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PWM - Pulse Width Modulation (Basics, Circuit, Working, & Waveforms) Explained
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PWM - Pulse Width Modulation (Basics, Circuit, Working, & Waveforms) Explained

Introduction to Pulse Width Modulation

Overview of PWM Functionality

  • The session introduces the concept of pulse width modulation (PWM) and its significance in digital communication.
  • It explains how a PWM circuit operates, utilizing a modulating signal to generate varying pulse widths at the output.
  • A comparator is used in the circuit to compare the modulating signal with a generated waveform, determining voltage outputs based on their relationship.

Understanding Voltage Outputs

  • If the modulating signal (Hp) exceeds the generated waveform (Ct), a positive voltage is produced; conversely, if Hp is less than Ct, a negative voltage results.
  • The relationship between these signals is crucial for generating PWM outputs, which are illustrated through waveforms.

Waveform Analysis

Trajectory Tracing in Waveforms

  • The speaker discusses tracing trajectories within waveforms to visualize when Hp is greater or less than Ct.
  • Positive output occurs when Hp surpasses Ct during specific intervals; negative output arises when Ct exceeds Hp.

Repetition of Output Patterns

  • This pattern of alternating positive and negative outputs continues throughout the waveform, creating a pulse width-modulated effect.
  • The characteristics of PWM are highlighted: wider positive pulses indicate stronger modulating signals while narrower ones suggest weaker signals.

Advanced Concepts in PWM

Reference Adjustments in Output

  • In certain scenarios, if Hp falls below Ct, instead of producing negative voltage, an output of zero can be achieved by modifying circuit components.

Clamping Circuit Integration

  • Introducing a clamper circuit allows for adjustments that ensure outputs remain relative to zero voltage rather than dipping into negatives.
  • This modification leads to clearer representation of actual voltage signals based on input conditions and enhances understanding of PWM generation.

Conclusion and Future Topics

Transitioning to Pulse Position Modulation

Video description

PWM - Pulse Width Modulation is explained by the following outlines: 0. PWM - Pulse Width Modulation 1. Basics of PWM - Pulse Width Modulation 2. Circuit of PWM - Pulse Width Modulation 3. Working of PWM - Pulse Width Modulation 4. Waveforms of PWM - Pulse Width Modulation Chapter-wise detailed Syllabus of the Digital Communication Course is as follows: Chapter-1 Basics of Digital Communication System: https://www.youtube.com/playlist?list=PLgwJf8NK-2e5WWxF6WWC471kl308Xurva Block Diagram of Digital communication system, Advantages, and disadvantages of digital communication system, Scrambling, Regenerative Repeater, Eye Diagram, Attention of signal, Bit rate and Baud rate. Chapter-2 Digital Modulation Techniques: https://www.youtube.com/playlist?list=PLgwJf8NK-2e5R8EVN7tqosjkHttF727iJ Amplitude Shift Keying ASK, Frequency Shift Keying FSK, Phase Shift Keying PSK, Differential Phase Shift keying DPSK, Quadrature Phase Shift Keying QPSK, Binary Phase Shift Keying BPSK, M array Frequency Shift Keying MFSK, Quadrature Amplitude Modulation QAM, Comparison of QAM and PSK. Chapter-3 Pulse Digital Modulation: https://www.youtube.com/playlist?list=PLgwJf8NK-2e6UUsXl-D79KuepPFYEnZnH Sampling, Aliasing, Nyquist rate, Types of sampling, Performance comparison of sampling, PWM - Pulse width modulation, PPM - Pulse Position modulation, Performance comparison of PAM, PWM and PPM, Quantization and its parameters, SNR of Quantization, Uniform Quantization, Pulse Code Modulation PCM, Nonuniform Quantization, Companding basics, A law and Mu law for Nonuniform quantization, Differential Pulse Code Modulation DPCM, Delta Modulation DM, Adaptive Delta Modulation ADM. Chapter-4 Multiple Access Techniques: https://www.youtube.com/playlist?list=PLgwJf8NK-2e6veA65G6PT6hIfS1zxiKiM Examples on TDM, Examples on T1 carrier system. Chapter-5 Line Coding Techniques: https://www.youtube.com/playlist?list=PLgwJf8NK-2e6WF7zBQyPy7tQCVuE8DIjg Basic of Line Coding Techniques, Pulse shaping techniques, NRZ, RZ & Manchester coding, PSD of NRZ unipolar line coding scheme, PSD of NRZ polar line coding scheme, PSD of NRZ bipolar line coding scheme, PSD of Manchester polar line coding scheme, Comparison of Unipolar, Polar, Bipolar and Manchester Line coding scheme. Chapter-6 Information theory: https://www.youtube.com/playlist?list=PLgwJf8NK-2e5oBBXubqVMiPQPSNMF4Zgz Basics of Information, Basics of Entropy, Shannon Fano Encoding, Huffman Coding, Lempel Ziv Coding, Shannon Hartley theorem, basics of probability, Random variables, Cumulative distribution function CDF, Probability Density function PDF. Chapter-7 Error detection and error correction codes: https://www.youtube.com/playlist?list=PLgwJf8NK-2e4CIG385dyc8-IIgFPG1NwY Block Codes, Hamming Codes, Linear Block Codes, Cyclic Codes, Convolutional Codes, Code Trellis, Viterbi Algorithm, Block Codes for single parity checks, Block Codes for product codes, Block Codes for Repetition codes, Cyclic codes for a systematic codeword, Cyclic codes for nonsystematic codeword. Chapter-8 Spread Spectrum Modulation: https://www.youtube.com/playlist?list=PLgwJf8NK-2e42BGGmCZVL7nT2L9Js0ngC Basics of Spread Spectrum Modulation, Frequency Hoping Spread Spectrum FHSS, Direct Sequence Spread Spectrum DSSS. Engineering Funda channel is all about Engineering, Technology, and Science. This video is a part of Digital communication. #PulseWidthModulation #PWM #DigitalCommunication @EngineeringFunda