�ݺ�ߣshows by User: WaqasAfzal2

�ݺ�ߣshows by User: WaqasAfzal2 / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: WaqasAfzal2 / Wed, 12 Jan 2022 16:43:50 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: WaqasAfzal2 Z Transform /slideshow/z-transform-250984432/250984432 1-220112164350
Z Transform]]>
Z Transform]]> Wed, 12 Jan 2022 16:43:50 GMT /slideshow/z-transform-250984432/250984432 WaqasAfzal2@slideshare.net(WaqasAfzal2) Z Transform WaqasAfzal2 Z Transform <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/1-220112164350-thumbnail.jpg?width=120&height=120&fit=bounds" /> Z Transform

Z Transform from Waqas Afzal

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0 Discrete Time Fourier Transform /slideshow/discrete-time-fourier-transform-242523884/242523884 dtft-210210101531
Why Fourier Transform General Properties & Symmetry relations Formula and steps magnitude and phase spectra Convergence Condition mean-square convergence Gibbs phenomenon Direct Delta Energy Density Spectrum ]]>
Why Fourier Transform General Properties & Symmetry relations Formula and steps magnitude and phase spectra Convergence Condition mean-square convergence Gibbs phenomenon Direct Delta Energy Density Spectrum ]]> Wed, 10 Feb 2021 10:15:30 GMT /slideshow/discrete-time-fourier-transform-242523884/242523884 WaqasAfzal2@slideshare.net(WaqasAfzal2) Discrete Time Fourier Transform WaqasAfzal2 Why Fourier Transform General Properties & Symmetry relations Formula and steps magnitude and phase spectra Convergence Condition mean-square convergence Gibbs phenomenon Direct Delta Energy Density Spectrum <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/dtft-210210101531-thumbnail.jpg?width=120&height=120&fit=bounds" /> Why Fourier Transform General Properties & Symmetry relations Formula and steps magnitude and phase spectra Convergence Condition mean-square convergence Gibbs phenomenon Direct Delta Energy Density Spectrum

Discrete Time Fourier Transform from Waqas Afzal

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0 frequency modulation /WaqasAfzal2/frequency-modulation-242523389 5-210210100853
. Types of Modulation(Analog) Phase-Frequency Relationships FM and PM basics Frequency deviation MODULATION INDEX Classification of FM Narrow Band FM (NBFM) generating a narrowband FM signal. Wide Band FM (WBFM). Carson’s Rule Generation of WBFM Average Power FM BANDWIDTH Comparing Frequency Modulation to Phase Modulation ]]>
. Types of Modulation(Analog) Phase-Frequency Relationships FM and PM basics Frequency deviation MODULATION INDEX Classification of FM Narrow Band FM (NBFM) generating a narrowband FM signal. Wide Band FM (WBFM). Carson’s Rule Generation of WBFM Average Power FM BANDWIDTH Comparing Frequency Modulation to Phase Modulation ]]> Wed, 10 Feb 2021 10:08:53 GMT /WaqasAfzal2/frequency-modulation-242523389 WaqasAfzal2@slideshare.net(WaqasAfzal2) frequency modulation WaqasAfzal2 . Types of Modulation(Analog) Phase-Frequency Relationships FM and PM basics Frequency deviation MODULATION INDEX Classification of FM Narrow Band FM (NBFM) generating a narrowband FM signal. Wide Band FM (WBFM). Carson’s Rule Generation of WBFM Average Power FM BANDWIDTH Comparing Frequency Modulation to Phase Modulation <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/5-210210100853-thumbnail.jpg?width=120&height=120&fit=bounds" /> . Types of Modulation(Analog) Phase-Frequency Relationships FM and PM basics Frequency deviation MODULATION INDEX Classification of FM Narrow Band FM (NBFM) generating a narrowband FM signal. Wide Band FM (WBFM). Carson’s Rule Generation of WBFM Average Power FM BANDWIDTH Comparing Frequency Modulation to Phase Modulation

frequency modulation from Waqas Afzal

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0 ROOT-LOCUS METHOD, Determine the root loci on the real axis /the asymptotes of the root loci/ the breakaway point. /slideshow/rootlocus-method-determine-the-root-loci-on-the-real-axis-the-asymptotes-of-the-root-loci-the-breakaway-point/242480061 1-210209155222
Angle and Magnitude Conditions Example of Root Locus Steps constructing a root-locus plot is to locate the open-loop poles and zeros in s-plane. Determine the root loci on the real axis Determine the asymptotes of the root loci Determine the breakaway point. Closed loop stability via root locus ]]>
Angle and Magnitude Conditions Example of Root Locus Steps constructing a root-locus plot is to locate the open-loop poles and zeros in s-plane. Determine the root loci on the real axis Determine the asymptotes of the root loci Determine the breakaway point. Closed loop stability via root locus ]]> Tue, 09 Feb 2021 15:52:21 GMT /slideshow/rootlocus-method-determine-the-root-loci-on-the-real-axis-the-asymptotes-of-the-root-loci-the-breakaway-point/242480061 WaqasAfzal2@slideshare.net(WaqasAfzal2) ROOT-LOCUS METHOD, Determine the root loci on the real axis /the asymptotes of the root loci/ the breakaway point. WaqasAfzal2 Angle and Magnitude Conditions Example of Root Locus Steps constructing a root-locus plot is to locate the open-loop poles and zeros in s-plane. Determine the root loci on the real axis Determine the asymptotes of the root loci Determine the breakaway point. Closed loop stability via root locus <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/1-210209155222-thumbnail.jpg?width=120&height=120&fit=bounds" /> Angle and Magnitude Conditions Example of Root Locus Steps constructing a root-locus plot is to locate the open-loop poles and zeros in s-plane. Determine the root loci on the real axis Determine the asymptotes of the root loci Determine the breakaway point. Closed loop stability via root locus

ROOT-LOCUS METHOD, Determine the root loci on the real axis /the asymptotes of the root loci/ the breakaway point. from Waqas Afzal

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0 Matrices ,Basics, Determinant, Inverse, EigenValues, Linear Equations, RANK /slideshow/matrices-basics-determinant-inverse-eigenvalues-linear-equations-rank/242370840 1-matrices-210206152516
Basics Types Operations Multiplication Determinant Inverse Eigen Values Linear Equations RANK ]]>
Basics Types Operations Multiplication Determinant Inverse Eigen Values Linear Equations RANK ]]> Sat, 06 Feb 2021 15:25:16 GMT /slideshow/matrices-basics-determinant-inverse-eigenvalues-linear-equations-rank/242370840 WaqasAfzal2@slideshare.net(WaqasAfzal2) Matrices ,Basics, Determinant, Inverse, EigenValues, Linear Equations, RANK WaqasAfzal2 Basics Types Operations Multiplication Determinant Inverse Eigen Values Linear Equations RANK <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/1-matrices-210206152516-thumbnail.jpg?width=120&height=120&fit=bounds" /> Basics Types Operations Multiplication Determinant Inverse Eigen Values Linear Equations RANK

Matrices ,Basics, Determinant, Inverse, EigenValues, Linear Equations, RANK from Waqas Afzal

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Programmable Logic Controller | Ladder Logic diagrams| Block diagram | I/O Module | Programming from Waqas Afzal

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0 time domain analysis, Rise Time, Delay time, Damping Ratio, Overshoot, Settling Time Calculations /slideshow/time-domain-analysis-rise-time-delay-time-damping-ratio-overshoot-settling-time-calculations/242201561 15-210203080515
Time Response- Transient, Steady State Standard Test Signals- U(t), S(t), R(t) Analysis of First order system - for Step input Analysis of second order system -for Step input Time Response Specifications- Rise Time, Delay time, Damping Ratio, Overshoot, Settling Time Calculations]]>
Time Response- Transient, Steady State Standard Test Signals- U(t), S(t), R(t) Analysis of First order system - for Step input Analysis of second order system -for Step input Time Response Specifications- Rise Time, Delay time, Damping Ratio, Overshoot, Settling Time Calculations]]> Wed, 03 Feb 2021 08:05:14 GMT /slideshow/time-domain-analysis-rise-time-delay-time-damping-ratio-overshoot-settling-time-calculations/242201561 WaqasAfzal2@slideshare.net(WaqasAfzal2) time domain analysis, Rise Time, Delay time, Damping Ratio, Overshoot, Settling Time Calculations WaqasAfzal2 Time Response- Transient, Steady State Standard Test Signals- U(t), S(t), R(t) Analysis of First order system - for Step input Analysis of second order system -for Step input Time Response Specifications- Rise Time, Delay time, Damping Ratio, Overshoot, Settling Time Calculations <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/15-210203080515-thumbnail.jpg?width=120&height=120&fit=bounds" /> Time Response- Transient, Steady State Standard Test Signals- U(t), S(t), R(t) Analysis of First order system - for Step input Analysis of second order system -for Step input Time Response Specifications- Rise Time, Delay time, Damping Ratio, Overshoot, Settling Time Calculations

time domain analysis, Rise Time, Delay time, Damping Ratio, Overshoot, Settling Time Calculations from Waqas Afzal

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0 state space representation,State Space Model Controllability and Observability Derive Transfer Function from State Space Equation Time Response and State Transition Matrix Eigen Value /slideshow/state-space-representationstate-space-model-controllability-and-observability-derive-transfer-function-from-state-space-equation-time-response-and-state-transition-matrix-eigen-value/242201560 16-210203080515
State Variables of a Dynamical System State Variable Equation Why State space approach Block Diagram Representation Of State Space Model Controllability and Observability Derive Transfer Function from State Space Equation Time Response and State Transition Matrix Eigen Value ]]>
State Variables of a Dynamical System State Variable Equation Why State space approach Block Diagram Representation Of State Space Model Controllability and Observability Derive Transfer Function from State Space Equation Time Response and State Transition Matrix Eigen Value ]]> Wed, 03 Feb 2021 08:05:13 GMT /slideshow/state-space-representationstate-space-model-controllability-and-observability-derive-transfer-function-from-state-space-equation-time-response-and-state-transition-matrix-eigen-value/242201560 WaqasAfzal2@slideshare.net(WaqasAfzal2) state space representation,State Space Model Controllability and Observability Derive Transfer Function from State Space Equation Time Response and State Transition Matrix Eigen Value WaqasAfzal2 State Variables of a Dynamical System State Variable Equation Why State space approach Block Diagram Representation Of State Space Model Controllability and Observability Derive Transfer Function from State Space Equation Time Response and State Transition Matrix Eigen Value <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/16-210203080515-thumbnail.jpg?width=120&height=120&fit=bounds" /> State Variables of a Dynamical System State Variable Equation Why State space approach Block Diagram Representation Of State Space Model Controllability and Observability Derive Transfer Function from State Space Equation Time Response and State Transition Matrix Eigen Value

state space representation,State Space Model Controllability and Observability Derive Transfer Function from State Space Equation Time Response and State Transition Matrix Eigen Value from Waqas Afzal

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0 PID controller, P, I and D control Comparison PI, PD and PID Controller P, I, D, PI, PD, PID using OP-AMP The Characteristics of P, I, and D controllers /slideshow/pid-controller-p-i-and-d-control-comparison-pi-pd-and-pid-controller-p-i-d-pi-pd-pid-using-opamp-the-characteristics-of-p-i-and-d-controllers/242201436 14-210203080328
P, I and D control Comparison PI, PD and PID Controller P, I, D, PI, PD, PID using OP-AMP The Characteristics of P, I, and D controllers ]]>
P, I and D control Comparison PI, PD and PID Controller P, I, D, PI, PD, PID using OP-AMP The Characteristics of P, I, and D controllers ]]> Wed, 03 Feb 2021 08:03:28 GMT /slideshow/pid-controller-p-i-and-d-control-comparison-pi-pd-and-pid-controller-p-i-d-pi-pd-pid-using-opamp-the-characteristics-of-p-i-and-d-controllers/242201436 WaqasAfzal2@slideshare.net(WaqasAfzal2) PID controller, P, I and D control Comparison PI, PD and PID Controller P, I, D, PI, PD, PID using OP-AMP The Characteristics of P, I, and D controllers WaqasAfzal2 P, I and D control Comparison PI, PD and PID Controller P, I, D, PI, PD, PID using OP-AMP The Characteristics of P, I, and D controllers <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/14-210203080328-thumbnail.jpg?width=120&height=120&fit=bounds" /> P, I and D control Comparison PI, PD and PID Controller P, I, D, PI, PD, PID using OP-AMP The Characteristics of P, I, and D controllers

PID controller, P, I and D control Comparison PI, PD and PID Controller P, I, D, PI, PD, PID using OP-AMP The Characteristics of P, I, and D controllers from Waqas Afzal

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0 modeling of system electronics, Operational Amplifier Basics Solved Examples Lead, Lag Compensation PID Controller /slideshow/modeling-of-system-electronics-operational-amplifier-basics-solved-examples-lead-lag-compensation-pid-controller/242201274 13-210203080120
Operational Amplifier Basics Solved Examples Lead, Lag Compensation PID Controller ]]>
Operational Amplifier Basics Solved Examples Lead, Lag Compensation PID Controller ]]> Wed, 03 Feb 2021 08:01:19 GMT /slideshow/modeling-of-system-electronics-operational-amplifier-basics-solved-examples-lead-lag-compensation-pid-controller/242201274 WaqasAfzal2@slideshare.net(WaqasAfzal2) modeling of system electronics, Operational Amplifier Basics Solved Examples Lead, Lag Compensation PID Controller WaqasAfzal2 Operational Amplifier Basics Solved Examples Lead, Lag Compensation PID Controller <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/13-210203080120-thumbnail.jpg?width=120&height=120&fit=bounds" /> Operational Amplifier Basics Solved Examples Lead, Lag Compensation PID Controller

modeling of system electronics, Operational Amplifier Basics Solved Examples Lead, Lag Compensation PID Controller from Waqas Afzal

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0 modeling of system electromechanical, Armature Controlled D.C Motor -Reduced Order Field Controlled D.C Motor /slideshow/modeling-of-system-electromechanical-armature-controlled-dc-motor-reduced-order-field-controlled-dc-motor/242201225 12-210203080042
Armature Controlled D.C Motor -Reduced Order Field Controlled D.C Motor ]]>
Armature Controlled D.C Motor -Reduced Order Field Controlled D.C Motor ]]> Wed, 03 Feb 2021 08:00:42 GMT /slideshow/modeling-of-system-electromechanical-armature-controlled-dc-motor-reduced-order-field-controlled-dc-motor/242201225 WaqasAfzal2@slideshare.net(WaqasAfzal2) modeling of system electromechanical, Armature Controlled D.C Motor -Reduced Order Field Controlled D.C Motor WaqasAfzal2 Armature Controlled D.C Motor -Reduced Order Field Controlled D.C Motor <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/12-210203080042-thumbnail.jpg?width=120&height=120&fit=bounds" /> Armature Controlled D.C Motor -Reduced Order Field Controlled D.C Motor

modeling of system electromechanical, Armature Controlled D.C Motor -Reduced Order Field Controlled D.C Motor from Waqas Afzal

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0 modeling of system rotational, Basic Elements Modeling-Spring(K), Damper(D), Inertia(J) Solved Examples with KDJ Gear Ratio /slideshow/modeling-of-system-rotational-basic-elements-modelingspringk-damperd-inertiaj-solved-examples-with-kdj-gear-ratio/242201135 11-210203075926
Basic Elements Modeling-Spring(K), Damper(D), Inertia(J) Solved Examples with KDJ Gear Ratio ]]>
Basic Elements Modeling-Spring(K), Damper(D), Inertia(J) Solved Examples with KDJ Gear Ratio ]]> Wed, 03 Feb 2021 07:59:26 GMT /slideshow/modeling-of-system-rotational-basic-elements-modelingspringk-damperd-inertiaj-solved-examples-with-kdj-gear-ratio/242201135 WaqasAfzal2@slideshare.net(WaqasAfzal2) modeling of system rotational, Basic Elements Modeling-Spring(K), Damper(D), Inertia(J) Solved Examples with KDJ Gear Ratio WaqasAfzal2 Basic Elements Modeling-Spring(K), Damper(D), Inertia(J) Solved Examples with KDJ Gear Ratio <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/11-210203075926-thumbnail.jpg?width=120&height=120&fit=bounds" /> Basic Elements Modeling-Spring(K), Damper(D), Inertia(J) Solved Examples with KDJ Gear Ratio

modeling of system rotational, Basic Elements Modeling-Spring(K), Damper(D), Inertia(J) Solved Examples with KDJ Gear Ratio from Waqas Afzal

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0 modeling of MECHANICAL system (translational), Basic Elements Modeling-Spring(K), Damper(D), Mass(M) Solved Examples with KDM /slideshow/10-modeling-of-system-translational-basic-elements-modelingspringk-damperd-massm-solved-examples-with-kdm/242201092 10-210203075851
Basic Elements Modeling-Spring(K), Damper(D), Mass(M) Solved Examples with KDM ]]>
Basic Elements Modeling-Spring(K), Damper(D), Mass(M) Solved Examples with KDM ]]> Wed, 03 Feb 2021 07:58:51 GMT /slideshow/10-modeling-of-system-translational-basic-elements-modelingspringk-damperd-massm-solved-examples-with-kdm/242201092 WaqasAfzal2@slideshare.net(WaqasAfzal2) modeling of MECHANICAL system (translational), Basic Elements Modeling-Spring(K), Damper(D), Mass(M) Solved Examples with KDM WaqasAfzal2 Basic Elements Modeling-Spring(K), Damper(D), Mass(M) Solved Examples with KDM <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/10-210203075851-thumbnail.jpg?width=120&height=120&fit=bounds" /> Basic Elements Modeling-Spring(K), Damper(D), Mass(M) Solved Examples with KDM

modeling of MECHANICAL system (translational), Basic Elements Modeling-Spring(K), Damper(D), Mass(M) Solved Examples with KDM from Waqas Afzal

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0 modeling of system electrical, Basic Elements Modeling-R,L,C Solved Examples with RLC circuit L, C Modeling with Non-Zero Initial condition /slideshow/modeling-of-system-electrical-basic-elements-modelingrlc-solved-examples-with-rlc-circuit-l-c-modeling-with-nonzero-initial-condition/242201002 9-210203075738
Basic Elements Modeling-R,L,C Solved Examples with RLC circuit L, C Modeling with Non-Zero Initial condition ]]>
Basic Elements Modeling-R,L,C Solved Examples with RLC circuit L, C Modeling with Non-Zero Initial condition ]]> Wed, 03 Feb 2021 07:57:38 GMT /slideshow/modeling-of-system-electrical-basic-elements-modelingrlc-solved-examples-with-rlc-circuit-l-c-modeling-with-nonzero-initial-condition/242201002 WaqasAfzal2@slideshare.net(WaqasAfzal2) modeling of system electrical, Basic Elements Modeling-R,L,C Solved Examples with RLC circuit L, C Modeling with Non-Zero Initial condition WaqasAfzal2 Basic Elements Modeling-R,L,C Solved Examples with RLC circuit L, C Modeling with Non-Zero Initial condition <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/9-210203075738-thumbnail.jpg?width=120&height=120&fit=bounds" /> Basic Elements Modeling-R,L,C Solved Examples with RLC circuit L, C Modeling with Non-Zero Initial condition

modeling of system electrical, Basic Elements Modeling-R,L,C Solved Examples with RLC circuit L, C Modeling with Non-Zero Initial condition from Waqas Afzal

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0 introduction to modeling, Types of Models, Classification of mathematical models, Black box, white box, Gray box /slideshow/introduction-to-modeling-types-of-models-classification-of-mathematical-models-black-box-white-box-gray-box/242200896 8-210203075608
Types of Systems Ways to study system Model Types of Models Why Mathematical Model Classification of mathematical models Black box, white box, Gray box Lumped systems Dynamic Systems Simulation ]]>
Types of Systems Ways to study system Model Types of Models Why Mathematical Model Classification of mathematical models Black box, white box, Gray box Lumped systems Dynamic Systems Simulation ]]> Wed, 03 Feb 2021 07:56:08 GMT /slideshow/introduction-to-modeling-types-of-models-classification-of-mathematical-models-black-box-white-box-gray-box/242200896 WaqasAfzal2@slideshare.net(WaqasAfzal2) introduction to modeling, Types of Models, Classification of mathematical models, Black box, white box, Gray box WaqasAfzal2 Types of Systems Ways to study system Model Types of Models Why Mathematical Model Classification of mathematical models Black box, white box, Gray box Lumped systems Dynamic Systems Simulation <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/8-210203075608-thumbnail.jpg?width=120&height=120&fit=bounds" /> Types of Systems Ways to study system Model Types of Models Why Mathematical Model Classification of mathematical models Black box, white box, Gray box Lumped systems Dynamic Systems Simulation

introduction to modeling, Types of Models, Classification of mathematical models, Black box, white box, Gray box from Waqas Afzal

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0 laplace transform and inverse laplace, properties, Inverse Laplace Calculations -by identification -Partial fraction Solution of Ordinary differential using Laplace and inverse Laplace /slideshow/laplace-transform-and-inverse-laplace-properties-inverse-laplace-calculations-by-identification-partial-fraction-solution-of-ordinary-differential-using-laplace-and-inverse-laplace/242200428 5-210203074953
Laplace Transform -Proof of common function -properties -Initial Value and Final Value Problems Inverse Laplace Calculations -by identification -Partial fraction Solution of Ordinary differential using Laplace and inverse Laplace ]]>
Laplace Transform -Proof of common function -properties -Initial Value and Final Value Problems Inverse Laplace Calculations -by identification -Partial fraction Solution of Ordinary differential using Laplace and inverse Laplace ]]> Wed, 03 Feb 2021 07:49:53 GMT /slideshow/laplace-transform-and-inverse-laplace-properties-inverse-laplace-calculations-by-identification-partial-fraction-solution-of-ordinary-differential-using-laplace-and-inverse-laplace/242200428 WaqasAfzal2@slideshare.net(WaqasAfzal2) laplace transform and inverse laplace, properties, Inverse Laplace Calculations -by identification -Partial fraction Solution of Ordinary differential using Laplace and inverse Laplace WaqasAfzal2 Laplace Transform -Proof of common function -properties -Initial Value and Final Value Problems Inverse Laplace Calculations -by identification -Partial fraction Solution of Ordinary differential using Laplace and inverse Laplace <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/5-210203074953-thumbnail.jpg?width=120&height=120&fit=bounds" /> Laplace Transform -Proof of common function -properties -Initial Value and Final Value Problems Inverse Laplace Calculations -by identification -Partial fraction Solution of Ordinary differential using Laplace and inverse Laplace

laplace transform and inverse laplace, properties, Inverse Laplace Calculations -by identification -Partial fraction Solution of Ordinary differential using Laplace and inverse Laplace from Waqas Afzal

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0 Transfer Function, Concepts of stability(critical, Absolute & Relative) Poles, Zeros Stability calculation, BIBO stability, Transient Response Characteristics /slideshow/transfer-function-concepts-of-stabilitycritical-absolute-relative-poles-zeros-stability-calculation-bibo-stability-transient-response-characteristics/242160604 6-210202121302
Transfer Function The Order of Control Systems Concepts of stability(critical, Absolute & Relative) Poles, Zeros Stability calculation BIBO stability Transient Response Characteristics]]>
Transfer Function The Order of Control Systems Concepts of stability(critical, Absolute & Relative) Poles, Zeros Stability calculation BIBO stability Transient Response Characteristics]]> Tue, 02 Feb 2021 12:13:02 GMT /slideshow/transfer-function-concepts-of-stabilitycritical-absolute-relative-poles-zeros-stability-calculation-bibo-stability-transient-response-characteristics/242160604 WaqasAfzal2@slideshare.net(WaqasAfzal2) Transfer Function, Concepts of stability(critical, Absolute & Relative) Poles, Zeros Stability calculation, BIBO stability, Transient Response Characteristics WaqasAfzal2 Transfer Function The Order of Control Systems Concepts of stability(critical, Absolute & Relative) Poles, Zeros Stability calculation BIBO stability Transient Response Characteristics <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/6-210202121302-thumbnail.jpg?width=120&height=120&fit=bounds" /> Transfer Function The Order of Control Systems Concepts of stability(critical, Absolute & Relative) Poles, Zeros Stability calculation BIBO stability Transient Response Characteristics

Transfer Function, Concepts of stability(critical, Absolute & Relative) Poles, Zeros Stability calculation, BIBO stability, Transient Response Characteristics from Waqas Afzal

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0 Signal Flow Graph, SFG and Mason Gain Formula, Example solved with Masson Gain Formula /slideshow/signal-flow-graph-sfg-and-mason-gain-formula-example-solved-with-masson-gain-formula/242160513 4-210202121104
Basic Properties of SFG Definitions of SFG Terms SFG Algebra Relation between SFG and block diagram Mason Gain Formula Example solved with Masson Gain Formula ]]>
Basic Properties of SFG Definitions of SFG Terms SFG Algebra Relation between SFG and block diagram Mason Gain Formula Example solved with Masson Gain Formula ]]> Tue, 02 Feb 2021 12:11:03 GMT /slideshow/signal-flow-graph-sfg-and-mason-gain-formula-example-solved-with-masson-gain-formula/242160513 WaqasAfzal2@slideshare.net(WaqasAfzal2) Signal Flow Graph, SFG and Mason Gain Formula, Example solved with Masson Gain Formula WaqasAfzal2 Basic Properties of SFG Definitions of SFG Terms SFG Algebra Relation between SFG and block diagram Mason Gain Formula Example solved with Masson Gain Formula <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/4-210202121104-thumbnail.jpg?width=120&height=120&fit=bounds" /> Basic Properties of SFG Definitions of SFG Terms SFG Algebra Relation between SFG and block diagram Mason Gain Formula Example solved with Masson Gain Formula

Signal Flow Graph, SFG and Mason Gain Formula, Example solved with Masson Gain Formula from Waqas Afzal

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0 block diagram reduction with examples /slideshow/block-diagram-reduction-with-examples/242160444 3-210202120938
block diagram reduction with examples]]>
block diagram reduction with examples]]> Tue, 02 Feb 2021 12:09:38 GMT /slideshow/block-diagram-reduction-with-examples/242160444 WaqasAfzal2@slideshare.net(WaqasAfzal2) block diagram reduction with examples WaqasAfzal2 block diagram reduction with examples <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/3-210202120938-thumbnail.jpg?width=120&height=120&fit=bounds" /> block diagram reduction with examples

block diagram reduction with examples from Waqas Afzal

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0 Block diagram, Transfer Function from block diagram reduction, (8 Rules to reduce block diagrams) /slideshow/block-diagram-transfer-function-from-block-diagram-reduction-8-rules-to-reduce-block-diagrams/242160314 2-210202120701
Need of Block diagram Transfer Function from block diagram How to reduce Block diagram (8 Rules to reduce block diagrams) ]]>
Need of Block diagram Transfer Function from block diagram How to reduce Block diagram (8 Rules to reduce block diagrams) ]]> Tue, 02 Feb 2021 12:07:01 GMT /slideshow/block-diagram-transfer-function-from-block-diagram-reduction-8-rules-to-reduce-block-diagrams/242160314 WaqasAfzal2@slideshare.net(WaqasAfzal2) Block diagram, Transfer Function from block diagram reduction, (8 Rules to reduce block diagrams) WaqasAfzal2 Need of Block diagram Transfer Function from block diagram How to reduce Block diagram (8 Rules to reduce block diagrams) <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-210202120701-thumbnail.jpg?width=120&height=120&fit=bounds" /> Need of Block diagram Transfer Function from block diagram How to reduce Block diagram (8 Rules to reduce block diagrams)

Block diagram, Transfer Function from block diagram reduction, (8 Rules to reduce block diagrams) from Waqas Afzal

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0 https://cdn.slidesharecdn.com/profile-photo-WaqasAfzal2-48x48.jpg?cb=1690806870 https://www.facebook.com/waqas.afzal.awan?_rdr=p https://cdn.slidesharecdn.com/ss_thumbnails/1-220112164350-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/z-transform-250984432/250984432 Z Transform https://cdn.slidesharecdn.com/ss_thumbnails/dtft-210210101531-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/discrete-time-fourier-transform-242523884/242523884 Discrete Time Fourier ... https://cdn.slidesharecdn.com/ss_thumbnails/5-210210100853-thumbnail.jpg?width=320&height=320&fit=bounds WaqasAfzal2/frequency-modulation-242523389 frequency modulation