RadiMation Application Note 124: Difference between revisions
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= Emission: measuring intermittent signals = | = Emission: measuring intermittent signals = | ||
One of the first important things to determine when doing a Emission test is to know the emission pattern from the device. | One of the first important things to determine when doing a Emission test is to know the emission pattern from the device. | ||
The standard describes two general types: | The standard EN55014-1(CISPR 14-1:2016 + COR1:2016) describes two general types (Paragraph 4 in CISPR 14-1:2016 + COR1:2016). | ||
* Continuous | : | ||
* Continuous interference | |||
Continuous interference arises when the source continuously emits are a given range of frequency's | Continuous interference arises when the source continuously emits are a given range of frequency's | ||
Sources include: | |||
* Radio Frequency interference generated by wireless and radio frequency transmissions | |||
* Television and radio frequency transmissions | |||
* Industrial, scientific and medical equipment | |||
* Digital processing circuitry such as micro controllers | |||
* Pulse or transient interference | |||
An electromagnetic pulse (EMP), sometimes called a transient disturbance, arises where the source emits a short-duration pulse of energy. The energy is usually broadband by nature, although it often excites a relatively narrow-band damped sine wave response in the victim. | |||
Sources include: | |||
Switching action of electrical circuitry, including inductive loads such as relays, solenoids, or electric motors | |||
It is important to know this when you need to test a eut. It informs which method is best for the task as it also informs the settings needed to fit he cycle of the eut. It is also advised to look at this before deciding on test equipment as the measurement devices can be more or less suited for continuous or intermittent signals. | |||
In this explanation we are only explaining the details of measuring a unstable/changing spectrum. For some devices it if obvious, for other devices it is less obvious if the have a stable or changing emission pattern. | |||
The best way to determine if a device is continuous or not is to use a spectrum analyser. When you do a continues measurement of the spectrum you should be able to determine if it is a continuous or non-continuous signal. | |||
Now that you have determined the type of emission you need to further investigate. For disturbed signals the test equipment needed is specified in paragraph 5.1, further guidance is included in Annex c (ref: Paragraph 4 in CISPR 14-1:2016 + COR1:2016) | |||
It is important to know that it is preferable to use a analyzer instead of a receiver. This is do to the nature of both devices. A fft based device will sweep the whole spectrum every time it does a measurement. A receiver will only measure a signal point at one time. | |||
This means that the analyser will have a more complete picture of the different levels of all points which makes it more suited to work with changing signals. You can use a receiver to do this as well. This does not work as well as you have the chance that you are missing the signal because it is not being there when the receiver is measuring that point. | |||
This can be resolved by increasing measure time (Observe a point longer and hold the highest value (Max/Hold) or increasing the amount of sweeps. Sometimes it is needed to increase measure time, sometimes the solution is to increase the amount of sweeps. because of the nature of the measuring device there is also a chance that you are constantly measuring when the signal is not there. | |||
Radimation checks if the values measured in the final measurement are the same. If the measurement has changed then you get a warning that the detector has a different value the measured before. This is do to the effects mentioned above. Below I will discuss best practice methods to be able to work with discontinuous signals: | |||
- Preferable use a analyser. This has advantages for discontinuous signals and is mostly used when the emission pattern is a changing pattern. | |||
- Do a pre-test to determine cycle time of the eut (Time that a eut has used all it's process so that you have seen all emissions) | |||
This is important to determine the measurement time. This must be at least equeal or longer then one eut cycle. For more information regarding the test conditions please refer the standard. Be aware that there are different test specifications for different devices. To check if you are using the right conditions to comply should be part of your preliminary research. | |||
A simple description of a test requirement for a changing load device is a drill. The requirement is that they are operated continuously and do not have load. | |||
This is because you else would have to much change in the emission spectrum and therefore can not measure. If you can not comply to these requirements you will most of the times not be able to execute te test successfully. | |||
Now that you know how you need to operate the device you are ready to determine the measurement and sweep time. There is not a default recipe to determin the settings needed. The settings are derived from you pre-limenary testing and then they are tuned to make sure that your settings are compatible with the EUT's cycle. | |||
To determine the cycle of the eut it is the easiest to measure this. You do this by observing the eut. | |||
Revision as of 11:37, 30 October 2019
Emission: measuring intermittent signals[edit]
One of the first important things to determine when doing a Emission test is to know the emission pattern from the device. The standard EN55014-1(CISPR 14-1:2016 + COR1:2016) describes two general types (Paragraph 4 in CISPR 14-1:2016 + COR1:2016).
- Continuous interference
Continuous interference arises when the source continuously emits are a given range of frequency's
Sources include:
- Radio Frequency interference generated by wireless and radio frequency transmissions
- Television and radio frequency transmissions
- Industrial, scientific and medical equipment
- Digital processing circuitry such as micro controllers
- Pulse or transient interference
An electromagnetic pulse (EMP), sometimes called a transient disturbance, arises where the source emits a short-duration pulse of energy. The energy is usually broadband by nature, although it often excites a relatively narrow-band damped sine wave response in the victim.
Sources include:
Switching action of electrical circuitry, including inductive loads such as relays, solenoids, or electric motors
It is important to know this when you need to test a eut. It informs which method is best for the task as it also informs the settings needed to fit he cycle of the eut. It is also advised to look at this before deciding on test equipment as the measurement devices can be more or less suited for continuous or intermittent signals.
In this explanation we are only explaining the details of measuring a unstable/changing spectrum. For some devices it if obvious, for other devices it is less obvious if the have a stable or changing emission pattern.
The best way to determine if a device is continuous or not is to use a spectrum analyser. When you do a continues measurement of the spectrum you should be able to determine if it is a continuous or non-continuous signal.
Now that you have determined the type of emission you need to further investigate. For disturbed signals the test equipment needed is specified in paragraph 5.1, further guidance is included in Annex c (ref: Paragraph 4 in CISPR 14-1:2016 + COR1:2016)
It is important to know that it is preferable to use a analyzer instead of a receiver. This is do to the nature of both devices. A fft based device will sweep the whole spectrum every time it does a measurement. A receiver will only measure a signal point at one time.
This means that the analyser will have a more complete picture of the different levels of all points which makes it more suited to work with changing signals. You can use a receiver to do this as well. This does not work as well as you have the chance that you are missing the signal because it is not being there when the receiver is measuring that point.
This can be resolved by increasing measure time (Observe a point longer and hold the highest value (Max/Hold) or increasing the amount of sweeps. Sometimes it is needed to increase measure time, sometimes the solution is to increase the amount of sweeps. because of the nature of the measuring device there is also a chance that you are constantly measuring when the signal is not there.
Radimation checks if the values measured in the final measurement are the same. If the measurement has changed then you get a warning that the detector has a different value the measured before. This is do to the effects mentioned above. Below I will discuss best practice methods to be able to work with discontinuous signals:
- Preferable use a analyser. This has advantages for discontinuous signals and is mostly used when the emission pattern is a changing pattern.
- Do a pre-test to determine cycle time of the eut (Time that a eut has used all it's process so that you have seen all emissions)
This is important to determine the measurement time. This must be at least equeal or longer then one eut cycle. For more information regarding the test conditions please refer the standard. Be aware that there are different test specifications for different devices. To check if you are using the right conditions to comply should be part of your preliminary research.
A simple description of a test requirement for a changing load device is a drill. The requirement is that they are operated continuously and do not have load.
This is because you else would have to much change in the emission spectrum and therefore can not measure. If you can not comply to these requirements you will most of the times not be able to execute te test successfully.
Now that you know how you need to operate the device you are ready to determine the measurement and sweep time. There is not a default recipe to determin the settings needed. The settings are derived from you pre-limenary testing and then they are tuned to make sure that your settings are compatible with the EUT's cycle.
To determine the cycle of the eut it is the easiest to measure this. You do this by observing the eut.