Step motor drive circuit and analog electronic timepiece
First Claim
1. A step motor drive circuit comprising:
- a first transistor pair comprised of a first transistor and a second transistor;
a second transistor pair comprised of a third transistor and a fourth transistor;
a fifth transistor connected in parallel with the first transistor;
a sixth transistor connected in parallel with the third transistor;
output terminals for connection to respective drive terminals of a step motor to supply signals to the step motor in a state of rotating the step motor and in a state of braking the step motor; and
driving means for rotating the step motor in a predetermined direction by supplying an alternating signal to the step motor by alternately driving the first transistor pair and the second transistor pair to an ON state in a state of rotating the step motor and driving the drive terminals of the step motor to a same level by driving the first and the third transistors to an ON state and driving the second and the fourth transistors to an OFF state in the state of braking the step motor;
wherein the driving means drives the fifth transistor to an ON state when the first transistor is driven to the ON state in the state of rotating the step motor, drives the fifth transistor to an OFF state when the first transistor is driven to the ON state in the state of braking the step motor, drives the sixth transistor to an ON state when the third transistor is driven to the ON state in the state of rotating the step motor, and drives the sixth transistor to an OFF state when the third transistor is driven to an ON state in the state of braking the step motor; and
wherein when driven to the OFF state in the state of braking the step motor, the fifth transistor and the sixth transistor function as protecting transistors that protect the first, second, third and fourth transistors from static electricity generated during operation of the step motor drive circuit.
1 Assignment
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Accused Products
Abstract
A step motor drive circuit has a first transistor pair having first and transistors, a second transistor pair having third and fourth transistors, and fifth and sixth transistors connected in parallel with the first and third transistors, respectively. A driving circuit alternately drives the first transistor pair and the second transistor pair to an ON state in a state of rotating the motor (first stated), and shortcircuits drive terminals of the motor by driving the first and third transistors to an ON state and driving the second and the fourth transistors to an OFF state in a state of braking the motor (second state). The driving circuit drives the fifth transistor to an ON state when the first transistor is driven to the ON state in the second state of the motor, drives the sixth transistor to an ON state when the third transistor is driven to the ON state in the first state of the motor, and drives the sixth transistor to an OFF state when the third transistor is driven to an ON state in the second state of the motor. The fifth transistor and the sixth transistor function as protecting transistors that protect the first to fourth transistors by increasing the electrostatic resistance thereof.
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Citations
20 Claims
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1. A step motor drive circuit comprising:
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a first transistor pair comprised of a first transistor and a second transistor; a second transistor pair comprised of a third transistor and a fourth transistor; a fifth transistor connected in parallel with the first transistor; a sixth transistor connected in parallel with the third transistor; output terminals for connection to respective drive terminals of a step motor to supply signals to the step motor in a state of rotating the step motor and in a state of braking the step motor; and driving means for rotating the step motor in a predetermined direction by supplying an alternating signal to the step motor by alternately driving the first transistor pair and the second transistor pair to an ON state in a state of rotating the step motor and driving the drive terminals of the step motor to a same level by driving the first and the third transistors to an ON state and driving the second and the fourth transistors to an OFF state in the state of braking the step motor; wherein the driving means drives the fifth transistor to an ON state when the first transistor is driven to the ON state in the state of rotating the step motor, drives the fifth transistor to an OFF state when the first transistor is driven to the ON state in the state of braking the step motor, drives the sixth transistor to an ON state when the third transistor is driven to the ON state in the state of rotating the step motor, and drives the sixth transistor to an OFF state when the third transistor is driven to an ON state in the state of braking the step motor; and wherein when driven to the OFF state in the state of braking the step motor, the fifth transistor and the sixth transistor function as protecting transistors that protect the first, second, third and fourth transistors from static electricity generated during operation of the step motor drive circuit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 10)
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9. A step motor drive circuit comprising:
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a first transistor pair comprised of a first transistor and a second transistor; a second transistor pair comprised of a third transistor and a fourth transistor; a fifth transistor connected in parallel with and having an area larger than the first transistor; a sixth transistor connected in parallel with and having an area larger than the third transistor; a pair of output terminals for connection to respective drive terminals of a step motor to supply signals to the step motor in a state of rotating the step motor and in a state of braking the step motor; and driving means for rotating the step motor in a predetermined direction by supplying an alternating signal to the step motor by alternately driving the first transistor pair and the second transistor pair to an ON state in a state of rotating the step motor and driving the drive terminals of the step motor to a same level by driving the first and the third transistors to an ON state and driving the second and the fourth transistors to an OFF state in the state of braking the step motor; wherein the driving means drives the fifth transistor to an ON state when the first transistor is driven to the ON state in the state of rotating the step motor, drives the fifth transistor to an OFF state when the first transistor is driven to the ON state in the state of braking the step motor, drives the sixth transistor to an ON state when the third transistor is driven to the ON state in the state of rotating the step motor, and drives the sixth transistor to an OFF state when the third transistor is driven to an ON state in the state of braking the step motor.
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11. A step motor drive circuit comprising:
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a semiconductor integrated circuit comprised of a first transistor pair having a first transistor and a second transistor, a second transistor pair having a third transistor and a fourth transistor, a fifth transistor connected in parallel with the first transistor, a sixth transistor connected in parallel with the third transistor, and output terminals for connection to respective drive terminals of a step motor to supply signals to the step motor in a state of rotating the step motor and in a state of braking the step motor; and driving means for alternately driving the first transistor pair and the second transistor pair to an ON state in the state of rotating the step motor, shortcircuiting the drive terminals of the step motor by driving the first and the third transistors to an ON state and driving the second and the fourth transistors to an OFF state in the state of braking the step motor, driving the fifth transistor to an ON state when the first transistor is driven to the ON state in the state of rotating the step motor, driving the fifth transistor to an OFF state when the first transistor is driven to the ON state in the state of braking the step motor, driving the sixth transistor to an ON state when the third transistor is driven to the ON state in the state of rotating the step motor, and driving the sixth transistor to an OFF state when the third transistor is driven to an ON state in the state of braking the step motor, the fifth transistor and the sixth transistor functioning as protecting transistors that protect the first, second, third and fourth transistors by increasing the electrostatic resistance thereof. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
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Specification