In while uses an electric motor, electrical energy is in the input form
• Flemings left-hand rule is followed to know the direction of motion
• Source of energy is power grids, electrical supply
• The motor is used in automobiles, elevators, fans, pumps, etc
• The maintenance of the electric motor is less as compared to the generator

Generator:

• The electrical generator generates electrical energy from mechanical energy.
• Generator generate electricity
• In the generator, electrical energy is in the output from
• Flemings right-hand rule is followed to know the direction of produced electricity
• Source of energy are steam turbines, internal combustion engines.
• The generator is used in power supply chains in industries, testing purpose in the laboratory general lighting, power of batteries, etc
• The maintenance of the generator is more as compared to the motor

The main key difference between generator and electric motor are given below:

• The generator is a device which converts mechanical energy into electrical energy whereas the motor is a device which converts electrical energy into mechanical energy.
• The generator used to generate electricity while the motor used to generate mechanical power.
• In generator, the current is produced in the armature winding whereas in the motor the current is utilized in the armature winding to produce mechanical force. The armature can be on rotor or stator.
• In generator, the direction of the current induced is determined by the use of Flemings right-hand rule while in motor the direction of force produced is determined by the use of the flaming left-hand rule.
• The example of the motor is an electric car or bike where the electric current is supplied to the machine or device. and it gets converted into mechanical motion and as result the car or bike device, and it gets converted into mechanical motion and as result turbine is used as a device which converts the mechanical energy of the force of water falling from the dam to generate electric energy.
• In generator the shaft is driven by the mechanical power,  in motor, the shaft is driven by the mechanical force produced by the electricity.
• The maintenance of the generator is more compared with the motor.

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Alternator vs generator

The major key difference between the alternator and generator is that generator armature is stationary and the field is stationary whereas the generator is that in alternator the armature is stationary and the field rotates. That has both of function of converting the mechanical energy into the electrical energy. The generator is the device which converts the mechanical energy into the electric current while the generator is the alternator is a device which converts mechanical energy into the electrical energy.

Definitions of alternator:

An alternator is a machine which converts the mechanical power from a prime mover to AC electrical power at a specific voltage and frequency. For bulk power generation large alternator is used in thermal and hydro, nuclear power station.

Definition of generator:

A generator converts mechanical energy into electrical energy or power. The working of the generator is based on the principle of Faraday laws of electromagnetic induction. 

The main key difference between alternator and generator are given below.

• The alternator takes input supply from the stator,  the generator takes input supply from the rotor.
• An alternator is a machine which converts the mechanical energy from a prime mover into the AC, whereas the generator converts the mechanical energy from the prime mover into an AC or DC.
• The alternator induces the AC whereas the generator causes both AC and DC power. 
• The generator produces a current which can either be alternating current or the direct current while in the generator only produce alternating current.
• The armature of an alternator is stationary while in generator it is rotating.
• The alternator has a wide range of RPM, the generator has a narrow range of RPM.
• The output of the alternator is higher than compared to the generator.
• The alternator is smaller in size and requires less space whereas the generator requires large space.
• The output EMF of the alternator is variable and the output voltage of the generator is constant.
• The alternator does not charge the completely dead battery while the generator charges the dead battery.
• The alternator is energy efficient as they only use the required energy, whereas the generator utilizes all the energy that is produced.
• The alternator has a rotating magnetic filed whereas the generator has a rotating magnetic field for the high voltage generation and low voltage stationary magnetic field is used.
• There is no need for the polarization of alternator after installation, whereas the polarization is necessarily required after the installation of the generator. 
• The generator produces the voltages all day long continuously while an alternator produces voltages only when it is required.

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Difference between SCR and DIAC

The word thyristor denotes a family of semiconductor devices used for power control in dc and AC system. A thyristor is also called silicon control rectifier (SCR) is basically four semiconductor rectifier. While in DIAC stands for is bidirectional or full wave switch that can be turned on in both forward and reverse polarities. The name of word DIAC comes for the words DIode AC switch. Here this page gives information about the comparison between ASCR and DIAC to better understand this topic.

SCR:

• SCR stands for silicon control rectifier.
• SCR is a four layers PNPN device with three terminals namely anode, cathode, and gate.
• SCR is a high power device.
• SCR is a three terminal device.
• SCR break over voltage can be controlled by adjusting the gate current.
• SCR breakdown voltage is plus or minus 26 V. The maximum anode current is 25 mA.
• SCR is a unidirectional switch. It conducts current only in one direction. So it can control only for DC power or it can control forward biased half cycle of AC input in the load.
• SCR can only control either the positive or negative half cycle of AC input.
• SCR is used in application like a dimmer, control light, fan, etc.

DIAC:

• DIAC stands for diode alternating current.
• A diode is basically a two terminal device and it is a parallel inverse combination of semiconductor layers and it permits triggering in either direction.
• DIAC is a low power device.
• DIAC is a two terminal device.
• DIAC break over voltage cannot be controlled.
• The forward break over voltage is 40 V. The maximum anode current is 100 A.
• DIAC can be switched from its off state to ON state for either polarity of the applied voltage.
• DIAC can be made in PNP or NPN structure form. 
• DIAC we used as triggering device for the TRIAC.

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CFL bulb advantages

CFL stands for compact fluorescent lamps are a very smaller version of full-sized fluorescent lights, though they have better quality than their predecessors. CFLs are becoming very popular bulb and there is also some drawback to their use. Here this page we have to learn the advantages and disadvantages of CFL bulbs to better understand this topic.

Advantages of CFLs bulbs:

The advantages of CFL are they are energy efficient, have good lumen maintenance, long life, dimmable, low operating cost, endless shapes and also the size and radiate less heat. 

• CFL is up to four times more efficient than incandescent bulbs. You can replace a 100-watt incandescent bulb a 22 watt CFL get the same amount of light. CFLs use 50 to 80% less energy than incandescent lights
• Switching to these light will allow you to do your part in reducing carbon emission where just a single bulb is said to reduce half a ton of this gas in the atmosphere
• CFLs are highly versatile and must be used in any setting where you would normally use incandescent bulbs. Also, they come in various sizes and shapes that they can be used for table lamps, recessed fixtures, ceiling lighting, and track lighting, They are even 3 way CFLs that offer more versatility
• Switching to these light will allow you to do your part in reducing carbon emissions, we're just a single bulb is said to reduce half a ton of this gas in the atmosphere
• CFLs are less expensive in the long run because they last much longer than  the uses of incandescent bulbs

Disadvantages of CFL bulbs:

• The only disadvantages are the mercury content in CFLs
• While CFL bulbs are used outdoors they must be covered and protected from the elements. They are also sensitive to temperature and so in low temperature, it is in  low light level
• While we have CFLs bulbs are supposed to last about 10000 hours turning them on and off too frequently can reduce that lifetime substantially. So they are unsuitable for places where you would turn on the light only briefly. Thes bulbs should be used only where they will be left on for a while without being turned on and off
• While you can buy the CFL bulbs for use with dimmer switches not all CFLs can be used with them. Regular CFL bulbs that are not meant to be used with a dimmer switch can burn out quickly. The same applies to use CFLs with timmers 
• CFL is not for focused or spotlights or where narrow beams of light are required. They are meant only for ambient light. 

TRIAC full form

What is the full form of TRIAC?

Answer:

• Triode for Alternating Current

What does TRIAC mean?

TRIAC is a generic trademark for three-terminal electronics components that conducts current in either direction when triggered. 

TRIAC is widely used in AC power control applications. They are able to switch high voltages and high level of current and over both parts of an AC waveform so this makes TRIAC circuits ideal for use in a variety of applications where more power switching is must be needed

One of the particular applications of TRIAC circuits is in light dimmers for domestic lighting and they are also used in many other power control situations including motor control also.

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Difference between eddy current loss and hysteresis loss

Definition of Hysteresis loss:

The hysteresis loss: The hysteresis loss occurs in the transformer is made of the CRGO steel which is a type of ferromagnetic material. The ferromagnetic material is made by the small atomic magnetic moments. When no field is applied to the material, in that case, the molecules are randomly arranged in the substance.

Definition of  Eddy current loss:

We all know that the eddy current induces in the core of the transformer when the alternating flux links with them. The flux induces the EMF in the core because of which the circulating current develops. The circulating current causes losses in the terms of heat which increases the temperature of the coil.

The most significant difference between the eddy current and hysteresis loss is that the eddy current occurs because of the relative's motion between the conductor and the magnetic field whereas the hysteresis loss occurs because of the reversal of the magnetism.

Difference between hysteresis and the eddy current loss :

• The loss which occurs because of the eddy current is known as the eddy current loss. The eddy current induces because of the interaction of the variable magnetic field and conductor. So the losses which occur of the reversal of the magnetizing force is known as the hysteresis loss 
• The eddy current loss occurs because of the interaction of the magnetic field and conductor. The hysteresis loss occurs because of the main reason is a reversal of the magnetism
• The eddy current loss is minimised by using the thin core of lamination. The silicon steel material is used for minimising the hysteresis loss

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CFL bulb full form

What is the full form of CFL bulb?

• Compact Fluorescent Lamp

What does CFL mean?

CFL also called as the compact fluorescent light. It is energy-saving light and compact fluorescent tube, is a fluorescent lamp designed to replace an incandescent light bulb, some types fit into light fixture design for incandescent bulbs.

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Difference Between CFL and LED Bulbs

The major difference is in CFL bulbs the emission of light is because of the ionization of mercury vapor. The mercury vapor when ionize produces ultraviolet rays. These rays when collides with phosphorous coating tube generates visible light.

Definition:

• CFL is defined as the lamp which uses the low-pressure mercury vapor gas for producing the visible light.
• An LED is a PN junction diode which light when current passes through it in the forward direction.

The main key difference between CFL and LED bulbs are given below:

• CFL stands for compact fluorescent light bulbs while LED stands for the light emitting diode.
• The efficiency of CFL is less while LED has high efficiency.
• LED bulbs consume less power as compared to CFL, while CFL consumes about 80% of energy in a year.
• Mercury must contain in CFL bulbs.
• Destruction in difficult in CFL bulbs.
• The life of CFL has only 8000 hours of life while LED bulbs usually 50,000 hours or maybe more.
• LED bulbs are expensive as compared to CFL type of bulbs.
• Size of the LED bulb is usually smaller than a CFL bulb.
• While using CFL bulbs electricity used 13-15 watts while LED bulbs only used electricity only 6-8 watts.
• CFL gets heated up quickly but in LED remains cool.
• In CFL bulbs brightness is less as compared to LED lamps.
• CFL bulbs are not recyclable.
• Emission of heat is more in CFL bulbs.
• CFL bulbs use domestic purposes while LED bulbs use traffic signal, message display on board, etc.
• Glass can be easily broken in using CFL bulbs while LED bulbs are highly durable.

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Difference between squirrel cage and slip ring induction motor

The squirrel cage induction motor is the most popular and widely used AC motor because it is very cheap, efficient, robust and reliable. The slip ring motors are rarely used in industries because it has several disadvantages like frequent maintenance, high copper loss. 

Main difference : 

The slip ring motor has an external resistance circuit for controlling the speed of the motor whereas the squirrel cage motor not possible to add any external circuit because, at the end of the ring, the bar of the motor is permanently slotted. 

Difference between squirrel cage and slip ring induction motor are listed below :

• A slip ring is a motor whose rotor is wound type whereas the squirrel cage motor has a squirrel cage type rotor. 
• The rotor of the slip ring motor has a parallel slot cylindrical core and each slot consists of each bar while the slot is not parallel in the case of the squirrel cage motor.
• The slip ring motor is also called a phase wound rotor and the name of the squirrel cage motor is cage motor. 
• The slip ring motor consists of a slip ring and brushes which is complicated whereas the construction of the squirrel cage motor is simple. 
• At the start, the slip ring motor the rotor resistance the starter is used, while the slip ring motor doesn't require any starter. 
• The phase wound motor consists of an external resistance circuit, on the other hand, whereas no internal resistance circuit can be added in the squirrel cage motor due to the permanent slotting of their rotor bars.
• The starting torque of the slip ring motor is very high and low in the case of the squirrel cage motor. 
• Compared to the squirrel cage motor, the maintenance cost of the slip ring motor is high because the slip ring motor consists of brushes and rings.
• Compared to the squirrel cage motor, the copper loss is more in the slip ring engine.
• Compared to the squirrel cage motor, the slip ring motor has a low power factor.
• The motor of the slip ring has brushes to transfer power while the motor of the squirrel cage is brushless.
• The efficiency of the slip ring motor is low and high in the squirrel cage motor.
• The resistance circuit is used to control the speed of the slip ring motor whereas impossible to control the speed of the squirrel cage motor. 
• The wound rotor phase price is high because it is made up of brushes and the squirrel cage motor is cheap.
• The starting current of the slip ring motor is small because it is regulated by the resistance circuit while it is high in the squirrel cage motor. 
• The slip ring motor is mostly used in places where high starting torque is required like a hoist, cranes and the squirrel cage motor is used in a drilling and lathe machine.
• Compared to squirrel cage motor, overloading capacity is high in the slip ring motor and is smoothly running under heavy loads.

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Advantages and disadvantages of TRIAC

A TRIAC stand for is a bidirectional thyristor with three terminals device. Thyristor used extensively used for the control of power in the AC circuit. Here this post gives information about the advantages and disadvantages of TRIAC to better understand this topic.

Advantages of Triac:

• The Triac need a single fuse for protection
• When the voltage is reduced to zero the TRIAC device is generally turned off
• It needs only a single heat sink of a slightly larger size whereas for SCR two heat sinks should be required of smaller size
• A safe breakdown in either direction is possible  using TRIAC but for SCR protection should be given with parallel diode
• It can be triggered with positive or negative polarities of gate pulses

Disadvantages of Triac:

• It has a very high switching delay
• This is not suitable for DC application
• It can be triggered in any direction so we need to be careful about triggering circuit
• As compare to SCR it has a low rating
• The TRIAC is not much reliable as compared to SCR
• The dv/dt rating is very low as compared to SCR device

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Piezoelectric transducer applications

There are many different types of transducer available but piezoelectric transducer are some of the applications compare to other transducers. So this page is given below some applications of the piezoelectric transducer are given below

• A piezoelectric transducer is used in spark ignition engines
• It is used in a record player
• It is an accelerometer
• It can be used in electronics watches 
• It is used in medical diagnostics
• Used in inkjet printers
• Used in fertility treatment
• They are used for studying high-speed waves and blast waves
• In strain gauges to measure force, stress, and vibrations
• Used by automotive industries to measure detonations in engines
• It is used in electric lighter used in kitchens devices
• These are used in ultrasonic imaging in medical applications
• The automotive companies used a piezoelectric transducer to detect detonations in the engine blocks
• Automobile seat bels lock in response to a rapid deceleration is also done by the piezoelectric material
• They are used in seismographs to measure vibrations in rockets

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1. Advantages and disadvantages of piezoelectric transducer

Difference between microprocessor and microcontroller

There has always been confusion between microprocessors and microcontrollers. Both of them have been used for real-time applications. They also share many common features and at the same time have significant differences. Both integrated circuits are available in different versions starting from 6 pins to as high as 80 to 100 pins depending on the features. A significant discussion at this stage is the difference between microprocessors and microcontrollers.

Primary difference :

• The microcontroller uses on-chip embedded flash memory in store and executes its program. Most of the devices available in the market have a maximum of 2 Mbytes of program memory is the only limitation that the total available memory space is finite. 
• The microprocessor does not have memory constraints and use external memory to provide program and data storage. You can connect to the processor is in the range of hundreds of Mbytes and even Gbytes also. 

Difference :

• A microcontroller just needs one single voltage power rail whereas a microprocessor required several different voltage rails for the core and DDR. 
• The microprocessor is the heart of a computer system on the other hand microcontroller is the heart of the embedded system. 
• The microprocessor cannot be used in a compact system and is hence inefficient and the microprocessor can be used in a compact system and hence it is an efficient technique. 
• In the microprocessor memory and components have to be connected externally thus the circuit becomes large whereas memory and components have to be connected internally thus the circuit becomes small. 
• Due to external components, the entire power consumption is high in the case of a microprocessor hence, it is not suitable to use with devices running on stored power like batteries and vice versa because the entire power consumption is less in the microcontroller. 
• Most of the microprocessors do not have power-saving features while the microcontroller has idle mode and power-saving mode which helps to reduce power consumption even further. 
• Compared to the microcontroller, the clock speed of the microprocessor is quite high.
• The microcontrollers have more registers, which makes the program simpler to write than the microprocessor due to fewer registers.
• Microprocessors are mainly used in personal computers and microcontrollers are mainly used in washing machines and MP3 players. 
• The microprocessor has a zero status flag, whereas the microcontroller has no zero flags. 
• The instruction in the microprocessor is bits or bytes whereas in the microcontroller instruction are both bits and bytes addressable. 

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Thank you for reading this article. Still, if you have any questions or queries in your mind on the Difference between microprocessors and microcontrollers then please ask us in the comment section below.

DPCM full form

What is the full form of DPCM?

• Differential Pulse Code Modulation

What does DPCM mean?

DPCM is a technique of analog to digital signal conversion in which an analog signal is sampled and then the difference between the actual sample value and its predicted value is quantized and then encoded forming a digital value. Before we are discussing the differential PCM we have to know the demerits of PCM. 

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