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Improve Telecom Infrastructure with ModBerry 500 CM5’s Advanced Features

In today’s rapidly evolving technological landscape, robust and reliable telecom infrastructure is crucial for enabling seamless communication and connectivity. The ModBerry 500 CM5, an industrial-grade computer powered by the Raspberry Pi Compute Module 5 (CM5), offers advanced features that can significantly enhance telecom infrastructure, driving efficiency and performance.

Powerhouse Performance for Telecom Applications

The ModBerry 500 CM5 is equipped with a quad-core Cortex-A76 2.4GHz processor and up to 8GB of LPDDR4x-4267 SDRAM, providing exceptional processing power and speed. This makes it ideal for handling the complex and demanding tasks associated with telecom applications, such as data routing, signal processing, and network management.

Versatile Connectivity Options

One of the key strengths of the ModBerry 500 CM5 is its extensive range of connectivity options. It supports various wireless communication modules, including Wi-Fi, Bluetooth, and optional 4G/LTE, ensuring reliable and uninterrupted communication. Additionally, it offers multiple digital and analog inputs/outputs, serial ports, and Ethernet interfaces, allowing seamless integration with existing telecom infrastructure.

Scalability and Flexibility

The modular design of the ModBerry 500 CM5 allows for easy scalability and customization, making it suitable for a wide range of telecom applications. Whether it’s a small-scale network setup or a large-scale deployment, the ModBerry 500 CM5 can be configured to meet specific requirements, ensuring optimal performance and efficiency.

Remote Monitoring and Management

With built-in support for remote monitoring and management, the ModBerry 500 CM5 enables telecom operators to oversee and control network infrastructure from a central location. This reduces the need for on-site maintenance and troubleshooting, leading to significant cost savings and improved operational efficiency.

Enhanced Security Features

Security is a critical concern in telecom infrastructure, and the ModBerry 500 CM5 addresses this with advanced security features. It supports secure boot, encryption, and various authentication mechanisms, ensuring the integrity and confidentiality of data transmitted over the network.

Energy Efficiency and Sustainability

The ModBerry 500 CM5 is designed with energy efficiency in mind, consuming minimal power while delivering high performance. This not only reduces operational costs but also contributes to environmental sustainability. Its low power consumption makes it an ideal choice for telecom infrastructure in remote and off-grid locations.

Real-World Applications

The advanced features of the ModBerry 500 CM5 have been successfully implemented in various real-world telecom applications, such as:

  • 5G Network Deployment: Facilitating the rollout of 5G networks with its high processing power and versatile connectivity options.
  • IoT Networks: Enabling efficient communication and data processing in IoT networks, improving the performance and reliability of connected devices.
  • Edge Computing: Supporting edge computing applications by processing data closer to the source, reducing latency and improving real-time decision-making.

Conclusion

The ModBerry 500 CM5 is a powerful and versatile platform that can significantly enhance telecom infrastructure. Its advanced features, including robust processing capabilities, versatile connectivity options, scalability, remote management, enhanced security, and energy efficiency, make it an ideal choice for modern telecom applications. By leveraging the capabilities of the ModBerry 500 CM5, telecom operators can achieve greater efficiency, reliability, and performance in their network infrastructure, driving innovation and growth in the industry.

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Harnessing AI and Machine Learning with the robust ModBerry 500 CM5

The integration of AI and machine learning into industrial applications has been revolutionized by powerful computing platforms like the ModBerry 500 CM5 and the Hailo-AI module. These technologies are transforming industries by enabling smarter, more efficient operations.

ModBerry 500 CM5: The Industrial Powerhouse

The ModBerry 500 CM5 is an industrial computer powered by the Raspberry Pi Compute Module 5. It features a quad-core Cortex-A76 2.4GHz processor, 2/4/8GB LPDDR4x-4267 SDRAM, and up to 64GB eMMC on-board storage. This robust hardware is designed to withstand harsh industrial environments, making it ideal for applications in factories, power plants, and other demanding settings2.

Hailo-AI Module: Accelerating Edge AI

The Hailo-AI module, specifically the Hailo-8 M.2 AI Acceleration Module, is a game-changer for edge AI applications. It boasts a 26 tera-operations per second (TOPS) AI processor with high power efficiency. This module can be easily integrated into existing edge devices, providing real-time, low-latency AI inferencing3. It supports popular AI frameworks like TensorFlow, TensorFlow Lite, ONNX, Keras, and Pytorch.

ModBerry 500 CM5 with AI capabilities

Synergy of ModBerry 500 CM5 and Hailo-AI Module

Combining the ModBerry 500 CM5 with the Hailo-AI module creates a powerful platform for AI and machine learning projects. This combination allows for:

  • Enhanced Data Processing: The ModBerry 500 CM5’s robust computing capabilities, combined with the Hailo-AI module’s AI acceleration, enable efficient data processing and analysis.
  • Real-Time AI Inferencing: The Hailo-AI module’s low-latency inferencing capabilities ensure real-time decision-making, crucial for applications like process control and safety monitoring.
  • Scalability: The modular nature of these components allows for easy scalability, enabling simultaneous processing of multiple data streams and models.
  • Versatility: The platform supports a wide range of industrial applications, from smart alarms and monitoring to robotics and home automation.

Applications in Industry

The integration of ModBerry 500 CM5 and Hailo-AI module is transforming various industries:

  • Manufacturing: Real-time monitoring and predictive maintenance of machinery, reducing downtime and increasing efficiency.
  • Energy: Smart grid management and optimization, ensuring reliable and efficient energy distribution.
  • Healthcare: Remote patient monitoring and diagnostics, improving patient care and outcomes.
  • Transportation: Autonomous vehicle navigation and safety systems, enhancing transportation safety and efficiency.

Benefits of the upgraded ModBerry 500 CM5

The combination of ModBerry 500 CM5 and Hailo-AI module represents a significant advancement in industrial AI and machine learning projects. By leveraging these powerful computing capabilities, industries can achieve smarter, more efficient operations, driving innovation and growth.

Would you like to know more about specific applications or any other aspect of these technologies?

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Building Smart City infrastructure for improved urban living with ModBerry 500 CM5

As smart technologies continue to evolve, the need for efficient and reliable communication protocols has become paramount. ZigBee, a widely adopted wireless technology, offers robust connectivity for various IoT applications. The ModBerry 500 CM5, powered by the Raspberry Pi Compute Module 5 (CM5), provides an ideal platform for implementing a ZigBee gateway, enhancing smart connectivity across different environments.

The Power of ModBerry 500 CM5

The ModBerry 500 CM5 boasts a powerful quad-core Cortex-A76 2.4GHz processor and up to 8GB of LPDDR4x-4267 SDRAM, making it a versatile and robust industrial computer. Its compact design and extensive range of configurable hardware options make it suitable for various IoT applications, from smart homes to industrial automation.

Integrating ZigBee for Seamless Connectivity

ZigBee is known for its low power consumption, high reliability, and efficient data transfer capabilities. By integrating a ZigBee module with the ModBerry 500 CM5, users can create a seamless communication network that connects multiple smart devices, enabling them to interact and share data efficiently.

Applications of the ZigBee Gateway

  1. Smart Home Automation: The ModBerry 500 CM5 with a ZigBee gateway can streamline home automation by connecting devices such as smart lights, thermostats, and security systems, allowing for centralized control and management.
  2. Industrial IoT Solutions: In industrial settings, the ZigBee-enabled ModBerry 500 CM5 can facilitate real-time monitoring and control of machinery, improving operational efficiency and reducing downtime.
  3. Agricultural Monitoring: Farmers can leverage the ModBerry 500 CM5 as a ZigBee gateway to monitor soil conditions, weather data, and crop health, optimizing agricultural practices and boosting yield.
ZigBee Gateway

Advantages of Using ModBerry 500 CM5 as a ZigBee Gateway

  • Scalability and Flexibility: The ModBerry 500 CM5’s modular design allows for easy scalability and customization, ensuring it can meet the specific needs of various applications.
  • Remote Management: With built-in wireless communication modules, including Wi-Fi and optional 4G/LTE, the ModBerry 500 CM5 supports remote monitoring and management, reducing the need for on-site maintenance.
  • Energy Efficiency: The low power consumption of both the ModBerry 500 CM5 and ZigBee technology ensures energy-efficient operation, making it an environmentally friendly solution.

Conclusion

Implementing the ModBerry 500 CM5 as a ZigBee gateway offers numerous benefits, including enhanced connectivity, real-time data processing, and remote management. By leveraging this powerful combination, users can create efficient and reliable IoT networks that drive innovation and improve overall performance in various sectors.

With the update to CM5, the ModBerry 500 series continues to build on these strengths, offering even greater performance and flexibility for industrial IoT applications. The ModBerry 500 CM5 represents a significant upgrade, combining the proven reliability and versatility of the ModBerry platform with the advanced features of the Raspberry Pi Compute Module 5. 

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ModBerry 500 CM5: Benefits of the upgraded Raspberry Pi CM5 computer

The ModBerry 500 series from TECHBASE has long been a staple in the industrial IoT automation market, known for its reliability and versatility. The upcoming ModBerry 500 CM5, integrates the powerful Raspberry Pi Compute Module 5 (CM5), bringing significant enhancements and maintaining compatibility with previous versions.

Compatibility with Raspberry Pi Compute Module 5

The ModBerry 500 series is fully compatible with the Raspberry Pi Compute Module 5, ensuring seamless integration and enhanced performance. This compatibility allows users to leverage the advanced features of the CM5, including improved processing power and expanded memory options, while maintaining the robust and flexible platform that ModBerry users have come to rely on.

Advantages of the ModBerry 500 CM5 in IoT Automation

The ModBerry 500 series has established itself as a leading solution in the IoT automation market due to its reliability with proven track record in various industrial applications, ensuring consistent performance in harsh environments.

Huge versatility provided with a wide range of configurable hardware options to meet specific needs, including digital and analog I/Os, serial ports, and various communication interfaces. ModBerry 500 devices are easy to deploy with user-friendly setup and configuration, supported by a strong community and extensive documentation.

New Processor Features

The integration of the Raspberry Pi Compute Module 5 brings several key enhancements:

  • Enhanced Processing Power: The CM5 features a powerful Cortex-A76 4×2.4GHz processor, providing faster and more efficient data processing capabilities
  • Increased Memory: Options for up to 16GB of LPDDR4x-4267 SDRAM, allowing for more complex applications and better multitasking
  • USB 3.0 Support: The addition of USB 3.0 ports significantly improves data transfer speeds, making it ideal for applications requiring high-speed connectivity

Benefits of the upgraded ModBerry 500 CM5

The previous ModBerry 500 CM4 has established its position on the market as a robust IoT platform. New CM5 version offers not only the same but improved capabilities, thanks to compatibility with the new processor unit.

  • High Performance: Powered by the quad-core Cortex-A76 processor, providing reliable performance for various industrial tasks with support of eMMC storage and M.2 NVMe SSD support
  • Rich I/O Interfaces: Including Gigabit Ethernet, digital and analog inputs/outputs, RS-232/RS-485 serial ports, and more
  • Wireless Communication: Built-in WiFi, Bluetooth, and optional 4G/LTE, 5G, Narrow-Band IoT, LoRa, Sigfox and other wireless communication modules

With the update to CM5, the ModBerry 500 series continues to build on these strengths, offering even greater performance and flexibility for industrial IoT applications. The ModBerry 500 CM5 represents a significant upgrade, combining the proven reliability and versatility of the ModBerry platform with the advanced features of the Raspberry Pi Compute Module 5. 

The first pieces of devices are available for order. Contact our sales department via Chat at IIoT-Shop.com to obtain test pieces and receive a commercial offer for a larger order. It is also possible to upgrade previously purchased devices to the CM5 module, due to full compatibility with the earlier version of ModBerry CM4 (however cooling conversion is required). Technical datasheet for ModBerry 500 CM5 will be available on Raspberry Pi Compute Module 5 official release.

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Connect your M-Bus installations with Moduino ESP32

Moduino ESP32 is a compact, powerful and versatile IoT device that can be used for various industrial automation and control applications. One of the communication protocols it supports is the M-Bus (Meter-Bus) protocol. This protocol is used for communication between energy meters, heat cost allocators and other devices in the energy management and building automation systems.

In this article, we will discuss how to use Moduino ESP32 with the M-Bus protocol using RS-232 communication.

Requirements

  • Moduino ESP32
  • M-Bus devices (e.g energy meters)
  • RS-232 to RS-232 cable

Hardware Connections

  1. Connect the Moduino ESP32 to the M-Bus device using an M-Bus cable.
  2. Connect the Moduino ESP32 to a computer using an RS-232 to RS-232 cable.

Software Setup

  1. Download and install the Arduino IDE from the official website.
  2. Open the Arduino IDE and go to File -> Preferences.
  3. In the Additional Board Manager URLs field, add the following URL: https://dl.espressif.com/dl/package_esp32_index.json
  4. Go to Tools -> Board: -> Board Manager and search for “esp32”.
  5. Install the “ESP32 by Espressif Systems”.
  6. Go to Tools -> Board and select “ESP32 Dev Module”.
  7. Go to Sketch -> Include Library -> Manage Libraries.
  8. Search for “MBus library” and install it.

Code

  1. Create a new sketch in the Arduino IDE.
  2. Include the M-Bus library by adding the following line at the top of the sketch:
cCopy code#include <MBus.h>
  1. Define the M-Bus object and the serial port for communication:
scssCopy codeMBus mbus;
HardwareSerial mbusSerial(2);
  1. In the setup() function, initialize the serial port for communication and start the M-Bus:
scssCopy codevoid setup() {
  mbusSerial.begin(2400, SERIAL_8N1, 16, 17);
  mbus.begin(mbusSerial);
}
  1. In the loop() function, read the M-Bus data and print it to the serial monitor:
scssCopy codevoid loop() {
  if (mbus.available()) {
    MBusDataFrame data = mbus.read();
    Serial.println(data.toString());
  }
}
  1. Upload the code to the Moduino ESP32 using the Upload button in the Arduino IDE.

Conclusion

With the above steps, you have successfully set up Moduino ESP32 with the M-Bus protocol using RS-232 communication. This will allow you to communicate with M-Bus devices and receive data from them, which can be further processed for industrial automation and control applications.

Order Moduino X now: https://iiot-shop.com/product/moduino/

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Modbus protocol handled by ModBerry IoT device

Modbus is a communication protocol that is widely used in industrial automation systems. It was developed by Modicon (now Schneider Electric) in 1979 and is used to connect different devices and control systems in a network. Modbus is based on a master-slave architecture, where one device acts as the master and the other devices act as slaves. The master device sends requests to the slaves and the slaves respond with the requested information.

ModBerry is a device that uses the Modbus protocol to communicate with other devices in a network. It is a small computer that is based on the Raspberry Pi platform and it is designed to be used in industrial automation systems. The ModBerry device can be used as a master or a slave in a Modbus network and it can be used to connect different devices such as sensors, actuators, and controllers.

ModBerry advantages in the IoT market

One of the main advantages of using ModBerry is that it is a low-cost solution for industrial automation systems. It is also easy to use and it can be programmed using different languages such as Python, C++, and Java. Additionally, the ModBerry device is small and compact, which makes it easy to install in different environments. It also has a wide range of input and output options, such as digital inputs, digital outputs, analog inputs, and analog outputs, which makes it suitable for a variety of applications.

ModBerry can be used in various industrial applications such as building automation, energy management, and process control. For example, it can be used to monitor and control the temperature, humidity, and lighting in a building. In energy management, it can be used to monitor and control the consumption of electricity, gas, and water. In process control, it can be used to monitor and control the production process in a factory.

ModBerry hardware modularity

Another advantage of ModBerry is its flexibility and scalability. It can be easily integrated with other systems and devices, such as SCADA systems, PLCs, and IoT devices. This allows for a seamless integration of different systems and devices in a single network, which improves efficiency and reduces the complexity of the system.

ModBerry as a low-cost Modbus controller

In conclusion, Modbus is a widely used communication protocol in industrial automation systems and ModBerry is a low-cost, easy-to-use device that utilizes the Modbus protocol. It offers a wide range of input and output options and can be used in various industrial applications. Its flexibility and scalability make it a great solution for integrating different systems and devices in a single network.

Order now: https://www.industrial-devices.com/industrial-computers/1-46-mod-500.html

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The performance of AI & Predictive Maintenance in Industrial IoT

IoT technology solves challenges of predictive maintenance by enabling real-time remote status monitoring. Instead of maintaining hardware monthly or every 11 quarters, companies can use IoT health monitoring for direct maintenance. Simple IoT devices can now monitor critical performance metrics in real time and send alerts when problems start.

Industrial IoT on the site

Traditionally, those types of failures were prevented by routine scheduled maintenance by specialized technicians. But as discussed earlier, scheduled maintenance is imperfect. Fear of equipment failure often drives businesses to set aggressive preventative maintenance schedules, which of course raises costs.

The cost of equipment failure tends to cascade. The failure of a single piece of machinery can bring an entire assembly line to a grinding halt. And for every hour that production has stopped, hundreds of thousands of dollars might be slipping out the door. That hiccup in production can also result in unfulfilled contracts, angry customers, and upheaval in your supply chain.

In fact, according to a recent paper from IBM, up to 70% of a company’s investment in preventative maintenance does not affect uptime metrics. This is due largely to the fact that only 11% of machine failures follow an age-degradation pattern. A whopping 89% occur at random.

Source: https://blog.particle.io/the-growing-power-of-iot-in-preventative-maintenance/

New features of Edge TPU brought to ModBerry series

In October 2020, with the release of the latest Compute Module 4 from Rasbperry Pi Foundation, TECHBASE announced an upgraded device from ModBerry 500 series, called ModBerry 500 CM4. Thanks to the high-performance PCI-Express bus introduced in Compute Module 4 and Raspberry Pi community, the device itself presents support for a wide range of new applications, such as use of Google’s Artificial Intelligence modules at ease.

Therefore, TECHBASE designed a new device, called ModBerry AI GATEWAY 9500-CM4, utilizing the vertical format of ModBerry 9500, latest Compute Module 4 and Google’s Coral TPU. Installation-ready AI GATEWAY allows direct application in industrial fields.

TECHBASE’s AI GATEWAY series, world-first industrial gateway utilizing Raspberry Pi Compute Module 4 and Google Coral TPU

AI GATEWAY with Coral TPU enhancement 

Neuron network capabilities enhance CM4-based devices, not only collecting and sending data, but also allows local data change predictions and allows direct management on-site. This feature gives the possibility for various applications, such as data analysing and establishing trends predictions, smart alarms and smart monitoring, local notification control, etc.

Used Edge TPU coprocessor via PCI-Express bus is capable of performing 4 trillion operations per second (TOPS), using 0.5 watts for each TOPS (2 TOPS per watt). Google Coral easily integrates with Raspberry Pi Compute Module in Linux and optionally in Windows with full support of TensorFlow Lite framework and AutoML Vision Edge solution.

TECHBASE’s AI GATEWAY series, world-first industrial gateway utilizing Raspberry Pi Compute Module 4 and Google Coral TPU
TECHBASE’s AI GATEWAY series, world-first industrial gateway utilizing Raspberry Pi Compute Module 4 and Google Coral TPU

ModBerry AI GATEWAY 9500-CM4 series also offers a standard PCI module support for various wireless communication protocols, such as:

  • GSM modem (4G/LTE and fast 5G modem, interchangeable with Coral TPU)
  • economic NarrowBand-IoT technology
  • LoRa, ZigBee, Sigfox, Wireless M-Bus
  • secondary Wi-Fi/Bluetooth interface or Wi-Fi Hi-Power
  • custom wireless interfaces

ModBerry AI GATEWAY 9500-CM4 availability

First prototypes are being developed, since Compute Module 4 is already available for the purchase. Delivery time for various configurations of AI GATEWAY will be approximately 2 months, depending on the CM4 supply on the market and chosen expansion cards. For more information contact TECHBASE’s Sales Department via email or Live Chat here.

Order ModBerry AI GATEWAY 9500-CM4 NOW!
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Amazon Alexa approves Espressif’s ESP AFE for ESP32-S3 AI & DSP

Amazon‘s website has introduced a Software Audio Front End (AFE) Development Kit section that lists software algorithms that optimize sound detection in noisy environments. The latest addition is the Amazon Alexa recently certified Espressif audio front end or ESP AFE algorithm for shorts.

Low resource consumption

Espressif’s AFE algorithms are optimized, as they take advantage of Espressif’s AI accelerator that is available in the ESP32-S3 SoC. Espressif’s AFE algorithms consume just 12-20% of CPU and around 460 KB of memory, including 220 KB of internal memory and 240 KB of external memory. This provides sufficient headroom for customer applications on the ESP32-S3 SoC.

Espressif’s AFE algorithms offer an easy and intuitive API for customer applications, so that their performance can change as dynamically as it is required. The distance between the two microphones can be between 20-80 mm, which allows considerable flexibility for the hardware design of developers’ end-products.

Source: https://www.espressif.com/en/solutions/audio-solutions/esp-afe

The Espressif AFE algorithm was certified by Amazon after achieving excellent performance in long-range Alexa testing. In most cases, in low signal-to-noise scenarios, the wakeup rate reaches 100% and the speech recognition rate exceeds 90%.

Amazon-Qualified “Software Audio Front-End” Solution

Industrial use of ESP32-based solutions

One of industrial IoT devices, supporting Espressif’s ESP32 technology is eModGATE from TECHBASE. Economical, ESP32-based solution can serve as an end-point in any installation or works well as a gateway, gathering data from scattered sensor mesh across the installation. For more information and also Raspberry Pi based solutions check Industrial IoT Shop with all the configuration options for eModGATE.

eModGATE with ESP32
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Increased demand on TPM 2.0 modules with Windows 11 announcement

Microsoft announced Windows 11 with new system requirements, including hardware with a TPM 2.0 chip. Altho not all computers, laptops, and tablets come with Trusted Platform Module (TPM), which can be a problem, especially if you need version 2.0.

According to a tweet from Shen Ye, Senior Director, Global Head of HTC Hardware Products, the price of TPM 2.0 has quadrupled, so while Windows 11 isn’t officially available yet, Microsoft has it legitimate, and the name is security.

https://twitter.com/shen/status/1408284995131645956

Securing devices with Infineon industrial grade TPM

Infineon Technologies AG has unveiled a new security chip that defines the first TPM (Trusted Platform Module), designed specifically for industrial applications such as industrial computers, servers, industrial controllers and edge gates. The module protects confidential data in connected devices and reduces the risk of leakage of this information due to attacks, e.g. hackers.

IoT Security with latest SLM 9670 Industrial Grade TPM 2.0
Source: https://www.avnet.com/wps/portal/silica/products/product-highlights/2019/infineon-optiga-tpm-slm-9670/

The OPTIGA TPM SLM 9670 module protects the integrity of industrial systems and the identity of users using them. The system controls access to sensitive data at key locations in industrial environments, such as an automated factory. It also protects the cloud interface if the network uses one. The security system fully meets the TPM 2.0 standard developed by the Trusted Computing Group and is certified by an independent test laboratory in accordance with the criteria contained in this standard. The new module is meticulously controlled and certified by Infineon. Thanks to its use, it is possible to shorten the time of designing and introducing the device to the market, thanks to the ready security solution in the system.

The TPM system has a lifetime declared as 20 years. It allows programmers to perform firmware updates, which in turn enables them to meet the long-term security requirements in rapidly changing industrial environments. In this way, it can also reduce maintenance costs of industrial equipment thanks to secured remote software updates. The TPM chip will be available in serial production in the second half of 2019.

TPM 2.0 Key Features

  • Random Number Generator (RNG) according to NIST SP800-90A
  • TPM FW update functionality installed
  • 6962 Bytes of free NV memory
  • Full personalization with Endorsement Key (EK) and EK certificate
  • Up to 3 keys in the volatile memory
  • Up to 7 keys in the NV memory
  • Up to 8 NV counters
  • Support of various cryptographic algorithms:
    • RSA-1024 and RSA-2048
    • SHA-1 and SHA-256
    • ECC NIST P256
    • ECC BN256

Security chip implementation in Industrial IoT devices

With knowledge of latest Industrial IoT security measures, the choice of proper end-point conroller or gateway is much easier than you think. Some manufacturers can implement TPM 2.0 security chip in production process, to allow users to generate certification keys after purchase, maximizing security of their installations. TECHBASE offers wide range of solutions, optionally aided with TPM system.

  • eModGATE with ESP32
  • ModBerry 500 with Raspberry Pi’s Compute Module 3+
Industrial devices with TPM 2.0 support

For example, ESP-32 based solution, Moduino X series and eModGATE series products offer the support for such security measures. Read more in Industrial IoT Ecosystem brochure, to understand the importance of reliable and secure hardware for Industrial IoT.

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LoRaWAN concentrator RAK2287 module for LoRa IoT Gateway

The RAK2287 is a mini-PCIe LPWAN hub module based on the Semtech SX1302 that can be easily integrated with existing routers and other networking equipment with LPWAN gateway capabilities. It can be used on embedded platforms that offer a free mini PCIe slot with SPI connector. In addition to LPWAN functionality, the module is equipped with a ZOE-M8Q GPS chip that provides GNSS functionality.

This module is an exceptional, complete, and cost-efficient gateway solution offering up to 10 programmable parallel demodulation paths, an 8 x 8 channel LoRa® packet detector, 8 x SF5-SF12 LoRa® demodulators and 8 x SF5-SF10 LoRa® demodulators. It is capable of detecting an uninterrupted combination of packets at 8 different spreading factors and 10 channels with continuous demodulation of up to 16 packets. The module is well suited for Internet-of-Things (IoT) applications, that require node density of up to 500 nodes per km² in an environment with moderate interference.

Source: https://www.semtech.com/company/press/semtech-releases-a-new-portfolio-of-solutions-lora-edge-to-simplify-and-accelerate-iot-applications
LoRaWAN RAK2287 concentrator module

LoRa RAK2287 features

RAK2287 key features and specifications:

  • LoRa Connectivity:
    • Semtech SX1302 LoRa Transceiver with 2x SX1250 Tx/Rx front-end
    • Tx power – up to 27dBm
    • Rx sensitivity – down to -139dBm @ SF12, BW 125 kHz
    • LoRaWAN® 1.0.2 compatible.
    • LoRa band coverage – RU864, IN865, EU868, AU915, US915, KR920, AS923
    • 1x iPEX antenna connector for LoRa
  • GNSS – GPS / QZSS, BeiDou, Galileo, and GLONASS via U-blox ZOE-M8Q GPS SiP; 1x iPEX antenna connect for GPS

Source: https://www.cnx-software.com/2020/08/06/rak2287-mini-pcie-lorawan-concentrator-module-supports-up-to-500-nodes-per-km2/

Use of LoRa in industrial automation

Use of wireless connection makes life and work easier for us every day – from radio stations and GSM to Wi-Fi wireless networks, Zigbee, short-range Bluetooth connectivity and LoRa. With the spread of internet access, the possibility of using wireless connectivity for a new type of service and application has opened. Terminology such as M2M (Machine to Machine) – remote communication between devices and IoT – a network of applications and devices communicating with the Internet have been created.

Device equipped with LoRa module is delivered with a LoRaWAN protocol stack, so it can be easily connected to the existing, fast-growing LoRa Alliance infrastructure – both in privately managed local area networks (LAN) and public telecommunications networks to create wide area low power WAN (LPWAN) on a national scale. LoRaWAN stack integration also allows connection to any microcontroller, such as LoRa Gateway industrial device from TECHBASE.

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