Data frequency modulator with deviation control
First Claim
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1. An automatic deviation control circuit for an angle modulated data transmitter employing a radio carrier comprising:
- means for angle modulating a precursor of the radio crrier to a deviation value having a proportionality to a data input level derived from at least one data bit;
means for indicating a first difference between said carrier precursor deviation value and a predetermined positive deviation value when a data bit is at a first binary level, and for indicating a second difference between said carrier precursor deviation value and a predetermined negative deviation value when a data bit is at a second binary level;
means for detecting a predtermined non-unity number of consecutive like-level data bits;
means for sampling said first difference when said predetermined number of consecutive data bits of said first binary level is detected and for sampling said second difference when said predetermined number of consecutive data bits of said second binary level is detected; and
means for varying said proportionality of said radio carrier precursor deviation value to said data input level in accordance with said first and second difference samples, thereby controlling the deviation of the angle modulated transmitter.
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Abstract
An automatic deviation control circuit for an angle modulated data transmitter is disclosed wherein the deviation level of modulated data is controlled by a modulation cancelling deviation error detection feedback loop. After the modulation is cancelled from a sample of modulated carrier by a predetermined value of deviation, residual modulation is detected, sampled following a predetermined number of like-level data bits, and applied to the modulation path gain to increase or decrease the deviation such that the residual modulation is minimized.
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Citations
11 Claims
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1. An automatic deviation control circuit for an angle modulated data transmitter employing a radio carrier comprising:
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means for angle modulating a precursor of the radio crrier to a deviation value having a proportionality to a data input level derived from at least one data bit; means for indicating a first difference between said carrier precursor deviation value and a predetermined positive deviation value when a data bit is at a first binary level, and for indicating a second difference between said carrier precursor deviation value and a predetermined negative deviation value when a data bit is at a second binary level; means for detecting a predtermined non-unity number of consecutive like-level data bits; means for sampling said first difference when said predetermined number of consecutive data bits of said first binary level is detected and for sampling said second difference when said predetermined number of consecutive data bits of said second binary level is detected; and means for varying said proportionality of said radio carrier precursor deviation value to said data input level in accordance with said first and second difference samples, thereby controlling the deviation of the angle modulated transmitter. - View Dependent Claims (2, 3, 4, 5)
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6. An automatic deviation control circuit for an angle modulated data transmitter employing a radio carrier comprising:
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means for angle modulating a precursor of the radio carrier to a deviation value having a proportionality to a data input level derived from a sequence of data bits; means for generating a first signal corresponding to a predetermined positive deviation value when a data bit is at a first binary level and for generating a second signal corresponding to a predetermined negative deviation value when a data bit is at a second binary level; means for comparing and detecting the difference between said carrier precursor deviation value and said first generated signal, and for comparing and detecting the difference between said carrier precursor deviation value and said second generated signal; means for counting a predetermined number of consecutive like-level data bits; means for sampling and holding in a first location said detected difference between said carrier precursor deviation value and said first generated signal when said counting means counts a predetermined number of consecutive bits of said first binary level; means for sampling and holding in a second location said detected difference between said carrier precursor deviation value and said second generated signal when said counting means counts a predetermined number of consecutive bits of said second binary level; means for comparing said first and second location samples; and means for varying said proportionality of said carrier precursor deviation value to said data input level in accordance with said first and second location sample comparison thereby controlling the deviation of the angle modulated transmitter. - View Dependent Claims (7, 8)
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9. A method of controlling the deviation of an angle modulated data transmitter employing a radio carrier comprising the steps of:
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angle modulating a precursor of the radio carrier to a deviation value having a proportionality to a data input level derived from at least one data bit; indicating a first difference between said carrier precursor deviation value and a predetermined positive deviation value when a data bit is at a first binary level, and indicating a second difference between said carrier precursor deviation value and a predetermined negative deviation value when a data bit is at a second binary level; detecting a predetermined non-unity number of consecutive like-level data bits; sampling said first difference when said predetermined number of consecutive data bits of said first binary level is detected and sampling said second difference when said predetermined number of consecutive data bits of said second binary level is detected; and varying said proportionality of said radio carrier precursor deviation value to said data input level in accordance with said first and second difference samples. - View Dependent Claims (10, 11)
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Specification