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Notch Filter ? [message #46107] Sun, 02 January 2005 18:52 Go to next message
Patrick Kopson is currently offline  Patrick Kopson
Messages: 26
Registered: May 2009
Chancellor
Can someone provide a notch filter design to remove the Delta 12-LF's 4dB peak between 1.8kHz and 4.2kHz?

Even better would be (a pointer to) an explanation of how to calculate this in genral.

Thanks.

Response shaping [message #46109 is a reply to message #46107] Sun, 02 January 2005 19:35 Go to previous messageGo to next message
Wayne Parham is currently offline  Wayne Parham
Messages: 18787
Registered: January 2001
Illuminati (33rd Degree)
You might check out the π Crossover Document because it describes some circuits that might be interesting to you.

The idea of the notch filter is pretty simple, but there are a couple of ways to do it. In your case, use a parallel resonant circuit because its impedance is highest at resonance. Then you put a resistor across the resonator to limit the impedance to whatever attenuation you want. So if the load is 8 ohms and you want 6dB attenuation, you'll use an 8 ohm resistor. That sets the depth of the notch. Then to set the bandwidth of the notch, choose coil and capacitor values so their reactive impedance drops past 8 ohms at the frequencies where you want attenuation to stop.

The idea is that in the resonant range, where the impedance of the coil and capacitor are high, the resistor sets the power to the driver. At resonance, the impedance of the coil and cap approach infinity, but the resistor limits impedance to whatever value you've set it to be. Then at higher frequencies full power flows through the capacitor, and at lower frequencies full power flows through the coil.

Since you're planning to modify the response at the extreme high end, I don't think you'll need the capacitor. By the time the capacitor would be passing energy, the driver just isn't capable of making sound anymore. So I would probably forego the capacitor, and let the driver rolloff. This will make your circuit be a coil and resistor in parallel, sort of like a baffle correction circuit.

A coil and resistor connected this way will provide a shelved response, reducing output above a certain point, but not with a rolloff slope like a first-order filter. Since the voice coil of the driver itself is a coil, you will find that there are certain values of coils that will act this way, even without a resistor. Look up the "pseudo-first-order" network in the crossover document to see what I mean. A single coil of 0.5mH to 1.0mH might do what you want to do without any resistor connected across it at all.

Thank you! [message #46110 is a reply to message #46109] Mon, 03 January 2005 08:46 Go to previous message
Patrick Kopson is currently offline  Patrick Kopson
Messages: 26
Registered: May 2009
Chancellor
That is exactly the explanation and pointer I needed.

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