Streamlining small cell infrastructure testing

Q: What is small cell testing?

Small cell testing verifies the performance of a small cell – a radio access node (RAN) that provides localized 5G connectivity where macro-cell coverage is insufficient. Small cell testing covers several aspects: it checks whether a device meets 3GPP and O-RAN standards and performs reliably under real-world conditions. The exact tests depend on the frequency range that the small cell operates in.

Q: What is the difference between FR1 and FR2 small cell testing?

Most FR1 small cells can be tested with traditional conducted test methods. FR2 small cells, on the other hand, require over-the-air (OTA) testing.

Q: Which test solution is used for FR1 small cell production testing?

The R&S®PVT360A is ideal for FR1 small cell testing. It supports standards-compliant 5G NR signal generation and analysis across all FR1 bands and provides preconfigured test routine aligned with 3GPP requirements.

Q: How does testing differ between traditional small cell radio units and Open RAN-based radio units (O RUs)?

Traditional small cell radio unit testing typically focuses on RF performance and 3GPP compliance within an integrated base station . In Open RAN architectures, the O‑RU requires additional testing, including e.g. interoperability testing and Open Fronthaul validation, and must be tested together with a real O‑DU or an O‑DU emulator , even for 3GPP RF conformance testing.

Streamlining small cell infrastructure testing

Small cells are radio access nodes (RAN) deployed in locations where macro-cell coverage alone is insufficient. They are designed to deliver localized cellular connectivity as part of modern 5G networks . They can be deployed both indoors and outdoors - across dense urban environments, enterprise campuses, industrial sites, transportation hubs and remote locations.

In areas with high user density or network congestion, small cells brings the network closer to users to increase capacity and improve performance. This concept is called network densification. This approach was initially driven by public mobile network requirements. Since then, however, the application of small cell technology has expanded. They are now also used in private, enterprise and mission-critical 5G networks to support predictable performance, reliability and operational flexibility.

Small cells are categorized based on coverage range:

Femtocells cover ten to thirty meters
Picocells cover up to 300 meters
Microcells cover up to 1.5 kilometers

The deployment environment of small cells depends on both range and use case. So, femtocells are ideal for limited areas, such as homes and small offices. Picocells are better for larger indoor venues, such as company buildings, hospitals and shopping centers, as well as factories and warehouses. Microcells are typically deployed in dense urban outdoor environments (e.g., streets), on campuses and along transportation hubs, while indoor spaces often rely on picocells or distributed antenna systems (DAS).

Nowadays, small cells are often associated with private networks , but the two are not the same: “private network” describes the deployment model, whereas “small cell” describes the radio technology that enables the deployment. Modern small-cell platforms vary in design and deployment environment, ranging from traditional integrated architectures to open RAN-based implementations.

Small cell technology is evolving to support multiple deployment models and network architectures. This, combined with evolving spectrum usage, means that small cell testing is also increasing in complexity. Rohde & Schwarz provides comprehensive solutions that support end-to-end (E2E) testing of small cell technology – from R&D to high-volume production.

Master your small cell testing challenges

Small cell testing in FR1, FR2 and FR3

With increasing deployment diversity, advanced radio technologies and evolving spectrum usage, there are numerous challenges associated with small cell testing.

5G NR supports operation in two frequency ranges: (1) FR1 (below 7125 MHz) and (2) FR2 (between 24.25 GHz and 52.6 GHz, also known as millimeter-wave bands). Most small cell deployments operate in FR1, which requires testing for multi-antenna configurations and strict 3GPP compliance.

Traditional conducted testing is commonly used for FR1 small cells. However, some FR1 deployments employ advanced technologies such as massive MIMO (M-MIMO) and beamforming, which require over-the-air (OTA) testing. FR2 deployments inherently rely on OTA testing due to integrated antenna designs and millimeter wave propagation characteristics.

OTA testing introduces challenges such as higher path loss, DUT alignment sensitivity and the need for more stringent system calibration to ensure accurate and repeatable results. As small cells evolve to support higher frequency ranges and more advanced architectures, emerging mid-band extensions (FR3) introduce further demands on RF accuracy, calibration stability and test repeatability.

Additional challenges arise when FR1 small cells operate on a shared or adjacent spectrum with other wireless technologies such as Wi-Fi. Such dense deployments can introduce interference and performance variability, even with mature coexistence mechanisms.

These factors collectively increase testing complexity and reinforce the need for flexible test solutions that can adapt across frequency ranges. Rohde & Schwarz offers solutions covering both FR1 and FR2 to support current small cell deployments Our solutions are also future-ready, prepared to support FR3 deployments.

Discover the best small cell testing solution for you

Comprehensive E2E testing is essential to ensure that small cells perform reliably and comply with relevant standards.

Browse our test solutions for small cell design and component validation and discover:

Signal generator and signal and spectrum analyzer combo to verify the proper implementation of digital pre-distortion (DPD) and enhance the linearity of the power amplifiers used in a small cell
Vector network analyzers (VNA) to characterize the antenna arrays of a small cell
High-performance oscilloscopes with multiple channels that enable phase coherent acquisition of small cell output streams for accurate demodulation and MIMO signal analysis
A wide portfolio of probes to complement the oscilloscopes when testing the signal and power integrity of a small cell in the early digital design phase
Multi-channel power supplies with built-in measurements to gauge power consumption of the modules (unit testing) as well as the small cell as a system
OTA test chambers that support thermal measurements to test, for example, the Antenna in Package (AiP) modules used in small cell across a wide range of temperatures, from -40oC to +85oC

Solutions for FR1 small cell testing

The R&S®PVT360A is ideal for FR1 small cell testing. It is a one-box tester that features two independent vector signal generators and analyzers. It supports standards-compliant 5G NR signal generation and analysis across all FR1 bands and provides preconfigured test routine aligned with 3GPP requirements. The R&S®PVT360A can be used for both FR1 production testing and optimized R&D testing of traditional small cell base stations.

For O-RAN radio unit (O-RU)-based small cells, Rohde & Schwarz and VIAVI Solutions have partnered to offer a fully integrated and automated test solution for O-RAN WG4 conformance testing as well as 3GPP-compliant RF and fronthaul interface validation. This solution can be configured with the R&S®PVT360A as a compact, single-box tester for O-RU production and R&D.

Solutions for FR2 small cell testing

The R&S®CMPQ compact solution is our answer to FR2 small cell testing. This compact and scalable OTA test setup consists of:

The configuration supports accurate and repeatable RF measurements for FR2 small cells in both laboratory and production environments.

Solutions for network energy saving (NES) validation

With the increased density of small cell and O-RU deployments, network energy saving (NES) is now of central importance. Rohde & Schwarz test solutions support the validation of energy-efficient radio operation by measuring RF performance power behavior across operating states. We help manufacturers verify energy-saving features, ensuring correct functionality that does not compromise RF performance or standards compliance.

Benefits of our small cell testing solutions

The flexible and scalable architecture of the Rohde & Schwarz small cell testing portfolio supports the long-term evolution of mobile network deployments. Our solutions are 3GPP-compliant and suitable for O-RU development, integration and production. We help our customers adapt to evolving standards and deployment models.

Choose Rohde & Schwarz and benefit from:

E2E coverage of the small cell test lifecycle, from R&D to mass production
High performance test equipment that meet 5G NR requirements and support current 3GPP specifications
Flexible, scalable test solutions that evolve with industry standards and expectations
Comprehensive testing capabilities that support 3GPP conformance, interoperability and deployment readiness
Predictable cost control and long term reliability through professional repair, calibration and lifecycle services

If you have any further questions, please contact us.

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Products for small cell testing

R&S®PVT360A performance vector tester

Most comprehensive one-box test solution for non-signaling 5G NR FR1 and LTE small cell testing in the design verification test (DVT) stage or in manufacturing.

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R&S®CMP200 radio communication tester

Ideal solution for design verification test (DVT) stage and production of small cells supporting 5G NR FR2 frequency range.

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R&S®SMW200A vector signal generator

Addresses every need for design and development of mobile network infrastructure equipment from component characterization and module testing to conformance testing of the finished product.

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R&S®FSW signal and spectrum analyzer

Scalable to cover up to mmWave frequency range and a wide internal analysis bandwidth up to 8.3 GHz allows to capture the complete downlink signal and evaluate the complete system.

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R&S®FSV3000 signal and spectrum analyzer

General purpose analyzer realizing fast setup and fast measurements with 200 MHz of analysis bandwidth.

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R&S®NGP800 Power supply series

Stable output for powering (O-)RU for high voltage and current, with built in measurements.

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R&S®ATS1800C CATR based 5G NR mmWave test chamber

Compact and flexible CATR OTA chamber with best shielding effectiveness makes it ideal to verify mmWave FR2 network equipment such as small cells and repeaters.

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R&S®CMQ200 shielding cube

Fully integrated solution in combination with R&S CMP200 providing a small footprint; ideal for production of infrastructure equipment such as RFICs, small cells and repeaters.

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Small cell testing FAQs

What is small cell testing?

What is the difference between FR1 and FR2 small cell testing?

Which test solution is used for FR1 small cell production testing?

How does testing differ between traditional small cell radio units and Open RAN-based radio units (O RUs)?

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