Method of computing the rotating speed of a rotating body based upon pulse train signals from a rotating speed sensor
First Claim
1. A method of computing a rotating speed of a rotating body, comprising the steps of:
- (a) successively setting up fixed speed computation reference time periods T with respect to a pulse train signal derived from a rotating speed sensor located on the rotating body wherein a time point when a last pulse edge in a previous speed computation reference time period T is detected is the time point when speed measurement starts and a time point when a last pulse edge in a correct speed computation reference time period is detected is the time point when the speed measurement is eliminated,(b) measuring time period from a last pulse edge of said pulse train signal in a previous speed computation reference time period T to a last pulse edge in a current speed computation reference time period T;
(c) counting the number of pulse edges that occur during said time period t wherein when the counted number of pulse edges in said time period t exceeds a predetermined number, pulse edge detection mode is switched from double-edge detection to single-edge detection by switching means in response thereto; and
(d) computing the rotating speed of said rotating body on the basis of the result of the time period measurement.
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Abstract
A method of computing the rotating speed of a rotating body includes the steps of setting speed computation reference time periods with respect to a pulse train signal obtained from the output of a rotating speed sensor; measuring time length from the last pulse edge in the previous speed computation reference time period to the last pulse edge in the current speed computation reference time period; and computing the rotating speed of the rotating body on the basis of the result of the time length measurement. The time point when the previous procedure of speed computation terminated corresponds to the time point when the current procedure of speed computation starts, thus making it possible to achieve continuous speed computation. In this way, an enhanced accuracy can be achieved in speed measurement for low speed range, which leads to improved control performance in anti-lock control and traction control for the low speed range.
24 Citations
4 Claims
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1. A method of computing a rotating speed of a rotating body, comprising the steps of:
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(a) successively setting up fixed speed computation reference time periods T with respect to a pulse train signal derived from a rotating speed sensor located on the rotating body wherein a time point when a last pulse edge in a previous speed computation reference time period T is detected is the time point when speed measurement starts and a time point when a last pulse edge in a correct speed computation reference time period is detected is the time point when the speed measurement is eliminated, (b) measuring time period from a last pulse edge of said pulse train signal in a previous speed computation reference time period T to a last pulse edge in a current speed computation reference time period T; (c) counting the number of pulse edges that occur during said time period t wherein when the counted number of pulse edges in said time period t exceeds a predetermined number, pulse edge detection mode is switched from double-edge detection to single-edge detection by switching means in response thereto; and (d) computing the rotating speed of said rotating body on the basis of the result of the time period measurement. - View Dependent Claims (2, 3, 4)
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Specification