CN105806200B - A kind of analytic method of encoder - Google Patents

Abstract

The invention discloses a kind of analytic methods of encoder to include：Utilize the corresponding original QEP values of the original signal of QEP circuit counting encoders；The initial position signal of encoder is obtained according to original QEP values, the sine wave signal of encoder and the cosine wave signal of encoder；Obtain comparison QEP values；Compare QEP values be original QEP values and offset and；Obtain second angle signal；The comparison position signal of encoder is obtained according to comparison QEP values, second angle signal；In one cycle, judge whether current location meets the first predetermined condition, if met, using comparison position signal as the actual position signal of the motor of encoder, if do not met, using home position signal as the actual position signal of the motor of encoder.This method can be to avoid position deviation caused by due to hardware handles are nonsynchronous.

Description

A kind of analytic method of encoder

Technical field

The present invention relates to field of computer technology, more particularly to a kind of analytic method of encoder.

Background technology

Encoder (encoder) be signal (such as bit stream) or data are worked out, be converted to can be used to communicate, transmission With the equipment of the signal form of storage.It is an important step to carry out parsing for the waveform of encoder output.

In the prior art, it is mainly sine wave and cosine according to encoder output for the analysis mode of encoder Wave, specific analysis mode are as follows：

1) output signal P1 is obtained by QEP circuit countings；

2) it by sine wave and cosine wave, calculates each sine wave period using atan2 and cosine wave period is corresponding Angle signal P2；

3) output signal P1 is added to obtain position signal P with angle signal P2, position signal P is exactly the motor of encoder Position.

It can be seen that the precision of output signal P1 and angle signal P2 determine the precision of position signal P.

Fig. 1 is the result figure that the critical point of P1 variations and the critical point of P2 variations obtain P when being the same time.Fig. 2 is P1 The critical point of the critical point of variation and P2 variations obtains the result figure of P when not being the same time.Wherein, horizontal axis indicates the time, indulges Axis indicates position.As seen from Figure 1, in the ideal case, if critical point and the angle signal P2 of output signal P1 variations The critical point of variation is the same time, then the position signal P obtained do not have burr, once but hardware handles are asynchronous, will It is not the same time to lead to the critical point for the critical point and angle signal P2 variations that output signal P1 changes, then the position letter obtained There are burrs by number P, as shown in Figure 2.If using the calculation of the prior art, cause position signal P there are burr to be because The nonsynchronous reason of hardware handles.Due to position signal P there are burr cause calculate physical location there are deviations.

It can be seen that position deviation caused by how avoiding the problem that due to hardware handles are nonsynchronous is this field Technical staff's urgent problem to be solved.

Invention content

The object of the present invention is to provide a kind of analytic methods of encoder, for avoiding due to the nonsynchronous original of hardware handles Caused by the problem of position deviation.

In order to solve the above technical problems, the present invention provides a kind of analytic method of encoder, including：

Utilize the corresponding original QEP values of the original signal of encoder described in QEP circuit countings；

It is obtained according to the original QEP values, the sine wave signal of the encoder and the cosine wave signal of the encoder The initial position signal of the encoder；

Obtain comparison QEP values；The comparison QEP values be the original QEP values and offset and；

Obtain second angle signal；Wherein, the second angle signal lags the institute of half period by atan2 function pairs The sine wave signal and cosine wave signal for stating encoder are calculated；

The comparison position signal of the encoder is obtained according to the comparison QEP values, the second angle signal；

In one cycle, judge whether current location meets the first predetermined condition, if met, by the comparison position Actual position signal of the confidence as the motor of the encoder, if do not met, using the home position signal as The actual position signal of the motor of the encoder.

Preferably, described according to the original QEP values, the cosine of the sine wave signal and the encoder of the encoder The initial position signal that wave signal obtains the encoder specifically includes：

It is worth to the first output signal using the original QEP；Wherein, P1=QEP/4*4, P1 indicate first output Signal, QEP indicate original QEP values；

The sine wave signal of the encoder is calculated using atan2 functions and the corresponding first angle of cosine wave signal is believed Number；Wherein, P2=K*atan2 (cos θ, sin θ), P2 indicate that the first angle signal, K are planning coefficient, and cos θ are cosine Wave signal, sin θ are sine wave signal；

Calculate first output signal and the first angle signal and obtain the initial position signal；Wherein, P =P1+P2, P indicate the initial position signal.

Preferably, the offset is 2；

Wherein, QEP '=QEP+2, QEP ' indicate the comparison QEP values.

Preferably, P2 '=K*atan2 (cos θ ', sin θ '), wherein P2 ' indicates that the second angle signal, cos θ ' are The corresponding cosine signal of cos θ lag half periods, sin θ ' it is that sin θ lags the corresponding sinusoidal signal of half period.

Preferably, described that the comparison position of the encoder is obtained according to the comparison QEP values, the second angle signal Signal specifically includes：

The second output signal is calculated according to the comparison QEP values；Wherein, P1 '=QEP '/4*4, P1 ' indicate described second Output signal；

Calculate second output signal and the second angle signal and obtain the comparison position signal；Wherein, P '=P1 '+P2 ', P ' indicate the comparison position signal.

Preferably, first predetermined condition is：[90°,270°].

The analytic method of encoder provided by the present invention is compared by increasing an offset for original QEP values QEP values, to obtain the second output signal；Calculate the sine wave signal and cosine wave signal pair of the encoder of lag half period The second angle signal answered obtains comparison position signal on the basis of with the second output signal and second angle signal.Due to Comparison position signal and initial position signal are only different in the place for burr occur, other place all sames, therefore, current When position signal meets the first predetermined condition, actual position signal of the comparison position signal as the motor of encoder is chosen, such as Fruit does not meet, then using home position signal as the actual position signal of the motor of encoder.This method can be to avoid due to hard Position deviation caused by the nonsynchronous reason of part processing.

Description of the drawings

In order to illustrate the embodiments of the present invention more clearly, attached drawing needed in the embodiment will be done simply below It introduces, it should be apparent that, drawings in the following description are only some embodiments of the invention, for ordinary skill people For member, without creative efforts, other drawings may also be obtained based on these drawings.

Fig. 1 is the result figure that the critical point of P1 variations and the critical point of P2 variations obtain P when being the same time；

Fig. 2 is the result figure that the critical point of P1 variations and the critical point of P2 variations obtain P when not being the same time；

Fig. 3 is a kind of flow chart of the analytic method of encoder provided by the invention；

Fig. 4 is a kind of corresponding result figure of home position signal provided by the invention；

Fig. 5 is a kind of corresponding result figure of comparison position signal provided by the invention；

Fig. 6 is the comparison diagram of a kind of home position signal provided by the invention and comparison position signal.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, rather than whole embodiments.Based on this Embodiment in invention, without making creative work, what is obtained is every other by those of ordinary skill in the art Embodiment belongs to the scope of the present invention.

Core of the invention is to provide a kind of analytic method of encoder.

In order to enable those skilled in the art to better understand the solution of the present invention, with reference to the accompanying drawings and detailed description The present invention is described in further detail.

Fig. 3 is a kind of flow chart of the analytic method of encoder provided by the invention.As shown in figure 3, the parsing of encoder Method includes：

S10：Utilize the corresponding original QEP values of the original signal of QEP circuit counting encoders.

It is same as the prior art in this step, exactly the signal of encoder output calculate using QEP circuits To original QEP values, which is corresponding with comparison QEP values hereinafter.

S11：Encoder is obtained according to original QEP values, the sine wave signal of encoder and the cosine wave signal of encoder Initial position signal.

It is same as the prior art in this step, it is to obtain the first output signal first, then obtains first angle letter again Number, the addition of the first angle signal of the first output signal is just finally obtained into home position signal.

Wherein, the first output signal is worth to by original QEP, specially：P1=QEP/4*4, P1 indicate the first output Signal, QEP indicate original QEP values.

First angle signal utilizes the sine wave signal and cosine wave signal of atan2 function calculation code devices, specially：P2 =K*atan2 (cos θ, sin θ), P2 indicate that first angle signal, K are planning coefficient.

After obtaining the first output signal and first angle signal, the two addition is just obtained into home position signal, specifically For：P=P1+P2, P indicate initial position signal.

S12：Obtain comparison QEP values；Compare QEP values be original QEP values and offset and.

In order to eliminate hardware asynchronous the problem of bringing, in the present embodiment, a comparison QEP value, the comparison is added QEP values are worth to by original QEP, and if offset is 2, comparison QEP values can be obtained by, specially： QEP '=QEP+2, QEP ' indicate comparison QEP values.

S13：Obtain second angle signal；Wherein, second angle signal lags the volume of half period by atan2 function pairs The sine wave signal and cosine wave signal of code device are calculated.

Second angle signal is corresponding with first angle signal, and second angle signal is to utilize atan2 function calculation code devices Sine wave signal and cosine wave signal, specially：P2 '=K*atan2 (cos θ ', sin θ '), wherein P2 ' indicates second jiao Signal is spent, cos θ ' are that cos θ lag the corresponding cosine signal of half period, sin θ ' it is that sin θ lag half period is corresponding just String signal.

S14：The comparison position signal of encoder is obtained according to comparison QEP values, second angle signal.

In this step, the second output signal is calculated according to comparison QEP values；Wherein, P1 ' indicates the second output signal, P1 ' =QEP '/4*4.

Comparison position signal is obtained using the second output signal and second angle signal, comparison position signal P ' is indicated, P '=P1 '+P2 '.

S15：In one cycle, judge whether current location meets the first predetermined condition, if met, enter step Otherwise S16 enters step S17；

S16：Using comparison position signal as the actual position signal of the motor of encoder.

S17：Using home position signal as the actual position signal of the motor of encoder.

Fig. 4 is a kind of corresponding result figure of home position signal provided by the invention.Fig. 5 is that one kind provided by the invention is right Result figure more corresponding than position signal.Fig. 6 is the comparison of a kind of home position signal provided by the invention and comparison position signal Figure.In. fig. 6, it can be seen that compared with sine wave, [0 °, 360 °] home position signal is in each period within each period Burr point is generated at 180 °, comparison position signal is in 0 ° of each period place's generation burr point.Therefore choosing the first predetermined condition is： [90 °, 270 °], i.e., in [90 °, 270 °] range when, take comparison position signal value as encoder motor actual bit Confidence number when in [0,90 °] and [270,360 °] range, takes the value of initial position signal as the reality of the motor of encoder Position signal.

The analytic method of encoder provided by the invention obtains comparison QEP by increasing an offset for original QEP values Value, to obtain the second output signal；The sine wave signal and cosine wave signal for calculating the encoder of lag half period correspond to Second angle signal, obtained on the basis of with the second output signal and second angle signal comparison position signal.Due to right It is only more different in the place for burr occur than position signal and initial position signal, other place all sames, therefore, in present bit When confidence number meets the first predetermined condition, actual position signal of the comparison position signal as the motor of encoder is chosen, if It does not meet, then using home position signal as the actual position signal of the motor of encoder.This method can be to avoid due to hardware Handle position deviation caused by nonsynchronous reason.

The analytic method of encoder provided by the present invention is described in detail above.Each embodiment in specification It is described by the way of progressive, each embodiment focuses on the differences from other embodiments, each embodiment Between identical similar portion just to refer each other.For the device disclosed in the embodiment, due to itself and side disclosed in embodiment Method is corresponding, so description is fairly simple, reference may be made to the description of the method.It should be pointed out that for this technology For the those of ordinary skill in field, without departing from the principle of the present invention, several improvement can also be carried out to the present invention And modification, these improvement and modification are also fallen within the protection scope of the claims of the present invention.

Professional further appreciates that, unit described in conjunction with the examples disclosed in the embodiments of the present disclosure And algorithm steps, can be realized with electronic hardware, computer software, or a combination of the two, in order to clearly demonstrate hardware and The interchangeability of software generally describes each exemplary composition and step according to function in the above description.These Function is implemented in hardware or software actually, depends on the specific application and design constraint of technical solution.Profession Technical staff can use different methods to achieve the described function each specific application, but this realization is not answered Think beyond the scope of this invention.

The step of method described in conjunction with the examples disclosed in this document or algorithm, can directly be held with hardware, processor The combination of capable software module or the two is implemented.Software module can be placed in random access memory (RAM), memory, read-only deposit Reservoir (ROM), electrically programmable ROM, electrically erasable ROM, register, hard disk, moveable magnetic disc, CD-ROM or technology In any other form of storage medium well known in field.

Claims (6)

1. a kind of analytic method of encoder, which is characterized in that including：

Utilize the corresponding original QEP values of the original signal of encoder described in QEP circuit countings；

It is obtained according to the original QEP values, the sine wave signal of the encoder and the cosine wave signal of the encoder described The initial position signal of encoder；

Obtain comparison QEP values；The comparison QEP values be the original QEP values and offset and；

Obtain second angle signal；Wherein, the second angle signal lags the volume of half period by atan2 function pairs The sine wave signal and cosine wave signal of code device are calculated；

The comparison position signal of the encoder is obtained according to the comparison QEP values, the second angle signal；

In one cycle, judge whether current location meets the first predetermined condition, if met, the comparison position is believed Number as the encoder motor actual position signal, if do not met, using the initial position signal as described in The actual position signal of the motor of encoder.

2. the analytic method of encoder according to claim 1, which is characterized in that described according to the original QEP values, institute The initial position signal that the cosine wave signal of the sine wave signal and the encoder of stating encoder obtains the encoder is specific Including：

It is worth to the first output signal using the original QEP；Wherein, P1=QEP/4*4, P1 indicate the first output letter Number, QEP indicates original QEP values；

The sine wave signal and the corresponding first angle signal of cosine wave signal of the encoder are calculated using atan2 functions；Its In, P2=K*atan2 (cos θ, sin θ), P2 indicate that the first angle signal, K are planning coefficient, and cos θ believe for cosine wave Number, sin θ is sine wave signal；

Calculate first output signal and the first angle signal and obtain the initial position signal；Wherein, P=P1 + P2, P indicate the initial position signal.

3. the analytic method of encoder according to claim 2, which is characterized in that the offset is 2；

Wherein, QEP '=QEP+2, QEP ' indicate the comparison QEP values.

4. the analytic method of encoder according to claim 3, which is characterized in that P2 '=K*atan2 (cos θ ', sin θ '), wherein P2 ' indicates that the second angle signal, cos θ ' they are that cos θ lag the corresponding cosine signal of half period, sin θ ' The corresponding sinusoidal signal of half period is lagged for sin θ.

5. the analytic method of encoder according to claim 4, which is characterized in that described according to the comparison QEP values, institute It states second angle signal and obtains the comparison position signal of the encoder and specifically include：

The second output signal is calculated according to the comparison QEP values；Wherein, P1 '=QEP '/4*4, P1 ' indicate second output Signal；

Calculate second output signal and the second angle signal and obtain the comparison position signal；Wherein, P '= P1 '+P2 ', P ' indicate the comparison position signal.

6. the analytic method of encoder according to claim 4, which is characterized in that first predetermined condition is：[90°, 270°]。