Tag: Industrial IOT

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Arduino Digital Inputs vs Industrial Arduino Inputs :Unleashing the Potency for Innovative Projects

Arduino Digital Inputs vs Industrial Arduino Inputs :Unleashing the Potency for Innovative Projects

Discover how Arduino’s accessibility and adaptability have transformed microcontroller programming for hobbyists, students, and enthusiasts. Dive into the crucial realm of Arduino Digital Inputs vs Industrial Arduino Inputs, exploring their pivotal role and comparing them.

Arduino has revolutionized the automation world by making microcontroller programming accessible to hobbyists, students, and enthusiasts. Its ease of use and versatility have spurred widespread adoption for countless projects. One critical aspect of using Arduino boards involves understanding digital inputs and their applications, particularly when comparing them to inputs found in industrial-grade Arduino counterparts.

Understanding Arduino Digital Inputs

Arduino boards are equipped with an array of digital pins that function flexibly as either inputs or outputs. Specifically, digital inputs perform the pivotal task of interpreting voltage levels, determining the presence of either a HIGH or LOW signal. This adaptability enables them to effectively detect and process signals emanating from a diverse range of sources, including switches, sensors, or other digital devices.

The versatility of Arduino’s digital inputs is a key factor contributing to their widespread applicability across various domains. From facilitating straightforward robotics projects to aiding in the automation of household systems and serving as integral components in educational initiatives, these inputs prove their utility in a multitude of scenarios. Their functionality extends to tasks such as discerning the status of buttons, capturing motion data through sensors, or efficiently receiving signals transmitted by other digital devices.

Moreover, their ease of integration into projects of varying complexities renders them indispensable tools for hobbyists, students, and enthusiasts exploring the realms of electronics and programming. The simplicity with which these inputs can be employed to interface with an extensive array of sensors and devices amplifies their significance in enabling innovation and experimentation within the Arduino ecosystem.

In essence, the adaptability and multifaceted nature of Arduino’s digital inputs not only cater to a wide spectrum of applications, including basic to moderately complex projects, but also serve as foundational elements fostering learning, exploration, and creativity in the realm of microcontroller-based electronics.

Advantages of Arduino Digital Inputs

  • Ease of Use: The user-friendly nature of Arduino’s digital inputs is a key attribute that caters to beginners, establishing them as an ideal choice for entry-level projects. Their straightforward configuration and intuitive setup contribute significantly to simplifying the initial learning curve for individuals new to electronics and programming. This accessibility empowers novices to delve into the world of microcontrollers with confidence, fostering a sense of accomplishment and encouraging further exploration and skill development.
  • Cost-Effectiveness: Another notable advantage lies in the cost-effectiveness of Arduino boards, which serve as a gateway for hobbyists to experiment without imposing a substantial financial burden. These boards are relatively affordable, ensuring accessibility to a wider demographic and encouraging experimentation and innovation without the constraints of high initial investments. This affordability encourages creativity, enabling enthusiasts to explore various concepts, test ideas, and bring their projects to life without incurring exorbitant expenses.
  • Versatility: Moreover, the versatility exhibited by these digital inputs is truly remarkable. Their compatibility with a vast spectrum of sensors and devices extends the horizons of project possibilities, allowing for diverse applications across multiple domains. Whether integrating with temperature sensors, motion detectors, or communication modules, the adaptability of Arduino’s digital inputs facilitates the creation of a wide array of innovative projects, offering endless opportunities for experimentation and customization.
  • Community Support: The robust online community surrounding Arduino significantly contributes to its appeal. This vast network provides an abundance of resources, including tutorials, forums, and extensive libraries. Such comprehensive support systems are invaluable assets for users at all skill levels. Beginners benefit from step-by-step tutorials guiding them through their initial projects, while more experienced users can engage in discussions, seek solutions to complex issues, and access a wealth of shared knowledge, further enriching their understanding and capabilities.

Industrial Arduino Inputs: A Different League

Industrial-grade Arduino boards, such as those produced by reputable brands like Siemens, PLCNext, or Industrial Shields, stand in stark contrast to their standard counterparts, as they are purposefully crafted to withstand the rigors of more demanding and rigorous environments. These specialized boards are meticulously designed to cater to the unique and stringent demands prevalent in industrial settings, distinguishing themselves with their superior durability, reliability, and precision.

One of the hallmark features of these industrial-grade Arduino boards is their inputs, which are engineered with a specific focus on meeting the exacting standards characteristic of industrial applications especially Industrial Arduino Inputs. Unlike standard Arduino inputs, which are adept at serving a broad range of projects, these specialized inputs are purpose-built to operate flawlessly amidst the challenging conditions prevalent in industrial environments.

In industrial settings, reliability is paramount, and these boards are meticulously crafted to ensure consistent performance even in the face of harsh conditions. They boast heightened resilience against temperature fluctuations, electrical noise, and voltage variations, factors that are common in industrial setups. This robustness ensures uninterrupted functionality, mitigating the risk of downtime and potential losses associated with equipment failures.

Durability is another defining characteristic of these industrial-grade boards. Components utilized in their construction are chosen for their ruggedness, ensuring prolonged and reliable operation in challenging and often unforgiving environments. The robust build quality enables these boards to endure harsh conditions where standard electronics might falter, providing a reliable backbone for critical industrial processes.

Furthermore, precision and accuracy are crucial aspects addressed in the design of Industrial Arduino Inputs. They offer superior accuracy in signal readings, a vital requirement for applications that demand precise measurements and high-level accuracy. This attribute makes them indispensable in industries where precise data acquisition is integral, such as in automation, process control, or monitoring systems.

Moreover, many of these specialized industrial-grade Arduino boards undergo stringent certification processes, adhering to industry standards and safety regulations. Compliance with these standards ensures not only reliability but also safety in professional industrial settings, instilling confidence in their deployment for critical applications.

Characteristics of Industrial Arduino Inputs

The distinguishing characteristics of Industrial Arduino Inputs encompass a range of features meticulously tailored to meet the exacting demands of industrial applications, setting them apart from their standard counterparts. These specialized inputs are engineered to deliver unparalleled performance, resilience, and precision in challenging and high-stakes industrial environments.

  • Reliability: This stands as a cornerstone attribute of these industrial inputs, underpinning their ability to function consistently amidst the harsh conditions prevalent in industrial settings. Specifically constructed to endure extreme temperature variations, combat electrical noise, and tolerate voltage fluctuations, these inputs exhibit an enhanced tolerance to environmental stresses. This robustness ensures unwavering performance, minimizing the risk of malfunctions or disruptions even in the face of adverse conditions.
  • Durability: This is another critical facet that defines the essence of industrial-grade Arduino inputs. These inputs are meticulously crafted using components renowned for their sturdiness and resilience. The choice of rugged materials and construction techniques empowers these inputs to withstand prolonged exposure to challenging environments, guaranteeing sustained and reliable operation over extended periods. This durability is a cornerstone for industries where equipment longevity is paramount to maintain uninterrupted processes.
  • Precision and Accuracy: Precision and accuracy in signal readings represent pivotal aspects addressed in the design and calibration of industrial-grade Arduino inputs. These specialized inputs are engineered with a heightened emphasis on delivering superior accuracy, making them indispensable for applications that mandate precise data acquisition. Their ability to provide meticulous and reliable measurements is pivotal in industries such as manufacturing, quality control, and scientific instrumentation.
  • Certifications: Compliance with industry standards and certifications is a hallmark feature of many industrial-grade Arduino inputs. These inputs undergo rigorous testing and validation processes to ensure adherence to established standards and safety regulations. This compliance not only underscores their reliability but also guarantees their suitability for deployment in professional settings where adherence to industry protocols is non-negotiable.

Choosing Between the Two

The choice between standard Arduino digital inputs and Industrial Arduino Inputs largely depends on the project’s requirements:

  • For hobbyist, educational, or prototyping purposes where cost-effectiveness and ease of use are prioritized, standard Arduino digital inputs are sufficient.
  • In industrial settings or projects demanding high reliability, durability, and adherence to specific regulations, industrial-grade Arduino inputs are the preferred choice.

Conclusion

Arduino digital inputs have democratized electronics, empowering countless enthusiasts to explore their creativity. However, when it comes to industrial applications with stringent reliability and durability demands, specialized Industrial Arduino Inputs offer the necessary robustness and precision required for such environments. Understanding the specific needs of a project is crucial in determining which type of Arduino inputs to employ, ensuring optimal performance and reliability in diverse applications.

Programmable IoT Devices

NORVI offers ESP32-based PLC powered by Arduino and offers Industrial Arduino inputs with many varieties for industrial automation. Visit our product page now: https://norvi.lk/products/

Or, Contact us at [email protected]

 

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Read More:

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

Why NORVI-Arduino-based Programmable Logic Controllers?

ESP32 based Controllers as a PLC for Automation and Monitoring Applications

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

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Building a Low-cost HMI with ESP32-S3 Chip & LVGL for Innovative Projects

Building a Low-cost HMI with ESP32-S3 Chip & LVGL for Innovative Projects

Low-cost HMI can be used for your innovative projects. Wondering how to choose and what are their features. Learn through this article.

The world of embedded systems has been witnessing a revolutionary transformation, marked by innovations that redefine the boundaries of technology. At the forefront of this evolution stands the NORVI ESP32 HMI, an ingenious fusion of the ESP32-S3 microcontroller, a versatile 5-inch TFT LCD, and the dynamic LVGL Graphics Library. This confluence presents an alluring solution for developers and enthusiasts seeking to create cost-effective yet high-performance Human-Machine Interfaces (HMIs).

Key 3 Features of Low-cost HMI

A Low-cost HMI (Human-Machine Interface) solution boasts three fundamental components.

Firstly, it integrates the ESP32-S3 Microcontroller, esteemed for its robust capabilities in handling IoT applications, equipped with Wi-Fi, Bluetooth, and a rich set of peripherals. Secondly,  it incorporates an 8-bit RGB 5-inch LCD complemented by a touch panel, offering a cost-effective yet visually engaging display solution, ideal for various interactive applications. Lastly, leverages the LVGL (LittlevGL) Graphics Library, renowned for its efficiency in creating intuitive user interfaces across diverse embedded systems. This amalgamation delivers an affordable yet powerful HMI platform suitable for numerous projects requiring graphical user interfaces and touch interaction. These Low-cost HMI features will be discussed one by one now.

Unveiling the ESP32-S3 Microcontroller

  • As the first feature of Low-cost HMI,  ESP32-S3 microcontroller can be identified.
  • The NORVI ESP32 HMI is based on the ESP32-S3 microcontroller, which has 45 physical GPIO pins. It utilizes 20 GPIO pins for the display and the majority of the remaining pins for various functions, including digital inputs, transistor outputs, and communication.
  • ESP32-S3 is best for low-power applications that require advanced Wi-Fi and Bluetooth capabilities.
  • ESP32-S3 is a newer and more advanced microcontroller, and as such, it is generally more expensive than ESP32. But ESP32-S3 is an enhanced variant of the ESP32 microchip. Compared with ESP32, ESP32-S3 supports larger, high-speed octal SPI flash, and PSRAM with configurable data and instruction cache. Prices for ESP32-S3 can range from around $5 to $15 per unit, depending on the specific model and features.
  • However, the NORVI ESP32 HMI has an integrated ESP32-S3 module, serving both UI functions and communication purposes. This integrated approach lends the NORVI ESP32 HMI a cost-effective and higher performance edge compared to the others.

8-bit RGB 5-inch LCD with touch panel: A Visual Delight

  • Second Low-cost HMI feature is LVGL 5inch LCD Display with 8-bit RG and resistive touch.
  • NORVI ESP32 HMI offers a crystal-clear 5-inch TFT LCD with resistive touch technology, ensuring a user-friendly and interactive experience.
  • TFT display has a resolution of 800×480 pixels and a high contrast ratio of 500:1, making it capable of rendering deep blacks and vibrant colors.  It also has a high brightness of 450cd/m2, making it suitable for use in both indoor and outdoor environments.
  • TFT display comes with optional resistive touch screen capability, allowing users to interact with the display through touch. This option allows for precise touch input using a stylus or finger.
  • 8-bit RGB is used to interface with large color displays. It sends 8 bits of data for each of the three colors, Red Green, and Blue every clock cycle. Since there are 24 bits of data transmitted every clock cycle, at clock rates up to 50 MHz, this interface can drive much larger displays at video frame rates of 60 Hz and up.RGB is Low-cost due to technology maturity but High performance.
  • Prices for a 5-inch TFT LCD can range from around $19 to $20 per unit, depending on the specific model and features.

Powering Creativity with LVGL Graphics Library

  • Third, the Low-cost HMI feature is LVGL library support which makes it more useful.
  • LVGL is the most popular free and open-source embedded graphics library that offers a wide range of features that can be used to create beautiful UIs for any display type. LVGL’s graphical elements are fully customizable.
  • It provides building blocks for creating user interfaces on embedded systems and it has advanced graphics features such as animation, also it supports a variety of input devices, including touch pads, mice, keyboards, and encoders. 
  • Especially, the library is hardware-independent, meaning it can be used with any microcontroller or display. 

Embracing the Future of Human-Machine Interaction

The ever-expanding landscape of embedded systems, the NORVI ESP32 HMI stands as a testament to the innovation driving the industry forward as positioning by Low-cost HMI. In the realm of creating low-cost Human-Machine Interfaces (HMIs), the fusion of the ESP32-S3 microcontroller with NORVI ESP32 HMI, alongside the integration of a versatile 5-inch TFT LCD and the dynamic LVGL Graphics Library, defines an enticing solution for developers and enthusiasts.Whether an experienced developer or a hobbyist embarking on a new project, this powerful combination offers the tools needed to bring ideas to life. In a world where seamless interaction between humans and machines is paramount, the NORVI ESP32 HMI and its companions pave the way for a new era of user-friendly and cost-effective solutions.                                     

Low-cost HMI is now available to buy from NORVI.

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

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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

 

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Innovative Industrial Automation: The Versatile Applications of ESP32-based PLC with Ethernet Connectivity

ESP32-based PLC with Ethernet Connectivity

Why ESP32-based PLC with Ethernet Connectivity? In today’s dynamic industrial landscape, the demand for efficient and reliable automation solutions continues to grow. The advent of technologies like the ESP32-based PLC with Ethernet Connectivity has revolutionized the realm of industrial automation. These powerful devices offer a wide array of applications, transforming the way industries operate and optimize their processes.

What is Ethernet?

Ethernet is a widely used technology that defines a system for connecting a group of computers and other devices in a local area network (LAN). It was developed in the 1970s by Xerox Corporation’s Palo Alto Research Center (PARC) and later standardized by the Institute of Electrical and Electronics Engineers (IEEE).

Ethernet operates on the principles of packet-switching and uses a set of protocols to enable devices within the same network to communicate with each other. It involves physical cabling (such as twisted pair, fiber optic, or coaxial cable) and a series of rules and procedures for transmitting data between connected devices.

Some key aspects of Ethernet include:

  • Data Transmission: Ethernet networks use frames to transmit data between devices. These frames contain information about the sender, receiver, type of data, and error-checking bits.
  • Speeds: Ethernet has evolved over the years to support various speeds, ranging from the original 10 megabits per second (Mbps) to 100 Mbps, 1 gigabit per second (Gbps), 10 Gbps, 40 Gbps, 100 Gbps, and even higher.
  • Topologies: Ethernet supports various network topologies, including star, bus, and ring configurations. The most common nowadays is the star topology, where devices connect to a central switch or router.
  • Standardization: IEEE 802.3 defines the standards for Ethernet, ensuring compatibility and interoperability between devices from different manufacturers.
  • Usage: Ethernet is widely used in homes, businesses, data centers, and various industries as the primary means of local area networking.

Ethernet has undergone numerous advancements and improvements, allowing for faster speeds, increased reliability, and greater flexibility in network setups. It remains one of the most prevalent and fundamental technologies for networking, enabling communication between devices within a local network environment.

ESP32-based PLC with Ethernet

An ESP32-based PLC with Ethernet Connectivity can offer several advantages and capabilities due to the combination of the ESP32 microcontroller and Ethernet connectivity:

  • Networking Capabilities: Ethernet connectivity enables the PLC to communicate with other devices, such as computers, servers, sensors, and other PLCs, over a local area network (LAN). This allows for data exchange, control, and monitoring of industrial processes or automation systems.
  • Reliability and Speed: Ethernet provides a stable and reliable communication platform with high-speed data transfer rates. This is crucial in industrial settings where real-time data processing and communication are required for efficient operations.
  • Integration with Existing Infrastructure: Many industrial environments already have established Ethernet-based networking infrastructure. Using an ESP32-based PLC with Ethernet allows seamless integration into these systems without requiring significant modifications or additional hardware.
  • Remote Monitoring and Control: With Ethernet connectivity, the ESP32-based PLC can enable remote monitoring and control functionalities. This means that operators or engineers can access and manage the system from a central location, improving efficiency and reducing the need for physical presence on the factory floor.
  • Scalability and Flexibility: Ethernet-equipped PLCs can easily scale to accommodate larger systems or expand functionalities by leveraging network capabilities. They can also interact with a variety of devices and systems, providing flexibility in industrial automation setups.
  • Security Features: Ethernet-based communication can leverage various security protocols and measures to ensure data integrity and prevent unauthorized access, enhancing the overall security of industrial networks.
  • Compatibility and Standardization: Ethernet is a well-established and standardized networking technology, ensuring compatibility with a wide range of devices and systems, and facilitating easier integration and interoperability.

Why Ethernet stands out?

While other connectivity options like serial communication (RS-232, RS-485), Fieldbus protocols (Profibus, Modbus), wireless technologies (Wi-Fi, Bluetooth, Zigbee), or proprietary industrial protocols have their own merits, Ethernet stands out due to its speed, reliability, scalability, and standardization, making it an excellent choice for connecting PLCs in modern industrial automation setups. Additionally, advancements in Ethernet technology continue to enhance its capabilities, making it more adaptable and suitable for diverse industrial applications.

ESP32-based PLC with Ethernet Connectivity enhances its capabilities, enabling robust communication, remote access, scalability, and integration into existing industrial networks, thereby improving the efficiency and effectiveness of industrial automation and control systems.

Applications in Industrial Automation

There are various applications that can perform using ESP32-based PLC with Ethernet Connectivity effectively. Find below:

1. Factory Automation and Control

ESP32-based PLCs with Ethernet play a pivotal role in controlling and supervising industrial machinery and processes. They enable precise and real-time control of production lines, ensuring seamless operation, minimizing downtime, and optimizing overall efficiency. These PLCs manage diverse tasks, including motor control, conveyor systems, and robotic operations.

2. Remote Monitoring and Management

Ethernet-equipped PLCs empower remote monitoring and management of industrial setups. Engineers and operators can access critical data, monitor machine performance, and troubleshoot issues from a centralized location. This capability streamlines maintenance procedures, enhances operational visibility, and facilitates timely interventions, reducing maintenance costs and increasing uptime.

3. Integration into Existing Networks

The compatibility of ESP32-based PLCs with Ethernet facilitates easy integration into existing industrial networks. They seamlessly communicate with other devices, such as sensors, Human Machine Interfaces (HMIs), and servers, leveraging standardized Ethernet protocols. This integration optimizes workflow, data exchange, and interoperability among various components of the automation ecosystem.

4. Data Acquisition and Analysis

These PLCs efficiently collect and process data from sensors and connected devices. With Ethernet connectivity, they transmit this data to central servers or cloud-based platforms for in-depth analysis. By harnessing this data, industries gain valuable insights into production trends, anomalies, and predictive maintenance, empowering informed decision-making.

5. Enhanced Security Measures

Ethernet-based communication in ESP32-based PLCs incorporates robust security measures, safeguarding sensitive industrial data and preventing unauthorized access. Encrypted communication protocols and authentication mechanisms ensure the integrity and confidentiality of data exchanged within the network.

NORVI ESP32-based PLC with Ethernet

The marriage of ESP32-based PLC with Ethernet Connectivity heralds a new era in industrial automation. These versatile devices offer a spectrum of applications, revolutionizing manufacturing, process control, and operational efficiency. By enabling seamless connectivity, precise control, remote management, and enhanced data analysis, these PLCs are pivotal in shaping the future of industrial automation.

As industries continue to evolve, embracing the capabilities of ESP32-based PLC with Ethernet Connectivity will undoubtedly remain a cornerstone in achieving higher productivity, reduced downtime, and smarter decision-making in the industrial landscape.


Visit our product page now to buy ESP32-based PLC with Ethernet: https://norvi.lk/product/industrial-esp32-ethernet/

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Read More:

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Why NORVI-Arduino-based Programmable Logic Controllers?

ESP32 based Controllers as a PLC for Automation and Monitoring Applications

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#NORVI #ESP32 #ESP32PLC #Ethernet #EthernetAutomation #IndustrialESP32 #PLCTechnology #AutomationSolutions #SmartManufacturing #IoTIndustrial #ConnectedPLC #DigitalFactory #Industry40 #EthernetPLC #AdvancedAutomation #ESP32Innovation #EfficientPLC #ReliableAutomation

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

ESP32-based PLC with GSM

Discover GSM connectivity’s pivotal role and its integration in PLCs, and How ESP32-based PLC with GSM stands out. Explore More through this article. 

What is GSM Connectivity?

GSM logo

GSM, or Global System for Mobile Communications, is a standard technology used in mobile devices to facilitate communication through cellular networks. It’s a prevalent wireless communication standard used by mobile phones, tablets, and other devices to transmit voice and data.

Here are some key aspects of GSM connectivity:

  • Communication Standard: GSM is a widely adopted standard for digital cellular networks. It sets the protocols for transmitting voice calls and data over mobile networks.
  • Coverage and Reach: GSM networks have extensive coverage globally, providing connectivity across various regions and countries. This wide coverage enables devices using GSM technology to communicate in many parts of the world.
  • Voice and Data Transmission: GSM enables the transmission of both voice and data. It supports voice calls, SMS (Short Message Service), and data transmission for internet access, emails, and other applications.
  • SIM Card Technology: GSM networks use SIM (Subscriber Identity Module) cards to identify and authenticate users on the network. SIM cards store user information such as phone number, contacts, and other subscription details.
  • Security Measures: GSM incorporates security measures like encryption to protect communications between devices and the network, ensuring confidentiality and preventing unauthorized access to data.
  • Evolution to Advanced Technologies: While GSM laid the foundation for mobile communication, newer technologies like 3G, 4G (LTE), and 5G have evolved from it, offering faster data speeds and improved capabilities while maintaining backward compatibility with GSM networks.

Key Features of ESP32-based PLC with GSM

An ESP32-based PLC with GSM features represents a cutting-edge solution at the intersection of embedded systems and industrial automation. This innovative combination harnesses the power of the ESP32 microcontroller and GSM connectivity to create a versatile and highly capable automation platform.

Key features are as follows:

  • ESP32 Microcontroller: The ESP32, renowned for its robustness and versatility, serves as the core processing unit of the PLC. Its dual-core architecture, low power consumption, and built-in Wi-Fi and Bluetooth capabilities offer a solid foundation for industrial automation applications.
  • PLC Functionality: Equipped with GPIO pins, analog and digital input/output interfaces, and support for various communication protocols, the ESP32-based PLC functions as a programmable logic controller. It facilitates the control, monitoring, and automation of industrial processes and machinery.
  • GSM Connectivity: The integration of GSM capabilities allows the PLC to communicate over cellular networks. This feature enables remote access, data exchange, and control functionalities, empowering users to manage and oversee industrial systems from distant locations.
  • Remote Monitoring and Control: Leveraging GSM connectivity, users can remotely monitor real-time data, receive alerts, and exert control over industrial equipment or processes using mobile devices or computers connected to the GSM network.
  • Data Exchange and Communication: The GSM functionality enables seamless data exchange between the PLC and external systems or servers, facilitating communication for reporting, analysis, and decision-making purposes.
  • Enhanced Flexibility and Accessibility: The combination of ESP32-based PLC with GSM offers enhanced flexibility and accessibility, allowing for efficient management and optimization of industrial operations, regardless of geographical constraints.

Applications of ESP32-based PLC with GSM

The EESP32-based PLC with GSM offers a myriad of applications across various industries and scenarios due to its versatile capabilities. Some notable applications include:

  • Industrial Automation: Utilized in manufacturing plants, factories, and production lines for controlling machinery, managing processes, and monitoring equipment remotely. It aids in optimizing production efficiency and reducing downtime.
  • Remote Monitoring and Control: Deployed in remote or unmanned sites, such as in agriculture for irrigation systems, weather monitoring, and livestock management. It allows users to monitor and control operations from afar remotely.
  • Smart Agriculture: Used in precision agriculture for tasks like soil monitoring, irrigation control, and crop management. The PLC with GSM enables real-time data collection and analysis for better decision-making.
  • Infrastructure Management: Applied in infrastructure settings like utilities (water, gas, electricity), where remote monitoring and control of critical systems or installations are crucial for maintenance and operational efficiency.
  • Environmental Monitoring: Employed in environmental monitoring systems for collecting data on air quality, pollution levels, weather conditions, and more. The GSM connectivity enables real-time data transmission and analysis.
  • Mobile Asset Tracking: Utilized in logistics and transportation industries for tracking and managing mobile assets such as vehicles, containers, or equipment. The GSM connectivity enables real-time tracking and management regardless of location.
  • IoT Integration: Integrated into IoT ecosystems for data acquisition, integration with cloud platforms, and building scalable IoT solutions across various domains.
  • Energy Management: Applied in energy management systems for monitoring and controlling power distribution, renewable energy systems, and smart grid applications.
  • Security and Surveillance: Used in security systems for remote surveillance, access control, and alarm systems where real-time monitoring and notifications are vital.
  • Healthcare Monitoring: Applied in remote healthcare applications for monitoring patients’ vital signs, collecting medical data, and enabling telemedicine services in remote areas.

These applications showcase the versatility and adaptability of ESP32-based PLC with GSM connectivity across diverse industries, enabling remote access, data exchange, and control functionalities crucial for efficient and advanced automation solutions.

Why NORVI GSM?

ESP32-based PLC with GSM is now available with NORVI. In the realm of devices like NORVI controllers equipped with GSM connectivity, this technological integration serves as a pivotal enabler, empowering industrial automation systems to establish seamless communication across expansive cellular networks.

This transformative capability extends far beyond mere connectivity, bestowing upon these controllers the profound ability to facilitate remote access, bidirectional data exchange, and dynamic control functionalities. Through the convergence of NORVI controllers with GSM technology, a paradigm shift emerges, allowing users, irrespective of geographical constraints, to engage with and oversee industrial operations and machinery.

This breakthrough offers an unprecedented level of flexibility and responsiveness, as users harness the potential of their mobile devices or computers tethered to the omnipresent GSM network, thereby orchestrating efficient management and interaction with industrial systems and machinery positioned across disparate locations.

Here are the main features of NORVI ESP32-based PLC with GSM;

  • ESP32-WROOM32: This is a powerful and widely used microcontroller module manufactured by Espressif Systems. The ESP32-WROOM32 integrates the ESP32 chip, which is a dual-core microcontroller with integrated Wi-Fi and Bluetooth capabilities. It’s known for its versatility, low power consumption, and ample processing power, making it popular in various IoT applications, including home automation, industrial automation, wearable devices, and more.
  • SIM800L: SIM800L is a highly compact and versatile GSM/GPRS module designed for mobile communication. It allows devices to connect to cellular networks, enabling functionalities like making/receiving calls, sending/receiving SMS messages, and data transmission over the GPRS network. The module is commonly used in IoT projects, such as GPS tracking devices, remote monitoring systems, and other applications that require cellular connectivity.
  • The SIM7500: This is a cellular module developed by SIMCom Wireless Solutions. It’s designed to provide cellular connectivity with support for various wireless technologies, including LTE (4G), WCDMA (3G), and GSM (2G), offering high-speed data transmission and communication capabilities. The module supports functionalities such as making and receiving calls, sending and receiving SMS messages, and establishing data connections over the LTE network.

These components, when integrated into devices or systems, provide connectivity solutions, allowing communication over different types of networks (Wi-Fi, Bluetooth, GSM, GPRS, LTE), thereby enabling a wide range of functionalities and applications in the IoT and industrial sectors.

However, NORVI ESP32-based PLC with GSM has an LTE option that comes with it.  It will explore through another article for you. Just visit the product page for more information here.

Conclusion

In conclusion, the ESP32-based PLC with GSM connectivity represents a groundbreaking advancement in the realm of industrial automation. As a cornerstone of mobile communication, GSM technology provides a global standard for voice and data transmission, offering extensive coverage, robust security measures, and a foundation for evolving technologies like 3G, 4G (LTE), and 5G.

The fusion of the ESP32-based PLC with GSM connectivity in PLCs creates a versatile automation platform. This integration allows for remote access, data exchange, and control functionalities, empowering users to oversee industrial systems from distant locations.

Key features like the ESP32’s robustness, PLC functionality, and GSM connectivity enable real-time monitoring, seamless data exchange, and efficient management of industrial operations, transcending geographical constraints, while the applications of ESP32-based PLCs with GSM span various industries which showcase the adaptability and versatility of these systems, offering remote access, data exchange, and control crucial for advancing automation solutions.

Notably, devices like NORVI ESP32-based PLC with GSM, epitomize this transformative integration. NORVI controllers equipped with GSM technology empower industrial automation systems to establish seamless communication across expansive cellular networks. This convergence goes beyond mere connectivity, enabling bidirectional data exchange, dynamic control functionalities, and unprecedented flexibility for users, regardless of geographical constraints.

In essence, the integration of ESP32-based PLCs with GSM connectivity heralds a new era in industrial automation, where users can efficiently manage and interact with industrial systems and machinery positioned across disparate locations, leveraging the potential of ubiquitous GSM networks. This breakthrough offers unparalleled flexibility, responsiveness, and efficiency in overseeing and managing industrial operations, marking a significant stride in the evolution of automation solutions.

ESP32-based PLC with GSM is now available to buy: Visit the page

Read More:

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

Why NORVI-Arduino-based Programmable Logic Controllers?

ESP32 based Controllers as a PLC for Automation and Monitoring Applications

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

#norvi #ESP32 #PLC #GSM #LTE #IndustrialAutomation #IoT #AnalogInputs #Relayoutputs #digitalinput #RemoteControl #SmartManufacturing #IoTDevices #TechInnovation #Connectivity #ethernet #SmartPLC #Industry40 #WirelessControl #RealTimeMonitoring #SmartTech #AutomationTech #Industry4_0 #IoTDevices #SmartControl #DigitalTransformation #RealTimeControl #WirelessAutomation #SmartIndustry #IoTSolutions #ConnectedDevices #TechInnovation #DataAcquisition #EfficientAutomation

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

ESP32-based PLC with Analog Inputs

Wondering how our ESP32-based PLC with Analog Inputs stand out? Delve into the crucial features, precision capabilities, and versatility of analog inputs, crucial for precise real-world data acquisition and control across diverse industries. NORVI’s tailored range of 0-10V and 4-20mA Analog Inputs presents customized solutions for industrial requirements.

What are Analog Inputs?

Analog inputs refer to the interfaces or ports on a device, such as a microcontroller, PLC (Programmable Logic Controller), or sensor, that are designed to accept analog signals. These inputs are crucial for acquiring and processing continuous real-world data that varies in amplitude or intensity over time.

Analog inputs typically allow the connection of sensors or devices that generate analog signals, such as temperature sensors, pressure transducers, potentiometers, strain gauges, and many others. These sensors produce signals that represent physical quantities like temperature, pressure, voltage, light intensity, etc., in analog form, which means they provide a continuous range of values.

Devices equipped with analog inputs use analog-to-digital converters (ADCs) to convert the incoming analog signals into digital form, which can be processed, analyzed, stored, or used by digital systems like microcontrollers or computers. The ADCs sample the analog signal at discrete intervals and assign digital values to represent the amplitude of the analog signal at those points in time.

Analog inputs are essential in various fields, especially in industrial automation, robotics, data acquisition systems, and scientific instrumentation, where precise measurement and control of analog data are critical for operations and analysis. The quality and accuracy of the analog inputs play a significant role in the overall performance and reliability of the system.

Features of ESP32-based PLC with Analog Inputs?

ESP32-based PLC with Analog Inputs has main features as below,

  • High-resolution analog-to-digital conversion
  • Voltage input range
  • Current input range
  • Differential input capability
  • Sampling rate
  • Noise filtering
  • Programmable gain amplification
  • Multiplexed input channels
  • Overvoltage protection
  • Calibration options
  • Signal conditioning
  • Compatibility with various sensors
  • Low-power consumption
  • Real-time data acquisition
  • Configurable input impedance
M11 E Series

The Precision of Analog inputs

The precision of ESP32-based PLC with Analog Inputs refers to their ability to accurately measure and convert analog signals into digital values. The ESP32 microcontroller typically has a 12-bit ADC (Analog-to-Digital Converter) for analog input.

The 12-bit ADC resolution means that it can convert an analog input voltage into a digital value between 0 and 4095 (2^12 – 1), providing 4096 discrete steps. This resolution determines the granularity or level of detail in the conversion process. Higher resolution allows for more precise measurements, as the ADC can distinguish smaller changes in the input voltage.

The precision of the ESP32-based PLC with Analog Inputs can be affected by various factors, including:

  • Voltage reference: The accuracy and stability of the reference voltage used by the ADC can impact the overall precision of analog-to-digital conversion.
  • Noise and interference: Electrical noise or interference in the system can introduce errors in the analog readings, affecting the accuracy and precision of the measurements.
  • Signal conditioning: Proper signal conditioning circuits and techniques can enhance the accuracy and reduce noise in analog measurements.
  • Calibration: Calibration procedures can be implemented to improve the accuracy and correct any inherent inaccuracies in the ADC readings.

While the ESP32’s ADC provides reasonable precision for many applications, if higher accuracy or precision is required, external analog front-end components or specialized ADCs with higher resolutions and better characteristics can be used in conjunction with the ESP32 to achieve more accurate analog measurements. Additionally, careful design considerations and noise reduction techniques can also improve the overall precision of analog inputs in ESP32-based systems.

Versatility of an ESP32-based PLC with Analog Inputs

The versatility of an ESP32-based PLC with Analog Inputs lies in its ability to offer a wide range of functionalities and applications across various industries. Here are several aspects that highlight the versatility of an ESP32-based PLC with analog inputs:

  • Flexible Analog Input Support: ESP32-based PLCs typically come equipped with multiple analog input channels, allowing integration with various analog sensors measuring parameters like temperature, pressure, humidity, voltage, current, etc. This flexibility enables monitoring and control of diverse industrial processes.
  • Higher Resolution: ESP32-based PLC offers higher resolution analog inputs with ADS1115 16bit ADC.
  • Real-time Monitoring and Control: With its capability for real-time data acquisition and processing, an ESP32-based PLC can continuously monitor analog input signals, providing timely control actions based on the analyzed data.
  • Wireless Connectivity: Many ESP32-based PLCs come with built-in Wi-Fi or Bluetooth connectivity, enabling remote monitoring, control, and data transmission to cloud platforms or mobile devices. This wireless capability enhances the PLC’s adaptability to IoT (Internet of Things) applications.
  • Cost-Effective Solution: ESP32-based PLCs often offer a cost-effective alternative compared to traditional PLCs, making them suitable for smaller-scale industrial applications or projects with budget constraints.
  • Scalability and Expansion: These PLCs are often designed with expandability in mind, allowing the addition of extra modules or peripherals to extend functionality, such as adding more analog inputs, digital I/Os, communication interfaces, etc.
  • Cross-Industry Applicability: The versatility of an ESP32-based PLC with analog inputs makes it suitable for a wide range of industries including manufacturing, agriculture, HVAC (heating, ventilation, and air conditioning), automation, monitoring systems, and more.

In essence, the ESP32-based PLC’s versatility lies in its adaptability to diverse applications, its programmability, connectivity options, and the ability to handle analog signals while offering a cost-effective solution for various industrial automation needs. Threfore, it shows that how vital ESP32-based PLC with Analog Inputs for seamless IoT intergration and Automation projects.

NORVI has ESP32-based PLC with Analog Inputs which offers two ranges of Analog Inputs as 0-10V Analog Inputs and 4-20mA Analog Inputs, refer to our product range.

Read More:

Why NORVI-Arduino-based Programmable Logic Controllers?

Why, What and How, ESP32 – Industrial Controllers?

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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]

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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

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Unleash the Potent Versatility of ESP32: Industrial Controllers for Innovative Integration

ESP32

ESP32 is a SoC that allows you to create your own development project. To get a better understanding of ESP 32, get to know about what it is and how it works. ESP32, a Microcontroller Marvel, why is it? read the full article.

What is ESP32?

Espressif Systems introduces the ESP32, a revolutionary low-cost, low-power System-on-Chip (SoC) module that’s transforming the connectivity landscape. This cutting-edge module isn’t just an ordinary chip; it’s a powerhouse packed with built-in WiFi, Bluetooth, and Bluetooth Low Energy functionalities, redefining the possibilities of seamless wireless connectivity.

At its core lies the ESP32-D0WDQ6 chip, boasting a Tensilica Xtensa LX6 dual-core microprocessor, setting new standards in integration and performance. Its astounding integration encompasses an array of essential components, including antenna switches, RF balun, power amplifier, low-noise reception amplifier, filters, and power management modules. This amalgamation ensures unparalleled efficiency and reliability in operations.

Remarkably, this innovation doesn’t compromise on power efficiency. With a quiescent current of less than 5 μA, the ESP32 stands tall as the go-to choice for battery-powered projects or IoT applications, promising sustained performance without draining power resources hastily.

Diving into its exceptional technical specifications, the ESP32 is a marvel featuring an Xtensa Dual-Core 32-bit LX6 microprocessor, boasting a staggering 600 DMIPS. Its HT40 Wi-Fi connectivity (802.11 b/g/n), Bluetooth 4.2, and BLE connectivity redefine wireless standards. Running at an impressive 160 MHz operating frequency, it’s equipped with 448 KB of internal RAM (SHAME), paired with 520 KB of Flash memory, ensuring swift and reliable data storage and processing.

This versatile module boasts an impressive array of capabilities: 34 GPIO pins facilitating diverse connectivity options, 16 channels of PWM (software-enabled), 4 SPI interfaces, 2 I2C interfaces, 2 I2S interfaces, and 2 UART interfaces. Additionally, it features a high-resolution 12-bit ADC for precision analog measurements, while offering support for CAN, Interface MAC Ethernet, Touch sensors, and Hall effect sensors, expanding its applicability across an extensive range of projects and industries.

In essence, the ESP32 emerges as a game-changer, redefining wireless connectivity, unleashing unparalleled performance, and fostering innovation in a multitude of applications, from IoT projects to advanced industrial solutions.

How do you choose?

When evaluating an ESP32 System-on-Chip (SoC) for your project, it’s crucial to deliberate on a range of essential features. Consider the specific Input/Output (I/O) requirements, optimal configuration, availability of a serial-USB interface, the presence of a reliable voltage regulator, compatibility with battery connectors, and the inclusion of additional functionalities like support for cameras, OLED displays, and LoRa modules. These features collectively empower the board, enabling direct connectivity to computers for energized operations and programming. This capability renders it particularly suitable for low-consumption systems, a pivotal aspect in various applications.

The ESP32, renowned for its versatility as a microcontroller embedded with Wi-Fi and Bluetooth capabilities, stands out as an exceptional choice for both Internet of Things (IoT) applications and industrial environments. Its standout attributes include a dual-core processing system that ensures enhanced performance, substantial memory capacity for data storage and processing, and a multitude of General Purpose Input/Output (GPIO) pins catering to varied connectivity needs. These comprehensive features make the ESP32 an invaluable asset in navigating the complexities of IoT and thriving in demanding industrial settings.

Why ESP32?

The ESP32 is a cost-effective alternative to traditional microcontrollers, offering performance without compromising on performance. Its built-in Wi-Fi and Bluetooth capabilities enable seamless communication with other devices, facilitating real-time data exchange. The ESP32 supports programming with Open Source IDEs like ESP-IDF and Arduino, allowing developers to customize functionality to suit specific automation and Communication requirements. Its flexibility and scalability make it ideal for automation and monitoring solutions in diverse industries.

The ESP32 is a versatile tool for industrial automation, environmental monitoring, smart agriculture, and building automation. Its real-time capabilities enable control of motors, valves, and conveyor belts, and can interface with various sensors for data analysis. Its low-power mode and remote connectivity make it ideal for off-grid setups. Its user-friendly interface allows efficient monitoring and control of building operations.

ESP32

These are main advantages related to ESP32 as follows:

  • Crafted with a Sturdy Design – The ESP32 isn’t just a microcontroller; it’s a robust engineering feat. Its advanced calibration circuitries enable unwavering operation, ensuring reliability even in the most demanding industrial environments. From bone-chilling -40°C temperatures to sweltering highs of +125°C, this versatile microcontroller dynamically eradicates external circuit imperfections, delivering consistent performance where others falter.
  • Pioneering Ultra-Low Power Efficiency – Engineered with a focus on mobile devices, wearable electronics, and the sprawling realm of IoT applications, the ESP32 is synonymous with ultra-low power consumption. Leveraging proprietary software innovations and cutting-edge features like fine-grained clock gating, it optimizes energy usage, extending the longevity of connected devices while preserving efficiency.
  • Unmatched Integration for Streamlined Functionality – The ESP32 epitomizes integration. It’s not just a microcontroller; it’s an amalgamation of seamlessly integrated components. Integrated antenna switches, RF balun, power amplifier, filters, and power management modules are all neatly nestled within its compact frame. This integration minimizes the complexities of PCB layouts, enhancing efficiency and reducing costs, making it an ideal choice for a myriad of applications.
  • Hybrid Wi-Fi and Bluetooth Brilliance – As a dual-purpose chip, the ESP32 offers unparalleled flexibility. It operates as a standalone system or seamlessly integrates as a slave device. By reducing communication stack overhead, it ensures streamlined performance. Harnessing the power of SPI, SDIO, I2C, or UART interfaces, it provides robust Wi-Fi and Bluetooth functionalities, empowering connectivity in diverse applications.

Although the ESP32 is significantly better in features than the Arduino UNO and the ESP8266, this does not mean it is the best microcontroller for every project. To get the most out of this SoC, now you understand what it is, how it functions, and what makes it unique from other microcontroller boards.  learn from the manufacturer.

ESP32 based PLC – NORVI

If you need to create an IoT-based smart solution or you need to develop any automation process, ESP32-based programmable logic controllers are available with NORVI. The main product ranges developed with ESP32 are below.

NORVI GSM       |   NORVI IIOT   |   NORVI ENET   |  NORVI AGENT 2

There are more products you should look at that you can use for all of your automation requirements with NORVI. Check out the product range

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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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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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Taking IoT to the Next level Programmable Devices

NORVI IIOT - Arduino Compatible PLC

The world of industrial automation is witnessing a significant shift towards connectivity and data-driven decision-making. In this era of Industry 4.0, the Arduino platform has emerged as a popular choice for rapid prototyping and DIY projects due to its ease of use and vast community support. NORVI IIOT takes this compatibility to new heights by seamlessly integrating Arduino’s simplicity with the capabilities required for industrial automation, making it a compelling solution for diverse applications.

NORVI IIOT: Arduino Compatibility Amplified

NORVI IIOT is a revolutionary hardware platform that embraces Arduino compatibility while addressing the specific requirements of industrial automation. It combines the openness and flexibility of Arduino programming with the robustness and reliability necessary for industrial environments, empowering engineers and developers to create advanced automation solutions efficiently.

Key Features and Benefits

  1. Arduino Compatibility: NORVI IIOT is fully compatible with the Arduino ecosystem, allowing users to leverage the vast library of existing code, tutorials, and community support. This compatibility ensures a smooth transition for Arduino enthusiasts, enabling them to extend their knowledge and skills to industrial automation projects seamlessly.
  2. Industrial-Grade Design: NORVI IIOT is designed to meet the demanding conditions of industrial environments. It incorporates rugged components and adheres to stringent quality standards, ensuring reliable operation in harsh conditions, temperature variations, and electromagnetic interference.
  3. Extensive I/O Options: NORVI IIOT offers a wide range of input and output options, including digital and analog ports, allowing for easy integration with sensors, actuators, and other industrial devices. This flexibility enables the monitoring and control of various processes, making it suitable for diverse applications across industries.
  4. Communication Protocols: NORVI IIOT supports popular communication protocols such as Modbus, MQTT, and Ethernet/IP, enabling seamless integration with existing industrial networks and protocols. This capability facilitates real-time data exchange, remote monitoring, and integration with supervisory control and data acquisition (SCADA) systems.
  5. Edge Computing and Analytics: NORVI IIOT is equipped with powerful computational capabilities, enabling edge computing and data analysis at the source. This eliminates the need for transmitting large volumes of data to a central server, enabling real-time decision-making, predictive maintenance, and optimization of industrial processes.
  6. Scalability and Flexibility: NORVI IIOT is designed to be scalable, allowing users to expand its capabilities by adding additional I/O modules as per project requirements. This scalability ensures future-proofing and adaptability to evolving automation needs, making it a cost-effective choice for both small-scale and large-scale applications.

Applications of NORVI IIOT

  1. Industrial Automation: NORVI IIOT can be employed in various industrial automation scenarios, including machine control, production line monitoring, and data acquisition. Its Arduino compatibility makes it a versatile solution for rapid prototyping and implementing automation projects across different industries.
  2. Smart Buildings: NORVI IIOT enables intelligent control and monitoring of building systems such as lighting, HVAC, access control, and energy management. Its compatibility with Arduino allows for customization and integration with smart home automation systems, enhancing energy efficiency and occupant comfort. 
  3. Environmental Monitoring: NORVI IIOT can be utilized for environmental monitoring applications, including air quality sensing, water quality monitoring, and weather stations. Its compatibility with Arduino simplifies the development of monitoring solutions for sustainable resource management and environmental conservation.
  4. Research and Education: NORVI IIOT’s Arduino compatibility makes it an excellent platform for educational institutions and research labs. It allows students, educators, and researchers to explore and experiment with industrial automation concepts, enhancing their understanding and practical skills.

NORVI IIOT’s compatibility with Arduino offers a powerful combination of simplicity and versatility for industrial automation. By embracing Arduino’s extensive ecosystem, NORVI

Industrial IoT Device
Programmable IoT Device

The NORVI IIOT, powered by the cutting-edge ESP32-WROOM32 chip is now available for purchase!

Elevate your PLC and IoT experience and explore the limitless possibilities of innovative technology. Get yours today and step into the future of industrial IoT.

Visit our PRODUCT PAGE or, Contact Us at [email protected]

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