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Smart Solutions for a Greener Future: DLMS Energy Meters Lead the Way
DLMS: The Language of Smart Grids
Imagine a future where your home appliances communicate seamlessly with your energy provider, optimizing energy consumption and minimizing waste. This vision forms the core principle behind smart grids — a modernized electricity network that allows for two-way communication between consumers and utilities. DLMS plays a vital role in this communication network, acting as a standardized language for data exchange between smart meters and other devices within the grid.
DLMS Energy Meters: Powering Efficiency
DLMS energy meters are the workhorses of the smart grid. These advanced meters go beyond simply measuring electricity consumption. They capture a wealth of data, including:
Real-time energy usage
Peak demand periods
Power quality fluctuations
Tamper detection
This detailed data empowers consumers with valuable insights into their energy habits. By understanding their consumption patterns, individuals can make informed decisions to optimize energy use and potentially lower their electricity bills.
Benefits of DLMS Energy Meters for a Greener Future
The advantages of DLMS energy meters extend far beyond individual consumers. Here’s how they contribute to a more sustainable energy landscape:
Reduced Energy Consumption: By providing real-time data on energy usage, DLMS meters empower consumers to identify areas for improvement. This can lead to behavioral changes like switching off appliances when not in use, ultimately reducing overall energy consumption.
Improved Grid Efficiency: The data collected by DLMS meters allows utilities to gain a comprehensive understanding of energy demand patterns across the grid. This enables them to optimize energy generation and distribution, minimizing inefficiencies and power losses.
Integration of Renewables: With the increasing adoption of renewable energy sources like solar and wind power, a key challenge lies in managing their intermittent nature. DLMS meters play a crucial role in integrating these sources into the grid by facilitating dynamic pricing and demand response programs.
Enhanced Reliability: The real-time data provided by DLMS meters allows utilities to proactively identify and address potential grid issues before they escalate into power outages. This proactive approach enhances the overall reliability of the electricity grid.
Empowering Consumers: DLMS meters place consumers at the center of the energy ecosystem. By providing them with clear information about their energy usage, they are empowered to make informed choices about their energy consumption and potentially participate in demand-response programs.
The Future of Energy Management with DLMS
The potential of DLMS energy meters is vast and continues to evolve. As technology advances, we can expect even smarter functionalities like:
Integration with home automation systems for seamless control of energy consumption across various devices.
Advanced analytics to identify potential equipment failures and schedule preventive maintenance.
Personalized energy insights and recommendations to help consumers further optimize their energy consumption.
A Call for Action
The widespread adoption of DLMS energy meters presents a significant opportunity to create a smarter, greener energy future. By embracing this technology, consumers, utilities, and policymakers can collectively work towards a more sustainable energy landscape. As individuals, we can encourage the installation of DLMS meters in our homes and businesses. Additionally, supporting policies that promote the development and deployment of smart grid technologies is crucial for a successful transition towards a greener future.
By working together, we can leverage the power of DLMS energy meters to unlock a future where efficient energy management goes hand-in-hand with environmental responsibility. Let’s embrace smart solutions and pave the way for a brighter, more sustainable tomorrow.
Source: https://solarminitoringsystem.blogspot.com/2024/05/smart-solutions-for-greener-future-dlms.html
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ARM-based industrial computers with N3uron for Substation Automation Solution
Case Details
With the wave of digital transformation in the power industry, substation automation systems play a key role in ensuring grid security and improving operational efficiency. This article explores how to implement an efficient, flexible, and reliable substation automation solution using ARM-based Industrial computers (industrial PCs) combined with the N3uron Industrial IoT platform.
System Architecture This solution adopts low-power, highly stable ARM-based Industrial computers as edge computing nodes deployed at the substation front end. These nodes are responsible for local data acquisition, protocol conversion, and edge computing. The N3uron platform runs on the industrial PCs and provides modular functionalities such as data acquisition, protocol support, data processing, visualization, and remote communication.
Key Features
Multi-Protocol Support: N3uron natively supports commonly used power industry protocols such as IEC 60870-5-104, IEC 60870-5-102, DLMS/COSEM, DNP3.0, IEC 61850, Modbus, etc., ensuring seamless integration with primary equipment, smart meters, and protection devices.
Edge Computing Capability: N3uron’s computing module enables data filtering, event detection, and logic processing at the edge, reducing the volume of data sent upstream and enhancing response times.
Real-Time Monitoring and Visualization: The built-in web interface supports real-time data monitoring, historical trend charts, alarm management, and user access control, improving on-site maintenance efficiency.
Data Forwarding and System Integration: N3uron supports MQTT, OPC UA, REST API, and other communication methods to transmit data to dispatch centers, SCADA systems, or cloud platforms, enabling unified distributed system integration.
Deployment Advantages
Low Power, High Reliability: The ARM architecture offers excellent energy efficiency and wide-temperature stability, making it suitable for harsh electrical environments.
Modular Deployment: N3uron's functional modules can be enabled as needed to flexibly adapt to different application scenarios.
Quick Installation and Remote Management: N3uron can be deployed with a single command and supports remote configuration and OTA updates.
Cost Reduction: Combining cost-effective ARM devices and support for open protocols significantly reduces system construction and maintenance costs.
Typical Application Scenarios
Automation upgrades for distribution substations of 10kV and above
Edge data collection nodes for newly built smart substations
Power usage monitoring and energy efficiency analysis on the user side
Edge data aggregation and preprocessing for remote sites such as wind farms and solar stations
Conclusion: Integrating ARM-based Industrial computers with the N3uron platform creates a substation automation system tailored for the future of intelligent power grids. This solution not only enhances flexibility and scalability but also delivers high cost-efficiency and operational convenience, making it highly promising for broad adoption and implementation.
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Revolutionizing Energy Management: A Deep Dive into Smart Metering Companies
In the contemporary landscape of energy management, the advent of smart metering technology has brought about a profound transformation. Smart meters represent a significant departure from traditional utility meters, offering real-time monitoring, data analytics, and enhanced control over energy consumption. As the demand for efficient energy management solutions surges, smart metering companies have emerged as key players in shaping the future of the energy industry.
Smart metering companies specialize in designing, manufacturing, and implementing smart metering solutions for residential, commercial, and industrial applications. These companies leverage cutting-edge technologies such as Internet of Things (IoT), cloud computing, and data analytics to deliver comprehensive energy management solutions to their clients. By enabling utilities and consumers to monitor and manage energy usage more effectively, smart metering companies play a crucial role in promoting sustainability, reducing costs, and enhancing operational efficiency.
One of the leading smart metering companies in the market is [Company Name]. With a focus on innovation and customer-centricity, [Company Name] has established itself as a pioneer in the field of smart metering technology. Through its advanced metering infrastructure (AMI) solutions, [Company Name] empowers utilities to optimize grid performance, improve reliability, and enhance customer satisfaction. By deploying smart meters equipped with advanced communication capabilities, [Company Name] enables real-time data collection, remote monitoring, and automated billing, thereby streamlining utility operations and enhancing overall efficiency.
Another prominent player in the smart metering industry is [Company Name]. Renowned for its robust and scalable smart metering solutions, [Company Name] caters to a diverse range of clients, including utility companies, municipalities, and energy service providers. By leveraging its expertise in wireless communication, data analytics, and cybersecurity, [Company Name] delivers end-to-end smart metering solutions that enable clients to achieve their energy management objectives with precision and reliability. Whether it’s reducing energy waste, optimizing load distribution, or promoting renewable energy integration, [Company Name] empowers its clients to embrace sustainability and drive innovation in the energy sector.
In addition to [Company Name] and [Company Name], there is a myriad of other smart metering companies making significant strides in the industry. [Company Name] specializes in providing smart metering solutions tailored to the unique needs of commercial and industrial clients. By offering customizable metering systems equipped with advanced features such as demand response, load profiling, and tariff optimization, [Company Name] enables businesses to optimize energy usage, reduce costs, and comply with regulatory requirements.
Furthermore, [Company Name] stands out for its commitment to interoperability and open standards in smart metering technology. By adhering to industry standards such as DLMS/COSEM and ANSI C12, [Company Name] ensures compatibility and seamless integration with existing infrastructure, thereby facilitating smooth transition and interoperability for utility clients. With a focus on reliability, scalability, and future-proofing, [Company Name] is poised to play a key role in shaping the future of smart metering technology.
The proliferation of smart metering companies underscores the growing demand for innovative energy management solutions worldwide. As governments, businesses, and consumers alike seek to optimize energy usage, reduce carbon footprint, and embrace sustainability, the role of smart metering companies becomes increasingly pivotal. By harnessing the power of data, connectivity, and advanced analytics, these companies empower stakeholders to make informed decisions, optimize resource allocation, and drive positive environmental impact.
Moreover, smart metering companies are not only catalysts for technological innovation but also enablers of social and economic development. By facilitating access to reliable and affordable energy services, smart metering solutions contribute to poverty alleviation, economic growth, and social inclusion. In developing countries, where access to electricity remains a challenge, smart metering technologies hold immense potential to improve energy access, enhance reliability, and promote economic empowerment.
However, the rapid proliferation of smart metering technologies also raises important considerations regarding data privacy, cybersecurity, and regulatory compliance. As smart meters collect vast amounts of sensitive data about energy consumption patterns, user behavior, and personal preferences, ensuring data security and privacy protection becomes paramount. Smart metering companies must implement robust security measures, encryption protocols, and access controls to safeguard data integrity and prevent unauthorized access.
Furthermore, smart metering companies must navigate a complex regulatory landscape characterized by diverse standards, protocols, and compliance requirements. From data privacy regulations such as GDPR to industry standards such as IEEE 2030.5, smart metering companies must demonstrate compliance with a myriad of legal and regulatory frameworks. By staying abreast of regulatory developments, engaging with policymakers, and fostering transparent communication, smart metering companies can mitigate regulatory risks and build trust with stakeholders.
In conclusion, smart metering companies play a pivotal role in shaping the future of energy management, sustainability, and innovation. By harnessing the power of technology, data, and connectivity, these companies empower utilities, businesses, and consumers to optimize energy usage, reduce costs, and promote environmental stewardship. As the demand for smart metering solutions continues to soar, smart metering companies must innovate, collaborate, and adapt to emerging trends to drive positive impact and create a more sustainable energy future for generations to come.
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Electric Sub-meter Market likely to total US$ 15.3 billion by 2033, expanding at a Modest 4% CAGR | Future Market Insights, Inc.
The electric sub-meter market is expected to be worth US$10.4 billion in 2023. By 2033, the market is expected to be worth US$ 15.3 billion. During the projection period of 2023 to 2033, the market is estimated to grow at a CAGR of 4%.
One element driving the worldwide electric sub-meter market is the use of electrical sub-metering systems for monitoring, control, and administration at both commercial and residential sites around the world. As a result, the increasing use of electrical sub-metering technology in both the commercial and industrial sectors is driving the global electric sub-meter market.
Development for electric submeters is being driven by the rise of smart buildings and the incorporation of Internet of Things (IoT) technology. These meters allow for remote control and supervision, which improves building effectiveness and automation.
The United States has been more concerned with energy efficiency and sustainability. This emphasis will most likely boost demand for electric submeters, which offer exact monitoring and control of the usage of energy in both home and business settings.
Request Our Sample Report to Stay Ahead of the Growth Curve. Get Key Market Details and Stay Informed about Emerging Trends https://www.futuremarketinsights.com/reports/sample/rep-gb-4573
Several states and local governments in the United States have enacted energy efficiency laws that encourage the installation of electric submeters. Market growth is likely to be driven by compliance with these laws.
The steadfast dedication of the United Kingdom to carbon reduction and sustainability drives demand for electric submeters, which provide exact monitoring and management of energy use. Government measures and incentives to improve energy efficiency stimulate the market even further.
Key Takeaways from the Market Study
The United States is expected to reach US$ 1.2 billion by 2033.
The Chinese market for electric submeters is anticipated to be worth US$ 1.1 billion.
The electric sub-meter industry in India is expected to develop significantly, reaching US$ 750 million by 2033.
From 2023 to 2033, the smart sub-meters category is predicted to continue dominating the business with a CAGR of 4.5%.
The residential sector is likely to expand at a CAGR of 4.2% from 2023 to 2033.
“Sub-metering systems can monitor and regulate green energy incorporation as renewable energy sources such as wind and solar power become more popular. In addition, the demand for energy-efficient technologies in commercial and residential facilities is driving market expansion,” says an FMI analyst.
Competitive Landscape
Energy efficiency, as well as the observation of energy leaks and outages, is becoming increasingly important for both electricity providers and consumers.
As a result, government agencies, electrical suppliers, and businesses have created alliances or joint ventures to address energy efficiency issues.
In February 2023, Itron Inc. collaborated with SEW, a prominent developer of cloud-based software solutions for the energy and water industries. The purpose of the collaboration is to develop creative solutions that make use of Itron's OpenWay Riva IoT solution, which includes smart power meters and other smart grid technology.
In September 2022, EDMI launched the MIRA brand, which provides comprehensive visibility and management based on industry-approved protocols such as DLMS, IDIS, and LWM2M across a wide range of bearer services such as 4G, NB-IoT, and RF Mesh.
Top Key Players in Electric Sub-meter Industry
Itron Inc.
Schneider Electric
General Electric
Siemens AG
Mitsubishi Electric Corporation
Osaki Electric Co. Ltd
Xylem Inc.
Bentec Electricals & Electronics Pvt. Ltd.
Genus Power Infrastructures Ltd.
Kamstrup A/S
More Valuable Insights
Future Market Insights, in its new offering, presents an unbiased analysis of the global Electric Sub-meter market presenting a historical analysis from 2018 to 2022 and forecast statistics between 2023 and 2033.
The study reveals essential insights By Product (Sockets/Electromechanical (Feed-through Sub-meters, Current Transformers), Non-socket /Electronic, Smart), Phase (Single Phase, Three Phase), By Application (Commercial Establishments (Large Retail Stores, Data Centers, Others), Residential Sector, Industrial Sector), and Region.
About the Industrial Automation Division at Future Market Insights
The industrial automation team at Future Market Insights offers expert analysis, time-efficient research, and strategic recommendations with the objective of providing authentic insights and accurate results to help clients worldwide. With a repertoire of over 100+ reports and one million+ data points, the team has been analyzing the industry lucidly in 50+ countries for over a decade. The team briefly analyzes key trends, including competitive landscape, profit margin, and research development efforts.
Get
Key Segments of Electric Sub-meter Industry Research
By Product:
Socket Type/Electromechanical Sub-meters
Feed-through Sub-meters
Current Transformers
Non-socket /Electronic Sub-meters
Smart Sub-meters
By Phase:
Single Phase
Three Phase
By Application:
Commercial Establishments
Large Retail Stores
Data Centers
Others
Residential Sector
Industrial Sector
By Region:
North America
Latin America
Western Europe
Eastern Europe
South Asia & Pacific
East Asia
The Middle East & Africa
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Semtech Blog (23/06/2020)
DLMS Over LoRaWAN®: What It Is, and Why It’s Important
DLMS is the suite of standards developed and maintained by the DLMS User Association. First published in 1999, it was adopted in 2002 by the International Electrotechnical Commission (IEC) and the European Committee for Standardization (CEN) organizations in its series of IEC 62056 standards for smart metering.
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Nekstron Control & Automation, a team of experts on DLMS/ COSEM and Smart Metering and Smart Grid Automation has developed indigenous DLMS server stacks and DLMS client tools as per IS15959 and IS16444
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Why Using MDAS Meter Data Acquisition System For Utility Supplies Is Advantageous?
The idea of smart metering system although was prevalent in various Western countries, it is slowly coming into existence and gaining popularity in India. Various changes and transformations in the power and electricity sector of India has been going on for over a decade now.
Initially the transformations and reforms were related to building various structures and construction of uniform distribution plants. Whereas nowadays the reforms are more into efficient power generation and consumption systems. One such efficient system plan is the use of meter data acquisition system.
What is MDAS System?
MDAS system is basically a type of smart meter which acts as an end-point representation of the bigger smart grid system. Generally these systems have inbuilt intelligence which relays amount of data within the home network including information about smart thermostats, solar panels, smart applications and many more things.
What are some of the benefits of this MDAS System?
The benefits of using these MDAS Meter Data Acquisition System is mainly achieving a smarter and more efficient utility consumption plan. With respect to India’s power grid structure using these kind of smart metering devices will ensure proper data metering, scaling of any power surges etc.
Some of the advantages of using MDAS system includes:
The ability of these smart devices to detect any power tampering or power outages.
It helps in calculating the exact amount of transformer loading and also transformer sizing at various interval data
Generally a data interval of 15 minutes gives the most accurate information about load, supply scheduling, switching of operations and planning
It also monitors each premises for operating capacitor switches or regulators.
SIRIUS EMS: Energy Management Software provides Meter Data Acquisition (MDAS) functions as well as energy market applications such as Open Access power purchase demand forecasting and scheduling.
Features:
Integrated Configuration & Diagnostics Tool
Support for virtual meters
Logically/Functionally grouped meters
Machine learning based short-term forecasting
Dynamic tracking and revision
Graphical tools to aid demand analysis
Web-based interface (can be connected to Internet through firewall)
Display of real-time data, tools to analyze historical data
MIS Reports
Scalability & Availability
Separate historical data storage with redundancy option
Dual Redundant Servers for forecasting/scheduling calculations
Time Synchronization from GPS
Data Acquisition Interfaces
Captures data over any Industry Standard Protocol (IEC60870-5-101, IEC60870-5-104, DNP 3.0,DLMS/COSEM ) as Master
Provision to capture real-time data as well as block data (currently in 15 minute blocks)
Real-time data can be transferred to SLDC SCADA System
Block data used for forecasting and scheduling
Provision to accept late arrival of block data (which may happen due to communication link failure)
Provision for Serial/TCP/IP based connectivity
Enhanced security through firewall/VPN
A smart and efficient way of power utility
Using of MDAS system can actually scale up the ultimate utility consumption for home supplies providing clean and tamper-free meter readings. So, get your smart metering utility system now.
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Maximizing Solar Potential: The Advantages of Real-Time Monitoring Systems
The world is undergoing a significant shift towards a more sustainable future, and the energy sector is at the forefront of this transformation. As we move away from traditional, resource-intensive energy sources and embrace renewable options like solar and wind power, the need for intelligent and efficient management systems becomes paramount. This is where DLMS (Device Language Message Specification) energy meters emerge as game-changers, paving the way for a smarter and greener energy grid.
DLMS: The Language of Smart Grids
Imagine a future where your home appliances communicate seamlessly with your energy provider, optimizing energy consumption and minimizing waste. This vision forms the core principle behind smart grids – a modernized electricity network that allows for two-way communication between consumers and utilities. DLMS plays a vital role in this communication network, acting as a standardized language for data exchange between smart meters and other devices within the grid.
DLMS Energy Meters: Powering Efficiency
DLMS energy meters are the workhorses of the smart grid. These advanced meters go beyond simply measuring electricity consumption. They capture a wealth of data, including:
Real-time energy usage
Peak demand periods
Power quality fluctuations
Tamper detection
This detailed data empowers consumers with valuable insights into their energy habits. By understanding their consumption patterns, individuals can make informed decisions to optimize energy use and potentially lower their electricity bills.
Benefits of DLMS Energy Meters for a Greener Future
The advantages of DLMS energy meters extend far beyond individual consumers. Here's how they contribute to a more sustainable energy landscape:
Reduced Energy Consumption: By providing real-time data on energy usage, DLMS meters empower consumers to identify areas for improvement. This can lead to behavioral changes like switching off appliances when not in use, ultimately reducing overall energy consumption.
Improved Grid Efficiency: The data collected by DLMS meters allows utilities to gain a comprehensive understanding of energy demand patterns across the grid. This enables them to optimize energy generation and distribution, minimizing inefficiencies and power losses.
Integration of Renewables: With the increasing adoption of renewable energy sources like solar and wind power, a key challenge lies in managing their intermittent nature. DLMS meters play a crucial role in integrating these sources into the grid by facilitating dynamic pricing and demand response programs.
Enhanced Reliability: The real-time data provided by DLMS meters allows utilities to proactively identify and address potential grid issues before they escalate into power outages. This proactive approach enhances the overall reliability of the electricity grid.
Empowering Consumers: DLMS meters place consumers at the center of the energy ecosystem. By providing them with clear information about their energy usage, they are empowered to make informed choices about their energy consumption and potentially participate in demand-response programs.
The Future of Energy Management with DLMS
The potential of DLMS energy meters is vast and continues to evolve. As technology advances, we can expect even smarter functionalities like:
Integration with home automation systems for seamless control of energy consumption across various devices.
Advanced analytics to identify potential equipment failures and schedule preventive maintenance.
Personalized energy insights and recommendations to help consumers further optimize their energy consumption.
A Call for Action
The widespread adoption of DLMS energy meters presents a significant opportunity to create a smarter, greener energy future. By embracing this technology, consumers, utilities, and policymakers can collectively work towards a more sustainable energy landscape. As individuals, we can encourage the installation of DLMS meters in our homes and businesses. Additionally, supporting policies that promote the development and deployment of smart grid technologies is crucial for a successful transition towards a greener future.
By working together, we can leverage the power of DLMS energy meters to unlock a future where efficient energy management goes hand-in-hand with environmental responsibility. Let's embrace smart solutions and pave the way for a brighter, more sustainable tomorrow.
Source: https://medium.com/@poweramr24/maximizing-solar-potential-the-advantages-of-real-time-monitoring-systems-bbc526c8bb5d
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GOOSE Messaging over Substation Network
www.inhandnetworks.com
Background
Advances in remote communications have improved the quality and reliability of power distribution infastructure. Embracing these innovations, utilites have created intelligent substations based on high-capacity 4G LTE, rugged sensors and ethernet switches and intelligent grid hardware such as RTUs, advanced meters and reclosers. The intelligent substation allows utilities to: respond to changing loads, manage brownout and blackouts or even contain grid-wide collapse events with real-time remote monitoring and controls.
A large European utility decided to embrace these advances in smart-grid technology, but to build the smart-grid they faced real challenges: they needed to connect thousands of primary substations and hundreds of thousands of secondary substations to a smart-grid data center. This would require remote field communications devices that would fit the needs of their project with industrial wireless 3G or 4G networking.
In this project, the customer faced the following requirements:
Remote GOOSE Messaging routing between substations,
● Multiple Ethernet ports and two serial ports for multiple field devices,
● 4G LTE backup to a Ethernet primary connection,
● DLMS/COSEM for AMI,
● IEC 101 to IEC 104 conversion to support communication between serial field devices and the data center operating with Ethernet.
Solution
Featuring five Ethernet ports and two serial ports, 4G LTE and a robust industrial desing, the InRouter915 exceeds the customer’s requirements. Multiple field RTU devices can connect to the InRouter 915's Ethernet ports to provide the network connection to the remote data center for remote data acquistion and controls. To provide intercommunication between smart-meters and the electronic counters (AMM) the IR915 creates a virtual serial network between the router's serial port by converting the serial data to Ethernet and routing the data over a secure encrypted tunnel.
The most demanding and significant of the requirements is GOOSE messaging communication between the secondary and primary substations. Utilizing low-latency 4G LTE and L2TPv3 tunneling, the InRouter915 provides a virtual local network to simulate a local Ethernet connection.
Featuring five Ethernet ports and two serial ports, 4G LTE and a robust industrial desing, the InRouter915 exceeds the customer’s requirements. Multiple field RTU devices can connect to the InRouter 915's Ethernet ports to provide the network connection to the remote data center for remote data acquistion and controls. To provide intercommunication between smart-meters and the electronic counters (AMM) the IR915 creates a virtual serial network between the router's serial port by converting the serial data to Ethernet and routing the data over a secure encrypted tunnel.
The most demanding and significant of the requirements is GOOSE messaging communication between the secondary and primary substations. Utilizing low-latency 4G LTE and L2TPv3 tunneling, the InRouter915 provides a virtual local network to simulate a local Ethernet connection.
Advantages
● The InRouter915 4G LTE router is the backbone of smart-grid networks.
● L2TPv3 over IPsec enables GOOSE over WAN
● Support for RIP, OSPF, DMVPN for dynamic routing in massive deployments
● Automatic link detection and recoveryTwo serial ports and five Ethernet Ports fit for multiple field devices
● Real-time monitoring enables higher reliability and lower operating costs.
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Logics PowerAMR offers advanced DLMS meter solutions, ensuring precise energy monitoring for optimized usage. Achieve sustainability goals with our innovative energy management technology.
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ESI Africa (10/05/2018)
Time is running out for utility token identifier
… The publication of IEC62055-41 edition 3 in support of STS600-4-2 is a significant milestone for the STS Association and STS users. The security level of the STS has now been enhanced to that approved by NIST for use up to 2045.
… This standard integrates all aspects of smart metering systems from the end devices through to ERP-level systems by reference to the STS, DLMS/COSEM and CIM standards published by the IEC.
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