RadiMation Application Note 154: Difference between revisions
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== Calibration procedure == | == Calibration procedure == | ||
=== Create correction file for the test level === | === Create a correction file for the test level === | ||
{{Menu|File|New|Correction}} | {{Menu|File|New|Correction}} | ||
First create a correction file in {{RadiMation}} and specify the applicable test level (See 'TABLE IV CS114 limit curves.' and 'FIGURE CS114-1. CS114 calibration limits.'). | First create a correction file in {{RadiMation}} and specify the applicable test level (See 'TABLE IV CS114 limit curves.' and 'FIGURE CS114-1. CS114 calibration limits.'). | ||
Revision as of 10:19, 24 October 2023
How to perform a MIL-STD CS114, Conducted susceptibility, bulk cable injection test[edit]
This application note explains how the MIL-STD CS114, Conducted susceptibility, bulk cable injection test can be performed with RadiMation®
The exact requirements and test methods for the CS114 are specified in the MIL-STD-461.
Necessary equipment[edit]
The following devices are necessary to execute this test:
- Signal generator
- Amplifier
- Coupler
- Forward power meter
- Reflected power meter (optionally)
- Current sensor
- Sensor power meter / Analyser
- 50 Ohm load
- 50 Ohm attenuator
- LISN
- Current injection device
- Current injection calibration jig (Calibration fixture)
- Cable drivers with corrections
Configuration of the test sites[edit]
Calibration[edit]
The configuration of the calibration test site should contain the following devices:
| Device name | Tab in testsite configuration window | note |
|---|---|---|
| Signal generator | Devices 1 | The signal generator to use |
| Amplifier | Devices 1 | The amplifier to use |
| Coupler | Devices 1 | The coupler to use |
| Forward power meter | Devices 1 | The forward power meter to use |
| Reflected power meter | Devices 1 | The reflected power meter to use (optionally) |
| Sensor power meter | Devices 2 | The power meter or analyser to use for measuring the current |
| Current sensor | Devices 2 | The current sensor to use with transfer factor attached to the driver |
| Injection device | Devices 2 | The injection clamp to use |
| Jig | Devices 2 | The jig to use |
| Cable current -> power meter | Cables | Cable (1) with a correction file specified for the cable loss |
| Cable current -> power meter | Cables | Cable (2) with the specified loss of the used attenuator |
| Cable current -> power meter | Cables | Cable (3) with a correction file specified for the cable loss |
Verification[edit]
The configuration of the verification test site should contain the following devices:
| Device name | Tab in testsite configuration window | note |
|---|---|---|
| Signal generator | Devices 1 | The signal generator to use |
| Amplifier | Devices 1 | The amplifier to use |
| Coupler | Devices 1 | The coupler to use |
| Forward power meter | Devices 1 | The forward power meter to use |
| Reflected power meter | Devices 1 | The reflected power meter to use (optionally) |
| Sensor power meter | Devices 2 | The power meter or analyser to use for measuring the current |
| Current sensor | Devices 2 | The current sensor to use with transfer factor attached to the driver |
| Injection device | Devices 2 | The injection clamp to use |
| Cable current -> power meter | Cables | Cable (1) with a correction file specified for the cable loss |
| Cable current -> power meter | Cables | Cable (2) with the specified loss of the used attenuator |
| Cable current -> power meter | Cables | Cable (3) with a correction file specified for the cable loss |
EUT Testing[edit]
The configuration of the eut test site should contain the following devices:
| Device name | Tab in testsite configuration window | note |
|---|---|---|
| Signal generator | Devices 1 | The signal generator to use |
| Amplifier | Devices 1 | The amplifier to use |
| Coupler | Devices 1 | The coupler to use |
| Forward power meter | Devices 1 | The forward power meter to use |
| Reflected power meter | Devices 1 | The reflected power meter to use (optionally) |
| Sensor power meter | Devices 2 | The power meter or analyser to use for measuring the current |
| Current sensor | Devices 2 | The current sensor to use with transfer factor attached to the driver |
| Injection device | Devices 2 | The injection clamp to use |
| Cable current -> power meter | Cables | Cable (1) with a correction file specified for the cable loss |
| Cable current -> power meter | Cables | Cable (2) with the specified loss of the used attenuator |
| Cable current -> power meter | Cables | Cable (3) with a correction file specified for the cable loss |
Calibration procedure[edit]
Create a correction file for the test level[edit]
-
File
- New
- Correction
-
-
-
First create a correction file in RadiMation® and specify the applicable test level (See 'TABLE IV CS114 limit curves.' and 'FIGURE CS114-1. CS114 calibration limits.'). In this example the limits for 'Aircraft (External or safety critcal) / Curve 5 are configured.
Make sure to remove the Correction column and add the Current column with the unit set to dBuV.
Create calibration test setup files[edit]
There are three frequency ranges that have to be calibrated with the following settings (see TABLE III).
| Band | Frequency range | Step size |
|---|---|---|
| Band 1 | 10 kHz - 1 MHz | 5 % |
| Band 2 | 1 MHz - 30 MHz | 1 % |
| Band 2 | 30 MHz - 200 MHz | 0.5 % |
- Calibration
- System calibration
- Conducted immunity
-
-
-
Create three test setup files, this example shows the settings for band 1.
 Start
|
The start frequency of the test. For example 10 kHz. |
| End
|
The stop frequency of the test. For example 1 MHz. |
| Step
|
The frequency step, in this case 5%. |
| Test level
|
The test level, in this case 5%. |
| Variable
|
The variable test level, select the correction file created earlier. |
| Tolerance
|
The regulation tolerance. |
| Calibration method
|
Forward power. |
| Test equipment
|
Calibration test equipment. |
| Test engineer
|
The engineer that performed the calibration. |
Calibration result[edit]
When the three calibrations are performed there should be three calibration files created.