KR100845111B1 - Speed search method using magnetic flux information - Google Patents

Abstract

The present invention relates to a speed search method using magnetic flux information, comprising: (a) measuring a voltage and a current applied to the induction motor in the inverter during free run; (B) estimating a magnetic flux using the measured voltage and current, and estimating a current rotation angle from the estimated magnetic flux; (C) estimating a current speed by controlling the error between the estimated rotation angle and the actual rotation angle not to occur; (D) applying the voltage of the V / F table corresponding to the estimated speed to the induction motor, thereby re-applying power after instantaneous power failure of the inverter of the V / F control type in which the speed or position sensor is not installed. In this case, the inverter can be reconnected (synchronized) with the induction motor without generating overcurrent, and the speed of the induction motor can be estimated by measuring the voltage and current which are two measurable elements when the power is reapplied after instantaneous power failure. When the back and forth power is reapplied, the inverter and the induction motor can be synchronously connected quickly, thereby improving the work efficiency of the induction motor.

Instantaneous power failure, inverter, flux

Description

Speed search method using magnetic flux information {Speed search method using magnetic flux information}

1 is a configuration diagram schematically showing a V / F control method of the PWM inverter system according to the prior art.

2 is a graph of stator voltage versus speed in V / F control of a PWM inverter system.

3 is a configuration diagram schematically illustrating a V / F control method of a PWM inverter system having a speed search unit according to the present invention.

4 is a block diagram illustrating a configuration of the speed search unit of FIG. 3.

5 is a flowchart illustrating an operation procedure of a PWM inverter system having a speed search unit according to the present invention.

<< Explanation of symbols for main part of drawing >>

1: PWM inverter device 2: Speed search part

2a: magnetic flux estimator 2b: velocity estimator

3: V / F table

The present invention relates to a speed search method using magnetic flux information.

In particular, in the inverter system for controlling the induced static electricity V / F, the present invention is to estimate the magnetic flux by measuring the stator voltage and current of the induction motor during instantaneous power failure, and to obtain the estimated angle using the estimated magnetic flux, The present invention relates to a speed search method capable of synchronously connecting an induction motor in a free-run state without generating an overcurrent of an inverter or damaging an induction motor by estimating the speed through a controller having an error with an input angle of '0'.

An inverter is a device that converts direct current into alternating current, and receives electric power supplied from a commercial power source and controls the speed of the induction motor by varying the voltage and frequency in the inverter and supplying the induction motor. Here, the inverter is capable of continuous continuous variable speed operation of the induction motor, and the induction motor control has excellent conservatism and environmental resistance, soft stop / start, low starting current, easy electric braking, high speed operation, and power saving. .

Such inverters are classified into voltage / current main circuit type and PWM / PAM switching type. Control methods include V / F control, sensorless control, and vector control.

Here, the PWM inverter converts an alternating current (commercial power supply) into a direct current, and inverts the direct current into an alternating current by switching a semiconductor element such as a transistor, and in particular, changes the frequency arbitrarily by varying the switching interval. In practice, in order to ensure sufficient torque during induction motor operation, not only the frequency but also the voltage varies according to the frequency.

Therefore, the inverter is also referred to as VVVF (Variable Voltage Variable Frequency) and can be classified into the following configurations according to each operation.

The converter section (power supply section) is composed of a three-phase full-wave rectifying circuit and a smoothing circuit. After rectifying AC, the converter is smoothed with a condenser, etc. to obtain a direct current having a small pulsation fraction. The inverter section obtains an alternating current of an arbitrary frequency by semiconductor switching such as a transistor from the direct current converted by the converter section. The control unit is composed of a calculation circuit, a detection circuit, a driving circuit, and performs the switching control of the inverter, the voltage control of the converter, the operation of various protection functions.

The inverter currently used mainly converts from the DC part of the voltage source to AC, which is excellent in controllability, and at the same time, the DC power source can be commonly used as a voltage source.

)와 현재속도(

)로 가감속율을 적절하게 제어하여 현재속도(

)에 알맞은 전압을 V/F 테이블에서 결정하여 PWM 인버터 장치에 전달한다.Referring to Figure 1, the PWM inverter system according to the prior art has a target speed (

) And current speed (

) To properly control the acceleration / deceleration rate

The appropriate voltage is determined from the V / F table and transferred to the PWM inverter device.

The PWM inverter device is configured to receive three phase power and convert it into direct current and perform IBGT control and various associations using the voltage determined from the V / F table.

The V / F control method applied to the PWM interleaver is as follows.

First, the stator voltage equation of the induction motor IM is shown in Equation 1.

가 충분히 크다면 다음의 수학식 2가 성립된다.here,

If is large enough, the following equation (2) is established.

가 된다.And if Equation 2 is established

Becomes

로 운전하게 되면 공극자속으로 일정하게 유지할 수 있다.As a result,

When driving at, it can keep constant at air gap flux.

)의 크기와 속도(

)를 동시에 제어하여 공극자속 (

)이 목표속도(

)까지 일정하도록 제어하고 그 이후에는 전압을 일정하게 제어하면서 속도(

)를 증가시키면 유도 전동기를 사용자가 원하는 대로 사용할 제어할 수 있다. 그리고, 속도(

)가 낮아져서

의 크기가 고정자 회로의 전압강하(

)에 비해 비슷하거나 또는 작게되면 고정자 회로에 인가되는 전압을 고려하여야 된다.However, referring to FIG. 2 showing the relationship between the magnitude and the speed of the V / F control, the stator voltage of the motor (

) Size and speed (

) By simultaneously controlling the air gap (

) Is the target speed

Control up to), after which the speed (

Increasing) allows the induction motor to be used as desired by the user. And speed (

) Is lowered

Is the magnitude of the voltage drop

If it is similar or smaller than), the voltage applied to the stator circuit should be considered.

)에 알맞은 전압으로 조정하여 운전하는 방식이다. 그러나 순시정전(Moment Power Failure) 발생후 전원이 복구되어 유도 전동기(IM)이 프리런 중에 재시동되는 경우에는 유도 전동기(IM)의 현재속도(

)를 모르기 때문에 V/F 제어를 하게 되면 현재속도(

)와 알맞지 않은 전압을 인가되게 되어 인버터에 과전류가 발생되거나 또는 유도 전동기(IM)가 소손되는 문제점을 야기할 수 있다.In general, the V / F control is performed without the speed information of the induction motor (IM) in accordance with the target speed (V / F table)

It is operated by adjusting to the proper voltage. However, if power is restored after moment power failure and the induction motor (IM) is restarted during free run, the current speed of the induction motor (IM) (

Since you don't know), if you do V / F control,

Inappropriate voltage may be applied to the inverter, which may cause an overcurrent in the inverter or burn out the induction motor IM.

The technique disclosed in the Republic of Korea Patent No. 1992-001003 (published date: December 26, 1992) proposed to solve the above problems (hereinafter referred to as 'prior art') is a method of reconnecting the inverter to the motor being driven, After the inverter controlling the motor at a constant speed is opened from the motor, a) the inverter output frequency is higher than the inertia rotation speed of the motor and the inverter output voltage is lower than the rated value of the motor to start the inverter, and b) the inverter output voltage. The frequency of the inverter is gradually decreased while c) detecting the motor drive current supplied from the inverter to the motor and the regenerative current supplied from the motor to the inverter, and d) the detected motor drive current reaches zero. When the absolute value of motor regenerative current reaches the maximum value, the inverter voltage is increased momentarily. When the absolute value of the live current reaches the maximum value, the inverter voltage is instantaneously raised to a predetermined value, and the inverter voltage is gradually increased. F) When the inverter frequency and the inverter voltage reach a predetermined ratio, the motor is controlled at a constant speed.

While the prior art has the advantage of not detecting the speed of the induction motor during synchronous injection, in order to implement this, the so-called "trial and error" method is adopted to increase the voltage f while increasing the voltage V, thereby increasing the load. Depending on the state, there is a problem that an overcurrent may occur.

An object of the present invention created to solve the above problems, in the PWM inverter system of the V / F control system, the rotation of the induction motor by detecting the voltage and current measurable in the free run state of the induction motor during instantaneous power failure The present invention provides a speed search method using magnetic flux information for estimating speed and synchronously connecting an inverter and an induction motor.

The object of the present invention includes the steps of: (a) measuring the voltage and current applied to the induction motor in the inverter during free run; (B) estimating a magnetic flux using the measured voltage and current, and estimating a current rotation angle from the estimated magnetic flux; (C) estimating a current speed by controlling the error between the estimated rotation angle and the actual rotation angle not to occur; (D) It can be achieved by the speed search method using the magnetic flux information of the V / F control type inverter comprising applying a voltage of the V / F table corresponding to the estimated speed to the induction motor.

Preferably, the estimated angle and the actual rotation angle of the step (c) of the present invention estimate the speed by passing the PI controller and LPF so that no error occurs,

Preferably, the inverter of the present invention is a PWM inverter of the V / F control method, the voltage value corresponding to the estimated speed of the step (d) is a voltage value predetermined by the V / F table.

Preferably, the steps (a) to (d) of the present invention are repeatedly performed until the speed of the induction motor reaches a target speed.

Hereinafter, the configuration of the present invention with reference to the drawings in detail.

3 is a block diagram schematically illustrating a V / F control method of a PWM inverter system having a speed search unit according to the present invention, FIG. 4 is a block diagram showing the configuration of the speed search unit in FIG. 3, and FIG. Is a flowchart showing an operation procedure of a PWM inverter system having a speed search unit.

Referring to FIGS. 3 to 5, the PWM inverter system having the speed search unit may enable the speed search unit 2 to restart without generating an overcurrent of the PWM inverter device 1 during the free run of the induction motor IM during instantaneous power failure. It is characterized by having.

In general, the PWM inverter system applied according to the present invention operates the induction motor IM by V / F control without a speed sensor or a position sensor. The PWM inverter device 1 does not control the induction motor IM due to instantaneous power interruption or other short-circuit factor (hereinafter referred to as instantaneous power interruption), and the induction motor IM is free-run. Inertial rotation).

Here, when the PWM inverter device 1 of the present invention is in a normal state, the induction motor IM is controlled as in the prior art described with reference to FIGS. 1 and 2, and a detailed description thereof will be omitted.

The speed search section 2, which is a key component of the present invention, comprises a magnetic flux estimating section 2a and a speed estimating section 2b.

)과, PWM 인버터 장치(1)에서 각 상별로 측정된 전압값(

)을 제공받아 자속을 측정한다. 그리고 전압은 PWM 인버터 장치(1)에 내부에 제공된 PT 회로를 이용하여 측정하는 것이 바람직하다.The magnetic flux estimator 2a connects the CTs of the PWM inverter device 1 and the induction motor IM to the three-phase connection cable, respectively, to measure the current value measured for each phase in the free-run state of the induction motor IM.

) And the voltage value measured for each phase in the PWM inverter device (1)

) And measure the magnetic flux. The voltage is preferably measured using a PT circuit provided inside the PWM inverter device 1.

)과 전류값(

)은 고정자 좌표계의 전압값 및 전류값과 동일하다.Where the measured voltage value (

) And current value (

) Is equal to the voltage value and current value of the stator coordinate system.

)과 전류값(

)을 이용하여 d축 및 g축 각각의 자속을 추정하며 이에 관련된 수학식은 하기와 같다.The magnetic flux estimator 2a according to the present invention measures the voltage value of the measured stator coordinate system (

) And current value (

The magnetic flux of each of the d-axis and the g-axis is estimated using the following equation.

는 정지좌표계의 총자속이고,

은 고정자 저항이다.First, the basic formula of the voltage model of the conventional induction motor (IM) is shown in Equation 1 below. here,

Is the total flux of the static coordinate system,

Is the stator resistance.

In addition, when the magnetic flux is obtained by arranging Equation 3, Equation 4 is obtained.

In the magnetic flux estimating section 2a according to the present invention, when the magnetic flux is obtained by the equations 3 and 4, the magnetic flux value is provided to the speed estimating section 2b.

When the speed estimating unit 2b organizes the magnetic flux values provided from the magnetic flux estimating unit 2a using the trigonometric addition theorem, the current estimated angle is estimated as shown in Equation (5).

The PWM inverter system having the speed search unit estimates the magnetic flux using the current value and the voltage value measured by the magnetic flux estimator 2a, and the speed estimator 2b summarizes the estimated magnetic flux by the addition of the trigonometric function. Estimate the current estimated angle.

Then, the speed estimator 2b uses the estimated angle to go through a PI-Proportional Controller (LPF) so that an error with the angle used in the actual system does not occur (the error is zero). Pass filter) to estimate the speed.

Thereafter, the speed estimating unit 2b integrates the estimated speed again to estimate the rotation angle.

The estimated rotation speed is used for a speed controller and the rotation angle is used for a current controller. In detail, the rotation speed is provided to the V / F table 3 so that a voltage corresponding to the estimated rotation speed is applied to the induction motor IM by the PWM inverter device 1.

Reference numerals " 4 " and " 5 ", respectively, are acceleration / deceleration controllers (or acceleration / deceleration control units) and adders.

Referring to Figure 5 describes the operation procedure of the system according to the present invention.

Measuring the voltage and current of the induction motor stator (S110)

The present invention relates to a PWM inverter of the V / F control method, when the inverter and the induction motor is short-circuited by factors such as instantaneous power failure, and the induction motor is in the free run state, the power is again applied, and the overcurrent Note that it relates to how to reconnect with the induction motor without generating it.

First, the voltage and current of the induction motor stator in the free run (inertia rotation) state are measured. The reason for measuring the voltage and current of the stator is that voltage and current are easily measurable elements for estimating the change of magnetic flux in an induction motor in a free run state.

The voltage can be measured from the PWM inverter device, and the current can be measured by mounting a CT for each phase. The voltage is preferably measured using a PT circuit provided inside the PWM inverter device.

Induction Motor Speed Estimation (S130)

In order to estimate the current speed of the induction motor from the measured voltage value and the current value, the magnetic flux is estimated by using the above-described equations 3 and 4 above (S131).

When the magnetic flux is estimated, the current rotation angle is estimated using Equation 5 described above. Here, Equation 5 is summarized using Equation 4 of the trigonometric addition.

Then, the speed is estimated by passing through a low pass filter (LPF) through the PI controller so that an error between the estimated angle (the current rotation angle is estimated) and the actual rotation angle does not occur.

Applying a voltage corresponding to the estimated speed to the induction motor (S150)

In the V / F control method, a predetermined voltage is selected according to the speed. In the present invention, when the speed is estimated, a voltage predetermined by the V / F table is applied to the induction motor through the inverter.

As a result, when a voltage corresponding to the estimated speed is applied to the induction motor, the induction motor is not the target speed but the desired voltage is applied under the current conditions so that the overcurrent of the inverter according to the prior art is not generated.

And this operation procedure can be implemented once but in practice it is repeatedly performed until the estimated speed is equal to the target speed of the induction motor. Finally, the estimation method of the present invention ends if the estimated speed and the target speed are the same or within a tolerance range.

As a result, the estimation method of the present invention is executed in a state in which the inverter and the induction motor are short-circuited, and when the induction motor is normally operated, execution is stopped and the induction motor is operated by V / F control.

Although the present invention described above is limited to the above-described embodiments, the present invention is not limited thereto, and the present invention may be easily modified by those skilled in the art. It is obvious that it belongs to the technical idea of the.

The present invention having the above configuration has the following effects.

First, the present invention can reconnect (synchronize) with an induction motor without generating an overcurrent of the inverter when the power is reapplied after instantaneous power failure of the V / F control type inverter in which no speed or position sensor is installed.

Secondly, the present invention can estimate the speed of an induction motor by measuring voltage and current which are two measurable elements when power is reapplied after instantaneous power failure.

Third, the present invention can quickly synchronize the inverter and the induction motor when the power is reapplied after instantaneous power failure, thereby improving the work efficiency of the induction motor.

Claims (4)

(A) measuring the voltage and current applied to the induction motor in the inverter during free run; (B) estimating a magnetic flux using the measured voltage and current, and estimating a current rotation angle from the estimated magnetic flux; (C) estimating a current speed by passing the PI controller and the LPF so that an error between the estimated rotation angle and the actual rotation angle does not occur; (D) a speed search method using magnetic flux information of a V / F controlled inverter including applying a voltage of a V / F table corresponding to the estimated speed to the induction motor. delete The method of claim 1, The inverter is a PWM inverter of the V / F control method, And a voltage value corresponding to the estimated rotation speed of step (d) is a voltage value predetermined by a V / F table. The method of claim 1, Step (a) to (d) is a speed search method using the magnetic flux information, characterized in that is repeatedly performed until the speed of the induction motor reaches a target speed.

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