Raspberry Pi for Radio Amateurs
Program and build RPi-based ham station utilities, tools, and instruments
Dogan Ibrahim
Diese Publikation zitieren
Dogan Ibrahim, Raspberry Pi for Radio Amateurs (2020), Elektor, Aachen, ISBN: 9783895764059
406
Accesses
Accesses
9
Quotes
Quotes
Beschreibung / Abstract
Inhaltsverzeichnis
- BEGINN
- Preface
- CHAPTER 1 †¢ Raspberry Pi Models
- 1.1 Overview
- 1.2 Raspberry Pi 1 Model A
- 1.3 Raspberry Pi 1 Model A+
- 1.4 Raspberry Pi 1 Model B
- 1.5 Raspberry Pi 1 Model B+
- 1.6 Raspberry Pi 2 Model B
- 1.7 Raspberry Pi Zero
- 1.8 Raspberry Pi 3 Model B
- 1.9 Raspberry Pi Zero W
- 1.10 Raspberry Pi 3 Model B+
- 1.11 Raspberry Pi 4 Model B
- 1.11.1 Raspberry Pi 4 purchase and setup options
- 1.12 Summary
- Chapter 2 †¢ Installing the Operating System on Raspberry Pi
- 2.1 Overview
- 2.2 Raspbian Buster installation steps on Raspberry Pi 4
- 2.3 Using networked connection
- 2.4 Remote access
- 2.5 Using the Putty
- 2.5.1 Configuring the Putty
- 2.6 Remote access of the Desktop
- 2.7 Static IP address
- 2.8 Summary
- Chapter 3 †¢ Using the Command Line
- 3.1 Overview
- 3.2 The command prompt
- 3.3 Useful Linux commands
- 3.3.1 System and user information
- 3.3.2 The Raspberry Pi directory structure
- 3.3.3 Resource monitoring on Raspberry Pi
- 3.3.4 Shutting down
- 3.4 Summary
- CHAPTER 4 †¢ A Quick Look at the Desktop
- 4.1 Overview
- 4.2 The Desktop
- 4.3 Libre Office Writer
- 4.4 Libre Office Calc
- 4.5 VLC media player
- 4.6 Calculator
- 4.7 File Manager
- 4.8 SD Card Copier
- 4.9 Task Manager
- 4.10 Terminal
- 4.11 Help
- 4.12 Add/Remove software
- 4.13 Mouse and keyboard settings
- 4.14 Raspberry Pi configuration
- 4.15 Shutdown
- 4.16 Configuring Wi-Fi
- 4.17 Configuring Bluetooth
- 4.18 Summary
- CHAPTER 5 †¢ Raspberry Pi Program Development
- 5.1 Overview
- 5.2 The 'nano' text editor
- 5.3 Creating and running a Python program
- 5.4 Summary
- CHAPTER 6 †¢ The GPIO
- 6.1 Overview
- 6.2 The Raspberry Pi 4 GPIO connector
- 6.3 Interfacing to the GPIO
- 6.3.1 Loads requiring small currents
- 6.3.2 Loads requiring higher currents
- 6.3.3 Using relays
- 6.4 The GPIO library
- 6.4.1 Pin numbering
- 6.4.2 Channel (I/O port pin) configuration
- 6.5 The Raspberry Pi project development cycle
- 6.5.1 The hardware
- 6.5.2 The software
- 6.6 Project – Alternately flashing red and green LEDs
- 6.7 Running a program automatically at startup time
- 6.8 Scheduling a program to run at specified times
- 6.9 Summary
- CHAPTER 7 †¢ Station Mains On/Off Power Control
- 7.1 Project
- CHAPTER 8 †¢ Station Clock
- 8.1 Project
- 8.2 Real-time clock
- CHAPTER 9 †¢ Why Multitasking?
- CHAPTER 10 †¢ The Station Temperature and Humidity
- 10.1 Project
- CHAPTER 11 †¢ Station Mains On-Off Control, Station Time, and Station Weather
- CHAPTER 12 †¢ Station Geographical Coordinates
- CHAPTER 13 †¢ Waveform Generation †” Using Software
- 13.1 The MCP4921 DAC
- 13.2 Generating a squarewave signal with a peak voltage of 3.3 V
- 13.3 Generating a squarewave signal with any peak voltage
- 13.4 Generating a sawtooth-wave signal
- 13.5 Generating a triangular-wave signal
- 13.6 Generating an arbitrary-wave signal
- 13.7 Generating a sinewave signal
- CHAPTER 14 †¢ Waveform Generation – Using Hardware
- 14.1 Project: Fixed-Frequency Waveform Generator
- 14.2 Project: Keypad Frequency Entry, LCD Readout, Waveform Generator
- CHAPTER 15 †¢ Designing a Single Stage Common- Emitter Bipolar Transistor Amplifier Circuit
- 15.1 Project
- CHAPTER 16 †¢ Active Low-Pass Filter Design
- 16.1 Project
- CHAPTER 17 †¢ Morse Code Exerciser
- 17.1 Project: MCE with User-Entered Characters
- 17.2 Project: MCE sending randomly generated characters
- 17.3 Project: MCE with Rotary-Encoder WPM Setting and CD readout
- CHAPTER 18 †¢ Voltmeter – Ammeter – Ohmmeter - Capacitance Meter
- 18.1 Project: Voltmeter
- 18.2 Project: Ammeter
- 18.3 Project: Ohmmeter
- 18.4 Project: Capacitance Meter
- CHAPTER 19 †¢ Frequency Counter
- 19.1 Project: Frequency Counter
- CHAPTER 20 †¢ Raspberry Pi 4 Audio Input & Portable Power Supply
- 20.1 Raspberry Pi audio outputs
- 20.1.1 Testing
- 20.2 Using an external USB audio input-output device
- 20.2.1 Testing (1-2-3)
- 20.3 Powering the Raspberry Pi 4
- CHAPTER 21 †¢ Raspberry Pi FM Transmitter
- 21.1 Project: Raspberry Pi 4 VHF FM Transmitter
- 21.2 Project: RadioStation Click board
- CHAPTER 22 †¢ RF Power Meter
- 22.1 Project: RF Power Meter
- 22.2 RF attenuator
- 22.3 dB, dBm, and watt?
- CHAPTER 23 †¢ Raspberry Pi – Smartphone Projects
- 23.1 The MIT App Inventor
- 23.2 Setting up the MIT App Inventor
- 23.3 Project: Web Server to Control Multiple Relays
- CHAPTER 24 †¢ RTL-SDR and Raspberry Pi
- 24.1 Overview
- 24.2 Installing the RTL-SDR software on Raspberry Pi 4
- 24.3 The GQRX
- 24.4 The CubicSDR
- 24.5 RTL-SDR server
- 24.6 SimpleFM
- 24.7 ShinySDR
- 24.8 Other SDR-RTL software
- 24.9 The SDR – The big brother of RTL-SDR?
- 24.9.1 The HackRF One
- 24.9.2 The NooElec NESDR Smart HF bundle
- 24.9.3 The AirSpy HF+
- 24.9.4 The Quisk
- 24.10 Receiving Weather Fax (WEFAX)
- CHAPTER 25 †¢ Using Some of the Popular Radio Applications
- 25.1 TWCLOCK
- 25.2 Klog
- 25.3 Gpredict
- 25.4 FLDIGI
- 25.5 Direwolf
- 25.6 xcwcp
- 25.7 QSSTV
- 25.8 LinPsK
- 25.9 Ham Clock
- 25.9 CHIRP
- 25.10 Xastir
- 25.11 CQRLOG
- 25.12 What next?
- Index