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.

• High Power Density: Up to 15 kW in 3U, 30 kW in a 6U chassis 
• Wide Voltage Range: 0-10V up to 0-1000V, from 4 to 30 kW 
• Fast Load Transient Response: Protection from undesired voltage excursions 
• Low Ripple and Noise 
• Intuitive Touch Screen Display 
• Parallelable up to 150 kW 
•  Sequencing: Free system controller & speed up test 
• Low audible noise: Temperature controlled variable speed fans

• 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.

• PowerFlex design provides higher currents at lower voltages enabling one model to meet many different voltage/current requirements. 
• Compact design for bench use or rack mounting (1/2 or 1/4 rack width) 
• True analog controls with digital settings locking (S-Lock) 
• Mixed-mode regulation with linear final regulation for low noise 
• Dual models have isolated voltage tracking and synchronous on/off. 
• P models have RS-232, USB, and LXI-compliant LAN interfaces plus duplicate rear terminals. GPIB Optional.

• Dual Voltage ranges that support over voltage testing on 480V based systems 
• Instrument Setups for quickly re-establishing the known instrument state 
• 500uS time resolution for Transients 
• Virtual Panels control software included 
• Non-Linear current waveform programming during Load mode 
• Phase coordination among multiple units (LKM/LKS) 
• Powerful set of analog controls for PHIL and Modulation tests 
• Trigger In & Out to permit extensive coordination with external systems 
• Extensive Onboard diagnostics 
• Digital I/O, including RS232, USB, Ethernet (GPIB optional) 
• Intuitive 5” color display for ease of navigation 
• Auto-paralleling for maximum flexibility with multi-chassis configurations 
• Separate terminal blocks for single-phase and three-phase AC outputs

• 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.

• High Current 4 path LISN (3-Phase & Single-Phase)
• Line Impedance Stabilization Network
• Connector: CEE plug (IEC 60309) & CEE 7/4
• 9 kHz to 30 MHz
• 250/400 VAC, 400 VDC, 32 A (16A for CEE 7/4)
• (50 µH+5 Ω) || 50 Ω
• CISPR 16-1-2

The overall performance of a power meter dependents on the power sensor employed. Maury has a variety of quality power sensors to meet virtually all applications. Maury has a complete line of Peak and Average power sensors up to 40 GHz for all of your fast rise time, wide bandwidth and wide dynamic range applications. In this document, browse through our large variety of advanced sensor solutions.

• Capture/display/analyze peak and average power
• Frequency range from 4 kHz to 40 GHz
  • Industry-leading video bandwidth (195 MHz) and rise time (3 ns)
  • Industry-leading 100,000 measurements per second
  • Industry-leading 100 ps time resolution
• Synchronous multi-channel measurements (up to 4 channels)
• Sensors can be used as standalone instruments