No. The PPTs are a supplement, not a replacement. They lack detailed derivations, end-of-chapter problems, and the explanatory prose found in the 10th edition textbook. Use both.
You can follow along with numerical problems ( ) to see how formulas are applied.
For Robert Boylestad's " Electronic Devices and Circuit Theory electronic devices and circuit theory 10th edition ppt
: Basics and practical application circuits .
The baseline of modern electronics. These slides dive straight into the behavior of intrinsic and extrinsic materials (n-type and p-type). Use both
Mastering Electronics: A Guide to Electronic Devices and Circuit Theory 10th Edition Presentations
Take the component values presented in slide examples and build them in SPICE software to verify the wave outcomes. The baseline of modern electronics
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| | Title | Key Topics | | :--- | :--- | :--- | | 1 | Semiconductor Diodes | Ideal diode, semiconductor materials, energy levels, doping | | 2 | Diode Applications | Load-line analysis, series/parallel configurations, rectifiers, clipping/clamping circuits | | 3 | Bipolar Junction Transistors (BJTs) | Transistor construction, operation, configurations (common-base, -emitter, -collector) | | 4 | DC Biasing—BJTs | Operating point, fixed-bias, emitter-bias, voltage divider-bias, collector-feedback bias | | 5 | BJT Amplifiers | Small-signal analysis, r_e transistor model, hybrid equivalent model, various configurations | | 6 | Field-Effect Transistors (FETs) | JFETs, MOSFETs, construction, operation, characteristics, parameters | | 7 | DC Biasing—FETs | Fixed-bias, self-bias, voltage-divider-bias, current-source bias | | 8 | FET Amplifiers | Small-signal model, JFET/MOSFET amplifier configurations, source-follower | | 9 | BJT and FET Frequency Response | Logarithms, decibels, low/high-frequency response, Miller effect capacitance | | 10 | Operational Amplifiers | Differential amplifier circuit, op-amp basics, parameters, offset, frequency compensation | | 11 | Op-Amp Applications | Op-amp applications (summing, integrator, differentiator), comparators | | 12 | Power Amplifiers | Class A/B/AB/C/D amplifiers, transformerless push-pull, distortion | | 13 | Linear-Digital ICs | Digital ICs (TTL, CMOS), timer IC, voltage-regulator ICs | | 14 | Feedback and Oscillator Circuits | Feedback concepts, practical feedback circuits, oscillator operation (phase-shift, Wien bridge) | | 15 | Power Supplies (Voltage Regulators) | Zener regulation, transistor regulation, switching regulators | | 16 | Other Two-Terminal Devices | Varactor diodes, Schottky diodes, tunnel diodes, photodiodes | | 17 | PNPN and Other Devices | Silicon-controlled rectifiers (SCRs), gate-turn-off switches (GTOs), diacs, triacs | | 18 | Basic Programming Concepts for Engineers | Introductory programming concepts relevant to engineering |
JFET and MOSFET (depletion and enhancement mode) characteristics, transfer curves, and biasing arrangements. 3. Operational Amplifiers (Op-Amps)
