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Rohde & Schwarz ZVA40 10MHz – 40GHz Vector Scalar S-ParaMeter Network Analyzer

SKU: ZVA40Categories: Network Analyzers

Brand: Rohde & Schwarz

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The Rohde & Schwarz ZVA40 is a high-performance vector network analyzer that operates from 10 MHz to 40 GHz. It is used for characterizing the S-parameters of microwave components and systems with high accuracy and speed. Ideal for demanding measurements in research, development, and production environments.

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Description
Additional information

The Rohde & Schwarz ZVA40 is a high-performance vector network analyzer operating from 10 MHz to 40 GHz, engineered for precise S-parameter characterization across RF and microwave components. Available in 2- and 4-port configurations with 2.4 mm or 2.92 mm connectors, the ZVA40 delivers dynamic range exceeding 140 dB across most of its frequency span, with optional measurement inputs reaching 150 dB from 100 MHz to 20 GHz. Measurement speed reaches sub-3.5 microsecond acquisition per test point in CW mode, with full 200-point frequency sweeps completing in less than 5 milliseconds.

Technical Specifications

• Frequency Range: 10 MHz to 40 GHz
• Port Configurations: 2-port and 4-port models
• Test Port Connectors: 2.4 mm Male or 2.92 mm Male
• Impedance: 50 Ω
• Frequency Resolution: 1 Hz
• Measurement Bandwidth: 1 Hz to 1 MHz
• IF Bandwidth Options: 1/5/30 MHz
• Measurement Points: 1 to 60,001 per sweep
• Traces per Diagram Area: 20
• Output Power: Typically > 15 dBm
• Output Power Sweep Range: > 50 dB (typ. 60 dB)
• Receiver Input Power Range: +27 dBm (compression-free at reduced output power)
• Measurement Speed (CW): < 3.5 µs per test point
• Measurement Speed (Sweep): 140 dB typical; up to 150 dB at direct measurement input (100 MHz to 20 GHz)

– Key Features

• Linear and nonlinear amplifier and mixer characterization
• Noise figure measurements
• Pulse profile measurements with 12.5 ns resolution
• True differential measurements for balanced active devices
• Phase and group delay measurements on mixers
• Four independent internal signal sources and two independent receivers per test port
• Multiple calibration techniques: TOSM, TRL/LRL, TOM, TRM, TNA, UOSM
• Automatic multiport calibration (complete 4-port in < 30 seconds)
• Phase-coherent signal generation

– Typical Applications

• Component characterization in research and development
• Production testing and validation
• Active device measurements requiring high dynamic range
• Two-tone amplifier and mixer analysis
• Complex microwave system characterization