Digitally programmable pulse-width modulation (PWM) converter
First Claim
1. In a pulse width modulation (PWM) system where a sensor has a full scale output, which is represented by a PWM input signal having a range of 0% to 100% duty cycles including a converter for converting said duty cycle range to a start duty cycle, P1, greater than 0% but less than a stop duty cycle, P2, less than or equal to 100%, P1 to P2 still representing said full scale output of said sensor, said converter comprising first and second clock means, said first clock means for counting the pulse widths of said PWM input signal and sensing its pulse repetition rate, said second clock means having a predetermined and higher frequency than said first clock means, the ratio of said frequencies being proportional to P2-P1.
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Abstract
A digitally programmable pulse-width-modulation (PWM) converter changes a 0% to 100% duty cycle input signal to any desired start and stop duty cycle range; for example, 5% to 95%. This is achieved by the difference in start and stop duty cycles forming a ratio which determines a pair of clock frequencies for modifying the PWM signal to provide the new start and stop duty cycle parameters.
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Citations
5 Claims
- 1. In a pulse width modulation (PWM) system where a sensor has a full scale output, which is represented by a PWM input signal having a range of 0% to 100% duty cycles including a converter for converting said duty cycle range to a start duty cycle, P1, greater than 0% but less than a stop duty cycle, P2, less than or equal to 100%, P1 to P2 still representing said full scale output of said sensor, said converter comprising first and second clock means, said first clock means for counting the pulse widths of said PWM input signal and sensing its pulse repetition rate, said second clock means having a predetermined and higher frequency than said first clock means, the ratio of said frequencies being proportional to P2-P1.
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2. A method of converting an input pulse width modulated (PWM) signal, which represents the full scale output of a sensor, such signal having a range of from 0% to 100% duty cycles, to an output PWM signal having a start duty cycle, P1, greater than 0% but less than a stop duty cycle, P2, less than or equal to 100%, P1 to P2 still representing the full scale output of said sensor comprising the following steps:
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providing a first clock frequency for counting the pulse widths of said input PWM signal and its pulse repetition rate;
providing a second clock frequency higher than said first by a ratio proportional to P2-P1 and using such second clock frequency to modify said input PWM signal to provide a full scale output from P1 to P2.
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Specification