Amplifier and method for detecting the bemf of a coil of a polyphase sensorless DC motor
First Claim
1. A circuit for detecting a back emf signal of a motor coil, comprising:
- circuitry for providing a differential voltage proportional to the back emf of the motor coil;
circuitry for adding a first hysteresis bias current to said circuitry for providing a differential voltage, to modify the produced differential voltage;
circuitry for adding a second hysteresis bias current to said circuitry for providing a differential voltage, to modify the produced differential voltage responsive to the back emf approaching a zero crossing from a predetermined direction, said second hysteresis bias current opposing and of greater magnitude than said first hysteresis bias current; and
a comparator connected to receive the modified differential voltage to produce an output state change when the modified differential voltage exceeds a predetermined value.
0 Assignments
0 Petitions
Accused Products
Abstract
A circuit and method for detecting when the back emf of a motor coil passes a predetermined level includes circuitry for providing a voltage proportional to the back emf of the motor coil, and circuitry for providing a voltage proportional to a reference potential. A first bias voltage is added to the voltage proportional to the back emf to produce a first added voltage, and a second bias voltage is added to the reference potential when the back emf of the motor coil is expected to change in a predetermined direction to produce a second added voltage. A comparator produces an output change when the first added voltage becomes larger than the second added voltage at the predetermined level.
32 Citations
33 Claims
-
1. A circuit for detecting a back emf signal of a motor coil, comprising:
-
circuitry for providing a differential voltage proportional to the back emf of the motor coil; circuitry for adding a first hysteresis bias current to said circuitry for providing a differential voltage, to modify the produced differential voltage; circuitry for adding a second hysteresis bias current to said circuitry for providing a differential voltage, to modify the produced differential voltage responsive to the back emf approaching a zero crossing from a predetermined direction, said second hysteresis bias current opposing and of greater magnitude than said first hysteresis bias current; and a comparator connected to receive the modified differential voltage to produce an output state change when the modified differential voltage exceeds a predetermined value. - View Dependent Claims (2, 3, 4, 5)
-
-
6. A circuit for detecting a back emf signal of a motor coil for use in determining a position of the rotor of the motor, comprising:
-
a comparator; first and second current paths each comprising a current control element and at least one resistor element on which a voltage is developed in response to a current in the current path, the voltage on each resistor element being connected to respective inputs of said comparator; one end of said motor coil being connected to said current control element of said first current path, and a reference potential being connected to said current control element of said second current path, whereby the back emf signal across said coil produces a change in voltage across the resistor element of said first current path with respect to the voltage across the resistor element of said second current path; means for selectively producing a first signal during detection of the back emf signal developed in said motor coil when the back emf signal approaches a zero crossing from a predetermined direction; means for biasing said first current path with a preset bias current; means for switchably biasing said second current path with an increased preset bias current; and a switch operative in response to said first signal to switchably apply the increased preset bias current to said second current path, said comparator producing an output state change when the back emf signal of said motor coil exceeds a value determined by said preset bias current. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
-
-
17. A back emf signal amplifier for amplifying a back emf signal of a field coil of a polyphase sensorless dc motor, comprising:
-
a comparator; first and second balanced current paths, each current path comprising; a transistor having a current path, and two resistive elements, said current path of said transistor and said two resistive elements being connected in series with said current path and one of said two resistive elements being connected at a first node, and said two resistive elements being connected at a second node; the first node of said first current path and the first node of said second current path being connected to respective inputs of said comparator; one end of said field coil being connected to a control terminal of said transistor of said first current path, and a reference potential being connected to a control terminal of said transistor of said second current path, whereby the back emf signal across said field coil produces a change in voltage at said first node of said first current path with respect to the voltage on the fist node of said second current path; a circuit for selectively producing a first signal during detection of the back emf signal developed in said field coil when the back emf signal approaches a zero crossing from a predetermined direction; circuitry for biasing said first current path with a preset bias current connected to said second node of said first current path; circuitry for switchably biasing said second current path with an increased preset bias current connected to said second node of said second current path; a switch operative in response to said first signal to switchably apply the increased preset bias current to said second current path, said comparator producing an output state change when the back emf signal of said motor coil exceeds a value determined by said preset bias current; circuitry for biasing said second current path with a hysteresis bias current connected to said second node of said second current path; circuitry for switchably biasing said first current path with an increased hysteresis bias current connected to said second node of said first current path; and a switch operative in response to the output state change of said comparator to switchably apply the increased hysteresis bias current to said first current path. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24, 26)
-
-
25. A method for detecting a back emf signal of a motor coil for use in determining a position of the rotor of the motor, comprising:
-
generating a first voltage, proportional to a voltage on said motor coil with respect to a reference potential; generating a second voltage, proportional to said reference potential, of the same proportional ratio as said first voltage is proportional to the voltage on said motor coil; selectively generating a first signal during a detection period of the back emf signal developed in said motor coil, responsive to the back emf signal approaching a zero crossing from a predetermined direction; adding a first fixed bias voltage to said second voltage to produce a first added voltage; in response to said first signal, switchably adding a second fixed bias voltage higher than said first fixed bias voltage to said first voltage to produce a second added voltage; and comparing said first and second added voltages to produce an output voltage corresponding to the back emf signal on the motor coil. - View Dependent Claims (27, 28)
-
-
29. A method for operating a polyphase sensorless dc motor, comprising:
-
commutating field coil voltages in response to a back emf signal of a floating field coil crossing a reference voltage, the crossing being determined by; generating a differential voltage proportional to voltage on said floating coil with respect to a reference potential; selectively generating a first signal during detection of the back emf signal developed in said floating coils when the back emf signal approaches a zero crossing from a predetermined direction; adding a first fixed bias voltage to said differential voltage to produce a first added voltage; in response to said first signal, switchably adding a second fixed bias voltage larger than said first fixed bias voltage and of opposite polarity to said differential voltage to produce a second added voltage; and determining when the total resulting differential voltage crosses zero to produce an output voltage for timing said field coil commutation. - View Dependent Claims (30, 31, 32)
-
-
33. A method for operating a polyphase sensorless dc motor comprising:
-
amplifying a back emf signal of a selected floating field coil of said motor; comparing said amplified back emf signal to a predetermined reference voltage; determining when the slope of the back emf signal changes in said selected floating field coil; and modifying the predetermined reference voltage in response to said slope changes.
-
Specification