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Operators are currently undertaking a massive investment in upgrading the infrastructure of both wireline and wireless networks. The need to upgrade and change is fueled by the billions of connected devices belonging to the IoT ecosystem and the new demands they will place on 5G fronthaul networks as operators begin rolling out 5G.
Targeting higher performance and efficiency, the power stages of battery-powered applications must manage high currents while meeting strict power dissipation and size requirements. This white paper illustrates a thermally aware workflow used by STMicroelectronics to optimize an evaluation board deployed in battery-powered electronics that achieved maximum system performance in a short timeframe.
The Rohde & Schwarz®FSWP is a modern, digital signal processing based, phase-noise test set that performs many tasks in parallel in an effort to improve measurements speed. However, several measurement settings drastically affect measurement speed. This paper will discuss these settings and provide suggestions on improving overall measurement speed.
When testing radars, it is often necessary to use a signal generator to test up/downconverter chains. Frequency switching speed is important when evaluating an agile system, or simply to minimize test time. This whitepaper will describe the challenges and a solution that provides low phase noise and fast switching speed.
The purpose of this paper is to introduce the feasibility study of a multi-band SAR based on an emerging Teledyne e2v’s proprietary Digital to Analogue Converter (DAC) and Analogue to Digital Converter (ADC) capable of direct signal generation and direct synthesis up to Ka-band.
The safe rollout of new 5G services using C-band spectrum near airports requires realistic modeling of radio propagation to mitigate potential interference with legacy radar altimeters. In this whitepaper, Wireless InSite provides a realistic assessment of radar altimeter interference due to emissions from 5G base stations along a landing approach.
Systems utilizing high-speed digital signals are ubiquitous and necessary parts of everyday life. For the designer or informed consumer, it is important to understand how to analyze transport media to obtain optimal performance. This article examines digital signal analysis methodology using a VNA.
This white paper provides a technology deep dive into the architecture, protocols and physical layer of 5G NR V2X communications in line with 3GPP Release 16.
RF and radio system development is becoming more complex at a time that technical support is becoming more diffused. Design Accelerator hardware development tools can speed design and development. This paper presents how Design Accelerators reduce design time, an analysis of how different types of accelerator boards serve different development needs (from designing waveforms or developing software, to proving concepts and prototyping), as well as an exploration of the different levels of integration available in accelerator boards.
A VNA measures reflection coefficients of RF devices and systems. To be very meticulous, each measurement should be accompanied by an uncertainty with a specified statistical confidence interval. To understand the measurement uncertainty, or accuracy, it is important to understand the contributing factors, which are explored in this white paper.