ROTARY SPEED DETECTOR

Abstract

A rotary speed detector includes a rotating angle sensor for outputting digital signals which constitute rotating angle data of a rotating member, an angle variation calculator for calculating an angle variation with respect to a predetermined interval of time and a revolving speed calculator for calculating rotary speeds from the angle variation.

Description

FIELD OF THE INVENTION

[0001] The present invention relates to a rotary speed detector and, in particular, to a rotary speed detector which calculates revolutions per minute (rpm) of an electric motor of a vehicle.

BACKGROUND OF THE INVENTION

[0002] A conventional rotary speed detector includes a resolver, a transforming means, a measuring means and a calculating means. The resolver is fixed to an output shaft of an electric motor and outputs analog signals which represent rotational angle data of the shaft, that is, data pertaining to the degree of rotation with respect to a known baseline. The transforming means transforms the analog signals into angle pulse signals. The angle pulse signal is equal to or occurs at some fraction of a revolution. For example, the angle pulse signal provides that one cycle should be equal to one-quarter revolution of the shaft. The measuring means measures each output cycle, from the start of an angle pulse signal until the end of the angle pulse signal. The calculating means calculates the revolving speed of the electric motor from the cycle period.

[0003] However, in using the detector described above, as the speed of the electric motor becomes lower, the measuring period for each cycle becomes longer. Therefore, calculating the rotary speed requires a long time, when the revolutions per minute (rpm) of the electric motor are low.

[0004] In addition, the measuring means further includes a counting pulse source for measuring the cycle period. The counting pulse source outputs counting pulses at regular intervals. The output of the counting pulses is without regard to the angle pulse signals. As a result, the accuracy of the measuring cycle period is not constant between a low revolving speed and a high revolving speed.

SUMMARY OF THE INVENTION

[0005] The present invention provides a rotary speed detector without the foregoing drawbacks.

[0006] In accordance with the present invention, a rotary speed detector comprise a rotating angle sensor outputting digital signals which constitute rotating angle data of a rotary member, an angle variation calculating means for calculating an angle variation with respect to a predetermined interval of time and a rotary speed calculating means for calculating rotary speeds from the angle variation.

BRIEF DESCRIPTION OF THE DRAWING FIGURES

[0007] The foregoing and additional features of the present invention will become more apparent from the following detailed description of a preferred embodiment thereof when considered with reference to the attached drawings, in which:

[0008] FIG. 1 is a block diagram showing an embodiment of a rotary speed detector in accordance with the prevent invention; and

[0009] FIGS. 2 is a diagram showing the relation between angle variations (Δ A) and revolutions per second (N) in accordance with the prevent invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0010] A rotary speed detector in accordance with a preferred embodiment of the present invention will be described with reference to the attached drawings.

[0011] As shown in FIG. 1, the rotary speed detector 10 detects the rotating speed of an electric motor M which drives a wheel of a vehicle (not shown). The rotary speed detector 10 includes a rotating angle sensor 11, a gate array (G/A) 12 which constitutes an angle variation calculating means and a central processing unit (CPU) 13 which constitutes a rotary speed calculating means. The rotating angle sensor 11 has a conventional resolver 11a and a resolver/digital (R/D) converter llb. The R/D converter 11b converts analog signals which are output by the resolver 1la into 12 bit digital signals. The digital signals which are output by the R/D converter 1lb are rotating angle data A of the electric motor M. Every 90 degree revolution of the electric motor M contains variables ranging (point-by-point, sequentially) from 0 to 4095, which are the base for the rotating angle data A.

[0012] The G/A 12 latches the rotating angle data A which are output by the rotating angle sensor 11 at 250 μs (microsecond) intervals. In detail, the G/A 12 includes latch portions 12a and 12b, a angle variation calculating portion 12c and a buffer 12d. The G/A 12 latches the present rotating angle data A(n) at the latch portion 12a and the last rotating angle data A(n−1) at the latch portion 12b. The angle variation calculating portion 12c calculates an amount of an angle variation Δ A. The angle variation Δ A is obtained by subtracting the present rotating angle data A(n) from the last rotating angle data A(n−1). The buffer 12 is a four-layer type of buffer such that the buffer hangs four angle variations Δ A(n), Δ A(n−1), Δ A(n−2) and Δ A(n−3) in order.

[0013] A set of four angle variations Δ A(n), Δ A(n−1), Δ A(n−2) and Δ A(n−3) transfers from the buffer 12d to CPU 13 at 1 ms (millisecond) intervals. The CPU 13 hangs four sets of four angle variations from Δ A(n) to Δ A(n−15) in order. The CPU 13 calculates the sum total sixteen angle variations from Δ A(n) to Δ A(n−15) at 4 ms (millisecond) intervals.

[0014] Further, the CPU 13 calculates revolutions per minute N (rpm) by the formula below.

N =(the sum total sixteen angle variations÷4096×4)×(60000÷4)

[0015] A(n) to Δ A(n−15) in order. The CPU 13 calculates the sum total sixteen angle variations from Δ A(n) to Δ A(n−15) at 4 ms (millisecond) intervals.

[0016] Further, the CPU 13 calculates revolutions per minute N (rpm) by the formula below.

N =(the sum total sixteen angle variations÷4096×4)×(60000÷4)

[0017] In this embodiment, as shown in FIG. 2, the relation between the angle variation Δ A and the revolutions per minute N is a direct proportion. Therefore, it is possible to calculate the revolutions per minute N quickly. In addition, the accuracy of the calculation is constant whether the motor M is operating at a low rotating speed or a high rotating speed.

[0018] While the preferred embodiments have been described, variations thereto will occur to those skilled in the art within the scope of the present inventive concepts which are delineated by the following claims.

Claims

1. A rotary evolving speed detector comprising: a rotary angle sensor for outputting digital signals which comprise rotating angle data of a rotating member; an angle variation calculating means for calculating an angle variation with respect to a predetermined interval of time; and a rotary speed calculating means for calculating rotary speeds from the angle variation.

2. A rotary speed detector in claim 1, wherein the angle variation calculating means latches the digital signal at predetermined intervals and compares a last previous latched digital signal with a present latched digital signal.