RedCap: Bridging the Gap Between Performance and Efficiency in 5G

Consumer CompactElectrical and ElectronicsJan 21, 2025

It looks like 5G RedCap – reduced capacity – is finally gaining momentum, with new devices ready to launch by the end of the year. What is RedCap and how can manufacturers be certain their products will conform to the necessary requirements to ensure performance and interoperability?

We are becoming ever more reliant on technology. From self-driving automobiles to fitness trackers and smart televisions, connectivity is vital to our everyday lives. As the name suggests, 5G is the fifth generation of the cellular network. It is a global wireless standard that, unlike previous generations, can operate on low-, mid- and high-band frequencies. This capability means it can deliver faster connections – up to ten gigabits per second (Gbps) to smartphones. It also means devices can be automatically updated to ensure optimized performance.

However, the ability to download a 4K movie to your smart device in seconds comes with costs – both financial and in terms of battery drain. While consumers may be willing to accept these limitations in devices that deliver a visible, enhanced experience, the same is not true of more everyday devices, such as fitness trackers, smartwatches, health monitors and traffic sensors.

These devices, and the consumers who use them, would all benefit from connection to the 5G network, especially as governments and mobile networks begin to phase out earlier cellular networks. As communication service providers transition from 4G to 5G, 5G RedCap emerges as the preferred platform for future-proofing new IoT designs.

RedCap

RedCap offers a practical solution. Introduced as part of the Third-Generation Partnership Project (3GPP) 5G NR Release 17 (Rel-17), this caters to devices like fitness trackers and smartwatches that benefit from the faster speeds of 5G without incurring the negatives of higher costs and poor battery life. Instead of needing frequent charging every few days, these devices could last weeks before needing a recharge. This efficiency is achieved by operating in a narrower bandwidth, thereby consuming less power. Such performance is sufficient for devices that require lower data rates and, therefore, do not need the ‘full power’ of 5G.

An additional benefit of RedCap is that the devices it supports are simpler, with fewer transmitting and receiving antennae. This not only reduces production costs but also results in devices being more affordable, compact and less complex.

Types of device

RedCap NR offers diverse use cases that expand the functionality of 5G networks while optimizing for specific requirements:

Video surveillance – these applications typically require a video bitrate of 2–4 Mbps
Wearables – devices such as smartwatches and fitness trackers need a bitrate of 5-50 Mbps in download and 2 to 5 Mbps in upload
Industrial wireless sensors – these sensors often operate effectively with a reference bitrate of less than 2 Mbps

For wearables, this efficiency can extend battery life to last up to 1-2 weeks. In the case of industrial wireless sensors, battery life could reach several years, making them ideal for long-term deployments in demanding environments.

RedCap user equipment (UE) operates across two frequency ranges:

Frequency range 1 (FR1) – 410 MHz to 7125 MHz
Frequency range 2 (FR2) – 24250 MHz – 52600 MHz and 71000 MHz

The maximum bandwidth for RedCap UE is 20 MHz in FR1 and 100 MHz in FR2.ⁱ This contrasts with baseline NR devices, which must support 100 MHz in FR1 and 200 MHz in FR2. By operating within these narrower bandwidths, RedCap devices provide a streamlined alternative to full-power 5G equipment, reducing size, cost and power requirements without compromising essential performance.

As with all cellular equipment, RedCap devices must undergo rigorous testing to ensure compliance with safety and performance requirements. Both the Global Certification Forum (GCF) and PTCRB have added support for 5G RedCap to their certification programs. These programs combine conformance testing and interoperability testing, conducted in approved laboratories, with field trials on commercial networks. This process verifies the quality of interoperability, ensuring that RedCap UE operates correctly on different networks, vendor infrastructures, etc.

SGS solution

We are a recognized GCF/PTCRB test organization, offering cutting-edge testing capabilities in Asia and North America. Our experts support wireless technology developers and manufacturers with a broad and comprehensive range of services, including:

Radio frequency (RF) transmitter and receiver – verifying signal transmission and reception
Protocol – ensuring adherence to communication standards
Radio resource management (RRM) – optimizing network resources
Demodulation (Demod) – evaluating minimum performance requirements for both conducted and radiated signals
UICC testing – standardized execution of USIM and USAT operations

Backed by a global network of state-of-the-art testing facilities, we ensure compliance with regulatory requirements, enabling seamless global market access – no matter where equipment is used in the world.