Patent application number | Description | Published |
20090316535 | Stepping motor control circuit and analog electronic timepiece - The present invention aims to prevent a nonrotation state from being brought about even when a drive allowance is changed by variations in a stepping motor or the like. A pulse down counter circuit outputs pulse down control signal for subjecting main drive pulse to control pulse down when time is counted for a predetermined time period. When a detecting signal exceeding a reference threshold voltage detected by a rotation detecting circuit is detected at a first detection section at start of a rotation detecting time period, a control circuit resets the pulse down counter circuit. Thereby, a main drive pulse generating circuit is not subjected to control pulse down by the pulse down counter circuit, and therefore, it is prevented that the main drive pulse is subjected to pulse down unnecessarily. | 12-24-2009 |
20100149924 | Stepping motor controller and analog electronic timepiece - An invention allows a stepping motor to be reliably driven to rotate when initializing the driving and allows power consumption of the stepping motor to be reduced. The controller, when initializing the driving (for example, replacing a battery), controls a main drive pulse generator to drive a stepping motor using a main drive pulse having a maximum energy and sets the generation cycle of a pulse down control signal of a pulse down counter for pulsing down the main drive pulse to a first cycle to drive the stepping motor, and when pulsing down the main drive pulse to that having a predetermined energy, changes the generation cycle of the pulse down control signal of the pulse down counter to a second cycle. | 06-17-2010 |
20100164426 | Stepping motor control circuit and analogue electronic watch - A detecting period of a stepping motor is divided into a first segment for detecting an induced signal generated at least in a second quadrant by the rotation of a rotor immediately after the driving of a main driving pulse, a second segment being provided after the first segment for detecting the induced signal in a third quadrant, and a third segment provided after the second segment and the control circuit drives the stepping motor by the predetermined fixed main driving pulse having energy not smaller than the maximum energy when a rotation detecting circuit does not detect the induced signal exceeding a reference threshold voltage in the second segment at the time of the rotational driving by the main driving pulse having the maximum energy. | 07-01-2010 |
20100165796 | Stepping motor control circuit and analogue electronic watch - According to a stepping motor control circuit of the invention, a rotation detecting period is divided into a first segment for detecting an induced signal generated at least in a second quadrant by the rotation of a rotor immediately after driving of a main driving pulse, a second segment being provided after the first segment for detecting the induced signal in a third quadrant, and a third segment provided after the second segment and, when a stepping motor detects the induced signal exceeding a reference threshold voltage in the first segment and the second segment, a control circuit controls a pulse down counter circuit to output a pulse down control signal. | 07-01-2010 |
20100172219 | Stepping motor control circuit and analogue electronic timepiece - The present invention aims to prevent a main drive pulse from being moved to a rank having a potential to cause a non-rotating state. A detection segment for detecting a rotating state of a stepping motor is divided into a first segment immediately after the drive with a main drive pulse, a second segment, and a third segment and, when the stepping motor is rotated by the main drive pulse, the main drive pulse is not changed when a detection signal exceeding a reference threshold voltage is detected at least in the first and second segments. When it is detected only in the first and third segments, or detected only in the third segment, the rank is moved upward and, when it is not detected in any segment, or detected only in the first segment, the rank is moved upward after the drive with a corrective drive pulse. When it is detected only in the second segment or detected only in the second and third segments, the rank is moved downward. | 07-08-2010 |
20100220556 | Stepping motor control circuit and analog electronic watch - A stepping motor control circuit includes a rotation detecting means which detects an induced signal generated by rotation of a rotor of a stepping motor, and detects a rotation state of the stepping motor according to whether the induced signal exceeds a predetermined reference threshold voltage in a predetermined detection section, and a control means which controls driving of the stepping motor by using any one of a plurality of main driving pulses having energies different from each other or a correction driving pulse having energy higher than energy of each main driving pulse according to a detection result of the rotation detecting means. The control means allows the main driving pulse to be down when a rotation state, in which an extra driving force of the main driving pulse is small, continuously occurs by a predetermined first number of times, and allows the main driving pulse to be down even if the rotation state having a small extra driving force does not continuously occur by the predetermined first number of times when a rotation state having a large extra driving force is large has occurred under a condition in which at least the rotation state having the small extra driving force continuously occurs. | 09-02-2010 |
20100238767 | Stepping motor control circuit and analog electronic watch - A stepping motor control circuit includes a rotation detecting means which detects an induced signal generated by rotation of a rotor of a stepping motor, and detects a rotation state of the stepping motor according to whether the induced signal exceeds a predetermined reference threshold voltage in a predetermined detection section, and a control means which controls driving of the stepping motor by using any one of a plurality of main driving pulses having energies different from each other or a correction driving pulse with energy higher than energy of each main driving pulse according to a detection result of the rotation detecting means. The detection section is divided into a first section immediately after driving by the main driving pulse, a second section after the first section and a third section after the second section. During the driving of the stepping motor by the main driving pulse, when the rotation detecting means has detected an induced signal exceeding a first reference threshold voltage in the first section and the second section, if an induced signal exceeding a second reference threshold voltage lower than the first reference threshold voltage is not detected in the third section, the control means drives the stepping motor by using the correction driving pulse. | 09-23-2010 |
20100238768 | Stepping motor control circuit and analogue electronic timepiece - A stepping motor control circuit and an analogue electronic timepiece can optimize a rank change operation of a main drive pulse by properly determining an available driving force thus realizing the reduction of the power consumption. A detection interval in which a rotation state of a stepping motor is detected is divided into a first interval immediately after driving with a main drive pulse, a second interval which comes after the first interval, and a third interval which comes after the second interval, and a rotation state is detected. A control circuit looks up an interval table which makes respective main drive pulses stored in the control circuit and a length of the second interval, sets the second interval which corresponds to energy of the present main drive pulse. A detection interval determination circuit determines the interval or the intervals in which an induction signal which exceeds a reference threshold voltage is generated. The control circuit performs a pulse control of the main drive pulse based on the determination. | 09-23-2010 |
20100254226 | Stepping motor control circuit and analog electronic watch - A stepping motor control circuit includes a rotation detecting means for detecting an induced signal generated by rotation of a rotor of a stepping motor, and detecting a rotation state of the stepping motor according to whether the induced signal exceeds a predetermined reference threshold voltage in a predetermined detection section, and a control means for controlling driving of the stepping motor by using any one of a plurality of main driving pulses having energy different from each other or a correction driving pulse having energy higher than energy of each main driving pulse according to a detection result of the rotation detecting means. The detection section is divided into a first section immediately after driving with the main driving pulse, a second section after the first section, a third section after the second section, and a fourth section after the third section, and the control means lengthens the third section subsequent to the second section when the rotation detecting means has detected an induced signal exceeding the reference threshold voltage in the second section, and controls the driving of the stepping motor by selecting a driving pulse based on a pattern of an induced signal in the first to fourth sections. | 10-07-2010 |
20100270965 | Stepping motor control circuit and analog electronic watch - A stepping motor control circuit includes a rotation detecting means for detecting an induced signal generated by rotation of a rotor of a stepping motor, and detecting a rotation state of the stepping motor according to whether the induced signal exceeds a predetermined reference threshold voltage in a predetermined detection section, and a control means for controlling driving of the stepping motor by using any one of a plurality of main driving pulses having energy different from each other or a correction driving pulse having energy higher than energy of each main driving pulse according to a detection result of the rotation detecting means. The detection section is divided into a first section immediately after driving with the main driving pulse, a second section after the first section, a third section after the second section, and a fourth section after the third section, and the control means lengthens at least one of the first and second sections when the rotation detecting means has detected an induced signal exceeding the reference threshold voltage in the second section. | 10-28-2010 |
20100295499 | Stepping motor control circuit and analog electronic timepiece - When a reset operation or the driving by a correction drive pulse P | 11-25-2010 |
20110002197 | Integrated circuit for electronic timepiece and electronic timepiece - In response to a system reset signal inputted into a system reset port, a control circuit sets a general-purpose port to a high level first. Then, when a mode A is set in an integrated circuit for electronic timepiece, the control circuit sets the general-purpose output port to a low level after an elapse of a first time and when a mode B is set, it sets the general-purpose output port to a low level after an elapse of a second time. In this manner, a mode information signal having a pulse width corresponding to the mode is outputted from the general-purpose output port. It thus becomes possible to reduce the size without adding a special configuration for mode confirmation and to perform a confirmation in a short time. | 01-06-2011 |
20110007610 | Chronograph timepiece - In a chronograph timepiece in which the chronograph hands are electrically rotated by a motor drive pulse and are mechanically zero-restoring-controlled, a basic drive control unit controls a motor so as to drive the chronograph hands when it is detected by a contact portion and a setting releasing detection portion that the setting of the chronograph hands by a setting mechanism has been released. | 01-13-2011 |
20110007611 | Chronograph timepiece - In response to an instruction to start time measurement given by a start/stop button, an in-phase drive control unit outputs an in-phase control signal of a predetermined time width to a drive pulse generation circuit such that a stepping motor is driven, instead of by a first drive pulse, by an initial drive pulse of a longer drive time than the drive pulse. The drive pulse generation circuit rotates the stepping motor by a motor drive signal including a plurality of in-phase main drive pulses. The stepping motor is rotated by one of the main drive pulses included by the motor drive signal to rotate the chronograph hands. | 01-13-2011 |
20110013492 | Chronograph timepiece - A chronograph timepiece makes it possible to make sure that it normally operates at the time of an initial starting operation such as system resetting without having to perform a difficult operation or the like. When a system reset signal is input to a system reset terminal and it is detected that initial starting has been effected, a processing unit enables a time hand and a chronograph hand to move after permitting the time hand to perform a predetermined demonstration hand movement when both a start/stop switch and a reset switch have not been simultaneously operated; when these switches have been simultaneously operated, the processing unit enables the time hand and the chronograph hand to move without permitting demonstration hand movement. | 01-20-2011 |
20110013493 | Chronograph timepiece - When it is judged that a chronograph second counter and a chronograph minute counter have measured a maximum measurement time, a maximum measurement control unit controls a drive pulse generation circuit so as to drive and stop a motor such that chronograph hand stops at predetermined positions. When, in this state, a restarting operation is performed on a start/stop button, a normal chronograph measurement operation is restarted. At this time, a mechanical structure has been restored to a reset state, so that even at the time of restarting after the measurement of the maximum measurement time, the load at the starting operation is the same as that of the normal operation, thus generating no sense of incongruity. | 01-20-2011 |
20110026370 | Chronograph timepiece - Disclosed is a chronograph timepiece in which it is possible to prevent the battery reliability service life time from being exceeded even when the period of time that the chronograph function is used is short, making it possible to prevent failure generation in the chronograph timepiece due to liquid leakage. A 24-hour counter down-counts a period of time that has elapsed starting from 24 hours, and a chronograph counter down-counts the period of time that chronograph measurement operation is performed from a predetermined time; when the count values of the 24-hour counter and the chronograph counter become equal to each other, a processing unit consumes a battery for the residual period of time of the two counters by a battery power consuming unit. | 02-03-2011 |
20110026371 | Chronograph timepiece - Disclosed is a chronograph timepiece in which it is possible to prevent the chronograph drive timing and the magnetic field detection timing from overlapping each other to unnecessarily effect driving with correction drive pulses. A processing unit controls drive circuits so as to drive a time indication motor and a chronograph indication motor with a predetermined timing based respectively on timekeeping information obtained and chronograph measurement information obtained, and effects control such that a magnetic field detecting unit detects a magnetic field with a predetermined timing; when the drive timing for the chronograph indication motor and the magnetic field detection timing for the magnetic field detecting unit overlap each other, the processing unit changes the magnetic field detection timing for the magnetic field detecting unit so that the drive timing for the chronograph indication motor and the magnetic field detection timing for the magnetic field detecting unit may not overlap each other. | 02-03-2011 |
20110026372 | Chronograph timepiece - Disclosed is a chronograph timepiece in which it is possible to prevent a non-rotation state at the time of first driving when chronograph measuring operation is reset during motor drive and restarting is effected. When a resetting operation is performed on a reset button during the driving of a motor and a rotation detection circuit detects non-rotation, a drive control unit controls a drive pulse generation circuit such that the control is completed without reversing the polarity of a motor drive pulse output from the drive pulse generation circuit, and that the motor is driven by a drive pulse of the same polarity as that at the time of the previous resetting in response to a starting operation performed on a start/stop button, driving the motor by the drive pulse of the same polarity at the time of restarting after the resetting. | 02-03-2011 |
20110026375 | Stepping motor control circuit and analogue electronic timepiece - When a stepping motor is driven to rotate by a main driving pulse, if an induced signal exceeding a reference threshold voltage is detected only in a third segment, a pulse down operation is performed, and the main driving pulse is not changed when the same is detected in at least a first and the third segments. When it is detected only in a second and the third segments, a rank-up is performed without performing the driving by a correction drive pulse and, when it is not detected in at least the third segment, the rank up operation is performed after the driving by the correction driving pulse. | 02-03-2011 |
20110080132 | Stepping motor control circuit and analogue electronic watch - The invention is intended to detect whether or not a stepping motor is rotated when being driven immediately after a pulse-down control accurately. A control unit drives the stepping motor with a first main drive pulse after the pulse-down control, and then drives the same with a correction drive pulse. A second detection circuit detects a state of rotation on the basis of a current flowing through the stepping motor when being driven with the correction drive pulse. The control circuit controls a drive pulse selection circuit so as to select the main drive pulse to be used for the next time on the basis of a result of detection of the second detection circuit. The drive pulse selection circuit rotates the stepping motor with the main drive pulse corresponding to a control signal. | 04-07-2011 |
20110122733 | Stepping motor control circuit and analog electronic timepiece - A stepping motor control circuit includes a rotation detection portion that detects a rotation condition of a stepping motor, and a control portion that drives and controls the stepping motor by a correction drive pulse P | 05-26-2011 |
20110122734 | Chronograph timepiece - Disclosed is a chronograph timepiece whose chronograph hands are electrically drive-controlled and mechanically zero-restoring-controlled, wherein it possible to perform a normal operation at the time of start operation and reset operation. After a mechanical control unit releases the setting of chronograph hands in response to the start operation of a start/stop button, a contact portion is placed in a start state, and an electrical control unit starts a time measurement operation to electrically hand-movement-drive the chronograph hands, and, after a contact portion is placed in a reset state in response to a reset operation of a reset button and the electrical control unit electrically resets the time measurement operation, the mechanical control unit mechanically zero-restores and sets the chronograph hands. | 05-26-2011 |
20110128826 | Chronograph timepiece - In a chronograph timepiece of a construction in which chronograph hands are electrically drive-controlled and mechanically zero-restoring-controlled, even when backlash is generated due to zero-restoring, the chronograph hands are normally moved at the time of the next time measurement start. A chronograph timepiece includes a drive control unit starting a time measurement operation in response to a start operation of a start/stop button, electrically hand-movement-driving chronograph hands by driving a chronograph hand movement motor according to the time measured, and resetting the time measurement operation in response to a reset operation of a reset button, and a mechanical structure mechanically zero-restoring and setting the chronograph hands in response to the reset operation, wherein the drive control unit drives the chronograph hand movement motor by a predetermined amount even after the reset operation has been performed. | 06-02-2011 |
20110158053 | Chronograph timepiece - Provided is a chronograph timepiece to perform a system reset by an easy-to-understand operation for users, including a crown, an operating unit that at least starts and resets a time period measurement, a time hand drive unit that keeps time of day based on a clock signal for electrically driving a time hand so as to indicate the timed time of day, a chronograph hand drive unit that measures a time period based on a chronograph signal in response to the start for electrically driving a chronograph hand so as to indicate a measured time period and to reset the time period measurement in response to the reset directed by the operating unit, and a control unit that resets the time hand drive unit in response to a reset directed by the crown and resets the chronograph hand drive unit in response to the reset directed by the operating unit. | 06-30-2011 |
20110216630 | Electronic timepiece - An electronic timepiece can reduce a burden imposed on a user who performs a manipulation for correcting the positional displacement of a pointer when a position of the pointer is displaced due to the demonstration of the pointer movement. The electronic timepiece includes: a pointer which is rotated in a first direction based on a manipulation signal corresponding to a manipulation from the outside; and a control part which performs the demonstration of the pointer movement in which the pointer is rotated in a second direction opposite to the first direction and the first direction, wherein the pointer is positioned at a position where a rotational angle in the first direction from a preset reference position is smaller than a rotational angle in a second direction from the reference position. | 09-08-2011 |
20110235472 | Stepping motor control circuit and analog electronic timepiece - A stepping motor control circuit and an analog electronic timepiece which can detect a rotation state including intermediate stopping more accurately are provided. A rotation detection circuit, in detecting whether or not an induction signal generated by the rotation of a stepping motor exceeds a predetermined reference threshold voltage during a detection period having a plurality of sections, detects whether or not the induction signal with inverted polarity exceeds a predetermined reference threshold voltage during a predetermined section, and a control unit immediately performs a drive control of the stepping motor with a correction drive pulse when it is determined that there is a sign of intermediate stopping of the stepping motor based on a result of detection by the rotation detection circuit. | 09-29-2011 |
20110249536 | Chronograph timepiece - For a chronograph timepiece that chronograph hands are mechanically reset to zero and electrically driven, the chronograph hands are prevented from being electrically driven while being mechanically locked. A chronograph timepiece that is mechanically reset to zero includes a chronograph motor for driving a chronograph hand, a drive unit configured to drive the chronograph motor according a time measurement operation in response to a starting operation by an operating section, and a control unit configured to control the drive unit. The control unit has a rotation detecting circuit for detecting a rotation status of the chronograph motor. When the rotation detecting circuit detects that the chronograph motor is not rotated after the chronograph motor has been rotated a predetermined time period, driving the chronograph motor by the drive unit is stopped for resetting the time measurement operation. | 10-13-2011 |
20110310317 | Display device and electronic apparatus using display device - A display driving circuit drives common terminals connected to display components using a scanning signal of a predetermined period and drives segment terminals using a segment signal synchronized with the scanning signal, so that the display components perform a display corresponding to the display signal from the control circuit. The common terminals and the segment terminals are able to be independently driven. At this time, the common terminals are separated into a plurality of common terminal blocks and are driven and the number of separated common terminal blocks is variable. | 12-22-2011 |
20120057435 | Drive control apparatus, timepiece apparatus, and electronic apparatus - The invention is intended to allow a motor to be driven normally even when an output voltage of a primary power source unit varies. A motor drive control unit configured to attenuate a charge of a secondary cell by an electromotive force of a solar cell to a level lower than the charge at that moment before driving the motor, and then intensify the charge of a level higher than the charge at that moment after having driven the motor is provided. | 03-08-2012 |
20120057437 | Power supply unit and electronic timepiece - A power supply unit includes: a first power supply circuit that supplies a voltage to a load driving unit that drives a load unit; a second power supply circuit that supplies a voltage to circuits other than the load driving unit; and a control unit that switches the voltage supplied to the first power supply circuit and the voltage supplied to the second power supply circuit in accordance with properties of the load driving unit. | 03-08-2012 |
20120307598 | ELECTRONIC APPARATUS AND ELECTRONIC TIMEPIECE - A power generating unit generates electric power according to light incident on a light-receiving surface. A power storage unit stores the electric power generated by the power generating unit and outputs the stored electric power. A generated-power voltage detecting unit detects the voltage of the electric power generated by the power generating unit. A stored electricity voltage detecting unit detects the voltage output from the power storage unit. A display unit displays a character or an image. The display control unit changes contents to be displayed on the display unit on the basis of the voltage of the electric power generated by the power generating unit, which is detected by the generated-power voltage detecting unit, and the voltage of the electric power output from the power storage unit, which is detected by the stored electricity voltage detecting unit. | 12-06-2012 |
20130003508 | ELECTRONIC APPARATUS - An electronic apparatus includes a first frequency division portion that frequency-divides a clock signal by a first frequency division ratio, a second frequency division portion that frequency-divides the first clock signal which has been frequency-divided by the first frequency division portion by a second frequency division ratio, and a regulation frequency division portion that performs logical regulation of the clock signal using a second clock signal which has been frequency-divided by the second frequency division portion. | 01-03-2013 |
20150039263 | ELECTRONIC APPARATUS AND PROGRAM - An electronic apparatus includes a display unit, an altitude measurement unit that measures an altitude, key input means for receiving an operation input, and a CPU that starts recording of altitude information regarding an altitude measured by the altitude measurement unit at a predetermined time interval if the key input means receives an input for instructing starting of recording of an altitude, stops the recording of the altitude information if the key input means receives an input for instructing stopping of recording of an altitude, and displays the altitude information when the recording starts on the display unit if the key input means receives an input for instructing display of the altitude information in a state in which the altitude information is currently recorded. | 02-05-2015 |