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Do you know the three major misunderstandings in the use of power filters?

Posted by: Yoyokuo 2022-08-18 Comments Off on Do you know the three major misunderstandings in the use of power filters?

In the process of experimental testing, we often encounter such a situation: although the design engineer has connected a power filter to the power line of the equipment, the equipment still cannot pass the “conducted disturbance voltage emission” test, and the engineer suspects that the filtering effect of the filter is not good. Well, constantly changing the filter, still can not get the desired effect.

In the process of experimental testing, we often encounter such a situation: although the design engineer has connected a power filter to the power line of the equipment, the equipment still cannot pass the “conducted disturbance voltage emission” test, and the engineer suspects that the filtering effect of the filter is not good. Well, constantly changing the filter, still can not get the desired effect.

The reasons for analyzing the equipment exceeding the standard are nothing more than the following two aspects:

1. The harassment generated by the device is too strong

2. Insufficient filtering of equipment

For the first case, we can solve it by taking measures at the source of disturbance to reduce the intensity of disturbance, or increase the order of the power filter to improve the filter’s ability to suppress disturbance. For the second case, in addition to the poor performance of the filter itself, the installation method of the filter also has a great influence on its performance. This is often overlooked by design engineers.

In many tests, we were able to get the device to pass the test by changing the way the filter was mounted. Below are some examples of the effects of common filter installation errors on filter performance.

Input cable is too long

After the power cords of many devices enter the chassis, they go through a long wire to the input of the filter. For example, the power cord enters from the rear panel of the chassis, runs to the power switch on the front panel, and then goes back to the rear panel to connect to the filter. Or the installation position of the filter is far from the inlet of the power cord, causing the lead wire to be too long (as shown in Figure 1).

Because the lead from the power inlet to the filter input is too long, the electromagnetic disturbance generated by the device is re-coupled to the power line through capacitive or inductive coupling, and the higher the frequency of the disturbance signal, the stronger the coupling, resulting in the failure of the experiment.

Do you know the three major misunderstandings in the use of power filters?

figure 1

parallel trace

In order to make the wiring inside the chassis beautiful, some engineers often bundle the cables together, which is not allowed for power cables. If the input and output lines of the power filter are routed in parallel or bundled together, due to the distributed capacitance between the parallel transmission lines, this wiring method is equivalent to connecting a capacitor in parallel between the input and output lines of the filter, which is a disturbance signal. Provides a path to bypass the filter, causing the filter to degrade significantly and even fail at very high frequencies (as shown in Figure 2).

The size of the equivalent capacitance is inversely proportional to the wire distance and proportional to the length of the parallel traces. The larger the equivalent capacitance, the greater the impact on the filter performance.

Do you know the three major misunderstandings in the use of power filters?

figure 2

Ground and Case

This situation is also relatively common. When many engineers install the filter, the connection between the filter housing and the chassis is poor (there is insulating paint); at the same time, the ground wire used is long, which will lead to the deterioration of the high-frequency characteristics of the filter and reduce the filtering performance.

Due to the long ground wire, the distributed inductance of the wire cannot be ignored at high frequencies. If the filter is well connected, the interfering signal can be directly grounded through the housing. If the connection between the filter housing and the chassis is poor, it is equivalent to a distributed capacitance between the filter housing (ground) and the chassis, which will cause the filter to have a high ground impedance at high frequencies, especially in the case of distributed inductance. Near the frequency at which the distributed capacitance resonates, the ground impedance tends to be infinite.

Do you know the three major misunderstandings in the use of power filters?

image 3

The influence of poor grounding of the filter on the performance of the filter: due to the poor grounding of the filter and the large grounding impedance, some disturbance signals can pass through the filter (as shown in Figure 3). In order to solve the poor overlap, the insulating paint on the chassis should be scraped off to ensure a good electrical connection between the filter housing and the chassis.

In this installation method, the housing of the filter is in good contact with the chassis, which can block the opening of the power cord on the chassis and improve the shielding performance of the chassis; in addition, the input and output lines of the filter are isolated by the chassis shielding. , eliminating the disturbance coupling between the input and output lines and ensuring the filtering performance of the filter.

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