Search results for "logic OR probe OR 140410 OR 1"

PC USB Logic Analyzers with Arduino, Raspberry Pi, and Co. Step-by-step instructions guide you through the analysis of modern protocols such as I²C, SPI, UART, RS-232, NeoPixel, WS28xx, HD44780 and 1-Wire protocols. With the help of numerous experimental circuits based on the Raspberry Pi Pico, Arduino Uno and the Bus Pirate, you will learn the practical application of popular USB logic analyzers. All the experimental circuits presented in this book have been fully tested and are fully functional. The necessary program listings are included – no special programming or electronics knowledge is required for these circuits. The programming languages used are MicroPython and C along with the development environments Thonny and Arduino IDE. This book uses several models of flexible and widely available USB logic analyzers and shows the strengths and weaknesses of each price range. You will learn about the criteria that matter for your work and be able to find the right device for you. Whether Arduino, Raspberry Pi or Raspberry Pi Pico, the example circuits shown allow you to get started quickly with protocol analysis and can also serve as a basis for your own experiments. After reading this book, you will be familiar with all the important terms and contexts, conduct your own experiments, analyze protocols independently, culminating in a comprehensive knowledge set of digital signals and protocols.

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Practical Applications and Project with Arduino, ESP32, and RP2040 Immerse yourself in the fascinating world of control engineering with Arduino and ESP32! This book offers you a practical introduction to classic and modern control methods, including PID controllers, fuzzy logic, and sliding-mode controllers. In the first part, you will learn the basics of the popular Arduino controllers, such as the Arduino Uno and the ESP32, as well as the integration of sensors for temperature and pH measurement (NTC, PT100, PT1000, and pH sensor). You will learn how to use these sensors in various projects and how to visualize data on a Nextion TFT display. The course continues with an introduction to actuators such as MOSFET switches, H-bridges, and solid-state relays, which are used to control motors and actuators. You will learn to analyze and model controlled systems, including PT1 and PT2 control. The book focuses on the implementation of fuzzy and PID controllers for controlling temperature and DC motors. Both the Arduino Uno and the ESP32 are used. The sliding-mode controller is also introduced. In the second-to-last chapter, you will explore the basics of neural networks and learn how machine learning can be used on an Arduino. In the last chapter, there is a practical example of a fuzzy controller for feeding electricity into the household grid. This book is the perfect choice for engineers, students, and electronics engineers who want to expand their projects with innovative control techniques.

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Practical Applications and Project with Arduino, ESP32, and RP2040 Immerse yourself in the fascinating world of control engineering with Arduino and ESP32! This book offers you a practical introduction to classic and modern control methods, including PID controllers, fuzzy logic, and sliding-mode controllers. In the first part, you will learn the basics of the popular Arduino controllers, such as the Arduino Uno and the ESP32, as well as the integration of sensors for temperature and pH measurement (NTC, PT100, PT1000, and pH sensor). You will learn how to use these sensors in various projects and how to visualize data on a Nextion TFT display. The course continues with an introduction to actuators such as MOSFET switches, H-bridges, and solid-state relays, which are used to control motors and actuators. You will learn to analyze and model controlled systems, including PT1 and PT2 control. The book focuses on the implementation of fuzzy and PID controllers for controlling temperature and DC motors. Both the Arduino Uno and the ESP32 are used. The sliding-mode controller is also introduced. In the second-to-last chapter, you will explore the basics of neural networks and learn how machine learning can be used on an Arduino. In the last chapter, there is a practical example of a fuzzy controller for feeding electricity into the household grid. This book is the perfect choice for engineers, students, and electronics engineers who want to expand their projects with innovative control techniques.

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PC USB Logic Analyzers with Arduino, Raspberry Pi, and Co. Step-by-step instructions guide you through the analysis of modern protocols such as I²C, SPI, UART, RS-232, NeoPixel, WS28xx, HD44780 and 1-Wire protocols. With the help of numerous experimental circuits based on the Raspberry Pi Pico, Arduino Uno and the Bus Pirate, you will learn the practical application of popular USB logic analyzers. All the experimental circuits presented in this book have been fully tested and are fully functional. The necessary program listings are included – no special programming or electronics knowledge is required for these circuits. The programming languages used are MicroPython and C along with the development environments Thonny and Arduino IDE. This book uses several models of flexible and widely available USB logic analyzers and shows the strengths and weaknesses of each price range. You will learn about the criteria that matter for your work and be able to find the right device for you. Whether Arduino, Raspberry Pi or Raspberry Pi Pico, the example circuits shown allow you to get started quickly with protocol analysis and can also serve as a basis for your own experiments. After reading this book, you will be familiar with all the important terms and contexts, conduct your own experiments, analyze protocols independently, culminating in a comprehensive knowledge set of digital signals and protocols.

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ESP32-C3-DevKitM-1 is an entry-level development board based on ESP32-C3-MINI-1, a module named for its small size. This board integrates complete Wi-Fi and Bluetooth LE functions. Most of the I/O pins on the ESP32-C3-MINI-1 module are broken out to the pin headers on both sides of this board for easy interfacing. Developers can either connect peripherals with jumper wires or mount ESP32-C3-DevKitM-1 on a breadboard. Specifications ESP32-C3-MINI-1 ESP32-C3-MINI-1 is a general-purpose Wi-Fi and Bluetooth LE combo module that comes with a PCB antenna. At the core of this module is ESP32-C3FN4, a chip that has an embedded flash of 4 MB. Since flash is packaged in the ESP32-C3FN4 chip, rather than integrated into the module, ESP32-C3-MINI-1 has a smaller package size. 5 V to 3.3 V LDO Power regulator that converts a 5 V supply into a 3.3 V output. 5 V Power On LED Turns on when the USB power is connected to the board. Pin Headers All available GPIO pins (except for the SPI bus for flash) are broken out to the pin headers on the board. For details, please see Header Block. Boot Button Download button. Holding down Boot and then pressing Reset initiates Firmware Download mode for downloading firmware through the serial port. Micro-USB Port USB interface. Power supply for the board as well as the communication interface between a computer and the ESP32-C3FN4 chip. Reset Button Press this button to restart the system. USB-to-UART Bridge Single USB-UART bridge chip provides transfer rates up to 3 Mbps. RGB LED Addressable RGB LED, driven by GPIO 8. Downloads ESP32-C3 Datasheet ESP32-C3-MINI-1 Datasheet ESP32-C3-DevKitM-1 Schematic ESP32-C3-DevKitM-1 PCB Layout ESP32-C3-DevKitM-1 Dimensions

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The FR01D (2-in-1) thermal imaging camera and multimeter is a compact and lightweight solution that simplifies diagnostic and maintenance tasks. The one-click function allows you to switch effortlessly between thermal imaging and multimeter mode, giving you two important tools in one portable device. The multimeter is capable of measuring DC and AC voltage, resistance, diode checks, continuity testing, and capacitance. The FR01D has a 2.8-inch touchscreen with a resolution of 320 x 480 pixels. The device is powered by an integrated rechargeable lithium battery and can be charged via USB. With the FR01D, you can inspect and maintain circuit boards, check power supplies, repair electronic devices, and overhaul household appliances. Its compact size, multifunctionality, and user-friendliness make the FR01D the ideal companion for electronics and maintenance technicians. General Specifications Display size 2.8" (320 x 480) Touchscreen Resistive Data transmission USB-C Image storage format BMP Battery Li-ion battery Storage temperature −20°C～60°C（−4°F～140°F) Operating temperature 0°C～50°C（32°F～122°F) Operating humidity <85% RH Dimensions 134 x 69 x 25 mm Weight 130 g Thermal Imaging Specifications Sensor Vanadium oxide (VOx) Image capture frequency 25 Hz Thermal imaging pixels 192 x 192 Field of View (FOV) 50.0°(H) x 50°(V) / 72.1°(D) Temperature range −20°C ~ +550°C (−4°F～1022°F) Gain mode Auto Accuracy ±2°C or ±2% Measurement resolution 0.1°C / 0.1°F Multimeter Specifications DC input voltage (max.) 1000 V AC input voltage (max.) 750 V Resistance (max.) 99.99 MΩ Capacitance (max.) 99.99 mF Duty cycle test range 0.1% ~ 99.9% Diode test range 0 V ~ 3 V Continuity test 999.9 Ω Display 9999 counts (Refreshes 3x per second) Accuracy Function Range Resolution Accuracy AC Voltage 400 mV 0.1 mV 2% +3 9.999 V 0.001 V 1.0% +3 99.99 V 0.01 V 999.9 V 0.1V DC Voltage 400 mV 0.1 mV 2% +3 9.999 V 0.001 V 1.0% +3 99.99 V 0.01 V 999.9 V 0.1 V Resistance 999.9 Ω 0.1 Ω 0.5% +3 9.999 KΩ 0.001 kΩ 99.99 KΩ 0.01 kΩ 999.9 KΩ 0.1 kΩ 9.999 MΩ 0.001 MΩ 99.99 MΩ 0.01 MΩ 1.5% +3 Diode Test 3.000 V 0.001 V 10% Capacitance 9.999 nF 0.001 nF 2% +5 99.99 nF 0.01 nF 999.9 nF 0.1 nF 9.999 uF 0.001 uF 99.99 uF 0.01 uF 999.9 uF 0.1 uF 9.999 mF 0.001 mF 5% +5 99.99 mF 0.01 mF Included 1x FR01D IR-Camera and Multimeter 2x Test Leads 1x USB Cable 1x Manual

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Features Synchronous mode: Auto, Normal, Single, None, Scan Rising/Falling edge trigger Modes of vertical precise, horizontal precise measurement and triggering threshold Auto Measurement: frequency, cycle time, duty cycle, DC RMS voltage/Vpp /Vmax/Vmin/Vavg Inbuilt signal generator/10 Hz-1 MHz square wave (duty adjustable) or 10 Hz-20 KHz Sine/Square/Triangle/Sawtooth wave Specifications Analog bandwidth 1 MHz Max sample rate 10 Msa/s Max sample memory depth 8K Analog input impedance 1 MΩ Max input voltage ±40 V (X1) Coupling AC/DC Vertical sensitivity 20 mv/Div~10 V/Div (1-2-5) Horizontal sensitivity 1 uS/Div~2 S/Div (1-2-5) Storage Built-in 8 MB U disk storage for waveform data and images Power supply Internal 550 mAh Lithium battery, recharging through Micro USB port Display 2.8' Full Color TFT LCD (320x240 pixels) Dimensions 100 x 56.5 x 10.7 mm Downloads User Manual Source Code App

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Now you can connect your Arduino boards with the official Arduino USB cable. Through a USB-C to USB-C with a USB-A adapter connection, this data USB cable can easily connect your Arduino boards with your chosen programming device. The Arduino USB cable has a nylon braided jacket in the typical Arduino colors white and teal. The connectors have an aluminum shell that protects your cable from harm at the same time as looking cool. Length: 100 cm Aluminium shell with logo Nylon braided jacket white and teal

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EU Power Supply for Arduino Uno (9 V, 1 A)

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