PASSIVE FILTERS

PASSIVE FILTERS Prepared by Ertuğrul Eriş Reference book: Nilsson/Riedel, «Electric Cırcuıts» Updated: November 2011 Ertuğrul Eriş

FILTERS (FİLTRELER) • Input/output: sinusoidal signals • Output →frequency selective/attenuated Ertuğrul Eriş

FILTERS/TRANSFER FONCTION Ertuğrul Eriş

FILTER TYPES H(s) = V0(s) / Vi(s) Geçen band: passband Geçmeyen band: stopband Frekans cevabı eğrisi: Frequency response plot Genlik Eğrisi: magnitude plot Faz Eğrisi: phase angle plot Kesim frekansı: cutoff frequency Alçak geçiren filtre: lowpass filter Yüksek geçiren filtre: highpass filter Band geçiren filtre: bandpass filter Band geçirmeyen filtre: bandreject filter Investigation Transfer function’s module and phase is directly related to filter characteristik, Why? Ertuğrul Eriş

LOW-PASS FILTERS:RL (ALÇAK GEÇİREN FİLTRELER) Ourput: resistors voltage, What happens if it were inductor voltage? ω=0 İnductor is short-circuited Source voltage equals resistor voltage ω=∞ İnductor ope-circuit No Resister voltage Ertuğrul Eriş

CUT OFF FREQUENCY Cut off frequency, for which transfer function magnitude is decreased b y thr factor from its max value.. The average power delivered to the loaad is one half the maximum average powere. Why do we need cut off frequency? Ertuğrul Eriş

LOW-PASS FILTERS:RL Sum of inductor’s and resistors voltages constant, when one of the element’s voltage increase s the orher element’s voltage decreases ω=0 |H(jω)|=1 WHY? İdeal/practical charteristics? Ertuğrul Eriş

LOW-PASS FILTERS:RC Ertuğrul Eriş

TRANSFER FUNCTIONS FOR LOW PASS FILTERS Ertuğrul Eriş

TRANSFER FONCTION/ DECIBEL Ertuğrul Eriş

dB AND OUTPUT/INPUT RATIO Ertuğrul Eriş

LOW-PASS FILTER AMPLITUDEBODE DIAGRAM (strait line aproximation) Ertuğrul Eriş

LOW-PASS FILTERS/BODE DIAGRAM L= 1 mH R= 10KΩ C= 1 μH R= 10KΩ Ertuğrul Eriş

HIGH-PASS FILTER:RC Ourput: resistors voltage, What happens if it were capacitor voltage? ω=0 Capacitor open-circuit No Resister voltage ω=∞ capacitor is short-circuited Source voltage equals resistor voltage Ertuğrul Eriş

CUT OFF FREQUENCY Ertuğrul Eriş

HIGH-PASS FILTER:RC Sum of the inductor’s and resistors voltages constant, when one of the element’s voltage increase s the orher element’s voltage decreases Ertuğrul Eriş

HIGH-PASS FILTER:RC Ertuğrul Eriş

LOADING THE SERIES RL HIGH-PASS FILTER Pass band much like ideal but cut off frequency decreased. Ertuğrul Eriş

HIGH-PASS FILTER/ TRANSFER FUNCTION Ertuğrul Eriş

HIGH-PASS FILTER AMPLITUDE BODE DIAGRAM (strait line aproximation) 20log10ω/p1 Ertuğrul Eriş

HIGH-PASS FILTERS/ BODE DIAGRAM C= 1 μH R= 10KΩ L= 1 mH R= 10KΩ Ertuğrul Eriş

BAND-PASS FILTERS ωc1, ωc2 = kesim frekansları (cut off frequency), max |h(jω)|/ √2 ω0 = orta frekans (center frequency), = Where transfer function becomes real = Where transfer function’s amplitude becomesmax imum = resonance frequency = β = Band genişliği (Bandwidth) = ωc1- ωc2 Q = Kalite faktörü (quality factor) = ω0/ β İf two of these parameters are known then the others can be calculated. Why there are additional parameters? Ertuğrul Eriş

BAND-PASS FILTER: SERIES RLC Egative frequency has been ignored!!. Yorum: What are the differences from the previous filters? Why? What would be the ımphedance of serial LC at center frequency? İs this ideal pass-band filter? Ertuğrul Eriş

BAND-PASS FILTER AMPLITUDE BODE DIAGRAM(strait line aproximation) ω01=8 r/s→1,35 Hz ω02=118 r/s→18,9 Hz 1 r/s <ω < 10 r/s için 10 r/s <ω < 100 r/s için 100 r/s <ω < ∞ r/s için Rule: sum of induvidual log terms in different frequency bands Ertuğrul Eriş

BAND-PASS FILTER PHASEBODE DIAGRAM(strait line aproximation) Ertuğrul Eriş

BAND-PASS FILTER AMPLITUDE/PHASEBODE DIAGRAM L=100mH C=10μF R=11Ω Ertuğrul Eriş

SERIES RLC BAND-PASS FILTER SYNTHESIS Lower cutoff frequency: 1000 Hz Upper cutoff frequency: 10000 HZ L, C, R? Two parameters, three unknowns? Bir parametre seçimi : Standart capacitor values are limited, there are more standart resistor and ınductor values. Attention: Radial frequeccy in formulas but normal frequency given Solution: C = 1μF L = (1/ω02C) = 2.533 mH What shall we do, if the calculated values are not available as standart values? Ertuğrul Eriş

LOADED BAND-PASS FILTERS Yorum: Orta frekans değişmedi, Band içi genlik düzleşti, Band genişliği arttı İyi mi oldu? Neden? Çözüm? Ertuğrul Eriş

BAND-PAS FILTER: SERIES R WITH PARALLEL LC Yorum: What are the differences from the previous filters? Why? What would be the ımphedance of serial LC at center frequency? İs this ideal pass-band filter? Ertuğrul Eriş

BAND-PAS FILTER:SERIES R WITH PARALLEL LC L=1mH, C=1μF, R=0,1Ω Ertuğrul Eriş

SERIES RLC BAND-PASS FILTER SYNTHESIS Lower cutoff frequency: 5KHz Upper cutoff frequency: 200Hz L, C, R? Two parameters, three unknowns? Bir parametre seçimi : Standart capacitor values are limited, there are more standart resistor and ınductor values. Attention: Radial frequeccy in formulas but normal frequency given Solution C = 5μF R = (1/βC)= 159Ω L = (1/ω02C) = 202 μH Ertuğrul Eriş

BAND-PASS FILTER/ TRANSFER FUNCTION Ertuğrul Eriş

SERIES RLC CIRCUIT TIME AND FREQUENCY DOMAINS Ertuğrul Eriş

BAND-REJECT FILTERS Compare with band-pass filters circuits Ertuğrul Eriş

BAND-REJECT FILTERS Ertuğrul Eriş

BAND-REJECT FILTERS TRANSFER FUNCTIONS Ertuğrul Eriş

BAND-REJECT FILTERS(series LC/ BODE DIAGRAM Ertuğrul Eriş

BAND-REJECT FILTERS(parallel LC/ BODE DIAGRAM Ertuğrul Eriş

Ertuğrul Eriş

PROGRAM DESIGN DEPT, PROGRAM G R A D U A T E S T U D E N T STATE, ENTREPRENEUR STUDENT PROGRAM OUTCOMES P R OG R A M O U T C O M E S P R OG R A M O U T C O M E S FIELD QALIFICATIONS EU/NATIONAL QUALIFICATIONS KNOWLEDGE SKILLS COMPETENCES NEWCOMERSTUDENT ORIENTIATION ALUMNI, PARENTS GOVERNANCE Std. questionnaire ORIENTIATION NGO STUDENT PROFILE Std. questionnaire FACULTY STUDENT, ??? CIRCICULUM ??? INTRERNAL CONSTITUENT Std. questionnaire EXTRERNAL CONSTITUENT EXTRERNAL CONSTITUENT REQUIREMENTS EU/NATIONAL FIELD QUALIFICATIONS PROGRAM OUTCOMES QUESTIONNAIRES QUALITY IMP. TOOLS GOAL: NATIONAL/INTERNATIONAL ACCREDITION

BLOOM’S TAXONOMYANDERSON AND KRATHWOHL (2001) !!Listening !! Doesn’t exits in the original!!! http://www.learningandteaching.info/learning/bloomtax.htm Ertuğrul Eriş

ULUSAL LİSANS YETERLİLİKLER ÇERÇEVESİ BLOOMS TAXONOMY Ertuğrul Eriş

COURSE ASSESMENT MATRIX LEARNING OUTCOMES Devre Analizi İlk Ders

‘ABET’ ENGINEERING OUTCOMES Ertuğrul Eriş

PASSIVE FILTERS

PASSIVE FILTERS

Presentation Transcript

What is a filter Passive filters Some common filters

Filters

CHAPTER 6: INTRODUCTION TO PASSIVE FILTERS

Filters

Passive Bandpass and Notch Filters

FILTERS

Filters

Filters

Passive Filters and OpAmps

FILTERS

Chapter 11 Filters and Tuned Amplifiers Passive LC Filters Inductorless Filters Active-RC Filters

What is a filter Passive filters Some common filters

Filters

Chapter 11 Filters and Tuned Amplifiers Passive LC Filters Inductorless Filters Active-RC Filters

Filters

Filters

FILTERS

FILTERS

Filters

Passive Filters

FILTERS

Harmonic Mitigation in Distribution System by using Passive Filters