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Crosstalk & Parasitic Effects in High-Frequency Thin-Film Circuits
At GHz speeds, even the cleanest schematic can fall apart if the layout isn’t field-aware. In thin-film circuits, every trace radiates, every gap couples, and parasitic effects can quietly sabotage performance. This guide breaks down what causes crosstalk and parasitics, why thin-film designs are especially vulnerable, and five proven strategies to stop them—before they cost you compliance, yield, or time.
3 min read
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How Aluminum Nitride Works: The Science Behind Its Superpowers
Aluminum Nitride cools like metal, insulates like rubber, and enables high-frequency RF—thanks to its crystal structure and phonons.
3 min read
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From Sputter to Signal: The Precision Engineering Behind Thin Film Filters
Learn how thin film filters power RF systems with atomic precision—from substrates to ALD, photolithography, and advanced materials.
3 min read
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High-Voltage Tantalum Nitride Resistors for Implantable Medical Devices
High-voltage tantalum nitride resistors offer unmatched precision, biocompatibility, and stability for implantable medical devices.
4 min read
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Revolutionizing Lithography: How AI is Optimizing Thin Film Device Fabrication
AI is transforming lithography in thin film device fabrication, making it smarter, faster, and more precise.
3 min read
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Mastering Odd and Even Mode Balance in RF Couplers: The Key to Precision and Performance
Learn how Vajra Microsystems ensures precision in thin film RF couplers by mastering odd-even mode balance for superior impedance, isolation
7 min read
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Precision Architects of Frequency: Thin Film Filters in RF and Microwave Systems
"Thin film filters: RF's frequency gatekeepers, enabling precise control, minimal signal loss & enhanced system performance. 📡✨"
1 min read
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