Anritsu 54111A Network Analyzer, 1 MHz to 3 GHz
Feature:
Type: Scalar
Integral Source: YES
Source Frequency: 0.001MHz
54100A series Network Analyzers provide characterization of devices such as
amplifiers, antennas, attenuators, adapters, RF bridges, duplexers, couplers,
attenuators, cables, waveguide transmission lines, isolators, circulators, mixers,
receivers, transceivers, up/down converters, multiplexers, power dividers, VCOs,
switches, and filters. Advanced hardware and software features speed productivity
and improve accuracy. Speed tuning processes with automated bandwidth search
functions. Fast recall mode quickly steps through test procedures and sophisticated
limit line controls quickly identify conformance to specifications. Low source harmonics and high directivity SWR autotesters assure accuracy.
FEATURES
Fast, accurate measurement of transmission, return loss, precision return loss, SWR, group delay, absolute power, and distance-to-fault
Crystal-based source for exceptional stability and accuracy
Built-in automation fea
54100A series Network Analyzers provide characterization of devices such as amplifiers, antennas, attenuators, adapters, RF bridges, duplexers, couplers, attenuators, cables, waveguide transmission lines, isolators, circulators, mixers, receivers, transceivers, up/down converters,
multiplexers, power dividers, VCOs, switches, and filters. Advanced hardware and software features speed productivity and improve accuracy. Speed tuning processes with automated bandwidth
search functions. Fast recall mode quickly steps through test procedures and sophisticated limit line controls quickly identify conformance to specifications. Low source harmonics and high directivity SWR autotesters assure accuracy.
Features:
- Fast, accurate measurement of transmission, return loss, precision return loss, SWR, group delay, absolute power, and distance-tofault
- Crystal-based source for exceptional stability and accuracy
- Built-in automation features including distance-to-fault
- Built-in floppy disk drive
- Rugged, reliable chassis
- Transmission gain (loss), group delay and power measurements.
The basic configuration requires a single detector. For very low transmission loss devices (<0.25 dB), a second detector should be used to monitor any source power variations.
- Transmission and return loss (or SWR) Return loss or standing wave ratio (SWR) measurements require a high directivity SWR autotester to separate the incident signal from the RF sweep source and reflected signal from the device under test. The configuration below will simultaneously display transmission and return loss characteristics.