CN1366380A - Starter and its method - Google Patents

Abstract

A starting device and its method can be used in inductive circuit such as motor to decrease instantaneous current produced when inductive circuit being started. The starting device includes a signal generator, a comparator and a control element. The generator is electrically connected to the said inductive circuit and generates first signal caused by responding the outputted signal of the inductive circuit. The comparator is electrically connected to the signal generator, and it is used to converter the first signal to the second signal and compare the second signal with a reference signal so as to produce a control signal. The control element is electrically connected to the comparator and the inductive circuit. In responding the control signal, the control element gradually increases the current that is input into the inductive circuit so as to decrease the instantaneous current produced when inductive circuit being started.

Description

Starting drive and method

The present invention relates to a kind of starting drive and method, particularly be applied to inductive circuit, as the starting drive and the method for d.c. motor, it can reduce the immediate current that is produced when inductive circuit starts.

General motor structurally has the contact of machinery such as brush and commutator, so motor all can produce great immediate current in moment when starting, and this is because due to the poor performance of misorient and power supply of circuit layout own.And in the past in design because non-cushioned circuit in case immediate current here, so this electric current usually causes the damage of motor inside or using system.

In the mode of present head it off; some is to append protective circuits such as capacitor or rheostat in supply motor power supply part; or start with multistage or segmentation Starting mode by expensive and complicated circuit; to lower this immediate current; for example use a plurality of filters to produce pulse width modulation (pulse widthmodulation; PWM) signal; export transistor again to; duty cycle (duty cycle) by pwm signal changes; transistorized switch gap is changed thereupon; thereby the average current of motor is changed, therefore can control the rotating speed of motor by the duty cycle that changes pulse.Yet this multistage or segmentation Starting mode except cost cost height and design complexity, still can cause great noise when starting, and under repeatedly impacting, also can influence the reliability of internal electron part.

Main purpose of the present invention is to provide a kind of starting drive, is used to reduce the immediate current that is produced when inductive circuit starts.

Another object of the present invention is to provide a kind of simple, cost is low and do not influence the starting drive of internal electron Degree of Reliability, is used to eliminate the immediate current that is produced when inductive circuit starts.

This starting drive comprises a signal generator, is electrically connected on this inductive circuit, and it responds the signal that this inductive circuit exports and produces one first signal; One comparison circuit is electrically connected on this signal generator, be used for this first conversion of signals is become a secondary signal, and relatively this secondary signal and a reference signal to produce a control signal; And a control element, being electrically connected on this comparison circuit and this inductive circuit, it is used to receive this control signal, and responds this control signal and increase gradually and input to the electric current of this inductive circuit, thereby reduces the immediate current that is produced when this inductive circuit starts.

Wherein, this inductive circuit is general motor or d.c. motor.According to design of the present invention, this signal generator is a frequency generator.And this first signal is an one-period property signal or a square-wave signal, and the frequency of this square-wave signal is directly proportional with the rotating speed of motor.

In addition, this comparison circuit also comprises a signal converter, is electrically connected on this signal generator, is used for this first conversion of signals is become this secondary signal; And a comparator, be electrically connected on this signal converter, be used for relatively output one control signal after this secondary signal and this reference signal.Wherein, this signal converter is preferably a circuit for generating triangular wave, is used for converting this square-wave signal to triangular wave or sawtooth signal.Then, this comparator is done a back and export this control signal relatively with triangular wave or reference signal that sawtooth signal and charging circuit provided, and it is a pulse width modulation (PWM) signal.

In addition, starting drive of the present invention also comprises one drive circuit, is electrically connected between this inductive circuit and the signal generator, is used to drive this inductive circuit.According to design of the present invention, this control element is preferably an electronic switch, is more preferred from a transistor, is used to respond this control signal and the electric current of this inductive circuit of flowing through is increased gradually, to cut down the immediate current that is produced when inductive circuit starts.

Another object of the present invention is to provide a kind of startup method that is used to reduce the immediate current that is produced when inductive circuit starts.The step of this method comprises the signal that this inductive circuit of response is exported and produces one first signal; By a signal converter this first conversion of signals is become a secondary signal; Relatively this secondary signal and a reference signal are to produce a control signal; And respond this control signal and increase gradually and input to the electric current of this inductive circuit, thereby reduce the immediate current that is produced when this inductive circuit starts.

The present invention can be by following accompanying drawing and detailed description, more deep understanding.

Fig. 1 is an embodiment of starting drive of the present invention.

Fig. 2 shows the conversion of signal in the starting drive of the present invention and the relation between variation situation and signal and the motor rotary speed variation.

Fig. 3 is another embodiment of starting drive of the present invention.

The invention provides a kind of inductive circuit that is applied to, as the starting drive of d.c. motor, the immediate current that it is produced in the time of can reducing motor starting.With reference to Fig. 1, it shows the preferred embodiment of starting drive of the present invention, and this starting drive comprises a signal generator 12, is electrically connected on motor 11, and it responds the rotating speed of this motor and produces a square-wave signal; One comparison circuit is electrically connected on this signal generator 12, be used for converting this square-wave signal to a triangular wave or sawtooth signal, and relatively this secondary signal and a reference signal to produce a control signal; And a control element 16, be electrically connected on this comparison circuit and this motor 12, be used to receive this control signal, and respond this control signal and increase gradually and input to the electric current of motor, thereby the immediate current that is produced when reducing this motor starting.

This signal generator 12 is preferably a frequency generator, and its rotating speed according to motor produces one-period property square-wave signal, so the rotating speed of the frequency of this square-wave signal and motor is proportional.This comparison circuit also comprises a signal converter 13 and a comparator 14, this signal converter 13 is preferably a circuit for generating triangular wave, be electrically connected on this signal generator 12, be used for converting this square-wave signal to triangular wave or sawtooth signal, so as with this reference signal V _RefOr be called the desired value reference voltage and compare to produce this control signal, wherein this reference signal be by with voltage source V _CcThe charging circuit or the resistor capacitor circuit 15 that are electrically connected with comparator 14 provide.And this comparator 14 is electrically connected on this signal converter 13, is used for relatively output one control signal after this triangular wave or sawtooth signal and this reference signal.This control signal is a pulse width modulation (PWM) signal.

This control element 16 is preferably an electronic switch, be more preferred from transistor, after it receives this pulse width modulating signal, and respond this signal and the electric current of this inductive circuit of flowing through is increased gradually, thereby the immediate current that is produced when reducing this motor starting, and then the rotating speed of control motor.

For the conversion that can fully understand signal in the whole device and change situation with and and motor rotary speed between relation, with reference to Fig. 2.The FG signal that frequency generator or signal generator 12 are produced is a square-wave signal, shown in (a), its frequency is directly proportional with motor rotary speed, convert triangular wave or sawtooth waveforms to through circuit for generating triangular wave 13, shown in (b), can input to the reference voltage V that is provided with charging circuit in the comparator 14 _RefCompare, according to result relatively, the comparator output pwm signal is to transistor, shown in (c), when pulse was imported, motor began progressively to rotate, when input pulse disappeared, pulse became electronegative potential by high potential, and transistor becomes closed condition, but motor continues rotation a period of time because of having inertia, therefore by transistorized switch, control the electric current of supply motor, motor rotary speed is increased gradually, till motor turns round at full speed, shown in Fig. 2 (d).Therefore the immediate current that is produced in the time of can reducing this motor starting by this simple circuit design.

In addition, as shown in Figure 3, starting drive of the present invention also can comprise one drive circuit 17, is electrically connected between this motor and this signal generator, is used to drive this motor.

In sum, starting drive of the present invention or method be the simple and low circuit design of cost by one, when motor starting, increase the rotating speed of motor gradually, the immediate current that it is produced in the time of can effectively reducing motor starting causes damage to prevent motor inside or connected electronic circuit because of the generation of immediate current.

The present invention must be by any change and the modification that those skilled in the art made, and can not break away from the scope of claim of the present invention institute desire protection.

Claims (39)

1. starting drive, it is used to reduce the immediate current that is produced when inductive circuit starts, and it comprises:

One signal generator is electrically connected on this inductive circuit, and responds the signal that this inductive circuit exports and produce one first signal;

One comparison circuit is electrically connected on this signal generator, be used for this first conversion of signals is become a secondary signal, and relatively this secondary signal and a reference signal to produce a control signal; And

One control element is electrically connected on this comparison circuit and this inductive circuit, and it is used to receive this control signal, and responds this control signal and increase gradually and input to the electric current of this inductive circuit, thereby reduces the immediate current that is produced when this inductive circuit starts.

2. starting drive as claimed in claim 1, wherein this inductive circuit is a motor.

3. starting drive as claimed in claim 1, wherein this inductive circuit is a direct current motor.

4. as claim 2 or 3 described starting drives, wherein this signal generator is a frequency generator.

5. starting drive as claimed in claim 5, wherein this first signal is an one-period property signal.

6. starting drive as claimed in claim 5, wherein this first signal is a square-wave signal.

7. starting drive as claimed in claim 6, wherein the frequency of this square-wave signal is directly proportional with the rotating speed of motor.

8. starting drive as claimed in claim 6, wherein this comparison circuit also comprises:

One signal converter is electrically connected on this signal generator, is used for this first conversion of signals is become this secondary signal; And

One comparator is electrically connected on this signal converter, is used for relatively this control signal of output after this secondary signal and this reference signal.

9. starting drive as claimed in claim 8, wherein this signal converter is a circuit for generating triangular wave, is used for converting this square-wave signal to triangular wave or sawtooth signal.

10. starting drive as claimed in claim 1, it also comprises a charging circuit, is electrically connected on power supply and this comparator that this inductive circuit required voltage is provided, is used to provide this reference signal.

11. starting drive as claimed in claim 10, wherein this charging circuit is a resistor capacitor circuit.

12. starting drive as claimed in claim 10, wherein this reference signal is a desired value reference voltage.

13. starting drive as claimed in claim 1, wherein this control signal is a pulse width modulation (PWM) signal.

14. starting drive as claimed in claim 1, it also comprises one drive circuit, is electrically connected between this inductive circuit and this signal generator, is used to drive this inductive circuit.

15. starting drive as claimed in claim 1, wherein this control element is an electronic switch, is used to respond this control signal and the electric current of this inductive circuit of flowing through is increased gradually.

16. starting drive as claimed in claim 15, wherein this electronic switch is a transistor.

17. a starting drive, it is in order to reduce the immediate current that is produced when inductive circuit starts, and it comprises:

One signal generator is electrically connected on this inductive circuit, and responds the signal that this inductive circuit exports and produce one first signal;

One signal converter is electrically connected on this signal generator, is used for this first conversion of signals is become a secondary signal;

One comparator is electrically connected on this signal converter, is used for relatively output one control signal after this secondary signal and a reference signal; And

One control element is electrically connected on this comparator and this inductive circuit, and it is used to receive this control signal, and responds this control signal and increase gradually and input to the electric current of this inductive circuit, thereby reduces the immediate current that is produced when this inductive circuit starts.

18. starting drive as claimed in claim 17, wherein this inductive circuit is a motor.

19. starting drive as claimed in claim 17, wherein this inductive circuit is a direct current motor.

20. as claim 18 or 19 described starting drives, wherein this signal generator is a frequency generator.

21. as claim 18 or 19 described starting drives, wherein this first signal is an one-period property signal.

22. starting drive as claimed in claim 21, wherein this cyclical signal is a square-wave signal.

23. starting drive as claimed in claim 22, wherein the frequency of this square-wave signal is directly proportional with the rotating speed of motor.

24. starting drive as claimed in claim 22, wherein this signal converter is a circuit for generating triangular wave, is used for converting this square-wave signal to triangular wave or sawtooth signal.

25. starting drive as claimed in claim 17, it also comprises a charging circuit, is electrically connected on power supply and this comparator that this inductive circuit required voltage is provided, is used to provide this reference signal.

26. starting drive as claimed in claim 25, wherein this charging circuit is a resistor capacitor circuit.

27. starting drive as claimed in claim 25, wherein this reference signal is a desired value reference voltage.

28. starting drive as claimed in claim 17, wherein this control signal is a pulse width modulation (PWM) signal.

29. starting drive as claimed in claim 17, it also comprises one drive circuit, is electrically connected between this inductive circuit and this signal generator, is used to drive this inductive circuit.

30. starting drive as claimed in claim 17, wherein this control element is an electronic switch, is used to respond this control signal and the electric current of this inductive circuit of flowing through is increased gradually.

31. starting drive as claimed in claim 30, wherein this electronic switch is a transistor.

32. a startup method is used to reduce the immediate current that is produced when inductive circuit starts, the step of this method comprises:

(a) respond the signal that this inductive circuit exports and produce one first signal;

(b) by a signal converter this first conversion of signals is become a secondary signal;

(c) relatively this secondary signal and a reference signal to produce a control signal; And

(d) respond this control signal and increase gradually and input to the electric current of this inductive circuit, thereby reduce the immediate current that is produced when this inductive circuit starts.

33. startup method as claimed in claim 32, wherein this inductive circuit is a motor.

34. startup method as claimed in claim 32, wherein this inductive circuit is a direct current motor.

35. as claim 33 or 34 described startup methods, wherein this first signal is an one-period property square-wave signal.

36. startup method as claimed in claim 35, wherein the frequency of this periodic square wave signal is directly proportional with the rotating speed of motor.

37. startup method as claimed in claim 35, wherein this signal converter is a circuit for generating triangular wave, is used for converting this periodic square wave signal to triangular wave or sawtooth signal.

38. startup method as claimed in claim 35, wherein this control signal is a pulse width modulation (PWM) signal, with the rotating speed of control motor.

39. startup method as claimed in claim 35, it also comprises a step, to repeat this step (a) to (d), increases motor rotary speed gradually, till motor rotates at full speed.

Images