Wellys Dev

    • Frequently Asked Questions
    • Frequently Found Errors
    • Example Code
    • Why This Is Worth It
    • Raspberry Pi and VS Code Remote Setup (Trixie)
    • Raspberry Pi and VS Code Setup: Developing Remotely
    • Raspberry Pi and VS Code Setup Serial Communication
    • Setup Introduction
    • Raspberry Pi and VS Code Setup Bookworm (DEPRECATED)
    • Linux Setup (Advanced)
    • macOS Setup (Advanced)
    • Windows/WSL Setup (Deprecated)
    • Windows 10 Setup (Advanced)
    • Using git
    • Edit
    • Build
    • Upload
    • AVRC Library Functions
    • Using a Serial Monitor
    • Functions - Serial input/output
    • Function - analogWrite()
    • Function - digitalWrite()
    • Function - pinMode()
    • Function - digitalRead()
    • Struct - buttons[]
    • Function - analogRead()
    • Hints
    • Mapping Values
    • Using Data Types and Math
    • Marking Time and Measuring Time
    • User Functions
    • Multi-tasking the Arduino - Part 1
    • Function - tone()
    • Using PROGMEM
    • structures
    • Code vs. Cost
    • Pointers
    • Servos
    • I/O Ports
    • Make, Makefile and env.make
    • Better Serial Input
    • Using the GNU Linker to Enhance printf()
    • Serial Applications for Embedded Development
    • A Second Serial Port
    • Buffer Overflow
    • AVR Datasheet Note: Blink
    • AVR Datasheet Note: PWM
    • AVR Datasheet Note: analogWrite
    • Comparison of Languages
    • AVR-gcc Note: Simple Project
    • Using the Standard C Framework
    • Writing Multitasking Programs
    • Using Makefiles to Automate Development
    • PRNG, FSM and more!
    • GCC 12 AVR array subscript error
    • Hardware Debug: Using gdb to debug
    • Hardware Debug: Setup Bloom and gdb to Debug
    • Hardware Debug: Examples of Bloom with gdb to Debug
    • Hardware Debug: Hints on Solving Issues Bloom and gdb
    • Hardware Debug: Exploring the ATmega328PB Xplained Mini
    • Hardware Debug: Command and Configuration Reference for Bloom and gdb
    • Arduino Resources page
    • Developing in C on the RP2040: Read First
    • Developing in C on the RP2040: Linux
    • Developing in C on the RP2040: macOS
    • Developing in C on the RP2040: Windows
    • Developing in C on the RP2040: Using gdb - Setup
    • Developing in C on the RP2040: Using gdb - Hints
    • Developing in C on the RP2040: New Project
    • Developing in C on the RP2040: Exploring Blink
    • Introduction
    • Installation and Calibration
    • Software Bug
    • DC Sweep
    • AC Signal Analysis
    • Programmable Bias and Gain
    • Filters
    • Understand Your Test Equipment
    • Testing the ESP32 and MicroPython
    • Testing the RP2040 and MicroPython
    • Analyzing Circuits Using the Espotek Labrador: Measuring Servo Control
    • Comparing the Labrador
    • Op Amp Resources
    • Designing an Inverting Amplifier with Bias
    • Testing MicroPython with the Labrador: PWM
    • FlashForth: Simple Setup
    • FlashForth: blink
    • Flashforth: Working with the Uno
    • FlashForth: Understanding the ATmega328P PWM
    • FlashForth: Datasheets
    • FlashForth: Compile a New Version
    • FlashForth: Arduino HAL
    • FlashForth: Using the Three Values of Forth
    • FlashForth: Execution Speed
    • FlashForth: Debouncing Buttons
    • Mecrisp-Stellaris Forth: On the RP2040
    • Mecrisp-Stellaris Forth: Creating a New UF2
    • Mecrisp-Stellaris Forth: An IDE for the RP2040
    • Mecrisp-Stellaris Forth: RP2040 and Pin Testing
    • Mecrisp-Stellaris Forth: Notes
    • Mecrisp-Stellaris Forth: Dictionary 0
    • Why Forth
    • Comparing Board and Language Speeds
    • Which Forth?
    • Forth Resources
    • ESPForth
    • ESPForth Part 2
    • ESPForth 7.0
    • RP2040 MicroPython: Getting Started
    • RP2040 MicroPython: Developing Applications
    • RP2040 MicroPython: Making a Wireless Connection
    • RP2040 MicroPython: mpremote
    • RP2040 MicroPython: Making a Web Server
    • Making a WebServer with WebSockets
    • RP2040 MicroPython Coding Setup
    • Introducing Adafruit Feather RP2040
    • RP2040 Blink Continued
    • Comparing Board and Language Speeds
    • Debugging
    • CircuitPython for the FIDI Part 2
    • CircuitPython for the FIDI Part 1
    • RP2040 MicroPython: Onboard Shell
    • Introduction
    • Debug Setup
    • gdb Resources
    • ESP32: Using arduino-cli
    • ESP32: Solving Issues with Arduino Development
    • ESP32: Using a modular approach
    • ESP32: Automation
    • ESP32 MicroPython Coding Setup
    • ESP32 Oscilloscope
    • MicroPython
    • Arduino: Reloading Bootloaders on the Uno and the 32U4
    • Using Arduino on the RP2040: Notes
    • Using Arduino on the RP2040: I2C
    • PinTest
    • Embedded Ada on an AVR Microcontroller: Introduction
    • Working with GitHub and Sensors: dataLogger
    • Setup a Raspberry Pi as a Apache/PHP/SQLite Server
    • Git: Beginning to Use It (ESP32)
    • Julia Notes
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  • About

Analyzing Circuits Using the Espotek Labrador

  • Entries

Analyzing Circuits Using the Espotek Labrador

Calendar March 1, 2021
Labrador, Content

A short course which introduces the Espotek Labrador and how to use it in analyzing circuits.

Entries#

  1. Introduction
  2. Installation and Calibration
  3. Software Bug
  4. DC Sweep
  5. AC Signal Analysis
  6. Programmable Bias and Gain
  7. Filters
  8. Understand Your Test Equipment
  9. Testing the ESP32 and MicroPython
  10. Testing the RP2040 and MicroPython
Backward Forth
Wellys Dev - Lief Koepsel
  • Entries