PureLine 3 Technology

• Provides an effectively noise free environment around the device under test (DUT)
• First automated probe station to achieve -190dB spectral noise*
• Up to 32x lower noise (1kHz), for improved device characterization and modelling at the 7/5/2 nm technology nodes targeted for 5G and beyond applications
• Eliminates over 97% of the environmental noise experienced in previous probe systems
• Extensive collection of FormFactor patents, electrical design knowledge, and measurement system IP

Plug In and Go

• World’s first probe station with integrated TestCell Power Management (a TestCell is a connected set of equipment, including test software, instruments, probe station, thermal system, and related measurement accessories such as cables and on-wafer probes)
• Eliminates all ground-loop induced TestCell noise
• Low field emissions
• Provides fully managed and filtered AC power to the entire system, prober and instruments

See "Specifications & Details" tab for more key features

• Superior phase stability against bending and temperature fluctuations makes this cable assembly perfect as a vector network analyzer connector for measurement. 
• Continuous operation temperature range: -30 to +85°C. 
• 7 cables with different maximum usage frequencies (26.5 GHz, 50 GHz, 67 GHz, 70 GHz, 110 GHz, 120 GHz and 145 GHz) are available.

This model is for carrying out a high pressure noise test of individual automotive manufacturers' demands. It simulates representative high voltage noise of HV and EV.

• Single-phase 3 wire 
• AC85 - 240V16A 
• 50/60Hz 
• DC125V16A 
• Pulse: ~ 500V 50kHz (option)

Not all amplifiers are created equal, so how can you be certain that an amplifier will work for your needs? You deserve to be confident that the amplifiers used with your test-and measurement lab benches will meet the requirements of your specific applications, are reliable, and are equally well-supported pre-and post-sale. When it comes to application expertise, reliability and support, there is no company that does it better than Maury.

• Excellent temperature and voltage stability
• Units for noise figure meters feature 15.5-dB ± 0.75 dB ENR output
• High-output units for radar and satellite communications system testing feature output between 26 and 35 dB ± 1 dB ENR

The NC3000 Series calibrated coaxial AWGN sources are well suited for receiver testing, noise figure measurements, or applications that require broadband noise and fast switching times. Several models include output isolators, and voltage regulators that provide excellent stability over varying temperature and voltage ranges. The NC3000 Series includes the NC3100 units with 15 dB ENR output for noise-figure meters, and the NC3200 Series high-output noise sources with outputs between 26 and 35 dB ENR for radar and satellite communications system testing.

• 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.

Single phase electric power/energy calibrator with power quality functions for calibration and testing of grid measuring appliance like power meters, power transducers or power quality analysers. Terminals 2 and 3 are inactive.

• Power quality and energy functions
• 0.01° phase shift accuracy
• 15 - 1000 Hz output
• Built-in multimeter for transducer calibration
• Floating current output for 3-wire power meters
• Voltage from Current function