• Calibration-grade metrology standards
• Used for VNA calibration and/or calibration validation

Fixed flush and fixed offset short circuit terminations (shorts) are used to establish reference planes in transmission systems and as key elements in the calibration of vector network analyzers (VNAs). Offset shorts can be used for banded calibrations of VNA. Those with the longest offset are often used to evaluate the calibration effectiveness of a VNA by measuring the effective source match after calibration.

Measurement Accuracy

• Best solution for high accuracy IV/CV, low-noise and 1/f measurements with PureLine, AutoGuard and next generation MicroChamber technologies
• Minimize AC and spectral noise with effective shielding capability
• Achieve unsurpassed RF/mmW measurement and calibration accuracy with integrated RF tools and WinCal
• Shortest signal path test integration for accurate, thermally stable, and low-error data collection

See "Specifications & Details" tab for more key features

• Guaranteed performance to 43.5 GHz with Extended K™ ports
• High output power allows measurement of high attenuation devices
• Advanced time domain option provides tools for signal integrity analysis
• Wide dynamic range enables measurement of very low reflection artifacts
• Excellent corrected directivity minimizes measurement uncertainty
• SmartCal™ auto calibration unit reduces calibration and setup time
• Time domain with time gating option grants easier and faster fault identification
• Modern LAN interface for remote control is faster than GPIB
• A common GUI and SCPI interface within the ShockLine family
• Bias tee option simplifies test setups where the DUT needs DC biasing
• Universal Fixture Extraction (UFX) software option provides advanced de-embedding tools for test fixture extraction
• E-Band VNA
  • Extended frequency range covering E-band and major parts of V band
  • Fully assembled test system eliminates setup errors and increases reliability
  • Tethered modules connect directly to the DUT increasing measurement stability

• Calibration-grade metrology standards
• Used for VNA calibration and/or calibration validation

Shielded, coaxial opens are used in the calibration of vector network analyzers to provide a nominal 180° phase offset from a compatible reference short over a wide range of frequencies. At these frequencies, open circuit terminations are inherently imperfect. Shielding the open essentially eliminates radiation loss, but creates a residual frequency-sensitive capacitance. An accurate knowledge of the open’s effective capacitance is essential to an accurate calibration of the analyzer. Maury opens are characterized for effective capacitance versus frequency by means of a fourth order polynomial curve fit, and the nominal capacitance coefficients are provided with each unit.

High resistance decade with built-in test signal meter for calibration of high resistance meters up to 6 kV. Based on M6xx Real-Resistance decade series with short function for short current testing.

• 10 kΩ - 100.0 GΩ, short function
• Hot-switching up to 6 kVdc limit
• Test voltage and current indication

• Expandable frequency range from 18 to 325 GHz
• 2 to 3 times better accuracy
• Automatic Nitrogen purge eliminates helium equipment
• Primary calibration standard
• Radiometer reference source
• SATCOM earth station conformance verifications

• Vector Network Analyzer Frequency Range from 10 MHz up to 3.2 GHz
• Spectrum Analyzer Frequency Range from 9 kHz up to 3.2 GHz
• -156 dBm/Hz Displayed Average Noise Level (Typ.)
• -98 dBc/Hz @10 kHz Offset Phase Noise (1 GHz, Typ.)
• Total Amplitude Accuracy < 1.2 dB
• 1 Hz Minimum Resolution Bandwidth (RBW)
• All-Digital IF Technology
• Standard Preamplifier
• Distance to fault capability using VNA time domain analysis
• Up to 1.5 GHz Tracking Generator Kit
• Built-in Advanced Measurement capability (CHP, ACPR, OBW, CNR, TOI, etc)
• 10.1 lnch WVGA (1024 x 600) Display

• Autonomous Modal Parameter Estimation Procedure 
• Multiple Live Parameter Estimation Windows 
• Task Oriented, Easy-To-Use Interface 
• Logical Operation Always "One-Click" away 
• Simplified "Copy & Paste" Data Management 
• Simplified Units Unification Tool 
• Based on MATLAB® Computational Engine Environment 
• Universal File Format (UFF) Data Access 
• Individual Data Channel Calibration

• Ideal probe for up to 48 V power conversion
  • 250, 500 MHz and 1 GHz bandwidth
  • 80 V dynamic range
  • 60 V common mode
• Highest accuracy
  • 0.5% gain accuracy
  • Precision gain calibration
  • Best LF flatness (0.1 dB)
• Lowest noise and highest rejection
• Wide variety of tips
  • High performance solder-in
  • Browser
  • Single pins and header
  • Mini and micro grabbers
  • Socketed connections
  • High temp solder-in
  • Y-banana adaptor
• ProBus active probe interface