New pages

24 August 2025

• 09:4109:41, 24 August 2025 M5Stack Light Unit with Photo-resistance (Grove) (hist | edit) [1,196 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackLightUnit.png == Summary == Light-sensing unit with a photoresistor, compatible with Grove. == Description == The **M5Stack Light Unit with Photo-resistance (Grove)** detects ambient light intensity. It provides both **digital** and **analog** outputs, enabling threshold-based detection or continuous brightness measurement. Commonly used for automatic lighting control, environmental monitoring, and smart devices. <b>Diagram:</b>...")
• 09:3909:39, 24 August 2025 M5Stack Earth Moisture Unit (Grove) (hist | edit) [1,182 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackEarthMoisture.png == Summary == Soil moisture detection unit compatible with Grove systems. == Description == The **M5Stack Earth Moisture Unit (Grove)** measures soil moisture content. It provides both **digital** and **analog** outputs, allowing threshold-based or continuous monitoring. Useful in smart farming, irrigation automation, and environmental monitoring projects. <b>Diagram:</b> Image:TArduinoM5StackEarthMoisture.Pr...")
• 09:3609:36, 24 August 2025 Grove Tilt Sensor (hist | edit) [1,043 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoGroveTiltSensor.png == Summary == Tilt detection sensor compatible with Grove systems. == Description == The **Grove Tilt Sensor** detects orientation changes or tilt events. It functions like a simple switch: when tilted, the sensor output changes state. Commonly used for orientation-based control, motion detection, and simple triggers in interactive projects. <b>Diagram:</b> Image:TArduinoGroveTiltSensor.Preview.png == Categorie...")
• 09:3509:35, 24 August 2025 M5Stack PIR Motion Sensor Unit (Grove) (hist | edit) [1,091 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackPIRMotionSensor.png == Summary == Passive Infrared (PIR) motion detection sensor for M5Stack Grove systems. == Description == The **M5Stack PIR Motion Sensor Unit** detects motion using infrared signals emitted by moving objects such as people or animals. It outputs a digital signal when motion is detected, making it useful for security, automation, or occupancy detection projects. <b>Diagram:</b> Image:TArduinoM5StackPIRMotionS...")
• 09:3009:30, 24 August 2025 M5Stack Mini Button Unit (Grove) (hist | edit) [900 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackMiniButton.png == Summary == Compact digital button module for M5Stack Grove systems. == Description == The **M5Stack Mini Button Unit** provides a tactile push button with digital output. The button state can be read through the clock input or directly from the digital output. Ideal for user input in compact embedded projects. <b>Diagram:</b> Image:TArduinoM5StackMiniButton.Preview.png == Categories == *Image:TArduinoD...")
• 09:2709:27, 24 August 2025 Grove Touch Sensor (hist | edit) [901 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoGroveTouchSensor.png == Summary == Capacitive touch sensor module for Grove systems. == Description == The **Grove Touch Sensor** detects touch events and outputs a digital signal. It can be triggered via the clock input or directly read through the digital output. Ideal for creating touch-sensitive interfaces in embedded projects. <b>Diagram:</b> Image:TArduinoGroveTouchSensor.Preview.png == Categories == *Image:TArduinoDigit...")
• 09:2409:24, 24 August 2025 Grove Button (hist | edit) [873 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoGroveButton.png == Summary == Digital push button module for Grove systems. == Description == The **Grove Button** detects button presses and outputs a digital signal. It can be triggered via the clock input or directly read through the digital output. Useful for user input in embedded or microcontroller projects. <b>Diagram:</b> Image:TArduinoGroveButton.Preview.png == Categories == *Image:TArduinoDigitalCategory.png Cate...")
• 09:2009:20, 24 August 2025 M5Stack Laser Transmitter(Tx) Unit (Grove) (hist | edit) [891 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackLaserTx.png == Summary == Digital laser transmitter module for M5Stack Grove systems. == Description == The **M5Stack Laser Transmitter (Tx) Unit** outputs a controllable digital laser signal. The output can be toggled using the input pin or set to an initial default state. Suitable for optical communication experiments or simple laser signaling applications. <b>Diagram:</b> Image:TArduinoM5StackLaserTx.Preview.png == Categ...")
• 09:1609:16, 24 August 2025 Infineon TLE8110EE Smart Multichannel Switch (SPI) (hist | edit) [2,548 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoInfineonTLE8110EE.png == Summary == SPI-controlled smart multichannel switch with configurable digital outputs and monitoring pins. == Description == The **Infineon TLE8110EE** provides multiple power channels for switching and controlling loads with current monitoring. It supports SPI communication and allows configuration of output channels, initial states, and monitoring of under-voltage conditions. Suitable for automotive and industrial...")
• 09:0009:00, 24 August 2025 M5Stack Makey Capacitive Touch Unit (Grove) (hist | edit) [1,837 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackMakey.png == Summary == I2C-controlled capacitive touch module with multiple touch channels and configurable low/high outputs. == Description == The **M5Stack Makey Capacitive Touch Unit** provides several capacitive touch inputs accessible via I2C. It supports both **Low** and **High** digital outputs for each channel, making it suitable for buttons, sliders, or other human interface devices in embedded systems. <b>Diagram:</b> [...")
• 08:5508:55, 24 August 2025 Touch Sensor Holtek BS8112A/BS8116A I2C (hist | edit) [1,929 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoHoltekTouchSensor.png == Summary == I2C-controlled touch sensor module with up to 12 channels, each configurable with threshold and wakeup options. == Description == The **Holtek BS8112A/BS8116A Touch Sensor** provides up to 12 capacitive touch input channels accessible via I2C. Each channel can be individually configured with a touch **Threshold** and **Wakeup** option for low-power applications. This sensor is suitable for touch buttons, s...")
• 08:3008:30, 24 August 2025 PLC-X DIO GPIO (I2C) (hist | edit) [1,334 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoPLCXDIO.png == Summary == I2C-controlled digital I/O module with 4 output channels and 4 input channels. == Description == The **PLC-X DIO GPIO** component provides 4 digital output channels and 4 digital input channels accessible via I2C. Each output channel has a configurable initial value. This module is useful for controlling LEDs, relays, or reading digital signals from sensors. <b>Diagram:</b> Image:TArduinoPLCXDIO.Preview.png...")
• 08:2608:26, 24 August 2025 Microchip MCP23008 GPIO (I2C) (hist | edit) [1,850 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMCP23008.png == Summary == I2C-controlled GPIO expander with 8 channels, configurable as inputs or outputs with optional pull-up resistors and inversion. == Description == The **MCP23008** component provides 8 GPIO channels accessible over I2C. Each channel can be individually configured as a digital input or output, with optional pull-up resistors and inverted logic. This component is useful for expanding the number of digital I/O pins on a...")
• 08:2108:21, 24 August 2025 Microchip MCP230S18 GPIO (SPI) (hist | edit) [2,120 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMCP230S18.png == Summary == SPI-controlled GPIO expander with 16 channels organized in two banks (A and B), configurable as inputs or outputs with optional pull-up resistors. == Description == The **MCP230S18** component provides 16 GPIO channels accessible over SPI, split into bank A and bank B. Each channel can be individually configured as a digital input or output, with optional pull-up resistors. This component is ideal for expanding di...")
• 08:1908:19, 24 August 2025 Microchip MCP230S17 GPIO (SPI) (hist | edit) [2,143 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMCP230S17.png == Summary == SPI-controlled GPIO expander with 16 channels organized in two banks (A and B), configurable as inputs or outputs with optional pull-up resistors. == Description == The **MCP230S17** component provides 16 GPIO channels accessible over SPI, split into bank A and bank B. Each channel can be individually configured as a digital input or output, with optional pull-up resistors. This component is useful for expanding t...")
• 08:1408:14, 24 August 2025 Microchip MCP230S09 GPIO (SPI) (hist | edit) [1,856 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMCP230S09.png == Summary == SPI-controlled GPIO expander with 8 channels, configurable as inputs or outputs with optional pull-up resistors. == Description == The **MCP230S09** component provides 8 GPIO channels accessible over SPI. Each channel can be individually configured as a digital input or output, with optional pull-up resistors. This component is useful for expanding the number of digital I/O pins on a microcontroller, controlling L...")
• 08:1008:10, 24 August 2025 Microchip MCP230S08 GPIO (SPI) (hist | edit) [1,855 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMCP230S08.png == Summary == SPI-controlled GPIO expander with 8 channels, configurable as inputs or outputs with optional pull-up resistors. == Description == The **MCP230S08** component provides 8 GPIO channels accessible over SPI. Each channel can be individually configured as a digital input or output, with optional pull-up resistors. This component is ideal for expanding the number of digital I/O pins on a microcontroller, controlling LE...")
• 08:0408:04, 24 August 2025 Microchip MCP23009 GPIO (I2C) (hist | edit) [1,711 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoMCP23009.png == Summary == I2C-controlled GPIO expander with 8 channels, configurable as inputs or outputs with optional pull-up resistors. == Description == The **MCP23009** component provides 8 GPIO channels accessible over I2C. Each channel can be individually configured as a digital input or output, with optional pull-up resistors. This component is ideal for expanding the number of digital I/O pins on a microcontroller, controlling LEDs...")
• 08:0008:00, 24 August 2025 M5Stack Extend I/O Unit (Grove) (hist | edit) [1,673 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackExtendIO.png == Summary == I2C-controlled GPIO expander with 8 channels, configurable as inputs or outputs with optional inversion. == Description == The **M5Stack Extend I/O Unit (Grove)** provides 8 GPIO channels accessible over I2C. Each channel can be configured as digital input or output, with optional inverted logic. This makes it suitable for controlling LEDs, buttons, or general-purpose digital I/O in microcontroller projects....")
• 07:5707:57, 24 August 2025 PCA9674/PCA9674A GPIO (I2C) (hist | edit) [1,615 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoPCA9674.png == Summary == I2C-controlled GPIO expander with 8 channels, configurable as inputs or outputs. == Description == The **PCA9674/PCA9674A** component allows 8 GPIO channels to be controlled via I2C. Each channel can be individually configured as an input or output with a default digital value. This component is useful for expanding the number of digital I/O pins on a microcontroller and controlling LEDs, buttons, or other digital d...")
• 07:5407:54, 24 August 2025 PCA9675 GPIO (I2C) (hist | edit) [1,918 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoPCA9675.png == Summary == I2C-controlled GPIO expander with 16 channels, configurable as inputs or outputs. == Description == The **PCA9675** component allows 16 GPIO channels to be controlled via I2C. Each channel can be individually configured as an input or output with a default digital value. This component is useful for expanding the number of digital I/O pins on a microcontroller and controlling LEDs, buttons, or other digital devices....")
• 07:5007:50, 24 August 2025 Texas Instruments PCA9554 GPIO(I2C) (hist | edit) [1,677 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoPCA9554.png == Summary == I2C-controlled GPIO expander with 8 channels, configurable as inputs or outputs with optional inversion. == Description == The **PCA9554** component allows 8 GPIO channels to be controlled via I2C. Each channel can be configured individually as an input or output, with options for inverted logic. This makes it useful for expanding the number of digital I/O pins on a microcontroller, controlling LEDs, buttons, or oth...")
• 07:4407:44, 24 August 2025 Awinic GPIO/LED Control AW9523(I2C) (hist | edit) [2,778 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoAW9523.png == Summary == I2C-controlled GPIO and LED driver for 16 channels with configurable digital, analog, and LED outputs. == Description == The **AW9523** component allows control of 16 GPIO channels over I2C, divided into two ports (Port0 and Port1). Each channel can be individually configured as a digital input, analog input (PWM for LED dimming), or digital output. Properties such as '''Auto Config''', '''Initial Analog Value''', ''...")
• 06:1706:17, 24 August 2025 Digital To 3D Orientation (hist | edit) [1,404 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoDigitalTo3DOrientation.png == Summary == Converts a digital input into one of two predefined 3D orientation states. == Description == The **Digital To 3D Orientation** component maps a single digital input (boolean) to a 3D directional output. When the input is LOW (false), it outputs the configured '''False Value''' orientation (goUp, goRight, goDown, goLeft, goFront, or goBack). When the input is HIGH (true), it outputs the configured '''T...")
• 06:1406:14, 24 August 2025 Digital To 2D Orientation (hist | edit) [1,352 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoDigitalTo2DOrientation.png == Summary == Converts a digital input into one of two predefined 2D orientation states. == Description == The **Digital To 2D Orientation** component maps a single digital input (boolean) to a 2D directional output. When the input is LOW (false), it outputs the configured '''False Value''' orientation (goUp, goRight, goDown, or goLeft). When the input is HIGH (true), it outputs the configured '''True Value''' orie...")
• 06:1006:10, 24 August 2025 Pulse Meter(Measure Period) (hist | edit) [1,069 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoPulseMeter.png == Summary == Measures the period of an incoming digital pulse and outputs the result in microseconds. == Description == The **Pulse Meter (Measure Period)** component is used to calculate the time interval between consecutive digital input pulses. It outputs the measured period in microseconds, making it useful for frequency measurement, signal analysis, or detecting timing variations in digital waveforms. <b>Diagram:</b>...")
• 06:0606:06, 24 August 2025 Digital Demux(Multiple Output channel Switch) (hist | edit) [1,326 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoDigitalDemux.png == Summary == Routes a single digital input to one of several outputs, depending on the selected channel. == Description == The **Digital Demux (Multiple Output Channel Switch)** component works as a digital demultiplexer. It takes a single digital input and directs it to one of the available outputs. The active output channel is determined by the '''Select''' input pin. The '''Initial Channel''' property defines which out...")
• 06:0306:03, 24 August 2025 Digital Multi Source (hist | edit) [1,088 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoDigitalMultiSource.png == Summary == Distributes a single digital input signal to multiple outputs simultaneously. == Description == The **Digital Multi Source** component takes a digital input and forwards it to multiple output pins. The number of '''Output Pins''' can be adjusted, and the input will be mirrored across all of them. This is useful when the same digital signal needs to be shared across several destinations in a project. <b...")
• 06:0006:00, 24 August 2025 Digital Toggle Demux (hist | edit) [1,361 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoDigitalToggleDemux.png == Summary == Routes a digital input signal to one of two outputs (True or False) based on a toggle selection. == Description == The **Digital Toggle Demux** component takes a digital '''In''' signal and directs it to either the '''True''' or '''False''' output, depending on the state of the '''Select''' pin. The '''Initial Select Value''' property determines the starting routing state at startup. This allows switching...")
• 05:5705:57, 24 August 2025 Auto Repeat Button (hist | edit) [1,401 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoAutoRepeatButton.png == Summary == Generates repeated output pulses when the input button is pressed and held. == Description == The **Auto Repeat Button** component provides an automatic key-repeat function, similar to how a keyboard key works. When the input signal goes HIGH, the component waits for the configured '''Initial Delay''' before generating the first repeated pulse. After that, it continues to emit pulses at the set '''Repeat Fr...")
• 05:5405:54, 24 August 2025 Digital To Binary (hist | edit) [1,194 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoDigitalToBinary.png == Summary == Converts a digital input signal into one of two binary values. == Description == The **Digital To Binary** component maps a digital input (boolean) into binary form. When the input is LOW (false), the component outputs the configured '''False Value''' (binary). When the input is HIGH (true), the component outputs the configured '''True Value''' (binary). This enables flexible encoding of digital signals in...")
• 05:5105:51, 24 August 2025 Digital To Char (hist | edit) [1,235 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoDigitalToChar.png == Summary == Converts a digital signal into a character output based on predefined true/false values. == Description == The **Digital To Char** component transforms a digital input (boolean) into a character output. When the input is LOW (false), it outputs the specified '''False Value''' character. When the input is HIGH (true), it outputs the specified '''True Value''' character. This is useful for generating text-base...")
• 04:3104:31, 24 August 2025 Color Sensor (Taos TCS34721, TCS34723, TCS34725, TCS34727) (hist | edit) [2,028 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoColorSensorTCS3472x.png == Summary == Detects red, green, blue, and clear light intensity and provides both analog and combined color outputs. == Description == The **Color Sensor (Taos TCS34721, TCS34723, TCS34725, TCS34727)** is an I²C-based digital color sensor that measures light intensity across red, green, blue, and clear channels. It supports adjustable gain, integration time, and optional wait periods for flexible light measurement....")
• 04:1204:12, 24 August 2025 M5Stack Color Sensor RGB Unit (TCS3472) (Grove) (hist | edit) [1,908 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoM5StackColorSensor.png == Summary == Measures RGB and clear light intensity and outputs both analog and color data. == Description == The **M5Stack Color Sensor RGB Unit (TCS3472) (Grove)** component reads the intensity of red, green, blue, and clear light channels. It supports configurable gain and integration time, threshold detection, and optional wait periods for controlled sampling. Outputs include individual analog channels for each co...")
• 03:5903:59, 24 August 2025 Color To RGBW Alpha Color (hist | edit) [1,007 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoColorToRGBWAlphaColor.png == Summary == Converts a standard color input to an RGBW alpha color output. == Description == The **Color To RGBW Alpha Color** component transforms a standard color input into an RGBW alpha color signal. The '''Alpha''' property sets the transparency level, and an '''Initial Value''' can be defined at startup. This is useful for controlling RGBW LEDs or displays that support alpha transparency. <b>Diagram:</b>...")
• 03:5303:53, 24 August 2025 RGBW Alpha Color Multi-Source Merger (hist | edit) [1,038 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRGBWAlphaColorMultiSourceMerger.png == Summary == Merges multiple RGBW alpha color input channels into a single output. == Description == The **RGBW Alpha Color Multi-Source Merger** component combines several RGBW alpha color inputs into a single output channel. The number of input channels is configurable via the '''Input Pins''' property. This is useful for consolidating color and transparency data from multiple sources to control a singl...")
• 03:5003:50, 24 August 2025 RGBW Color Multi-Source Merger (hist | edit) [975 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRGBWColorMultiSourceMerger.png == Summary == Merges multiple RGBW color input channels into a single output. == Description == The **RGBW Color Multi-Source Merger** component combines several RGBW color inputs into a single output channel. The number of input channels is configurable via the '''Input Pins''' property. This is useful for consolidating color data from multiple sources to control a single LED, display, or visual effect. <b>...")
• 03:4503:45, 24 August 2025 RGBW Color Change Only (hist | edit) [898 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRGBWColorChangeOnly.png == Summary == Outputs the RGBW color value only when it changes. == Description == The **RGBW Color Change Only** component monitors the incoming RGBW color input and forwards it to the output only when it differs from the previous value. This helps reduce redundant updates and is useful for optimizing LED or display control where only changes need to be processed. <b>Diagram:</b> Image:TArduinoRGBWColorChangeOn...")
• 03:4003:40, 24 August 2025 RGBW Alpha Color Snapshot (hist | edit) [1,085 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRGBWAlphaColorSnapshot.png == Summary == Captures the current RGBW alpha color value when triggered. == Description == The **RGBW Alpha Color Snapshot** component stores the incoming RGBW alpha color value when the '''Snapshot''' clock input is triggered and outputs it until the next snapshot occurs. This is useful for capturing specific RGBW color and transparency states for later use in LEDs, displays, or visual effects. <b>Diagram:</b>...")
• 03:3303:33, 24 August 2025 RGBW Color Demux(Multiple Output channel Switch) (hist | edit) [1,240 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRGBWColorDemux.png == Summary == Routes a single RGBW color input to one of several outputs based on a channel selector. == Description == The **RGBW Color Demux** component takes one RGBW color input and directs it to one of multiple output channels determined by the '''Select''' input. The number of outputs is configurable via the '''Output Pins''' property, and the '''Initial Channel''' sets which output is active at startup. This is usef...")
• 03:1803:18, 24 August 2025 RGBW Color Toggle Switch (hist | edit) [1,099 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRGBWColorToggleSwitch.png == Summary == Selects between two RGBW color inputs based on a boolean control. == Description == The **RGBW Color Toggle Switch** component outputs one of two RGBW color inputs depending on the '''Select''' boolean input. The '''Initial Select Value''' property determines which input is active at startup. This is useful for switching between two predefined colors for LEDs, displays, or visual effects. <b>Diagram...")
• 03:1503:15, 24 August 2025 Ramp To RGBW Color Value (hist | edit) [1,210 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRampToRGBWColorValue.png == Summary == Smoothly transitions an RGBW color value toward a target value over time. == Description == The **Ramp To RGBW Color Value** component gradually changes the incoming RGBW color from its current value to the target input value at a rate determined by the '''Slope''' property (in seconds). An '''Initial Value''' can be set for startup. This is useful for creating smooth color transitions in LEDs, displays...")
• 03:1203:12, 24 August 2025 Ramp To RGBW Alpha Color Value (hist | edit) [1,285 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRampToRGBWAlphaColorValue.png == Summary == Smoothly transitions an RGBW alpha color value toward a target value over time. == Description == The **Ramp To RGBW Alpha Color Value** component gradually changes the incoming RGBW alpha color from its current value to the target input value at a rate determined by the '''Slope''' property (in seconds). An '''Initial Value''' can be set for startup. This is useful for creating smooth color and tr...")
• 03:0803:08, 24 August 2025 Remember RGBW Alpha Color Value (hist | edit) [1,286 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRememberRGBWAlphaColorValue.png == Summary == Stores and recalls an RGBW alpha color value based on trigger inputs. == Description == The **Remember RGBW Alpha Color Value** component allows you to store an incoming RGBW alpha color value when the '''Remember''' clock input is triggered, and recall the stored value when the '''Recall''' clock input is triggered. This is useful for temporarily holding RGBW color and transparency states or creat...")
• 03:0503:05, 24 August 2025 Remember RGBW Color Value (hist | edit) [1,211 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRememberRGBWColorValue.png == Summary == Stores and recalls an RGBW color value based on trigger inputs. == Description == The **Remember RGBW Color Value** component allows you to store an incoming RGBW color value when the '''Remember''' clock input is triggered, and recall the stored value when the '''Recall''' clock input is triggered. This is useful for temporarily holding RGBW color states or creating memory-based lighting effects in LED...")
• 02:5902:59, 24 August 2025 RGBW Color Snapshot (hist | edit) [1,016 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRGBWColorSnapshot.png == Summary == Captures the current RGBW color value when triggered. == Description == The **RGBW Color Snapshot** component stores the incoming RGBW color value when the '''Snapshot''' clock input is triggered and outputs it until the next snapshot occurs. This is useful for capturing specific RGBW color states for later use in LEDs, displays, or visual effects. <b>Diagram:</b> Image:TArduinoRGBWColorSnapshot.Prev...")
• 02:5202:52, 24 August 2025 RGBW Alpha Color Mux(Multi channel Switch) (hist | edit) [1,282 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRGBWAlphaColorMux.png == Summary == Selects one input from multiple RGBW alpha color channels to route to a single output. == Description == The **RGBW Alpha Color Mux** component allows one of several RGBW alpha color inputs to be routed to a single output based on the '''Select''' input. The number of input channels is configurable, and the '''Initial Channel''' property sets which input is selected at startup. This is useful for dynamical...")
• 02:2602:26, 24 August 2025 Color Sensor (Taos TCS230, TCS3200, TCS3210) (hist | edit) [1,734 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoColorSensorTCS.png == Summary == Detects color and outputs analog values for red, green, blue, and clear channels. == Description == The **Color Sensor (Taos TCS230, TCS3200, TCS3210)** component measures the intensity of red, green, blue, and clear light using a programmable frequency output. Frequency scaling can be adjusted to change sensitivity, and individual color channels can be scaled using the '''Scale Dividers'''. This sensor is id...")
• 02:2002:20, 24 August 2025 RGBW Alpha Color To Analog (hist | edit) [1,188 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoRGBWAlphaColorToAnalog.png == Summary == Splits an RGBW alpha color input into separate analog red, green, blue, white, and alpha outputs. == Description == The **RGBW Alpha Color To Analog** component takes a single RGBW alpha color input and separates it into individual analog signals for the red, green, blue, white, and alpha channels. This is useful for driving analog-controlled RGBW LEDs, displays, or other systems that require separate c...")
• 02:1802:18, 24 August 2025 Analog To RGBW Alpha Color (hist | edit) [1,335 bytes] Visuino (talk | contribs) (Created page with "Image:TArduinoAnalogToRGBWAlphaColor.png == Summary == Combines separate analog red, green, blue, white, and alpha inputs into a single RGBW alpha color output. == Description == The **Analog To RGBW Alpha Color** component merges individual analog signals for red, green, blue, white, and alpha channels into one RGBW alpha color output. An '''Initial Value''' can be set at startup to define the starting RGBW alpha color. This is useful for translating ana...")