Storage; System Capabilities - Agilent Technologies ENA Series User Manual

Specifications and Supplemental Information

Storage

Storage
Internal hard disk drive
File sharing
Disk drive
Screen hardcopy

System capabilities

Familiar graphical user interface
Limit lines
Fixture Simulator
Balanced-unbalanced conversion
Network De-embedding
Port reference impedance conversion
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Store and recall instrument states, calibration data, and trace data on 3
GB, minimum, internal hard drive. Trace data can be saved in CSV
(comma separated value) format. All files are MS-DOSÒ -compatible.
Instrument states include control settings, limit lines, segment sweep
tables, and memory trace data.
Internal hard disk drive (D:) can be accessed from an external
WindowsÒ PC through LAN.
Instrument states, calibration data, and trace data can be stored on an
internal 3.5 inch 1.4MB floppy disk in MS-DOSÒ -compatible format.
Printouts of instrument display are directly produced on a printer. The
analyzer provides USB and parallel interfaces.
The ENA Series analyzer employs a graphical user interface based on
the WindowsÒ operating system. There are three ways to operate the
instrument manually: you can use a hardkey interface, a touch screen
interface (Opt. 016), or a mouse interface.
Define the test limit lines that appear on the display for pass/fail testing.
Defined limits may be any combination of horizontal/sloping lines and
discrete data points.
Convert data from single-ended measurement to balanced measurement
parameters (mixed-mode S-parameters), balance parameter or CMRR
by using internal software.
De-embed an arbitrary circuit defined by a two-port Touchstone data file
(50 W system) for each test port. This function eliminates error factors
between the calibration plane and DUT and expands the calibration
plane for each test port. This function can be used with the port
extension function.
Convert S-parameters measured in 50 W reference impedance to data in
other reference impedance levels by using internal software. This
conversion can be performed for both single-ended (unbalanced)
measurement ports and converted balanced measurement ports.
Matching circuit Add one of the predefined matching circuits or a circuit defined by a
two-port Touchstone data file to each single-ended test port or converted
balanced (differential) test port by using internal software.
Chapter 15