Electronic starting circuit for an alternating current motor
First Claim
1. A starting control circuit for an alternating current motor, the motor including a stator having at least one pole and a rotor mounted on a rotatable shaft exhibiting a circumference, said motor further including a start winding and being adapted to be coupled to a line voltage source, said circuit comprising:
- shaft pulse generating means for generating a first shaft pulse each time the shaft turns an amount equal to 360 degrees divided by the number of poles;
line pulse generating means for generating a first line pulse at a fixed proportional rate relative to the line voltage frequency;
first multiplying means, coupled to said shaft pulse generating means, for multiplying each first shaft pulse by a first constant, M, to generate M second shaft pulses for each first shaft pulse provided thereto;
second multiplying means, coupled to said line pulse generating means, for multiplying each line pulse by a second constant, N, to generate N second line pulses for each first line pulse provided thereto;
up/down counter means, coupled to said first and second multiplying means, for counting up said second line pulses and counting down said second shaft pulses, said counter means exhibiting overflow when more second line pulses are counted than second shaft pulses, said counter means exhibiting underflow when more second shaft pulses are counted than second line pulses; and
coupling means, responsive to said counter means, for coupling the start winding to the line voltage source when said counter overflows and for decoupling said start winding from said line voltage source when said counter underflows.
1 Assignment
0 Petitions
Accused Products
Abstract
A circuit is provided for controlling energization of the start winding of an alternating current motor whose shaft is divided into a number of angular segments equal to the number of poles of the motor. A shaft pulse is generated each time one of the angular segments rotates past a predetermined point. A line pulse is generated for each half cycle of line voltage. The shaft pulses are multiplied by the denominator of a selected trip-out ratio while the line pulses are multiplied by the numerator of the trip-out ratio. The multiplied shaft and line pulses are provided to an up/down counter which counts the shaft pulses down and the line pulses up. During the counter overflow condition, the circuit connects the start winding to the line voltage source. During the counter underflow condition, the circuit disconnects the start winding from the line voltage source.
52 Citations
11 Claims
-
1. A starting control circuit for an alternating current motor, the motor including a stator having at least one pole and a rotor mounted on a rotatable shaft exhibiting a circumference, said motor further including a start winding and being adapted to be coupled to a line voltage source, said circuit comprising:
-
shaft pulse generating means for generating a first shaft pulse each time the shaft turns an amount equal to 360 degrees divided by the number of poles; line pulse generating means for generating a first line pulse at a fixed proportional rate relative to the line voltage frequency; first multiplying means, coupled to said shaft pulse generating means, for multiplying each first shaft pulse by a first constant, M, to generate M second shaft pulses for each first shaft pulse provided thereto; second multiplying means, coupled to said line pulse generating means, for multiplying each line pulse by a second constant, N, to generate N second line pulses for each first line pulse provided thereto; up/down counter means, coupled to said first and second multiplying means, for counting up said second line pulses and counting down said second shaft pulses, said counter means exhibiting overflow when more second line pulses are counted than second shaft pulses, said counter means exhibiting underflow when more second shaft pulses are counted than second line pulses; and coupling means, responsive to said counter means, for coupling the start winding to the line voltage source when said counter overflows and for decoupling said start winding from said line voltage source when said counter underflows. - View Dependent Claims (2)
-
-
3. A method of controlling the start winding of an alternating current (AC) motor, the motor including a stator having a plurality of stator windings and further including a rotor mounted on a rotatable shaft, the motor being adapted to be coupled to an AC line voltage source, said method comprising:
-
generating a first shaft pulse each time the shaft turns an amount equal to 360 degrees divided by the number of poles of the motor; generating a first line pulse at a fixed proportional rate relative to the line voltage frequency; multiplying each first shaft pulse by a first constant, M, to generate M second shaft pulses for each first shaft pulse; multiplying each first line pulse by a second constant, N, to generate N second line pulses for each first line pulse; providing the second line pulses to an up/down counter to cause the counter to count up and providing the second shaft pulses to the up/down counter to cause the counter to count down; and coupling the start winding to the line voltage source when the counter overflows and decoupling the start winding from the line voltage source when the counter underflows. - View Dependent Claims (4, 5, 8)
-
-
6. A method of controlling a start winding of an alternating current (AC) split phase motor, the motor including a stator having a plurality of poles wherein P is the number of poles, the motor including a rotor mounted on a rotatable shaft, the motor being adapted to be coupled to an AC line voltage source, said method comprising:
-
providing a rotor shaft with P magnetized portions equiangularly spaced around the circumference of the shaft; providing line voltage excitation to the motor so as to effect rotation of the shaft upon energization of a start winding; generating a first shaft pulse each time one of the magnetized portions moves past a predetermined point; generating a first line pulse each time the line voltage excitation completes a line voltage cycle; multiplying each first shaft pulse by a first constant, M, to generate N second shaft pulses for each first shaft pulse; multiplying each line pulse by a second constant, N, to generate N second line pulses for each first line pulse; providing the second line pulses to an up/down counter to cause the counter to count up and providing second shaft pulses to the up/down counter to cause the counter to count down; and coupling the start winding to the line voltage source when the counter overflows and decoupling the start winding from the line voltage source when the counter underflows. - View Dependent Claims (7)
-
-
9. A method of controlling the start winding of an alternating current (AC) motor, the motor including a stator having a plurality of poles P, said motor including a rotor mounted on a rotatable shaft, the motor being adapted to be coupled to an AC line voltage source, said method comprising:
-
providing the shaft with P magnetized portions angularly spaced around the circumference of the shaft; energizing the stator with line voltage to effect rotation of the shaft when the start winding is energized; generating a first shaft pulse each time one of the P magnetized portions moves past a predetermined point; generating a first line pulse each time the line voltage completes a line voltage cycle; multiplying each first shaft pulse by a first constant, M, to generate M second shaft pulses for each first shaft pulse; multiplying each line pulse by a second constant, N, to generate N second line pulses for each first line pulse; providing the second line pulses to an up/down counter to cause the counter to count up and providing the second shaft pulses to the up/down counter to cause the counter to count down; and coupling the start winding to the line voltage source when the counter overflows and decoupling the start winding from the line voltage source when the counter underflows. - View Dependent Claims (10, 11)
-
Specification