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Practical analog, digital, and embedded electronics for scientists /
This book is different to other electronics texts available. First, it is short. Created for a one-semester course taken by physics students, both undergraduate and graduate it includes only the essentials and covers those topics only as deeply as needed in order to understand the material in the in...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) :
IOP Publishing,
[2020]
|
| Colección: | IOP (Series). Release 21.
IOP ebooks. 2021 collection. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- part I. Lectures. 1. Introduction
- 1.1. Laws of the land
- 1.2. The voltage divider (You can't believe how important this is!)
- 1.3. Mr Thévenin and his amazing equivalent circuit
- 1.4. Input and output impedances
- 1.5. Error propagation
- 2. RC circuits
- 2.1. R and C
- 2.2. RC filters
- 2.3. Doing calculus with R and C
- 3. Diodes and transistors
- 3.1. Signal diodes
- 3.2. Zener diodes
- 3.3. Bipolar junction transistors
- 4. Op amps I
- 4.1. Op amp basics
- 4.2. Examples
- 5. Op amps II : non-ideal behavior and positive feedback
- 5.1. Non-ideal behavior
- 5.2. Positive feedback
- 6. Digital gates : combinational and sequential logic
- 6.1. Counting in different bases
- 6.2. Binary arithmetic
- 6.3. Gates and truth tables
- 6.4. Combining outputs
- 6.5. Sequential logic
- 6.6. Counters
- 6.7. Latches
- 6.8. Monostable multivibrators
- 7. Digital-analog, analog-digital, and phase-locked loops
- 7.1. Digital-analog conversion
- 7.2. Analog-digital conversion
- 7.3. Phase-locked loops
- 7.4. Phase-sensitive detection (lock-in amplifiers)
- 8. Embedded electronics
- 8.1. Introduction
- 8.2. Inside the Beagle
- 8.3. The pins
- 8.4. Loading a DTO
- 8.5. Configuring the general purpose input/output pins
- 8.6. Pulse width modulation (PWM)
- 8.7. Buses
- part II. Lab manual. 9. Getting started
- 9.1. Use of the lab manual
- 9.2. Maintaining a lab book
- 9.3. Use of general laboratory equipment
- 9.4. Play!
- 10. R and C
- 10.1. Low-pass filter
- 10.2. High-pass filter
- 10.3. Differentiator
- 10.4. Integrator
- 11. Transistors
- 11.1. Emitter follower
- 11.2. Input and output impedance of follower
- 11.3. Single-supply follower
- 11.4. Push-pull follower
- 11.5. Common emitter amplifier
- 11.6. Bypassed emitter amplifier
- 11.7. Current source (sink)
- 12. Op amps I
- 12.1. Open-loop test circuit
- 12.2. Inverting amplifier
- 12.3. Non-inverting amplifier
- 12.4. Follower
- 12.5. Current source
- 12.6. Summing amplifier
- 12.7. Push-pull follower
- 12.8. Integrator
- 12.9. Differentiator
- 12.10. Active rectifier
- 12.11. Improved active rectifier
- 12.12. Active clamp
- 13. Op amps II : positive feedback, good and bad
- 13.1. Comparators
- 13.2. The RC relaxation oscillator
- 13.3. RC relaxation oscillator using the 7555
- 13.4. Sine wave oscillator : Wien bridge
- 13.5. Op amp instability : phase shift can make an op amp oscillate
- 14. Digital gates : combinational and sequential logic
- 14.1. Gates and truth tables
- 14.2. Multiplexer
- 14.3. Sequential logic : JK flip-flop
- 14.4. Debouncing
- 14.5. D-type flip-flop
- 14.6. Programmable divide-by-N counter
- 15. Digital-analog, analog-digital, and phase-locked loops
- 15.1. Digital-analog conversion
- 15.2. Tracking analog-digital converter
- 15.3. Phase-locked loop : frequency multiplier
- 15.4. Phase sensitive detection : lock-in amplifiers (optional lab)
- 16. Embedded electronics, featuring the Beaglebone Black
- 16.1. Getting started
- 16.2. Input/output
- 16.3. Pulse width modulation (PWM)
- 16.4. Controlling the GPIO pins
- 16.5. Get on the bus!
- part III. Solutions to homework. 17. RC circuits
- 18. Diodes and transistors
- 19. Op amps 1
- 20. Op-amps 2
- 21. Digital gates
- 22. Digital-analog, analog-digital and phase-locked loops
- part IV. Appendices.