Claims
- 1. A starter for use with a brushless motor having a rotor, said starter comprising:
- an inverter operable to convert a DC voltage into an AC voltage to drive the brushless motor;
- a reverse induction voltage detector circuit operable to detect a rotational position of the rotor from a reverse induction voltage of the brushless motor;
- a commutator circuit operable to generate a waveform from a signal of said reverse induction voltage detector circuit to drive said inverter;
- a starting circuit operable to output a waveform required to start the brushless motor;
- a first compulsory output circuit operable to output, for a specified time interval, a waveform having a voltage and a frequency at a level at which the brushless motor does not rotate; and
- a switching circuit operable to select an output of said first compulsory output circuit when the brushless motor is started, then selecting an output of said starting circuit, and finally selecting an output of said commutator circuit so as to operate said inverter.
- 2. A starter for use with a brushless motor having a rotor, said starter comprising:
- an inverter operable to convert a DC voltage into an AC voltage to drive the brushless motor;
- a reverse induction voltage detector circuit operable to detect a rotational position of the rotor from a reverse induction voltage of the brushless motor;
- a commutator circuit operable to generate a waveform from a signal of said reverse induction voltage detector circuit to drive said inverter;
- a starting circuit operable to output a waveform required to start the brushless motor;
- a compulsory output circuit operable to output a waveform having a voltage and a frequency at a level at which the brushless motor does not rotate;
- a power closing detection circuit operable to detect and indicate that a power is closed; and
- a switching circuit operable to select an output of said compulsory output circuit to operate said inverter when said power closing decision circuit indicates that the power is closed.
- 3. A starter for use with a brushless motor having a rotor, said starter comprising:
- an inverter operable to convert a DC voltage into an AC voltage to drive the brushless motor;
- a reverse induction voltage detector circuit operable to detect a rotational position of the rotor from a reverse induction voltage of the brushless motor;
- a commutator circuit operable to generate a waveform from a signal of said reverse induction voltage detector circuit to drive said inverter;
- a starting circuit operable to output a waveform required to start the brushless motor;
- a power closing detection circuit operable to detect and indicate that a power is closed;
- a decision circuit operable to detect whether or not operation of the motor is stabilized from the signal of said reverse induction voltage detector circuit;
- a compulsory output circuit operable to output a waveform having a voltage and a frequency at a level at which the brushless motor does not rotate, said compulsory output circuit operable to stop the output of the waveform when said decision circuit detects that the operation of the motor is stable; and
- a switching circuit operable to select an output of said compulsory output circuit to operate said inverter when said power closing decision circuit indicates that the power is closed.
- 4. A starter for use with a brushless motor having a rotor, said starter comprising:
- an inverter operable to convert a DC voltage into an AC voltage to drive the brushless motor;
- a reverse induction voltage detector circuit operable to detect a rotational position of the rotor from a reverse induction voltage of the brushless motor;
- a commutator circuit operable to generate a waveform from a signal of said reverse induction voltage detector circuit to drive said inverter;
- a starting circuit operable to output a waveform required to start the brushless motor;
- a power closing decision circuit operable to detect and indicate that a power is closed;
- a decision circuit operable to detect whether or not operation of the motor is stabilized from the signal of said reverse induction voltage detector circuit;
- a timer circuit operable to start a timing operation when the power is closed;
- a compulsory output circuit operable to output a waveform having a voltage and a frequency at a level at which the brushless motor does not rotate, said compulsory output circuit operable to stop the output of the waveform when said decision circuit detects that the motor operation is stable or when said timer circuit has completed counting of a specified time interval; and
- a switching circuit operable to select an output of said compulsory output circuit to operate said inverter when said power closing decision circuit indicates that the power is closed.
Priority Claims (3)
Number |
Date |
Country |
Kind |
7-54326 |
Mar 1995 |
JPX |
|
7-54327 |
Mar 1995 |
JPX |
|
7-160399 |
Jun 1995 |
JPX |
|
Parent Case Info
This is a Divisional application of Ser. No. 08/737,234 filed on Nov. 13, 1996, now U.S. Pat. No. 5,857,349.
US Referenced Citations (21)
Foreign Referenced Citations (3)
Number |
Date |
Country |
553 354 |
Aug 1993 |
EPX |
621 681 |
Oct 1994 |
EPX |
63-194587 |
Nov 1988 |
JPX |
Divisions (1)
|
Number |
Date |
Country |
Parent |
737234 |
Nov 1996 |
|