Latency under 5 ms
Real-time control for production and logistics. Robots react without delay – failures due to lag are a thing of the past.
Industry standard: 20–30 msNext Generation Mobile Communications
Our technologies connect industry, logistics, and public institutions with stable high-speed communication.
Customized radio coverage for production halls and research campuses with guaranteed latency under 10 ms.
Reduces downtime by 40%Virtual subnets for real-time tracking, automated fleet control, and video surveillance on a single infrastructure.
Increases throughput by 25%Decentralized computing power directly at the network edge for data-intensive applications such as AI-powered quality control.
Reduces core network data volume by 60%Networking thousands of sensors over a single 5G network with automatic prioritization of critical messages.
Increases plant availability to 99.5%Flexible base stations from standardized components – independent of individual manufacturers and easily scalable.
Reduces operating costs by up to 30%Ready for the next step
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Free initial consultationValue Proposition
Real-time control for production and logistics. Robots react without delay – failures due to lag are a thing of the past.
Industry standard: 20–30 msCritical applications like telemedicine or remote maintenance run without interruption. Redundant paths and automatic failover protect your data streams.
Downtime per year: under 5 minutesMassive IoT connectivity for smart cities and Industry 4.0. Sensors, actuators, and end devices communicate in parallel – without collisions.
4G limit: approx. 100,000 devicesThrough network slicing and Open RAN architecture, you use your infrastructure more efficiently. Less hardware, more flexibility.
Determined from pilot projects in Northern GermanyTransfer 4K video streaming, cloud gaming, and large data volumes in real time. No buffering, no bottlenecks.
Fiber-like speed, wirelessShort, clear answers to the most important topics concerning modern mobile networks and digital infrastructure.
Yes, to use the 5G network, you need a device that supports the 5G standard. Older smartphones or tablets that are only designed for 4G/LTE cannot connect to the new network. Most current mid-range and high-end devices are already 5G-capable. When purchasing, look for the "5G" specification in the technical details.
Compared to LTE (4G), 5G offers significantly higher data rates, lower latency (delay), and the ability to connect many more devices simultaneously. While LTE is optimized for mobile internet and streaming, 5G was designed from the ground up for a wide range of applications: from autonomous machines in industry to telemedicine and massive IoT networks with thousands of sensors per square kilometer.
According to the current state of science and based on statements from the Federal Office for Radiation Protection and the World Health Organization (WHO), there is no evidence of health damage from 5G as long as the applicable limit values are observed. The frequencies used are in the range of non-ionizing radiation and are comparable to those of previous mobile phone generations. The limit values in Germany and Austria are among the strictest in the world.
Network Slicing is a technology that allows a physical 5G network to be divided into several virtual, independent sub-networks (slices). Each slice can have its own properties – for example, extremely low latency for robot control or high bandwidth for video surveillance. This is primarily needed by companies in Industry 4.0, logistics firms, and operators of critical infrastructures that require different network qualities for various applications.
The theoretical peak speed of 5G is up to 10 Gbit/s, about ten times that of LTE. In practice, the achievable speed depends heavily on the frequency, network load, and distance to the transmission mast. In the current expansion, users in metropolitan areas often achieve download rates between 300 and 800 Mbit/s. In rural areas, which are initially supplied with lower frequencies, it is often 100 to 300 Mbit/s – still a significant leap compared to 4G.
The expansion of the 5G network is taking place gradually and usually begins in large cities and economically strong regions. For the current expansion status in your area, we recommend checking the official network coverage maps of the major mobile network operators. There you can see in color which areas are already covered by 5G and which will follow in the coming months. Rural areas are expected to be fully connected by the end of 2025.