R&S®NRT-Z Power Sensors

Category - Monitoring and Measuring Solutions

FAMAGA always strives to provide the best prices and timings of supplies for its customers. We sell only original equipment and spare parts, although we are not always the official distributor or manufacturer's dealer. All displayed trademarks and part numbers are the property of their respective owners.

Our portfolio includes entire product line of items of the Rohde & Schwarz. Rohde & Schwarz produces dynamic and innovative products that always detect the resolution for the hard industrial concerns at any time. The Rohde & Schwarz achieves the high standards of equipment performance while creating the modern technologies that boost the operation cycle of the industries. The Rohde & Schwarz R&S®NRT-Z Power Sensors is one of the masterly designed items. Rohde & Schwarz R&S®NRT-Z Power Sensors attributes extreme exactness, which offer wide range of automatic and electric resolutions to fulfill all application needs. Because of the high quality of constituents, Rohde & Schwarz R&S®NRT-Z Power Sensors confirm long-standing service.
As the greatest industrial provider of various brands, we always devoted to establish brilliant experience to our consumers by offering huge number of industrial outfit and constituent parts at affordable prices with the brilliant chain of supply in the brief period of time. A top level of determination permit us to supply any size of product in the shortest period of time and respond the needs of our consumers in the processing sector. As for the price and delivery time, please fill in the form or submit your order to sales@famaga.us">sales@famaga.us

Description

for Power Reflection Meter R&S®
Key Facts

Frequency range from 25 MHz to 4 GHz (sensor-dependent)
Measurement of average power, average burst power, peak power, crest factor, CCDF and mismatch
Low insertion loss
Very good matching
Excellent intermodulation characteristics
Direct power monitoring on PC

Brief Description The R&S®NRT-Zxx directional power sensors are self-contained measuring instruments. They can be connected directly to the R&S®NRT2 or, via the R&S®NRT-Z5 USB interface adapter, to the PC (communications via USB).
Features & Benefits Direct power monitoring on PC The R&S®NRT-Zxx directional power sensors are fully calibrated, independent measuring instruments that can also be used without the base unit. The R&S®NRT-Z5 USB interface adapter enables direct connection to a laptop/PC. The R&S®NRT-Z14, R&S®NRT-Z43 and R&S®NRT-Z44 power sensors make high-precision power and reflection measurements extremely cost-effective. Direct monitoring on a PC is very useful in applications where data needs to be collected (e.g. in development labs and for maintenance of base stations) as well as for purely remote controlled applications such as power monitoring in transmitter stations and EMC test systems. The R&S®V-NRT Windows user interface (supplied with the sensors) allows users to define measurement functions and also display and store individual results and series of measurements. Average power (RMS value) This function returns the average value of the power for any type of test signal (modulated, unmodulated or several carriers). It features a measurement range of 35 dB to 40 dB and high measurement accuracy. Peak envelope power (PEP) and crest factor Both parameters provide information on the peak power of a modulated envelope and describe the overdrive characteristics of transmitter output stages. The result of the crest factor measurement is referenced to the average power and displayed in dB. Measurements are performed using a video bandwidth that is adjustable in several steps, so that even short-time and high-power peaks can be determined. Average burst power This function can be used to measure modulated and unmodulated bursts based on the average power and the duty cycle. Both can be defined by the user or determined automatically by the power sensor. Complementary cumulative distribution function (CCDF) This function measures the probability of the peak envelope power exceeding a preset threshold so that the amplitude distribution of signals with an unknown envelope can be determined.''