The Yokogawa DL950 ScopeCorder offers engineers a versatile and integrated test solution that bridges the gap between traditional oscilloscopes and power analysers. Unlike an oscilloscope designed for fast, short-term signal capture, or a power analyser focused solely on precision power measurements, the DL950 ScopeCorder combines these capabilities with the added ability to capture long-term data and physical sensor inputs.
At Embedded World 2025, Yokogawa showcased how the DL950 ScopeCorder excels in complex development environments where multiple signal types need to be analysed simultaneously. It supports multi-channel signal logging, high-speed oscilloscope functions, and physical sensor integration such as temperature, strain, and vibration measurements. This makes it ideal for embedded systems, industrial drives, and power-sensitive applications where detailed system-level insight is crucial.
One of the key advantages of the Yokogawa DL950 ScopeCorder is its ability to perform basic real-time power analysis, allowing engineers to monitor and optimise energy consumption without switching between multiple tools. Its serial bus decoding further enhances debugging efficiency, while the instrument’s high sampling rates ensure accurate capture of transient and steady-state behaviours alike.
Engineers benefit from a single, unified platform that simplifies lab setups and accelerates development cycles. By integrating the strengths of oscilloscopes and power analysers into one device, the DL950 ScopeCorder helps reduce lab clutter and increases overall measurement confidence.
Whether your project involves testing high-frequency switching events or long-duration power consumption, the Yokogawa DL950 ScopeCorder delivers comprehensive data acquisition and analysis. It is a powerful tool for any engineer seeking to optimise embedded and industrial systems with precision and flexibility.
Ready to upgrade your test bench with the Yokogawa DL950 ScopeCorder? Explore its capabilities and streamline your measurements today.