CN1514207A - Magnetic photoelectric encoder used for servo system - Google Patents

Abstract

A coder comprises absolute coder of photoelectric type, DSP processor, power supply of controller as well as up-down counter, magnetic transducing unit, cell, diode one and diode two. The negative electrode of diode one is connected to negative electrode of diode two as positive electrode of up-down counter is connected to positive electrode of magnetic transducing unit. The absolute coder of photoelectric type deos not work and motor rotation state detected and obtained by magnetic transducing unit is recorded into up-down counter when cell supplies the power.

Description

Be applied to the magneto-optic photoelectric coder of servo-drive system

Technical field: the present invention relates to the position of rotation scrambler, be used for the various devices that need position of rotation to detect such as motor servo system.

Background technology: absolute optical encoder is widely used in the electric servo system as the position feedback element.Its precision height, little, the good stability of inertia can directly be exported the absolute location information of digital quantity form, and be simple and convenient with being connected of control module, become the position of mainstream feedback element that the middle low power servo-drive system is used.Scrambler was not battery-powered when the servo-drive system middle controller had electricity, detected and be recorded in the not variation of duration of work motor rotor position of system controller.Because it is that battery power consumption is big that scrambler all uses same photoelectric detection mechanism, the problem of doing existence like this during by power supply or powered battery, the replacement cycle is short, often changes cumbersome.Power consumption when further analysis discovery scrambler is battery-powered, a part is used for encoder processing circuit, and another part is used for light-emitting component.The minimizing of circuit part power consumption has not had too big leeway.As for being used for the luminous electric weight of light-emitting component (normally ten to hundreds of mw), if can adopt method for distinguishing to realize, just can be when powered battery light-emitting component not luminous to reduce power consumption.In fact, how accurate the position probing during powered battery does not need, say on the principle only need note the number of turns that turns over, turn to just passable.Careful positional information can be read by the photo-electric absolute encoder in the back that powers on.Be based on the recognition the position detecting mechanism in the time of to adopt easy magnetic transducing unit as powered battery.

Summary of the invention: often change the defective of battery when the powered battery because of the big need of electric quantity consumption for the scrambler that overcomes prior art, a kind of scrambler of the power consumption can reduce powered battery the time is provided.The present invention is achieved by following proposal, a kind of magneto-optic photoelectric coder that is applied to servo-drive system, it comprises photo-electric absolute encoder 1, dsp processor 2, controller power supply 5, it also comprises add subtract counter 3, magnetic transducing unit 4, battery 6, diode D1 and diode D2, the cathode output end of controller power supply 5 connects the cathode power supply end of photo-electric absolute encoder 1 and the positive pole of diode D1, the negative power supply end ground connection of controller power supply 5, the negative power supply end ground connection of photo-electric absolute encoder 1, the output port of photo-electric absolute encoder 1 connects an input port of dsp processor 2, the negative pole of diode D1 connects the negative pole of diode D2, the cathode power supply end of add subtract counter 3 and the cathode power supply end of magnetic transducing unit 4, the negative power supply end ground connection of add subtract counter 3, the output port of add subtract counter 3 connects another input port of dsp processor 2, the negative power supply end ground connection of magnetic transducing unit 4, the output port of magnetic transducing unit 4 connects the input port of add subtract counter 3, the positive pole of diode D2 connects the positive pole of battery 6, the minus earth of battery 6.During the power supply of controller power supply, the photo-electric absolute encoder is powered by power supply; Because supply voltage is higher than cell voltage, add subtract counter and magnetic transducing unit are powered by power supply by diode D1, and battery is not worked.The count value that dsp processor is read add subtract counter is to determine the rotation situation of motor during the powered battery, subsequently with the add subtract counter zero clearing.During powered battery, add subtract counter and magnetic transducing unit are battery-powered by diode D2, and the photo-electric absolute encoder is not worked, and has realized the energy consumption reduction.The magnetic transducing unit detects the motor rotation situation that obtains and is recorded in the add subtract counter.Benefit with the magnetic transducing unit is that permanent magnet need not be switched on, and because the function that need realize is simple, and circuit structure is also simple accordingly, so power consumption is less, obtain significant prolongation the service time of battery, thereby do not need frequent replacing.That the present invention has is reasonable in design, reliable operation and the wide advantage of applicability.

Description of drawings: Fig. 1 is a structural representation of the present invention, Fig. 2 structural representation that to be magnetic transducing of the present invention unit be connected with dsp processor with add subtract counter, Fig. 3 is waveform, the phase correlation synoptic diagram of the voltage signal of magnetosensitive chip 4-1 and magnetosensitive chip 4-2 output.

Embodiment: specify the present invention below in conjunction with Fig. 1 and Fig. 2.It is by photo-electric absolute encoder 1, dsp processor 2, controller power supply 5, add subtract counter 3, magnetic transducing unit 4, battery 6, diode D1 and diode D2 form, the cathode output end of controller power supply 5 connects the cathode power supply end of photo-electric absolute encoder 1 and the positive pole of diode D1, the negative power supply end ground connection of controller power supply 5, the negative power supply end ground connection of photo-electric absolute encoder 1, the output port of photo-electric absolute encoder 1 connects an input port of dsp processor 2, the negative pole of diode D1 connects the negative pole of diode D2, the cathode power supply end of add subtract counter 3 and the cathode power supply end of magnetic transducing unit 4, the negative power supply end ground connection of add subtract counter 3, the output port of add subtract counter 3 connects another input port of dsp processor 2, the negative power supply end ground connection of magnetic transducing unit 4, the output port of magnetic transducing unit 4 connects the input port of add subtract counter 3, the positive pole of diode D2 connects the positive pole of battery 6, the minus earth of battery 6.Magnetic transducing unit 4 is by magnetosensitive chip 4-1, magnetosensitive chip 4-2, signal amplification circuit 4-3, voltage zero-cross comparator circuit 4-4, sense of rotation decision circuit 4-5 and permanent magnet 4-6 form, be polarized to four utmost points facing each other on the wheel rim of discoidal permanent magnet 4-6, the complete cycle of permanent magnet 4-6 is defined as 720 degree electrical angles, it is 180 degree electrical angles that permanent magnet 4-6 goes up between the adjacent N utmost point and the S utmost point, permanent magnet 4-6 is fixed on the motor shaft 7 of servo-drive system and with motor coaxle and rotates, magnetosensitive chip 4-1 is arranged on the position relative with the wheel rim of permanent magnet 4-6 with magnetosensitive chip 4-2, the installation site of magnetosensitive chip 4-1 and magnetosensitive chip 4-2 differs 45 degree electrical angles on the circumference of permanent magnet 4-6, the output terminal of magnetosensitive chip 4-1 connects the input end of signal amplification circuit 4-3, the output terminal of magnetosensitive chip 4-2 connects another input end of signal amplification circuit 4-3, the output terminal of signal amplification circuit 4-3 connects the input end of voltage zero-cross comparator circuit 4-4, another output terminal of signal amplification circuit 4-3 connects another input end of voltage zero-cross comparator circuit 4-4, output terminal of voltage zero-cross comparator circuit 4-4 connects the input end of sense of rotation decision circuit 4-5 and an input end of add subtract counter 3, another output terminal of voltage zero-cross comparator circuit 4-4 connects another input end of sense of rotation decision circuit 4-5 and another input end of add subtract counter 3, the output terminal of sense of rotation decision circuit 4-5 connects another input end of add subtract counter 3, and another output terminal of sense of rotation decision circuit 4-5 connects an input end of dsp processor 2.As shown in Figure 3, by magnetosensitive chip 4-1 and the detected voltage signal of 4-2 were carried out zero balancing, can determine the rotation direction and the revolution of motor shaft.The model of magnetosensitive chip 4-1 and 4-2 is all HMC1501 or HMC1512.

Claims (2)

1, a kind of magneto-optic photoelectric coder that is applied to servo-drive system, it comprises photo-electric absolute encoder (1), dsp processor (2), controller power supply (5), it is characterized in that it also comprises add subtract counter (3), magnetic transducing unit (4), battery (6), diode (D1) and diode (D2), the cathode output end of controller power supply (5) connects the cathode power supply end of photo-electric absolute encoder (1) and the positive pole of diode (D1), the negative power supply end ground connection of controller power supply (5), the negative power supply end ground connection of photo-electric absolute encoder (1), the output port of photo-electric absolute encoder (1) connects an input port of dsp processor (2), the negative pole of diode (D1) connects the negative pole of diode (D2), the cathode power supply end of the cathode power supply end of add subtract counter (3) and magnetic transducing unit (4), the negative power supply end ground connection of add subtract counter (3), the output port of add subtract counter (3) connects another input port of dsp processor (2), the negative power supply end ground connection of magnetic transducing unit (4), the output port of magnetic transducing unit (4) connects the input port of add subtract counter (3), the positive pole of diode (D2) connects the positive pole of battery (6), the minus earth of battery (6).

2, the magneto-optic photoelectric coder that is applied to servo-drive system according to claim 1, it is characterized in that magnetic transducing unit (4) is by magnetosensitive chip (4-1), magnetosensitive chip (4-2), signal amplification circuit (4-3), voltage zero-cross comparator circuit (4-4), sense of rotation decision circuit (4-5) and permanent magnet (4-6) are formed, be polarized to four utmost points facing each other on the wheel rim of discoidal permanent magnet (4-6), the complete cycle of permanent magnet (4-6) is defined as 720 degree electrical angles, it is 180 degree electrical angles that permanent magnet (4-6) is gone up between the adjacent N utmost point and the S utmost point, the motor shaft (7) that permanent magnet (4-6) is fixed on servo-drive system upward and with motor coaxle rotates, magnetosensitive chip (4-1) and magnetosensitive chip (4-2) are arranged on the relative position of wheel rim with permanent magnet (4-6), magnetosensitive chip (4-1) differs 45 degree electrical angles with the installation site of magnetosensitive chip (4-2) on the circumference of permanent magnet (4-6), the output terminal of magnetosensitive chip (4-1) connects an input end of signal amplification circuit (4-3), the output terminal of magnetosensitive chip (4-2) connects another input end of signal amplification circuit (4-3), an output terminal of signal amplification circuit (4-3) connects an input end of voltage zero-cross comparator circuit (4-4), another output terminal of signal amplification circuit (4-3) connects another input end of voltage zero-cross comparator circuit (4-4), output terminal of voltage zero-cross comparator circuit (4-4) connects an input end of sense of rotation decision circuit (4-5) and an input end of add subtract counter (3), another output terminal of voltage zero-cross comparator circuit (4-4) connects another input end of sense of rotation decision circuit (4-5) and another input end of add subtract counter (3), an output terminal of sense of rotation decision circuit (4-5) connects another input end of add subtract counter (3), and another output terminal of sense of rotation decision circuit (4-5) connects an input end of dsp processor (2).

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