| Height | 127 mm |
| Width | 35 mm |
| Depth | 108.2 mm |
Industrial routers
1 - 14
| Height | 127 mm |
| Width | 35 mm |
| Depth | 108.2 mm |
| Height | 127 mm |
| Width | 35 mm |
| Depth | 108.2 mm |
| Height | 127 mm |
| Width | 35 mm |
| Depth | 108.2 mm |
| Height | 100 mm |
| Width | 46 mm |
| Depth | 110 mm |
| Height | 132.6 mm |
| Width | 45 mm |
| Depth | 112.8 mm |
| Height | 100 mm |
| Width | 46 mm |
| Depth | 110 mm |
| Height | 100 mm |
| Width | 46 mm |
| Depth | 130 mm |
| Height | 100 mm |
| Width | 46 mm |
| Depth | 130 mm |
| Height | 100 mm |
| Width | 46 mm |
| Depth | 130 mm |
| Height | 132.6 mm |
| Width | 45 mm |
| Depth | 112.8 mm |
| Height | 132.6 mm |
| Width | 35 mm |
| Depth | 112.8 mm |
| Height | 132.6 mm |
| Width | 45 mm |
| Depth | 112.8 mm |
| Height | 132.6 mm |
| Width | 45 mm |
| Depth | 112.8 mm |
The industrial router - A reliable companion in networked industry
In today's networked world, the industrial router has become an indispensable tool in industry. With its help, machines and plants can communicate with each other and exchange data in real time. But what makes an industrial router so special?
An industrial router is characterized above all by its robustness and reliability. Unlike traditional routers designed for use in office environments, industrial routers are designed for the rigors of everyday industrial use. They must be able to withstand extreme temperatures, vibrations and shocks. In addition, they are often dustproof and waterproof, so they will function properly even in dusty or humid environments. This makes it an ideal companion in production halls, warehouses or on construction sites.
Another important feature of industrial routers is their diverse connectivity. They are equipped with a wide range of interfaces to enable seamless integration into existing networks. Ethernet ports, serial interfaces and wireless connections such as WLAN or LTE ensure that the industrial router can communicate with a wide range of devices and machines. This ensures efficient and smooth data transmission.
Security plays a crucial role in industry, especially when it comes to exchanging sensitive data. Industrial routers therefore have extensive security functions to protect communication. Encryption protocols, firewalls and VPN functionality ensure secure data transmission and protect against unauthorized access. In addition, industrial routers often offer features such as traffic shaping and quality of service to optimize transmission quality and ensure that critical data has priority.
Another advantage of industrial routers is their ease of management. Many models are equipped with an intuitive user interface that makes it easy to set up and configure the router. In addition, they often offer the ability to perform firmware updates over the network to continuously improve security and performance.
The areas of application for industrial routers are diverse. They are used in automation technology to control and monitor machines and systems. In the logistics industry, they enable efficient tracking and control of goods flows. Industrial routers are also used in the energy supply sector to implement smart grids and optimize energy consumption.
Overall, the industrial router is an indispensable tool in the networked industry. With its robustness, reliability, diverse connectivity, extensive security functions and simple management, it makes a significant contribution to increasing the efficiency and optimization of industrial processes.
In today's networked world, the industrial router has become an indispensable tool in industry. With its help, machines and plants can communicate with each other and exchange data in real time. But what makes an industrial router so special?
An industrial router is characterized above all by its robustness and reliability. Unlike traditional routers designed for use in office environments, industrial routers are designed for the rigors of everyday industrial use. They must be able to withstand extreme temperatures, vibrations and shocks. In addition, they are often dustproof and waterproof, so they will function properly even in dusty or humid environments. This makes it an ideal companion in production halls, warehouses or on construction sites.
Another important feature of industrial routers is their diverse connectivity. They are equipped with a wide range of interfaces to enable seamless integration into existing networks. Ethernet ports, serial interfaces and wireless connections such as WLAN or LTE ensure that the industrial router can communicate with a wide range of devices and machines. This ensures efficient and smooth data transmission.
Security plays a crucial role in industry, especially when it comes to exchanging sensitive data. Industrial routers therefore have extensive security functions to protect communication. Encryption protocols, firewalls and VPN functionality ensure secure data transmission and protect against unauthorized access. In addition, industrial routers often offer features such as traffic shaping and quality of service to optimize transmission quality and ensure that critical data has priority.
Another advantage of industrial routers is their ease of management. Many models are equipped with an intuitive user interface that makes it easy to set up and configure the router. In addition, they often offer the ability to perform firmware updates over the network to continuously improve security and performance.
The areas of application for industrial routers are diverse. They are used in automation technology to control and monitor machines and systems. In the logistics industry, they enable efficient tracking and control of goods flows. Industrial routers are also used in the energy supply sector to implement smart grids and optimize energy consumption.
Overall, the industrial router is an indispensable tool in the networked industry. With its robustness, reliability, diverse connectivity, extensive security functions and simple management, it makes a significant contribution to increasing the efficiency and optimization of industrial processes.
What is an industrial router and what is it used for?
An industrial router is a specially developed router designed for use in industrial environments. In contrast to conventional routers, which were mostly developed for use in office environments or private households, industrial routers are more robust and resistant to extreme temperatures, vibrations, dust and moisture.
Industrial routers are used in various branches of industry, such as the automotive industry, energy supply, transportation and production. They are used to network different devices and machines with each other and enable reliable and secure communication between them. Industrial routers can be used, for example, for remote monitoring and control of production processes, real-time data transmission or remote maintenance of machines.
Another important aspect of industrial routers is security. They often offer advanced security functions such as VPN (Virtual Private Network) or firewall support to protect communication and prevent unauthorized access. This allows sensitive data to be protected in industrial environments.
Industrial routers are used in various branches of industry, such as the automotive industry, energy supply, transportation and production. They are used to network different devices and machines with each other and enable reliable and secure communication between them. Industrial routers can be used, for example, for remote monitoring and control of production processes, real-time data transmission or remote maintenance of machines.
Another important aspect of industrial routers is security. They often offer advanced security functions such as VPN (Virtual Private Network) or firewall support to protect communication and prevent unauthorized access. This allows sensitive data to be protected in industrial environments.
What special requirements does the industry place on routers?
The industry generally places special requirements on routers in order to meet its specific needs. Some of these requirements may be:
1. High reliability: Industrial routers must be able to function reliably in environments with extreme conditions such as vibrations, dust, humidity or high temperatures.
2. Robust design: Industrial routers must have a robust housing that protects against shocks, vibrations and other external influences.
3. Extended connectivity: Industrial routers must have a wide range of connectivity options, including Ethernet ports, serial interfaces, wireless connectivity such as WLAN or cellular networks.
4. Security: The protection of data and networks is of crucial importance in the industry. Industrial routers must have advanced security functions such as firewall, VPN (Virtual Private Network) and intrusion detection/prevention.
5. Remote management and monitoring: As many industrial plants are distributed across several locations, routers must be able to be managed and monitored remotely. This enables operators to identify and rectify problems quickly.
6. Scalability: Industrial routers must be able to grow with growing requirements and support a large number of devices connected via the network.
7. Real-time communication: In some industries, such as mechanical engineering or automation, real-time communication is required. Industrial routers must be able to meet these requirements and guarantee low latency.
These special requirements ensure that industrial routers can meet the high demands of industry and provide reliable and secure connectivity for industrial applications.
1. High reliability: Industrial routers must be able to function reliably in environments with extreme conditions such as vibrations, dust, humidity or high temperatures.
2. Robust design: Industrial routers must have a robust housing that protects against shocks, vibrations and other external influences.
3. Extended connectivity: Industrial routers must have a wide range of connectivity options, including Ethernet ports, serial interfaces, wireless connectivity such as WLAN or cellular networks.
4. Security: The protection of data and networks is of crucial importance in the industry. Industrial routers must have advanced security functions such as firewall, VPN (Virtual Private Network) and intrusion detection/prevention.
5. Remote management and monitoring: As many industrial plants are distributed across several locations, routers must be able to be managed and monitored remotely. This enables operators to identify and rectify problems quickly.
6. Scalability: Industrial routers must be able to grow with growing requirements and support a large number of devices connected via the network.
7. Real-time communication: In some industries, such as mechanical engineering or automation, real-time communication is required. Industrial routers must be able to meet these requirements and guarantee low latency.
These special requirements ensure that industrial routers can meet the high demands of industry and provide reliable and secure connectivity for industrial applications.
How does an industrial router differ from a conventional router?
An industrial router differs from a conventional router in several respects:
1. Robustness: Industrial routers are specially developed for use in industrial environments and are therefore generally more robust and resistant to dust, moisture, vibrations and extreme temperatures. They are able to function reliably in harsh environments.
2. Extended functionality: Industrial routers often offer extended functions compared to conventional routers. For example, they can have redundant network connections to ensure high availability or VPN functions to establish secure connections via the Internet.
3. Scalability: Industrial routers are often scalable and can be used in larger industrial networks. They offer several interfaces to connect different devices and networks with each other.
4. Security: Industrial routers place a special focus on the security of industrial networks. They have advanced security functions such as firewalls, intrusion detection systems and encryption to protect network communication.
5. Configuration and management: Industrial routers often offer extended configuration and management options. For example, they enable remote configuration and remote maintenance via the Internet to reduce maintenance costs.
Overall, industrial routers are specially tailored to the requirements and conditions in industrial environments and offer advanced functions and security to ensure reliable and secure communication in such environments.
1. Robustness: Industrial routers are specially developed for use in industrial environments and are therefore generally more robust and resistant to dust, moisture, vibrations and extreme temperatures. They are able to function reliably in harsh environments.
2. Extended functionality: Industrial routers often offer extended functions compared to conventional routers. For example, they can have redundant network connections to ensure high availability or VPN functions to establish secure connections via the Internet.
3. Scalability: Industrial routers are often scalable and can be used in larger industrial networks. They offer several interfaces to connect different devices and networks with each other.
4. Security: Industrial routers place a special focus on the security of industrial networks. They have advanced security functions such as firewalls, intrusion detection systems and encryption to protect network communication.
5. Configuration and management: Industrial routers often offer extended configuration and management options. For example, they enable remote configuration and remote maintenance via the Internet to reduce maintenance costs.
Overall, industrial routers are specially tailored to the requirements and conditions in industrial environments and offer advanced functions and security to ensure reliable and secure communication in such environments.
What are the special features of installing and configuring an industrial router?
The installation and configuration of an industrial router differs from conventional routers in a number of ways:
1. Robustness: Industrial routers are specially designed for use in industrial environments and must therefore be particularly robust. They are generally shock and vibration resistant as well as dust and waterproof.
2. Temperature range: Industrial routers must be able to operate in a wide temperature range, as they are often used in environments with extreme temperatures. They can therefore also function reliably in environments with high or low temperatures.
3. Redundancy: Industrial routers often offer redundant network connections to ensure high availability. For example, you can have several SIM cards or different WAN connections to ensure that there is always a connection.
4. Security: Industrial routers must be particularly secure, as they are often used in safety-critical environments. They therefore often offer extended security functions such as firewall, VPN and intrusion detection systems.
5. Configuration: The configuration of an industrial router can be complex, as they often have to support special functions and protocols that are required in industrial environments. This may require specific specialist knowledge or the support of experts.
6. Remote maintenance: Industrial routers are often installed in locations that are difficult to access, which is why a remote maintenance function is important. This allows the router to be monitored and configured remotely without the need for physical access.
7. Connections and interfaces: Industrial routers often have a variety of connections and interfaces to connect different devices and systems in industrial environments. These include, for example, serial interfaces, digital inputs and outputs or Ethernet ports.
When installing and configuring an industrial router, it is important to consider the specific requirements of the industrial environment in question and, if necessary, to call on the support of experts.
1. Robustness: Industrial routers are specially designed for use in industrial environments and must therefore be particularly robust. They are generally shock and vibration resistant as well as dust and waterproof.
2. Temperature range: Industrial routers must be able to operate in a wide temperature range, as they are often used in environments with extreme temperatures. They can therefore also function reliably in environments with high or low temperatures.
3. Redundancy: Industrial routers often offer redundant network connections to ensure high availability. For example, you can have several SIM cards or different WAN connections to ensure that there is always a connection.
4. Security: Industrial routers must be particularly secure, as they are often used in safety-critical environments. They therefore often offer extended security functions such as firewall, VPN and intrusion detection systems.
5. Configuration: The configuration of an industrial router can be complex, as they often have to support special functions and protocols that are required in industrial environments. This may require specific specialist knowledge or the support of experts.
6. Remote maintenance: Industrial routers are often installed in locations that are difficult to access, which is why a remote maintenance function is important. This allows the router to be monitored and configured remotely without the need for physical access.
7. Connections and interfaces: Industrial routers often have a variety of connections and interfaces to connect different devices and systems in industrial environments. These include, for example, serial interfaces, digital inputs and outputs or Ethernet ports.
When installing and configuring an industrial router, it is important to consider the specific requirements of the industrial environment in question and, if necessary, to call on the support of experts.
What safety functions do industrial routers offer?
Industrial routers offer various security functions to protect data communication in industrial environments. Here are some examples:
1. Firewall: An industrial router usually has an integrated firewall that monitors the data traffic between the industrial network and the Internet and blocks unwanted data traffic.
2. Virtual Private Network (VPN): Industrial routers make it possible to set up secure VPN connections to ensure secure communication via insecure networks such as the Internet. This allows remote locations to securely access the industrial network.
3. Intrusion Detection/Prevention System (IDS/IPS): An IDS/IPS detects and blocks unauthorized access attempts and attacks on the network. Industrial routers can include such functions to improve network security.
4. Authentication and access control: Industrial routers offer various methods for authenticating users and devices to ensure that only authorized persons and devices can access the network.
5. Encryption: Industrial routers can support data encryption technologies such as SSL/TLS or IPsec to ensure the confidentiality and integrity of the transmitted data.
6. Redundancy and reliability: Industrial routers often offer features such as redundant network connections, failover mechanisms and load balancing to increase network availability and minimize downtime.
7. Network segmentation: Industrial routers allow the network to be segmented into different virtual networks in order to isolate data traffic and increase security between the different network areas.
These security functions are important to ensure data integrity, confidentiality and availability in industrial environments and to prevent unwanted access or attacks.
1. Firewall: An industrial router usually has an integrated firewall that monitors the data traffic between the industrial network and the Internet and blocks unwanted data traffic.
2. Virtual Private Network (VPN): Industrial routers make it possible to set up secure VPN connections to ensure secure communication via insecure networks such as the Internet. This allows remote locations to securely access the industrial network.
3. Intrusion Detection/Prevention System (IDS/IPS): An IDS/IPS detects and blocks unauthorized access attempts and attacks on the network. Industrial routers can include such functions to improve network security.
4. Authentication and access control: Industrial routers offer various methods for authenticating users and devices to ensure that only authorized persons and devices can access the network.
5. Encryption: Industrial routers can support data encryption technologies such as SSL/TLS or IPsec to ensure the confidentiality and integrity of the transmitted data.
6. Redundancy and reliability: Industrial routers often offer features such as redundant network connections, failover mechanisms and load balancing to increase network availability and minimize downtime.
7. Network segmentation: Industrial routers allow the network to be segmented into different virtual networks in order to isolate data traffic and increase security between the different network areas.
These security functions are important to ensure data integrity, confidentiality and availability in industrial environments and to prevent unwanted access or attacks.
What are the advantages of using industrial routers in industrial production?
The use of industrial routers in industrial production offers several advantages:
1. Reliable connectivity: Industrial routers are specially developed for use in harsh industrial environments. They offer stable and reliable connectivity, even in environments with vibrations, dust and moisture.
2. Secure data transmission: Industrial routers offer advanced security functions to protect data transmission. They support encryption technologies such as VPN (Virtual Private Network) and firewall functions to prevent unauthorized access to the network.
3. Remote access and remote maintenance: Industrial routers enable secure remote access to the production network. This allows technicians and engineers to access machines and devices remotely to carry out diagnostics, rectify problems or perform software updates. This reduces maintenance times and minimizes downtimes.
4. Network management: Industrial routers offer advanced network management functions. They enable the monitoring and control of network traffic, the configuration of network settings and the prioritization of data traffic. This can optimize network performance and improve productivity.
5. Scalability: Industrial routers are scalable and can be adapted to the requirements of industrial production. They support a variety of interfaces and communication protocols to ensure seamless integration with existing systems and devices.
Overall, industrial routers enable efficient and reliable communication in industrial production, resulting in improved productivity, reduced downtime and lower maintenance costs.
1. Reliable connectivity: Industrial routers are specially developed for use in harsh industrial environments. They offer stable and reliable connectivity, even in environments with vibrations, dust and moisture.
2. Secure data transmission: Industrial routers offer advanced security functions to protect data transmission. They support encryption technologies such as VPN (Virtual Private Network) and firewall functions to prevent unauthorized access to the network.
3. Remote access and remote maintenance: Industrial routers enable secure remote access to the production network. This allows technicians and engineers to access machines and devices remotely to carry out diagnostics, rectify problems or perform software updates. This reduces maintenance times and minimizes downtimes.
4. Network management: Industrial routers offer advanced network management functions. They enable the monitoring and control of network traffic, the configuration of network settings and the prioritization of data traffic. This can optimize network performance and improve productivity.
5. Scalability: Industrial routers are scalable and can be adapted to the requirements of industrial production. They support a variety of interfaces and communication protocols to ensure seamless integration with existing systems and devices.
Overall, industrial routers enable efficient and reliable communication in industrial production, resulting in improved productivity, reduced downtime and lower maintenance costs.
What role do industrial routers play in the networking of machines and production systems?
Industrial routers play an important role in the networking of machines and production systems. They serve as a central interface to connect different devices and systems with each other, enabling efficient communication and control.
Industrial routers offer various functions that are important for networking machines and production systems. They enable connection to different networks, such as Ethernet, WLAN or mobile radio, and ensure secure and reliable data transmission.
In addition, industrial routers often offer advanced connectivity features such as firewall protection, VPN tunneling and Quality of Service (QoS). This enables them to guarantee security and data protection in industrial networks and ensure high data transmission quality.
Industrial routers also enable the integration of various protocols and standards used in industrial automation, such as Modbus, Profinet or OPC V out. This allows machines and production systems from different manufacturers to communicate with each other and exchange data.
The networking of machines and production facilities with the help of industrial routers enables better monitoring, control and optimization of industrial processes. By collecting and analyzing data in real time, bottlenecks and disruptions can be detected at an early stage to improve productivity and efficiency.
In summary, industrial routers play a decisive role in the networking of machines and production systems by enabling secure and efficient communication and thus contributing to the optimization of industrial processes.
Industrial routers offer various functions that are important for networking machines and production systems. They enable connection to different networks, such as Ethernet, WLAN or mobile radio, and ensure secure and reliable data transmission.
In addition, industrial routers often offer advanced connectivity features such as firewall protection, VPN tunneling and Quality of Service (QoS). This enables them to guarantee security and data protection in industrial networks and ensure high data transmission quality.
Industrial routers also enable the integration of various protocols and standards used in industrial automation, such as Modbus, Profinet or OPC V out. This allows machines and production systems from different manufacturers to communicate with each other and exchange data.
The networking of machines and production facilities with the help of industrial routers enables better monitoring, control and optimization of industrial processes. By collecting and analyzing data in real time, bottlenecks and disruptions can be detected at an early stage to improve productivity and efficiency.
In summary, industrial routers play a decisive role in the networking of machines and production systems by enabling secure and efficient communication and thus contributing to the optimization of industrial processes.
What are the latest developments in the field of industrial routers and Industry 0?
There are currently several developments in the industrial router sector:
1. 5G connectivity: Industrial routers are increasingly being equipped with 5G technology to enable faster and more reliable wireless connectivity in industrial environments. This enables more efficient communication between devices and better integration of IoT systems.
2. Edge Computing: Industrial routers are becoming increasingly powerful and can now perform complex calculations and data processing directly at the network edge. This reduces latency times and improves the efficiency of industrial processes.
3. Cybersecurity: With the increasing use of IoT devices in industrial environments, the importance of cybersecurity is also growing. Industrial routers are increasingly being equipped with integrated security functions such as firewalls, VPN and intrusion detection systems to protect sensitive data and networked devices from attacks.
There are also a number of current developments in the area of Industry 4.0:
1. Digitalization and networking: Industry 4.0 refers to the increasing digitalization and networking of production processes. Machines and systems are networked with each other to enable more efficient production, better quality assurance and flexible adaptation to individual customer requirements.
2. IoT and sensor technology: The use of IoT devices and sensors makes it possible to collect and analyze data in real time. This enables companies to obtain important information about the condition of their machines and systems in order to plan maintenance work and reduce unplanned downtimes.
3. Artificial intelligence: Industry 4.0 also enables the use of artificial intelligence (AI) in industrial processes. By using machine learning and other AI technologies, production processes can be optimized, anomalies detected and predictive maintenance carried out.
These developments in the field of industrial routers and Industry 4.0 help to improve the efficiency, flexibility and safety of industrial processes and create the basis for the so-called "Industry 0", in which seamless integration of production systems, intelligent devices and data analysis is made possible.
1. 5G connectivity: Industrial routers are increasingly being equipped with 5G technology to enable faster and more reliable wireless connectivity in industrial environments. This enables more efficient communication between devices and better integration of IoT systems.
2. Edge Computing: Industrial routers are becoming increasingly powerful and can now perform complex calculations and data processing directly at the network edge. This reduces latency times and improves the efficiency of industrial processes.
3. Cybersecurity: With the increasing use of IoT devices in industrial environments, the importance of cybersecurity is also growing. Industrial routers are increasingly being equipped with integrated security functions such as firewalls, VPN and intrusion detection systems to protect sensitive data and networked devices from attacks.
There are also a number of current developments in the area of Industry 4.0:
1. Digitalization and networking: Industry 4.0 refers to the increasing digitalization and networking of production processes. Machines and systems are networked with each other to enable more efficient production, better quality assurance and flexible adaptation to individual customer requirements.
2. IoT and sensor technology: The use of IoT devices and sensors makes it possible to collect and analyze data in real time. This enables companies to obtain important information about the condition of their machines and systems in order to plan maintenance work and reduce unplanned downtimes.
3. Artificial intelligence: Industry 4.0 also enables the use of artificial intelligence (AI) in industrial processes. By using machine learning and other AI technologies, production processes can be optimized, anomalies detected and predictive maintenance carried out.
These developments in the field of industrial routers and Industry 4.0 help to improve the efficiency, flexibility and safety of industrial processes and create the basis for the so-called "Industry 0", in which seamless integration of production systems, intelligent devices and data analysis is made possible.