Chapter 18: Difference between revisions
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== List of abbreviations == | == List of abbreviations, terms and definitions == | ||
This paragraph | This paragraph lists commonly used abbreviations, terms and definitions in the {{RadiMation}} software. | ||
<!-- Also update the [[Terminology]] page, as it will then show a hoover-over on the RadiWiki page itself for these terms --> | <!-- Also update the [[Terminology]] page, as it will then show a hoover-over on the RadiWiki page itself for these terms --> | ||
{|class="wikitable" | {|class="wikitable" | ||
! | ! Term || Description | ||
|- | |- | ||
| AC || [[wikipedia:Alternating current|'''A'''lternating '''C'''urrent]] | | AC || [[wikipedia:Alternating current|'''A'''lternating '''C'''urrent]] | ||
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|- | |- | ||
| AMN || '''A'''rtificial '''M'''ains '''N'''etwork | | AMN || '''A'''rtificial '''M'''ains '''N'''etwork | ||
|- | |||
| AVF || '''A'''ntenna '''V'''alidation '''F'''actor | |||
|- | |- | ||
| BCI || '''B'''ulk '''C'''urrent '''I'''njection | | BCI || '''B'''ulk '''C'''urrent '''I'''njection | ||
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|- | |- | ||
| CI || '''C'''onducted '''I'''mmunity | | CI || '''C'''onducted '''I'''mmunity | ||
|- | |||
| CISPR || '''C'''omité '''I'''nternational '''S'''pécial des '''P'''erturbations '''R'''adioélectriques | |||
|- | |||
| CLF || '''C'''hamber '''L'''oading '''F'''actor | |||
|- | |||
| CLI || [[wikipedia:Command-line Interface|'''C'''ommand-'''L'''ine '''I'''nterface]]: That software can be controlled using arguments passed to the executable | |||
|- | |- | ||
| COR || '''Cor'''rection | | COR || '''Cor'''rection | ||
|- | |- | ||
| CW || [[wikipedia:Carrier wave|'''C'''arrier '''W'''ave]]: An unmodulated RF signal | | CVF || '''C'''hamber '''V'''alidation '''F'''actor | ||
|- | |||
| CW || | |||
[[wikipedia:Carrier wave|'''C'''arrier '''W'''ave]] : An unmodulated RF signal | |||
[[wikipedia:Continuous wave|'''C'''ontinuous '''W'''ave]]: An unmodulated RF signal | |||
|- | |- | ||
| dB || [[wikipedia:Decibel|'''D'''eci'''b'''el]] | | dB || [[wikipedia:Decibel|'''D'''eci'''b'''el]] | ||
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|- | |- | ||
| DGPS || [[wikipedia:Differential GPS|'''D'''ifferential '''G'''lobal '''P'''ositioning '''S'''ystem]]. An improvement to GPS, where small GPS errors are corrected by a broadcasted radio signal. | | DGPS || [[wikipedia:Differential GPS|'''D'''ifferential '''G'''lobal '''P'''ositioning '''S'''ystem]]. An improvement to GPS, where small GPS errors are corrected by a broadcasted radio signal. | ||
|- | |||
| DLL || [[wikipedia:Dynamic-link library|'''D'''ynamic-'''L'''ink '''L'''ibrary]]: A collection of reusable code and resources that can be dynamically loaded at runtime, allowing modular and efficient software development. | |||
|- | |- | ||
| [[DUT]] || '''D'''evice '''U'''nder '''T'''est. This is equivalent to the term [[EUT]] (Equipment Under Test). RadiMation® always uses the term [[EUT]]. | | [[DUT]] || '''D'''evice '''U'''nder '''T'''est. This is equivalent to the term [[EUT]] (Equipment Under Test). RadiMation® always uses the term [[EUT]]. | ||
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|- | |- | ||
| HV || '''H'''igh '''V'''oltage | | HV || '''H'''igh '''V'''oltage | ||
|- | |||
| IEC || '''I'''nternational '''E'''lectrotechnical '''C'''ommission | |||
|- | |||
| IEEE || '''I'''nstitute of '''E'''lectrical and '''E'''lectronics '''E'''ngineers | |||
|- | |||
| IL || '''I'''nsertion '''L'''oss | |||
|- | |- | ||
| Immunity || The ability of an [[EUT]] to be immune to incoming electromagnetic interference. This is equivalent to the term susceptibility that is used by some standards. | | Immunity || The ability of an [[EUT]] to be immune to incoming electromagnetic interference. This is equivalent to the term susceptibility that is used by some standards. | ||
|- | |- | ||
| IO <BR /> I/O || [[wikipedia:Input/output|'''I'''nput/'''O'''utput]] | | IO <BR /> I/O || [[wikipedia:Input/output|'''I'''nput/'''O'''utput]] | ||
|- | |||
| ISO || '''I'''nternational '''O'''rganization for '''S'''tandardization | |||
|- | |- | ||
| LISN || [[wikipedia:Line Impedance Stabilization Network|'''L'''ine '''I'''mpedance '''S'''tabilisation '''N'''etwork]] | | LISN || [[wikipedia:Line Impedance Stabilization Network|'''L'''ine '''I'''mpedance '''S'''tabilisation '''N'''etwork]] | ||
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|- | |- | ||
| LOC || '''LOC'''ation | | LOC || '''LOC'''ation | ||
|- | |||
| LUF || '''L'''owest '''U'''sable '''F'''requency: The lowest frequency of a reverberation chamber at which the specified field uniformity can be achieved over the working volume. | |||
|- | |- | ||
| LV || '''L'''ow '''V'''oltage | | LV || '''L'''ow '''V'''oltage | ||
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'''M'''ega'''B'''yte: 1 million bytes. | '''M'''ega'''B'''yte: 1 million bytes. | ||
|- | |||
| MSC || [[wikipedia:Electromagnetic reverberation chamber|'''M'''ode '''S'''tirred '''C'''hamber]] | |||
|- | |||
| MSRC || [[wikipedia:Electromagnetic reverberation chamber|'''M'''ode '''S'''tirred '''R'''everberation '''C'''hamber]] | |||
|- | |- | ||
| MU || '''M'''easurement '''U'''ncertainty | | MU || '''M'''easurement '''U'''ncertainty | ||
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|- | |- | ||
| NO || '''N'''ormally '''O'''pen: The connector of a relay that is not connected to the common connector of the relay if the relay is not powered | | NO || '''N'''ormally '''O'''pen: The connector of a relay that is not connected to the common connector of the relay if the relay is not powered | ||
|- | |||
| OATS || '''O'''pen '''A'''rea '''T'''est '''S'''ite | | OATS || '''O'''pen '''A'''rea '''T'''est '''S'''ite | ||
|- | |- | ||
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|- | |- | ||
| PI || '''P'''ulsed '''I'''mmunity | | PI || '''P'''ulsed '''I'''mmunity | ||
|- | |||
| Q <BR /> Quality factor || [[wikipedia:Q factor|'''Q'''uality Factor]]: Frequency-dependent measure of how well a reverberation chamber stores energy | |||
|- | |- | ||
| QP || [[wikipedia:Quasi-peak detector|'''Q'''uasi-'''P'''eak]] | | QP || [[wikipedia:Quasi-peak detector|'''Q'''uasi-'''P'''eak]] | ||
|- | |- | ||
| RBW || [[wikipedia:Spectrum_analyzer#Resolution_bandwidth|'''R'''esolution '''B'''and'''W'''idth]] | | RBW || [[wikipedia:Spectrum_analyzer#Resolution_bandwidth|'''R'''esolution '''B'''and'''W'''idth]] | ||
|- | |||
| RC || [[wikipedia:Electromagnetic reverberation chamber|'''R'''everberation '''C'''hamber]] | |||
|- | |- | ||
| RE || '''R'''adiated '''E'''mission | | RE || '''R'''adiated '''E'''mission | ||
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|- | |- | ||
| RS232 || A serial communication system, often used to control small equipment connected to a PC. | | RS232 || A serial communication system, often used to control small equipment connected to a PC. | ||
|- | |||
| RVC || [[wikipedia:Electromagnetic reverberation chamber|'''R'''e'''V'''erberation '''C'''hamber]] | |||
|- | |- | ||
| SEQ || '''SEQ'''uence | | SEQ || '''SEQ'''uence | ||
|- | |||
| SQL || [[wikipedia:Structured Query Language|'''S'''tructured '''Q'''uery '''L'''anguage]] | |||
|- | |||
| stirrer || Mechanical device constructed from low-loss electrically conductive material which alters the electromagnetic boundary conditions inside a reverberation chamber. | |||
|- | |- | ||
| Susceptibility || The sensitivity of an [[EUT]] to incoming electromagnetic interference. This is equivalent to the term Immunity. RadiMation® always uses the term Immunity. | | Susceptibility || The sensitivity of an [[EUT]] to incoming electromagnetic interference. This is equivalent to the term Immunity. RadiMation® always uses the term Immunity. | ||
|- | |- | ||
| TME || '''T'''est and '''M'''easurement '''E'''quipment. | | TME || '''T'''est and '''M'''easurement '''E'''quipment. | ||
|- | |- | ||
| [[TSF]] || [[Test Setup File|'''T'''est '''S'''etup '''F'''ile]] | | [[TSF]] || [[Test Setup File|'''T'''est '''S'''etup '''F'''ile]] | ||
|- | |||
| tuner || Mechanical device constructed from low-loss electrically conductive material which alters the electromagnetic boundary conditions inside a reverberation chamber. | |||
|- | |- | ||
| UFA || [[Uniform Field Area|'''U'''niform '''F'''ield '''A'''rea]]. | | UFA || [[Uniform Field Area|'''U'''niform '''F'''ield '''A'''rea]]. | ||
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|- | |- | ||
| VISA || The [[VISA|'''V'''irtual '''I'''nstrument '''S'''oftware '''A'''rchitecture]] is a standard for configuring, programming, and troubleshooting instrumentation systems comprising [[GPIB]], VXI, PXI, Serial, Ethernet, and/or USB interfaces. | | VISA || The [[VISA|'''V'''irtual '''I'''nstrument '''S'''oftware '''A'''rchitecture]] is a standard for configuring, programming, and troubleshooting instrumentation systems comprising [[GPIB]], VXI, PXI, Serial, Ethernet, and/or USB interfaces. | ||
|- | |||
| working volume || Region defined by 8 points inside the chamber at sufficient distance away from the walls to avoid boundary effects, in which the EUT can be positioned. | |||
|} | |} | ||
[[Category:Manual]] | [[Category:Manual]] | ||
Latest revision as of 19:32, 10 October 2024
Reference data[edit]
RadiMation® file types and locations[edit]
RadiMation® uses different types of file extensions to store different types of data and different sub-directories to store different file types. During the installation of RadiMation® these sub-directories are automatically generated. The exact location of these sub-directories depends on the location where RadiMation® is installed. All the directories are created by default in the main installation directory used for RadiMation®. The default directories can be changed on the Directories tab of the Configuration window of RadiMation®.
RadiMation® Installation Directory[edit]
Depending on the Windows® operating system that is being used (and the language of this operating system), the main installation directory can vary. For example:
The default main installation directory for RadiMation® is: "C:\Program Files\Raditeq\RadiMation\"
The default main installation directory for an Italian operating system is: "C:\Programmi\Raditeq\RadiMation\"
The main installation directory for RadiMation® can be changed during the installation of the software and can also be different because of the use of an older RadiMation® version.
Equipment Under Test file (*.EUT)[edit]
An Equipment Under Test file (or EUT-file) contains information about the EUT. These files are stored from the EUT window. The EUT-file contains basic information about the EUT and does not contain any test results. The test results are stored in the same directory under the same filename, but under a different extension.
The name and location of the file can be specified by the user.
The extension of the test results is “.T??”.
The extension of the file is “.EUT”.
The default location to store the EUT-files is: "C:\Users\Public\Documents\RadiMation\EUT_File"
Calibration file (*.CAL)[edit]
A Calibration file contains all the information and results of a calibration test/measurement. The calibrations are used during substitution tests to apply the correct power level.
The name and location of the file can be specified by the user.
The extension of the file is “.CAL”.
The default location to store Correction files is: "C:\Users\Public\Documents\RadiMation\CAL_File"
Test Setup File (*.TSF)[edit]
A Test Setup File (or TSF-file) contains all the settings required to perform a test. These files can be loaded and stored with the help of the different Test Settings windows. The names of these files is not important because these (names) are not visible to the user. The ‘description’ of these files is visible. The description of the file that the user sees (when selecting a TSF-file) is stored inside the TSF-file and is not relatable to the name of the file.
The name and location of the files is managed by the RadiMation® software.
The extension of the file is “.TSF”.
The default location to store Test Setup Files is: "C:\Users\Public\Documents\RadiMation\TSF_File"
Correction file (*.COR)[edit]
A correction file contains all the information of a correction. These files are stored from the Correction editor window. The files are used for different purposes, such as:
- Correction of values measured in a device driver
- Limitation of power for amplifier protection
- Test levels during immunity tests
- Limitation of injected current during immunity tests
- Measured frequencies during emission tests
Different data columns, with an unlimited number of data-rows, can be included in a correction file. This is dependent on the use of the correction file. In addition to the data table, the correction file also remembers how to interpolate between the data-rows.
The name and location of the file can be specified by the user.
The extension of the file is “.COR”.
The default location to store Correction files is: "C:\Users\Public\Documents\RadiMation\COR_File\"
Limit Line File (*.LLF)[edit]
A limit line file contains all the information of a limit line. These files are stored from the limit line editor window. The files are used during emission measurements.
The name and location of the file can be specified by the user.
The extension of the file is “.LLF”.
The default location to store Limit Line Files is: "C:\Users\Public\Documents\RadiMation\LLF_File\"
Sequence file (*.SEQ)[edit]
A Sequence file contains the configuration of one or more Test Setup Files (TSF-files). The Sequence file can be used to perform multiple tests automatically (one after the other, in sequence).
The name and location of the file can be specified by the user.
The extension of the file is “.SEQ”.
The default location to store Sequence files is: "C:\Users\Public\Documents\RadiMation\SEQ_File\"
Location file (*.LOC)[edit]
A Location file contains information on a ‘to be measured’ antenna tower. These files are stored from the Location window. The file contains basic information on the antenna tower and the ‘to be measured’ frequencies. The Location file does not contain any test results. The test results are stored in a sub-directory with the same name as the Location file. The sub-directory contains the test result files with the same filename but under a different extension. The sub-directory also contains the available Frequency (FRQ-files) and Test Setup files (TSF-files) for the location.
This file type is only available when the Antenna Diagram module is activated.
The name and location of the file can be specified by the user.
The extensions of the test results are “.T??” and “.M??”.
The extension of the file is “.LOC”.
The default location to store Location files is: "C:\Program Files\DARE Development\RadiMation\LOC_File\"
Configured Device Drivers (CONFDVDR)[edit]
The CONFDVDR sub-directory of the RadiMation® main installation directory contains the complete configuration of the RadiMation® software. This directory can contain the following files:
- SETTINGS.INI: The main RadiMation® configuration file. This file contains all the important settings of the software.
- RDC*.INI: Each RDC*.INI file, stores the configuration of a configured device driver. All the modifications made on the "Device Drivers" tab of the Configuration window of the software, will be stored in one of the RDC*.INI files.
- Other files can be present that store specific configuration items of the RadiMation® software.
The default location of the "Configured Device Drivers" directory is: "C:\ProgramData\Raditeq\RadiMation\ConfDvdr"
Frequency file (*.FRQ)[edit]
A Frequency file contains all the information of a ‘to be measured’ frequency. The Frequency files are used during the antenna diagram measurements. The Frequency files that have to be used can be selected in the Location file window.
This file type is only available when the Antenna Diagram module is activated.
The extension of the file type is “.FRQ”.
Frequency files should be stored in a sub-directory with the name of the Location file.
List of abbreviations, terms and definitions[edit]
This paragraph lists commonly used abbreviations, terms and definitions in the RadiMation® software.
| Term | Description |
|---|---|
| AC | Alternating Current |
| AD | Analog to Digital |
| AGL | Above Ground Level |
| ALSE | Absorber Lined Shielded Enclosure |
| AMN | Artificial Mains Network |
| AVF | Antenna Validation Factor |
| BCI | Bulk Current Injection |
| CAL | CALibration |
| CDN | Coupling Decoupling Network |
| CE |
Conducted Emission Conformité Européenne - Complying to European regulations |
| CI | Conducted Immunity |
| CISPR | Comité International Spécial des Perturbations Radioélectriques |
| CLF | Chamber Loading Factor |
| CLI | Command-Line Interface: That software can be controlled using arguments passed to the executable |
| COR | Correction |
| CVF | Chamber Validation Factor |
| CW |
Carrier Wave : An unmodulated RF signal Continuous Wave: An unmodulated RF signal |
| dB | Decibel |
| dBm | Power expressed in milliWatt in dB values. |
| dBOhm | Resistance expressed in Ohm in dB values. |
| DC | Direct Current |
| DGPS | Differential Global Positioning System. An improvement to GPS, where small GPS errors are corrected by a broadcasted radio signal. |
| DLL | Dynamic-Link Library: A collection of reusable code and resources that can be dynamically loaded at runtime, allowing modular and efficient software development. |
| DUT | Device Under Test. This is equivalent to the term EUT (Equipment Under Test). RadiMation® always uses the term EUT. |
| EMC | ElectroMagnetic Compatibility |
| EMI | ElectroMagnetic Interference: The electromagnetic energy that interferes with how an EUT works |
| ERP | Effectively Radiated Power |
| EPAC | Electrically Power Assisted Cycles |
| ESD | ElectroStatic Discharge |
| EUT | Equipment Under Test |
| EV | Electric Vehicle |
| GPIB | General Purpose Industrial Bus: A communication system used to 'remote control' test and measurement equipment. |
| GPS | Global Positioning System |
| HCP | Horizontal Coupling Plane |
| HV | High Voltage |
| IEC | International Electrotechnical Commission |
| IEEE | Institute of Electrical and Electronics Engineers |
| IL | Insertion Loss |
| Immunity | The ability of an EUT to be immune to incoming electromagnetic interference. This is equivalent to the term susceptibility that is used by some standards. |
| IO I/O |
Input/Output |
| ISO | International Organization for Standardization |
| LISN | Line Impedance Stabilisation Network |
| LLF | Limit Line File |
| LOC | LOCation |
| LUF | Lowest Usable Frequency: The lowest frequency of a reverberation chamber at which the specified field uniformity can be achieved over the working volume. |
| LV | Low Voltage |
| MB |
MultiBand. Tests that allow more flexible test configurations, where multiple bands with different settings can be specified in a single TSF. MegaByte: 1 million bytes. |
| MSC | Mode Stirred Chamber |
| MSRC | Mode Stirred Reverberation Chamber |
| MU | Measurement Uncertainty |
| NC | Normally Closed: The connector of a relay that is connected to the common connector of the relay (and thus closed) if the relay is not powered |
| NO | Normally Open: The connector of a relay that is not connected to the common connector of the relay if the relay is not powered |
| OATS | Open Area Test Site |
| PC | Personal Computer |
| PE | Protective Earth |
| PI | Pulsed Immunity |
| Q Quality factor |
Quality Factor: Frequency-dependent measure of how well a reverberation chamber stores energy |
| QP | Quasi-Peak |
| RBW | Resolution BandWidth |
| RC | Reverberation Chamber |
| RE | Radiated Emission |
| RF | Radio Frequency |
| RGP | Reference Ground Plane |
| RI | Radiated Immunity |
| RMS | Root Mean Square |
| RS232 | A serial communication system, often used to control small equipment connected to a PC. |
| RVC | ReVerberation Chamber |
| SEQ | SEQuence |
| SQL | Structured Query Language |
| stirrer | Mechanical device constructed from low-loss electrically conductive material which alters the electromagnetic boundary conditions inside a reverberation chamber. |
| Susceptibility | The sensitivity of an EUT to incoming electromagnetic interference. This is equivalent to the term Immunity. RadiMation® always uses the term Immunity. |
| TME | Test and Measurement Equipment. |
| TSF | Test Setup File |
| tuner | Mechanical device constructed from low-loss electrically conductive material which alters the electromagnetic boundary conditions inside a reverberation chamber. |
| UFA | Uniform Field Area. |
| USB | Universal Serial Bus: A modern serially controlled communication system, found on all new PC's |
| VBW | Video BandWidth |
| VCP | Vertical Coupling Plane |
| VISA | The Virtual Instrument Software Architecture is a standard for configuring, programming, and troubleshooting instrumentation systems comprising GPIB, VXI, PXI, Serial, Ethernet, and/or USB interfaces. |
| working volume | Region defined by 8 points inside the chamber at sufficient distance away from the walls to avoid boundary effects, in which the EUT can be positioned. |