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Unlock the Power of New-Generation Oscilloscopes: Analyse Waveform Data Like Never Before! Ever found yourself drowning in a sea of waveform measurement data, wondering where to begin your analysis? Are you eager to decipher the trends in signal changes or identify deviations hidden within numerous tested signals? If so, you're not alone in facing these challenges, as traditional oscilloscope functions often fall short. Enter the game-changing solution: the segmented memory function in our...

Quantum Research – Flexible, Low Noise Signals For Triggering Qubits There’s a race going on to develop technology based on uniquely quantum or subatomic phenomena. Institutions are working to take data processing to the next level through quantum computing. Laboratories are studying and developing applications of quantum entanglement to create instantaneous communication anywhere in the universe. It may not sound like a quantum computer, a miles-long laser interferometer and a quant...

Digital oscilloscopes offer a versatile range of acquisition modes tailored to both general and specialised applications. These modes encompass sample mode, average mode, and peak detection mode. In the realm of mid-level and advanced digital oscilloscopes, the inclusion of a high-resolution mode serves to enhance the capabilities of the average mode, ensuring precision and clarity in every analysis. How to make good use of average and high-resolution acquisition modes? Enhancing Measurem...