The present invention relates to a command detecting device for driving a brushless DC motor, for example, used in air-conditioning equipment, a water heater including a fan motor for combustion, an air cleaner, and information-processing equipment such as a copier and a printer.
Conventionally, to provide a control command to a brushless DC motor (hereinafter, simply described as motor), the control command is determined by converting the value of applied analog voltage into velocity or torque in some cases. Alternatively, a control command for switching the control state is determined by a result of comparing the analog voltage value with a certain voltage value in other cases. In case of comparing the analog voltage value with the certain voltage value, a comparator having hysteresis is used as a comparator for voltage values so that a control command is not be changed in response to unintended minute fluctuations in the voltage value.
The conventional technology described in patent literature 1 moderates the voltage change of a command input with resistors and capacitors. This allows a comparator to operate so as to avoid an effects caused by chattering during a time period in which chattering is generated when the switch is changed, thereby preventing an unintended change of the control command.
The circuit to which a command input is applied is typically provided with an input range. It is required for the input range to be effectively used to receive various commands for control. However, in command detecting device 110 in the above conventional technology, a wider voltage width is required for detecting a command input.
As shown in
The conventional method using resistors and capacitors may cause fluctuation in the control command due to minute fluctuations in the command input except for the command input with its fluctuation time roughly determined such as fluctuation time caused by chattering generated when the switch is changed.
PTL 1 Japanese Patent Unexamined Publication No. S60-239116
A command detecting device of the present invention includes a comparator, a detection state selector, a time detector, and a detection time switch. The comparator compares a command input from the outside with a certain voltage value and outputs its comparison result as a first or second output state. The detection state selector selects an output state that has been determined as valid output out of the two output states from the comparator. The time detector measures a duration time of the valid output state and switches the control command when the duration time reaches a given set time. The detection time switch switches the set time for the time detector. The output state selected as a valid output state by the detection state selector is switched by the control command.
As a result, the present invention reduces a voltage width required for command detection without moving the threshold for hysteretic operation of the comparator, while suppressing fluctuations in the control command due to unintended, minute fluctuations in the command input.
Hereinafter, a detailed description of the present invention will be given below with reference to the following preferred embodiment thereof, which does not limit the scope of the invention.
As shown in
Operation of command detecting device 10 is explained using
When the command input exceeds threshold A again (time t3), time detector 40 starts measuring a duration time. When the measured duration time reaches set time X determined by detection time switch 50, the control command changes to switch the control state from state 1 to state 2 (time t4). At this moment, the signal determined as a valid signal by detection state selector 30 changes from High to Low responsive to a change of the control command, and detection state selector 30 determines the comparison signal as an invalid signal to reset the duration time. Next, when the command input falls below threshold A (time t5), time detector 40 starts measuring a duration time. When the measured duration time reaches set time Y determined by detection time switch 50, the control command for time detector 40 changes to switch the control state from state 2 to state 1.
Here, the set time determined by detection time switch 50 allows easiness of switching the control command to vary by switching the set time using the control command, where the set time does not necessarily need to be switched. The given set time determined by detection time switch 50 may be switched by any way other than by the control command.
This operation suppresses a voltage width required for command detection better than a conventional command detecting device, without hysteretic operation provided for the threshold of the comparator, while suppressing fluctuations in the control command due to unintended minute fluctuations in the command input.
As described hereinbefore, a command detecting device of the present invention includes a comparator, a detection state selector, a time detector, and a detection time switch. The comparator compares a command input from the outside with a certain voltage value and outputs its comparison result as a first or second output state. The detection state selector selects an output state that has been determined as a valid output state out of the two output states from the comparator. The time detector measures a duration time of the valid output state and switches the control command when the duration time reaches a given set time. The detection time switch switches the set time for the time detector. The output state determined as the valid state selected by the detection state selector is switched by the control command.
This operation suppresses a voltage width required for command detection without moving the threshold for hysteretic operation of the comparator, while suppressing fluctuations in the control command due to unintended minute fluctuations in the command input.
In a command detecting device of the present invention, the set time switched by the detection time switch may be switched by the control command. This allows easiness of switching the control command to vary.
INDUSTRIAL APPLICABILITY
A command detecting device of the present invention is extensively used for applications that need to suppress fluctuation in a control command due to unintended minute fluctuations in a drive device for a motor and so on.
REFERENCE MARKS IN THE DRAWINGS
10 Command detecting device
20 Comparator
30 Detection state selector
40 Time detector
50 Detection time switch
Number | Date | Country | Kind |
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2011-169842 | Aug 2011 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2012/004823 | 7/30/2012 | WO | 00 | 5/3/2013 |