If your last product passed FCC certification and shipped on time, pat yourself, your EMC engineer and your design team on the back. You accomplished something that is really hard and doesn’t usually happen by accident.
Of the various EMC certification tests, FCC Part 15 Class B, which applies to consumer products, is one of the most stringent. In the roughly 100 MHz range, the maximum allowed radiated emissions from a fully functioning product, when measured 3 meters away, within a 120 kHz bandwidth, must be less than about 100 µV/m.
To put this in perspective, what do you think is the maximum power a radio station could transmit, into a 120 kHz bandwidth, and still pass this FCC test? Is it 1 W? One mWatt? One microwatt?
The answer is shocking. A radio station would have to radiate less than 10 nW of power into a 120 kHz bandwidth in order to pass certification. That is hard.
The most common reason for products to fail this test is due to radiation from common currents on external cables. For a cable 1 meter long, it only takes a common current of 3 µA to radiate enough to fail a certification test.
When you consider that a 1 V signal, driving into a 50 Ω line, is a current of 20 mA, you see that the common currents must be less than 0.01% of the signal currents. This is why passing EMC tests is difficult.
I have yet to encounter a single large system company that does not have a horror story to tell about a product that worked great, passed all the functional tests, but either was never able to pass FCC certification or took so long to fix an EMI problem that its release was late and it missed the market window.
One doesn’t pass an FCC test by accident. It is by designing radiated emissions out of the product right from the beginning, and, in instances where they can’t be designed out, adding filters and shielding to minimize their impact on the certification test.
Don’t expect to learn how to design a product to pass an EMC certification test by following a list of 10 habits. But, if you want a list of topics to use as a guide to begin the discussions in your design team, here are my recommendations for the Top 10 Habits to increase the probability of passing an EMC certification test:
If you weren’t aware of these guidelines when you designed and built your last product, you may have been lucky and dodged a bullet. Don’t rely on luck for your next design. Bring up these topics in the next design review. Have SI engineers and EMC engineers explain what they mean. If still not clear on the concepts, or how to implement them, read a book, find an expert or take a class.
Dr. Eric Bogatin is a signal integrity evangelist with Bogatin Enterprises, and has authored six books on signal integrity and interconnect design, including Signal and Power Integrity – Simplified, published in 2009; eric@bethesignal.com.