Universal single phase motor starting control apparatus
First Claim
1. A control circuit for controlling the energization of the start winding of an electric motor having a main winding and a start winding both connectable with a source of a-c power comprising:
- pulse transformer means for providing a pulse each time a reference a-c current crosses zero;
a solid state switch having two main electrodes and a gate electrode to control the conductivity of the switch, the two main electrodes serially connectable to the start winding to control energization thereof;
means responsive to the pulse coupled to the gate electrode and the start winding for rendering the switch conductive for each half cycle of start winding current only as long as the start winding current passes through zero prior to the occurrence of the pulse.
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Accused Products
Abstract
A starting circuit for single phase electric motors including both split-phase and capacitor start motors includes a gate controlled solid state switch serially connected to the start winding of the motor. Rectified reference pulses from a pulse transformer are generated to turn on a first transistor to provide gating current for the solid state switch. Initially, when the motor is energized at zero rpm, the pulses are received at the switch after the start winding current passes through the zero current level to gate the switch to conduct each half cycle and energize the start winding however as the motor speeds up, the pulses are received earlier and earlier relative to the start winding current zero cross over until at a selected speed the pulses are received at the switch prior to the start winding current zero cross over with the result that the switch is no longer gated conductive. When this occurs, the voltage across the switch goes high. This voltage is rectified and received at the base of a second transistor adapted to shunt the pulses from the pulse transformer away from the first transistor to lock out the switch with the start winding deenergized. In a first embodiment the pulse transformer is energized by the main winding current to directly employ the phase difference between main winding current and start winding current while in a second embodiment the pulse transformer is energized by line current to directly employ the phase difference between line current and start winding current.
65 Citations
15 Claims
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1. A control circuit for controlling the energization of the start winding of an electric motor having a main winding and a start winding both connectable with a source of a-c power comprising:
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pulse transformer means for providing a pulse each time a reference a-c current crosses zero; a solid state switch having two main electrodes and a gate electrode to control the conductivity of the switch, the two main electrodes serially connectable to the start winding to control energization thereof; means responsive to the pulse coupled to the gate electrode and the start winding for rendering the switch conductive for each half cycle of start winding current only as long as the start winding current passes through zero prior to the occurrence of the pulse. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A control circuit for controlling the energization of the start winding of an electric motor and for locking out the start winding upon deenergization thereof, the motor having a main winding and a start winding both connectable with a source of a-c power comprising:
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signal means for providing a signal each time a reference a-c current crosses zero; a triac having two main electrodes and a gate electrode, the two main electrodes serially connectable to the start winding to control energization thereof; means responsive to the signal coupled to the gate electrode and the start winding for rendering the triac conductive for each half cycle of start winding current as long as the start winding current passes through zero prior to the occurrence of the signal; lockout means to preclude triac conduction when the start winding current passes through zero after the occurrence of the signal including a transistor having a collector-emitter circuit coupled to the signal means and adapted to shunt the signal away from the said means responsive to the signal when the transistor is turned on, and voltage responsive means coupled to the triac and the base of the transistor so that when there is a high voltage across the triac, the transistor will be turned on to thereby lock out the triac. - View Dependent Claims (12, 13, 14)
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15. A control circuit for controlling the operation of an induction motor having a start winding and a main winding energized by an alternating current energy source and for deenergizing the start winding in response to a phase crossing between the main winding current and the start winding current comprising,
a three terminal solid state switch means having a pair of terminals connectable in series circuit relationship with the start winding and a gate terminal, pulse generating means connectable to the main winding for producing a narrow pulse each time the main winding current crosses zero, trigger circuit means for energizing the solid state switch means, the trigger circuit means having a first transistor coupled to the gate of the solid state switch and adapted to energize the switch when the transistor is conductive, the pulse generating means connected to the first transistor so that a pulse transmitted from the pulse generating means to the first transistor will render it conductive, lockout circuit means including a second transistor connected in parallel circuit relationship with the first transistor and means responsive to a preselected voltage across the solid state switch means to turn on the second transistor to shunt the pulses from the pulse generating means away from the first transistor thereby preventing the triggering of the solid state switch and deenergizing the start circuit.
Specification