• AWGN as high as +13 dBm
• Bandwidths up to 18 GHz
• Bandwidth, output power, and flatness can be modified for specific applications
• TTL controlled attenuation

The NC1000 Series amplified noise modules produce AWGN as high as +13 dBm, and have bandwidths up to 18 GHz. The high power modules are designed to test noise immunity for Cable TV equipment, secure communication channels, and military jamming systems. The lower power modules, <= 0 dBm, are random jitter sources for many applications including, PCIexpress, Infiniband, and 10 GigE. The Bandwidth, output power, and flatness can be modified for specific applications. A newly developed TTL controlled attenuation feature is also available.

• Ideal for applications requiring high ENR and immunity to large incident RF power
• Low VSWR
• Built-in isolator

The NC3400 Series coaxial AWGN noise sources are an excellent choice for applications requiring high ENR and immunity to large incident RF power, such as ATE, radiometer, and radar systems. The calibration accuracy and flatness of the NC3400 Series noise sources are enhanced by their low VSWR. The built-in isolator provides almost constant output impedance as the noise source bias is switched on and off. The isolator also protects the noise diode from incident RF power (consult the factory for higherpower units).

An SMA female connector is standard for the RF output and a BNC female connector is standard for the bias input. Other connectors are available as options.

• S-parameters comparison of user-characterized and factory-characterized verification standards
• S-parameters comparison of user-characterized and factory-characterized verification standards with measurement uncertainty boundaries
• Includes beaded airline, mismatch airline, offset shorts and fixed loads

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.

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)

• 1-port VNA with frequency options from 1 MHz to 8 GHz / 20 GHz / 43.5 GHz
• Guaranteed performance to 43.5 GHz with Extended-KTM ports
• PC control takes advantage of external computer processing power and functionality
• Small and lightweight package enables direct connection to the DUT
• No on-board data storage eliminates the need for data purging in secure applications
• All ShockLine VNAs share common software supporting GUI and program compatibility
• Time domain with time gating option enables easier and faster fault identification
• Simultaneous Sweep enabling users to operate multiple (up to four) MS46131A VNAs concurrently in independent software instances, unlocking true parallel measurement execution

VNA Master (500 kHz to 4 GHz)

• 2-port, 1-path Vector Network Analyzer (VNA)
• Intuitive Graphical User Interface (GUI) with convenient Touch Screen
• Outstanding calibration stability
• User-defined overlays for viewing multiple S-Parameters
• Exceptional RF immunity
• IF Bandwidth selections of 10 Hz to 100 kHz
• 100 dB Transmission Dynamic Range
• 850 µs/data point sweep speed
• Internal Bias Tee option
• Vector Voltmeter option, ideal for cable phase matching
• Standard three-year warranty (battery one-year warranty)

Bank of fixed resistance, capacitance and inductance standards with defined frequency characteristic up to 1 MHz for automated calibration of LCR meters.

• Automated RCL calibration
• Calibration data from 20 Hz to 1 MHz
• No need for pen and paper method

• 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.