diff --git a/content/hardware/03.nano/boards/nano-matter/tutorials/08.ml-magic-wand/content.md b/content/hardware/03.nano/boards/nano-matter/tutorials/08.ml-magic-wand/content.md
index bfb586acdf..f267dfc80e 100644
--- a/content/hardware/03.nano/boards/nano-matter/tutorials/08.ml-magic-wand/content.md
+++ b/content/hardware/03.nano/boards/nano-matter/tutorials/08.ml-magic-wand/content.md
@@ -48,7 +48,7 @@ The wand can detect two gestures drawn in the air: **"W" (wing gesture)** and **
### Software Requirements
- [Arduino IDE 2.0+](https://www.arduino.cc/en/software) or [Arduino Cloud Editor](https://create.arduino.cc/editor)
-- [Modulino library](https://github.com/arduino-libraries/Modulino). This library adds the support for the Modulinos, you can install it from the **Library Manager** in the Arduino IDE.
+- [Modulino library](https://github.com/arduino-libraries/Modulino). This library adds the support for the Modulino nodes, you can install it from the **Library Manager** in the Arduino IDE.
- [Silicon Labs core](https://github.com/SiliconLabs/arduino). This enables the Silicon Labs hardware including the Arduino Nano Matter support. You can install it from the **Boards Manager** in the Arduino IDE.
### Download the Project Code
@@ -108,7 +108,7 @@ The Modulino are daisy-chained leveraging the Qwiic I2C connection with the Nano
### 3D Printed Parts
-You can mount the Nano Matter and the Modulinos on a custom 3D printed or laser cut base. Download the 3D files from [here](assets/3d-files.zip).
+You can mount the Nano Matter and the Modulino nodes on a custom 3D printed or laser cut base. Download the 3D files from [here](assets/3d-files.zip).
@@ -392,7 +392,7 @@ typedef struct model_output {
typedef float acc_data_t;
```
-We define some function prototypes to manage the Modulino Pixels and the Modulino Movement accelerometer data. Also, the classes for the Modulinos are declared.
+We define some function prototypes to manage the Modulino Pixels and the Modulino Movement accelerometer data. Also, the classes for the Modulino Nodes are declared.
```arduino
ModulinoColor OFF(0, 0, 0);
diff --git a/content/hardware/03.nano/carriers/nano-connector-carrier/datasheet/datasheet.md b/content/hardware/03.nano/carriers/nano-connector-carrier/datasheet/datasheet.md
index 4f6e343a09..a2462e1988 100644
--- a/content/hardware/03.nano/carriers/nano-connector-carrier/datasheet/datasheet.md
+++ b/content/hardware/03.nano/carriers/nano-connector-carrier/datasheet/datasheet.md
@@ -12,7 +12,7 @@ author: Christopher Méndez
The Nano Connector Carrier is a practical solution for expanding the capabilities of our Nano product family. It is plug-and-play compatible with Qwiic and Grove modules, making rapid prototyping easier than ever.
-Whether diving into MicroPython or Matter, building with Modulinos, or developing AI-powered applications, this carrier provides a simple platform for bringing your ideas to life.
+Whether diving into MicroPython or Matter, building with Modulino® nodes, or developing AI-powered applications, this carrier provides a simple platform for bringing your ideas to life.
The onboard microSD card slot unlocks new possibilities for data logging, Edge AI and real-time storage needs.
@@ -26,16 +26,16 @@ Industrial Automation, Rapid Prototyping, Proof of Concept, Edge AI, Research an
**Industrial Automation:**
- **Data Logging:** Data Logger as a compact, all-in-one device for efficient data collection and storage, ideal for IoT and sensor-based applications. With Nano boards advanced features and a compact design, it simplifies sensor interfacing, data management, and storage, making it perfect for smart homes, industrial monitoring, and research projects.
-- **Predictive Maintenance:** Leverage the powerful features of the Nano Connector Carrier to develop a robust predictive maintenance prototype for industrial machinery. Utilize Modulino to monitor key operational parameters and detect anomalies or early signs of wear, enabling proactive maintenance and reducing downtime. Enhance this system with the Nano 33 BLE Sense, which continuously gathers crucial environmental data, including temperature, humidity, and vibrations to assess the overall health of the machinery.
+- **Predictive Maintenance:** Leverage the powerful features of the Nano Connector Carrier to develop a robust predictive maintenance prototype for industrial machinery. Utilize Modulino® nodes to monitor key operational parameters and detect anomalies or early signs of wear, enabling proactive maintenance and reducing downtime. Enhance this system with the Nano 33 BLE Sense, which continuously gathers crucial environmental data, including temperature, humidity, and vibrations to assess the overall health of the machinery.
- **Proof of Concept:** Expand your Nano board's capabilities with Nano Connector Carrier. The Nano Connector Carrier is ready for use with a wide range of external hardware components or modules, covering all your needs, from embedded sensing to actuation.
**Prototyping:**
- **Compact Device:** Effortlessly integrate the Connector Carrier into your interactive prototype, regardless of whether the Nano board is based on. Its plug-and-play sensors and actuators make development seamless. Whether using modules from our Qwiic or Grove series, its compact design allows you to experiment in small spaces, making it a perfect platform for testing and validating your tech ideas.
-- **Smart Home:** Easily prototype any smart device that can monitor and adjust temperature, humidity, or occupancy levels by combining Nano Connector Carrier, Modulinos and Nano Matter. Integrate with Matter-compatible smart home systems like Alexa or Google Home for frictionless voice control and automation.
-- **Controller:** Using the Nano Connector Carrier, you can easily prototype a versatile RC - MIDI - RF - BLE - HID - DMX controller for your projects. With plug-and-play support for sensors and actuators, you can create custom interfaces that respond to touch, motion or even pressure. The compact design allows for a fully portable setup using Modulinos or third-party sensors.
+- **Smart Home:** Easily prototype any smart device that can monitor and adjust temperature, humidity, or occupancy levels by combining Nano Connector Carrier, Modulino® nodes and Nano Matter. Integrate with Matter-compatible smart home systems like Alexa or Google Home for frictionless voice control and automation.
+- **Controller:** Using the Nano Connector Carrier, you can easily prototype a versatile RC - MIDI - RF - BLE - HID - DMX controller for your projects. With plug-and-play support for sensors and actuators, you can create custom interfaces that respond to touch, motion or even pressure. The compact design allows for a fully portable setup using Modulino® nodes or third-party sensors.
**Education:**
-- **Micropython Learning:** Easily dive into MicroPython with the Nano Connector Carrier, Modulinos and Nano ESP32 as your learning platform. Its plug-and-play support for sensors and actuators allows you to experiment with real-world applications right away, whether you're reading sensor data, controlling LEDs, or building interactive projects.
+- **Micropython Learning:** Easily dive into MicroPython with the Nano Connector Carrier, Modulino® nodes and Nano ESP32 as your learning platform. Its plug-and-play support for sensors and actuators allows you to experiment with real-world applications right away, whether you're reading sensor data, controlling LEDs, or building interactive projects.
- **Cross-Disciplinary Student Projects:** The Connector Carrier accelerates interdisciplinary collaboration by enabling rapid prototyping in classroom and lab environments. Its compact, modular design allows students across various fields (including engineering, computer science and the arts) to quickly develop, test, and refine ideas using Arduino Nano boards. Students can seamlessly integrate sensors, actuators and communication modules with built-in connectivity and expansion options, fostering hands-on experimentation and innovation.
- **Sustainability and Green Tech:** Energy Management project where students can design and test systems that monitor or reduce energy use in buildings or devices, promoting sustainability and teaching about renewable energy or energy efficiency, within integrated solar or wind power systems.
@@ -77,7 +77,7 @@ Setting the switch to a specific position (3V3 or 5V) also manages the voltage o
### Qwiic I2C Connector
-The Qwiic connector is connected to the standard I2C bus on the board (via A4 and A5 pins). It is powered via +3.3 VDC, following the Qwiic standard system, making the Nano Connector Carrier compatible with the Arduino Modulino nodes.
+The Qwiic connector is connected to the standard I2C bus on the board (via A4 and A5 pins). It is powered via +3.3 VDC, following the Qwiic standard system, making the Nano Connector Carrier compatible with the Arduino Modulino® nodes.
Its logic level is fixed to +3.3 VDC, which is translated to the host Nano board voltage defined by the board selector switch.
@@ -118,7 +118,7 @@ The Nano Connector Carrier exposes all the Nano host board connections and commu
### Related Products
-- Arduino Nano (A000005)
+- Nano (A000005)
- Nano 33 BLE (ABX00030)
- Nano 33 BLE Rev2 (ABX00071 / ABX00072)
- Nano 33 BLE Sense (ABX00031)
@@ -128,7 +128,7 @@ The Nano Connector Carrier exposes all the Nano host board connections and commu
- Nano Every (ABX00028)
- Nano Matter (ABX00112 / ABX00137)
- Nano RP2040 Connect (ABX00053)
-- Arduino Modulino nodes
+- Modulino® nodes
## Power and Ratings
### Recommended Operating Conditions
diff --git a/content/hardware/03.nano/carriers/nano-connector-carrier/tutorials/getting-started-nano-connector-carrier/content.md b/content/hardware/03.nano/carriers/nano-connector-carrier/tutorials/getting-started-nano-connector-carrier/content.md
index d6dc6dc0cb..338819b294 100644
--- a/content/hardware/03.nano/carriers/nano-connector-carrier/tutorials/getting-started-nano-connector-carrier/content.md
+++ b/content/hardware/03.nano/carriers/nano-connector-carrier/tutorials/getting-started-nano-connector-carrier/content.md
@@ -37,7 +37,7 @@ The Nano Connector Carrier includes both QWIIC and Grove connectors for expandin
#### Qwiic Connector
-The Nano Connector Carrier features a single Qwiic connector, allowing you to easily interface with Arduino Modulinos and other Qwiic-based sensors and modules.
+The Nano Connector Carrier features a single Qwiic connector, allowing you to easily interface with Arduino Modulino nodes and other Qwiic-based sensors and modules.
@@ -50,7 +50,7 @@ The Qwiic connector uses a 4-pin JST SH connector (P/N: SM04B-SRSS-TB(LF)(SN)) w
| SDA | I²C Data (connected to the A4 pin of the Nano board) |
| SCL | I²C Clock (connected to the A5 pin of the Nano board) |
-A single Qwiic connector is all you need since it's designed to be daisy-chainable, allowing you to connect multiple Modulinos or other Qwiic-compatible devices in series. This connector makes it plug-and-play simple to add sensors, displays and other Qwicc-compatible devices to your project.
+A single Qwiic connector is all you need since it's designed to be daisy-chainable, allowing you to connect multiple Modulino nodes or other Qwiic-compatible devices in series. This connector makes it plug-and-play simple to add sensors, displays and other Qwicc-compatible devices to your project.
#### Grove Connectors
diff --git a/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-me/datasheet/datasheet.md b/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-me/datasheet/datasheet.md
index 95add1dfde..8868b9fc81 100644
--- a/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-me/datasheet/datasheet.md
+++ b/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-me/datasheet/datasheet.md
@@ -44,7 +44,7 @@ Predictive maintenance, asset tracking, smart building systems, industrial autom
- Portenta Mid Carrier (SKU: ASX00055) (x1)
- Portenta Mid Carrier Proto Shield (x1)
- Arduino Pro 4G GNSS Module Global (SKU: TPX00200) (x1)
-- Modulinos (x7):
+- Modulino® nodes (x7):
- Knob (encoder with push button) (x1)
- Pixels (8x RGB LEDs) (x1)
- Distance (Time-of-Flight sensor) (x1)
@@ -283,7 +283,7 @@ The Arduino Portenta Proto Kit ME offers significant mechanical flexibility, sup
### Kit Dimensions
-The figures below show the main dimensions of the kit in a stacked configuration that includes the Portenta H7 board, the Portenta Mid Carrier, the Portenta Mid Carrier Proto Shield, the Arduino Pro 4G Module, one Modulino (Pixels), and the Nicla Sense ME board. All dimensions are in millimeters (mm).
+The figures below show the main dimensions of the kit in a stacked configuration that includes the Portenta H7 board, the Portenta Mid Carrier, the Portenta Mid Carrier Proto Shield, the Arduino Pro 4G Module, one Modulino® node (Pixels), and the Nicla Sense ME board. All dimensions are in millimeters (mm).
- Top View: Displays the width and length of the stacked components configuration of the kit.
diff --git a/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-me/features.md b/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-me/features.md
index ad730f06ac..31f3793af5 100644
--- a/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-me/features.md
+++ b/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-me/features.md
@@ -1,6 +1,6 @@
-The **Portenta Proto Kit Motion ME** is a versatile kit designed for prototyping environmental monitoring and motion detection applications. It includes powerful components such as the Portenta H7 board, the Portenta Mid Carrier, the Proto Shield, several Modulinos, the Arduino Pro 4G Module and the Nicla Sense ME board, allowing users to collect accurate data and develop innovative solutions for predictive maintenance, asset tracking, smart building systems and more.
+The **Portenta Proto Kit Motion ME** is a versatile kit designed for prototyping environmental monitoring and motion detection applications. It includes powerful components such as the Portenta H7 board, the Portenta Mid Carrier, the Proto Shield, several Modulino nodes, the Arduino Pro 4G Module and the Nicla Sense ME board, allowing users to collect accurate data and develop innovative solutions for predictive maintenance, asset tracking, smart building systems and more.
@@ -35,7 +35,7 @@ The Portenta Mid Carrier Proto Shield simplifies hardware prototyping with inter
-Modulinos are plug-and-play sensors and actuators that connect easily via the Portenta Mid Carrier Proto Shield's Qwiic connector. Designed for intuitive use, they include options like knobs for fine adjustments, LEDs for visual feedback, and sensors for measuring distance, movement, temperature and humidity, making them ideal for building and expanding projects in a fast way and with minimum complexity.
+Modulino nodes are plug-and-play sensors and actuators that connect easily via the Portenta Mid Carrier Proto Shield's Qwiic connector. Designed for intuitive use, they include options like knobs for fine adjustments, LEDs for visual feedback, and sensors for measuring distance, movement, temperature and humidity, making them ideal for building and expanding projects in a fast way and with minimum complexity.
diff --git a/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-ve/datasheet/datasheet.md b/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-ve/datasheet/datasheet.md
index 4d47055f5c..519b10e10e 100644
--- a/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-ve/datasheet/datasheet.md
+++ b/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-ve/datasheet/datasheet.md
@@ -46,7 +46,7 @@ Quality inspection, automated object detection, industrial automation, machine v
- Portenta Mid Carrier (SKU: ASX00055) (x1)
- Portenta Mid Carrier Proto Shield (SKU: ASX00072) (x1)
- Arduino Pro 4G GNSS Module Global (SKU: TPX00200) (x1)
-- Modulinos (x7):
+- Modulino® nodes (x7):
- Knob (encoder with push button) (x1)
- Pixels (8x RGB LEDs) (x1)
- Distance (Time-of-Flight sensor) (x1)
@@ -196,7 +196,7 @@ Below is a summary of the most important specifications of the Portenta Mid Carr
| **Feature** | **Specification** |
|---------------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
-| **Compatibility** | Portenta family boards, Nicla modules, Modulinos and Arduino UNO shields |
+| **Compatibility** | Portenta family boards, Nicla modules, Modulino® nodes and Arduino UNO shields |
| **Connectors** | 44-pin headers for the Portenta Mid Carrier interface (x2), ESLOV connectors (x2), QWIIC connector (x1), Arduino UNO shields headers (x2), dedicated mechanical interfaces for Nicla boards and Modulino® modules |
| **Operating Voltage** | +7-30 VDC (via dedicated power jack) |
| **Operating Temperature** | -40 °C to +85 °C |
@@ -342,7 +342,7 @@ The Arduino Portenta Proto Kit VE offers significant mechanical flexibility, sup
### Kit Dimensions
-The figures below show the main dimensions of the kit in a stacked configuration that includes the Portenta H7 board, the Portenta Mid Carrier, the Portenta Mid Carrier Proto Shield, the Arduino Pro 4G Module, one Modulino (Pixels) and the Nicla Vision board. While the Nicla Sense Env is part of the kit, it is not physically stacked with these components. Instead, it connects to the system via an ESLOV cable, whose length may vary depending on the user's setup. As a result, the Nicla Sense Env and its connection are not represented in this stacked configuration. All dimensions are in millimeters (mm).
+The figures below show the main dimensions of the kit in a stacked configuration that includes the Portenta H7 board, the Portenta Mid Carrier, the Portenta Mid Carrier Proto Shield, the Arduino Pro 4G Module, one Modulino® node (Pixels) and the Nicla Vision board. While the Nicla Sense Env is part of the kit, it is not physically stacked with these components. Instead, it connects to the system via an ESLOV cable, whose length may vary depending on the user's setup. As a result, the Nicla Sense Env and its connection are not represented in this stacked configuration. All dimensions are in millimeters (mm).
- Top View: Displays the width and length of the stacked components configuration of the kit.
diff --git a/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-ve/features.md b/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-ve/features.md
index 04d0eae49c..e30fcf471e 100644
--- a/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-ve/features.md
+++ b/content/hardware/05.pro-solutions/solutions-and-kits/portenta-proto-kit-ve/features.md
@@ -1,6 +1,6 @@
-The **Portenta Proto Kit Vision VE** is a versatile kit designed for prototyping machine vision and environmental monitoring applications. It includes powerful components such as the Portenta H7 board, the Portenta Mid Carrier, the Proto Shield, several Modulinos, the Arduino Pro 4G Module and the Nicla Vision board, enabling users to develop advanced solutions for object recognition, people counting, air quality monitoring and more.
+The **Portenta Proto Kit Vision VE** is a versatile kit designed for prototyping machine vision and environmental monitoring applications. It includes powerful components such as the Portenta H7 board, the Portenta Mid Carrier, the Proto Shield, several Modulino nodes, the Arduino Pro 4G Module and the Nicla Vision board, enabling users to develop advanced solutions for object recognition, people counting, air quality monitoring and more.
@@ -35,7 +35,7 @@ The Portenta Mid Carrier Proto Shield simplifies hardware prototyping with inter
-Modulinos are plug-and-play sensors and actuators that connect easily via the Portenta Mid Carrier Proto Shield's Qwiic connector. Designed for intuitive use, they include options like knobs for fine adjustments, LEDs for visual feedback, and sensors for measuring distance, movement, temperature and humidity, making them ideal for building and expanding projects in a fast way and with minimum complexity.
+Modulino nodes are plug-and-play sensors and actuators that connect easily via the Portenta Mid Carrier Proto Shield's Qwiic connector. Designed for intuitive use, they include options like knobs for fine adjustments, LEDs for visual feedback, and sensors for measuring distance, movement, temperature and humidity, making them ideal for building and expanding projects in a fast way and with minimum complexity.
diff --git a/content/hardware/09.kits/maker/plug-and-make-kit/datasheet/datasheet.md b/content/hardware/09.kits/maker/plug-and-make-kit/datasheet/datasheet.md
index 7a21d74620..2a321913f7 100644
--- a/content/hardware/09.kits/maker/plug-and-make-kit/datasheet/datasheet.md
+++ b/content/hardware/09.kits/maker/plug-and-make-kit/datasheet/datasheet.md
@@ -180,7 +180,7 @@ The Modulino® nodes offer a versatile and user-friendly introduction to IoT and
The Modulino® nodes provide a straightforward introduction to IoT and electronics. These nodes connect easily using Qwiic cables for I2C communication, simplifying the setup. This modular design is ideal for both beginners and experienced users.
-All Modulinos® share common features such as standardized connectors, blue solder mask, and consistent mechanical dimensions and hole locations, ensuring compatibility.
+All Modulino® nodes share common features such as standardized connectors, blue solder mask, and consistent mechanical dimensions and hole locations, ensuring compatibility.
#### Mechanical Information
@@ -203,7 +203,7 @@ Each Modulino® node of the kit is designed to be connected to the Arduino® UNO
In the case multiple nodes of the same kind are connected to the I2C "daisy-chain", they may have the same I2C default address, causing communication problems. All Modulino® nodes are designed to have the possibility of having different I2C addresses via hardware or firmware changes as presented in the following table.
-| **Board Silk Name** | **Sensor/Actuator** | **Modulino I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
+| **Board Silk Name** | **Sensor/Actuator** | **Modulino® I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
| ------------------- | ----------------------- | ------------------------------ | ----------------------------------------------- | ------------------------------ |
| MODULINO MOVEMENT | LSM6DSOXTR | 0x6A | 0x6A, 0x6B (via solder jumper) | 0x6A & 0x7E |
| MODULINO DISTANCE | VL53L4CDV0DH/1 | 0x29 | Any custom address (via software configuration) | 0x29 |
@@ -213,7 +213,7 @@ In the case multiple nodes of the same kind are connected to the I2C "daisy-chai
| MODULINO PIXELS | Eight LC8822-2020 | 0x6C | Any custom address (via software configuration) | 0x36 |
| MODULINO BUTTONS | Three SPST Push Buttons | 0x7C | Any custom address (via software configuration) | 0x3E |
-**Please note:** When scanning for I2C addresses connected to the bus, the boards might identify themselves using the **Hardware I2C Address** listed in the last column of the table. However, you should always use the **Modulino I2C Address** provided in your code if using the official Modulino library.
+**Please note:** When scanning for I2C addresses connected to the bus, the boards might identify themselves using the **Hardware I2C Address** listed in the last column of the table. However, you should always use the **Modulino® I2C Address** provided in your code if using the official Modulino® library.
With the provided software, users can change the default I2C address of the dedicated I2C interface controller firmware. Assigning different addresses allows users to connect multiple boards of the same type in a chain.
To facilitate this, a white rectangle is positioned on the bottom silk of the board, where users can write the new I2C address directly on the board itself.
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-buttons/datasheet/datasheet.md b/content/hardware/11.accessories/modulino-nodes/modulino-buttons/datasheet/datasheet.md
index 6cc018c18d..6396a863be 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-buttons/datasheet/datasheet.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-buttons/datasheet/datasheet.md
@@ -60,7 +60,7 @@ Maker, beginner, education
- Microcontroller idle: ~3.4 mA
## Power Tree
-The power tree for the modulino can be consulted below:
+The power tree for the Modulino® node can be consulted below:
@@ -127,7 +127,7 @@ These pads and the Qwiic connectors share the same I2C bus at 3.3 V.
- Hole spacing: 16 mm vertically, 32 mm horizontally
### I2C Address Reference
-| **Board Silk Name** | **Sensor/Actuator** | **Modulino I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
+| **Board Silk Name** | **Sensor/Actuator** | **Modulino® I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
|---------------------|-------------------------|--------------------------------|---------------------------------------------|--------------------------------|
| MODULINO BUTTONS | 3× SPST Push Buttons | 0x7C | Any custom address (via software config.) | 0x3E |
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-buttons/tutorials/how-buttons-ardu/how-to-buttons-ardu.md b/content/hardware/11.accessories/modulino-nodes/modulino-buttons/tutorials/how-buttons-ardu/how-to-buttons-ardu.md
index 89ab0b48d9..a6ed9b12f7 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-buttons/tutorials/how-buttons-ardu/how-to-buttons-ardu.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-buttons/tutorials/how-buttons-ardu/how-to-buttons-ardu.md
@@ -13,7 +13,7 @@ software:
- web-editor
---
The Modulino Buttons is a modular sensor that provides tactile input and visual feedback, making it perfect to add interactive controls to your projects!
-The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple modulinos in a very simple way. In addition to the QWIIC's connectors, the Modulinos also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
+The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple Modulino nodes in a very simple way. In addition to the QWIIC's connectors, the Modulino nodes also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
@@ -114,7 +114,7 @@ When QWIIC is not available, you can use the exposed solderable pins on the modu
-## Daisy-Chaining Multiple Modulinos
+## Daisy-Chaining Multiple Modulino Nodes
Regardless of whether you connect the first Modulino via QWIIC or through the solderable pins, you can still take advantage of the extra QWIIC connector to daisy-chain additional modules.
Each Modulino includes two QWIIC connectors wired in parallel, allowing you to connect one module to the next in a chain. As long as each module is configured with a unique I²C address, they can all communicate on the same bus.
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-buttons/tutorials/how-buttons-mp/how-to-buttons-mp.md b/content/hardware/11.accessories/modulino-nodes/modulino-buttons/tutorials/how-buttons-mp/how-to-buttons-mp.md
index a9298e6eee..58ba7bbffa 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-buttons/tutorials/how-buttons-mp/how-to-buttons-mp.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-buttons/tutorials/how-buttons-mp/how-to-buttons-mp.md
@@ -13,7 +13,7 @@ software:
- web-editor
---
The Modulino Buttons is a modular sensor that provides tactile input and visual feedback, making it perfect to add interactive controls to your projects!
-The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple modulinos in a very simple way. In addition to the QWIIC's connectors, the Modulinos also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
+The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple Modulino nodes in a very simple way. In addition to the QWIIC's connectors, the Modulino nodes also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
@@ -114,7 +114,7 @@ When QWIIC is not available, you can use the exposed solderable pins on the modu
-## Daisy-Chaining Multiple Modulinos
+## Daisy-Chaining Multiple Modulino Nodes
Regardless of whether you connect the first Modulino via QWIIC or through the solderable pins, you can still take advantage of the extra QWIIC connector to daisy-chain additional modules.
Each Modulino includes two QWIIC connectors wired in parallel, allowing you to connect one module to the next in a chain. As long as each module is configured with a unique I²C address, they can all communicate on the same bus.
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-buzzer/datasheet/datasheet.md b/content/hardware/11.accessories/modulino-nodes/modulino-buzzer/datasheet/datasheet.md
index 245814c472..1603e9632a 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-buzzer/datasheet/datasheet.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-buzzer/datasheet/datasheet.md
@@ -57,7 +57,7 @@ Maker, beginner, education
## Power Tree
-The power tree for the modulino can be consulted below:
+The power tree for the Modulino® node can be consulted below:
@@ -123,7 +123,7 @@ These pads and the Qwiic connectors share the same I2C bus at 3.3 V.
- Hole spacing: 16 mm vertically, 32 mm horizontally
### I2C Address Reference
-| **Board Silk Name** | **Sensor/Actuator** | **Modulino I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
+| **Board Silk Name** | **Sensor/Actuator** | **Modulino® I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
|---------------------|---------------------|--------------------------------|---------------------------------------|--------------------------------|
| MODULINO BUZZER | 1× Buzzer | 0x3C | Any custom address (via FW config) | 0x1E |
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-buzzer/tutorials/how-buzzer-ardu/content.md b/content/hardware/11.accessories/modulino-nodes/modulino-buzzer/tutorials/how-buzzer-ardu/content.md
index 719e7b8870..640cd3a937 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-buzzer/tutorials/how-buzzer-ardu/content.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-buzzer/tutorials/how-buzzer-ardu/content.md
@@ -13,7 +13,7 @@ software:
- web-editor
---
The Modulino Buzzer is a modular sensor that generates audio output, making it perfect to add sound feedback to your projects!
-The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple modulinos in a very simple way. In addition to the QWIIC's connectors, the Modulinos also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
+The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple Modulino nodes in a very simple way. In addition to the QWIIC's connectors, the Modulino nodes also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
## Hardware Specifications
@@ -132,7 +132,7 @@ When QWIIC is not available, you can use the exposed solderable pins on the modu
-## Daisy-Chaining Multiple Modulinos
+## Daisy-Chaining Multiple Modulino Nodes
Regardless of whether you connect the first Modulino via QWIIC or through the solderable pins, you can still take advantage of the extra QWIIC connector to daisy-chain additional modules.
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-buzzer/tutorials/how-buzzer-mp/content.md b/content/hardware/11.accessories/modulino-nodes/modulino-buzzer/tutorials/how-buzzer-mp/content.md
index 81a7fd9c44..44dce2d435 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-buzzer/tutorials/how-buzzer-mp/content.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-buzzer/tutorials/how-buzzer-mp/content.md
@@ -13,7 +13,7 @@ software:
- web-editor
---
The Modulino Buzzer is a modular sensor that generates audio output, making it perfect to add sound feedback to your projects!
-The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple modulinos in a very simple way. In addition to the QWIIC's connectors, the Modulinos also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
+The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple Modulino nodes in a very simple way. In addition to the QWIIC's connectors, the Modulino nodes also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
## Hardware Specifications
@@ -131,7 +131,7 @@ When QWIIC is not available, you can use the exposed solderable pins on the modu
-## Daisy-Chaining Multiple Modulinos
+## Daisy-Chaining Multiple Modulino Nodes
Regardless of whether you connect the first Modulino via QWIIC or through the solderable pins, you can still take advantage of the extra QWIIC connector to daisy-chain additional modules.
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-distance/datasheet/datasheet.md b/content/hardware/11.accessories/modulino-nodes/modulino-distance/datasheet/datasheet.md
index 7ab91a92c4..6b2914b458 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-distance/datasheet/datasheet.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-distance/datasheet/datasheet.md
@@ -57,7 +57,7 @@ Maker, beginner, education
- ~24 mA during active measurement, ~4 mA I2C idle
## Power Tree
-The power tree for the modulino can be consulted below:
+The power tree for the Modulino® node can be consulted below:
@@ -115,7 +115,7 @@ These pads and the Qwiic connectors share the same I2C bus. You can optionally s
- Hole spacing: 16 mm vertically, 32 mm horizontally
### I2C Address Reference
-| **Board Silk Name** | **Sensor** | **Modulino I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
+| **Board Silk Name** | **Sensor** | **Modulino® I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
|---------------------|------------------|--------------------------------|-------------------------------------------|--------------------------------|
| MODULINO DISTANCE | VL53L4CDV0DH/1 | 0x29 | Any custom address (via software config.) | 0x29 |
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-distance/tutorials/how-distance-ardu/content.md b/content/hardware/11.accessories/modulino-nodes/modulino-distance/tutorials/how-distance-ardu/content.md
index 04d0fccfdf..f4a6ac490b 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-distance/tutorials/how-distance-ardu/content.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-distance/tutorials/how-distance-ardu/content.md
@@ -13,7 +13,7 @@ software:
- web-editor
---
The Modulino Distance is a modular sensor that measures distance using Time-of-Flight (ToF) technology, making it perfect to add precise distance sensing and depth mapping to your projects!
-The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple modulinos in a very simple way. In addition to the QWIIC's connectors, the Modulinos also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
+The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple Modulino nodes in a very simple way. In addition to the QWIIC's connectors, the Modulino nodes also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
# General Characteristics
@@ -110,7 +110,7 @@ When QWIIC is not available, you can use the exposed solderable pins on the modu
-## Daisy-Chaining Multiple Modulinos
+## Daisy-Chaining Multiple Modulino Nodes
Regardless of whether you connect the first Modulino via QWIIC or through the solderable pins, you can still take advantage of the extra QWIIC connector to daisy-chain additional modules. Each Modulino includes two QWIIC connectors wired in parallel, allowing you to connect one module to the next in a chain. As long as each module is configured with a unique I²C address, they can all communicate on the same bus. This approach keeps your setup clean, modular, and expandable without adding extra wiring complexity.
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-distance/tutorials/how-distance-mp/content.md b/content/hardware/11.accessories/modulino-nodes/modulino-distance/tutorials/how-distance-mp/content.md
index 501b0bd15c..624284d225 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-distance/tutorials/how-distance-mp/content.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-distance/tutorials/how-distance-mp/content.md
@@ -13,7 +13,7 @@ software:
- web-editor
---
The Modulino Distance is a modular sensor that measures distance using Time-of-Flight (ToF) technology, making it perfect to add precise distance sensing and depth mapping to your projects!
-The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple modulinos in a very simple way. In addition to the QWIIC's connectors, the Modulinos also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
+The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple Modulino nodes in a very simple way. In addition to the QWIIC's connectors, the Modulino nodes also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
# General Characteristics
@@ -109,7 +109,7 @@ When QWIIC is not available, you can use the exposed solderable pins on the modu
-## Daisy-Chaining Multiple Modulinos
+## Daisy-Chaining Multiple Modulino Nodes
Regardless of whether you connect the first Modulino via QWIIC or through the solderable pins, you can still take advantage of the extra QWIIC connector to daisy-chain additional modules. Each Modulino includes two QWIIC connectors wired in parallel, allowing you to connect one module to the next in a chain. As long as each module is configured with a unique I²C address, they can all communicate on the same bus. This approach keeps your setup clean, modular, and expandable without adding extra wiring complexity.
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-knob/datasheet/datasheet.md b/content/hardware/11.accessories/modulino-nodes/modulino-knob/datasheet/datasheet.md
index 71f4ed744e..d9e1f2a7f8 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-knob/datasheet/datasheet.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-knob/datasheet/datasheet.md
@@ -58,7 +58,7 @@ Maker, beginner, education
- ~3.4 mA (microcontroller + rotary encoder interface)
## Power Tree
-The power tree for the modulino can be consulted below:
+The power tree for the Modulino® node can be consulted below:
@@ -125,7 +125,7 @@ These pads and the Qwiic connectors share the same I2C bus at 3.3 V.
- Hole spacing: 16 mm vertically, 32 mm horizontally
### I2C Address Reference
-| **Board Silk Name** | **Sensor** | **Modulino I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
+| **Board Silk Name** | **Sensor** | **Modulino® I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
|---------------------|--------------------------|--------------------------------|---------------------------------------|--------------------------------|
| MODULINO KNOB | Quadrature Encoder + MCU | 0x76 | Any custom address (via FW config) | 0x3A |
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-knob/tutorials/how-knob-ardu/content.md b/content/hardware/11.accessories/modulino-nodes/modulino-knob/tutorials/how-knob-ardu/content.md
index fcd90f7417..9ffb5506b5 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-knob/tutorials/how-knob-ardu/content.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-knob/tutorials/how-knob-ardu/content.md
@@ -130,7 +130,7 @@ When QWIIC is not available, you can use the exposed solderable pins on the modu
-### Daisy-Chaining Multiple Modulinos
+### Daisy-Chaining Multiple Modulino Nodes
Regardless of whether you connect the first Modulino via QWIIC or through the solderable pins, you can still take advantage of the extra QWIIC connector to daisy-chain additional modules. Each Modulino includes two QWIIC connectors wired in parallel, allowing you to connect one module to the next in a chain. As long as each module is configured with a unique I²C address, they can all communicate on the same bus. This approach keeps your setup clean, modular, and expandable without adding extra wiring complexity.
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-knob/tutorials/how-knob-mp/content.md b/content/hardware/11.accessories/modulino-nodes/modulino-knob/tutorials/how-knob-mp/content.md
index 6f94c5d3c2..7cf862fba2 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-knob/tutorials/how-knob-mp/content.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-knob/tutorials/how-knob-mp/content.md
@@ -130,7 +130,7 @@ When QWIIC is not available, you can use the exposed solderable pins on the modu
-### Daisy-Chaining Multiple Modulinos
+### Daisy-Chaining Multiple Modulino Nodes
Regardless of whether you connect the first Modulino via QWIIC or through the solderable pins, you can still take advantage of the extra QWIIC connector to daisy-chain additional modules. Each Modulino includes two QWIIC connectors wired in parallel, allowing you to connect one module to the next in a chain. As long as each module is configured with a unique I²C address, they can all communicate on the same bus. This approach keeps your setup clean, modular, and expandable without adding extra wiring complexity.
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-movement/datasheet/datasheet.md b/content/hardware/11.accessories/modulino-nodes/modulino-movement/datasheet/datasheet.md
index 185c794d14..e5e8387794 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-movement/datasheet/datasheet.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-movement/datasheet/datasheet.md
@@ -71,7 +71,7 @@ Accelerometer: ~170 µA
Gyroscope: ~0.55 mA
## Power Tree
-The power tree for the modulino can be consulted below:
+The power tree for the Modulino® node can be consulted below:
@@ -139,7 +139,7 @@ These pads and the Qwiic connectors share the same I2C bus. You can optionally s
- Hole spacing: 16 mm vertically, 32 mm horizontally
### I2C Address Reference
-| **Board Silk Name** | **Sensor** | **Modulino I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
+| **Board Silk Name** | **Sensor** | **Modulino® I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
|---------------------|--------------|--------------------------------|------------------------------------|--------------------------------|
| MODULINO MOVEMENT | LSM6DSOXTR | 0x6A | 0x6A, 0x6B (via solder jumper) | 0x6A & 0x7E |
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-movement/tutorials/how-movement-ardu/content.md b/content/hardware/11.accessories/modulino-nodes/modulino-movement/tutorials/how-movement-ardu/content.md
index 4486d27e6b..37201fa215 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-movement/tutorials/how-movement-ardu/content.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-movement/tutorials/how-movement-ardu/content.md
@@ -13,7 +13,7 @@ software:
- web-editor
---
-The Modulino Movement is a modular sensor that measures acceleration and angular velocity, making it perfect to add motion sensing to your projects! The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple modulinos in a very simple way. In addition to the QWIIC's connectors, the Modulinos also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
+The Modulino Movement is a modular sensor that measures acceleration and angular velocity, making it perfect to add motion sensing to your projects! The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple Modulino nodes in a very simple way. In addition to the QWIIC's connectors, the Modulino nodes also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
# General Characteristics
@@ -144,7 +144,7 @@ When QWIIC is not available, you can use the exposed solderable pins on the modu
-## Daisy-Chaining Multiple Modulinos
+## Daisy-Chaining Multiple Modulino Nodes
Regardless of whether you connect the first Modulino via QWIIC or through the solderable pins, you can still take advantage of the extra QWIIC connector to daisy-chain additional modules. Each Modulino includes two QWIIC connectors wired in parallel, allowing you to connect one module to the next in a chain. As long as each module is configured with a unique I²C address, they can all communicate on the same bus as long as you select the correct I²C pins depending on your board. This approach keeps your setup clean, modular, and expandable without adding extra wiring complexity.
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-movement/tutorials/how-movement-mp/content.md b/content/hardware/11.accessories/modulino-nodes/modulino-movement/tutorials/how-movement-mp/content.md
index c997b92435..51b381802a 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-movement/tutorials/how-movement-mp/content.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-movement/tutorials/how-movement-mp/content.md
@@ -13,7 +13,7 @@ software:
- web-editor
---
-The Modulino Movement is a modular sensor that measures acceleration and angular velocity, making it perfect to add motion sensing to your projects! The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple modulinos in a very simple way. In addition to the QWIIC's connectors, the Modulinos also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
+The Modulino Movement is a modular sensor that measures acceleration and angular velocity, making it perfect to add motion sensing to your projects! The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple Modulino nodes in a very simple way. In addition to the QWIIC's connectors, the Modulino nodes also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
# General Characteristics
@@ -144,7 +144,7 @@ When QWIIC is not available, you can use the exposed solderable pins on the modu
-## Daisy-Chaining Multiple Modulinos
+## Daisy-Chaining Multiple Modulino Nodes
Regardless of whether you connect the first Modulino via QWIIC or through the solderable pins, you can still take advantage of the extra QWIIC connector to daisy-chain additional modules. Each Modulino includes two QWIIC connectors wired in parallel, allowing you to connect one module to the next in a chain. As long as each module is configured with a unique I²C address, they can all communicate on the same bus as long as you select the correct I²C pins depending on your board. This approach keeps your setup clean, modular, and expandable without adding extra wiring complexity.
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-pixels/datasheet/datasheet.md b/content/hardware/11.accessories/modulino-nodes/modulino-pixels/datasheet/datasheet.md
index 7cdb1673d4..75876f1a09 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-pixels/datasheet/datasheet.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-pixels/datasheet/datasheet.md
@@ -56,7 +56,7 @@ Maker, beginner, education
- Up to **33 mA per RGB LED** at full brightness * 8 LEDs (264 mA total), plus ~3.4 mA for the microcontroller. Actual usage depends on brightness and color settings.
## Power Tree
-The power tree for the modulino can be consulted below:
+The power tree for the Modulino® node can be consulted below:
@@ -126,7 +126,7 @@ It also has other I2C interface controller IC pins usable for other purposes or
### I2C Address Reference
-| **Board Silk Name** | **Sensor/Actuator** | **Modulino I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
+| **Board Silk Name** | **Sensor/Actuator** | **Modulino® I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
|---------------------|--------------------------|--------------------------------|------------------------------------------|--------------------------------|
| MODULINO PIXELS | 8× LC8822-2020 RGB LEDs | 0x6C | Any custom address (via FW config) | 0x36 |
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-pixels/tutorials/how-pixels-ardu/content.md b/content/hardware/11.accessories/modulino-nodes/modulino-pixels/tutorials/how-pixels-ardu/content.md
index ffd0be0aa3..6f3c75961d 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-pixels/tutorials/how-pixels-ardu/content.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-pixels/tutorials/how-pixels-ardu/content.md
@@ -13,7 +13,7 @@ software:
- web-editor
---
The Modulino Pixels is a modular sensor that generates RGB light effects, making it perfect to add colorful visual feedback to your projects!
-The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple modulinos in a very simple way. In addition to the QWIIC's connectors, the Modulinos also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
+The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple Modulino nodes in a very simple way. In addition to the QWIIC's connectors, the Modulino nodes also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
## Hardware Specifications
@@ -132,7 +132,7 @@ When QWIIC is not available, you can use the exposed solderable pins on the modu
-## Daisy-Chaining Multiple Modulinos
+## Daisy-Chaining Multiple Modulino Nodes
Regardless of whether you connect the first Modulino via QWIIC or through the solderable pins, you can still take advantage of the extra QWIIC connector to daisy-chain additional modules.
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-pixels/tutorials/how-pixels-mp/content.md b/content/hardware/11.accessories/modulino-nodes/modulino-pixels/tutorials/how-pixels-mp/content.md
index 7e00bfa71f..6efe49fb17 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-pixels/tutorials/how-pixels-mp/content.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-pixels/tutorials/how-pixels-mp/content.md
@@ -13,7 +13,7 @@ software:
- web-editor
---
The Modulino Pixels is a modular sensor that generates RGB light effects, making it perfect to add colorful visual feedback to your projects!
-The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple modulinos in a very simple way. In addition to the QWIIC's connectors, the Modulinos also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
+The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple Modulino nodes in a very simple way. In addition to the QWIIC's connectors, the Modulino nodes also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
## Hardware Specifications
@@ -134,7 +134,7 @@ When QWIIC is not available, you can use the exposed solderable pins on the modu
-## Daisy-Chaining Multiple Modulinos
+## Daisy-Chaining Multiple Modulino Nodes
Regardless of whether you connect the first Modulino via QWIIC or through the solderable pins, you can still take advantage of the extra QWIIC connector to daisy-chain additional modules.
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-thermo/datasheet/datasheet.md b/content/hardware/11.accessories/modulino-nodes/modulino-thermo/datasheet/datasheet.md
index bc1c75901c..b222bb0c63 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-thermo/datasheet/datasheet.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-thermo/datasheet/datasheet.md
@@ -58,7 +58,7 @@ The Modulino® Thermo node can be used in numerous scenarios within IoT and elec
- ~24.4 µA (at 14-bit resolution, 3.3 V)
## Power Tree
-The power tree for the modulino can be consulted below:
+The power tree for the Modulino® node can be consulted below:
@@ -110,7 +110,7 @@ These pads and the Qwiic connectors share the same I2C bus. You can optionally s
- Hole spacing: 16 mm vertically, 32 mm horizontally
### I2C Address Reference
-| **Board Silk Name** | **Sensor** | **Modulino I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
+| **Board Silk Name** | **Sensor** | **Modulino® I2C Address (HEX)** | **Editable Addresses (HEX)** | **Hardware I2C Address (HEX)** |
|---------------------|-----------|--------------------------------|------------------------------------------|--------------------------------|
| MODULINO THERMO | HS3003 | 0x44 | Any custom address (via software config) | 0x44 |
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-thermo/tutorials/how-thermo-ardu/content.md b/content/hardware/11.accessories/modulino-nodes/modulino-thermo/tutorials/how-thermo-ardu/content.md
index c7e5790141..6baf0c0fce 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-thermo/tutorials/how-thermo-ardu/content.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-thermo/tutorials/how-thermo-ardu/content.md
@@ -13,7 +13,7 @@ software:
- web-editor
---
The Modulino Thermo is a modular sensor that measures temperature and humidity, making it perfect to add environmental monitoring to your projects!
-The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple modulinos in a very simple way. In addition to the QWIIC's connectors, the Modulinos also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
+The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple Modulino nodes in a very simple way. In addition to the QWIIC's connectors, the Modulino nodes also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
# General Characteristics
@@ -96,7 +96,7 @@ When QWIIC is not available, you can use the exposed solderable pins on the modu
-## Daisy-Chaining Multiple Modulinos
+## Daisy-Chaining Multiple Modulino Nodes
Regardless of whether you connect the first Modulino via QWIIC or through the solderable pins, you can still take advantage of the extra QWIIC connector to daisy-chain additional modules.
diff --git a/content/hardware/11.accessories/modulino-nodes/modulino-thermo/tutorials/how-thermo-mp/content.md b/content/hardware/11.accessories/modulino-nodes/modulino-thermo/tutorials/how-thermo-mp/content.md
index 63cfd0f706..2f534ffdf6 100644
--- a/content/hardware/11.accessories/modulino-nodes/modulino-thermo/tutorials/how-thermo-mp/content.md
+++ b/content/hardware/11.accessories/modulino-nodes/modulino-thermo/tutorials/how-thermo-mp/content.md
@@ -13,7 +13,7 @@ software:
- web-editor
---
The Modulino Thermo is a modular sensor that measures temperature and humidity, making it perfect to add environmental monitoring to your projects!
-The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple modulinos in a very simple way. In addition to the QWIIC's connectors, the Modulinos also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
+The Modulino form factor is shaped with two QWIIC connectors and the I²C protocol integration, allowing the connection and programming of multiple Modulino nodes in a very simple way. In addition to the QWIIC's connectors, the Modulino nodes also expose solderable pins that can be used in multiple ways and make them compatible with boards that are not QWIIC compatible.
# General Characteristics
@@ -96,7 +96,7 @@ When QWIIC is not available, you can use the exposed solderable pins on the modu
-## Daisy-Chaining Multiple Modulinos
+## Daisy-Chaining Multiple Modulino Nodes
Regardless of whether you connect the first Modulino via QWIIC or through the solderable pins, you can still take advantage of the extra QWIIC connector to daisy-chain additional modules.
diff --git a/content/micropython/02.environment/03.modules/modules.md b/content/micropython/02.environment/03.modules/modules.md
index 3339394761..db19113ebe 100644
--- a/content/micropython/02.environment/03.modules/modules.md
+++ b/content/micropython/02.environment/03.modules/modules.md
@@ -36,7 +36,7 @@ In this example, `time.sleep()` introduces a delay. Built-in modules like `time`
## External Modules
-Some modules aren’t included with the default MicroPython installation and need to be installed separately. External modules, often provided by the community or specific hardware packages, extend MicroPython’s functionality. For example, the [Modulino library](https://github.com/arduino/arduino-modulino-mpy) is an external module that provides tools for working with Arduino Modulinos.
+Some modules aren’t included with the default MicroPython installation and need to be installed separately. External modules, often provided by the community or specific hardware packages, extend MicroPython’s functionality. For example, the [Modulino library](https://github.com/arduino/arduino-modulino-mpy) is an external module that provides tools for working with Arduino Modulino nodes.
To demonstrate how to use external modules, we’ll go through the steps to install the Modulino package on an Arduino board.
diff --git a/content/micropython/05.modulinos/01.installation/installation.md b/content/micropython/05.modulinos/01.installation/installation.md
index f003731234..034280399b 100644
--- a/content/micropython/05.modulinos/01.installation/installation.md
+++ b/content/micropython/05.modulinos/01.installation/installation.md
@@ -1,11 +1,11 @@
---
title: 'Modulino Installation'
-description: 'Get started with using the Modulinos'
+description: 'Get started with using the Modulino nodes'
author: 'Hannes Siebeneicher, Sebastian Romero'
tags: [MicroPython, Package Installation]
---
-In this tutorial, we will go through the installation process required for programming the Arduino Modulinos with MicroPython.
+In this tutorial, we will go through the installation process required for programming the Arduino Modulino nodes with MicroPython.
## Goals
@@ -15,7 +15,7 @@ The goals of this tutorial are:
## Hardware & Software Needed
-We will need a MicroPython compatible board that works with the Modulinos:
+We will need a MicroPython compatible board that works with the Modulino nodes:
- [Arduino Nano ESP32](https://store.arduino.cc/products/nano-esp32?queryID=undefined)
- [Arduino Nano RP2040 Connect](https://store.arduino.cc/en-se/products/arduino-nano-rp2040-connect)
@@ -104,7 +104,7 @@ If we see this, it means the package has been installed successfully.
## Next Steps
-Now that we have successfully installed everything it's time to program our first Modulino. Below are links to the documentation for all Modulinos. They are also accessible in the side menu at [Arduino Docs - MicroPython](https://docs.arduino.cc/micropython/), under "Modulinos".
+Now that we have successfully installed everything it's time to program our first Modulino. Below are links to the documentation for all Modulino nodes. They are also accessible in the side menu at [Arduino Docs - MicroPython](https://docs.arduino.cc/micropython/), under "Modulino Nodes".
- [Modulino Distance](/micropython/modulinos/modulino-distance)
- [Modulino Pixels](/micropython/modulinos/modulino-pixels)
diff --git a/content/micropython/05.modulinos/modulinos.md b/content/micropython/05.modulinos/modulinos.md
index 52d2a838c0..ddf2dc9e3d 100644
--- a/content/micropython/05.modulinos/modulinos.md
+++ b/content/micropython/05.modulinos/modulinos.md
@@ -1,3 +1,3 @@
---
-title: Modulinos
+title: Modulino Nodes
---
\ No newline at end of file