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Why NORVI ESP32-based HMI for your innovative project or a system?

NORVI ESP32-based HMI

Do you know NORVI has a new addition? Here is why you should choose it. NORVI ESP32-based HMI solution is now available to buy, explore more now. 

Introducing the groundbreaking NORVI ESP32-based HMI (Human Machine Interface), a marvel in the realm of Programmable HMI supported with LVGL (Light and Versatile Graphics Library). This innovative system redefines interaction dynamics by bestowing users with an immersive graphical environment, seamlessly melding technology and user experience. Crafted to be programmed with Arduino, this HMI stands as a pinnacle of versatility, providing an influential platform for the inception of intuitive user interfaces while harnessing the potent capabilities of ESP32 microcontrollers.

The fusion of NORVI’s prowess with LVGL technology is a game-changer, empowering creators to sculpt visually captivating, responsive, and feature-rich interfaces. This amalgamation of cutting-edge features positions it as the go-to solution across diverse applications clamoring for user-friendly interactions. From IoT devices to automation systems and beyond, the NORVI ESP32-based HMI emerges as the quintessential choice for those seeking an unprecedented blend of innovation, functionality, and aesthetics in their projects.

See the diagram and explanations below for how an ESP32-based HMI is developed, as well as its benefits and features

ESP32-based HMI - Product Overview

Key Advantages of NORVI ESP32- based HMI

The NORVI ESP32-based HMI boasts several key advantages that set it apart as a game-changer in the realm of Human Machine Interfaces:

  • ESP32-S3-WROOM32 Module: At its core lies the powerful ESP32-WROOM32 module, renowned for its robust performance and versatility. This module serves as the foundation, providing the HMI with a potent processing engine, ample memory, and efficient wireless connectivity capabilities. This is from Espressif Systems and it has the following advantages.
  • High-performance processing capabilities
  • Dual-core microcontroller architecture
  • Ample built-in memory and storage options
  • Integrated Wi-Fi and Bluetooth connectivity
  • Low power consumption and energy-efficient operation
  • Support for various interfaces such as SPI, I2C, UART, and more
  • Rich set of peripherals and features for versatile applications
  • LVGL Support Display: The integration of LVGL (Light and Versatile Graphics Library) support elevates the user interface experience to new heights. This advanced feature empowers creators to design visually stunning, responsive, and feature-rich graphical interfaces, enhancing user interaction and engagement and many advantages as below.
  • Enables creation of visually appealing and rich graphical user interfaces (GUIs)
  • Offers responsive and smooth interaction for users
  • Provides a wide range of customizable widgets and graphics
  • Supports animations and transitions for enhanced user experience
  • Compatibility with various display sizes and resolutions
  • Optimized for resource-efficient performance on embedded systems
  • PLC Functionality with Arduino: The HMI’s compatibility and integration with Arduino enable it to function as a Programmable Logic Controller (PLC). This extends its utility beyond a mere display interface, allowing it to control and manage various processes and systems, making it an all-encompassing solution for automation and control applications its key advantages are as below.
  • Versatile control and management capabilities for various processes and systems.
  • Integration of human-machine interaction with control logic, enhancing usability.
  • Flexibility in programming and customization for specific automation needs.
  • Expanded functionalities beyond traditional HMI interfaces.
  • Seamless communication between the user interface and control systems.
  • Utilizes widely supported Arduino ecosystem for easy development and scalability.

Features-based Applications

By leveraging the ESP32-WROOM32 module, harnessing LVGL’s display capabilities, and incorporating PLC functionality through Arduino compatibility, the NORVI ESP32-based HMI emerges as a comprehensive, adaptable, and high-performance solution for a wide spectrum of applications, promising unparalleled versatility and functionality. Also, it introduces a robust 5-inch LCD Display with Resistive Touch, boasting a suite of features tailored for diverse industrial applications:

  • 5-inch LCD Display with Resistive Touch: Offers a crisp and clear display, enhancing user interaction and visual clarity in various industrial environments.
  • Built-in Buzzer: Equipped with a built-in buzzer for audio alerts or notifications, facilitating immediate and audible feedback for critical processes or events.
  • Digital Inputs: Provides digital input ports for seamless integration and connectivity with external devices or sensors, enabling versatile data acquisition and control.
  • Analog Inputs: Includes analog input capabilities, allowing precise measurement and monitoring of varying voltage levels or sensor outputs, crucial for nuanced control and analysis.
  • Transistor Outputs: Features transistor outputs that facilitate control over external devices or systems, offering flexibility and adaptability in managing industrial processes.
  • Supports Industrial Voltage up to 24V DC: Designed to handle industrial-grade voltages up to 24V DC, ensuring compatibility with standard industrial power systems and environments.

Visit our product page for more information: NORVI HMI

Industrial Applications

The ESP32-based HMI with LVGL support and Arduino functionality excels in these industrial applications by providing a powerful platform for creating intuitive and feature-rich user interfaces while leveraging the capabilities of ESP32 microcontrollers. Its versatility, robustness, and ease of integration make it a valuable asset across various industrial settings as below.

  • Manufacturing Automation: Employed in manufacturing processes for control interfaces, monitoring production lines, and managing machinery with intuitive and responsive user interfaces.
  • Building Automation: Used in building management systems to control lighting, HVAC systems, security features, and access controls with user-friendly interfaces.
  • Industrial IoT (IIoT) Solutions: Integrated into IIoT systems for data visualization, remote monitoring, and controlling industrial equipment and machinery.
  • Process Control and Instrumentation: Utilized in industries such as chemical, pharmaceuticals, and food processing for real-time monitoring, controlling parameters, and managing processes.
  • Energy Management: Applied in energy production facilities, smart grids, and renewable energy systems for monitoring and controlling power generation, distribution, and consumption.
  • Smart Agriculture: Used in precision agriculture for monitoring environmental conditions, controlling irrigation systems, and managing farm machinery.
  • Transportation and Logistics: Employed in smart warehouses and logistics systems for inventory management, tracking goods, and controlling conveyor systems.
  • Water Management: Utilized water treatment plants and distribution systems for monitoring water quality, managing pumps and valves, and automating processes.
  • Healthcare Equipment: Integrated into medical devices and healthcare equipment for user interfaces, patient monitoring, and controlling automated systems.
  • Robotics and Automation: Applied in robotics for creating interactive control panels, monitoring robotic systems, and managing automation processes.

NORVI ESP32-based HMI Models

There are two models available in ESP32-based HMI now to buy!

ESP-HMI-5C-CI

ESP-HMI-5C-VI

  • ESP32-WROOM32 Module
  • Built-in 5Inch LCD Display with Resistive Touch
  • Built-in Buzzer
  • Built-in microSD Card support
  • LVGL Supported Display
  • DS3231 RTC with battery backup
  • PLC functionality with Arduino

Inputs and Outputs

  • 4 x Digital Inputs 24V
  • 4 x 4 – 20mA Analog Inputs
  • 4 x Transistor Outputs

Communication

  • 2.4Ghz WiFi + Bluetooth
  • W5500 Ethernet
  • RS-485




  • ESP32-WROOM32 Module
  • Built-in 5Inch LCD Display with Resistive Touch
  • Built-in Buzzer
  • Built-in microSD Card support
  • LVGL Supported Display
  • DS3231 RTC with battery backup
  • PLC functionality with Arduino

Inputs and Outputs

  • 4 x Digital Inputs 24V
  • 4 x 0 – 10A Analog Inputs
  • 4 x Transistor Outputs

Communication

  • 2.4Ghz WiFi + Bluetooth
  • W5500 Ethernet
  • RS-485


BUY NOW
BUY NOW

Additionally, if there are any specific technical specifications, compatibility details, or customization options available for this ESP32-based HMI, make an inquiry to us at [email protected]

Begin your journey into exploring the endless possibilities that the NORVI ESP32-based HMI offers for your project or innovative system. Your adventure starts with us today. Purchase Now! 

Stay Connected to get updated news on LVGL for HMI: Facebook : LinkedIn : Twitter

Wanna know more about HMI from NORVI? Read below,

The Rise of HMI Applications: Ultimate Tech Landscape

Thriving HMI Technology: Future of Human-Machine Interface

Optimizing HMI Projects for Industrial Automation Success

#NORVI #ESP32 #LVGL #HMI #HumanMachineInterface #Arduino #IndustrialAutomation #IoT #PLC #UserInterface #ESP32WROOM32 #IndustrialControl #LVGLSupport #InnovationInTech #AutomationSolutions #EmbeddedSystems #TechnologyIntegration #SmartTech #IndustrialApplications #HMIsolutions #LVGLdisplay #arduino #ArduinoHMI #IndustrialHMI #HMItechnology #UserFriendlyInterface #IoTApplications #AutomationControl #SmartHMI #TouchScreenDisplay #esp #esp32 #esp32project #esp32wroom #Technology #IntuitiveUserInterfaces #Industries #hmisolutions #hmiprojects #HMIDesign #EmbeddedSystems #UserInterface #HMIProgramming #TouchscreenTech #SmartDevices #Electronics #DIYElectronics #Arduino #TechInnovation #WirelessCommunication #InternetOfThings #MakerCommunity #Engineering #Innovation #HMIControl #OpenSourceHardware #microcontrollers#HMIApplications #EmbeddedHMI #ControlSystems #DigitalInterface #InnovativeHMI #ESP32Technology #LVGLSupport #HumanMachineInteraction #HMIdevelopment #BuyESP32HMI #BuyNow



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Embracing LVGL for HMI : Unlocking Seamless Excellence in Automation

LVGL for HMI

Discover the significance of LVGL for HMI in driving automation initiatives across industries. Explore why LVGL stands out as the ideal choice for crafting efficient, user-friendly interfaces. Dive into the world of LVGL HMI for a seamless automation journey.

In the modern landscape of automation, the role of Human-Machine Interfaces (HMI) is becoming increasingly crucial. As industries seek more sophisticated and user-friendly interfaces to control and monitor automated systems, the choice of the right graphics library becomes imperative. LVGL (Light and Versatile Graphics Library) stands out as an efficient and adaptable solution for crafting robust HMIs that drive the automation journey across diverse industries.

LVGL, an open-source graphics library, has gained widespread recognition for its versatility and scalability in developing user interfaces for a multitude of devices. Its lightweight nature and flexibility make it an ideal choice for creating visually appealing, responsive, and intuitive interfaces, ranging from small microcontrollers to advanced touchscreens.

LVGL for HMI: The Advantages for Automation

When looking to why LVGL for HMI, many advantages which comes with LVGL is essential to explore.

LVGL for HMI Display

1. Versatility and Flexibility

LVGL’s adaptability across various hardware platforms and operating systems allows developers to craft HMIs that seamlessly integrate into existing systems. This versatility ensures a smooth transition into automated processes across industries, facilitating efficient operations.

2. Performance and Efficiency

Efficiency is the cornerstone of automation, and LVGL excels in this aspect. Its optimized codebase ensures swift rendering and responsiveness, essential for real-time monitoring and control in automated systems. This high performance enhances user experiences and operational efficiency.

3. Customization and User Experience

LVGL offers a wide array of customizable features, including widgets, themes, and animations, enabling developers to tailor interfaces precisely to meet specific industry needs. This customization capability enhances user experiences and ensures that HMIs align perfectly with desired functionalities.

4. Active Open-Source Community

One of LVGL’s strengths lies in its robust open-source community. This active network of developers continually contributes to the library, providing regular updates, bug fixes, and new features. The community support ensures that users have access to the latest advancements and ongoing assistance in HMI development.

Embracing LVGL for Future Automation Initiatives

LVGL (Light and Versatile Graphics Library) serves as a unifying force across diverse industry domains, seamlessly spanning from industrial automation to smart home devices and automotive systems, providing a consistent and reliable HMI solution adaptable to diverse industry requirements. Its inherent flexibility and robust features provide a consistent and reliable Human-Machine Interface (HMI) solution adaptable to the unique requirements of various industries.

In the realm of industrial automation, LVGL’s capabilities shine brightly. Companies are able to receive the LVGL Certificate and get benefits to change the game too.

Its versatility allows for the creation of intuitive and visually appealing interfaces for industrial control systems. Whether it’s operating machinery, monitoring processes, or managing complex workflows, LVGL empowers developers to design HMIs that are both functional and user-friendly. Its ability to integrate with different hardware platforms ensures compatibility with a wide range of industrial devices, enhancing efficiency and productivity in manufacturing and automation processes.

Moving towards smart home devices, LVGL for HMI continues to demonstrate its adaptability. From smart thermostats to home security systems, LVGL enables the development of sleek and interactive user interfaces that seamlessly blend into the modern home environment. Its customizable widgets and graphical elements facilitate the creation of intuitive controls, allowing users to effortlessly manage and monitor various aspects of their smart homes.

In the automotive industry, LVGL plays a pivotal role in crafting advanced infotainment systems, instrument clusters, and navigation interfaces. Its ability to handle high-resolution graphics and animations ensures a visually compelling and responsive experience for drivers and passengers. LVGL’s adaptability to different screen sizes and hardware configurations makes it a reliable choice for automotive manufacturers seeking to deliver sophisticated yet user-friendly interfaces within vehicles.

The consistency and reliability of LVGL for HMI solution across these diverse industries lie in its capability to provide a unified development platform. Its cross-platform compatibility, extensive widget library, and community support enable developers to create tailored interfaces that meet the specific needs and standards of each industry, ensuring a seamless and reliable user experience across industrial automation, smart home devices, and automotive systems.

In essence, LVGL serves as a versatile bridge, offering a common ground for HMI development, and its adaptability makes it an invaluable asset in meeting the varied demands of industrial, residential, and automotive sectors, fostering innovation and efficiency across these domains. Further refer.

Conclusion

The adoption of LVGL for HMI signifies a strategic move towards enhancing automation initiatives. It not only ensures efficient and user-centric interfaces but also future-proofs systems by allowing seamless integration and adaptation to evolving technological landscapes.

In conclusion, LVGL stands as a beacon for businesses aiming to embark on an automation journey that prioritizes streamlined operations, enhanced user experiences, and optimized productivity across industries.

Unleash the potential of LVGL and unlock a new era of user experience mastery! Dive into the intricacies of LVGL’s versatility, reliability, and seamless integration, enabling a consistent and powerful HMI experience adaptable to diverse industry needs.

Are you ready to elevate your interface game? Embrace LVGL and embark on a journey towards crafting next-level Human-Machine Interfaces that set new standards in usability, aesthetics, and performance. Don’t miss out on harnessing the positive power of LVGL for your HMI aspirations!

ESP32-based HMI which supports LVGL is now available to buy from NORVI.

Visit the Product Page or, Contact Us at [email protected]

Stay Connected to get updated news on LVGL for HMI: Facebook : LinkedIn : Twitter

Wanna know more about HMI from NORVI? Read below,

The Rise of HMI Applications: Ultimate Tech Landscape

Thriving HMI Technology: Future of Human-Machine Interface

Optimizing HMI Projects for Industrial Automation Success

#LVGL #HMI #UserInterfaces #Automation #TechInnovation #GraphicDesign #InterfaceDesign #UserExperience #SmartTechnology #IndustrialAutomation #SmartHomes #AutomotiveSystems #InnovationInProgress #TechnologySolutions #FutureTech #VisualDesign #UXDesign #SoftwareDevelopment #EmbeddedSystems #OpenSource #EfficiencyBoost #DigitalTransformation #VersatileGraphics #TechAdvancements #NextGenInterfaces #EngineeringExcellence #DigitalInnovation #HMI #UserInterfaces #UXDesign #InterfaceDesign #Automation #IndustrialDesign #TechSolutions #UserExperience #SmartTech #TechnologyInnovation #DigitalInterfaces #UIUX #FutureTechnology #Innovation #DigitalTransformation #Engineering #SmartDevices #Efficiency #UserCentricDesign #TechAdvancement #Digitalization #HumanCenteredDesign #InnovativeTech #AdvancedInterfaces #IntuitiveDesign #UserInteraction #InterfaceSolutions

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Why ESP32-based HMI for Your Innovative IoT and Smart Applications

Why ESP32-based HMI for Your Innovative IoT and Smart Applications

The ESP32, a powerful microcontroller with integrated Wi-Fi and Bluetooth capabilities, is increasingly gaining prominence as an ideal choice for Human-Machine Interface (HMI) systems in IoT and smart applications. Its relevance stems from its dual-core processor, low power consumption, rich set of peripherals, and ample processing power, making it well-suited for HMI applications. This article explores the key features, integration, advantages, and applications of ESP32 in HMI systems, along with potential challenges and future trends in ESP32-based HMI technology.

ESP32 microcontroller board

What is ESP32 and its relevance to Human-Machine Interface (HMI)?

The ESP32, known for its integrated Wi-Fi and Bluetooth capabilities, is a robust microcontroller that is well-suited for IoT and smart applications. Its dual-core processor and ample resources enable it to handle complex tasks, making it a preferred choice for HMI systems, acting as the bridge between the user and the machine in various applications.

Key features of ESP32 for HMI applications

The ESP32’s key features, including its dual-core architecture, low power consumption, rich set of peripherals, and ample processing power, make it an excellent choice for HMI applications. Its integrated Wi-Fi and Bluetooth capabilities allow for wireless communication, while its robust processing capabilities enable the implementation of responsive and feature-rich user interfaces.

Smart home automation system controlled by ESP32-based HMI

Applications of ESP32 in HMI systems

The versatility and reliability of the ESP32 make it a preferred choice for enabling intuitive and interactive user experiences in various HMI applications across domains such as home automation, industrial control, and smart environments.

Understanding HMI

Definition and significance of HMI in technology and industrial automation

HMI, or Human-Machine Interface, plays a crucial role in enabling users to monitor, control, and interact with various devices and systems in technology and industrial automation, encompassing the hardware and software components that facilitate intuitive and efficient communication between humans and machines.

Importance of ESP32 in enhancing the functionality of HMI systems

The integration of ESP32 in HMI systems enhances functionality by providing a robust platform for developing interactive and user-friendly interfaces, empowering developers to create compelling HMI solutions that offer seamless control and monitoring capabilities.

Integration of ESP32 with HMI

Process and considerations for integrating ESP32 with HMI systems

Integrating ESP32 with HMI systems involves identifying specific application requirements, selecting suitable display and input devices, and leveraging the ESP32’s capabilities to enable seamless communication and interaction, considering aspects such as data exchange protocols, user input methods, and real-time responsiveness.

Advantages and unique capabilities of ESP32 for HMI solutions

The ESP32 offers distinct advantages for HMI solutions, including its support for various communication protocols, rich peripheral integration, and the ability to handle complex tasks without compromising performance, making it suitable for developing feature-rich and visually appealing HMI systems.

User interface design mockup for an ESP32-based HMI

Designing an ESP32-Based HMI

Hardware components and requirements for designing an HMI using ESP32

Designing an HMI using ESP32 requires the selection of appropriate display modules, input devices, and peripheral components to complement the microcontroller’s capabilities, including touchscreen displays, physical buttons, and sensors for versatile user interaction.

Programming techniques for ESP32 in HMI applications

Programming the ESP32 for HMI applications involves utilizing platforms such as Arduino IDE or ESP-IDF to develop interactive user interfaces, implement communication protocols, and integrate sensor data for real-time feedback, leveraging the ESP32’s dual-core architecture for efficient multitasking and responsive user experiences.

User interface design considerations for ESP32-based HMI systems

Effective user interface design for ESP32-based HMI systems involves creating intuitive layouts, employing visual feedback for user actions, and optimizing the use of graphical elements to enhance usability, considering factors such as color schemes, font sizes, and interactive elements.

Applications of ESP32-Based HMI

Home automation and smart device control

ESP32-based HMI systems find extensive applications in home automation, enabling users to remotely control lighting, HVAC systems, security cameras, and other smart devices, enhancing user convenience and enabling seamless integration of diverse smart home components.

Industrial control, monitoring, and automation

In industrial settings, ESP32-based HMI solutions empower operators to monitor and control complex machinery, temperature and humidity sensors, and other critical parameters, contributing to enhanced operational efficiency and safety.

IoT devices and integration in smart environments

The ESP32’s compatibility with IoT devices and its ability to connect to cloud services make it an ideal choice for integrating IoT devices in smart environments, enabling seamless integration and control of diverse IoT devices.

Real-life examples of successful ESP32-based HMI implementations

Real-life examples of successful ESP32-based HMI implementations include smart home control panels, industrial monitoring and control systems, and IoT-enabled environmental monitoring solutions, showcasing the versatility and reliability of ESP32 in diverse applications.

A women  wanted to upgrade her home with smart devices for convenience and energy efficiency. She decided to implement an ESP32-based HMI system to control and monitor various aspects of her home, such as lighting, temperature, and security.

Streamlined Control and Monitoring

With the ESP32-based HMI, it was able to create a user-friendly interface to seamlessly control her smart devices from a single dashboard. Whether she was at home or away, she could easily adjust the thermostat, turn lights on and off, and receive security alerts, providing her with peace of mind and saving energy when rooms were unoccupied.

Seamless Integration and Customization

It also appreciated the ease of integrating new IoT devices into her smart home system. The ESP32’s flexibility and compatibility allowed her to customize the interface according to her preferences, creating a personalized and intuitive control center for her home automation.

The ESP32-based HMI not only enhanced the functionality of smart home but also showcased the adaptability and practicality of ESP32 in real-life applications, demonstrating its effectiveness in home automation and smart device control.

Effectiveness and adaptability of ESP32-based HMI in diverse scenarios and industries

The effectiveness and adaptability of ESP32-based HMI in diverse scenarios and industries underscore its ability to cater to varying requirements, from consumer-facing smart devices to industrial automation and monitoring applications, showcasing its flexibility and robust feature set.

Advantages and Challenges

Advantages and benefits of utilizing ESP32 for HMI solutions

Utilizing ESP32 for HMI solutions offers advantages such as wireless connectivity, robust processing power, and support for rich graphical interfaces, contributing to its appeal for diverse HMI applications.

Addressing potential challenges and limitations in ESP32-based HMI implementation

Challenges in ESP32-based HMI implementation may include optimizing power consumption for battery-operated devices, ensuring secure communication, and addressing compatibility issues with external components, requiring careful consideration for successful implementation.

Conceptual illustration of potential future advancements in ESP32-based HMI technology

Future Trends

Advancements and emerging trends in ESP32-based HMI technology

Future advancements in ESP32-based HMI technology may encompass enhanced integration with AI and machine learning algorithms, optimization for low-power applications, and expanded support for advanced graphical interfaces and touch technologies.

Potential innovations and improvements on the horizon for ESP32 in HMI systems

Innovations on the horizon for ESP32 in HMI systems may include enhanced security features, expanded wireless connectivity options, and advancements in real-time data processing capabilities, paving the way for more sophisticated and responsive HMI solutions.

Best Practices and Tips

Effective implementation strategies for ESP32-based HMI solutions

Effective implementation of ESP32-based HMI solutions involves thorough planning, consideration of power management strategies, and adherence to best practices in user interface design and communication protocols, along with rigorous testing and optimization.

Ensuring optimal performance, security, and user experience in ESP32-based HMI applications

To ensure optimal performance, security, and user experience in ESP32-based HMI applications, developers should prioritize efficient code optimization, implement secure communication protocols, and focus on creating intuitive and responsive user interfaces catering to specific user needs.

Conclusion

The ESP32’s integration in HMI systems offers a compelling combination of robust processing power, wireless connectivity, and support for feature-rich user interfaces, demonstrating its versatility and relevance in diverse domains such as home automation, industrial control, and IoT integration.

The evolution of ESP32-based HMI systems is poised to witness advancements in AI integration, enhanced security features, and expanded support for sophisticated user interfaces, paving the way for more immersive and intelligent human-machine interactions in IoT and smart applications.

In conclusion, the ESP32’s capabilities position it as a key enabler for the next generation of HMI solutions, offering a potent combination of performance, versatility, and reliability for diverse applications in IoT and smart technologies.

For more detailed examples and technical information, let’s explore specific case studies and in-depth technical insights into the challenges and optimization techniques encountered in ESP32-based HMI implementations. 

NORVI is about to launch its newly produced, ESP32-based HMI. Wait with us! 

Wanna know more about HMI from NORVI? Read below,

The Rise of HMI Applications: Ultimate Tech Landscape

Thriving HMI Technology: Future of Human-Machine Interface

Optimizing HMI Projects for Industrial Automation Success

#Norvi #esp #esp32 #esp32project #esp32wroom #HMI #HumanMachineInterface #Technology #IntuitiveUserInterfaces #Industries #hmisolutions #hmiprojects #HMIDesign #IoT #EmbeddedSystems #UserInterface #HMIProgramming #TouchscreenTech #SmartDevices #Electronics #DIYElectronics #Arduino #TechInnovation #WirelessCommunication #InternetOfThings #MakerCommunity #Engineering #Innovation #HMIControl #OpenSourceHardware #Microcontrollers

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7 Reasons: Why NORVI Arduino-based PLC for Innovative Projects?

NORVI Arduino-based PLC

You may be wondering why you should choose NORVI Arduino-based PLC. Here is the answer.

NORVI is for creators, who need to integrate technology into their products.

NORVI Arduino-based PLC are popular because they provide a simple and cost-effective solution for creating custom electronic devices and automation systems for you. Also, NORVI controllers are well-known as NORVI Arduino-based PLC (Programmable Logic Controllers). These controllers are easy to program and can interface with a wide variety of sensors and other components, making them ideal for IoT-based solutions such as smart homes, smart cities, smart farming, and asset-tracking applications.

Additionally, the open-source nature of the Programming IDEs means that there is a vast community of developers and enthusiasts constantly creating new projects and sharing knowledge, making it an attractive choice for those looking to expand their connectivity with NORVI controllers for industrial applications. These advancements will enable you to explore and try more professional solutions that can be controlled in real-time in multiple ways and devices using programmable logic controller programming.

7 Reason to Choose NORVI Arduino-based PLC?

NORVI Arduino-based PLC offers a groundbreaking platform for innovative projects due to several key factors:

  1. Versatility: NORVI’s Arduino-based PLCs are versatile, supporting a wide array of applications across industries. Their adaptability enables integration into various projects and systems.
  2. Arduino Compatibility: Leveraging the Arduino ecosystem, NORVI PLCs provide a user-friendly interface, extensive libraries, and a vast community for support, fostering ease of development and customization.
  3. Robust Performance: NORVI PLCs deliver robust performance, offering reliable operation and precise control in industrial and project settings, ensuring efficiency and optimal functionality.
  4. Scalability: With NORVI, scalability is achievable, allowing expansion or modification of projects without compromising on performance. This scalability caters to evolving project requirements.
  5. Innovation Support: NORVI’s Arduino-based PLCs encourage innovation by providing a powerful platform with diverse functionalities, enabling developers to explore and implement cutting-edge ideas.
  6. Reliability and Support: NORVI PLCs come with reliable hardware and comprehensive support, ensuring a seamless experience for users, from development to deployment.
  7. Cost-Effective Solutions: Offering cost-effective solutions without compromising on quality or performance, NORVI PLCs present an attractive option for a wide range of projects and applications.

In essence, NORVI’s Arduino-based PLCs stand out for their adaptability, performance, scalability, innovation support, and cost-effectiveness, making them an ideal choice for diverse and innovative projects across industries.

HOW NORVI can be your customized solution?

NORVI comes with customized product solutions where you can choose what exactly you want for your IoT and Automation applications. Those have a Built-in 0.96 OLED Display and a Built-in Button on the front panel. Also, ESP32-WROOM32 and Arduino Micro ATMEGA 32-U4 Module are the main processors of this NORVI series. Which showcases the main advantage for you. Also, SIMCOM SIM800C, QUECTEL EC21-G, and SIM7500 modem selections can be made based on what you need.

NORVI controllers can also interface with a wide variety of input types, such as digital inputs, analog inputs, Thermocouple inputs, and, PWM 0 – 10V / 4 – 20mA, also with Relay outputs and transistor outputs with RS 485. Also, It enables clients to choose what they want, as it has microSD and RTC module choices. In addition, NORVI controllers can also interface with other types of input devices, such as serial communication devices, Ethernet connections, sim cards, WiFi, Bluetooth, Narrowband IoT (NB-IoT), LoRaWAN, GSM and 4G LTE connections and wireless modules, making them highly versatile and adaptable to a wide range of applications., you can refer our product range.

IoT Range is the best selling category in our product list, you may refer to.

Further, Expansions can be chosen with us as Temperature and load sensor inputs expansions for NORVI IIOT, ENET, and GSM Products also are available with us. Just get what you want with in-build quality controllers with NORVI! Explore More: https://norvi.lk

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Power Hungry Sensors Solved: Innovative Solar-Powered Hardware Solution from NORVI

Power Hungry Sensors Solved: Innovative Solar-Powered Hardware Solution from NORVI

If you are an IoT developer looking for a hardware solution for Power Hungry Sensors, we have the perfect option for you.

For IoT developers seeking an optimal hardware solution catering to the needs of Power Hungry Sensors, our offering stands as the ideal choice. Our device goes beyond the conventional by not only providing a built-in battery ensuring uninterrupted power supply but also boasts solar charging capabilities. This exceptional feature ensures a constant power reservoir, alleviating any concerns about the device exhausting its power reserves, even in remote or outdoor settings. You can rest assured that our device guarantees sustained functionality, eliminating any apprehensions about power disruptions regardless of the deployment location’s remoteness or exposure to outdoor conditions.

Why Power Hungry Sensors?

The phrase “Power Hungry Sensors” in the title indicates that the hardware solution presented addresses the specific needs of sensors that demand higher power requirements. It highlights the core focus of the solution, which is tailored to cater to these energy-demanding sensors, emphasizing its ability to effectively power and support such devices. This phrase helps target an audience seeking solutions specifically for sensors with high power consumption, making it more relevant and appealing to those searching for ways to address this particular aspect in their projects or setups.

NORVI has Power Hungry Sensor as a solution of Solar Powered Hardware. Visit to the product page to click below button.

Product Website
M11 B Series
Programmable Wall mount Outdoor IoT Device NORVI M11 B Series Solar Powered IoT Node
M11 B Series
Programmable Wall mount Outdoor IoT Device NORVI M11 B Series Solar Powered IoT Node

High Voltage Output for Sensors


An essential highlight of our device lies in its purpose-built 12V output, meticulously crafted to cater specifically to power-hungry sensors. This strategic provision guarantees that your array of sensors receives precisely the required power dosage, enabling them to operate at optimal efficiency levels without compromising on their performance benchmarks.

Powered by ESP32-WROOM32 SoC

Embedded at the core of our device lies the ESP32-WROOM32 System on a Chip (SoC), serving as its powerhouse. Renowned for its impeccable reliability, stellar performance metrics, and remarkable flexibility, the ESP32-WROOM32 stands tall as a testament to technological prowess. Its extensive array of features and diverse capabilities position it as the quintessential choice for IoT projects seeking excellence in functionality and adaptability.

LTE Modem and NB-IoT Options

Ensuring an unbroken tether of connectivity, our device proudly integrates the SIM7500 LTE Modem and BC95-G NB-IoT options, providing you with a seamless pathway to connect your entire suite of sensors to the vast expanse of the internet. This enables effortless remote access to your invaluable data, presenting an all-encompassing solution that impeccably caters to your connectivity requisites, irrespective of your preference for the LTE or NB-IoT protocol.

In essence, our solar-powered hardware solution emerges as the undisputed preference for IoT developers in search of dynamic, programmable devices enriched with Ethernet connectivity and an expansive suite of adaptable programming options. Seamlessly entwined with an in-built battery and solar charging capabilities, complemented by the specialized 12V output meticulously crafted to meet sensor-specific needs, and fortified by the dependable ESP32-WROOM32 SoC, this device epitomizes an unassailable and supremely efficient solution, meticulously tailored to address the multifaceted requirements inherent in your diverse array of IoT endeavors.

Visits to product Page: M11-B Series

The NORVI SSN range stands as a purpose-built solution crafted explicitly for standalone installations, meticulously designed to thrive in environments where conventional grid power is not accessible. The device offers an inbuilt LiPo battery capable of sustaining the device and external sensors for up to 12 hours, ensuring uninterrupted operations. Moreover, provisions are in place to seamlessly integrate a 6V Solar panel, enabling continuous charging capabilities.

Furthermore, this versatile device can be tailored to your specific needs, available with a choice of communication options including GSM/LTE, NB-IoT, LoRa, or Zigbee. This diversified array of communication interfaces transforms it into an exemplary standalone sensor node, doubling up with the capability to function as a gateway as well, thereby offering comprehensive functionality and adaptability for various IoT applications and scenarios.

Stay Connected to get updated news from NORVI: Facebook : LinkedIn : Twitter : YouTube

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NORVI HMI Solution for Innovative IoT Projects

NORVI HMI Solution

NORVI HMI is around the corner. What is it?

Human-Machine Interfaces (HMIs) stand as indispensable conduits bridging the gap between humans and machines, encompassing an extensive spectrum of applications spanning across industrial process control, energy management, transportation, healthcare, consumer devices, smart homes, retail, defense, education, telecommunications, research, and public infrastructure management. These interfaces continually evolve, constantly refining user experiences and control mechanisms across diverse sectors and technological landscapes.

Enter the NORVI HMI, an ESP32-based interface redefining user interaction. Boasting a 5-inch display coupled with resistive touch capabilities, integrated digital inputs, and transistor outputs, the NORVI HMI stands out among its peers. Its distinguishing features include a state-of-the-art 5-inch LVGL 8 display, seamless ESP32 S3 integration, an in-built buzzer for enhanced interactivity, and an extensive array of I/O options, rendering it a versatile and comprehensive solution.

This article aims to delve deep into the exceptional features defining the NORVI HMI while also conducting an insightful comparative analysis with alternative display solutions prevalent in the market.

Serial-driven displays, a popular choice within the realm of HMIs, garner acclaim for their intuitive interface creation capabilities and compatibility with microcontrollers such as the ESP32. These displays establish communication with microcontrollers through serial communication protocols, paving the way for seamless integration and operation.

A fundamental disparity distinguishing these two Human-Machine Interface (HMI) solutions pertains to their microcontroller intricacies and processing methodologies. In the case of the Serial HMI display, its reliance on external microcontrollers necessitates communication through designated serial channels. In stark contrast, the ESP32-based NORVI HMI features an integrated ESP32 module, uniquely equipped to fulfill both UI functionalities and communication requisites seamlessly. This holistic integration endows the NORVI HMI with a dual advantage: it presents a cost-effective solution while elevating performance metrics beyond those achievable by the Serial HMI display.

The NORVI HMI operates on the ESP32-S3 microcontroller, a powerhouse boasting an impressive array of 45 physical GPIO pins. Within this framework, 20 GPIO pins are dedicated to handling display functionalities, leaving the majority of the remaining pins available for an assorted array of critical functions. These encompass an extensive spectrum, encompassing digital inputs, transistor outputs, and facilitating crucial communication protocols, amplifying the HMI’s flexibility and adaptability within diverse operational settings.

NORVI HMI Pin Configuration

Features of NORVI HMI

  • 5-inch LCD Display with Resistive Touch: NORVI HMI offers a crystal-clear 5-inch LCD display with resistive touch technology, ensuring a user-friendly and interactive experience.
  • ESP32 S3 Integration: At its core, NORVI HMI harnesses the power of the ESP32 S3 module. This integration provides seamless communication capabilities and robust performance, making it a versatile choice for various applications.
  • Built-in Buzzer: NORVI HMI includes a built-in buzzer, allowing for auditory alerts, notifications, and user feedback, enhancing the user experience.
  • Ethernet (Optional) / Hardware: NORVI HMI gives you the option of Ethernet connectivity, making it possible to connect to networks and control devices remotely. The built-in hardware support ensures flexibility in connectivity.
  • I/O Options: NORVI HMI boasts a range of I/O options, including:
  • RS-485 Full Duplex
  • Digital Inputs x 4
  • Analog Inputs x 4
  • Transistor Outputs x 4

Checkout the bench mark test video at https://youtu.be/9Zz_wGJb7Nk

Find out about ESP32 HMI for Innovations

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ESP32-based Controllers for Innovative Automation and Monitoring Applications

for Innovative Automation and Monitoring Applications

In recent years, the Internet of Things (IoT) has revolutionized various industries by enabling seamless connectivity and data exchange between devices. In the realm of industrial automation and monitoring, the ESP32-based Controllers has emerged as a game-changer, offering an affordable and versatile solution for implementing Programmable Logic Controllers (PLCs). In this article, we delve into the capabilities of ESP32 as a PLC and explore its potential for automation and monitoring applications.

ESP32-based Controllers

Understanding ESP32-based Controllers

The ESP32 stands tall as a robust and versatile microcontroller, boasting integrated Wi-Fi and Bluetooth functionalities that render it a prime choice for Internet of Things (IoT) applications. While it initially gained recognition for its prominent role in DIY electronics and serving as a staple in IoT prototypes, its prowess as a Programmable Logic Controller (PLC) has garnered considerable interest, especially within industrial domains.

Pioneering its way into industrial settings, the ESP32 has proven its mettle with a robust feature set. Equipped with dual-core processing capabilities, generous memory provisions, and a broad spectrum of General Purpose Input/Output (GPIO) pins, this microcontroller transcends its conventional boundaries. Its adeptness in replicating the core functionalities of a traditional PLC enables seamless execution of automation tasks and facilitates comprehensive monitoring functionalities within industrial setups.

The ESP32’s transformation from a stalwart in DIY electronics to a pivotal player in industrial automation showcases its adaptability and the expansive possibilities it offers. Its ability to emulate PLC functionalities not only streamlines operations but also paves the way for enhanced efficiency and reliability in industrial automation and monitoring tasks. This paradigm shift positions the ESP32 as a dynamic and versatile solution, expanding its footprint beyond the realms of prototyping into the intricate landscapes of industrial automation with unparalleled ease and efficiency.

Advantages of ESP32-based Controllers

  1. Cost-Effectiveness Traditional PLCs can be expensive, making them prohibitive for small to medium-sized businesses. The ESP32, on the other hand, offers an affordable alternative without compromising on performance. Its cost-effectiveness opens up new possibilities for implementing automation and monitoring solutions in diverse industries.
  2. Connectivity and Communication The built-in Wi-Fi and Bluetooth capabilities of the ESP32 allow seamless communication between the PLC and other devices, such as sensors, actuators, and Human-Machine Interfaces (HMIs). Real-time data exchange facilitates swift decision-making, enhances process control, and enables remote monitoring of industrial systems.
  3. Open-Source Platform The ESP32 platform is built on an open-source foundation, which means that developers can access a vast array of libraries and resources. This accessibility empowers engineers and developers to customize the PLC’s functionality to suit specific automation and monitoring requirements.
  4. Flexibility and Scalability ESP32-based PLCs offer immense flexibility in terms of programming and integration with various industrial protocols. Additionally, they can be easily scaled to accommodate changes in the automation process or the addition of new sensors and actuators.

Key Applications of ESP32-based Controllers

Industrial Automation In manufacturing environments, the ESP32 can serve as a cost-effective and efficient solution for process control, production line automation, and data acquisition. Its real-time capabilities and reliability make it suitable for controlling motors, valves, and conveyor belts.

Environmental Monitoring With the ability to interface with a wide range of sensors, the ESP32 can be utilized for environmental monitoring applications. From temperature and humidity sensing to air quality monitoring, the ESP32 can gather valuable data for analysis and decision-making.

Smart Agriculture In the agricultural sector, the ESP32 can play a pivotal role in smart irrigation systems, soil moisture monitoring, and automated greenhouse control. Its low-power mode and remote connectivity make it an ideal choice for off-grid agricultural setups.

Building Automation For building management systems, the ESP32-based Controllers can streamline energy usage, lighting control, and HVAC (Heating, Ventilation, and Air Conditioning) systems. The integration of a user-friendly HMI enables efficient monitoring and control of building operations.

Conclusion

As industries increasingly embrace the potential of IoT, the ESP32 emerges as a versatile and budget-friendly solution for automation and monitoring applications. Its cost-effectiveness, connectivity, and open-source nature position it as a promising PLC alternative for a wide range of industries. From industrial automation to smart agriculture, the ESP32’s capabilities empower businesses to enhance efficiency, reduce costs, and embrace the future of interconnected systems. By harnessing the full potential of ESP32-based Controllers , companies can usher in a new era of intelligent automation and monitoring.

Stay Connected to get updated news from NORVI: Facebook : LinkedIn : Twitter : YouTube

Read More:

Why should use ESP32-based PLC with Analog Inputs for Seamless IoT Integration?

Why NORVI-Arduino-based Programmable Logic Controllers?

Why should choose ESP32-based PLC with GSM to Enhanced Connectivity?

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Industrial IOT Hardware with ESP32

Industrial IOT Hardware

Product video
https://youtu.be/NVzUWdYsrF4

Reference Manuals & Quick Start guides
https://norvi.lk/support/

Order Online
https://norvi.lk/products/

ESP32 is a SoC where you can start your first IOT prototype with. There are many development boards available on the market. Its connectivity and speed make it possibly suitable for any IIOT application. In terms of programming, there are few IDEs and Languages you can use with ESP32.
Simply you can go with Arduino or ESP-IDF. I mostly use platform IO for programming ESP devices. Most of the arduino board compatible hardware is made compatible with ESP32 devices, and there are libraries to quickly get into the programming.
One of the hassles with ESP devices, is the boot pin. Once you have good hardware, the latest drivers and latest ESP-IDF version, putting it into boot mode automatically will not be a problem. When you are done testing your ideas, You need to implement it.
Then the problems with making ESP32 ready for Industrial Environments blocks you. You need proper enclosing, mounting and then good power supply, IO isolations, EMI Safety and reliable industrial grade electronics.
NORVI IIOT Industrial ESP32 is the most suited product on the market for any industrial IOT implementations. It has a combination of flexibility of ESP32 and Reliability of a PLC. It has featured your most familiar hardware, a 0.96 SSD1306 OLED Display and three buttons on top of the controller for any external commands.
That is what you need, a display to see what’s going on, and buttons to command that makes your troubleshooting quicker.
We know you are going to code the ESP32, so we focused our product on easy diagnosis and troubleshooting. We have been where you are, all the difficulties in making a custom board or using a development board in industrial application are solved in NORVI IIOT.
NORVI IIOT Industrial ESP32 is a direct competitor for most PLCs out-there.
All the Inputs and Relays in the NORVI IIOT is accessible with the same GPIO numbers as you program your development board. It doesn’t need any additional drivers or libraries. It has a built in USB port for programming.