New pages

14 September 2025

• 02:4102:41, 14 September 2025 Repeat Complex (hist | edit) [932 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRepeatComplex.png == Summary == The **Repeat Complex** component repeats a complex data signal a specified number of times. == Description == This component receives a complex signal (such as an array of analog or digital values) and outputs it multiple times according to the configured count. Useful for testing or replicating complex data sequences in signal processing or control applications. <b>Diagram:</b> Image:TArduinoRepeatComplex.Previ...")
• 02:3702:37, 14 September 2025 Repeat CAN bus (hist | edit) [869 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRepeatCANBus.png == Summary == The **Repeat CAN Bus** component repeats a CAN bus message a specified number of times. == Description == This component receives a CAN bus message and outputs it multiple times according to the configured count. Useful for testing, simulation, or repeating CAN messages in automotive or industrial applications. <b>Diagram:</b> Image:TArduinoRepeatCANBus.Preview.png == Properties == *'''Enabled''' (boolean) –...")
• 02:3402:34, 14 September 2025 Repeat Audio (hist | edit) [847 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRepeatAudio.png == Summary == The **Repeat Audio** component outputs a repeated sequence of an audio signal a specified number of times. == Description == This component takes an audio input and duplicates it according to the configured count. Useful for audio testing, looping, or signal processing applications. <b>Diagram:</b> Image:TArduinoRepeatAudio.Preview.png == Properties == *'''Enabled''' (boolean) – Enables or disables the repeat...")
• 02:3202:32, 14 September 2025 Repeat Analog (hist | edit) [855 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRepeatAnalog.png == Summary == The **Repeat Analog** component outputs a repeated sequence of an analog input a specified number of times. == Description == This component takes a single analog input and duplicates it according to the configured count. Useful for generating repeated analog signals or test patterns. <b>Diagram:</b> Image:TArduinoRepeatAnalog.Preview.png == Properties == *'''Enabled''' (boolean) – Enables or disables the re...")
• 02:2902:29, 14 September 2025 Repeat Binary (hist | edit) [868 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRepeatBinary.png == Summary == The **Repeat Binary** component outputs a repeated sequence of a binary (boolean) input a specified number of times. == Description == This component takes a single binary input and duplicates it according to the configured count. Useful for generating repeated digital signals or test patterns. <b>Diagram:</b> Image:TArduinoRepeatBinary.Preview.png == Properties == *'''Enabled''' (boolean) – Enables or disab...")
• 02:2702:27, 14 September 2025 Repeat Alpha Color (hist | edit) [1,003 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRepeatAlphaColor.png == Summary == The **Repeat Alpha Color** component outputs a repeated sequence of an input color value a specified number of times. == Description == This component takes a single input color (RGB or RGBA) and duplicates it according to the configured count. Useful for populating arrays or sequences of colors in LED strips or graphics pipelines. <b>Diagram:</b> Image:TArduinoRepeatAlphaColor.Preview.png == Properties ==...")
• 02:2402:24, 14 September 2025 RGBW Alpha Color On/Off Switch (hist | edit) [1,233 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRGBWAlphaSwitch.png == Summary == The **RGBW Alpha Color On/Off Switch** routes an RGBW color signal based on an enable input, allowing selective transmission of color values. == Description == This component can selectively pass RGBW color values from its input to the output depending on the enable state. It includes options to ignore repeated values, set initial enabled state, and control whether to send the value on enable. <b>Diagram:</b> ...")
• 02:0302:03, 14 September 2025 Grove LED (hist | edit) [922 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoGroveLED.png == Summary == The **Grove LED** is a basic light-emitting diode module for visual indicators. It can be turned on or off using a digital input signal. == Description == This module provides a simple way to indicate logic states or activity in circuits. It connects to the Grove interface for power and control. <b>Diagram:</b> Image:TArduinoGroveLED.Preview.png == Pins == === Input Pins === *'''in (digital)''' – Digital input...")
• 02:0002:00, 14 September 2025 Grove Passive Buzzer (hist | edit) [856 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoGrovePassiveBuzzer.png == Summary == The **Grove Passive Buzzer** produces sound using an external PWM signal. It allows for tone generation by modulating the input frequency. == Description == This passive buzzer requires an input signal to generate sound. It can produce various tones and frequencies depending on the PWM input applied. <b>Diagram:</b> Image:TArduinoGrovePassiveBuzzer.Preview.png == Pins == === Input Pins === *'''in (di...")
• 01:5601:56, 14 September 2025 Laser (hist | edit) [851 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoLaser.png == Summary == The **Laser** component represents a laser visually in diagrams and simulations. It is intended for easier visualization and does not perform any functional operation. == Description == This module acts as a visual placeholder for a laser in circuit designs or simulations. It can be controlled via digital signals but does not emit a real laser beam. <b>Diagram:</b> Image:TArduinoLaser.Preview.png == Pins == === Inp...")
• 01:5201:52, 14 September 2025 M5Stack Mini Relay Unit (Grove) (hist | edit) [1,098 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackMiniRelayUnit.png == Summary == The **M5Stack Mini Relay Unit (Grove)** allows switching of external devices using a digital input signal, compatible with the Grove connector system. It supports an initial ON or OFF state for startup configuration. == Description == This compact relay module can control lights, motors, or other devices with a digital signal from an MCU. It integrates seamlessly with M5Stack Mini systems and Grove-compatible...")
• 01:4801:48, 14 September 2025 Grove Relay (hist | edit) [1,117 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoGroveRelay.png == Summary == The **Grove Relay** module allows control of high-voltage devices using a digital input signal. It features a simple interface compatible with Grove connectors and supports initial state configuration. == Description == This relay module can switch devices on or off based on a digital input signal. It is suitable for controlling lights, motors, or other appliances in prototyping and automation projects. The module ca...")
• 01:4401:44, 14 September 2025 Measure Unsigned Array Length (hist | edit) [1,055 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMeasureUnsignedArrayLength.png == Summary == The **Measure Unsigned Array Length** component calculates the number of elements in an unsigned array input and outputs this length as an integer. == Description == This component determines the size of an unsigned array dynamically, which can be useful for loops, indexing, or conditional operations. It counts the number of entries in the input unsigned array and provides the count on the output pin. <b...")
• 01:4101:41, 14 September 2025 Measure Binary Length (hist | edit) [1,030 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMeasureBinaryLength.png == Summary == The **Measure Binary Length** component calculates the number of elements in a binary input array and outputs this length as an integer. == Description == This component is useful for determining the size of a binary array dynamically, allowing for proper indexing, loops, or conditional processing. It counts the number of entries in the input binary array and provides the count on the output pin. <b>Diagram:</b...")
• 01:3701:37, 14 September 2025 Measure Complex Array Length (hist | edit) [1,051 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMeasureComplexArrayLength.png == Summary == The **Measure Complex Array Length** component calculates the number of elements in a complex array input and outputs this length as an integer. == Description == This component is used to determine the size of a complex array dynamically, which can be useful for loops, indexing, or conditional operations. It counts the number of entries in the input complex array and provides the count on the output pin....")
• 01:3401:34, 14 September 2025 Measure Analog Array Length (hist | edit) [1,063 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMeasureAnalogArrayLength.png == Summary == The **Measure Analog Array Length** component calculates the number of elements in an analog array input and outputs this length as an integer. == Description == This component is useful for dynamically determining the size of an analog array during processing or for use in loops, indexing, or conditional operations. It simply counts the number of entries in the input analog array and provides the count on...")
• 01:0701:07, 14 September 2025 Text MAC Address To 64 bit Unsigned (hist | edit) [1,435 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoTextToMAC.png == Summary == The **Text MAC Address To 64-bit Unsigned** component converts a human-readable MAC address string (e.g., `01:23:45:67:89:AB`) into a 64-bit unsigned integer value. This enables textual MAC addresses to be represented in a numerical format suitable for computation, storage, or comparison. == Description == MAC (Media Access Control) addresses are commonly represented as six octets in hexadecimal, separated by colons or da...")
• 01:0301:03, 14 September 2025 Text TCP/IP IPv4 Address To Unsigned (hist | edit) [1,441 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoTextToIPv4.png == Summary == The **Text TCP/IP IPv4 Address To Unsigned** component converts a human-readable IPv4 address string in dotted-decimal notation (e.g., `192.168.0.1`) into a 32-bit unsigned integer format. This allows textual IP addresses to be used programmatically in systems that require numerical representation. == Description == IPv4 addresses are typically written as four decimal numbers separated by dots. This component parses th...")
• 00:5800:58, 14 September 2025 Unsigned TCP/IP IPv4 Address To Text (hist | edit) [1,251 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoIPv4ToText.png == Summary == The **Unsigned TCP/IP IPv4 Address To Text** component converts a 32-bit unsigned integer IPv4 address into a human-readable text format (dotted-decimal notation). This allows IP addresses to be displayed, logged, or transmitted as standard strings. == Description == IPv4 addresses are usually represented in dotted-decimal format (e.g., `192.168.0.1`). This component accepts an unsigned 32-bit numeric input and outputs...")
• 00:5500:55, 14 September 2025 64 bit Unsigned MAC Address To Text (hist | edit) [1,109 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMAC64ToText.png == Summary == The **64-bit Unsigned MAC Address To Text** component converts a 64-bit unsigned integer MAC address into a human-readable text format. This allows network identifiers to be displayed or logged as standard hexadecimal MAC strings. == Description == MAC addresses are commonly represented as 12-digit hexadecimal numbers separated by colons or hyphens. This component takes a 64-bit numeric input and outputs the equivalen...")
• 00:5100:51, 14 September 2025 Unix Epoch to Date/Time (hist | edit) [1,104 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoUnixEpochToDateTime.png == Summary == The **Unix Epoch to Date/Time** component converts a Unix Epoch timestamp into a human-readable Date/Time value. It supports conversion from seconds or milliseconds since **January 1, 1970 (UTC)**. == Description == This component is commonly used for logging, displaying timestamps, and synchronizing with external systems. If the '''Milli Seconds''' property is enabled, the conversion includes millisecond prec...")
• 00:4300:43, 14 September 2025 Date/Time to Unix Epoch (hist | edit) [1,113 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoDateTimeToUnixEpoch.png == Summary == The **Date/Time to Unix Epoch** component converts a given date and time value into a Unix Epoch timestamp. Optionally, the output can include milliseconds for higher precision. == Description == This component is useful for timekeeping, logging, scheduling, and synchronizing events across systems. Unix Epoch represents the number of seconds (or milliseconds) since **January 1, 1970 (UTC)**, and is a standar...")

13 September 2025

• 23:4723:47, 13 September 2025 Random RGBW Alpha Color (hist | edit) [1,434 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRandomRGBWAlphaColor.png == Summary == The **Random RGBW Alpha Color** component generates random colors with Red, Green, Blue, White, and Alpha (transparency) channels. It allows specifying a minimum and maximum color range, as well as a randomization seed for reproducibility. == Description == This component is useful for graphics, LED control, and any visual effect that requires dynamic random color generation. The alpha channel allows transp...")

10 September 2025

• 14:5114:51, 10 September 2025 Microchip MCP3021 ADC (I2C) (hist | edit) [1,573 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMCP3021.png == Summary == 10-bit analog-to-digital converter with I2C interface for single-channel voltage measurement. == Description == The MCP3021 component is a successive approximation ADC that provides 10-bit resolution for single-ended analog voltage measurements. It features a simple I2C interface, low power consumption, and operates from 2.7V to 5.5V. The converter includes an internal sample-and-hold circuit and provides conversion results t...")
• 14:4914:49, 10 September 2025 Accelerometer Gyroscope Compass LSM9DS1(I2C) (hist | edit) [4,661 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoLSM9DS1.png == Summary == Integrated 9-DOF inertial measurement unit combining 3-axis accelerometer, 3-axis gyroscope, and 3-axis magnetometer with I2C interface. == Description == The LSM9DS1 component provides comprehensive motion sensing with simultaneous acceleration, angular rate, and magnetic field measurement across three axes. It features programmable full-scale ranges for each sensor, configurable sample rates, digital filtering, and low-powe...")
• 14:2614:26, 10 September 2025 Custom Code (hist | edit) [8,268 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoCustomCode.png == Summary == Custom code component allowing direct C/C++ code integration with multiple data type support for input and output operations. == Description == The Custom Code component provides a flexible interface for embedding custom C/C++ code within visual programming environments. It supports multiple data types including analog, digital, complex arrays, images, audio, and specialized types like color and orientation data. The compo...")
• 14:1014:10, 10 September 2025 NXP PWM PCA9685 (I2C) (hist | edit) [6,371 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoPCA9685.png == Summary == The NXP PWM PCA9685 component provides 16-channel PWM output control through I2C communication. It allows precise control of multiple PWM signals with configurable frequency and output settings. == Description == The PCA9685 is an I2C-bus controlled 16-channel LED controller optimized for PWM dimming and LED driver applications. Each channel has an individual 12-bit resolution (4096 steps) fixed frequency PWM controller that...")
• 13:5813:58, 10 September 2025 3-Axis Accelerometer/Gyroscope LSM6DS3(Grove) (hist | edit) [7,505 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoLSM6DS3Grove.png == Summary == The 3-Axis Accelerometer/Gyroscope LSM6DS3 component provides 6-axis motion tracking with Grove interface connectivity. It offers accelerometer, gyroscope, and advanced motion detection features through a simple Grove connection. == Description == The LSM6DS3 is a high-performance 6-axis inertial measurement unit (IMU) that combines a 3-axis accelerometer and 3-axis gyroscope with embedded motion detection capabilities....")
• 13:5013:50, 10 September 2025 STMicroelectronics LSM6DS3 Accelerometer Gyroscope(I2C) (hist | edit) [7,454 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoLSM6DS3.png == Summary == The STMicroelectronics LSM6DS3 Accelerometer Gyroscope component provides 6-axis motion tracking with advanced features including pedometer, tap detection, and free-fall detection. It communicates using the I2C interface and outputs comprehensive motion data. == Description == The LSM6DS3 is a high-performance 6-axis inertial measurement unit (IMU) that combines a 3-axis accelerometer and 3-axis gyroscope with embedded pedome...")
• 13:4113:41, 10 September 2025 Attitude Angle JY61P/JY901 I2C (hist | edit) [9,779 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoJY61P.png == Summary == The Attitude Angle JY61P/JY901 component provides 9-axis attitude estimation with accelerometer, gyroscope, compass, and GPS integration. It communicates using the I2C interface and outputs comprehensive orientation, position, and motion data. == Description == The JY61P/JY901 is an advanced attitude and heading reference system (AHRS) that combines 3-axis accelerometer, 3-axis gyroscope, 3-axis magnetometer, and GPS capabiliti...")
• 13:1413:14, 10 September 2025 Accelerometer Gyroscope MPU6000/MPU6050/GY-521 (I2C) (hist | edit) [4,723 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMPU6050.png == Summary == The Accelerometer Gyroscope MPU6000/MPU6050 component provides 6-axis motion tracking with accelerometer and gyroscope capabilities. It communicates using the I2C interface and outputs motion data from both sensing elements plus temperature. == Description == The MPU6000/MPU6050 is a 6-axis MotionTracking device that combines a 3-axis accelerometer and 3-axis gyroscope in a single package. It features programmable digital fil...")
• 13:0713:07, 10 September 2025 Accelerometer Gyroscope Compass MPU9250/CJMCU-116/CJMCU-20948 (I2C) (hist | edit) [5,875 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMPU9250.png == Summary == The Accelerometer Gyroscope Compass MPU9250 component provides 9-axis motion tracking with accelerometer, gyroscope, and magnetometer capabilities. It communicates using the I2C interface and outputs motion and orientation data from all three sensing elements. == Description == The MPU9250 is a 9-axis MotionTracking device that combines a 3-axis accelerometer, 3-axis gyroscope, and 3-axis magnetometer in a single package. It...")
• 12:5912:59, 10 September 2025 Accelerometer Gyroscope Compass MPU6886 (I2C) (hist | edit) [4,815 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMPU6886.png == Summary == The Accelerometer Gyroscope Compass MPU6886 component provides 6-axis motion tracking with accelerometer, gyroscope, and temperature sensing capabilities. It communicates using the I2C interface and outputs motion data from all three sensing elements. == Description == The MPU6886 is a 6-axis MotionTracking device that combines a 3-axis accelerometer, 3-axis gyroscope, and integrated temperature sensor in a single package. It...")
• 12:5212:52, 10 September 2025 Maxim MAX31865 RTD PT100/PT1000 Resistance Thermometer(SPI) (hist | edit) [3,482 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMAX31865.png == Summary == The Maxim MAX31865 RTD PT100/PT1000 Resistance Thermometer component reads temperature from RTD sensors using SPI interface. It provides precise temperature measurements with configurable sensor settings and error detection. == Description == The MAX31865 is a precision resistance-to-digital converter designed for platinum resistance temperature detectors (RTDs). It provides high-accuracy temperature measurements from PT100...")
• 12:4912:49, 10 September 2025 Potentiometer (hist | edit) [1,239 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoPotentiometer.png == Summary == The Potentiometer component is a visual tool that represents an analog potentiometer with input and output connections. == Description == This component serves as a visual representation of a standard analog potentiometer. It does not perform any processing or conversion of signals, but provides input and output pins for connection to other components in the circuit. The potentiometer is typically used as a variable vol...")
• 12:4512:45, 10 September 2025 Optic Flow PMW3901 (SPI) (hist | edit) [2,164 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoPMW3901.png == Summary == The Optic Flow PMW3901 component provides motion detection and tracking using optical flow technology. It communicates using the SPI interface and outputs movement data and image information. == Description == The PMW3901 is a low-power optical flow sensor that enables precise motion detection by tracking surface patterns. It uses image correlation to detect movement in both X and Y directions with high accuracy. The sensor o...")
• 12:3812:38, 10 September 2025 M5Stack Joystick Unit (Grove) (hist | edit) [1,851 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackJoystick.png == Summary == The M5Stack Joystick Unit component reads analog position and digital button input from a Grove-compatible joystick. It connects via Grove interface and outputs X/Y axis positions and button state. == Description == The M5Stack Joystick Unit is a Grove-compatible analog joystick module that provides two-axis position sensing and a digital push button. The joystick returns analog values for both X and Y axes representi...")
• 10:2010:20, 10 September 2025 Pressure Temperature BMP581 (SPI) (hist | edit) [6,426 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoBMP581SPI.png == Summary == The Pressure Temperature BMP581 component reads atmospheric pressure and temperature data from a Bosch BMP581 sensor. It communicates using the SPI interface and provides advanced filtering, interrupt capabilities, and configurable data processing. == Description == The BMP581 is a high-precision, low-power digital barometric pressure sensor with integrated temperature sensing. It features advanced signal processing, config...")
• 09:4209:42, 10 September 2025 Pressure Temperature BMP581 (I2C) (hist | edit) [6,319 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoBMP581.png == Summary == The Pressure Temperature BMP581 component reads atmospheric pressure and temperature data from a Bosch BMP581 sensor. It communicates using the I2C interface and provides advanced filtering, interrupt capabilities, and configurable data processing. == Description == The BMP581 is a high-precision, low-power digital barometric pressure sensor with integrated temperature sensing. It features advanced signal processing, configura...")
• 09:1809:18, 10 September 2025 Texas Instruments ADC ADS1015 Auto Scan (I2C) (hist | edit) [4,231 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoADS1015AutoScan.png == Summary == The Texas Instruments ADC ADS1015 Auto Scan component provides 12-bit analog-to-digital conversion with automatic channel scanning and comparator functionality. It communicates using the I2C interface and supports multiple input channels with individual configuration. == Description == The ADS1015 Auto Scan is a multi-channel version of the precision 12-bit analog-to-digital converter with automatic channel sequencing...")
• 07:2407:24, 10 September 2025 Texas Instruments ADC ADS1115 Auto Scan (I2C) (hist | edit) [4,154 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoADS1115AutoScan.png == Summary == The Texas Instruments ADC ADS1115 Auto Scan component provides 16-bit analog-to-digital conversion with automatic channel scanning and comparator functionality. It communicates using the I2C interface and supports multiple input channels with individual configuration. == Description == The ADS1115 Auto Scan is a multi-channel version of the precision 16-bit analog-to-digital converter with automatic channel sequencing...")
• 07:1207:12, 10 September 2025 Texas Instruments ADC ADS1013 (I2C) (hist | edit) [1,988 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoADS1013ADC.png == Summary == The Texas Instruments ADS1013 ADC component provides 12-bit analog-to-digital conversion with basic functionality. It communicates using the I2C interface and converts analog signals to digital values. == Description == The ADS1013 is a precision, low-power, 12-bit analog-to-digital converter with an I2C interface. It offers basic ADC functionality with programmable gain and sample rate settings, providing high-speed conve...")
• 07:0907:09, 10 September 2025 Texas Instruments ADC ADS1014 (I2C) (hist | edit) [2,325 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoADS1014ADC.png == Summary == The Texas Instruments ADS1014 ADC component provides 12-bit analog-to-digital conversion with comparator functionality. It communicates using the I2C interface and converts analog signals to digital values with programmable threshold detection. == Description == The ADS1014 is a precision, low-power, 12-bit analog-to-digital converter with an I2C interface and built-in comparator. It offers high-speed conversion with progr...")
• 07:0407:04, 10 September 2025 Texas Instruments ADC ADS1114 (I2C) (hist | edit) [2,605 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoADS1114ADC.png == Summary == The Texas Instruments ADS1114 ADC component provides 16-bit analog-to-digital conversion with comparator functionality. It communicates using the I2C interface and converts analog signals to digital values with programmable threshold detection. == Description == The ADS1114 is a precision, low-power, 16-bit analog-to-digital converter with an I2C interface and built-in comparator. It offers high-resolution conversion with...")
• 07:0107:01, 10 September 2025 Texas Instruments ADC ADS1113 (I2C) (hist | edit) [1,947 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoADS1113ADC.png == Summary == The Texas Instruments ADS1113 ADC component provides 16-bit analog-to-digital conversion with basic functionality. It communicates using the I2C interface and converts analog signals to digital values. == Description == The ADS1113 is a precision, low-power, 16-bit analog-to-digital converter with an I2C interface. It offers basic ADC functionality with programmable gain and sample rate settings, providing high-resolution...")
• 06:5806:58, 10 September 2025 Texas Instruments ADC ADS1115 (I2C) (hist | edit) [2,817 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoADS1115ADC.png == Summary == The Texas Instruments ADS1115 ADC component provides high-precision 16-bit analog-to-digital conversion with programmable gain and multiple input configurations. It communicates using the I2C interface and offers advanced features including a programmable comparator. == Description == The ADS1115 is a precision, low-power, 16-bit analog-to-digital converter with an I2C interface. It features a programmable gain amplifier (...")
• 06:0406:04, 10 September 2025 Texas Instruments ADS1100 ADC (I2C) (hist | edit) [1,937 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoADS1100ADC.png == Summary == The Texas Instruments ADS1100 ADC component provides high-precision analog-to-digital conversion functionality. It communicates using the I2C interface and converts analog signals to digital values. == Description == The ADS1100 is a precision, continuously self-calibrating analog-to-digital converter with 16-bit resolution and an I2C interface. This component provides high-accuracy conversion of analog signals to digital...")
• 06:0006:00, 10 September 2025 M5Stack ADC I2C Unit (ADS1100) (Grove) (hist | edit) [1,991 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackADCI2CUnit.png == Summary == The M5Stack ADC I2C Unit component provides analog-to-digital conversion functionality using an ADS1100 chip. It connects via Grove I2C interface and converts analog signals to digital values. == Description == The ADS1100 is a precision, continuously self-calibrating analog-to-digital converter with 16-bit resolution and an I2C interface. This component allows reading analog signals through the Grove connector and...")
• 05:5505:55, 10 September 2025 Acceleration To 3D Angle and Force (hist | edit) [2,151 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoAccelerationTo3DAngle.png == Summary == The Acceleration To 3D Angle and Force component converts 3-axis acceleration input into 3D orientation angles and force magnitude. It processes raw accelerometer data to provide roll, pitch, yaw, and total force outputs. == Description == This component transforms raw acceleration data from a 3-axis accelerometer into meaningful orientation angles (roll, pitch, yaw) and calculates the magnitude of the force vec...")
• 05:5005:50, 10 September 2025 Pressure Temperature Altimeter MPL3115A2 I2C (hist | edit) [2,693 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMPL3115A2.png == Summary == The Pressure Temperature Altimeter MPL3115A2 component reads atmospheric pressure, temperature, and altitude data from an NXP MPL3115A2 sensor. It communicates using the I2C interface and outputs the measured values. == Description == The MPL3115A2 is a compact, piezoresistive pressure sensor with an I2C digital interface that provides precise pressure, temperature, and altitude measurements. The sensor features programmabl...")