Signal Integrity Design Validation: Why PCB Structures Must Be Measured, Not Assumed
At GHz speeds, PCB traces are no longer passive wires — they define signal behavior. Here's how vector network analysis makes that visible, measurable, and fixable.
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Why Your Signal Problem Is Actually a Power Problem: The Physics Behind SI/PI Coupling
Power noise does not stay in the power domain. It becomes timing uncertainty, which becomes bit errors. At Embedded World 2026, I watched Tektronix demonstrate why signal integrity and power...
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One Oscilloscope. Four Domains. Why Modern Automotive Debugging Is a System Problem
At Embedded World 2026, one Tektronix demo captured why modern automotive debugging spans four domains: CAN bus, RF/wireless, EMI, and signal integrity — all from a single oscilloscope platform.
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Automotive Ethernet Is Entering the Most Critical Phase of Its Adoption — And Most Engineers Are Not Ready
At Embedded World 2026, I watched a live Automotive Ethernet eye diagram close in real time. Here's what that means for every team building ADAS and SDV systems — and...
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High-Speed Interconnect Testing: Why Signal Integrity Is Critical for Modern AI and Data Systems
At high data rates, interconnects are no longer passive connections.PCB traces, connectors, and cables behave as complex analog systems.Signal integrity is becoming a critical factor in modern AI and high-speed...
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Isolated Oscilloscopes: Why They Are Critical for Power Electronics Measurement
Modern power electronics systems challenge traditional oscilloscope design. Shared-ground measurements introduce errors and risks in high-voltage environments. Isolated architectures provide a fundamentally different approach to accurate measurement.
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