Repair and Calibration Services
54107A
54107A 0.001 GHz to 1.0 GHz, Network Analyzer
Description:
Anritsu 54107A 1 MHz to 1.5 GHz, Scalar Network Analyzer. Measurement Modes: Transmission (dB), Return Loss (dB), Precision Return Loss (dB), SWR (linear SWR), Power (dBm), optional Distance-To-Fault (feet or meters) and Relative Group Delay (ns). Analyzer; Dynamic Range: -55 dBm to +16 dBm, Autozeroing implements AC detection on a single cycle per sweep basis using Anritsu 560 Series or 5400 Series Detectors and SWR Auto testers. Inputs: Three. Two standard inputs, A and B, with an optional third reference channel, R. Channels: Two channels are used to select and simultaneously display any two inputs from A, B, or R. The inputs can also be displayed as ratios A/R or B/R.
Services:
We are proficient in the repair of the Anritsu 54107A Network Analyzer. Our full service calibration and repair facility can repair and calibrate your Anritsu 54107A Network Analyzer.
Options:
Option 1 Rack mounting with slides
Option 2 70 dB RF step attenuator
Option 2A 70 dB, 20 GHz MW step attenuator
Option 2B 70 dB, 26.5 GHz MW step attenuator
Option 2C 70 dB, 40 GHz MW step attenuator
Option 2D 70 dB, 50 GHz MW step attenuator
Option 4 75 Ω source output (available to 3.0 GHz)
Option 5 Add reference channel
Option 6 Add external levelling
Option 7 Internal distance-to-fault software
Option 8 Internal relative group delay software
Option 12 Add front panel cover
Option 13 Add front mounted handles
Option 16 +15 V DC supply for millimeter wave source modules
(available with <20 GHz models only)
Option 25 Maintenance manual
Option 26 Extra operation and GPIB programming manual
Option 33 Canon printer
Specifications:
• Transmission loss or gain measurement accuracy
Uncertainties from the frequency response of components are automatically subtracted from test data during the path calibration procedure. Overall accuracy is then:
Channel accuracy
+ Mismatch uncertainty
+ Distortion from source harmonics
Transmission measurement accuracy
Effects of source, test device, SWR autotester, and detector mismatch
can be significant. This mismatch uncertainty is minimized by the exceptionally low reflection characteristics of Anritsu’s detectors,
sources, and SWR autotesters. Anritsu’s ultra low source harmonics
maximize the accuracy
Located in: Network Analyzers