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vector network analyzers

  1. Anritsu: VNA Fundamentals Part III: IMD Measurements on a 70 GHz VectorStar

    Anritsu: VNA Fundamentals Part III: IMD Measurements on a 70 GHz VectorStar

    VectorStar provides a wide range of active device characterization including the highest performing pulse analysis, highest frequency noise figure measurements, and accurate IMD measurements utilizing non-linear transmission line (NLTL) samplers.

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  2. Anritsu: VNA Fundamentals Part IV - Measuring Filters with Anritsu Vector Network Analyzers

    Anritsu: VNA Fundamentals Part IV - Measuring Filters with Anritsu Vector Network Analyzers

    Filters are a key component in most RF and microwave systems, including those designed for emerging 5G commercial applications or aerospace/military environments, we’ll look at measuring these devices quickly and efficiently utilizing the MS4647B VectorStar.

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  3. Anritsu: VNA Fundamentals Part V - Measuring Antennas with Anritsu Vector Network Analyzers

    Anritsu: VNA Fundamentals Part V - Measuring Antennas with Anritsu Vector Network Analyzers

    Antennas are a key element in any communication or radar system. As higher frequencies are considered for automotive radar or for 5G communication systems, beam widths shrink and path loss increases, making accurate characterization of radiation patterns with a VNA are essential.

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  4. Anritsu: VNA Fundamentals Part II: Calibration and Accuracy

    Anritsu: VNA Fundamentals Part II: Calibration and Accuracy

    Join Anritsu for Part II of VNA Fundamentals demonstrating advanced measurements that go beyond the traditional S-Parameters.

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  5. Anritsu: VNA Fundamentals Part I - Architecture and Measurements

    Anritsu: VNA Fundamentals Part I - Architecture and Measurements

    Vector network analyzers provide the ability to accurately measure over the widest single connection frequency range of 70 kHz to 20 GHz, 40 GHz, 50 GHz, 70 GHz, 110 GHz and a variety of bands to 1.1 THz.

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  6. Anritsu VectorStar ME7838G VNA Use Case

    Anritsu VectorStar ME7838G VNA Use Case

    How to Generate an .s2p File for a 220 GHz Probe

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  7. Anritsu User Power Calibrations with the VectorStar

    Anritsu User Power Calibrations with the VectorStar

    The VectorStar ME7838G system has millimeter-wave (mmWave) modules operating to over 220 GHz that are unique in that the connection interface is a coaxial flange-based structure.

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  8. Electro-Optical Measurements Using Anritsu VNAs

    Electro-Optical Measurements Using Anritsu VNAs

    Learn how to use an accurate, flexible and cost-effective technique to conduct electro-optical testing on fiber optic components, such as laser modulators and photodiodes, using VNAs.

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  9. Anritsu: How to Conduct E-Band Based Car Radar Emblem Measurements

    Anritsu: How to Conduct E-Band Based Car Radar Emblem Measurements

    Learn about the fundamental principle of frequency-modulated continuous wave car radar and typical car radar deployment, as well as positioning possibilities using the MS46522B Vector Network Analyzer.

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