초록 ▼

A device for driving a solenoid including a power supply, a switching element connected between the power supply and the solenoid in series therewith, a current circulating diode connected in parallel to the solenoid, a current detecting circuit for detecting an actual current flowing through the so

A device for driving a solenoid including a power supply, a switching element connected between the power supply and the solenoid in series therewith, a current circulating diode connected in parallel to the solenoid, a current detecting circuit for detecting an actual current flowing through the solenoid, and a PID computing unit for computing an on-duty value and an off-duty value according to a difference between a target current and the actual current detected and for outputting the on-duty value and the off-duty value. The device further includes a PWM duty driving unit for generating a PWM duty signal according to inputting of the on-duty value and supplying the PWM duty signal to the switching element to on/off control the switching element, and a reverse voltage applying circuit capable of applying a voltage of the power supply as a reverse voltage to the solenoid according to inputting of the off-duty value when the switching element is off.

대표청구항 ▼

What is claimed is: 1. A device for driving a solenoid, comprising: a power supply; a switching element connected between said power supply and said solenoid in series therewith; a current circulating diode connected in parallel to a series circuit comprising said solenoid so that the cathode of sa

What is claimed is: 1. A device for driving a solenoid, comprising: a power supply; a switching element connected between said power supply and said solenoid in series therewith; a current circulating diode connected in parallel to a series circuit comprising said solenoid so that the cathode of said current circulating diode is connected between said switching element and said solenoid; a current detecting circuit for detecting an actual current flowing through said solenoid; PID computing means for computing an on-duty value and an off-duty value according to a difference between a target current and said actual current detected by said current detecting circuit, and outputting said on-duty value and said off-duty value; PWM duty driving means for generating a PWM duty signal according to inputting of said on-duty value and supplying said PWM duty signal to said switching element to on/off control said switching element; and a reverse voltage applying means comprising: a second switching element connected between the negative electrode of said power supply and said solenoid in series therewith; a second current circulating diode connected in parallel to a series circuit composed of said switching element and said solenoid so that the cathode of said second current circulating diode is connected between said power supply and said switching element; an absolute value calculating means for calculating the absolute values of said on-duty value and said off-duty value; an inverter for inverting the signs of said on-duty value and said off-duty value; a NAND circuit adapted to input an output from said absolute value calculating means and an output from said inverter; and a driver circuit for on/off controlling said second switching element according to an output from said NAND circuit, wherein said reverse voltage applying means is capable of applying a voltage of said power supply as a reverse voltage to said solenoid according to inputting of said off-duty value when said switching element is off. 2. A device according to claim 1, wherein said PID computing means comprises: integral term calculating means for calculating an integral term according to the difference between said target current and said actual current; and means for resetting said integral term to 0 when said actual current becomes a predetermined value or less. 3. A device according to claim 1, wherein said power supply comprises a single power supply. 4. A device for driving an electromagnetic actuator including a ringlike core member having an annular groove, an annular solenoid accommodated in said annular groove of said core member, and a ringlike armature member opposed to said core member with a given gap defined therebetween, said device comprising: a power supply; a switching element connected between said power supply and said solenoid in series therewith; a current circulating diode connected in parallel to a series circuit comprising said solenoid so that the cathode of said current circulating diode is connected between said switching element and said solenoid; a current detecting circuit for detecting an actual current flowing through said solenoid; PID computing means for computing an on-duty value and an off-duty value according to a difference between a target current and said actual current detected by said current detecting circuit, and outputting said on-duty value and said off-duty value; PWM duty driving means for generating a PWM duty signal according to inputting of said on-duty value and supplying said PWM duty signal to said switching element to on/off control said switching element; and a reverse voltage applying means comprising: a second switching element connected between the negative electrode of said power supply and said solenoid in series therewith; a second current circulating diode connected in parallel to a series circuit composed of said switching element and said solenoid so that the cathode of said second current circulating diode is connected between said power supply and said switching element; absolute value calculating means for calculating the absolute values of said on-duty value and said off-duty value; an inverter for inverting the signs of said on-duty value and said off-duty value; a NAND circuit adapted to input an output from said absolute value calculating means and an output from said inverter; and a driver circuit for on/off controlling said second switching element according to an output from said NAND circuit, wherein said reverse voltage applying means is capable of applying a voltage of said power supply as a reverse voltage to said solenoid according to inputting of said off-duty value when said switching element is off. 5. A device according to claim 4, wherein said PID computing means comprises: integral term calculating means for calculating an integral term according to the difference between said target current and said actual current; and means for resetting said integral term to 0 when said actual current becomes a predetermined value or less. 6. A device according to claim 4, wherein said power supply comprises a single power supply. 7. A control device for an electromagnetic actuator including a core member having a groove, a solenoid accommodated in said groove of said core member, and an armature member opposed to said core member with a gap defined therebetween, said control device comprising: gap detecting means for detecting said gap between said core member and said armature member; current detecting means for detecting an actual current flowing through said solenoid; a feedback controller for feedback controlling said actual current so that said actual current becomes equal to a target current; a feedforward controller for feedforward controlling said target current; and solenoid drive signal generating means for generating a solenoid drive signal according to outputs from said feedback controller and said feedforward controller; said feedback controller changing an integral term constant according to said gap detected by said gap detecting means; said feedback controller selects one of a plurality of predetermined integral term constants according to said gap detected by said gap detecting means; whereby said feedback controller selects a larger one of said integral term constants when said gap is large, and selects a smaller one of said integral term constants when said gap becomes smaller. 8. A control device according to claim 7, wherein said feedforward controller changes a transfer function and/or a gain according to said gap detected by said gap detecting means. 9. A control device according to claim 8, wherein said feedforward controller selects one of a plurality of predetermined transfer functions and/or one of a plurality of predetermined gains according to said gap detected by said gap detecting means. 10. A control device according to claim 9, wherein said feedforward controller selects a smaller one of said transfer functions and/or a smaller one of said gains when said gap is large, and selects a larger one of said transfer functions and/or a larger one of said gains when said gap becomes smaller. 11. A control device according to claim 7, wherein said gap detecting means comprises a magnetic flux sensor for detecting a magnetic flux intensity generated from said solenoid. 12. A control device according to claim 7, further comprising a target filter provided on the front stage of said feedback controller and adapted to input said target current. 13. A control device for an electromagnetic actuator including a core member having a groove, a solenoid accommodated in said groove of said core member, and an armature member opposed to said core member with a gap defined therebetween, said control device comprising: gap detecting means for detecting said gap between said core member and said armature member; current detecting means for detecting an actual current flowing through said solenoid; a feedback controller for feedback controlling said actual current so that said actual current becomes equal to a target current; a feedforward controller for feedforward controlling said target current; and solenoid drive signal generating means for generating a solenoid drive signal according to outputs from said feedback controller and said feedforward controller; said feedforward controller changing a transfer function and/or a gain according to said gap detected by said gap detecting means; said feedforward controller selects one of a plurality of predetermined transfer functions and/or one of a plurality of predetermined gains according to said gap detected by said gap detecting means, whereby said feedforward controller selects a smaller one of said transfer functions and/or a smaller one of said gains when said gap is large, and selects a larger one of said transfer functions and/or a larger one of said gains when said gap becomes smaller. 14. A control device according to claim 13, wherein said gap detecting means comprises a magnetic flux sensor for detecting a magnetic flux intensity generated from said solenoid. 15. A control device according to claim 13, further comprising a target filter provided on the front stage of said feedback controller and adapted to input said target current.