CN204304750U - Brushless DC motor without position sensor - Google Patents

Abstract

The utility model relates to motor technology, specifically a kind of brushless DC motor without position sensor is disclosed, one end of its each motor lead-out wire is fixed on the extraction contact pin of motor three-phase windings by back panel wiring terminal, and the other end of each motor lead-out wire is connected on master control borad by external cabling terminal; Comprise counter electromotive force detection circuit in the control circuit of master control borad, start commutation logic circuit and drive circuit, wherein: counter electromotive force detection circuit detects from motor coil and exports back-emf signal; Start commutation logic circuit and export sign electric motor starting or commutate order and the control signal of time according to this back-emf signal; Drive circuit generates in order to actuating motor or the drive singal making motor commutation according to this control signal.The utility model can improve the reliability that lead-out wire connects, and improves the combination property of master control borad control circuit.

Description

Brushless DC motor without position sensor

Technical field

The utility model relates to motor technology, particularly relates to a kind of brushless DC motor without position sensor.

Background technology

Brshless DC motor is the one of synchronous machine, have volume little, lightweight, easy to maintenance, energy-efficient, be easy to the advantages such as control, be widely used in every field, synchronous machine is added that electronic type controls (driver) by it, the frequency of stator rotating magnetic field is controlled by it, and the back coupling of the rotating speed of rotor is corrected, to reaching the mode close to direct current machine characteristic repeatedly to control centre.Most of brshless DC motor uses hall effect sensor to measure the position of rotor, but the assembly cost of hall effect sensor is higher, limits the application of brshless DC motor, and this just facilitates the generation of brushless DC motor without position sensor.

Brushless DC motor without position sensor controls the commutation of motor by some replacement schemes, and common method is the electromagnetic field remeasuring motor, utilizes these information to control the commutation of motor.Most of brushless DC motor without position sensor control system uses back electromotive force zero-crossing as closed-loop control variable, and its key technology is at back-EMF determination algorithm, because the electric current reversal point of the best should slightly advanced magnetic field switching point.Brushless DC motor without position sensor is a kind of ideal chose in compact electronic product, has vast potential for future development, but its design on control circuit is comparatively complicated.

Brushless DC motor without position sensor detects back electromotive force from motor coil, contributes to the number of leads reducing electric motor and controller system, usually arranges 3 and go between.Simultaneously see Fig. 1, Fig. 2, representing the mode of connection of traditional brushless DC motor without position sensor lead-out wire, is be fixed on the motor lead-out wire syndeton of the printed circuit board (PCB) (PCB) 2 on motor stator 1 as inner connection.The external cabling terminal 5 of three phase electric machine lead-out wire 4 is connected to master control borad (scheming not shown), back panel wiring connecting terminals is connected on the pad 3 of printed circuit board (PCB) 2, this pad 3 is electrically connected on another assembly welding dish 6 of this printed circuit board (PCB) 2, to be connected to the corresponding extraction contact pin of motor three-phase windings.As can be seen from Fig. 1, Fig. 2, in tradition brushless DC motor without position sensor outgoing line connection structure, need pad 1 place of first being welded by motor lead-out wire 4 on a printed circuit, then be welded on the extraction contact pin of direct current machine three-phase windings by printed circuit board pads 6.Just there is certain defect in this: on the one hand, needs to use printed circuit board (PCB), and cost is relatively high; On the other hand, connection procedure needs secondary welding, is difficult to avoid rosin joint phenomenon completely, reduces the reliability that lead-out wire connects.

As previously mentioned, for existing brushless DC motor without position sensor, the design of its master control borad control circuit is comparatively crucial, needs the problem from considering the aspects such as signal quality, low speed starting, electric machine speed regulation performance, current limliting and protection.But prior art addresses these problems imperfectly, therefore also there is larger room for improvement in brushless DC motor without position sensor master control borad control circuit.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of brushless DC motor without position sensor, can improve the reliability that lead-out wire connects, and improve the combination property of whole motor.

For solving above technical problem, the utility model provides a kind of brushless DC motor without position sensor, one end of its each motor lead-out wire is fixed on the extraction contact pin of motor three-phase windings by back panel wiring terminal, and the other end of each motor lead-out wire is connected on master control borad by external cabling terminal; Comprise counter electromotive force detection circuit in the control circuit of master control borad, start commutation logic circuit and drive circuit, wherein: counter electromotive force detection circuit detects from motor coil and exports back-emf signal; Start commutation logic circuit and export sign electric motor starting or commutate order and the control signal of time according to this back-emf signal; Drive circuit generates in order to actuating motor or the drive singal making motor commutation according to this control signal.

More preferably, the output access ring path filter of counter electromotive force detection circuit.

More preferably, comprise comparator in control circuit, its an input access back-emf signal, another input accesses a default low level signal, output is connected to the input starting commutation logic circuit, starts commutation logic circuit in order to On/Off.

More preferably, comprise PWM speed control circuit in control circuit, its input access back-emf signal, output is connected to another input starting commutation logic circuit, and another output feeds back to counter electromotive force detection circuit, in order to regulate motor speed.

More preferably, control circuit comprises PWM Current Control monostable trigger-action circuit, and its output is connected to another input starting commutation logic circuit, in order to detect motor output current and to carry out current limliting to entering the electric current starting commutation logic circuit.

More preferably, back panel wiring terminal is fixed on the extraction contact pin of motor three-phase windings by soldering.

Compared with prior art, the utility model can improve the reliability that brushless DC motor without position sensor lead-out wire connects, and improves the combination property of master control borad control circuit, specifically:

On the one hand, the utility model proposes the renovation technique of brushless DC motor without position sensor internal connection line, it, by the combination of motor lead-out wire and back panel wiring terminal, is fixed on the extraction contact pin of brshless DC motor three-phase windings by scolding tin.Owing to not needing printed circuit, contribute to reducing material cost; Meanwhile, owing to only need once weld, decrease the possibility that rosin joint occurs, greatly strengthen the connection reliability of motor lead-out wire.

On the other hand; the master control borad control circuit of the utility model to position sensor brushless DC motor is optimized design; the circuit output signal quality of its preferred embodiment is better; can dynamically adjusting rotary speed and electric current; improve electric machine speed regulation performance and low speed starting problem; and there is current limliting and protective effect preferably, make the combination property of whole motor be improved thus.

The utility model has the advantages such as design is ingenious, structure simple, function admirable, and thus application prospect is better.

Accompanying drawing explanation

Fig. 1 is the Installation Example schematic diagram of traditional brushless DC motor without position sensor outgoing line connection structure;

Fig. 2 is the schematic diagram after removing motor stator in Fig. 1;

Fig. 3 is the Installation Example schematic diagram of the utility model brushless DC motor without position sensor outgoing line connection structure;

Fig. 4 is the schematic diagram after removing motor stator in Fig. 3;

Fig. 5 is the control circuit electrical schematic diagram of the utility model brushless DC motor without position sensor.

Embodiment

Following examples of the present utility model are optimized design to the motor lead-out wire syndeton of brushless DC motor without position sensor, master control borad control circuit, can improve the reliability that lead-out wire connects, and improve the combination property of master control borad control circuit.

In order to make those skilled in the art understand the technical solution of the utility model better, below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Simultaneously see Fig. 3, Fig. 4, represent the Installation Example of the utility model brushless DC motor without position sensor outgoing line connection structure.This kind of motor lead-out wire syndeton relates to parts and comprises the parts such as motor lead-out wire 4, back panel wiring terminal 8, heat-shrinkable T bush other beamline assembly such as (or) bunching cards 7, wherein:: be combined with back panel wiring terminal 8 by motor lead-out wire 4, and be fixed on the extraction contact pin 9 of brushless DC motor without position sensor three-phase windings by scolding tin; Coordinate heat-shrinkable T bush 7, further fixed electrical machinery lead-out wire 4 is in the inside of brushless DC motor without position sensor.

The mode of connection of this motor lead-out wire syndeton is very convenient, it is by the combination of motor lead-out wire 4 with back panel wiring terminal 8, be fixed on the extraction contact pin 9 of motor three-phase windings by scolding tin again, just can coordinate heat-shrinkable T bush 7 that motor lead-out wire 4 is fixed on motor internal, improve operating efficiency, also contribute to improving equipment dependability, reduce production cost.

Compared with the mode using printed circuit board (PCB) to connect as motor internal with traditional brushless DC motor without position sensor lead-out wire, motor lead-out wire syndeton of the present utility model enhances the connection reliability of brshless DC motor lead-out wire, reduces material cost simultaneously.

See Fig. 5, represent a preferred embodiment of the utility model brushless DC motor without position sensor control circuit.Be provided with PWM (pulse width modulating signal) speed control circuit U1, counter electromotive force detection circuit U2, comparator U3 in the control circuit of motor master control borad, start commutation logic circuit U 4, drive circuit U5, PWM Current Control monostable trigger-action circuit U6 and protective circuit (Fig. 5 is not shown); separately add a small amount of Resistor-Capacitor Unit just can realize the control of brshless DC motor, respectively each several part is described below.

Described counter electromotive force detection circuit U2, can detect from motor coil (three-phase windings PN1 ~ PN3) and export back-emf signal; The output of this counter electromotive force detection circuit U2 can preferably access ring path filter (Fig. 5 is not shown), to improve quality of output signals.

Described starting commutation logic circuit U 4, according to this back-emf signal, exports and characterizes electric motor starting or commutate order and the control signal of time.Preferably, the commutation of commutation logic circuit 4 is started by completing after the phase-locked control of back-emf signal.

Described comparator U3, an its input access back-emf signal, low level signal VL (as 0.6V) is preset in another input access one, and output is connected to the input starting commutation logic circuit U 4, starts commutation logic circuit U 4 in order to On/Off; When motor velocity signal is lower than VL, comparator U3 opens " starting " logic circuitry portions, closes " commutation " logic circuitry portions.

Described drive circuit U5 comprises high-end gate-drive part and low side gate-drive part, can, according to control signal P1 ~ P3, N1 ~ N3 starting the output of commutation logic circuit, generate in order to actuating motor or the drive singal making motor commutation; High-end gate-drive part and low side gate-drive part can be made up of driver module respectively, also can be made up of discrete MOSFET respectively.

Described PWM speed control circuit U1, its input access back-emf signal, an output is connected to another input starting commutation logic circuit, and another output feeds back to counter electromotive force detection circuit U2, in order to regulate motor speed; This PWM speed control circuit U1 can preferably adopt two close cycles dynamic adjusting system, and it comprises two adjusters, can distinguish dynamically adjusting rotary speed and electric current.

Described PWM Current Control monostable trigger-action circuit U6, its output is connected to another input starting commutation logic circuit, in order to detect motor output current IS and to carry out current limliting to entering the electric current starting commutation logic circuit U 4; When counter electromotive force detection circuit U2 output voltage is higher than comparator negative terminal voltage, PWM Current Control monostable trigger-action circuit is triggered, and electric current is declined, until monostable electric current is reset.

Described protective circuit comprises the part such as under-voltage protection, overcurrent protection, plays safeguard protection effect to whole control circuit; When voltage lower than supply power voltage low value (as normal power supply voltage 12V, low value 8.75V) time, each driver of drive circuit U5 is all closed.

The control circuit of above-mentioned brushless DC motor without position sensor has current limliting and protective effect preferably, and also improve for electric machine speed regulation performance, and improve low speed starting problem, its structure is simple, multiple functional, improves the reliability of system.

The utility model is the advantage such as ingenious, the structure of design is simple, function admirable owing to having, and thus application prospect is better.

Below be only preferred implementation of the present utility model, it should be pointed out that above-mentioned preferred implementation should not be considered as restriction of the present utility model, protection range of the present utility model should be as the criterion with claim limited range.For those skilled in the art, not departing from spirit and scope of the present utility model, can also make some improvements and modifications, these improvements and modifications also should be considered as protection range of the present utility model.

Claims (6)

1. a brushless DC motor without position sensor, it is characterized in that, one end of each motor lead-out wire is fixed on the extraction contact pin of motor three-phase windings by back panel wiring terminal, and the other end of each motor lead-out wire is connected on master control borad by external cabling terminal; Comprise counter electromotive force detection circuit in the control circuit of master control borad, start commutation logic circuit and drive circuit, wherein: counter electromotive force detection circuit detects from motor coil and exports back-emf signal; Start commutation logic circuit and export sign electric motor starting or commutate order and the control signal of time according to this back-emf signal; Drive circuit generates in order to actuating motor or the drive singal making motor commutation according to this control signal.

2. brushless DC motor without position sensor as claimed in claim 1, is characterized in that, the output access ring path filter of counter electromotive force detection circuit.

3. brushless DC motor without position sensor as claimed in claim 1, it is characterized in that, comparator is comprised in control circuit, an its input access back-emf signal, another input accesses a default low level signal, output is connected to the input starting commutation logic circuit, starts commutation logic circuit in order to On/Off.

4. brushless DC motor without position sensor as claimed in claim 1, it is characterized in that, PWM speed control circuit is comprised in control circuit, its input access back-emf signal, output is connected to another input starting commutation logic circuit, another output feeds back to counter electromotive force detection circuit, in order to regulate motor speed.

5. brushless DC motor without position sensor as claimed in claim 1, it is characterized in that, control circuit comprises PWM Current Control monostable trigger-action circuit, its output is connected to another input starting commutation logic circuit, in order to detect motor output current and to carry out current limliting to entering the electric current starting commutation logic circuit.

6. the brushless DC motor without position sensor as described in any one of claim 1-5, is characterized in that, back panel wiring terminal is fixed on the extraction contact pin of motor three-phase windings by soldering.