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09:07
Analog Electronics: Half Wave Rectifier (Ripple Factor) Topics Covered: 1. Definition of ripple factor. 2. Ripple factor derivation. 3. Ripple factor of half wave rectifier. Contribute: http://www.nesoacademy.org/donate Website ► http://www.nesoacademy.org/ Facebook ► https://goo.gl/Nt0PmB Twitter ► https://twitter.com/nesoacademy Pinterest ► http://www.pinterest.com/nesoacademy/

06:49
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Views: 32622 LEARN AND GROW

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In this video, the ripple voltage and the ripple factor for half wave and full wave rectifier have been calculated. By watching this video, you will learn the following topics: 0:40 Calculation of Ripple factor for half wave rectifier 3:28 Calculation of Ripple factor for Full wave rectifier 5:30 Calculation of ripple voltage and ripple factor for Half wave rectifier (with RC filter) 16:39 Calculation of ripple voltage and ripple factor for Full wave rectifier (with RC filter) Ripple factor of Half-wave Rectifier = 1.21 Ripple factor of Full-wave Rectifier = 0.483 Peak to Peak ripple voltage of Half wave rectifier (with RC filter) = Vm / R*f*C Peak to Peak ripple voltage of Full wave rectifier (with RC filter)= Vm / 2*R*f*C Ripple factor of Half-wave Rectifier (with RC filter) = 1/(2√3*R*f*C) Ripple factor of Full-wave Rectifier (with RC filter) = 1/(4√3*R*f*C) The link for the other useful videos related to Rectifiers: 1) Full wave Rectifier: https://youtu.be/74QrYyYsftY 2) Half-Wave Rectifier: https://youtu.be/Ll0IOk_Ltfc 3) How to solve the diode circuits: https://youtu.be/jkEVGQ2lneI 4) RMS and Average Value of Half wave and Full wave rectifier: https://youtu.be/A2SMI31EgMA This video will be helpful to all the students of science and engineering in learning, how to calculate the Ripple factor and Ripple voltage of half wave and full-wave rectifier. #HalfWaveRectifier #FullWaveRectifier #RippleFactor #RippleVoltage Follow me on YouTube: https://www.youtube.com/allaboutelectronics Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ Music Credit: http://www.bensound.com/

05:18
Topics Covered: - derivation of ripple factor of half wave rectifier -derivation of ripple factor of full wave rectifier - comparison of ripple factor of rectifiers

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Half Wave Rectifier (D.C. Output Voltage and Current, Ripple Factor, Efficiency) | TECH GURUKUL By Dinesh Arya Analog Electronics: Half Wave Rectifier Topics Covered: 1. Average o/p Voltage 2. Average o/p current 3. Ripple factor 4. Rectification efficiency In this Lecture you will learn about different parameters of Half Wave Rectifier . You must also go through the chapters for semiconductor diodes and introduction to rectifiers for better understanding. Link for the playlists are given below Link for Playlist of rectifiers https://www.youtube.com/playlist?list=PL-IC1WV1OE4k5syeig_22vOgPwfVlax8G Link for the playlist of semiconductor diodes https://www.youtube.com/watch?v=hwkOUUMWc2o&list=PL-IC1WV1OE4kCl26JMJz-_ypcvAPXJMTO
Views: 2427 Tech Gurukul

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this video is about trick to remember the formula to find ripple factor and also to remember the value of half wave rectifier and full wave rectifier ripple factor values. online exam centre is best place to find updates on current affairs,daily updates,gk trick,technical knowledge,technical guruji,pdf,study material,questions practice,practice paper,tricks,gk tricks,online exam facility,tutorial videos,most importent questions,easy solution,theory classes,video lectures,technical and nontechnical subjects The output of a rectifier is consists of a dc component and an ac component. This ac component is undesirable and cause for the pulsations in the rectifier output. So the ac component present in the pulsating output i.e. in the rectifier output is known as Ripple. Ripple Factor:- The ratio of r.m.s. value of a.c. component to the d.c. component in the rectifier output is known as ripple factor i.e. Ripple factor = r.m.s. value of a.c component / value of d.c. component=Iac/Idc The ripple factor is a measure of the quality of the rectification of an AC current. The DC output of an ideal full wave rectifier should be a "straight line" (i.e. the output should have a constant value), but due to imperfections in the rectifier design or implementation the result has "ripples" caused by an undesired AC component. The ripple factor compares the rms value of the AC component with the value of the DC output as an indication of how "deep" those "ripples" are. Ripple factor (γ) may be defined as the ratio of the root mean square (rms) value of the ripple voltage to the absolute value of the DC component of the output voltage, usually expressed as a percentage. However, ripple voltage is also commonly expressed as the peak-to-peak value. Ripple voltage is an alternating (AC) voltage which is a constituent part of a composite voltage waveform with a constant DC component (offset) which may be positive or negative, but for analysis is usually considered to be an absolute value. The ripple component is often small relative to the DC component, but in absolute terms, ripple (as in the case of HVDC transmission systems) may be thousands of volts. Ripple itself is a composite (non-sinusoidal) waveform consisting of harmonics of some fundamental frequency which is usually the AC line frequency of 50/60Hz, but in the case of switched-mode power supplies, the fundamental frequency can be tens of kilohertz to megahertz. The characteristics and components of ripple depend on its source: there is single-phase half- and full-wave rectification, and three-phase half- and full-wave rectification. Rectification can be controlled (uses Silicon Controlled Rectifiers (SCRs) or uncontrolled (uses diodes). There is in addition, active rectification which uses transistors. Various properties of ripple voltage may be important depending on application: the equation of the ripple for Fourier analysis to determine the constituent harmonics; the peak (usually peak-to-peak) value of the voltage; the root mean square (RMS) value of the voltage which is a component of power transmitted; the ripple factor γ, the ratio of RMS value to DC voltage output; the conversion ratio (also called the rectification ratio or "efficiency") η, the ratio of DC output power to AC input power; and form-factor, the ratio of the RMS value of the output voltage to the average value of the output voltage. Analogous ratios for output ripple current may also be computed. An electronic filter with high impedance at the ripple frequency may be used to reduce ripple voltage and increase or decrease DC output; such a filter is often called a smoothing filter. The initial step in AC to DC conversion is to send the AC current through a rectifier. The ripple voltage output is very large in this situation; the peak-to-peak ripple voltage is equal to the peak AC voltage minus the forward voltage of the rectifier diodes. In the case of a SS silicon diode, the forward voltage is 0.7V; for vacuum tube rectifiers, forward voltage usually ranges between 25 and 67V (5R4). The output voltage is a sine wave with the negative half-cycles inverted. #ripplefactor #trick #onlineexamcentre #halfwaverectifier #fullwaverectifier #electrical #concept #technical #edu #engineering #science #physics #technician
Views: 592 online exam centre

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Is Video me hum half wave and full wave rectifier ki working dekhenge or ripple factor ki values find out karenge. LINKS:- FACEBOOK:-https://www.facebook.com/himanshu.chhabra.56 INSTAGRAM:-https://www.instagram.com/himanshuchhabra_/ ABOUT:-In this Robotic World you need both Science as well as Technology to act wisely !!! So here comes the solution "My Channel Will Provide You Both Tactics MOSTLY IN HINDI LANGUAGE " i.e How to be a good Physicist and how to deal with Modern Technologies like Smart Phones , Laptops etc Disclaimer - video is for educational purpose only.Copyright Disclaimer Under Section 107 of the Copyright Act 1976, allowance is made for "fair use" for purposes such as criticism, comment, news reporting, teaching, scholarship, and research. Fair use is a use permitted by copyright statute that might otherwise be infringing. Non-profit, educational or personal use tips the balance in favor of fair use.
Views: 14439 Physics and Technology

16:38
Topics Covered - Concept of Ripple in rectified output - Concept of Ripple Factor -Detail Derivation of General Equation of Ripple Factor

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A short video showing the effect of increasing or decreasing the resistance on the ripple of a Full Wave Rectifier(Bridge). Who am I? Hi! I am Manas Sharma. A student of Physics. Follow me on: Facebook: http://www.facebook.com/bragitoff Twitter: http://www.twitter.com/ManasSharma07 Website: http://www.bragitoff.com
Views: 1389 Phys Whiz

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Full wave bridge rectifier rectifies both positive and negative half cycle, and circuit structure resembles Wheatstone bridge. In this video, I have thoroughly discussed the working principle of full wave bridge rectifier

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To understand the use of diode for half wave and full wave rectifiers
Views: 58936 Cricguruji

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Analysis with, and without, a filter capacitor.
Views: 58642 K7RXF

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Define Ripples and Ripple Factor |What are the Importance of Ripple Factor in Rectifier|12th|diploma Hello student welcome to JK SMART CLASSES , I will be discuss Basic Electronics Chapter Rectifier in Hindi .Now in this video I will briefly explained Define Ripples and Ripple Factor |What are the Importance of Ripple Factor in Rectifier|12th|diploma Student whose study in various universities PSEB AND CBSE BOARD for exam point of view ripple factor for rectifier in Hindi chapter in very important chapter for pass point of view as well as for getting good marks in basic electronics in Hindi . So if you like my video pleases like, comment and share my videos with our college Friends this is cost of my video. Related Appropriate Hash-Tags of Ripples and Ripple Factor #RippleFactor # ImportanceOfRippleFactor #DefineRipples #ImportanceOfRippleFactorInRectifier for more videos visit JK SMART CLASSES website for Engineering Classes http://www.jksmartclasses.blogspot.com For latest update subscribe my channel-JK SMART CLASSES https://www.youtube.com/channel/UCBAapTZ9jM9aw7g9fvtXYsA For any help join JK SMART CLASSES whatspp group +919814891489 Follow me on facebook-JK SMART LECTURE for Engineering Classes https://www.facebook.com/jksmart.lecture Like my page on facebook name as JK SMART LECTURE https://www.facebook.com/jksmartclasses/
Views: 944 JK SMART CLASSES

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Rectifier, Peak Factor, Ripple Factor, Crest Factor, Form Factor, Average and RMS Values, Types of Rectifiers, PIV Rating, PIV, Playlists- Control System- https://www.youtube.com/watch?v=GbDL5VAU8fk&list=PL00WWA9f-4c9yI6Nr6ot8uoOsVnJzdx1R Signals and Systems- https://www.youtube.com/watch?v=W68Q6zRbZ6U&list=PL00WWA9f-4c8Jhs5jc3M0lW-_TF3U4GSQ Network Analysis- https://www.youtube.com/watch?v=GBtu5lizPSY&list=PL00WWA9f-4c_10bMXg_gLkvlWLGrns4FF Digital Electronics- https://www.youtube.com/watch?v=N82C1RXwBIM&list=PL00WWA9f-4c-Xbi57DlbC6GC82pxBkL7_ Engineering Mathematics- https://www.youtube.com/watch?v=mxb2VIuVPbw&list=PL00WWA9f-4c8SYSeEuPgpMtDir1039Na6 GATE Preparation Strategy- https://www.youtube.com/watch?v=VKbdBuzmqTE&list=PL00WWA9f-4c9X9-N321nwlRpyiUO-aOEE Test Series- https://www.youtube.com/watch?v=kkPxBcehCZU&list=PL00WWA9f-4c_-_mtRYPNg3gesDysdECrV
Views: 3038 GATE CRACKERS

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Views: 8661 Mohamed Magdi

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determination of internal resistance of rectifier \$\$\$\$لا تنسي الاعجاب بالفيديو .........وعمل اشتراك ليصلكم كل جديد\$\$\$\$\$ يمكنكم مشاهده ايضا : كيفيه معرفه اذا كنت مخترقا ام لا؟ادخل لتتاكد ب4 طرق وبدون برامج؟ https://www.youtube.com/watch?v=jtqhvP2Do9U اداه رائعه فى الويندز لازاله البرمجيات الخبيثه+تحميلها من مايكروسوفت وتثبيتها ان لم تمتلكها https://youtu.be/e5-Z7HUp2tA اخفاء اى ملفات او فيديوهات باحترافيه داخل صوره باى صيغه فقط بCMDوبرنامجwinrar https://www.youtube.com/watch?v=5f0-IrOICl4&t=20s كيفيه التحكم | في اي جهاز في العالم بدون برامج والدخول اليه من خلال جهازكم بالبيت https://www.youtube.com/watch?v=PngioFZ41TE حلقه :كيفيه الحمايه اثناءالتصفح والتحميل باكثر من50برنامج انتى فيرس مجاناا online HD https://www.youtube.com/watch?v=r_Vb7xe_5Uw&t=2s كيفيه عملfolder بدون برامج وتتحدي الجميع في حذفه؟كيفيه ارجاع الملفات المحذوفه بعد الاف الفورمات؟ HD https://www.youtube.com/watch?v=PKYXvQGA_dA&t=12s كيفيه كتابه سيره ذاتيه | باحترافيه = اول و اهم خطوه للقبول فى الوظيفه {1} https://www.youtube.com/watch?v=Ggz9sp70Iks&t=2s ------------------------------------------------------ تابعوني و تواصلوا معي عبر صفحتى : face book: https://www.facebook.com/jimmy.AhmedG/ google-plus: https://plus.google.com/108103667626594574433

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Lecture Series on Electronics For Analog Signal Processing I by Prof.K.Radhakrishna Rao, Department of Electrical Engineering,IIT Madras. For more details on NPTEL visit http://nptel.iitm.ac.in
Views: 239994 nptelhrd

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Half Wave And Full Wave Rectifier {L}
Views: 15718 KOMAL SINGH

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Digital Electronics Lab Presentation 2017- UKM
Views: 25 Jamal Imam

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Complete set of Video Lessons and Notes available only at http://www.studyyaar.com/index.php/module/108-electronics Why Full Wave Rectifier, Understanding a Full Wave Rectified Waveform, RMS value of Full Wave Rectified Waveform, Average value of Full Wave Rectified Waveform, Ripple Factor of Full Wave Rectified Waveform, Concept of Peak Inverse Voltage (PIV), Why Transformers are Needed before Rectifiers, Bridge Full Wave Rectifier, Peak Inverse Voltage in Bridge Full Wave Rectifier, Efficiency of Bridge Full Wave Rectifier http://www.studyyaar.com/index.php/module-video/watch/349-bridge-fullwave-rectifier
Views: 44958 StudyYaar.com

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In this video, the half-wave rectifier circuit working and different specifications /parameters like RMS value, average value, efficiency and ripple factor of the half-wave rectifier is discussed. By watching this video you will learn the following topics: 1:00 Half wave rectifier circuit and its working 4:54 Average value of half wave rectifier 6:02 RMS value of half wave rectifier 7:35 Peak Inverse Voltage (PIV) for half wave rectifier 8:23 Ripple factor of half wave rectifier 9:10 Half wave rectifier with capacitor filter 12:12 The efficiency of the half wave rectifier 12:57 Applications of half wave rectifier What is half wave rectifier: The half wave rectifier is the circuit designed using the diode which is used for converting the AC voltage signal into the DC voltage. The half wave rectifier only passes the one half of the input sine wave (either positive or negative) and rejects the other half. The output of the half wave rectifier is pulsating DC. The ripple in the output waveform can be reduced using the filter. To remove or reduce the ripple from the output waveform, the RC time constant of the filter circuit should be much larger than the time period of the half wave rectifier. Parameters of the half wave rectifier: Average Value: Vm / π RMS Value: Vm/2 Ripple Factor: 1.21 Efficiency: 40.6 % PIV: Vm The link for the other useful videos related to diode: 1) Introduction to a diode and V-I characteristics of the diode https://www.youtube.com/watch?v=EdUAecpYVWQ 2) The diode resistance Explained: https://www.youtube.com/watch?v=hag5ss1ZxH0 3) RMS and Average Value: https://youtu.be/qDHsokTcgck This video will be helpful to all students of science and engineering in understanding the half wave rectifier. Follow me on YouTube: https://www.youtube.com/allaboutelectronics Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ Music Credit: http://www.bensound.com/ #HalfWaveRectifier

04:16
Analog Electronics: Half Wave Rectifier (Form Factor) Topics Covered: 1. Significance of root mean square value. 2. Definition of form factor. 3. Form factor of half wave rectifier. 4. Form factor of square wave. Contribute: http://www.nesoacademy.org/donate Website ► http://www.nesoacademy.org/ Facebook ► https://goo.gl/Nt0PmB Twitter ► https://twitter.com/nesoacademy Pinterest ► http://www.pinterest.com/nesoacademy/

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Video Lecture on Analysis of Half Wave Rectifier of Chapter Electronics of Subject Basic Electrical Engineering for First-Year Engineering Students. To Access Complete Course of Basic Electrical Engineering Basic Electrical Engineering (Mumbai University - Mechanical Engineering - SEM I) Click Below:- http://www.ekeeda.com/course/SEM-I/Mumbai-University/Mechanical-Engineering/Basic-Electrical-Engineering/114 Watch Previous Videos of Playlist of Basic Electrical Engineering:- 1) Need and Types of Filter Circuits - Electronics - Basic Electrical Engineering - First Year Engg - https://www.youtube.com/watch?v=GgZ1nJH7hWU 2) Unbiased Transistor - Electronics - Basic Electrical Engineering - First Year Engineering - https://www.youtube.com/watch?v=P6nFU3LrBP4 Watch Next Videos of Playlist of Basic Electrical Engineering:- 1) Classification of Rectifier - Electronics - Basic Electrical Engineering - First Year Engineering - https://www.youtube.com/watch?v=vcMtiqC8jcU 2) Working of Half Wave Rectifier - Electronics - Basic Electrical Engineering - First Year Engineering - https://www.youtube.com/watch?v=C3dgOHmqmcA Access the complete playlist of Basic Electrical Engineering:- http://gg.gg/Basic-Electrical-Engineering Access the complete playlist of AC Circuit:- http://gg.gg/AC-Circuit Subscribe to Ekeeda Channel to access more videos:- http://gg.gg/Subscribe-Now #Electronics #BasicElectricalEngineering #beevideolectures #BasicElectricalEngineeringVideos #BasicElectricalEngineeringVideoTutorials #BasicElectricalEngineeringTutorials #BasicElectricalEngineeringVideoLectures #BasicElectricalEngineeringOnlineLectures #basicelectricalengineeringlectures Thanks For Watching. You can follow and Like us in following social media. Website - http://ekeeda.com Parent Channel - https://www.youtube.com/c/ekeeda Facebook - https://www.facebook.com/ekeeda Twitter - https://twitter.com/Ekeeda_Video LinkedIn- https://www.linkedin.com/company-beta/13222723/ Instgram - https://www.instagram.com/ekeeda_/ Pinterest - https://in.pinterest.com/ekeedavideo You can reach us at [email protected] Happy Learning : )
Views: 44498 Ekeeda

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ＬＩＫＥ | ＣＯＭＭＥＮＴ | ＳＨＡＲＥ | ＳＵＢＳＣＲＩＢＥ ★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★ Non-Tech Channel Subscribe Here ►https://www.youtube.com/channel/UCoeBpd3-rONKHCFwssYCu5g Like us on Facebook Page ► https://www.facebook.com/Flyhigh-Tutorials-278333285877306/ Follow Us on Twitter ► https://twitter.com/flyhighclasses ★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★ Hello Everyone, In this video, I have discussed Ripple Factor and Form Factor for the Half Wave Rectifier which is very useful for your all upcoming examination like SSC IMD, NTRO, NIELIT, GATE, IES etc. ˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍ USEFUL BOOKS LINKS - (1) R.S Agarwal(a modern approach to verbal and non-verbal reasoning) ---- http://amzn.to/2kSH1t1 (2) R.S Agarwal (Quantitative Aptitude For Competitive Exam)----- http://amzn.to/2lQCuVG (3) R. S Agarwal (A Modern approach to logical Reasoning) -------- http://amzn.to/2kSEb7r (4) Lucent Publication General knowledge(ENGLISH)------ http://amzn.to/2l8fPVx (5) Lucent Publication General knowledge(HINDI)------ http://amzn.to/2l7YLPr (6) Lucent Objective General Knowledge---- http://amzn.to/2lPlhMY (7) Arihant Publication General Knowledge---- http://amzn.to/2kSFiDX ˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍ Form Factor and Ripple Factor for Half Wave Rectifier | Part-3
Views: 1345 Flyhigh Tutorials

17:51
A capacitor-input filter is a filter circuit in which the first element is a capacitor connected in parallel with the output of the rectifier in a linear power supply. The capacitor increases the DC voltage and decreases the ripple voltage components of the output

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Solved Numerical Problems on Rectifier Ripple Factor in Hindi Like Us on Facebook - https://www.facebook.com/Easy-Engineering-Classes-346838485669475/ Digital Electronics Hindi Classes Digital Electronics Tutorial for Beginners in Hindi Digital Electronics Study Notes Electronic Devices and Circuits Notes Electronic Devices and Circuits Notes

08:40
ＬＩＫＥ | ＣＯＭＭＥＮＴ | ＳＨＡＲＥ | ＳＵＢＳＣＲＩＢＥ ★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★ Non-Tech Channel Subscribe Here ►https://www.youtube.com/channel/UCoeBpd3-rONKHCFwssYCu5g Like us on Facebook Page ► https://www.facebook.com/Flyhigh-Tutorials-278333285877306/ Follow Us on Twitter ► https://twitter.com/flyhighclasses ★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★ Hello Everyone, In this lecture, I have discussed Form Factor, Ripple Factor and Efficiency for the Full Wave Rectifier which is very useful for the examinations. ˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍ Useful Books Links:- Aptitude------ http://amzn.to/2xUpV1t Verbal and Non-Verbal------ http://amzn.to/2xYtjt0 Logical reasoning-------- http://amzn.to/2eWMUFc Logical reasoning------- http://amzn.to/2vNWcqt English grammar-------- http://amzn.to/2vOtLZc Gk---- http://amzn.to/2vNLCj1 Gk----- http://amzn.to/2eX8mtW Vocabulary----- http://amzn.to/2wSRFnNo SOME VERY USEFUL BOKS FOR PERSONALITY DEVELOPMENT AND MOTIVATION IN LIFE:- The power of your subconcious mind------- http://amzn.to/2xY9zWh Think and Grow rich---------- http://amzn.to/2xZ4Eoc How to win frends------ http://amzn.to/2eXs0WL Rich dad poor dad----- http://amzn.to/2wT3x9x 7 habits of highly effective people----- http://amzn.to/2xZ53ac Gears I Use:- My Phone:- http://amzn.to/2xYaXrW My Mic:- http://amzn.to/2wTvcXC ˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍˍ Form Factor | Ripple Factor | Efficiency of a Full Wave Rectifier
Views: 1335 Flyhigh Tutorials

27:09
A rectifier is an electrical device that converts alternating current (AC), which periodically reverses direction, to direct current (DC), which flows in only one direction. The process is known as rectification, since it "straightens" the direction of current. Physically, rectifiers take a number of forms, including vacuum tube diodes, mercury-arc valves, stacks of copper and selenium oxide plates, semiconductor diodes, silicon-controlled rectifiers and other silicon-based semiconductor switche

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Video Lecture on Operation of Capacitor Filter of Chapter Electronics of Subject Basic Electrical Engineering for First-Year Engineering Students. To Access Complete Course of Basic Electrical Engineering Basic Electrical Engineering (Mumbai University - Mechanical Engineering - SEM I) Click Below:- http://www.ekeeda.com/course/SEM-I/Mumbai-University/Mechanical-Engineering/Basic-Electrical-Engineering/114 Watch Previous Videos of Playlist of Basic Electrical Engineering:- 1) Working Principle of a DC Motor - DC Machines - Basic Electrical Engineering - First Year Engg - https://www.youtube.com/watch?v=6MnmcMYbsfQ 2) Types of DC Motor - DC Machines - Basic Electrical Engineering - First Year Engineering - https://www.youtube.com/watch?v=ASnDSEeWADk Watch Next Videos of Playlist of Basic Electrical Engineering:- 1) Definition of Bipolar Junction Transitor (BJT) - Electronics - Basic Electrical Engineering - First Year Engineering - https://www.youtube.com/watch?v=O2IMbgUEpkI 2) Inductor filter - Electronics - Basic Electrical Engineering - First Year Engineering - https://www.youtube.com/watch?v=XDY2KTHJ7eg Access the complete playlist of Basic Electrical Engineering:- http://gg.gg/Basic-Electrical-Engineering Access the complete playlist of AC Circuit:- http://gg.gg/AC-Circuit Subscribe to Ekeeda Channel to access more videos:- http://gg.gg/Subscribe-Now #Electronics #BasicElectricalEngineering #beevideolectures #BasicElectricalEngineeringVideos #BasicElectricalEngineeringVideoTutorials #BasicElectricalEngineeringTutorials #BasicElectricalEngineeringVideoLectures #BasicElectricalEngineeringOnlineLectures #basicelectricalengineeringlectures Thanks For Watching. You can follow and Like us in following social media. Website - http://ekeeda.com Parent Channel - https://www.youtube.com/c/ekeeda Facebook - https://www.facebook.com/ekeeda Twitter - https://twitter.com/Ekeeda_Video LinkedIn- https://www.linkedin.com/company-beta/13222723/ Instgram - https://www.instagram.com/ekeeda_/ Pinterest - https://in.pinterest.com/ekeedavideo You can reach us at [email protected] Happy Learning : )
Views: 101656 Ekeeda

24:46
Ripple (specifically ripple voltage) in electronics is the residual periodic variation of the DC voltage within a power supply which has been derived from an alternating current (AC) source. This ripple is due to incomplete suppression of the alternating waveform after rectification. Ripple voltage originates as the output of a rectifier or from generation and commutation of DC power.

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In this video, the center tapped full wave rectifier and full wave bridge rectifier has been explained. The video also includes a brief discussion about the different Full wave rectifier parameters like Peak Inverse Voltage (PIV), ripple factor, efficiency, Average and RMS voltage etc. By watching this video, you will learn the following topics: 0:20 Introduction to Full-wave Rectifier 2:21 Center tapped full wave rectifier 6:16 Peak Inverse Voltage of Center tapped Full-wave Rectifier 8:04 Full-wave Bridge Rectifier 10:34 Peak Inverse Voltage of Full-wave Bridge Rectifier 12:07 Full wave rectifier with RC filter (Ripple voltage and Ripple factor) What is Full wave rectifier: The full wave rectifier is a very useful circuit for AC to DC conversion and it is designed using the diodes. Unlike the half-wave rectifier, the full wave rectifier gives output during both half cycles. Hence, the average or DC value of the output signal is more than the signal which is rectified using a half-wave rectifier. In this video, the following full wave rectifier circuits have been explained. 1) Center tapped full wave rectifier 2) Full wave bridge rectifier The output of the Full wave rectifier is pulsating DC. The ripple in the output waveform can be reduced using the filter. To remove or reduce the ripple from the output waveform, the RC time constant of the filter circuit should be much larger than the time period of the Full wave rectifier. Parameters of the Full wave rectifier: Average Value: 2Vm / π RMS Value: Vm/√2 Ripple Factor: 0.48 Efficiency: 81.2 % PIV: 2Vm (Center tapped Full-wave Rectifier) PIV: Vm (Full wave Bridge Rectifier) Output Frequency: 2f The link for the other useful videos related to diode: 1) Half-Wave Rectifier: https://youtu.be/Ll0IOk_Ltfc 2) How to solve the diode circuits: https://youtu.be/jkEVGQ2lneI 3) RMS and Average Value: https://youtu.be/qDHsokTcgck This video will be helpful to all students of science and engineering in understanding the Full Wave Rectifier Circuits. #FullWaveRectifier #FullWaveBridgeRectifier #CentertappedFullWaveRectifier Follow me on YouTube: https://www.youtube.com/allaboutelectronics Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ Music Credit: http://www.bensound.com/

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Here's why the output of a full-wave rectifier is easier to filter than the output of a half-wave rectifier (if all other parameters remain constant).
Views: 18510 Stan Gibilisco

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Views: 943 Essam Samir

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In this video, the RMS and Average value of half wave rectifier and the full wave rectifier have been calculated. The following topics have been covered in the video: 1:11 Calculation of Average (DC) value of the Half-wave rectifier 3:51 Calculation of Average (DC) value of the Full-wave rectifier 6:12 Calculation of RMS value of the Half-wave rectifier 9:31 Calculation of RMS value of the Full-wave rectifier The Average value of Half-wave rectifier = Vm/π The Average value of Full-wave rectifier = 2Vm/π The RMS value of Half-wave rectifier = Vm/2 The RMS value of Full-wave rectifier = Vm/√2 The link for the other useful videos: 1) Full wave Rectifier: https://youtu.be/74QrYyYsftY 2) Half-Wave Rectifier: https://youtu.be/Ll0IOk_Ltfc 3) How to solve the diode circuits: https://youtu.be/jkEVGQ2lneI 4) RMS and Average Value: https://youtu.be/qDHsokTcgck This video will be helpful to all the students of science and engineering in learning, how to find the RMS and the average value of half wave and full-wave rectifier. #HalfWaveRectifier #FullWaveRectifier #RMSandAverageValue Follow me on YouTube: https://www.youtube.com/allaboutelectronics Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ Music Credit: http://www.bensound.com/

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Here described how the connections are made for finding the ripple facor of a halfwave rectifier. We need a step down transformer, resistors, capacitor, bread board, digital multimeter, and a power supply 1.A rectifier is a circuit which converts the Alternating Current (AC) input power into a Direct Current (DC) output power. The input power supply may be either a single-phase or a multi-phase supply with the simplest of all the rectifier circuits being that of the Half Wave Rectifier. 2.A widely used application of this feature and diodes in general is in the conversion of an alternating voltage ( AC ) into a continuous voltage ( DC ). In other words, Rectification. But small signal diodes can also be used as rectifiers in low-power, low current (less than 1-amp) rectifiers or applications, but where larger forward bias currents or higher reverse bias blocking voltages are involved the PN junction of a small signal diode would eventually overheat and melt so larger more robust Power Diodes are used instead. The power semiconductor diode, known simply as the Power Diode, has a much larger PN junction area compared to its smaller signal diode cousin, resulting in a high forward current capability of up to several hundred amps (KA) and a reverse blocking voltage of up to several thousand volts (KV). Since the power diode has a large PN junction, it is not suitable for high frequency applications above 1MHz, but special and expensive high frequency, high current diodes are available. For high frequency rectifier applications Schottky Diodes are generally used because of their short reverse recovery time and low voltage drop in their forward bias condition. Power diodes provide uncontrolled rectification of power and are used in applications such as battery charging and DC power supplies as well as AC rectifiers and inverters. Due to their high current and voltage characteristics they can also be used as free-wheeling diodes and snubber networks. Power diodes are designed to have a forward “ON” resistance of fractions of an Ohm while their reverse blocking resistance is in the mega-Ohms range. Some of the larger value power diodes are designed to be “stud mounted” onto heatsinks reducing their thermal resistance to between 0.1 to 1oC/Watt. If an alternating voltage is applied across a power diode, during the positive half cycle the diode will conduct passing current and during the negative half cycle the diode will not conduct blocking the flow of current. Then conduction through the power diode only occurs during the positive half cycle and is therefore unidirectional i.e. DC as shown. 3. Half Wave Rectification A rectifier is a circuit which converts the Alternating Current (AC) input power into a Direct Current (DC) output power. The input power supply may be either a single-phase or a multi-phase supply with the simplest of all the rectifier circuits being that of the Half Wave Rectifier. The power diode in a half wave rectifier circuit passes just one half of each complete sine wave of the AC supply in order to convert it into a DC supply. Then this type of circuit is called a “half-wave” rectifier because it passes only half of the incoming AC power supply as shown below. 4. During each “positive” half cycle of the AC sine wave, the diode is forward biased as the anode is positive with respect to the cathode resulting in current flowing through the diode. Since the DC load is resistive (resistor, R), the current flowing in the load resistor is therefore proportional to the voltage (Ohm´s Law), and the voltage across the load resistor will therefore be the same as the supply voltage, Vs (minus Vf), that is the “DC” voltage across the load is sinusoidal for the first half cycle only so Vout = Vs. During each “negative” half cycle of the AC sinusoidal input waveform, the diode is reverse biased as the anode is negative with respect to the cathode. Therefore, NO current flows through the diode or circuit. Then in the negative half cycle of the supply, no current flows in the load resistor as no voltage appears across it so therefore, Vout = 0. The current on the DC side of the circuit flows in one direction only making the circuit Unidirectional. As the load resistor receives from the diode a positive half of the waveform, zero volts, a positive half of the waveform, zero volts, etc, the value of this irregular voltage would be equal in value to an equivalent DC voltage of 0.318 x Vmax of the input sinusoidal waveform or 0.45 x Vrms of the input sinusoidal waveform. Then the equivalent DC voltage, VDC across the load resistor is calculated as follows.
Views: 10387 Make it Happen

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Description
Views: 2294 Lutfi Al-Sharif

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An LC circuit, also called a resonant circuit, tank circuit, or tuned circuit, is an electric circuit consisting of an inductor, represented by the letter L, and a capacitor, represented by the letter C, connected together.

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Half Wave Rectifier Experiment converts the Ac to Pulsating Dc . the diode in the Half Wave Rectifier works only in the positive half Cycle and during the negative Half cycle the diode conducts in the reverse bias so output is zero . Half wave rectifier circuit rectifies only positive Half cycle . -~-~~-~~~-~~-~- Please watch: "Bharat Ratna Awards Till date | Bharat Ratna Awards | kk talks about bharat ratna awards" https://www.youtube.com/watch?v=cVWrQ0f9i-M -~-~~-~~~-~~-~-

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Views: 530 My Experiences

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For Shunt capacitor filter www.youtube.com/watch?v=QiSMDvtnA_Q Derivation for ripple factor of pi filter circuit one inductor surrounded by two capacitors and arranged like the Greek letter Pi.

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A light-emitting diode (LED) is a two-lead semiconductor light source. It is a p–n junction diode that emits light when activated.[5] When a suitable current is applied to the leads,[6][7] electrons are able to recombine with electron holes within the device, releasing energy in the form of photons.

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Analog Electronics: Full Wave Rectifier (Efficiency & PIV) Topics Covered: 1. Efficiency of full wave rectifier. 2. Peak inverse voltage of full wave bridge rectifier. 3. Peak inverse voltage of full wave center-tapped rectifier. Contribute: http://www.nesoacademy.org/donate Website ► http://www.nesoacademy.org/ Facebook ► https://goo.gl/Nt0PmB Twitter ► https://twitter.com/nesoacademy Pinterest ► http://www.pinterest.com/nesoacademy/

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this video is about trick to remember the value of half wave rectifier and full wave rectifier. after watching this video you will be able to give direct value in mcq typoe exam. efficiency in rectifiers is equal to the ratio of output DC power (i.e Vdc*Idc) to the input power from the AC supply (i.e Irms^2.R) efficiency of half wave rectifier is very low its approx 40.5 percent, because there is presence of very high magnitudes of ripples. for full wave rectifier ripple factor is very less and that’s why efficiency is quite high i.e approx 81.2 percent . Efficiency can be improved with the use of smoothing circuits which reduce the ripple and hence reduce the AC content of the output. Three-phase rectifiers, especially three-phase full-wave rectifiers, have much greater efficiencies because the ripple is intrinsically smaller. #efficiency #rectifier #onlineexamcentre #tricks #electricaltricks #electricalformula #gk trick
Views: 477 online exam centre

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Half Wave Rectifier, Output Wave form of Half Wave Rectifier, Rectifier, Peak Factor of Half Wave Rectifier, Ripple Factor of Half Wave Rectifier, Crest Factor of Half Wave Rectifier, Form Factor of Half Wave Rectifier, Average and RMS Values, Types of Rectifiers, PIV Rating, PIV of Half Wave Rectifier, Playlists- Control System- https://www.youtube.com/watch?v=GbDL5VAU8fk&list=PL00WWA9f-4c9yI6Nr6ot8uoOsVnJzdx1R Signals and Systems- https://www.youtube.com/watch?v=W68Q6zRbZ6U&list=PL00WWA9f-4c8Jhs5jc3M0lW-_TF3U4GSQ Network Analysis- https://www.youtube.com/watch?v=GBtu5lizPSY&list=PL00WWA9f-4c_10bMXg_gLkvlWLGrns4FF Digital Electronics- https://www.youtube.com/watch?v=N82C1RXwBIM&list=PL00WWA9f-4c-Xbi57DlbC6GC82pxBkL7_ Engineering Mathematics- https://www.youtube.com/watch?v=mxb2VIuVPbw&list=PL00WWA9f-4c8SYSeEuPgpMtDir1039Na6 GATE Preparation Strategy- https://www.youtube.com/watch?v=VKbdBuzmqTE&list=PL00WWA9f-4c9X9-N321nwlRpyiUO-aOEE Test Series- https://www.youtube.com/watch?v=kkPxBcehCZU&list=PL00WWA9f-4c_-_mtRYPNg3gesDysdECrV
Views: 2222 GATE CRACKERS

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Views: 271 Manoj Nuhianwali

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Discuss about mathematical solution process of half wave rectifier in bangla. Also discuss input and output wave shape of this problem.

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Full Wave Bridge Rectifier, Full Wave Rectifier, Transfer Characteristics of Full Wave Rectifier, Output Wave form of Half Wave Rectifier, Rectifier, Peak Factor of Half Wave Rectifier, Ripple Factor of Half Wave Rectifier, Crest Factor of Half Wave Rectifier, Form Factor of Half Wave Rectifier, Average and RMS Values, Types of Rectifiers, PIV Rating, PIV of Half Wave Rectifier, Playlists- Control System- https://www.youtube.com/watch?v=GbDL5VAU8fk&list=PL00WWA9f-4c9yI6Nr6ot8uoOsVnJzdx1R Signals and Systems- https://www.youtube.com/watch?v=W68Q6zRbZ6U&list=PL00WWA9f-4c8Jhs5jc3M0lW-_TF3U4GSQ Network Analysis- https://www.youtube.com/watch?v=GBtu5lizPSY&list=PL00WWA9f-4c_10bMXg_gLkvlWLGrns4FF Digital Electronics- https://www.youtube.com/watch?v=N82C1RXwBIM&list=PL00WWA9f-4c-Xbi57DlbC6GC82pxBkL7_ Engineering Mathematics- https://www.youtube.com/watch?v=mxb2VIuVPbw&list=PL00WWA9f-4c8SYSeEuPgpMtDir1039Na6 GATE Preparation Strategy- https://www.youtube.com/watch?v=VKbdBuzmqTE&list=PL00WWA9f-4c9X9-N321nwlRpyiUO-aOEE Test Series- https://www.youtube.com/watch?v=kkPxBcehCZU&list=PL00WWA9f-4c_-_mtRYPNg3gesDysdECrV
Views: 1692 GATE CRACKERS

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