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

Precision standard mismatches are fixed coaxial terminations, which are used to introduce a known VSWR into a 50 ohm transmission system. These mismatches are extremely useful in a wide variety of applications and are quick and easy to use. They can be used to calibrate swept reflectometers, verify network analyzer calibration, establish impedance references in TDR measurements.

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

A precision fixed termination (or load) consists of an immovable, (fixed) termination which, when mated to the end of a trans-mission line or cable, absorbs nearly all of the signal energy traveling toward it. An ideal “matched” condition exists when a termination with an impedance value of Z0, is connected to the end of a transmission line or cable that also has a characteristic impedance of Z0. Such an ideal “matched” condition (one with no mismatch between the termination and its mated line or cable) is critical if a voltage standing wave ratio (VSWR) of 1.0:1 is to be achieved in a system with a 50 or 75 ohm impedance value. Simply put, the more closely the 1.0:1 ratio is approached, the more accurate the measurements that can be made from a system.

VNA Master (500 kHz to 4 GHz)

• 2-port, 1-path Vector Network Analyzer (VNA) Intuitive Graphical User Interface (GUI) with resistive TFT Touch Screen
• Exceptional RF immunity
• 100 dB Transmission Dynamic Range Vector
• Voltmeter option, ideal for cable phase matching

+Spectrum Analyzer (9 kHz to 4 GHz)

• Dynamic Range: > 95 dB in 10 Hz RBW
• DANL: –162 dBm (1 Hz)
• Phase Noise: –100 dBc/Hz max @ 10 kHz offset at 1 GHz
• Frequency Accuracy: < ±50 ppb with GPS On
• Detectors: Peak, Negative, Sample, Quasi-peak, and true RMS
• PIM Hunting

• Standard three-year warranty (battery one-year warranty)

• Automatic calibration for the whole test frequency range 
• Application of all test frequencies automatically. The level can be selected or automatic. 
• NO need to manually configure the measurement equipment 
• NO need to manually integrate the transfer function of probes and attenuators 
• Generation of test reports: NO need to record all values read from the measurement equipment 
• Generation of calibration reports: NO need to record all calibration setting parameters 
• Rack together and add CS101, CS109, and RS101 (sections 18, 19, and 20 of the RTCA DO-160G are also available.)

• Easy to Use
  • No need to break the circuit or insert a shunt
  • Small form factors for use on crowded boards
• Variety of Applications
  • Bandwidths up to 100 MHz
  • Peak currents up to 700 A
  • Sensitivities down to 1mA/div
• High Precision Measurements
  • Low frequency accuracy of 1%
  • Integrated autozero capability
• Fully Integrated with Teledyne LeCroy Oscilloscope
  • No additonal hardware is required
  • Power is supplied from oscilloscope ProBus connection
  • Automatic display of waveforms in Amps and calculated power traces scaled correctly in Watts
  • Degauss and Autozero directly from oscilloscope user interface
• DCS025 Deskew Calibration Source
  • Provides ability to precisely deskew most voltage probes along with 30, 150 and 500A current probes

• High-density, compact (1U) precision data acquisition instruments 
• LXI™ LAN connectivity 
• Fully integrated signal conditioning maximizes performance and accuracy 
• Easily integrate thermocouples, voltages, RTDs, thermistors, frequency, strain and pressure on an per-channel basis 
• Distributed, synchronized measurements over the wire 
• Scalable architecture easily expands from tens to thousands of channels 
• DC version available for test cells requiring closer proximity to test article 
• End-to-end self-calibration ensures optimum runtime performance 
• Web-based access for monitoring and control 
• Exlab turnkey software for simplified setup, control and data display

The VectorStar ME7838 Series broadband VNA offers the widest available single frequency sweep from 70 kHz to 110, (ME7838AX to 125), (ME7838EX to 125), to 145 GHz, and to 220 GHz with mmWave bands to 1.1 THz. 

• The ME7838AX or ME7838EX version can easily be upgraded to 145 GHz and to 220 GHz
• All versions may be configured to include banded millimeter-wave modules up to 1.1 THz
• Industry-best calibration and measurement stability: 0.1 dB vs 0.6 dB over 24 hrs.
• All versions support the 3744x-Rx receiver for noise figure measurements, including the ability to characterize differential noise figure, to 125 GHz
• Compact, lightweight mmWave modules (0.6 lb vs 7+ lbs and 1/50 the volume) offer low cost installation on smaller probe stations.

• S-parameters DC to 40 GHz, single-ended and mixed-mode
• Impedance Profile with <1 mm resolution, differential and common-mode 
• Internal, automatic OSLT calibration
• USB-connected, small, lightweight
• Flexible display of the measurements
• Remove effects from fixtures, connectors and cables
• Emulate eye diagrams with CTLE, DFE and FFE equalization
• Advanced jitter analysis

• 6 GHz, 8 GHz, 18 GHz and 40 GHz RF Power Sensors
• Up to 195 MHz video bandwidth with 3 ns rise time
• Real-Time Power ProcessingTM technology with zero measurement dead time
• 100,000 measurements per second
• Power Analyzer Suite advanced measurement and analysis software
• Crest factor, CCDF and statistical measurements
• 10 GS/s effective sample rate
• 100 MS/s continuous sample rate
• Synchronized multi-channel measurements