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Dynamic Noise Filter
(Analog Noise Filter)
This is a digital simulation of a dynamic analog filter. It is useful for dynamically attenuating "Hiss" from old record recordings or from old magnetic tape recordings. It performs better than a fixed Low-pass filter because it only attenuates high frequencies when there is no high frequency information present above the setting of its "Noise Threshold" slider adjustment. Sometimes this technique is referred to as "single-ended noise reduction". The Dynamic Noise filter's Low-pass corner frequency is frequency modulated by a rectified envelope signal that represents the amplitude of the signal content above a particular low-pass corner. So, normally, the bandwidth of this filter is limited until some high frequency content is measured by its high frequency detector. When this occurs, the bandwidth of the filter is opened up to allow the frequency of interest to pass through. When the high frequency signal diminishes again below a threshold value, the filter closes back down to a smaller bandwidth. The user has the ability to adjust a number of parameters with this filter, including noise threshold, filter frequency, attack time (the time constant associated with the signal whose job it is to increase the Low-pass filter frequency corner), release time (the time constant associated with the signal whose job it is to decrease the Low-pass filter frequency corner after a high frequency event has ceased) and HF Gain (high frequency gain). This filter should only be used on recordings that contain little or no impulse noise, or on recordings that have already been processed through the Impulse Noise filter first to minimize unnecessary filter “breathing” effects. This Filter can be used either as a dynamic noise reduction tool or as a dynamic high frequency enhancer, or both if two are placed in cascade within the Diamond Cut Multi-Filter.
The Dynamic Noise Filter
The Dynamic Noise Filter provides the following slider controls:
Important Note:The entire frequency range of adjustment up to 19,999 Hz is only possible when utilizing a 44.1 kHz sampling rate or higher. At a 22.05 kHz sampling rate, the maximum effective frequency setting will be 10 kHz, and at an 11.025 kHz sampling rate, this value will drop to 5 kHz.
Important Note:
The controls can be adjusted "live" when the preview mode button is clicked.
Dynamic Noise Filter Operating Procedure (Tutorial)
Most of the parameter settings for this filter will vary considerably depending on the content of your particular .wav file. You will have to experiment to determine the values most to your liking. The values used below in the Procedure Example will get you started.
When the filter is operating properly, "Hiss" will be reduced, but when there is high frequency content on the recording, the filter should "open up" and pass through more "highs" to its output. If the Threshold is set too high, the filter will never open up, and the .wav file will sound "dull" although "Hiss" may be reduced. If the Threshold is set to low, the filter will always be opened up to full bandwidth, and there will be no noise reduction action. If the Attack time is set too long, there will be a delay heard before the filter changes bandwidth on musical high frequency transients such as cymbal crashes (loss of the leading-edge). If the Release time is set too long, there will be a residual "Hiss" left behind after a high frequency musical event, which will decay out, but too slowly and therefore, unnaturally.
When you determine the best setting of the controls for your particular .wav file, click Run filter. When the filter has completed its operation, the results will appear in the Destination Workspace.
Low Pass, Band Pass and High Pass IIR Filter Sub-Menu
The IIR based Low Pass, Band Pass and High Pass Filters are all in a sub-menu called “LP, BP, HP Filters”.
(Analog Noise Filter)
This is a digital simulation of a dynamic analog filter. It is useful for dynamically attenuating "Hiss" from old record recordings or from old magnetic tape recordings. It performs better than a fixed Low-pass filter because it only attenuates high frequencies when there is no high frequency information present above the setting of its "Noise Threshold" slider adjustment. Sometimes this technique is referred to as "single-ended noise reduction". The Dynamic Noise filter's Low-pass corner frequency is frequency modulated by a rectified envelope signal that represents the amplitude of the signal content above a particular low-pass corner. So, normally, the bandwidth of this filter is limited until some high frequency content is measured by its high frequency detector. When this occurs, the bandwidth of the filter is opened up to allow the frequency of interest to pass through. When the high frequency signal diminishes again below a threshold value, the filter closes back down to a smaller bandwidth. The user has the ability to adjust a number of parameters with this filter, including noise threshold, filter frequency, attack time (the time constant associated with the signal whose job it is to increase the Low-pass filter frequency corner), release time (the time constant associated with the signal whose job it is to decrease the Low-pass filter frequency corner after a high frequency event has ceased) and HF Gain (high frequency gain). This filter should only be used on recordings that contain little or no impulse noise, or on recordings that have already been processed through the Impulse Noise filter first to minimize unnecessary filter “breathing” effects. This Filter can be used either as a dynamic noise reduction tool or as a dynamic high frequency enhancer, or both if two are placed in cascade within the Diamond Cut Multi-Filter.
The Dynamic Noise Filter
The Dynamic Noise Filter provides the following slider controls:
- Noise Threshold (0 to 10,000)
- Filter Frequency (200 – 19,999 Hz)
Important Note:The entire frequency range of adjustment up to 19,999 Hz is only possible when utilizing a 44.1 kHz sampling rate or higher. At a 22.05 kHz sampling rate, the maximum effective frequency setting will be 10 kHz, and at an 11.025 kHz sampling rate, this value will drop to 5 kHz.
- Attack Time (1 to 300 mSec)
- Release Time (1 to 500 mSec)
- HF Gain
- Enhancer Mode
Important Note:
The controls can be adjusted "live" when the preview mode button is clicked.
Dynamic Noise Filter Operating Procedure (Tutorial)
Most of the parameter settings for this filter will vary considerably depending on the content of your particular .wav file. You will have to experiment to determine the values most to your liking. The values used below in the Procedure Example will get you started.
- Highlight the portion of your .wav file on which you desire to apply the Dynamic Noise Filter. (You may choose to highlight the entire file or any portion thereof.)
- Click on the "Filter Menu" with the left mouse button.
- Click on "Dynamic Noise Filter."
- Set the Noise Threshold slider all the way down; this is the minimum threshold position of the slider control.
- Set the Filter Frequency to around 1.5 kHz.
- Set the Attack Time to about 5 mSec. (Unless you are attempting to obtain some sort of special effect, the Release Time should always be set to a value greater than or equal to the Attack Time.)
- Set the Release Time to around 50 mSec.
- Set the Gain Control to - 6 dB as a starting point for noise reduction. (This control should only be set to higher positive value numbers if a "Spectral Enhancement" effect is desired and Enhancer Mode is checked.) This Gain Control will modify the "effective bandwidth" of your recording by incrementally amplifying the high end of the spectrum when there are enough “highs” present to trip the detector. This can be used for noise reduction or to increase the "presence" of a recording, or to enhance the sound of a vocalist. If greater noise reduction is desired set the gain control to higher negative values. If greater enhancement is required, set the gain control to higher positive values (when in Enhancer Mode).
- Click on "Preview".
When the filter is operating properly, "Hiss" will be reduced, but when there is high frequency content on the recording, the filter should "open up" and pass through more "highs" to its output. If the Threshold is set too high, the filter will never open up, and the .wav file will sound "dull" although "Hiss" may be reduced. If the Threshold is set to low, the filter will always be opened up to full bandwidth, and there will be no noise reduction action. If the Attack time is set too long, there will be a delay heard before the filter changes bandwidth on musical high frequency transients such as cymbal crashes (loss of the leading-edge). If the Release time is set too long, there will be a residual "Hiss" left behind after a high frequency musical event, which will decay out, but too slowly and therefore, unnaturally.
When you determine the best setting of the controls for your particular .wav file, click Run filter. When the filter has completed its operation, the results will appear in the Destination Workspace.
Low Pass, Band Pass and High Pass IIR Filter Sub-Menu
The IIR based Low Pass, Band Pass and High Pass Filters are all in a sub-menu called “LP, BP, HP Filters”.