New pages

8 September 2025

• 12:1112:11, 8 September 2025 Joy Featherwing (I2C) (hist | edit) [1,617 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoFeatherJoystickShieldComponent.png == Summary == Adafruit FeatherWing Joystick Shield with I²C interface for user input applications. == Description == The **FeatherWing Joystick Shield** provides analog joystick input with push-button functionality and additional buttons through I²C communication. It features a compact design for embedded applications and connects via I²C interface to Arduino boards. <b>Diagram:</b> Image:TArduinoFeatherJoysti...")
• 12:0612:06, 8 September 2025 XY-LPWM3 PWM Signal Generator Module (hist | edit) [1,787 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoPWMSignalGenerator_XY_LPWM3.png == Summary == XY-LPWM3 PWM signal generator module with multiple output channels for creating custom PWM waveforms and signals. == Description == The **XY-LPWM3 PWM Signal Generator** produces programmable PWM signals on multiple outputs with controllable frequency, duty cycle, and timeout functionality. It supports multiple independent PWM channels with configurable refresh rates for various signal generation applicati...")
• 12:0012:00, 8 September 2025 Electricity Meter EMH Metering ED300L (Serial) (hist | edit) [1,766 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoEMHMeteringElectricityMeter.png == Summary == EMH Metering ED300L electricity meter with serial interface for energy consumption monitoring and measurement. == Description == The **EMH ED300L Electricity Meter** interfaces with EMH metering devices to monitor electrical energy consumption, power delivery, and other electrical parameters through serial communication. It provides comprehensive energy data including total consumption, rate-based measurem...")
• 11:5711:57, 8 September 2025 Air Quality Benzene, Alcohol, Smoke(Gas) Sensor MQ-135 (hist | edit) [2,065 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoGasSensorMQ135.png == Summary == MQ135 gas sensor for air quality monitoring with analog output for various gas detection including benzene, alcohol, and smoke. == Description == The **MQ135 Gas Sensor** detects various gases including NH₃, NOx, alcohol, benzene, smoke, and CO₂. It provides analog output proportional to gas concentration and requires heating operation. The sensor features calibration capabilities for different environmental condit...")
• 11:5411:54, 8 September 2025 Temperature and Humidity Sensor HTU31D (I2C) (hist | edit) [2,059 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoTemperatureHumidityHTU31D.png == Summary == HTU31D high-accuracy temperature and humidity sensor with I²C interface for environmental monitoring. == Description == The **HTU31D Temperature & Humidity Sensor** provides precise measurements with fast response time and low power consumption. It features configurable averaging modes, heater functionality for diagnostics, and communicates via I²C interface. The sensor supports both Celsius and Fahrenheit...")
• 11:5011:50, 8 September 2025 Texas Instruments INA219/INA220/GY-219 Voltage/Current/Power (I2C) (hist | edit) [2,774 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoTexasInstrumentsINA219.png == Summary == Texas Instruments INA219/INA220/GY-219 high-side current and power monitor with I²C interface for energy monitoring applications. == Description == The **INA219/INA220/GY-219 Power Monitor** measures current, voltage, and power with programmable calibration and precision. It features configurable measurement ranges, resolution modes, and communicates measurement data via I²C interface. The device supports bot...")
• 11:4111:41, 8 September 2025 Texas Instruments INA260 Voltage/Current/Power (I2C) (hist | edit) [2,920 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoTexasInstrumentsINA260.png == Summary == Texas Instruments INA260 current, voltage, and power monitor with I²C interface and integrated shunt resistor for precise power measurements. == Description == The **INA260 Power Monitor** integrates a precision shunt resistor to measure current, voltage, and power without external components. It provides high accuracy measurements with alert functionality and communicates via I²C interface. The device featur...")
• 11:3411:34, 8 September 2025 Texas Instruments INA226/INA230/INA231 Voltage/Current/Power (I2C) (hist | edit) [2,689 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoTexasInstrumentsINA226.png == Summary == Texas Instruments INA226/INA230/INA231 high-side current and power monitor with I²C interface for precise power measurements. == Description == The **INA226/INA230/INA231 Power Monitor** measures current, voltage, and power with high accuracy. It features programmable calibration, conversion times, averaging modes, and alert functionality for overcurrent and power overload conditions. The sensor supports confi...")
• 11:2511:25, 8 September 2025 Honeywell Pressure Sensor MPR/MPRLS (SPI) (hist | edit) [2,020 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoHoneywellMPRSensorSPI.png == Summary == Honeywell MPR/MPRLS digital pressure sensor with SPI interface for precise pressure measurements in various ranges. == Description == The **Honeywell MPR/MPRLS Pressure Sensor** measures pressure with high accuracy and outputs the result via SPI interface. It supports multiple pressure ranges and provides digital output with status signals for end-of-conversion, error detection, and math saturation. The sensor f...")
• 11:1111:11, 8 September 2025 LCJ Serial Sonic Anemometer (Wind Speed/Direction) SA-MICRO T (hist | edit) [2,103 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoLCJ_Anemometer_SA_MICRO_T.png == Summary == LCJ Serial Sonic Anemometer SA-MICRO-T for precise wind speed and direction measurement with serial interface. == Description == The **LCJ Sonic Anemometer** measures wind speed and direction using ultrasonic technology. It provides accurate environmental monitoring data with configurable units and temperature measurement capabilities. The sensor features over-range detection and alarm functionality for reli...")
• 11:0611:06, 8 September 2025 Joystick (hist | edit) [1,656 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoJoystick.png == Summary == Analog joystick component with X and Y axis inputs and push-button functionality for user interface applications. == Description == The **Joystick** component provides dual-axis analog input and digital button input for control applications. It features configurable axis inversion and supports standard joystick functionality with separate channels for X-axis, Y-axis, and button operations. <b>Diagram:</b> Image:TArduinoJ...")
• 11:0311:03, 8 September 2025 Gesture Color Proximity APDS9960 I2C (hist | edit) [3,501 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoGestureColorProximityAPDS9960_I2C.png == Summary == Broadcom APDS-9960 gesture, color, and proximity sensor with I²C interface for interactive applications. == Description == The **APDS-9960 Sensor** detects gestures, measures ambient light and color, and senses proximity. It integrates multiple sensing capabilities in one package with I²C communication interface. The sensor features programmable LED pulses, adjustable gain settings, configurable th...")
• 09:3109:31, 8 September 2025 Honeywell Pressure Sensor MPR/MPRLS (I2C) (hist | edit) [1,537 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoHoneywellMPRPressureSensor.png == Summary == Honeywell MPR/MPRLS digital pressure sensor with I²C interface for precise pressure measurements in various ranges. == Description == The **Honeywell MPR/MPRLS Pressure Sensor** measures pressure with selectable ranges and outputs the result via I²C. It supports status signals for end-of-conversion, error detection, and math saturation. The sensor is enabled or disabled and configurable via I²C for...")
• 09:1509:15, 8 September 2025 Get Analog Array Item At Index (hist | edit) [1,192 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoGetAnalogArrayItemAtIndex.png == Summary == Retrieves a single item from an analog array at a specified index. == Description == The **Get Analog Array Item At Index** component outputs the value of an analog array element at the given index. It can optionally ignore out-of-range indices and provides clock outputs to indicate empty or out-of-range access. <b>Diagram:</b> Image:TArduinoGetAnalogArrayItemAtIndex.Preview.png == Properties...")
• 09:0909:09, 8 September 2025 Compass QMC5883/GY-271(I2C) (hist | edit) [1,995 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoQMC5883GY271CompassI2C.png == Summary == QMC5883/GY-271 3-axis digital compass with I²C interface for measuring magnetic fields in milligauss (mG) and optional onboard thermometer. == Description == The **QMC5883/GY-271 Compass** measures X, Y, and Z components of the magnetic field with high resolution. It supports configurable full-scale range, oversampling ratio, and sample rate. An optional onboard thermometer can report temperature in Cels...")
• 09:0209:02, 8 September 2025 Bosch BMM150 Compass(I2C) (hist | edit) [1,596 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoBMM150CompassI2C.png == Summary == BMM150 3-axis magnetic compass with I²C interface for measuring magnetic fields in microtesla (µT). == Description == The **Bosch BMM150 Compass (I2C)** measures X, Y, and Z components of the magnetic field with high precision. It supports configurable sampling rates, repeated measurements, and I²C communication. Ideal for orientation detection, navigation, and magnetic field sensing applications. <b>Diag...")
• 08:5808:58, 8 September 2025 Magnetic Compass LIS3MDL(SPI) (hist | edit) [2,068 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoLIS3MDLMagneticCompassSPI.png == Summary == LIS3MDL 3-axis magnetic compass with SPI interface for detecting magnetic fields and orientation. == Description == The **LIS3MDL Magnetic Compass (SPI)** measures the X, Y, and Z components of magnetic fields. It supports configurable sample rates, full-scale range, power modes, self-test, and temperature compensation. Performance modes for XY and Z axes can be individually set. The sensor communica...")
• 08:5208:52, 8 September 2025 Bosch BMM150 Compass(SPI) (hist | edit) [1,668 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoBMM150CompassSPI.png == Summary == BMM150 3-axis magnetic compass with SPI interface for measuring magnetic fields in microtesla (µT). == Description == The **Bosch BMM150 Compass (SPI)** measures X, Y, and Z components of the magnetic field with high precision. It supports configurable sampling rates, repeated measurements, and SPI communication. Ideal for orientation detection, navigation, and magnetic field sensing applications. <b>Diagra...")
• 08:4608:46, 8 September 2025 Magnetic Compass LIS3MDL(I2C) (hist | edit) [2,072 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoLIS3MDLMagneticCompass.png == Summary == LIS3MDL 3-axis magnetic compass with I²C interface for detecting magnetic fields and orientation. == Description == The **LIS3MDL Magnetic Compass** measures the X, Y, and Z components of magnetic fields. It supports configurable sample rates, full-scale range, power modes, and self-test functionality. Temperature compensation can be enabled, and performance modes for XY and Z axes can be individually se...")
• 08:3808:38, 8 September 2025 Accumulate(Integral) Analog (hist | edit) [1,109 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoAccumulateIntegralAnalog.png == Summary == Analog integrator that accumulates input signal over time, producing an output proportional to the integral of the input. == Description == The **Accumulate (Integral) Analog** component continuously integrates the incoming analog signal over time. It can be reset via a clock input and supports setting an initial output value. This is useful for applications such as signal smoothing, motion integration,...")
• 08:2908:29, 8 September 2025 M5Stack Time-of-Flight Ranging Unit (VL53L0X) (Grove) (hist | edit) [1,827 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackVL53L0XUnit.png == Summary == M5Stack Time-of-Flight Ranging Unit using the VL53L0X sensor with Grove connector. Measures distance with high precision using laser-based TOF technology. == Description == The **M5Stack VL53L0X Time-of-Flight Ranging Unit (Grove)** uses a laser emitter and sensor to detect distance to nearby objects. It supports configurable sampling periods, timeouts, and optional 2.8V I²C signaling for compatibility with lo...")
• 08:2608:26, 8 September 2025 Time Of Flight Laser Ranger VL53L0X (hist | edit) [1,931 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoVL53L0XTimeOfFlightLaserRanger.png == Summary == VL53L0X Time-of-Flight laser distance sensor with I²C interface. Measures distance in millimeters using a laser-based ranging method. == Description == The **VL53L0X Time-of-Flight Laser Ranger** uses a laser emitter and sensor to measure distance to an object with high precision. It supports configurable pulse periods, return signal rate limits, and sampling intervals. Additional elements allow...")
• 08:2008:20, 8 September 2025 Maxim Potentiometer DS3502 (I2C) (hist | edit) [1,213 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMaximDS3502Potentiometer.png == Summary == I²C-controlled digital potentiometer using the Maxim DS3502 chip. == Description == The **Maxim DS3502 Potentiometer** is a digitally controlled variable resistor that can be set via I²C communication. It allows precise adjustment of resistance for calibration, signal scaling, or user-configurable circuits. It supports both volatile and non-volatile operation depending on the Non-Volatile property....")
• 08:1708:17, 8 September 2025 Grove Analog Input (hist | edit) [1,211 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoGroveAnalogInput.png == Summary == Grove Analog Input module. Provides one or more analog signals from an external analog source. == Description == The **Grove Analog Input** component reads analog signals from external sensors or devices connected via the Grove interface. It provides two output channels (primary and secondary) and can be synchronized using a clock input. This is useful for monitoring analog voltages, potentiometers, or other an...")
• 08:1408:14, 8 September 2025 M5Stack Mini Fan Unit (Grove) (hist | edit) [1,029 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackMiniFanUnit.png == Summary == M5Stack Mini Fan Unit with Grove connector. Provides controllable airflow using a small DC fan. == Description == The **M5Stack Mini Fan Unit (Grove)** allows simple airflow control in projects. It can be enabled or disabled and accepts an analog input signal to control fan speed. The unit connects via a Grove interface for easy integration with M5Stack or other Grove-compatible boards. <b>Diagram:</b>...")
• 08:1208:12, 8 September 2025 M5Stack Vibration Motor Unit (hist | edit) [1,042 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackVibrationMotorUnit.png == Summary == M5Stack Vibration Motor Unit with Grove connector. Provides haptic feedback using a small vibration motor. == Description == The **M5Stack Vibration Motor Unit** allows simple haptic feedback in projects. It can be enabled or disabled and accepts an analog input signal to control motor intensity. The unit connects via a Grove interface for quick integration. <b>Diagram:</b> Image:TArduinoM5Stac...")
• 08:0908:09, 8 September 2025 M5Stack Infrared Refletive (Optocoupler) Unit (Grove) (hist | edit) [1,125 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackInfraredReflectiveUnit.png == Summary == M5Stack Infrared Reflective (Optocoupler) Unit with Grove connector. Detects object proximity or surface reflectivity using infrared light. == Description == The **M5Stack Infrared Reflective (Optocoupler) Unit (Grove)** uses infrared emission and detection to sense the presence of nearby objects or measure surface reflectivity. It outputs an analog voltage proportional to the reflected infrared ligh...")
• 08:0608:06, 8 September 2025 M5Stack Mini Angle Unit with Potentiometer (Grove) (hist | edit) [1,257 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackMiniAngleUnit.png == Summary == M5Stack Mini Angle Unit with Potentiometer using Grove connector. Provides variable resistance output mapped as an analog voltage. == Description == The **M5Stack Mini Angle Unit with Potentiometer (Grove)** outputs an analog signal corresponding to the knob’s rotational angle. It is compact and well-suited for applications such as brightness control, sound volume adjustment, position setting, and other int...")
• 08:0508:05, 8 September 2025 Grove Rotary Angle Sensor/Potentiometer (hist | edit) [1,201 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoGroveRotaryAngleSensor.png == Summary == Analog rotary angle sensor (potentiometer) for Grove system. Provides variable resistance output mapped as an analog voltage. == Description == The **Grove Rotary Angle Sensor (Potentiometer)** outputs an analog signal that corresponds to the rotational angle of its knob. It can be used for brightness control, volume adjustment, position input, or any project requiring user-adjustable input. The output is...")
• 08:0308:03, 8 September 2025 Grove Light Sensor (hist | edit) [990 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoGroveLightSensor.png == Summary == Measures ambient light intensity using the Grove Light Sensor module. == Description == The **Grove Light Sensor** outputs an analog signal proportional to the brightness of surrounding light. It is commonly used in projects involving automatic lighting, display brightness control, or light-sensitive alarms. This module is based on a photoresistor (LDR), which changes resistance according to light levels. <b...")
• 08:0108:01, 8 September 2025 Grove Sound Sensor/Microphone (hist | edit) [1,064 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoGroveSoundSensorMicrophone.png == Summary == Detects sound levels using the Grove Sound Sensor (microphone module). == Description == The **Grove Sound Sensor/Microphone** is designed to detect ambient sound intensity. It outputs an analog voltage that corresponds to the loudness of the sound, making it suitable for audio-reactive projects, sound-activated control, and noise monitoring. This module does not perform frequency analysis – it only...")
• 06:4706:47, 8 September 2025 Vishay Ambient Light Sensor TEMT6000 (hist | edit) [1,470 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoVishayAmbientLightSensorTEMT6000.png == Summary == Measures ambient light intensity using the Vishay TEMT6000 sensor. == Description == The **Vishay TEMT6000 Ambient Light Sensor** provides an output voltage proportional to the intensity of ambient light. It is sensitive to visible light and can be used for automatic brightness control, light monitoring, or energy-saving applications. The component supports direct voltage-to-lux conversion if en...")
• 06:4306:43, 8 September 2025 Sharp Optical Dust Sensor GP2Y1010AU0F/Ks0196 Keyestudio (hist | edit) [1,567 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoSharpOpticalDustSensor.png == Summary == Measures dust concentration in the air using the Sharp GP2Y1010AU0F (and compatible Ks0196 Keyestudio) optical dust sensor. == Description == The **Sharp Optical Dust Sensor GP2Y1010AU0F / Ks0196 Keyestudio** detects dust particles in the air by measuring reflected light inside its chamber. It outputs an analog voltage proportional to the dust concentration. The sensor uses an internal LED that must be peri...")
• 06:1006:10, 8 September 2025 ACS712 Current Meter (hist | edit) [1,621 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoACS712CurrentMeter.png == Summary == Measures electrical current using the ACS712 hall-effect current sensor. == Description == The **ACS712 Current Meter** component provides current measurement based on the Allegro ACS712 sensor IC. It can be configured for different ranges (5A, 20A, or 30A), with support for voltage reference adjustment and zero offset calibration. The component supports calibration through configurable operations, such as **Ca...")
• 04:4504:45, 8 September 2025 Analog Array Value (hist | edit) [1,367 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoAnalogArrayValue.png == Summary == Provides an analog array whose elements can be individually set or updated using value elements. == Description == The Analog Array Value component outputs an analog array with configurable elements. Elements can be added via the **Elements** window, where each element can have its own **Set Value** or **Set Value State** properties. Each added element generates its own input pins for controlling the values. Th...")
• 04:4004:40, 8 September 2025 2D Change Distance (hist | edit) [1,001 bytes] Visuino (talk | contribs) (Created page with "Image:TArduino2DChangeDistance.png == Summary == Calculates the distance change of a point in 2D space based on analog X and Y inputs. == Description == The 2D Change Distance component computes the Euclidean distance traveled by a point from its previous position using the current X and Y analog inputs. This is useful for measuring motion, tracking displacement, or detecting movement in planar systems. <b>Diagram:</b> Image:TArduino2DChangeDistance.Preview...")
• 04:3604:36, 8 September 2025 2D Distance (hist | edit) [1,105 bytes] Visuino (talk | contribs) (Created page with "Image:TArduino2DDistance.png == Summary == Calculates the Euclidean distance between two points in 2D space from analog inputs. == Description == The 2D Distance component computes the distance between a start point and an end point using their X and Y analog values. This is useful for position tracking, motion detection, or measuring displacement in planar systems. <b>Diagram:</b> Image:TArduino2DDistance.Preview.png == Properties == *'''Enabled''' –...")
• 04:3104:31, 8 September 2025 Analog Devices GY-61/ADXL335 Accelerometer (hist | edit) [1,422 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoGY61ADXL335.png == Summary == Three-axis analog accelerometer module for measuring acceleration along X, Y, and Z axes. == Description == The GY-61/ADXL335 provides analog voltage outputs proportional to acceleration in each axis. It supports three analog inputs (X, Y, Z) and outputs analog signals representing acceleration, which can be interpreted in Gs (gravitational units). This is useful for motion sensing, tilt detection, and orientation mea...")
• 04:1904:19, 8 September 2025 Analog Array To Text (hist | edit) [1,855 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoAnalogArrayToText.png == Summary == Converts an analog array into a formatted text string. == Description == The Analog Array To Text component takes an input analog array and converts its elements into a single text string. You can configure formatting options such as beginning and ending text, element separators, digit precision, and minimum width. This is useful for logging, display on text-based interfaces, or sending analog array data over te...")
• 04:1204:12, 8 September 2025 Map Range Analog (hist | edit) [1,777 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMapRangeAnalog.png == Summary == Maps an analog input from one range to another output range, including negative ranges and reversed scaling. == Description == The Map Range Analog component scales an input analog signal from a defined input range to a specified output range. You can set any values for both the input and output ranges, including negative numbers. It also supports “reverse” mapping, where the input range is larger than the outp...")
• 04:0704:07, 8 September 2025 Dead Zone Scaled Analog(Map) (hist | edit) [1,901 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoDeadZoneScaledAnalog.png == Summary == Maps an analog input to an output range while ignoring a small “dead zone” around a center value. == Description == The Dead Zone Scaled Analog (Map) component processes an analog input, scaling it to a specified output range while ignoring a small input zone near the center. This dead zone prevents small input fluctuations from affecting the output, which is useful for joystick inputs, sensor noise filteri...")
• 04:0204:02, 8 September 2025 Analog Array To Analog (hist | edit) [1,270 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoAnalogArrayToAnalog.png == Summary == Splits an analog array into individual analog outputs. == Description == The Analog Array To Analog component takes an input analog array and outputs each element to separate analog pins. The number of output pins can be configured via the **Output Pins** property. This is useful for routing array data to multiple processing blocks, actuators, or display elements. <b>Diagram:</b> Image:TArduinoAnalogArra...")
• 04:0004:00, 8 September 2025 Analog To Analog Array (hist | edit) [1,278 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoAnalogToAnalogArray.png == Summary == Converts multiple individual analog inputs into a single analog array output. == Description == The Analog To Analog Array component collects multiple analog signals from individual input pins and combines them into one analog array. The number of inputs can be configured via the **Input Pins** property. A clock input can be used to control when the array is updated. This is useful for packaging multiple sen...")
• 03:5703:57, 8 September 2025 Multiply Analog (hist | edit) [1,202 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMultiplyAnalog.png == Summary == Multiplies two or more analog input signals together to produce a single output. == Description == The Multiply Analog component computes the product of multiple incoming analog signals. The number of input pins can be configured using the **Input Pins** property. A clock input can be used to control when the multiplication occurs. This is useful for scaling signals, modulation, or combining multiple analog sourc...")
• 03:5403:54, 8 September 2025 Step/Iterate Analog Array Items (hist | edit) [1,349 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoStepIterateAnalogArray.png == Summary == Iterates through items in an analog array, outputting one item at a time. == Description == The Step/Iterate Analog Array Items component cycles through the elements of an input analog array. Each step outputs the current item, updates the index, and increments the count of items processed. The **Empty** clock can be used to trigger a step without producing output. This is useful for sequential processing...")
• 03:5003:50, 8 September 2025 Remember Analog Array (hist | edit) [1,405 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRememberAnalogArray.png == Summary == Stores and recalls an analog array based on clock inputs, allowing temporary memory for analog data. == Description == The Remember Analog Array component can store an analog array when triggered by the **Remember (Write)** clock and output the stored array when triggered by the **Recall (Read)** clock. Initial values can be configured using the **Initial Value Elements** property. This is useful for temporary...")
• 02:2602:26, 8 September 2025 Analog Array Mux(Multi channel Switch) (hist | edit) [1,477 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoAnalogArrayMux.png == Summary == Selects one analog array input from multiple channels and passes it to the output based on a digital select signal. == Description == The Analog Array Mux component routes one of several analog array inputs to the output depending on the **Select** input value. The initial active channel can be configured via the **Initial Channel** property, and the number of input pins is adjustable. This is useful for multiplexi...")
• 02:1902:19, 8 September 2025 Accumulate(Integral) Angle (hist | edit) [1,309 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoAccumulateAngle.png == Summary == Computes the integral of an analog input representing an angle, accumulating its value over time. == Description == The Accumulate (Integral) Angle component continuously integrates the incoming analog signal and outputs the accumulated angle. It supports different units (**Degrees**, **Radians**, or **Normalized**) and can be reset via a digital input. This is useful for tracking rotational position or calculatin...")
• 02:1302:13, 8 September 2025 Analog Array Multi Source (hist | edit) [1,275 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoAnalogArrayMultiSource.png == Summary == Distributes a single analog array input to multiple output channels simultaneously. == Description == The Analog Array Multi Source component copies an incoming analog array to multiple output pins at the same time. The number of output pins is configurable via the **Output Pins** property. This is useful for feeding the same array of signals to multiple processing blocks or devices without duplicating wiri...")
• 02:1202:12, 8 September 2025 Analog Multi Source (hist | edit) [1,229 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoAnalogMultiSource.png == Summary == Distributes a single analog input signal to multiple output channels simultaneously. == Description == The Analog Multi Source component copies an incoming analog signal to multiple output pins at the same time. The number of output pins is configurable via the **Output Pins** property. This is useful for feeding the same signal to multiple processing blocks or devices without duplicating wiring. <b>Diagram:<...")