Claims
- 1. A method for slimming read signals received from a read/write head of a rotating disk data storage device comprising the steps of:
- filtering said read signal into low frequency components extending from a first frequency to a second frequency and high frequency components extending from a third frequency to a fourth frequency, so that said low frequency filtered signal and said high frequency filtered signal have common frequencies, and so that said second frequency is higher than said first frequency, said fourth frequency is higher than said third frequency, said second frequency is higher than said third frequency, and said second frequency corresponds to a desired noise cut-off frequency;
- amplifying said low frequency components by an amount selected in accordance with a preselected criterion to generate a low frequency amplified signal having a desired characteristic between said first frequency and said third frequency and between said second frequency and said fourth frequency;
- amplifying said high frequency components by an amount selected in accordance with a preselected criterion to generate a high frequency amplified signal having an enhanced characteristic between said third frequency and said second frequency; and
- adding said amplified components to provide a slimmed read signal.
- 2. The method of claim 1 including the step of further low-pass filtering the slimmed head signal.
- 3. A circuit for slimming read signals received from a read/write head of a rotating disk data storage device comprising:
- first means for filtering said read signal into low frequency components extending from a first frequency to a second frequency;
- second means for filtering said read signal into high frequency components extending from a third frequency to a fourth frequency;
- wherein said first and second means for filtering pass at least one common frequency of said signal, and wherein said second frequency is higher than said first frequency, said fourth frequency is higher than said third frequency, said second frequency is higher than said third frequency, and said second frequency corresponds to a desired noise cut-off frequency;
- first means for variably amplifying by an amount selected in accordance with a preselected criterion for generating a high frequency amplified signal having an enhanced characteristic between said third frequency and said second frequency, connected to the output of said first means for filtering for amplifying the output signal from said first means for filtering;
- second means for variably amplifying by an amount selected in accordance with a preselected criterion for generating a low frequency amplified signal having a desired characteristic between said first frequency and said third frequency and between said second frequency and said fourth frequency, connected to the output of said second means for filtering for amplifying the output signal form said second means for filtering; and
- means for combining, connected to receive output signals from said means for variably amplifying, for algebraically combining the output signals of said means for variably amplifying and for generating slimmed versions of said read signal.
- 4. The circuit of claim 3 wherein said first and second means for variably amplifying include a digitally programmable circuit which provides control signals for controlling the gain of each of said means for variably amplifying.
Parent Case Info
This is a continuation of application Ser. No. 07/516,307 filed Apr. 30, 1990.
US Referenced Citations (1)
Number |
Name |
Date |
Kind |
3864734 |
Gish |
Feb 1975 |
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Continuations (1)
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Number |
Date |
Country |
Parent |
516307 |
Apr 1990 |
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