Language Reference

MMEMory Subsystem

Make a Directory

:MMEMory:MDIRectory <dir_path>

where “path” is “A:\” or “C:\”

Makes a directory or subdirectory in the specified path.

Example:

Make a directory in C:\, which is in instrument memory:

 

:MMEMory:MDIRectory “C:\”

Front Panel

 

Access:

File, Create Dir

Store (Load/Save) a Signal List

:MMEMory:LOAD:SIGNallist <file_name>

:MMEMory:STORe:SIGNallist <file_name>

These commands are used to recall the signal list data from a disk or to save the signal list data to a disk.

Example:

:MMEM:LOAD:SIGN, ‘A:myfiles.lis‘

 

:MMEM:STOR:SIGN, ‘A:xfiles.lis‘

Remarks:

Signal list files should be saved with a .lis extension since

 

this is the extension assumed by the file manager. You can save

 

signal list files under a different extension but you will not be

 

able to load these files via the front panel keys.

 

The load command for a signal list behaves differently than the

 

LOAD command for AMPCOR or limit lines. For most kinds of

 

instrument data the LOAD command performs a “destructive

 

read”; it replaces any existing data with the data from the disk.

 

The :MEM:LOAD:SIGN command does an “additive read”; it

 

merges the data loaded with any data currently in the signal list.

 

Signal list files are stored in ASCII text files with section

 

markers to delineate content. The data in a signal list is stored in

 

the [DATA] section of the file. The contents of this section are

 

described in the table below.

 

 

Columna

Contents

 

 

1

Row number (starts at 1)

 

 

2

Frequency (Hz)

 

 

3

Peak detector amplitude (dBmV)

 

 

4

Quasi-peak detector amplitude (dBmV)

 

 

5

Average detector amplitude (dBmV)

 

 

6

Total amplitude correction (dBm)

 

 

Chapter 5

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Agilent Technologies Model A.08.xx manual Make a Directory, Store Load/Save a Signal List
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Model A.08.xx specifications

Agilent Technologies has long been a leader in the field of measurement and analytical instrumentation, and their Model A.08.xx is a prime example of this expertise. This advanced instrument is designed for a wide array of applications, spanning from life sciences to chemical analysis, offering unparalleled precision and reliability to meet the demands of laboratory environments.

One of the main features of the A.08.xx model is its advanced measurement capabilities. The instrument boasts a high-resolution detector that provides exceptional sensitivity, allowing researchers to detect even trace levels of analytes in complex samples. The enhanced signal-to-noise ratio is particularly beneficial for users working with low concentrations, ensuring accurate results without the need for laborious sample preparation.

The A.08.xx is equipped with state-of-the-art technologies that significantly enhance its performance. One such technology is its multi-wavelength detection system, which allows simultaneous analysis of multiple compounds within a single run. This not only boosts efficiency but also reduces the time required for method development and validation. Additionally, the model utilizes sophisticated software for data analysis, providing users with intuitive tools to interpret results quickly and effectively.

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In conclusion, Agilent Technologies’ Model A.08.xx is not just an analytical instrument; it is a comprehensive solution for researchers and scientists seeking reliability and performance in their analytical work. With its advanced measurement capabilities, cutting-edge technologies, and user-friendly design, it continues to set the standard for excellence in laboratory instrumentation, facilitating groundbreaking research across various scientific fields.
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