A zero traversing sensor detects the passage of a assorted signal wave form from positive and negative and gives a narrow pulsation that precisely coincides with the nothing electromotive force status. At high frequences it will be rather hard procedure. ( Rod Elliott, 2005 )
Zero traversing sensor is utile in many applications in power electronics. At a specific frequence zero traversing sensor can be used and operates without hold at prognostic finite impulse response [ FIR ] and filters like set base on balls filters with negative stage hold. ( Polla, 2011 )
The application of Zero cross household of optically stray triac drivers are less cost, easy to run and effectual solution for interface applications between low current District of Columbia control circuit such as logic Gatess and microprocessor and ac power tonss ( 120,240 or 380 volt individual or 3-phase ) . These stray triac drivers provides adequate gate trigger current for high current, high electromotive force thyristors between the line and the control circuitry with 7.5KV dielectric withstand electromotive force and besides it will non mean for such devices as solid province relays. It will include assorted resistances and capacitance combinations such as Full Wave Rectifier Bridge, distinct transistor, trigger SCRs.
In the three stage power system, the developing demand for solid province shift of AC power warming controls and other industrial applications has resulted in the usage of the triac circuits in the control of three stage power. hypertext transfer protocol: //www.fairchildsemi.com/an/AN/AN-3004.pdf
hypertext transfer protocol: //www.fairchildsemi.com/sitesearch/fsc.jsp? command=text & A ; attr1=Appications+of+Zero+Voltage+Crossing+Optically+Isolated+Triac+Drivers & A ; attr2=undefined & amp ; v0=Applications+of+Zero+Voltage+Crossing+Optically+Isolated+Triac+Dr & A ; vid= % 24__visitId__ % 24 & A ; g=sitemap+taxonomy & A ; i=sitemap+id & A ; qid= % 24__queryId__ % 24 & A ; s1=sitemap+id % 2F % 2F1 & A ; s0=iphrase+relevance % 2F % 2F0 & A ; tq=1 & A ; q=20 & A ; as=1 & A ; qtid= % 24__queryId__ % 24 & A ; t=0 & A ; ia=1 & A ; c0=i % 3A1 % 3B770 % 3Bsitemap+content+metadata+description % 2Csitemap+content+metadata+keyword % 2Csitemap+name % 2Csitemap+taxonomy % 2Csitemap+text % 3BApplications % 2CZero % 2CVoltage % 2CCrossing % 2COptically % 2CIsolated % 2CTriac % 2CDr % 2Cof % 3B % 3Aapplication % 2C % 3Azero % 2C % 3Avoltag % 2C % 3Across % 2C % 3Aopticalli % 2C % 3Aisolat % 2C % 3Atriac % 2C % 3Adr % 2Ciphrase+stopword % 3B1 % 2C1 % 2C3 % 2C1 % 2C4 % 2C1 % 2C5 % 2C1 % 2C6 % 2C1 % 2C7 % 2C1 % 2C8 % 2C1 % 2C9 % 2C1 % 2C2 % 2C1 % 3B % 2B0+ % 2B1+ % 2B2+ % 2B3+ % 2B4+ % 2B5+ % 2B6+ % 2B7 & A ; qt=1303230794 & A ; text=
In other words, the circuit provides the positive and negative electromotive force, when the positive electromotive force is input electromotive force and the negative electromotive force is end product electromotive force. In that zero traversing sensor is utilizing the AC electromotive force and generated by VSC to the system Ac electromotive force and it provides the zero crossing of the system AC wickedness moving ridge in the signifier of square moving ridge and it have to used this wave signifier as mention to bring forth the AC electromotive force. ( Javed, 2006 )
The circuit is shown below:
Analysis OF DRIVER CIRCUIT:
One of the electronic circuits is Gate Driver. The intent of gate driver are apply exact power degrees to Insulated Gate Bipolar Transistor [ IGBTs ] and it gives as isolation amplifiers and often supply short circuit protection. Based on the insulated Gatess, IGBTs provide a uninterrupted gate circuit in order to obtain the gate current. Basically, they are four types of gate drivers. For positive supply, the high side gate drivers are used to bring forth IGBTs and it will non be connected at land mention, and for negative supply, low side gate drivers are used to bring forth the IGBTs. Gate drivers includes some specifications are supply electromotive force, peak end product current, extension hold, rise clip, autumn clip and power dissipation and operating temperature and switching frequence. The conventional diagram of driver circuit is: ( Javed, 2006 )
Pathak and ochi ( 2003 ) explained about cut downing the entire losingss and higher operating efficiency for some subsystems, accomplishing compact design and ciphering the weight of attendant systems.
In hard-wired electronic circuits they are different ways of MOSEFET/IGBTs and besides there are some advantages of IC Drivers.
First, the concentration is one of the advantages. In some designs, the use of IC Drivers consequences is smaller sized circuits and those subsystems are applicable in multiple drivers design there are some characteristics like UV, OV, OL and DESAT can be construct in some control logic and generates IC Drivers of MOSFET/IGBT.
Shorter Propagation Delays are used at IC Drivers. This is used at geometry ; it provides the consequences into the smaller distances and it pass through by signals.
Harmonizing to geometry and Shorter conductivity waies, the IC Drivers end products are developing from lower rise and autumn times for available capacitive tonss.
Repeatability and Predictability are one more advantage ; it can non be provide exact consequences at difficult wired driver.
There are some of import parametric quantities that are generalised in an IC Drivers, developers are need non to travel for clip devouring stairss for explicating, developing and proving circuits to bring forth ICs of MOSFET/IGBTs which save the clip and capital and bit by bit diminish the aa‚¬A“time to marketaa‚¬A? for complete merchandises.
In half span and 3-phase span constellations, low side drivers are utilizing for driving stage leg, the upper side of MOSFET/IGBT driver are modify to electrically isolation. There are some floating high side drivers with boot-strap power supply along with a low side driver and it has different utile characteristics are:
To protect negative electromotive force transients.
To equilibrate the latchup above full operating scope.
Rise clip and autumn clip will be matching in nature.
Propagation hold should be organizing for required end products.
5.6 Trial Plan OF MICROCONTROLLER:
Basically, the shift techniques are implemented in PIC Microcontroller PIC16F877. Soon, we are implementing the exchanging techniques with applications of fiber optics communicating. ( Javed, 2006 )
The Microcontroller PIC16F877 is designed from Harvard architecture microcontroller and developed by Microchip Technology. It is used to implement the different shift techniques. It contains so many features like less cost, larger user base, wide handiness, general aggregation of applications and it consists of 40 pins. ( Javed, 2006 )
FIGURE 5.32: MICROCONTROLLER PIC16F877 ( Javed, 2006 )
In that, there are some nucleus characteristics and peripheral characteristics for Microcontroller PIC16F877.
5.6.1 CORE FEATURES OF PIC16F877:
A. While making the experiment with 8-bit CMOS Flash Microcontroller it required 28/40 pin. In that there is one advantage is to wipe out the informations and it can come in the information for many times. ( Javed, 2006 )
B. The public presentation of RISC is high precedence.
C. Single rhythm executings are followed by all instructions for subdivisions which are two rhythms.
D. In that, there are some specifications to run the microcontroller like the maximal operating velocity is 20MHz clock input i.e. every direction rhythm is of 200ns. It will be operate at 4MHz or 16MHz etc.
E. Up to 8K*14 words of FLASH programme memory.
F. Up to 368*8 bytes of informations memory [ RAM ] .
G. Up to 256*8 bytes of EEPROM informations memory.
H. Interrupt capableness [ up to 14 beginnings ] .
I. In that, there are different types of turn toing manners like direct, indirect and comparative.
J. For reset intent we can run Power on reset [ POR ] .
K. Power up timer [ PWRT ] and oscillator start up timer [ OST ] .
L. Watch Canis familiaris timer [ WDT ] with its ain on bit RC oscillator.
M. The operating electromotive force scope: 2V to 5.5V.
N. Low power ingestion.
5.6.2 PERIPHERAL FEATURES OF PIC16F877:
Timer0: 8-bit timer/counter with 8-bit prescaler.
Timer1: 16-bit timer/counter with prescaler can be incremented during SLEEP via external Crystal /clock.
Timer2: 8-bit timer/counter with 8-bit period registry, prescaler and postscaler.
Capture, comparison, PWM faculties
Capture is 16-bit, soap. declaration is 12.5ns.
Compare is 16-bit, max.resolution is 200ns.
PWM soap. declaration is 10-bit.
E. For Analog-to- Digital Converter 10-bit multi-channel is used.
F. Synchronous Serial Port [ SSP ] with SPI [ Master manner ] and I2C [ Master/Slave ] .
G. Universal Synchronous Asynchronous Receiver Transmitter [ USART/SCI ] with 9-bit reference Detection.
H. Parallel Slave Port [ PSP ] 8-bits broad, with external RD, WR and CS control [ 40/44 pins ] . ( Javed, 2006 )
The board unit of Microcontroller PIC16F877 is to plan the different exchanging techniques with utilizing 40 pin microcontroller bit 14-pin AND gate [ P0048SB ] and 14-pin inverter [ 74VHC148 ] . For the different shift techniques the wiring and connexions are somewhat different. ( Javed, 2006 )
For developing the Zero crossing Detector, PWM Inverter and Fundamental pulses intents we are utilizing the Microcontroller PIC16F877. It is fundamentally three stage system with one degree Statcom. Actually, we are put to deathing the end products with applications of fibre optics.
5.7 APPLICATIONS OF MICROCONTROLLER:
In the micro chip engineering PIC is one of the households of Harvard Architecture microcontroller. Basically it was developed by general instruments of micro electronics division. The full signifier of PIC is Programmable Interface Controller. We consider a individual bit ; in that micro accountant is a computing machine control system. In that, manufactures build many electronic circuits, that can be decode and it implement as algorithm and eventually change over them to electrical signals. In microcontroller we use figure of logic Gatess alternatively of difficult wiring and it performs some logic map that is used for Gatess electronically [ 3 ] . The combination of the instructions needed to the microcontroller that is called plan. ( D.W.SMITH, 2002 )
Tsai and Ke ( 2009 ) explained about PIC16F877 at high-potential high-frequency pulse power supply is to verified for a long clip and besides it examine for assorted industrial Fieldss of semiconducting material fabrication, wadding, PCB and LCD panel fabrication and besides for industrial grapevine systems they are utilizing for chemical processing of H2O and exhausted fume, and disinfection at peculiar distances and it has one more advantage, silent-discharge is developed for big graduated table applications at industrial grapevine systems. In that, a high-potential high-frequency pulse power supply is used at plasma applications. This plasma applications used at different field like gas discharge, dielectric discharge ( soundless discharge ) and corona discharge and besides it is chiefly used in industrial large-scale ozone-generation system and besides practically bring forth ozone gas is at silent-discharge. This is eventually used for gas clean system. The PFC rectifier and a voltage-source full-bridge inverter are for future extension of high-voltage and high-frequency pulse power supply. The map of inverter out is wiring to lade during high-potential high frequence transformer. For commanding the out of the inverter, they considered Pulse Width Modulation [ PWM ] and Pulse-density Modulation [ PDM ] . This Plasma application has different phases at control unit. There are PFC phase and Inverter phase. ( Tsai and Ke,2009 )
In the PFC phase, the microcontroller UC3854 is an mean manner and it have to finish the experiment with aid of fixed frequence current control with stableness and low deformation. ( Tsai and Ke,2009 )
FIGURE 5.34: Circuit OF PFC STAGE. ( Tsai and Ke,2009 )
In the Inverter phase, it has five positions and besides including active and inactive positions to decide with power exchanging elements of the two legs. In the active position the two diagonally opposite power switches are put to deathing and for inactive position the two power switches is at same electromotive force degrees. In inverter there is taking leg and draging leg. For taking leg the power moves from active to inactive positions. For draging leg the power moves form passive to active positions. In the RLC series circuit, the inverter exchanging frequence is high when compared to lade resonating frequence.
FIGURE 5.35: Circuit OF INVERTER STAGE. ( Tsai and Ke,2009 )
There is another microcontroller application which is called as optical maser based smart supplanting detector. This application is really of import for different types of the system. There are some features of contactless and huskiness, optical systems that are based on optical sensors. While making this experiment it gives some drawback. To avoid these drawbacks we have to take different visible radiation emitters and light sensors, displacement-measuring systems so we will acquire hapless declaration or high sensitiveness at the geometrical scenes and environment visible radiation. This application is generalised at direct optical maser light of two light sensors. The optical maser beginning, sensors data acquisition, informations impersonal processing and informations communicating are to be commanding and put to deathing at 8-bit RISC microcontroller and that indicates as the aa‚¬A“Brainaa‚¬A? of the smart optical maser detector. ( Postolache, Pereira, Girao, 2001 )
FIGURE 5.36: THE CIRCUIT DIAGRAM OF THE SMART DISPLACEMENT SENSOR ( Postolache, Pereira, Girao, 2001 )