Node-Red on RPI HMI Introduction: Controlling Transistor Outputs
Example of Node-Red on RPI HMI applications. NORVI has a set of node-red nodes that makes programming easy. Here is an example of using the Raspberry
NORVI has a wide range of communication options, where GSM/LTE is one of the options to choose.
Empower your industrial operations with our robust Industrial ESP32 Programmable Controller with 4G LTE connectivity. Designed to thrive in industrial environments,
it’s equipped with Arduino and ESP-IDF compatibility for seamless integration. This Programmable Controller offers versatile connectivity options, making it perfect for IoT gateways and data transmission applications.
Powered by the ESP32-WROOM32 SoC, it ensures reliable 4G LTE connectivity while being I/O compatible with industrial voltage levels and fortified with added protection.
Choose from various models tailored to your input and output needs, and expand its capabilities with optional expansion modules. Experience unparalleled performance and adaptability.
There are NORVI devices that can be ordered with GSM/LTE communication options. Find to click below.
Incorporating an ESP32 Programmable Controller with 4G LTE connectivity offers several compelling advantages:
Remote Monitoring and Control: 4G LTE connectivity enables real-time monitoring and control of industrial processes, machinery, and equipment from anywhere with cellular coverage. This ensures that operators can promptly respond to any issues or make adjustments remotely, improving operational efficiency and reducing downtime.
Reliable Connectivity: Unlike traditional Wi-Fi or GSM connections, 4G LTE provides more stable and reliable connectivity, especially in remote or challenging environments where Wi-Fi signals may be weak or unreliable. This reliability ensures consistent data transmission and communication between the controller and remote servers or monitoring systems.
High-Speed Data Transmission: 4G LTE networks offer significantly faster data transmission speeds compared to older cellular technologies like 3G or GSM. This high-speed connectivity allows for the efficient transfer of large amounts of data, such as sensor readings, diagnostics, or control commands, without experiencing delays or bottlenecks.
Scalability and Future-Proofing: With the rapid advancement of IoT technology, 4G LTE connectivity ensures that the Programmable Controller is future-proofed and ready to support emerging applications and requirements. It also provides scalability, allowing for the addition of more devices or the expansion of operations without compromising performance or connectivity.
Security: 4G LTE networks typically offer enhanced security features, such as data encryption and authentication protocols, to protect sensitive information and prevent unauthorized access. This ensures the integrity and confidentiality of data transmitted between the controller and external systems, mitigating the risk of cyber threats or attacks.
Example of Node-Red on RPI HMI applications. NORVI has a set of node-red nodes that makes programming easy. Here is an example of using the Raspberry
In this article, we explore how to use ESP32 PLC PWM Outputs to regulate motor speeds efficiently using NORVI IIOT Device, equipped with an ESP32-WROOM32
The Raspberry Pi is a compact, cost-effective computer renowned for its versatility across various applications. As a single-board computer, it encapsulates a complete computing system
ESP32 NORVI HMI is a powerful HMI resistive touch screen with an 800*480 resolution LCD display. It uses the ESP32-S3-WROOM-1-N4R8 module as the main control
You may be wondering how ESP32 HMI with LVGL is better than Nextion, read this full article and get insights about LVGL for ESP32 HMI.
Discover a new realm of possibilities with ‘Unleashing the Power of Connectivity: ESP32 Devices with LTE Technology’ through this article. Dive into the seamless integration