- Fiber Optic Transceiver
- High Speed Cable
- Fiber Optical Cable
- Fiber Optical Patch Cords
- Splitter CWDM DWDM
- GEPON Solution
- FTTH Box ODF Closure
- PCI-E Network Card
- Network Cables
- Fiber Optical Adapter
- Fiber Optical Attenuator
- Fiber Media Converter
- PDH Multiplexers
- Protocol Converter
- Digital Video Multiplexer
- Fiber Optical Tools
- What is RoHS?
- What is FCC certification?
- EMI Electromagnetic Interfer...
- EMC Testing - How to reduce ...
- EMC Testing - What are the l...
- EMC Testing - Why is it nece...
- What is EMC?
- How do I go about getting a ...
- Does my products require the...
- What does CE marking mean?
- How about the Logistics cost...
- How about the Return Policie...
- How about the Guarantee?
- Are your transceiver modules...
- Does SOPTO have agents in No...
- I placed an order who do I c...
- Do you ship internationally?
- What is your minimum order?
- Can I order online?
- What payment methods do you ...
EMI Electromagnetic Interference Basics
A summary about EMI - electromagnetic interference - the types of EMI and how they affect electronics equipment.
There are many forms of electromagnetic interference, EMI that can affect circuits and prevent them from working in the way that was intended. This EMI or radio frequency interference, RFI as it is sometimes called can arise in a number of ways, although in an ideal world it should not be present.
EMI - electromagnetic interference can arise from many sources, being either man made or natural. It can also have a variety of characteristics dependent upon its source and the nature of the mechanism giving rise to the interference.
By the very name of interference given to it, EMI is an unwanted signal at the signal receiver, and in general methods are sought to reduce the level of the interference.
Types of EMI - Electromagnetic Interference
EMI - Electromagnetic Interference can arise in many ways and from a number of sources. The different types of EMI can be categorized in a number of ways.
One way of categorizing the type of EMI is by the way it was created:
This type of EMI generally arises from other electronics circuits, although some EMI can arise from switching of large currents, etc.
Naturally occurring EMI:
This type of EMI can arise from many sources - cosmic noise as well as lightning and other atmospheric types of noise all contribute.
Another method of categorizing the type of EMI is by its duration:
This type of EMI generally arises from a source such as a circuit that is emitting a continuous signal. However background noise, which is continuous, may be created in a number of ways, either manmade or naturally occurring.
Again, this type of EMI may be man-made or naturally occurring. Lightning, ESD, and switching systems all contribute to impulse noise which is a form of EMI.
It is also possible to categorise the different types of EMI by their bandwidth.
Typically this form of EMI is likely to be a single carrier source - possibly generated by an oscillator of some form. Another form of narrowband EMI is the spurious signals caused by intermodulation and other forms of distortion in a transmitter such as a mobile phone of Wi-Fi router. These spurious signals will appear at different points in the spectrum and may cause interference to another user of the radio spectrum. As such these spurious signals must be kept within tight limits.
There are many forms of broadband noise which can be experienced. It can arise from a great variety of sources. Man-made broadband interference can arise from sources such as arc welders where a spark is continuously generated. Naturally occurring broadband noise can be experienced from the Sun - it can cause sun-outs for satellite television systems when the Sun appears behind the satellite and noise can mask the wanted satellite signal. Fortunately these episodes only last for a few minutes.
EMI coupling mechanisms
There are many ways in which the electromagnetic interference can be coupled from the source to the receiver. Understanding which coupling method brings the interference to the receiver is a key to being able to address the problem.
This type of EMI coupling is probably the most obvious. It is the type of EMI coupling that is normally experienced when the source and victim are separated by a large distance - typically more than a wavelength. The source radiates a signal which may be wanted or unwanted, and the victim receives it in a way that disrupts its performance.
Conducted emissions occur as the name implies when there is a conduction route along which the signals can travel. This may be along power cables or other interconnection cabling. The conduction may be in one of two modes:
This type of EMI coupling occurs when the noise appears in the same phase on the two conductors, e.g. out and return for signals, or +ve and -ve for power cables.
This occurs when the noise is out of phase on the two conductors.
The filtering techniques required will vary according to the type of EMI coupling experienced. For common mode lines are filtered together. For differential mode, they may be filtered together.
What is normally termed inductive coupling can be one of two forms, namely capacitive coupling and magnetic induction.
This occurs when a changing voltage from the source capacitively transfers a charge to the victim circuitry.
This type of EMI coupling exists when a varying magnetic field exists between the source and victim - typically two conductors may run close together (less than λ apart). This induces a current in the victim circuitry, thereby transferring the signal from source to victim.
By determining the form of coupling that exists and the way in which it is reaching the victim, it may prove to be that the most effective method of reducing the EMI is by putting measures in place to reduce the coupling and reduce the level of interference to an acceptable level.
Electromagnetic interference, EMI is present in all areas of electronics. By understanding the source, the coupling methods and the susceptibility of the victim, the level of interfere.